simstring-1.0/0000777000076400007640000000000011344663437010421 500000000000000simstring-1.0/config.guess0000755000076400007640000013226411344662065012661 00000000000000#! /bin/sh # Attempt to guess a canonical system name. # Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, # 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 # Free Software Foundation, Inc. timestamp='2009-04-27' # This file is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA # 02110-1301, USA. # # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. # Originally written by Per Bothner . # Please send patches to . Submit a context # diff and a properly formatted ChangeLog entry. # # This script attempts to guess a canonical system name similar to # config.sub. If it succeeds, it prints the system name on stdout, and # exits with 0. Otherwise, it exits with 1. # # The plan is that this can be called by configure scripts if you # don't specify an explicit build system type. me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] Output the configuration name of the system \`$me' is run on. Operation modes: -h, --help print this help, then exit -t, --time-stamp print date of last modification, then exit -v, --version print version number, then exit Report bugs and patches to ." version="\ GNU config.guess ($timestamp) Originally written by Per Bothner. Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." help=" Try \`$me --help' for more information." # Parse command line while test $# -gt 0 ; do case $1 in --time-stamp | --time* | -t ) echo "$timestamp" ; exit ;; --version | -v ) echo "$version" ; exit ;; --help | --h* | -h ) echo "$usage"; exit ;; -- ) # Stop option processing shift; break ;; - ) # Use stdin as input. break ;; -* ) echo "$me: invalid option $1$help" >&2 exit 1 ;; * ) break ;; esac done if test $# != 0; then echo "$me: too many arguments$help" >&2 exit 1 fi trap 'exit 1' 1 2 15 # CC_FOR_BUILD -- compiler used by this script. Note that the use of a # compiler to aid in system detection is discouraged as it requires # temporary files to be created and, as you can see below, it is a # headache to deal with in a portable fashion. # Historically, `CC_FOR_BUILD' used to be named `HOST_CC'. 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Ake) contributed MIS and NILE. if test "`(/bin/universe) 2>/dev/null`" = att ; then echo pyramid-pyramid-sysv3 else echo pyramid-pyramid-bsd fi exit ;; NILE*:*:*:dcosx) echo pyramid-pyramid-svr4 exit ;; DRS?6000:unix:4.0:6*) echo sparc-icl-nx6 exit ;; DRS?6000:UNIX_SV:4.2*:7* | DRS?6000:isis:4.2*:7*) case `/usr/bin/uname -p` in sparc) echo sparc-icl-nx7; exit ;; esac ;; s390x:SunOS:*:*) echo ${UNAME_MACHINE}-ibm-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4H:SunOS:5.*:*) echo sparc-hal-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4*:SunOS:5.*:* | tadpole*:SunOS:5.*:*) echo sparc-sun-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; i86pc:SunOS:5.*:* | i86xen:SunOS:5.*:*) eval $set_cc_for_build SUN_ARCH="i386" # If there is a compiler, see if it is configured for 64-bit objects. # Note that the Sun cc does not turn __LP64__ into 1 like gcc does. # This test works for both compilers. if [ "$CC_FOR_BUILD" != 'no_compiler_found' ]; then if (echo '#ifdef __amd64'; echo IS_64BIT_ARCH; echo '#endif') | \ (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | \ grep IS_64BIT_ARCH >/dev/null then SUN_ARCH="x86_64" fi fi echo ${SUN_ARCH}-pc-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4*:SunOS:6*:*) # According to config.sub, this is the proper way to canonicalize # SunOS6. 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The system name ranges from "MiNT" over "FreeMiNT" # to the lowercase version "mint" (or "freemint"). Finally # the system name "TOS" denotes a system which is actually not # MiNT. But MiNT is downward compatible to TOS, so this should # be no problem. atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; atari*:*MiNT:*:* | atari*:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; *falcon*:*MiNT:*:* | *falcon*:*mint:*:* | *falcon*:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; milan*:*MiNT:*:* | milan*:*mint:*:* | *milan*:*TOS:*:*) echo m68k-milan-mint${UNAME_RELEASE} exit ;; hades*:*MiNT:*:* | hades*:*mint:*:* | *hades*:*TOS:*:*) echo m68k-hades-mint${UNAME_RELEASE} exit ;; *:*MiNT:*:* | *:*mint:*:* | *:*TOS:*:*) echo m68k-unknown-mint${UNAME_RELEASE} exit ;; m68k:machten:*:*) echo m68k-apple-machten${UNAME_RELEASE} exit ;; powerpc:machten:*:*) echo powerpc-apple-machten${UNAME_RELEASE} exit ;; RISC*:Mach:*:*) echo mips-dec-mach_bsd4.3 exit ;; RISC*:ULTRIX:*:*) echo mips-dec-ultrix${UNAME_RELEASE} exit ;; VAX*:ULTRIX*:*:*) echo vax-dec-ultrix${UNAME_RELEASE} exit ;; 2020:CLIX:*:* | 2430:CLIX:*:*) echo clipper-intergraph-clix${UNAME_RELEASE} exit ;; mips:*:*:UMIPS | mips:*:*:RISCos) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #ifdef __cplusplus #include /* for printf() prototype */ int main (int argc, char *argv[]) { #else int main (argc, argv) int argc; char *argv[]; { #endif #if defined (host_mips) && defined (MIPSEB) #if defined (SYSTYPE_SYSV) printf ("mips-mips-riscos%ssysv\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_SVR4) printf ("mips-mips-riscos%ssvr4\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_BSD43) || defined(SYSTYPE_BSD) printf ("mips-mips-riscos%sbsd\n", argv[1]); exit (0); #endif #endif exit (-1); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && dummyarg=`echo "${UNAME_RELEASE}" | sed -n 's/\([0-9]*\).*/\1/p'` && SYSTEM_NAME=`$dummy $dummyarg` && { echo "$SYSTEM_NAME"; exit; } echo mips-mips-riscos${UNAME_RELEASE} exit ;; Motorola:PowerMAX_OS:*:*) echo powerpc-motorola-powermax exit ;; Motorola:*:4.3:PL8-*) echo powerpc-harris-powermax exit ;; Night_Hawk:*:*:PowerMAX_OS | Synergy:PowerMAX_OS:*:*) echo powerpc-harris-powermax exit ;; Night_Hawk:Power_UNIX:*:*) echo powerpc-harris-powerunix exit ;; m88k:CX/UX:7*:*) echo m88k-harris-cxux7 exit ;; m88k:*:4*:R4*) echo m88k-motorola-sysv4 exit ;; m88k:*:3*:R3*) echo m88k-motorola-sysv3 exit ;; AViiON:dgux:*:*) # DG/UX returns AViiON for all architectures UNAME_PROCESSOR=`/usr/bin/uname -p` if [ $UNAME_PROCESSOR = mc88100 ] || [ $UNAME_PROCESSOR = mc88110 ] then if [ ${TARGET_BINARY_INTERFACE}x = m88kdguxelfx ] || \ [ ${TARGET_BINARY_INTERFACE}x = x ] then echo m88k-dg-dgux${UNAME_RELEASE} else echo m88k-dg-dguxbcs${UNAME_RELEASE} fi else echo i586-dg-dgux${UNAME_RELEASE} fi exit ;; M88*:DolphinOS:*:*) # DolphinOS (SVR3) echo m88k-dolphin-sysv3 exit ;; M88*:*:R3*:*) # Delta 88k system running SVR3 echo m88k-motorola-sysv3 exit ;; XD88*:*:*:*) # Tektronix XD88 system running UTekV (SVR3) echo m88k-tektronix-sysv3 exit ;; Tek43[0-9][0-9]:UTek:*:*) # Tektronix 4300 system running UTek (BSD) echo m68k-tektronix-bsd exit ;; *:IRIX*:*:*) echo mips-sgi-irix`echo ${UNAME_RELEASE}|sed -e 's/-/_/g'` exit ;; ????????:AIX?:[12].1:2) # AIX 2.2.1 or AIX 2.1.1 is RT/PC AIX. echo romp-ibm-aix # uname -m gives an 8 hex-code CPU id exit ;; # Note that: echo "'`uname -s`'" gives 'AIX ' i*86:AIX:*:*) echo i386-ibm-aix exit ;; ia64:AIX:*:*) if [ -x /usr/bin/oslevel ] ; then IBM_REV=`/usr/bin/oslevel` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${UNAME_MACHINE}-ibm-aix${IBM_REV} exit ;; *:AIX:2:3) if grep bos325 /usr/include/stdio.h >/dev/null 2>&1; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include main() { if (!__power_pc()) exit(1); puts("powerpc-ibm-aix3.2.5"); exit(0); } EOF if $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` then echo "$SYSTEM_NAME" else echo rs6000-ibm-aix3.2.5 fi elif grep bos324 /usr/include/stdio.h >/dev/null 2>&1; then echo rs6000-ibm-aix3.2.4 else echo rs6000-ibm-aix3.2 fi exit ;; *:AIX:*:[456]) IBM_CPU_ID=`/usr/sbin/lsdev -C -c processor -S available | sed 1q | awk '{ print $1 }'` if /usr/sbin/lsattr -El ${IBM_CPU_ID} | grep ' POWER' >/dev/null 2>&1; then IBM_ARCH=rs6000 else IBM_ARCH=powerpc fi if [ -x /usr/bin/oslevel ] ; then IBM_REV=`/usr/bin/oslevel` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${IBM_ARCH}-ibm-aix${IBM_REV} exit ;; *:AIX:*:*) echo rs6000-ibm-aix exit ;; ibmrt:4.4BSD:*|romp-ibm:BSD:*) echo romp-ibm-bsd4.4 exit ;; ibmrt:*BSD:*|romp-ibm:BSD:*) # covers RT/PC BSD and echo romp-ibm-bsd${UNAME_RELEASE} # 4.3 with uname added to exit ;; # report: romp-ibm BSD 4.3 *:BOSX:*:*) echo rs6000-bull-bosx exit ;; DPX/2?00:B.O.S.:*:*) echo m68k-bull-sysv3 exit ;; 9000/[34]??:4.3bsd:1.*:*) echo m68k-hp-bsd exit ;; hp300:4.4BSD:*:* | 9000/[34]??:4.3bsd:2.*:*) echo m68k-hp-bsd4.4 exit ;; 9000/[34678]??:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` case "${UNAME_MACHINE}" in 9000/31? ) HP_ARCH=m68000 ;; 9000/[34]?? ) HP_ARCH=m68k ;; 9000/[678][0-9][0-9]) if [ -x /usr/bin/getconf ]; then sc_cpu_version=`/usr/bin/getconf SC_CPU_VERSION 2>/dev/null` sc_kernel_bits=`/usr/bin/getconf SC_KERNEL_BITS 2>/dev/null` case "${sc_cpu_version}" in 523) HP_ARCH="hppa1.0" ;; # CPU_PA_RISC1_0 528) HP_ARCH="hppa1.1" ;; # CPU_PA_RISC1_1 532) # CPU_PA_RISC2_0 case "${sc_kernel_bits}" in 32) HP_ARCH="hppa2.0n" ;; 64) HP_ARCH="hppa2.0w" ;; '') HP_ARCH="hppa2.0" ;; # HP-UX 10.20 esac ;; esac fi if [ "${HP_ARCH}" = "" ]; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #define _HPUX_SOURCE #include #include int main () { #if defined(_SC_KERNEL_BITS) long bits = sysconf(_SC_KERNEL_BITS); #endif long cpu = sysconf (_SC_CPU_VERSION); switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0"); break; case CPU_PA_RISC1_1: puts ("hppa1.1"); break; case CPU_PA_RISC2_0: #if defined(_SC_KERNEL_BITS) switch (bits) { case 64: puts ("hppa2.0w"); break; case 32: puts ("hppa2.0n"); break; default: puts ("hppa2.0"); break; } break; #else /* !defined(_SC_KERNEL_BITS) */ puts ("hppa2.0"); break; #endif default: puts ("hppa1.0"); break; } exit (0); } EOF (CCOPTS= $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null) && HP_ARCH=`$dummy` test -z "$HP_ARCH" && HP_ARCH=hppa fi ;; esac if [ ${HP_ARCH} = "hppa2.0w" ] then eval $set_cc_for_build # hppa2.0w-hp-hpux* has a 64-bit kernel and a compiler generating # 32-bit code. hppa64-hp-hpux* has the same kernel and a compiler # generating 64-bit code. GNU and HP use different nomenclature: # # $ CC_FOR_BUILD=cc ./config.guess # => hppa2.0w-hp-hpux11.23 # $ CC_FOR_BUILD="cc +DA2.0w" ./config.guess # => hppa64-hp-hpux11.23 if echo __LP64__ | (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | grep __LP64__ >/dev/null then HP_ARCH="hppa2.0w" else HP_ARCH="hppa64" fi fi echo ${HP_ARCH}-hp-hpux${HPUX_REV} exit ;; ia64:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` echo ia64-hp-hpux${HPUX_REV} exit ;; 3050*:HI-UX:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include int main () { long cpu = sysconf (_SC_CPU_VERSION); /* The order matters, because CPU_IS_HP_MC68K erroneously returns true for CPU_PA_RISC1_0. CPU_IS_PA_RISC returns correct results, however. */ if (CPU_IS_PA_RISC (cpu)) { switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0-hitachi-hiuxwe2"); break; case CPU_PA_RISC1_1: puts ("hppa1.1-hitachi-hiuxwe2"); break; case CPU_PA_RISC2_0: puts ("hppa2.0-hitachi-hiuxwe2"); break; default: puts ("hppa-hitachi-hiuxwe2"); break; } } else if (CPU_IS_HP_MC68K (cpu)) puts ("m68k-hitachi-hiuxwe2"); else puts ("unknown-hitachi-hiuxwe2"); exit (0); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` && { echo "$SYSTEM_NAME"; exit; } echo unknown-hitachi-hiuxwe2 exit ;; 9000/7??:4.3bsd:*:* | 9000/8?[79]:4.3bsd:*:* ) echo hppa1.1-hp-bsd exit ;; 9000/8??:4.3bsd:*:*) echo hppa1.0-hp-bsd exit ;; *9??*:MPE/iX:*:* | *3000*:MPE/iX:*:*) echo hppa1.0-hp-mpeix exit ;; hp7??:OSF1:*:* | hp8?[79]:OSF1:*:* ) echo hppa1.1-hp-osf exit ;; hp8??:OSF1:*:*) echo hppa1.0-hp-osf exit ;; i*86:OSF1:*:*) if [ -x /usr/sbin/sysversion ] ; then echo ${UNAME_MACHINE}-unknown-osf1mk else echo ${UNAME_MACHINE}-unknown-osf1 fi exit ;; parisc*:Lites*:*:*) echo hppa1.1-hp-lites exit ;; C1*:ConvexOS:*:* | convex:ConvexOS:C1*:*) echo c1-convex-bsd exit ;; C2*:ConvexOS:*:* | convex:ConvexOS:C2*:*) if getsysinfo -f scalar_acc then echo c32-convex-bsd else echo c2-convex-bsd fi exit ;; C34*:ConvexOS:*:* | convex:ConvexOS:C34*:*) echo c34-convex-bsd exit ;; C38*:ConvexOS:*:* | convex:ConvexOS:C38*:*) echo c38-convex-bsd exit ;; C4*:ConvexOS:*:* | convex:ConvexOS:C4*:*) echo c4-convex-bsd exit ;; CRAY*Y-MP:*:*:*) echo ymp-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*[A-Z]90:*:*:*) echo ${UNAME_MACHINE}-cray-unicos${UNAME_RELEASE} \ | sed -e 's/CRAY.*\([A-Z]90\)/\1/' \ -e y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/ \ -e 's/\.[^.]*$/.X/' exit ;; CRAY*TS:*:*:*) echo t90-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*T3E:*:*:*) echo alphaev5-cray-unicosmk${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*SV1:*:*:*) echo sv1-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; *:UNICOS/mp:*:*) echo craynv-cray-unicosmp${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; F30[01]:UNIX_System_V:*:* | F700:UNIX_System_V:*:*) FUJITSU_PROC=`uname -m | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'` FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | sed -e 's/ /_/'` echo "${FUJITSU_PROC}-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; 5000:UNIX_System_V:4.*:*) FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/ /_/'` echo "sparc-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; i*86:BSD/386:*:* | i*86:BSD/OS:*:* | *:Ascend\ Embedded/OS:*:*) echo ${UNAME_MACHINE}-pc-bsdi${UNAME_RELEASE} exit ;; sparc*:BSD/OS:*:*) echo sparc-unknown-bsdi${UNAME_RELEASE} exit ;; *:BSD/OS:*:*) echo ${UNAME_MACHINE}-unknown-bsdi${UNAME_RELEASE} exit ;; *:FreeBSD:*:*) case ${UNAME_MACHINE} in pc98) echo i386-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; amd64) echo x86_64-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; *) echo ${UNAME_MACHINE}-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; esac exit ;; i*:CYGWIN*:*) echo ${UNAME_MACHINE}-pc-cygwin exit ;; *:MINGW*:*) echo ${UNAME_MACHINE}-pc-mingw32 exit ;; i*:windows32*:*) # uname -m includes "-pc" on this system. echo ${UNAME_MACHINE}-mingw32 exit ;; i*:PW*:*) echo ${UNAME_MACHINE}-pc-pw32 exit ;; *:Interix*:[3456]*) case ${UNAME_MACHINE} in x86) echo i586-pc-interix${UNAME_RELEASE} exit ;; EM64T | authenticamd | genuineintel) echo x86_64-unknown-interix${UNAME_RELEASE} exit ;; IA64) echo ia64-unknown-interix${UNAME_RELEASE} exit ;; esac ;; [345]86:Windows_95:* | [345]86:Windows_98:* | [345]86:Windows_NT:*) echo i${UNAME_MACHINE}-pc-mks exit ;; i*:Windows_NT*:* | Pentium*:Windows_NT*:*) # How do we know it's Interix rather than the generic POSIX subsystem? # It also conflicts with pre-2.0 versions of AT&T UWIN. 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avr32*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; cris:Linux:*:*) echo cris-axis-linux-gnu exit ;; crisv32:Linux:*:*) echo crisv32-axis-linux-gnu exit ;; frv:Linux:*:*) echo frv-unknown-linux-gnu exit ;; ia64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; m32r*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; m68*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; mips:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef mips #undef mipsel #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=mipsel #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=mips #else CPU= #endif #endif EOF eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n ' /^CPU/{ s: ::g p }'`" test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; } ;; mips64:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef mips64 #undef mips64el #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=mips64el #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=mips64 #else CPU= #endif #endif EOF eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n ' /^CPU/{ s: ::g p }'`" test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; } ;; or32:Linux:*:*) echo or32-unknown-linux-gnu exit ;; ppc:Linux:*:*) echo powerpc-unknown-linux-gnu exit ;; ppc64:Linux:*:*) echo powerpc64-unknown-linux-gnu exit ;; alpha:Linux:*:*) case `sed -n '/^cpu model/s/^.*: \(.*\)/\1/p' < /proc/cpuinfo` in EV5) UNAME_MACHINE=alphaev5 ;; EV56) UNAME_MACHINE=alphaev56 ;; PCA56) UNAME_MACHINE=alphapca56 ;; PCA57) UNAME_MACHINE=alphapca56 ;; EV6) UNAME_MACHINE=alphaev6 ;; EV67) UNAME_MACHINE=alphaev67 ;; EV68*) UNAME_MACHINE=alphaev68 ;; esac objdump --private-headers /bin/sh | grep ld.so.1 >/dev/null if test "$?" = 0 ; then LIBC="libc1" ; else LIBC="" ; fi echo ${UNAME_MACHINE}-unknown-linux-gnu${LIBC} exit ;; padre:Linux:*:*) echo sparc-unknown-linux-gnu exit ;; parisc:Linux:*:* | hppa:Linux:*:*) # Look for CPU level case `grep '^cpu[^a-z]*:' /proc/cpuinfo 2>/dev/null | cut -d' ' -f2` in PA7*) echo hppa1.1-unknown-linux-gnu ;; PA8*) echo hppa2.0-unknown-linux-gnu ;; *) echo hppa-unknown-linux-gnu ;; esac exit ;; parisc64:Linux:*:* | hppa64:Linux:*:*) echo hppa64-unknown-linux-gnu exit ;; s390:Linux:*:* | s390x:Linux:*:*) echo ${UNAME_MACHINE}-ibm-linux exit ;; sh64*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; sh*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; sparc:Linux:*:* | sparc64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; vax:Linux:*:*) echo ${UNAME_MACHINE}-dec-linux-gnu exit ;; x86_64:Linux:*:*) echo x86_64-unknown-linux-gnu exit ;; xtensa*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; i*86:Linux:*:*) # The BFD linker knows what the default object file format is, so # first see if it will tell us. cd to the root directory to prevent # problems with other programs or directories called `ld' in the path. # Set LC_ALL=C to ensure ld outputs messages in English. ld_supported_targets=`cd /; LC_ALL=C ld --help 2>&1 \ | sed -ne '/supported targets:/!d s/[ ][ ]*/ /g s/.*supported targets: *// s/ .*// p'` case "$ld_supported_targets" in elf32-i386) TENTATIVE="${UNAME_MACHINE}-pc-linux-gnu" ;; a.out-i386-linux) echo "${UNAME_MACHINE}-pc-linux-gnuaout" exit ;; "") # Either a pre-BFD a.out linker (linux-gnuoldld) or # one that does not give us useful --help. echo "${UNAME_MACHINE}-pc-linux-gnuoldld" exit ;; esac # Determine whether the default compiler is a.out or elf eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include #ifdef __ELF__ # ifdef __GLIBC__ # if __GLIBC__ >= 2 LIBC=gnu # else LIBC=gnulibc1 # endif # else LIBC=gnulibc1 # endif #else #if defined(__INTEL_COMPILER) || defined(__PGI) || defined(__SUNPRO_C) || defined(__SUNPRO_CC) LIBC=gnu #else LIBC=gnuaout #endif #endif #ifdef __dietlibc__ LIBC=dietlibc #endif EOF eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n ' /^LIBC/{ s: ::g p }'`" test x"${LIBC}" != x && { echo "${UNAME_MACHINE}-pc-linux-${LIBC}" exit } test x"${TENTATIVE}" != x && { echo "${TENTATIVE}"; exit; } ;; i*86:DYNIX/ptx:4*:*) # ptx 4.0 does uname -s correctly, with DYNIX/ptx in there. # earlier versions are messed up and put the nodename in both # sysname and nodename. echo i386-sequent-sysv4 exit ;; i*86:UNIX_SV:4.2MP:2.*) # Unixware is an offshoot of SVR4, but it has its own version # number series starting with 2... # I am not positive that other SVR4 systems won't match this, # I just have to hope. -- rms. # Use sysv4.2uw... so that sysv4* matches it. echo ${UNAME_MACHINE}-pc-sysv4.2uw${UNAME_VERSION} exit ;; i*86:OS/2:*:*) # If we were able to find `uname', then EMX Unix compatibility # is probably installed. echo ${UNAME_MACHINE}-pc-os2-emx exit ;; i*86:XTS-300:*:STOP) echo ${UNAME_MACHINE}-unknown-stop exit ;; i*86:atheos:*:*) echo ${UNAME_MACHINE}-unknown-atheos exit ;; i*86:syllable:*:*) echo ${UNAME_MACHINE}-pc-syllable exit ;; i*86:LynxOS:2.*:* | i*86:LynxOS:3.[01]*:* | i*86:LynxOS:4.0*:*) echo i386-unknown-lynxos${UNAME_RELEASE} exit ;; i*86:*DOS:*:*) echo ${UNAME_MACHINE}-pc-msdosdjgpp exit ;; i*86:*:4.*:* | i*86:SYSTEM_V:4.*:*) UNAME_REL=`echo ${UNAME_RELEASE} | sed 's/\/MP$//'` if grep Novell /usr/include/link.h >/dev/null 2>/dev/null; then echo ${UNAME_MACHINE}-univel-sysv${UNAME_REL} else echo ${UNAME_MACHINE}-pc-sysv${UNAME_REL} fi exit ;; i*86:*:5:[678]*) # UnixWare 7.x, OpenUNIX and OpenServer 6. case `/bin/uname -X | grep "^Machine"` in *486*) UNAME_MACHINE=i486 ;; *Pentium) UNAME_MACHINE=i586 ;; *Pent*|*Celeron) UNAME_MACHINE=i686 ;; esac echo ${UNAME_MACHINE}-unknown-sysv${UNAME_RELEASE}${UNAME_SYSTEM}${UNAME_VERSION} exit ;; i*86:*:3.2:*) if test -f /usr/options/cb.name; then UNAME_REL=`sed -n 's/.*Version //p' /dev/null >/dev/null ; then UNAME_REL=`(/bin/uname -X|grep Release|sed -e 's/.*= //')` (/bin/uname -X|grep i80486 >/dev/null) && UNAME_MACHINE=i486 (/bin/uname -X|grep '^Machine.*Pentium' >/dev/null) \ && UNAME_MACHINE=i586 (/bin/uname -X|grep '^Machine.*Pent *II' >/dev/null) \ && UNAME_MACHINE=i686 (/bin/uname -X|grep '^Machine.*Pentium Pro' >/dev/null) \ && UNAME_MACHINE=i686 echo ${UNAME_MACHINE}-pc-sco$UNAME_REL else echo ${UNAME_MACHINE}-pc-sysv32 fi exit ;; pc:*:*:*) # Left here for compatibility: # uname -m prints for DJGPP always 'pc', but it prints nothing about # the processor, so we play safe by assuming i586. # Note: whatever this is, it MUST be the same as what config.sub # prints for the "djgpp" host, or else GDB configury will decide that # this is a cross-build. echo i586-pc-msdosdjgpp exit ;; Intel:Mach:3*:*) echo i386-pc-mach3 exit ;; paragon:*:*:*) echo i860-intel-osf1 exit ;; i860:*:4.*:*) # i860-SVR4 if grep Stardent /usr/include/sys/uadmin.h >/dev/null 2>&1 ; then echo i860-stardent-sysv${UNAME_RELEASE} # Stardent Vistra i860-SVR4 else # Add other i860-SVR4 vendors below as they are discovered. echo i860-unknown-sysv${UNAME_RELEASE} # Unknown i860-SVR4 fi exit ;; mini*:CTIX:SYS*5:*) # "miniframe" echo m68010-convergent-sysv exit ;; mc68k:UNIX:SYSTEM5:3.51m) echo m68k-convergent-sysv exit ;; M680?0:D-NIX:5.3:*) echo m68k-diab-dnix exit ;; M68*:*:R3V[5678]*:*) test -r /sysV68 && { echo 'm68k-motorola-sysv'; exit; } ;; 3[345]??:*:4.0:3.0 | 3[34]??A:*:4.0:3.0 | 3[34]??,*:*:4.0:3.0 | 3[34]??/*:*:4.0:3.0 | 4400:*:4.0:3.0 | 4850:*:4.0:3.0 | SKA40:*:4.0:3.0 | SDS2:*:4.0:3.0 | SHG2:*:4.0:3.0 | S7501*:*:4.0:3.0) OS_REL='' test -r /etc/.relid \ && OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid` /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; 3[34]??:*:4.0:* | 3[34]??,*:*:4.0:*) /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4; exit; } ;; NCR*:*:4.2:* | MPRAS*:*:4.2:*) OS_REL='.3' test -r /etc/.relid \ && OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid` /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep pteron >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; m68*:LynxOS:2.*:* | m68*:LynxOS:3.0*:*) echo m68k-unknown-lynxos${UNAME_RELEASE} exit ;; mc68030:UNIX_System_V:4.*:*) echo m68k-atari-sysv4 exit ;; TSUNAMI:LynxOS:2.*:*) echo sparc-unknown-lynxos${UNAME_RELEASE} exit ;; rs6000:LynxOS:2.*:*) echo rs6000-unknown-lynxos${UNAME_RELEASE} exit ;; PowerPC:LynxOS:2.*:* | PowerPC:LynxOS:3.[01]*:* | PowerPC:LynxOS:4.0*:*) echo powerpc-unknown-lynxos${UNAME_RELEASE} exit ;; SM[BE]S:UNIX_SV:*:*) echo mips-dde-sysv${UNAME_RELEASE} exit ;; RM*:ReliantUNIX-*:*:*) echo mips-sni-sysv4 exit ;; RM*:SINIX-*:*:*) echo mips-sni-sysv4 exit ;; *:SINIX-*:*:*) if uname -p 2>/dev/null >/dev/null ; then UNAME_MACHINE=`(uname -p) 2>/dev/null` echo ${UNAME_MACHINE}-sni-sysv4 else echo ns32k-sni-sysv fi exit ;; PENTIUM:*:4.0*:*) # Unisys `ClearPath HMP IX 4000' SVR4/MP effort # says echo i586-unisys-sysv4 exit ;; *:UNIX_System_V:4*:FTX*) # From Gerald Hewes . # How about differentiating between stratus architectures? -djm echo hppa1.1-stratus-sysv4 exit ;; *:*:*:FTX*) # From seanf@swdc.stratus.com. echo i860-stratus-sysv4 exit ;; i*86:VOS:*:*) # From Paul.Green@stratus.com. echo ${UNAME_MACHINE}-stratus-vos exit ;; *:VOS:*:*) # From Paul.Green@stratus.com. echo hppa1.1-stratus-vos exit ;; mc68*:A/UX:*:*) echo m68k-apple-aux${UNAME_RELEASE} exit ;; news*:NEWS-OS:6*:*) echo mips-sony-newsos6 exit ;; R[34]000:*System_V*:*:* | R4000:UNIX_SYSV:*:* | R*000:UNIX_SV:*:*) if [ -d /usr/nec ]; then echo mips-nec-sysv${UNAME_RELEASE} else echo mips-unknown-sysv${UNAME_RELEASE} fi exit ;; BeBox:BeOS:*:*) # BeOS running on hardware made by Be, PPC only. echo powerpc-be-beos exit ;; BeMac:BeOS:*:*) # BeOS running on Mac or Mac clone, PPC only. echo powerpc-apple-beos exit ;; BePC:BeOS:*:*) # BeOS running on Intel PC compatible. echo i586-pc-beos exit ;; BePC:Haiku:*:*) # Haiku running on Intel PC compatible. echo i586-pc-haiku exit ;; SX-4:SUPER-UX:*:*) echo sx4-nec-superux${UNAME_RELEASE} exit ;; SX-5:SUPER-UX:*:*) echo sx5-nec-superux${UNAME_RELEASE} exit ;; SX-6:SUPER-UX:*:*) echo sx6-nec-superux${UNAME_RELEASE} exit ;; SX-7:SUPER-UX:*:*) echo sx7-nec-superux${UNAME_RELEASE} exit ;; SX-8:SUPER-UX:*:*) echo sx8-nec-superux${UNAME_RELEASE} exit ;; SX-8R:SUPER-UX:*:*) echo sx8r-nec-superux${UNAME_RELEASE} exit ;; Power*:Rhapsody:*:*) echo powerpc-apple-rhapsody${UNAME_RELEASE} exit ;; *:Rhapsody:*:*) echo ${UNAME_MACHINE}-apple-rhapsody${UNAME_RELEASE} exit ;; *:Darwin:*:*) UNAME_PROCESSOR=`uname -p` || UNAME_PROCESSOR=unknown case $UNAME_PROCESSOR in unknown) UNAME_PROCESSOR=powerpc ;; esac echo ${UNAME_PROCESSOR}-apple-darwin${UNAME_RELEASE} exit ;; *:procnto*:*:* | *:QNX:[0123456789]*:*) UNAME_PROCESSOR=`uname -p` if test "$UNAME_PROCESSOR" = "x86"; then UNAME_PROCESSOR=i386 UNAME_MACHINE=pc fi echo ${UNAME_PROCESSOR}-${UNAME_MACHINE}-nto-qnx${UNAME_RELEASE} exit ;; *:QNX:*:4*) echo i386-pc-qnx exit ;; NSE-?:NONSTOP_KERNEL:*:*) echo nse-tandem-nsk${UNAME_RELEASE} exit ;; NSR-?:NONSTOP_KERNEL:*:*) echo nsr-tandem-nsk${UNAME_RELEASE} exit ;; *:NonStop-UX:*:*) echo mips-compaq-nonstopux exit ;; BS2000:POSIX*:*:*) echo bs2000-siemens-sysv exit ;; DS/*:UNIX_System_V:*:*) echo ${UNAME_MACHINE}-${UNAME_SYSTEM}-${UNAME_RELEASE} exit ;; *:Plan9:*:*) # "uname -m" is not consistent, so use $cputype instead. 386 # is converted to i386 for consistency with other x86 # operating systems. if test "$cputype" = "386"; then UNAME_MACHINE=i386 else UNAME_MACHINE="$cputype" fi echo ${UNAME_MACHINE}-unknown-plan9 exit ;; *:TOPS-10:*:*) echo pdp10-unknown-tops10 exit ;; *:TENEX:*:*) echo pdp10-unknown-tenex exit ;; KS10:TOPS-20:*:* | KL10:TOPS-20:*:* | TYPE4:TOPS-20:*:*) echo pdp10-dec-tops20 exit ;; XKL-1:TOPS-20:*:* | TYPE5:TOPS-20:*:*) echo pdp10-xkl-tops20 exit ;; *:TOPS-20:*:*) echo pdp10-unknown-tops20 exit ;; *:ITS:*:*) echo pdp10-unknown-its exit ;; SEI:*:*:SEIUX) echo mips-sei-seiux${UNAME_RELEASE} exit ;; *:DragonFly:*:*) echo ${UNAME_MACHINE}-unknown-dragonfly`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` exit ;; *:*VMS:*:*) UNAME_MACHINE=`(uname -p) 2>/dev/null` case "${UNAME_MACHINE}" in A*) echo alpha-dec-vms ; exit ;; I*) echo ia64-dec-vms ; exit ;; V*) echo vax-dec-vms ; exit ;; esac ;; *:XENIX:*:SysV) echo i386-pc-xenix exit ;; i*86:skyos:*:*) echo ${UNAME_MACHINE}-pc-skyos`echo ${UNAME_RELEASE}` | sed -e 's/ .*$//' exit ;; i*86:rdos:*:*) echo ${UNAME_MACHINE}-pc-rdos exit ;; i*86:AROS:*:*) echo ${UNAME_MACHINE}-pc-aros exit ;; esac #echo '(No uname command or uname output not recognized.)' 1>&2 #echo "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" 1>&2 eval $set_cc_for_build cat >$dummy.c < # include #endif main () { #if defined (sony) #if defined (MIPSEB) /* BFD wants "bsd" instead of "newsos". 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*/ printf ("i386-sequent-ptx1\n"); exit (0); } printf ("i386-sequent-ptx\n"); exit (0); #endif #if defined (vax) # if !defined (ultrix) # include # if defined (BSD) # if BSD == 43 printf ("vax-dec-bsd4.3\n"); exit (0); # else # if BSD == 199006 printf ("vax-dec-bsd4.3reno\n"); exit (0); # else printf ("vax-dec-bsd\n"); exit (0); # endif # endif # else printf ("vax-dec-bsd\n"); exit (0); # endif # else printf ("vax-dec-ultrix\n"); exit (0); # endif #endif #if defined (alliant) && defined (i860) printf ("i860-alliant-bsd\n"); exit (0); #endif exit (1); } EOF $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null && SYSTEM_NAME=`$dummy` && { echo "$SYSTEM_NAME"; exit; } # Apollos put the system type in the environment. test -d /usr/apollo && { echo ${ISP}-apollo-${SYSTYPE}; exit; } # Convex versions that predate uname can use getsysinfo(1) if [ -x /usr/convex/getsysinfo ] then case `getsysinfo -f cpu_type` in c1*) echo c1-convex-bsd exit ;; c2*) if getsysinfo -f scalar_acc then echo c32-convex-bsd else echo c2-convex-bsd fi exit ;; c34*) echo c34-convex-bsd exit ;; c38*) echo c38-convex-bsd exit ;; c4*) echo c4-convex-bsd exit ;; esac fi cat >&2 < in order to provide the needed information to handle your system. config.guess timestamp = $timestamp uname -m = `(uname -m) 2>/dev/null || echo unknown` uname -r = `(uname -r) 2>/dev/null || echo unknown` uname -s = `(uname -s) 2>/dev/null || echo unknown` uname -v = `(uname -v) 2>/dev/null || echo unknown` /usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null` /bin/uname -X = `(/bin/uname -X) 2>/dev/null` hostinfo = `(hostinfo) 2>/dev/null` /bin/universe = `(/bin/universe) 2>/dev/null` /usr/bin/arch -k = `(/usr/bin/arch -k) 2>/dev/null` /bin/arch = `(/bin/arch) 2>/dev/null` /usr/bin/oslevel = `(/usr/bin/oslevel) 2>/dev/null` /usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null` UNAME_MACHINE = ${UNAME_MACHINE} UNAME_RELEASE = ${UNAME_RELEASE} UNAME_SYSTEM = ${UNAME_SYSTEM} UNAME_VERSION = ${UNAME_VERSION} EOF exit 1 # Local variables: # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "timestamp='" # time-stamp-format: "%:y-%02m-%02d" # time-stamp-end: "'" # End: simstring-1.0/swig/0000777000076400007640000000000011344663437011372 500000000000000simstring-1.0/swig/ruby/0000777000076400007640000000000011344663437012353 500000000000000simstring-1.0/swig/ruby/prepare.sh0000755000076400007640000000023611344662045014257 00000000000000#!/bin/sh # $Id:$ ln -s ../export.cpp ln -s ../export.h ln -s ../export.i if [ "$1" = "--swig" ]; then swig -c++ -ruby -o export_wrap.cpp export.i fi simstring-1.0/swig/ruby/sample.rb0000644000076400007640000000122311344662045014065 00000000000000#!/usr/bin/env ruby require 'simstring' # Create a SimString database with two person names. db = Simstring::Writer.new('sample.db') db.insert('Barack Hussein Obama II') db.insert('James Gordon Brown') db.close() # Open the database for reading. db = Simstring::Reader.new('sample.db') # Use cosine similarity and threshold 0.6. db.measure = Simstring::Cosine db.threshold = 0.6 p(db.retrieve('Barack Obama')) # OK. p(db.retrieve('Gordon Brown')) # OK. p(db.retrieve('Obama')) # Too dissimilar! # Use overlap coefficient and threshold 1.0. db.measure = Simstring::Overlap db.threshold = 1 p(db.retrieve('Obama')) # OK. simstring-1.0/swig/ruby/extconf.rb.in0000644000076400007640000000013411344662045014657 00000000000000require 'mkmf' $CFLAGS='-I../../include' $LDFLAGS="-lstdc++" create_makefile('@PACKAGE@') simstring-1.0/swig/ruby/export_wrap.cpp0000644000076400007640000103345111344663427015353 00000000000000/* ---------------------------------------------------------------------------- * This file was automatically generated by SWIG (http://www.swig.org). * Version 1.3.36 * * This file is not intended to be easily readable and contains a number of * coding conventions designed to improve portability and efficiency. Do not make * changes to this file unless you know what you are doing--modify the SWIG * interface file instead. * ----------------------------------------------------------------------------- */ #define SWIGRUBY #ifdef __cplusplus template class SwigValueWrapper { T *tt; public: SwigValueWrapper() : tt(0) { } SwigValueWrapper(const SwigValueWrapper& rhs) : tt(new T(*rhs.tt)) { } SwigValueWrapper(const T& t) : tt(new T(t)) { } ~SwigValueWrapper() { delete tt; } SwigValueWrapper& operator=(const T& t) { delete tt; tt = new T(t); return *this; } operator T&() const { return *tt; } T *operator&() { return tt; } private: SwigValueWrapper& operator=(const SwigValueWrapper& rhs); }; template T SwigValueInit() { return T(); } #endif /* ----------------------------------------------------------------------------- * This section contains generic SWIG labels for method/variable * declarations/attributes, and other compiler dependent labels. * ----------------------------------------------------------------------------- */ /* template workaround for compilers that cannot correctly implement the C++ standard */ #ifndef SWIGTEMPLATEDISAMBIGUATOR # if defined(__SUNPRO_CC) && (__SUNPRO_CC <= 0x560) # define SWIGTEMPLATEDISAMBIGUATOR template # elif defined(__HP_aCC) /* Needed even with `aCC -AA' when `aCC -V' reports HP ANSI C++ B3910B A.03.55 */ /* If we find a maximum version that requires this, the test would be __HP_aCC <= 35500 for A.03.55 */ # define SWIGTEMPLATEDISAMBIGUATOR template # else # define SWIGTEMPLATEDISAMBIGUATOR # endif #endif /* inline attribute */ #ifndef SWIGINLINE # if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__)) # define SWIGINLINE inline # else # define SWIGINLINE # endif #endif /* attribute recognised by some compilers to avoid 'unused' warnings */ #ifndef SWIGUNUSED # if defined(__GNUC__) # if !(defined(__cplusplus)) || (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif # elif defined(__ICC) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif #endif #ifndef SWIG_MSC_UNSUPPRESS_4505 # if defined(_MSC_VER) # pragma warning(disable : 4505) /* unreferenced local function has been removed */ # endif #endif #ifndef SWIGUNUSEDPARM # ifdef __cplusplus # define SWIGUNUSEDPARM(p) # else # define SWIGUNUSEDPARM(p) p SWIGUNUSED # endif #endif /* internal SWIG method */ #ifndef SWIGINTERN # define SWIGINTERN static SWIGUNUSED #endif /* internal inline SWIG method */ #ifndef SWIGINTERNINLINE # define SWIGINTERNINLINE SWIGINTERN SWIGINLINE #endif /* exporting methods */ #if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) # ifndef GCC_HASCLASSVISIBILITY # define GCC_HASCLASSVISIBILITY # endif #endif #ifndef SWIGEXPORT # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # if defined(STATIC_LINKED) # define SWIGEXPORT # else # define SWIGEXPORT __declspec(dllexport) # endif # else # if defined(__GNUC__) && defined(GCC_HASCLASSVISIBILITY) # define SWIGEXPORT __attribute__ ((visibility("default"))) # else # define SWIGEXPORT # endif # endif #endif /* calling conventions for Windows */ #ifndef SWIGSTDCALL # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # define SWIGSTDCALL __stdcall # else # define SWIGSTDCALL # endif #endif /* Deal with Microsoft's attempt at deprecating C standard runtime functions */ #if !defined(SWIG_NO_CRT_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_CRT_SECURE_NO_DEPRECATE) # define _CRT_SECURE_NO_DEPRECATE #endif /* Deal with Microsoft's attempt at deprecating methods in the standard C++ library */ #if !defined(SWIG_NO_SCL_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_SCL_SECURE_NO_DEPRECATE) # define _SCL_SECURE_NO_DEPRECATE #endif /* ----------------------------------------------------------------------------- * This section contains generic SWIG labels for method/variable * declarations/attributes, and other compiler dependent labels. * ----------------------------------------------------------------------------- */ /* template workaround for compilers that cannot correctly implement the C++ standard */ #ifndef SWIGTEMPLATEDISAMBIGUATOR # if defined(__SUNPRO_CC) && (__SUNPRO_CC <= 0x560) # define SWIGTEMPLATEDISAMBIGUATOR template # elif defined(__HP_aCC) /* Needed even with `aCC -AA' when `aCC -V' reports HP ANSI C++ B3910B A.03.55 */ /* If we find a maximum version that requires this, the test would be __HP_aCC <= 35500 for A.03.55 */ # define SWIGTEMPLATEDISAMBIGUATOR template # else # define SWIGTEMPLATEDISAMBIGUATOR # endif #endif /* inline attribute */ #ifndef SWIGINLINE # if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__)) # define SWIGINLINE inline # else # define SWIGINLINE # endif #endif /* attribute recognised by some compilers to avoid 'unused' warnings */ #ifndef SWIGUNUSED # if defined(__GNUC__) # if !(defined(__cplusplus)) || (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif # elif defined(__ICC) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif #endif #ifndef SWIG_MSC_UNSUPPRESS_4505 # if defined(_MSC_VER) # pragma warning(disable : 4505) /* unreferenced local function has been removed */ # endif #endif #ifndef SWIGUNUSEDPARM # ifdef __cplusplus # define SWIGUNUSEDPARM(p) # else # define SWIGUNUSEDPARM(p) p SWIGUNUSED # endif #endif /* internal SWIG method */ #ifndef SWIGINTERN # define SWIGINTERN static SWIGUNUSED #endif /* internal inline SWIG method */ #ifndef SWIGINTERNINLINE # define SWIGINTERNINLINE SWIGINTERN SWIGINLINE #endif /* exporting methods */ #if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) # ifndef GCC_HASCLASSVISIBILITY # define GCC_HASCLASSVISIBILITY # endif #endif #ifndef SWIGEXPORT # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # if defined(STATIC_LINKED) # define SWIGEXPORT # else # define SWIGEXPORT __declspec(dllexport) # endif # else # if defined(__GNUC__) && defined(GCC_HASCLASSVISIBILITY) # define SWIGEXPORT __attribute__ ((visibility("default"))) # else # define SWIGEXPORT # endif # endif #endif /* calling conventions for Windows */ #ifndef SWIGSTDCALL # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # define SWIGSTDCALL __stdcall # else # define SWIGSTDCALL # endif #endif /* Deal with Microsoft's attempt at deprecating C standard runtime functions */ #if !defined(SWIG_NO_CRT_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_CRT_SECURE_NO_DEPRECATE) # define _CRT_SECURE_NO_DEPRECATE #endif /* Deal with Microsoft's attempt at deprecating methods in the standard C++ library */ #if !defined(SWIG_NO_SCL_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_SCL_SECURE_NO_DEPRECATE) # define _SCL_SECURE_NO_DEPRECATE #endif /* ----------------------------------------------------------------------------- * swigrun.swg * * This file contains generic CAPI SWIG runtime support for pointer * type checking. * ----------------------------------------------------------------------------- */ /* This should only be incremented when either the layout of swig_type_info changes, or for whatever reason, the runtime changes incompatibly */ #define SWIG_RUNTIME_VERSION "4" /* define SWIG_TYPE_TABLE_NAME as "SWIG_TYPE_TABLE" */ #ifdef SWIG_TYPE_TABLE # define SWIG_QUOTE_STRING(x) #x # define SWIG_EXPAND_AND_QUOTE_STRING(x) SWIG_QUOTE_STRING(x) # define SWIG_TYPE_TABLE_NAME SWIG_EXPAND_AND_QUOTE_STRING(SWIG_TYPE_TABLE) #else # define SWIG_TYPE_TABLE_NAME #endif /* You can use the SWIGRUNTIME and SWIGRUNTIMEINLINE macros for creating a static or dynamic library from the swig runtime code. In 99.9% of the cases, swig just needs to declare them as 'static'. But only do this if is strictly necessary, ie, if you have problems with your compiler or so. */ #ifndef SWIGRUNTIME # define SWIGRUNTIME SWIGINTERN #endif #ifndef SWIGRUNTIMEINLINE # define SWIGRUNTIMEINLINE SWIGRUNTIME SWIGINLINE #endif /* Generic buffer size */ #ifndef SWIG_BUFFER_SIZE # define SWIG_BUFFER_SIZE 1024 #endif /* Flags for pointer conversions */ #define SWIG_POINTER_DISOWN 0x1 #define SWIG_CAST_NEW_MEMORY 0x2 /* Flags for new pointer objects */ #define SWIG_POINTER_OWN 0x1 /* Flags/methods for returning states. The swig conversion methods, as ConvertPtr, return and integer that tells if the conversion was successful or not. And if not, an error code can be returned (see swigerrors.swg for the codes). Use the following macros/flags to set or process the returning states. In old swig versions, you usually write code as: if (SWIG_ConvertPtr(obj,vptr,ty.flags) != -1) { // success code } else { //fail code } Now you can be more explicit as: int res = SWIG_ConvertPtr(obj,vptr,ty.flags); if (SWIG_IsOK(res)) { // success code } else { // fail code } that seems to be the same, but now you can also do Type *ptr; int res = SWIG_ConvertPtr(obj,(void **)(&ptr),ty.flags); if (SWIG_IsOK(res)) { // success code if (SWIG_IsNewObj(res) { ... delete *ptr; } else { ... } } else { // fail code } I.e., now SWIG_ConvertPtr can return new objects and you can identify the case and take care of the deallocation. Of course that requires also to SWIG_ConvertPtr to return new result values, as int SWIG_ConvertPtr(obj, ptr,...) { if () { if () { *ptr = ; return SWIG_NEWOBJ; } else { *ptr = ; return SWIG_OLDOBJ; } } else { return SWIG_BADOBJ; } } Of course, returning the plain '0(success)/-1(fail)' still works, but you can be more explicit by returning SWIG_BADOBJ, SWIG_ERROR or any of the swig errors code. Finally, if the SWIG_CASTRANK_MODE is enabled, the result code allows to return the 'cast rank', for example, if you have this int food(double) int fooi(int); and you call food(1) // cast rank '1' (1 -> 1.0) fooi(1) // cast rank '0' just use the SWIG_AddCast()/SWIG_CheckState() */ #define SWIG_OK (0) #define SWIG_ERROR (-1) #define SWIG_IsOK(r) (r >= 0) #define SWIG_ArgError(r) ((r != SWIG_ERROR) ? r : SWIG_TypeError) /* The CastRankLimit says how many bits are used for the cast rank */ #define SWIG_CASTRANKLIMIT (1 << 8) /* The NewMask denotes the object was created (using new/malloc) */ #define SWIG_NEWOBJMASK (SWIG_CASTRANKLIMIT << 1) /* The TmpMask is for in/out typemaps that use temporal objects */ #define SWIG_TMPOBJMASK (SWIG_NEWOBJMASK << 1) /* Simple returning values */ #define SWIG_BADOBJ (SWIG_ERROR) #define SWIG_OLDOBJ (SWIG_OK) #define SWIG_NEWOBJ (SWIG_OK | SWIG_NEWOBJMASK) #define SWIG_TMPOBJ (SWIG_OK | SWIG_TMPOBJMASK) /* Check, add and del mask methods */ #define SWIG_AddNewMask(r) (SWIG_IsOK(r) ? (r | SWIG_NEWOBJMASK) : r) #define SWIG_DelNewMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_NEWOBJMASK) : r) #define SWIG_IsNewObj(r) (SWIG_IsOK(r) && (r & SWIG_NEWOBJMASK)) #define SWIG_AddTmpMask(r) (SWIG_IsOK(r) ? (r | SWIG_TMPOBJMASK) : r) #define SWIG_DelTmpMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_TMPOBJMASK) : r) #define SWIG_IsTmpObj(r) (SWIG_IsOK(r) && (r & SWIG_TMPOBJMASK)) /* Cast-Rank Mode */ #if defined(SWIG_CASTRANK_MODE) # ifndef SWIG_TypeRank # define SWIG_TypeRank unsigned long # endif # ifndef SWIG_MAXCASTRANK /* Default cast allowed */ # define SWIG_MAXCASTRANK (2) # endif # define SWIG_CASTRANKMASK ((SWIG_CASTRANKLIMIT) -1) # define SWIG_CastRank(r) (r & SWIG_CASTRANKMASK) SWIGINTERNINLINE int SWIG_AddCast(int r) { return SWIG_IsOK(r) ? ((SWIG_CastRank(r) < SWIG_MAXCASTRANK) ? (r + 1) : SWIG_ERROR) : r; } SWIGINTERNINLINE int SWIG_CheckState(int r) { return SWIG_IsOK(r) ? SWIG_CastRank(r) + 1 : 0; } #else /* no cast-rank mode */ # define SWIG_AddCast # define SWIG_CheckState(r) (SWIG_IsOK(r) ? 1 : 0) #endif #include #ifdef __cplusplus extern "C" { #endif typedef void *(*swig_converter_func)(void *, int *); typedef struct swig_type_info *(*swig_dycast_func)(void **); /* Structure to store information on one type */ typedef struct swig_type_info { const char *name; /* mangled name of this type */ const char *str; /* human readable name of this type */ swig_dycast_func dcast; /* dynamic cast function down a hierarchy */ struct swig_cast_info *cast; /* linked list of types that can cast into this type */ void *clientdata; /* language specific type data */ int owndata; /* flag if the structure owns the clientdata */ } swig_type_info; /* Structure to store a type and conversion function used for casting */ typedef struct swig_cast_info { swig_type_info *type; /* pointer to type that is equivalent to this type */ swig_converter_func converter; /* function to cast the void pointers */ struct swig_cast_info *next; /* pointer to next cast in linked list */ struct swig_cast_info *prev; /* pointer to the previous cast */ } swig_cast_info; /* Structure used to store module information * Each module generates one structure like this, and the runtime collects * all of these structures and stores them in a circularly linked list.*/ typedef struct swig_module_info { swig_type_info **types; /* Array of pointers to swig_type_info structures that are in this module */ size_t size; /* Number of types in this module */ struct swig_module_info *next; /* Pointer to next element in circularly linked list */ swig_type_info **type_initial; /* Array of initially generated type structures */ swig_cast_info **cast_initial; /* Array of initially generated casting structures */ void *clientdata; /* Language specific module data */ } swig_module_info; /* Compare two type names skipping the space characters, therefore "char*" == "char *" and "Class" == "Class", etc. Return 0 when the two name types are equivalent, as in strncmp, but skipping ' '. */ SWIGRUNTIME int SWIG_TypeNameComp(const char *f1, const char *l1, const char *f2, const char *l2) { for (;(f1 != l1) && (f2 != l2); ++f1, ++f2) { while ((*f1 == ' ') && (f1 != l1)) ++f1; while ((*f2 == ' ') && (f2 != l2)) ++f2; if (*f1 != *f2) return (*f1 > *f2) ? 1 : -1; } return (int)((l1 - f1) - (l2 - f2)); } /* Check type equivalence in a name list like ||... Return 0 if not equal, 1 if equal */ SWIGRUNTIME int SWIG_TypeEquiv(const char *nb, const char *tb) { int equiv = 0; const char* te = tb + strlen(tb); const char* ne = nb; while (!equiv && *ne) { for (nb = ne; *ne; ++ne) { if (*ne == '|') break; } equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0; if (*ne) ++ne; } return equiv; } /* Check type equivalence in a name list like ||... Return 0 if equal, -1 if nb < tb, 1 if nb > tb */ SWIGRUNTIME int SWIG_TypeCompare(const char *nb, const char *tb) { int equiv = 0; const char* te = tb + strlen(tb); const char* ne = nb; while (!equiv && *ne) { for (nb = ne; *ne; ++ne) { if (*ne == '|') break; } equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0; if (*ne) ++ne; } return equiv; } /* think of this as a c++ template<> or a scheme macro */ #define SWIG_TypeCheck_Template(comparison, ty) \ if (ty) { \ swig_cast_info *iter = ty->cast; \ while (iter) { \ if (comparison) { \ if (iter == ty->cast) return iter; \ /* Move iter to the top of the linked list */ \ iter->prev->next = iter->next; \ if (iter->next) \ iter->next->prev = iter->prev; \ iter->next = ty->cast; \ iter->prev = 0; \ if (ty->cast) ty->cast->prev = iter; \ ty->cast = iter; \ return iter; \ } \ iter = iter->next; \ } \ } \ return 0 /* Check the typename */ SWIGRUNTIME swig_cast_info * SWIG_TypeCheck(const char *c, swig_type_info *ty) { SWIG_TypeCheck_Template(strcmp(iter->type->name, c) == 0, ty); } /* Same as previous function, except strcmp is replaced with a pointer comparison */ SWIGRUNTIME swig_cast_info * SWIG_TypeCheckStruct(swig_type_info *from, swig_type_info *into) { SWIG_TypeCheck_Template(iter->type == from, into); } /* Cast a pointer up an inheritance hierarchy */ SWIGRUNTIMEINLINE void * SWIG_TypeCast(swig_cast_info *ty, void *ptr, int *newmemory) { return ((!ty) || (!ty->converter)) ? ptr : (*ty->converter)(ptr, newmemory); } /* Dynamic pointer casting. Down an inheritance hierarchy */ SWIGRUNTIME swig_type_info * SWIG_TypeDynamicCast(swig_type_info *ty, void **ptr) { swig_type_info *lastty = ty; if (!ty || !ty->dcast) return ty; while (ty && (ty->dcast)) { ty = (*ty->dcast)(ptr); if (ty) lastty = ty; } return lastty; } /* Return the name associated with this type */ SWIGRUNTIMEINLINE const char * SWIG_TypeName(const swig_type_info *ty) { return ty->name; } /* Return the pretty name associated with this type, that is an unmangled type name in a form presentable to the user. */ SWIGRUNTIME const char * SWIG_TypePrettyName(const swig_type_info *type) { /* The "str" field contains the equivalent pretty names of the type, separated by vertical-bar characters. We choose to print the last name, as it is often (?) the most specific. */ if (!type) return NULL; if (type->str != NULL) { const char *last_name = type->str; const char *s; for (s = type->str; *s; s++) if (*s == '|') last_name = s+1; return last_name; } else return type->name; } /* Set the clientdata field for a type */ SWIGRUNTIME void SWIG_TypeClientData(swig_type_info *ti, void *clientdata) { swig_cast_info *cast = ti->cast; /* if (ti->clientdata == clientdata) return; */ ti->clientdata = clientdata; while (cast) { if (!cast->converter) { swig_type_info *tc = cast->type; if (!tc->clientdata) { SWIG_TypeClientData(tc, clientdata); } } cast = cast->next; } } SWIGRUNTIME void SWIG_TypeNewClientData(swig_type_info *ti, void *clientdata) { SWIG_TypeClientData(ti, clientdata); ti->owndata = 1; } /* Search for a swig_type_info structure only by mangled name Search is a O(log #types) We start searching at module start, and finish searching when start == end. Note: if start == end at the beginning of the function, we go all the way around the circular list. */ SWIGRUNTIME swig_type_info * SWIG_MangledTypeQueryModule(swig_module_info *start, swig_module_info *end, const char *name) { swig_module_info *iter = start; do { if (iter->size) { register size_t l = 0; register size_t r = iter->size - 1; do { /* since l+r >= 0, we can (>> 1) instead (/ 2) */ register size_t i = (l + r) >> 1; const char *iname = iter->types[i]->name; if (iname) { register int compare = strcmp(name, iname); if (compare == 0) { return iter->types[i]; } else if (compare < 0) { if (i) { r = i - 1; } else { break; } } else if (compare > 0) { l = i + 1; } } else { break; /* should never happen */ } } while (l <= r); } iter = iter->next; } while (iter != end); return 0; } /* Search for a swig_type_info structure for either a mangled name or a human readable name. It first searches the mangled names of the types, which is a O(log #types) If a type is not found it then searches the human readable names, which is O(#types). We start searching at module start, and finish searching when start == end. Note: if start == end at the beginning of the function, we go all the way around the circular list. */ SWIGRUNTIME swig_type_info * SWIG_TypeQueryModule(swig_module_info *start, swig_module_info *end, const char *name) { /* STEP 1: Search the name field using binary search */ swig_type_info *ret = SWIG_MangledTypeQueryModule(start, end, name); if (ret) { return ret; } else { /* STEP 2: If the type hasn't been found, do a complete search of the str field (the human readable name) */ swig_module_info *iter = start; do { register size_t i = 0; for (; i < iter->size; ++i) { if (iter->types[i]->str && (SWIG_TypeEquiv(iter->types[i]->str, name))) return iter->types[i]; } iter = iter->next; } while (iter != end); } /* neither found a match */ return 0; } /* Pack binary data into a string */ SWIGRUNTIME char * SWIG_PackData(char *c, void *ptr, size_t sz) { static const char hex[17] = "0123456789abcdef"; register const unsigned char *u = (unsigned char *) ptr; register const unsigned char *eu = u + sz; for (; u != eu; ++u) { register unsigned char uu = *u; *(c++) = hex[(uu & 0xf0) >> 4]; *(c++) = hex[uu & 0xf]; } return c; } /* Unpack binary data from a string */ SWIGRUNTIME const char * SWIG_UnpackData(const char *c, void *ptr, size_t sz) { register unsigned char *u = (unsigned char *) ptr; register const unsigned char *eu = u + sz; for (; u != eu; ++u) { register char d = *(c++); register unsigned char uu; if ((d >= '0') && (d <= '9')) uu = ((d - '0') << 4); else if ((d >= 'a') && (d <= 'f')) uu = ((d - ('a'-10)) << 4); else return (char *) 0; d = *(c++); if ((d >= '0') && (d <= '9')) uu |= (d - '0'); else if ((d >= 'a') && (d <= 'f')) uu |= (d - ('a'-10)); else return (char *) 0; *u = uu; } return c; } /* Pack 'void *' into a string buffer. */ SWIGRUNTIME char * SWIG_PackVoidPtr(char *buff, void *ptr, const char *name, size_t bsz) { char *r = buff; if ((2*sizeof(void *) + 2) > bsz) return 0; *(r++) = '_'; r = SWIG_PackData(r,&ptr,sizeof(void *)); if (strlen(name) + 1 > (bsz - (r - buff))) return 0; strcpy(r,name); return buff; } SWIGRUNTIME const char * SWIG_UnpackVoidPtr(const char *c, void **ptr, const char *name) { if (*c != '_') { if (strcmp(c,"NULL") == 0) { *ptr = (void *) 0; return name; } else { return 0; } } return SWIG_UnpackData(++c,ptr,sizeof(void *)); } SWIGRUNTIME char * SWIG_PackDataName(char *buff, void *ptr, size_t sz, const char *name, size_t bsz) { char *r = buff; size_t lname = (name ? strlen(name) : 0); if ((2*sz + 2 + lname) > bsz) return 0; *(r++) = '_'; r = SWIG_PackData(r,ptr,sz); if (lname) { strncpy(r,name,lname+1); } else { *r = 0; } return buff; } SWIGRUNTIME const char * SWIG_UnpackDataName(const char *c, void *ptr, size_t sz, const char *name) { if (*c != '_') { if (strcmp(c,"NULL") == 0) { memset(ptr,0,sz); return name; } else { return 0; } } return SWIG_UnpackData(++c,ptr,sz); } #ifdef __cplusplus } #endif /* Errors in SWIG */ #define SWIG_UnknownError -1 #define SWIG_IOError -2 #define SWIG_RuntimeError -3 #define SWIG_IndexError -4 #define SWIG_TypeError -5 #define SWIG_DivisionByZero -6 #define SWIG_OverflowError -7 #define SWIG_SyntaxError -8 #define SWIG_ValueError -9 #define SWIG_SystemError -10 #define SWIG_AttributeError -11 #define SWIG_MemoryError -12 #define SWIG_NullReferenceError -13 #include /* Remove global macros defined in Ruby's win32.h */ #ifdef write # undef write #endif #ifdef read # undef read #endif /* Ruby 1.7 defines NUM2LL(), LL2NUM() and ULL2NUM() macros */ #ifndef NUM2LL #define NUM2LL(x) NUM2LONG((x)) #endif #ifndef LL2NUM #define LL2NUM(x) INT2NUM((long) (x)) #endif #ifndef ULL2NUM #define ULL2NUM(x) UINT2NUM((unsigned long) (x)) #endif /* Ruby 1.7 doesn't (yet) define NUM2ULL() */ #ifndef NUM2ULL #ifdef HAVE_LONG_LONG #define NUM2ULL(x) rb_num2ull((x)) #else #define NUM2ULL(x) NUM2ULONG(x) #endif #endif /* RSTRING_LEN, etc are new in Ruby 1.9, but ->ptr and ->len no longer work */ /* Define these for older versions so we can just write code the new way */ #ifndef RSTRING_LEN # define RSTRING_LEN(x) RSTRING(x)->len #endif #ifndef RSTRING_PTR # define RSTRING_PTR(x) RSTRING(x)->ptr #endif #ifndef RSTRING_END # define RSTRING_END(x) (RSTRING_PTR(x) + RSTRING_LEN(x)) #endif #ifndef RARRAY_LEN # define RARRAY_LEN(x) RARRAY(x)->len #endif #ifndef RARRAY_PTR # define RARRAY_PTR(x) RARRAY(x)->ptr #endif #ifndef RFLOAT_VALUE # define RFLOAT_VALUE(x) RFLOAT(x)->value #endif #ifndef DOUBLE2NUM # define DOUBLE2NUM(x) rb_float_new(x) #endif #ifndef RHASH_TBL # define RHASH_TBL(x) (RHASH(x)->tbl) #endif #ifndef RHASH_ITER_LEV # define RHASH_ITER_LEV(x) (RHASH(x)->iter_lev) #endif #ifndef RHASH_IFNONE # define RHASH_IFNONE(x) (RHASH(x)->ifnone) #endif #ifndef RHASH_SIZE # define RHASH_SIZE(x) (RHASH(x)->tbl->num_entries) #endif #ifndef RHASH_EMPTY_P # define RHASH_EMPTY_P(x) (RHASH_SIZE(x) == 0) #endif #ifndef RSTRUCT_LEN # define RSTRUCT_LEN(x) RSTRUCT(x)->len #endif #ifndef RSTRUCT_PTR # define RSTRUCT_PTR(x) RSTRUCT(x)->ptr #endif /* * Need to be very careful about how these macros are defined, especially * when compiling C++ code or C code with an ANSI C compiler. * * VALUEFUNC(f) is a macro used to typecast a C function that implements * a Ruby method so that it can be passed as an argument to API functions * like rb_define_method() and rb_define_singleton_method(). * * VOIDFUNC(f) is a macro used to typecast a C function that implements * either the "mark" or "free" stuff for a Ruby Data object, so that it * can be passed as an argument to API functions like Data_Wrap_Struct() * and Data_Make_Struct(). */ #ifdef __cplusplus # ifndef RUBY_METHOD_FUNC /* These definitions should work for Ruby 1.4.6 */ # define PROTECTFUNC(f) ((VALUE (*)()) f) # define VALUEFUNC(f) ((VALUE (*)()) f) # define VOIDFUNC(f) ((void (*)()) f) # else # ifndef ANYARGS /* These definitions should work for Ruby 1.6 */ # define PROTECTFUNC(f) ((VALUE (*)()) f) # define VALUEFUNC(f) ((VALUE (*)()) f) # define VOIDFUNC(f) ((RUBY_DATA_FUNC) f) # else /* These definitions should work for Ruby 1.7+ */ # define PROTECTFUNC(f) ((VALUE (*)(VALUE)) f) # define VALUEFUNC(f) ((VALUE (*)(ANYARGS)) f) # define VOIDFUNC(f) ((RUBY_DATA_FUNC) f) # endif # endif #else # define VALUEFUNC(f) (f) # define VOIDFUNC(f) (f) #endif /* Don't use for expressions have side effect */ #ifndef RB_STRING_VALUE #define RB_STRING_VALUE(s) (TYPE(s) == T_STRING ? (s) : (*(volatile VALUE *)&(s) = rb_str_to_str(s))) #endif #ifndef StringValue #define StringValue(s) RB_STRING_VALUE(s) #endif #ifndef StringValuePtr #define StringValuePtr(s) RSTRING_PTR(RB_STRING_VALUE(s)) #endif #ifndef StringValueLen #define StringValueLen(s) RSTRING_LEN(RB_STRING_VALUE(s)) #endif #ifndef SafeStringValue #define SafeStringValue(v) do {\ StringValue(v);\ rb_check_safe_str(v);\ } while (0) #endif #ifndef HAVE_RB_DEFINE_ALLOC_FUNC #define rb_define_alloc_func(klass, func) rb_define_singleton_method((klass), "new", VALUEFUNC((func)), -1) #define rb_undef_alloc_func(klass) rb_undef_method(CLASS_OF((klass)), "new") #endif static VALUE _mSWIG = Qnil; /* ----------------------------------------------------------------------------- * error manipulation * ----------------------------------------------------------------------------- */ /* Define some additional error types */ #define SWIG_ObjectPreviouslyDeletedError -100 /* Define custom exceptions for errors that do not map to existing Ruby exceptions. Note this only works for C++ since a global cannot be initialized by a funtion in C. For C, fallback to rb_eRuntimeError.*/ SWIGINTERN VALUE getNullReferenceError(void) { static int init = 0; static VALUE rb_eNullReferenceError ; if (!init) { init = 1; rb_eNullReferenceError = rb_define_class("NullReferenceError", rb_eRuntimeError); } return rb_eNullReferenceError; } SWIGINTERN VALUE getObjectPreviouslyDeletedError(void) { static int init = 0; static VALUE rb_eObjectPreviouslyDeleted ; if (!init) { init = 1; rb_eObjectPreviouslyDeleted = rb_define_class("ObjectPreviouslyDeleted", rb_eRuntimeError); } return rb_eObjectPreviouslyDeleted; } SWIGINTERN VALUE SWIG_Ruby_ErrorType(int SWIG_code) { VALUE type; switch (SWIG_code) { case SWIG_MemoryError: type = rb_eNoMemError; break; case SWIG_IOError: type = rb_eIOError; break; case SWIG_RuntimeError: type = rb_eRuntimeError; break; case SWIG_IndexError: type = rb_eIndexError; break; case SWIG_TypeError: type = rb_eTypeError; break; case SWIG_DivisionByZero: type = rb_eZeroDivError; break; case SWIG_OverflowError: type = rb_eRangeError; break; case SWIG_SyntaxError: type = rb_eSyntaxError; break; case SWIG_ValueError: type = rb_eArgError; break; case SWIG_SystemError: type = rb_eFatal; break; case SWIG_AttributeError: type = rb_eRuntimeError; break; case SWIG_NullReferenceError: type = getNullReferenceError(); break; case SWIG_ObjectPreviouslyDeletedError: type = getObjectPreviouslyDeletedError(); break; case SWIG_UnknownError: type = rb_eRuntimeError; break; default: type = rb_eRuntimeError; } return type; } /* This function is called when a user inputs a wrong argument to a method. */ SWIGINTERN const char* Ruby_Format_TypeError( const char* msg, const char* type, const char* name, const int argn, VALUE input ) { char buf[128]; VALUE str; VALUE asStr; if ( msg && *msg ) { str = rb_str_new2(msg); } else { str = rb_str_new(NULL, 0); } str = rb_str_cat2( str, "Expected argument " ); sprintf( buf, "%d of type ", argn-1 ); str = rb_str_cat2( str, buf ); str = rb_str_cat2( str, type ); str = rb_str_cat2( str, ", but got " ); str = rb_str_cat2( str, rb_obj_classname(input) ); str = rb_str_cat2( str, " " ); asStr = rb_inspect(input); if ( RSTRING_LEN(asStr) > 30 ) { str = rb_str_cat( str, StringValuePtr(asStr), 30 ); str = rb_str_cat2( str, "..." ); } else { str = rb_str_append( str, asStr ); } if ( name ) { str = rb_str_cat2( str, "\n\tin SWIG method '" ); str = rb_str_cat2( str, name ); str = rb_str_cat2( str, "'" ); } return StringValuePtr( str ); } /* This function is called when an overloaded method fails */ SWIGINTERN void Ruby_Format_OverloadedError( const int argc, const int maxargs, const char* method, const char* prototypes ) { const char* msg = "Wrong # of arguments"; if ( argc <= maxargs ) msg = "Wrong arguments"; rb_raise(rb_eArgError,"%s for overloaded method '%s'.\n" "Possible C/C++ prototypes are:\n%s", msg, method, prototypes); } /* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * rubytracking.swg * * This file contains support for tracking mappings from * Ruby objects to C++ objects. This functionality is needed * to implement mark functions for Ruby's mark and sweep * garbage collector. * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #endif /* Ruby 1.8 actually assumes the first case. */ #if SIZEOF_VOIDP == SIZEOF_LONG # define SWIG2NUM(v) LONG2NUM((unsigned long)v) # define NUM2SWIG(x) (unsigned long)NUM2LONG(x) #elif SIZEOF_VOIDP == SIZEOF_LONG_LONG # define SWIG2NUM(v) LL2NUM((unsigned long long)v) # define NUM2SWIG(x) (unsigned long long)NUM2LL(x) #else # error sizeof(void*) is not the same as long or long long #endif /* Global Ruby hash table to store Trackings from C/C++ structs to Ruby Objects. */ static VALUE swig_ruby_trackings = Qnil; /* Global variable that stores a reference to the ruby hash table delete function. */ static ID swig_ruby_hash_delete; /* Setup a Ruby hash table to store Trackings */ SWIGRUNTIME void SWIG_RubyInitializeTrackings(void) { /* Create a ruby hash table to store Trackings from C++ objects to Ruby objects. */ /* Try to see if some other .so has already created a tracking hash table, which we keep hidden in an instance var in the SWIG module. This is done to allow multiple DSOs to share the same tracking table. */ ID trackings_id = rb_intern( "@__trackings__" ); VALUE verbose = rb_gv_get("VERBOSE"); rb_gv_set("VERBOSE", Qfalse); swig_ruby_trackings = rb_ivar_get( _mSWIG, trackings_id ); rb_gv_set("VERBOSE", verbose); /* No, it hasn't. Create one ourselves */ if ( swig_ruby_trackings == Qnil ) { swig_ruby_trackings = rb_hash_new(); rb_ivar_set( _mSWIG, trackings_id, swig_ruby_trackings ); } /* Now store a reference to the hash table delete function so that we only have to look it up once.*/ swig_ruby_hash_delete = rb_intern("delete"); } /* Get a Ruby number to reference a pointer */ SWIGRUNTIME VALUE SWIG_RubyPtrToReference(void* ptr) { /* We cast the pointer to an unsigned long and then store a reference to it using a Ruby number object. */ /* Convert the pointer to a Ruby number */ return SWIG2NUM(ptr); } /* Get a Ruby number to reference an object */ SWIGRUNTIME VALUE SWIG_RubyObjectToReference(VALUE object) { /* We cast the object to an unsigned long and then store a reference to it using a Ruby number object. */ /* Convert the Object to a Ruby number */ return SWIG2NUM(object); } /* Get a Ruby object from a previously stored reference */ SWIGRUNTIME VALUE SWIG_RubyReferenceToObject(VALUE reference) { /* The provided Ruby number object is a reference to the Ruby object we want.*/ /* Convert the Ruby number to a Ruby object */ return NUM2SWIG(reference); } /* Add a Tracking from a C/C++ struct to a Ruby object */ SWIGRUNTIME void SWIG_RubyAddTracking(void* ptr, VALUE object) { /* In a Ruby hash table we store the pointer and the associated Ruby object. The trick here is that we cannot store the Ruby object directly - if we do then it cannot be garbage collected. So instead we typecast it as a unsigned long and convert it to a Ruby number object.*/ /* Get a reference to the pointer as a Ruby number */ VALUE key = SWIG_RubyPtrToReference(ptr); /* Get a reference to the Ruby object as a Ruby number */ VALUE value = SWIG_RubyObjectToReference(object); /* Store the mapping to the global hash table. */ rb_hash_aset(swig_ruby_trackings, key, value); } /* Get the Ruby object that owns the specified C/C++ struct */ SWIGRUNTIME VALUE SWIG_RubyInstanceFor(void* ptr) { /* Get a reference to the pointer as a Ruby number */ VALUE key = SWIG_RubyPtrToReference(ptr); /* Now lookup the value stored in the global hash table */ VALUE value = rb_hash_aref(swig_ruby_trackings, key); if (value == Qnil) { /* No object exists - return nil. */ return Qnil; } else { /* Convert this value to Ruby object */ return SWIG_RubyReferenceToObject(value); } } /* Remove a Tracking from a C/C++ struct to a Ruby object. It is very important to remove objects once they are destroyed since the same memory address may be reused later to create a new object. */ SWIGRUNTIME void SWIG_RubyRemoveTracking(void* ptr) { /* Get a reference to the pointer as a Ruby number */ VALUE key = SWIG_RubyPtrToReference(ptr); /* Delete the object from the hash table by calling Ruby's do this we need to call the Hash.delete method.*/ rb_funcall(swig_ruby_trackings, swig_ruby_hash_delete, 1, key); } /* This is a helper method that unlinks a Ruby object from its underlying C++ object. This is needed if the lifetime of the Ruby object is longer than the C++ object */ SWIGRUNTIME void SWIG_RubyUnlinkObjects(void* ptr) { VALUE object = SWIG_RubyInstanceFor(ptr); if (object != Qnil) { DATA_PTR(object) = 0; } } #ifdef __cplusplus } #endif /* ----------------------------------------------------------------------------- * Ruby API portion that goes into the runtime * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #endif SWIGINTERN VALUE SWIG_Ruby_AppendOutput(VALUE target, VALUE o) { if (NIL_P(target)) { target = o; } else { if (TYPE(target) != T_ARRAY) { VALUE o2 = target; target = rb_ary_new(); rb_ary_push(target, o2); } rb_ary_push(target, o); } return target; } /* For ruby1.8.4 and earlier. */ #ifndef RUBY_INIT_STACK RUBY_EXTERN void Init_stack(VALUE* addr); # define RUBY_INIT_STACK \ VALUE variable_in_this_stack_frame; \ Init_stack(&variable_in_this_stack_frame); #endif #ifdef __cplusplus } #endif /* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * rubyrun.swg * * This file contains the runtime support for Ruby modules * and includes code for managing global variables and pointer * type checking. * ----------------------------------------------------------------------------- */ /* For backward compatibility only */ #define SWIG_POINTER_EXCEPTION 0 /* for raw pointers */ #define SWIG_ConvertPtr(obj, pptr, type, flags) SWIG_Ruby_ConvertPtrAndOwn(obj, pptr, type, flags, 0) #define SWIG_ConvertPtrAndOwn(obj,pptr,type,flags,own) SWIG_Ruby_ConvertPtrAndOwn(obj, pptr, type, flags, own) #define SWIG_NewPointerObj(ptr, type, flags) SWIG_Ruby_NewPointerObj(ptr, type, flags) #define SWIG_AcquirePtr(ptr, own) SWIG_Ruby_AcquirePtr(ptr, own) #define swig_owntype ruby_owntype /* for raw packed data */ #define SWIG_ConvertPacked(obj, ptr, sz, ty) SWIG_Ruby_ConvertPacked(obj, ptr, sz, ty, flags) #define SWIG_NewPackedObj(ptr, sz, type) SWIG_Ruby_NewPackedObj(ptr, sz, type) /* for class or struct pointers */ #define SWIG_ConvertInstance(obj, pptr, type, flags) SWIG_ConvertPtr(obj, pptr, type, flags) #define SWIG_NewInstanceObj(ptr, type, flags) SWIG_NewPointerObj(ptr, type, flags) /* for C or C++ function pointers */ #define SWIG_ConvertFunctionPtr(obj, pptr, type) SWIG_ConvertPtr(obj, pptr, type, 0) #define SWIG_NewFunctionPtrObj(ptr, type) SWIG_NewPointerObj(ptr, type, 0) /* for C++ member pointers, ie, member methods */ #define SWIG_ConvertMember(obj, ptr, sz, ty) SWIG_Ruby_ConvertPacked(obj, ptr, sz, ty) #define SWIG_NewMemberObj(ptr, sz, type) SWIG_Ruby_NewPackedObj(ptr, sz, type) /* Runtime API */ #define SWIG_GetModule(clientdata) SWIG_Ruby_GetModule() #define SWIG_SetModule(clientdata, pointer) SWIG_Ruby_SetModule(pointer) /* Error manipulation */ #define SWIG_ErrorType(code) SWIG_Ruby_ErrorType(code) #define SWIG_Error(code, msg) rb_raise(SWIG_Ruby_ErrorType(code), msg) #define SWIG_fail goto fail /* Ruby-specific SWIG API */ #define SWIG_InitRuntime() SWIG_Ruby_InitRuntime() #define SWIG_define_class(ty) SWIG_Ruby_define_class(ty) #define SWIG_NewClassInstance(value, ty) SWIG_Ruby_NewClassInstance(value, ty) #define SWIG_MangleStr(value) SWIG_Ruby_MangleStr(value) #define SWIG_CheckConvert(value, ty) SWIG_Ruby_CheckConvert(value, ty) #include "assert.h" /* ----------------------------------------------------------------------------- * pointers/data manipulation * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #endif typedef struct { VALUE klass; VALUE mImpl; void (*mark)(void *); void (*destroy)(void *); int trackObjects; } swig_class; /* Global pointer used to keep some internal SWIG stuff */ static VALUE _cSWIG_Pointer = Qnil; static VALUE swig_runtime_data_type_pointer = Qnil; /* Global IDs used to keep some internal SWIG stuff */ static ID swig_arity_id = 0; static ID swig_call_id = 0; /* If your swig extension is to be run within an embedded ruby and has director callbacks, you should set -DRUBY_EMBEDDED during compilation. This will reset ruby's stack frame on each entry point from the main program the first time a virtual director function is invoked (in a non-recursive way). If this is not done, you run the risk of Ruby trashing the stack. */ #ifdef RUBY_EMBEDDED # define SWIG_INIT_STACK \ if ( !swig_virtual_calls ) { RUBY_INIT_STACK } \ ++swig_virtual_calls; # define SWIG_RELEASE_STACK --swig_virtual_calls; # define Ruby_DirectorTypeMismatchException(x) \ rb_raise( rb_eTypeError, x ); return c_result; static unsigned int swig_virtual_calls = 0; #else /* normal non-embedded extension */ # define SWIG_INIT_STACK # define SWIG_RELEASE_STACK # define Ruby_DirectorTypeMismatchException(x) \ throw Swig::DirectorTypeMismatchException( x ); #endif /* RUBY_EMBEDDED */ SWIGRUNTIME VALUE getExceptionClass(void) { static int init = 0; static VALUE rubyExceptionClass ; if (!init) { init = 1; rubyExceptionClass = rb_const_get(_mSWIG, rb_intern("Exception")); } return rubyExceptionClass; } /* This code checks to see if the Ruby object being raised as part of an exception inherits from the Ruby class Exception. If so, the object is simply returned. If not, then a new Ruby exception object is created and that will be returned to Ruby.*/ SWIGRUNTIME VALUE SWIG_Ruby_ExceptionType(swig_type_info *desc, VALUE obj) { VALUE exceptionClass = getExceptionClass(); if (rb_obj_is_kind_of(obj, exceptionClass)) { return obj; } else { return rb_exc_new3(rb_eRuntimeError, rb_obj_as_string(obj)); } } /* Initialize Ruby runtime support */ SWIGRUNTIME void SWIG_Ruby_InitRuntime(void) { if (_mSWIG == Qnil) { _mSWIG = rb_define_module("SWIG"); swig_call_id = rb_intern("call"); swig_arity_id = rb_intern("arity"); } } /* Define Ruby class for C type */ SWIGRUNTIME void SWIG_Ruby_define_class(swig_type_info *type) { VALUE klass; char *klass_name = (char *) malloc(4 + strlen(type->name) + 1); sprintf(klass_name, "TYPE%s", type->name); if (NIL_P(_cSWIG_Pointer)) { _cSWIG_Pointer = rb_define_class_under(_mSWIG, "Pointer", rb_cObject); rb_undef_method(CLASS_OF(_cSWIG_Pointer), "new"); } klass = rb_define_class_under(_mSWIG, klass_name, _cSWIG_Pointer); free((void *) klass_name); } /* Create a new pointer object */ SWIGRUNTIME VALUE SWIG_Ruby_NewPointerObj(void *ptr, swig_type_info *type, int flags) { int own = flags & SWIG_POINTER_OWN; int track; char *klass_name; swig_class *sklass; VALUE klass; VALUE obj; if (!ptr) return Qnil; if (type->clientdata) { sklass = (swig_class *) type->clientdata; /* Are we tracking this class and have we already returned this Ruby object? */ track = sklass->trackObjects; if (track) { obj = SWIG_RubyInstanceFor(ptr); /* Check the object's type and make sure it has the correct type. It might not in cases where methods do things like downcast methods. */ if (obj != Qnil) { VALUE value = rb_iv_get(obj, "@__swigtype__"); char* type_name = RSTRING_PTR(value); if (strcmp(type->name, type_name) == 0) { return obj; } } } /* Create a new Ruby object */ obj = Data_Wrap_Struct(sklass->klass, VOIDFUNC(sklass->mark), ( own ? VOIDFUNC(sklass->destroy) : (track ? VOIDFUNC(SWIG_RubyRemoveTracking) : 0 ) ), ptr); /* If tracking is on for this class then track this object. */ if (track) { SWIG_RubyAddTracking(ptr, obj); } } else { klass_name = (char *) malloc(4 + strlen(type->name) + 1); sprintf(klass_name, "TYPE%s", type->name); klass = rb_const_get(_mSWIG, rb_intern(klass_name)); free((void *) klass_name); obj = Data_Wrap_Struct(klass, 0, 0, ptr); } rb_iv_set(obj, "@__swigtype__", rb_str_new2(type->name)); return obj; } /* Create a new class instance (always owned) */ SWIGRUNTIME VALUE SWIG_Ruby_NewClassInstance(VALUE klass, swig_type_info *type) { VALUE obj; swig_class *sklass = (swig_class *) type->clientdata; obj = Data_Wrap_Struct(klass, VOIDFUNC(sklass->mark), VOIDFUNC(sklass->destroy), 0); rb_iv_set(obj, "@__swigtype__", rb_str_new2(type->name)); return obj; } /* Get type mangle from class name */ SWIGRUNTIMEINLINE char * SWIG_Ruby_MangleStr(VALUE obj) { VALUE stype = rb_iv_get(obj, "@__swigtype__"); return StringValuePtr(stype); } /* Acquire a pointer value */ typedef void (*ruby_owntype)(void*); SWIGRUNTIME ruby_owntype SWIG_Ruby_AcquirePtr(VALUE obj, ruby_owntype own) { if (obj) { ruby_owntype oldown = RDATA(obj)->dfree; RDATA(obj)->dfree = own; return oldown; } else { return 0; } } /* Convert a pointer value */ SWIGRUNTIME int SWIG_Ruby_ConvertPtrAndOwn(VALUE obj, void **ptr, swig_type_info *ty, int flags, ruby_owntype *own) { char *c; swig_cast_info *tc; void *vptr = 0; /* Grab the pointer */ if (NIL_P(obj)) { *ptr = 0; return SWIG_OK; } else { if (TYPE(obj) != T_DATA) { return SWIG_ERROR; } Data_Get_Struct(obj, void, vptr); } if (own) *own = RDATA(obj)->dfree; /* Check to see if the input object is giving up ownership of the underlying C struct or C++ object. If so then we need to reset the destructor since the Ruby object no longer owns the underlying C++ object.*/ if (flags & SWIG_POINTER_DISOWN) { /* Is tracking on for this class? */ int track = 0; if (ty && ty->clientdata) { swig_class *sklass = (swig_class *) ty->clientdata; track = sklass->trackObjects; } if (track) { /* We are tracking objects for this class. Thus we change the destructor * to SWIG_RubyRemoveTracking. This allows us to * remove the mapping from the C++ to Ruby object * when the Ruby object is garbage collected. If we don't * do this, then it is possible we will return a reference * to a Ruby object that no longer exists thereby crashing Ruby. */ RDATA(obj)->dfree = SWIG_RubyRemoveTracking; } else { RDATA(obj)->dfree = 0; } } /* Do type-checking if type info was provided */ if (ty) { if (ty->clientdata) { if (rb_obj_is_kind_of(obj, ((swig_class *) (ty->clientdata))->klass)) { if (vptr == 0) { /* The object has already been deleted */ return SWIG_ObjectPreviouslyDeletedError; } *ptr = vptr; return SWIG_OK; } } if ((c = SWIG_MangleStr(obj)) == NULL) { return SWIG_ERROR; } tc = SWIG_TypeCheck(c, ty); if (!tc) { return SWIG_ERROR; } else { int newmemory = 0; *ptr = SWIG_TypeCast(tc, vptr, &newmemory); assert(!newmemory); /* newmemory handling not yet implemented */ } } else { *ptr = vptr; } return SWIG_OK; } /* Check convert */ SWIGRUNTIMEINLINE int SWIG_Ruby_CheckConvert(VALUE obj, swig_type_info *ty) { char *c = SWIG_MangleStr(obj); if (!c) return 0; return SWIG_TypeCheck(c,ty) != 0; } SWIGRUNTIME VALUE SWIG_Ruby_NewPackedObj(void *ptr, int sz, swig_type_info *type) { char result[1024]; char *r = result; if ((2*sz + 1 + strlen(type->name)) > 1000) return 0; *(r++) = '_'; r = SWIG_PackData(r, ptr, sz); strcpy(r, type->name); return rb_str_new2(result); } /* Convert a packed value value */ SWIGRUNTIME int SWIG_Ruby_ConvertPacked(VALUE obj, void *ptr, int sz, swig_type_info *ty) { swig_cast_info *tc; const char *c; if (TYPE(obj) != T_STRING) goto type_error; c = StringValuePtr(obj); /* Pointer values must start with leading underscore */ if (*c != '_') goto type_error; c++; c = SWIG_UnpackData(c, ptr, sz); if (ty) { tc = SWIG_TypeCheck(c, ty); if (!tc) goto type_error; } return SWIG_OK; type_error: return SWIG_ERROR; } SWIGRUNTIME swig_module_info * SWIG_Ruby_GetModule(void) { VALUE pointer; swig_module_info *ret = 0; VALUE verbose = rb_gv_get("VERBOSE"); /* temporarily disable warnings, since the pointer check causes warnings with 'ruby -w' */ rb_gv_set("VERBOSE", Qfalse); /* first check if pointer already created */ pointer = rb_gv_get("$swig_runtime_data_type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME); if (pointer != Qnil) { Data_Get_Struct(pointer, swig_module_info, ret); } /* reinstate warnings */ rb_gv_set("VERBOSE", verbose); return ret; } SWIGRUNTIME void SWIG_Ruby_SetModule(swig_module_info *pointer) { /* register a new class */ VALUE cl = rb_define_class("swig_runtime_data", rb_cObject); /* create and store the structure pointer to a global variable */ swig_runtime_data_type_pointer = Data_Wrap_Struct(cl, 0, 0, pointer); rb_define_readonly_variable("$swig_runtime_data_type_pointer" SWIG_RUNTIME_VERSION SWIG_TYPE_TABLE_NAME, &swig_runtime_data_type_pointer); } /* This function can be used to check whether a proc or method or similarly callable function has been passed. Usually used in a %typecheck, like: %typecheck(c_callback_t, precedence=SWIG_TYPECHECK_POINTER) { $result = SWIG_Ruby_isCallable( $input ); } */ SWIGINTERN int SWIG_Ruby_isCallable( VALUE proc ) { if ( rb_respond_to( proc, swig_call_id ) == Qtrue ) return 1; return 0; } /* This function can be used to check the arity (number of arguments) a proc or method can take. Usually used in a %typecheck. Valid arities will be that equal to minimal or those < 0 which indicate a variable number of parameters at the end. */ SWIGINTERN int SWIG_Ruby_arity( VALUE proc, int minimal ) { if ( rb_respond_to( proc, swig_arity_id ) == Qtrue ) { VALUE num = rb_funcall( proc, swig_arity_id, 0 ); int arity = NUM2INT(num); if ( arity < 0 && (arity+1) < -minimal ) return 1; if ( arity == minimal ) return 1; return 1; } return 0; } #ifdef __cplusplus } #endif #define SWIG_exception_fail(code, msg) do { SWIG_Error(code, msg); SWIG_fail; } while(0) #define SWIG_contract_assert(expr, msg) if (!(expr)) { SWIG_Error(SWIG_RuntimeError, msg); SWIG_fail; } else #define SWIG_exception(code, msg) do { SWIG_Error(code, msg);; } while(0) /* -------- TYPES TABLE (BEGIN) -------- */ #define SWIGTYPE_p_allocator_type swig_types[0] #define SWIGTYPE_p_char swig_types[1] #define SWIGTYPE_p_difference_type swig_types[2] #define SWIGTYPE_p_p_void swig_types[3] #define SWIGTYPE_p_reader swig_types[4] #define SWIGTYPE_p_size_type swig_types[5] #define SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t swig_types[6] #define SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type swig_types[7] #define SWIGTYPE_p_swig__ConstIterator swig_types[8] #define SWIGTYPE_p_swig__GC_VALUE swig_types[9] #define SWIGTYPE_p_swig__Iterator swig_types[10] #define SWIGTYPE_p_value_type swig_types[11] #define SWIGTYPE_p_writer swig_types[12] static swig_type_info *swig_types[14]; static swig_module_info swig_module = {swig_types, 13, 0, 0, 0, 0}; #define SWIG_TypeQuery(name) SWIG_TypeQueryModule(&swig_module, &swig_module, name) #define SWIG_MangledTypeQuery(name) SWIG_MangledTypeQueryModule(&swig_module, &swig_module, name) /* -------- TYPES TABLE (END) -------- */ #define SWIG_init Init_simstring #define SWIG_name "Simstring" static VALUE mSimstring; #define SWIG_RUBY_THREAD_BEGIN_BLOCK #define SWIG_RUBY_THREAD_END_BLOCK #define SWIGVERSION 0x010336 #define SWIG_VERSION SWIGVERSION #define SWIG_as_voidptr(a) const_cast< void * >(static_cast< const void * >(a)) #define SWIG_as_voidptrptr(a) ((void)SWIG_as_voidptr(*a),reinterpret_cast< void** >(a)) #include #include "export.h" #include #include #include namespace swig { class GC_VALUE { protected: // Hash of all GC_VALUE's currently in use static VALUE _hash; VALUE _obj; static ID hash_id; static ID lt_id; static ID gt_id; static ID eq_id; static ID le_id; static ID ge_id; static ID pos_id; static ID neg_id; static ID inv_id; static ID add_id; static ID sub_id; static ID mul_id; static ID div_id; static ID mod_id; static ID and_id; static ID or_id; static ID xor_id; static ID lshift_id; static ID rshift_id; struct OpArgs { VALUE src; ID id; int nargs; VALUE target; }; public: static void initialize() { if ( _hash == Qnil ) { _hash = rb_hash_new(); rb_gc_register_address( &_hash ); } } // this function is never called. Provided for symmetry only. static void cleanup() { rb_gc_unregister_address( &_hash ); } GC_VALUE() : _obj( Qnil ) { } GC_VALUE(const GC_VALUE& item) : _obj(item._obj) { GC_register(); } GC_VALUE(VALUE obj) :_obj(obj) { GC_register(); } ~GC_VALUE() { GC_unregister(); } GC_VALUE & operator=(const GC_VALUE& item) { GC_unregister(); _obj = item._obj; GC_register(); return *this; } void GC_register() { if ( FIXNUM_P(_obj) || SPECIAL_CONST_P(_obj) || SYMBOL_P(_obj) ) return; VALUE val = rb_hash_aref( _hash, _obj ); unsigned n = FIXNUM_P(val) ? NUM2UINT(val) : 0; ++n; rb_hash_aset( _hash, _obj, INT2NUM(n) ); } void GC_unregister() { if ( FIXNUM_P(_obj) || SPECIAL_CONST_P(_obj) || SYMBOL_P(_obj) ) return; // this test should not be needed but I've noticed some very erratic // behavior of none being unregistered in some very rare situations. if ( BUILTIN_TYPE(_obj) == T_NONE ) return; VALUE val = rb_hash_aref( _hash, _obj ); unsigned n = FIXNUM_P(val) ? NUM2UINT(val) : 1; --n; if ( n ) rb_hash_aset( _hash, _obj, INT2NUM(n) ); else rb_hash_delete( _hash, _obj ); } operator VALUE() const { return _obj; } VALUE inspect() const { return rb_inspect(_obj); } VALUE to_s() const { return rb_inspect(_obj); } static VALUE swig_protect_funcall( VALUE p ) { OpArgs* args = (OpArgs*) p; return rb_funcall( args->src, args->id, args->nargs, args->target ); } #define GC_VALUE_CMP( op_id, op, cmp, cmpval ) \ bool op( const GC_VALUE& other ) const \ { \ if ( FIXNUM_P(_obj) && FIXNUM_P(other._obj) ) \ { \ return _obj cmp other._obj; \ } \ bool res = false; \ VALUE ret = Qnil; \ SWIG_RUBY_THREAD_BEGIN_BLOCK; \ if ( rb_respond_to( _obj, op_id ) == Qtrue ) \ { \ int status; \ OpArgs args; \ args.src = _obj; \ args.id = op_id; \ args.nargs = 1; \ args.target = VALUE(other); \ ret = rb_protect( PROTECTFUNC(swig_protect_funcall), \ VALUE(&args), &status ); \ } \ if ( ret == Qnil ) { \ VALUE a = rb_funcall( _obj, hash_id, 0 ); \ VALUE b = rb_funcall( VALUE(other), hash_id, 0 ); \ res = a cmp b; \ } \ else \ { \ res = RTEST( ret ); \ } \ SWIG_RUBY_THREAD_END_BLOCK; \ return res; \ } GC_VALUE_CMP( eq_id, operator==, ==, == 0 ) GC_VALUE_CMP( lt_id, operator<, < , < 0 ) GC_VALUE_CMP( le_id, operator<=, <=, <= 0 ) GC_VALUE_CMP( gt_id, operator>, > , > 0 ) GC_VALUE_CMP( ge_id, operator>=, >=, >= 0 ) #undef GC_VALUE_CMP bool operator!=( const GC_VALUE& other ) { return !(this->operator==(other)); } #define GC_VALUE_UNARY( proc_id, op ) \ GC_VALUE op() const \ { \ VALUE ret = Qnil; \ SWIG_RUBY_THREAD_BEGIN_BLOCK; \ int status; \ OpArgs args; \ args.src = _obj; \ args.id = proc_id; \ args.nargs = 0; \ args.target = Qnil; \ ret = rb_protect( PROTECTFUNC(swig_protect_funcall), VALUE(&args), \ &status ); \ SWIG_RUBY_THREAD_END_BLOCK; \ return ret; \ } GC_VALUE_UNARY( pos_id, operator+ ) GC_VALUE_UNARY( neg_id, operator- ) GC_VALUE_UNARY( inv_id, operator~ ) #undef GC_VALUE_BINARY #define GC_VALUE_BINARY( proc_id, op ) \ GC_VALUE op( const GC_VALUE& other ) const \ { \ VALUE ret = Qnil; \ SWIG_RUBY_THREAD_BEGIN_BLOCK; \ int status; \ OpArgs args; \ args.src = _obj; \ args.id = proc_id; \ args.nargs = 1; \ args.target = VALUE(other); \ ret = rb_protect( PROTECTFUNC(swig_protect_funcall), VALUE(&args), \ &status ); \ SWIG_RUBY_THREAD_END_BLOCK; \ return GC_VALUE(ret); \ } GC_VALUE_BINARY( add_id, operator+ ); GC_VALUE_BINARY( sub_id, operator- ); GC_VALUE_BINARY( mul_id, operator* ); GC_VALUE_BINARY( div_id, operator/ ); GC_VALUE_BINARY( mod_id, operator% ); GC_VALUE_BINARY( and_id, operator& ); GC_VALUE_BINARY( xor_id, operator^ ); GC_VALUE_BINARY( or_id, operator| ); GC_VALUE_BINARY( lshift_id, operator<< ); GC_VALUE_BINARY( rshift_id, operator>> ); #undef GC_VALUE_BINARY }; ID GC_VALUE::hash_id = rb_intern("hash"); ID GC_VALUE::lt_id = rb_intern("<"); ID GC_VALUE::gt_id = rb_intern(">"); ID GC_VALUE::eq_id = rb_intern("=="); ID GC_VALUE::le_id = rb_intern("<="); ID GC_VALUE::ge_id = rb_intern(">="); ID GC_VALUE::pos_id = rb_intern("+@"); ID GC_VALUE::neg_id = rb_intern("-@"); ID GC_VALUE::inv_id = rb_intern("~"); ID GC_VALUE::add_id = rb_intern("+"); ID GC_VALUE::sub_id = rb_intern("-"); ID GC_VALUE::mul_id = rb_intern("*"); ID GC_VALUE::div_id = rb_intern("/"); ID GC_VALUE::mod_id = rb_intern("%"); ID GC_VALUE::and_id = rb_intern("&"); ID GC_VALUE::or_id = rb_intern("|"); ID GC_VALUE::xor_id = rb_intern("^"); ID GC_VALUE::lshift_id = rb_intern("<<"); ID GC_VALUE::rshift_id = rb_intern(">>"); VALUE GC_VALUE::_hash = Qnil; typedef GC_VALUE LANGUAGE_OBJ; } // namespace swig #if defined(__GNUC__) # if __GNUC__ == 2 && __GNUC_MINOR <= 96 # define SWIG_STD_NOMODERN_STL # endif #endif #include #include namespace swig { struct stop_iteration { }; /** * Abstract base class used to represent all iterators of STL containers. */ struct ConstIterator { public: typedef ConstIterator self_type; protected: GC_VALUE _seq; protected: ConstIterator(VALUE seq) : _seq(seq) { } // Random access iterator methods, but not required in Ruby virtual ptrdiff_t distance(const ConstIterator &x) const { throw std::invalid_argument("distance not supported"); } virtual bool equal (const ConstIterator &x) const { throw std::invalid_argument("equal not supported"); } virtual self_type* advance(ptrdiff_t n) { throw std::invalid_argument("advance not supported"); } public: virtual ~ConstIterator() {} // Access iterator method, required by Ruby virtual VALUE value() const { throw std::invalid_argument("value not supported"); return Qnil; }; virtual VALUE setValue( const VALUE& v ) { throw std::invalid_argument("value= not supported"); return Qnil; } virtual self_type* next( size_t n = 1 ) { return this->advance( n ); } virtual self_type* previous( size_t n = 1 ) { ptrdiff_t nn = n; return this->advance( -nn ); } virtual VALUE to_s() const { throw std::invalid_argument("to_s not supported"); return Qnil; } virtual VALUE inspect() const { throw std::invalid_argument("inspect not supported"); return Qnil; } virtual ConstIterator *dup() const { throw std::invalid_argument("dup not supported"); return NULL; } // // C++ common/needed methods. We emulate a bidirectional // operator, to be compatible with all the STL. // The iterator traits will then tell the STL what type of // iterator we really are. // ConstIterator() : _seq( Qnil ) { } ConstIterator( const self_type& b ) : _seq( b._seq ) { } self_type& operator=( const self_type& b ) { _seq = b._seq; return *this; } bool operator == (const ConstIterator& x) const { return equal(x); } bool operator != (const ConstIterator& x) const { return ! operator==(x); } // Pre-decrement operator self_type& operator--() { return *previous(); } // Pre-increment operator self_type& operator++() { return *next(); } // Post-decrement operator self_type operator--(int) { self_type r = *this; previous(); return r; } // Post-increment operator self_type operator++(int) { self_type r = *this; next(); return r; } ConstIterator& operator += (ptrdiff_t n) { return *advance(n); } ConstIterator& operator -= (ptrdiff_t n) { return *advance(-n); } ConstIterator* operator + (ptrdiff_t n) const { return dup()->advance(n); } ConstIterator* operator - (ptrdiff_t n) const { return dup()->advance(-n); } ptrdiff_t operator - (const ConstIterator& x) const { return x.distance(*this); } static swig_type_info* descriptor() { static int init = 0; static swig_type_info* desc = 0; if (!init) { desc = SWIG_TypeQuery("swig::ConstIterator *"); init = 1; } return desc; } }; /** * Abstract base class used to represent all non-const iterators of STL containers. * */ struct Iterator : public ConstIterator { public: typedef Iterator self_type; protected: Iterator(VALUE seq) : ConstIterator(seq) { } virtual self_type* advance(ptrdiff_t n) { throw std::invalid_argument("operation not supported"); } public: static swig_type_info* descriptor() { static int init = 0; static swig_type_info* desc = 0; if (!init) { desc = SWIG_TypeQuery("swig::Iterator *"); init = 1; } return desc; } virtual Iterator *dup() const { throw std::invalid_argument("dup not supported"); return NULL; } virtual self_type* next( size_t n = 1 ) { return this->advance( n ); } virtual self_type* previous( size_t n = 1 ) { ptrdiff_t nn = n; return this->advance( -nn ); } bool operator == (const ConstIterator& x) const { return equal(x); } bool operator != (const Iterator& x) const { return ! operator==(x); } Iterator& operator += (ptrdiff_t n) { return *advance(n); } Iterator& operator -= (ptrdiff_t n) { return *advance(-n); } Iterator* operator + (ptrdiff_t n) const { return dup()->advance(n); } Iterator* operator - (ptrdiff_t n) const { return dup()->advance(-n); } ptrdiff_t operator - (const Iterator& x) const { return x.distance(*this); } }; } SWIGINTERN VALUE SWIG_ruby_failed(void) { return Qnil; } /*@SWIG:/usr/share/swig1.3/ruby/rubyprimtypes.swg,23,%ruby_aux_method@*/ SWIGINTERN VALUE SWIG_AUX_NUM2ULONG(VALUE *args) { VALUE obj = args[0]; VALUE type = TYPE(obj); unsigned long *res = (unsigned long *)(args[1]); *res = type == T_FIXNUM ? NUM2ULONG(obj) : rb_big2ulong(obj); return obj; } /*@SWIG@*/ SWIGINTERN int SWIG_AsVal_unsigned_SS_long (VALUE obj, unsigned long *val) { VALUE type = TYPE(obj); if ((type == T_FIXNUM) || (type == T_BIGNUM)) { unsigned long v; VALUE a[2]; a[0] = obj; a[1] = (VALUE)(&v); if (rb_rescue(RUBY_METHOD_FUNC(SWIG_AUX_NUM2ULONG), (VALUE)a, RUBY_METHOD_FUNC(SWIG_ruby_failed), 0) != Qnil) { if (val) *val = v; return SWIG_OK; } } return SWIG_TypeError; } SWIGINTERNINLINE int SWIG_AsVal_size_t (VALUE obj, size_t *val) { unsigned long v; int res = SWIG_AsVal_unsigned_SS_long (obj, val ? &v : 0); if (SWIG_IsOK(res) && val) *val = static_cast< size_t >(v); return res; } SWIGINTERNINLINE VALUE SWIG_From_bool (bool value) { return value ? Qtrue : Qfalse; } /*@SWIG:/usr/share/swig1.3/ruby/rubyprimtypes.swg,23,%ruby_aux_method@*/ SWIGINTERN VALUE SWIG_AUX_NUM2LONG(VALUE *args) { VALUE obj = args[0]; VALUE type = TYPE(obj); long *res = (long *)(args[1]); *res = type == T_FIXNUM ? NUM2LONG(obj) : rb_big2long(obj); return obj; } /*@SWIG@*/ SWIGINTERN int SWIG_AsVal_long (VALUE obj, long* val) { VALUE type = TYPE(obj); if ((type == T_FIXNUM) || (type == T_BIGNUM)) { long v; VALUE a[2]; a[0] = obj; a[1] = (VALUE)(&v); if (rb_rescue(RUBY_METHOD_FUNC(SWIG_AUX_NUM2LONG), (VALUE)a, RUBY_METHOD_FUNC(SWIG_ruby_failed), 0) != Qnil) { if (val) *val = v; return SWIG_OK; } } return SWIG_TypeError; } SWIGINTERNINLINE int SWIG_AsVal_ptrdiff_t (VALUE obj, ptrdiff_t *val) { long v; int res = SWIG_AsVal_long (obj, val ? &v : 0); if (SWIG_IsOK(res) && val) *val = static_cast< ptrdiff_t >(v); return res; } #include #if !defined(SWIG_NO_LLONG_MAX) # if !defined(LLONG_MAX) && defined(__GNUC__) && defined (__LONG_LONG_MAX__) # define LLONG_MAX __LONG_LONG_MAX__ # define LLONG_MIN (-LLONG_MAX - 1LL) # define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL) # endif #endif #define SWIG_From_long LONG2NUM SWIGINTERNINLINE VALUE SWIG_From_ptrdiff_t (ptrdiff_t value) { return SWIG_From_long (static_cast< long >(value)); } #include #include #include SWIGINTERN swig_type_info* SWIG_pchar_descriptor(void) { static int init = 0; static swig_type_info* info = 0; if (!init) { info = SWIG_TypeQuery("_p_char"); init = 1; } return info; } SWIGINTERN int SWIG_AsCharPtrAndSize(VALUE obj, char** cptr, size_t* psize, int *alloc) { if (TYPE(obj) == T_STRING) { #if defined(StringValuePtr) char *cstr = StringValuePtr(obj); #else char *cstr = STR2CSTR(obj); #endif size_t size = RSTRING_LEN(obj) + 1; if (cptr) { if (alloc) { if (*alloc == SWIG_NEWOBJ) { *cptr = reinterpret_cast< char* >(memcpy((new char[size]), cstr, sizeof(char)*(size))); } else { *cptr = cstr; *alloc = SWIG_OLDOBJ; } } } if (psize) *psize = size; return SWIG_OK; } else { swig_type_info* pchar_descriptor = SWIG_pchar_descriptor(); if (pchar_descriptor) { void* vptr = 0; if (SWIG_ConvertPtr(obj, &vptr, pchar_descriptor, 0) == SWIG_OK) { if (cptr) *cptr = (char *)vptr; if (psize) *psize = vptr ? (strlen((char*)vptr) + 1) : 0; if (alloc) *alloc = SWIG_OLDOBJ; return SWIG_OK; } } } return SWIG_TypeError; } SWIGINTERN int SWIG_AsPtr_std_string (VALUE obj, std::string **val) { char* buf = 0 ; size_t size = 0; int alloc = SWIG_OLDOBJ; if (SWIG_IsOK((SWIG_AsCharPtrAndSize(obj, &buf, &size, &alloc)))) { if (buf) { if (val) *val = new std::string(buf, size - 1); if (alloc == SWIG_NEWOBJ) delete[] buf; return SWIG_NEWOBJ; } else { if (val) *val = 0; return SWIG_OLDOBJ; } } else { static int init = 0; static swig_type_info* descriptor = 0; if (!init) { descriptor = SWIG_TypeQuery("std::string" " *"); init = 1; } if (descriptor) { std::string *vptr; int res = SWIG_ConvertPtr(obj, (void**)&vptr, descriptor, 0); if (SWIG_IsOK(res) && val) *val = vptr; return res; } } return SWIG_ERROR; } SWIGINTERN int SWIG_AsVal_std_string (VALUE obj, std::string *val) { std::string* v = (std::string *) 0; int res = SWIG_AsPtr_std_string (obj, &v); if (!SWIG_IsOK(res)) return res; if (v) { if (val) *val = *v; if (SWIG_IsNewObj(res)) { delete v; res = SWIG_DelNewMask(res); } return res; } return SWIG_ERROR; } SWIGINTERNINLINE VALUE SWIG_FromCharPtrAndSize(const char* carray, size_t size) { if (carray) { if (size > LONG_MAX) { swig_type_info* pchar_descriptor = SWIG_pchar_descriptor(); return pchar_descriptor ? SWIG_NewPointerObj(const_cast< char * >(carray), pchar_descriptor, 0) : Qnil; } else { return rb_str_new(carray, static_cast< long >(size)); } } else { return Qnil; } } SWIGINTERNINLINE VALUE SWIG_From_std_string (const std::string& s) { if (s.size()) { return SWIG_FromCharPtrAndSize(s.data(), s.size()); } else { return SWIG_FromCharPtrAndSize(s.c_str(), 0); } } namespace swig { template struct noconst_traits { typedef Type noconst_type; }; template struct noconst_traits { typedef Type noconst_type; }; /* type categories */ struct pointer_category { }; struct value_category { }; /* General traits that provides type_name and type_info */ template struct traits { }; template inline const char* type_name() { return traits::noconst_type >::type_name(); } template struct traits_info { static swig_type_info *type_query(std::string name) { name += " *"; return SWIG_TypeQuery(name.c_str()); } static swig_type_info *type_info() { static swig_type_info *info = type_query(type_name()); return info; } }; template inline swig_type_info *type_info() { return traits_info::type_info(); } /* Partial specialization for pointers */ template struct traits { typedef pointer_category category; static std::string make_ptr_name(const char* name) { std::string ptrname = name; ptrname += " *"; return ptrname; } static const char* type_name() { static std::string name = make_ptr_name(swig::type_name()); return name.c_str(); } }; template struct traits_as { }; template struct traits_check { }; } namespace swig { /* Traits that provides the from method */ template struct traits_from_ptr { static VALUE from(Type *val, int owner = 0) { return SWIG_NewPointerObj(val, type_info(), owner); } }; template struct traits_from { static VALUE from(const Type& val) { return traits_from_ptr::from(new Type(val), 1); } }; template struct traits_from { static VALUE from(Type* val) { return traits_from_ptr::from(val, 0); } }; template struct traits_from { static VALUE from(const Type* val) { return traits_from_ptr::from(const_cast(val), 0); } }; template inline VALUE from(const Type& val) { return traits_from::from(val); } template inline VALUE from_ptr(Type* val, int owner) { return traits_from_ptr::from(val, owner); } /* Traits that provides the asval/as/check method */ template struct traits_asptr { static int asptr(VALUE obj, Type **val) { Type *p; int res = SWIG_ConvertPtr(obj, (void**)&p, type_info(), 0); if (SWIG_IsOK(res)) { if (val) *val = p; } return res; } }; template inline int asptr(VALUE obj, Type **vptr) { return traits_asptr::asptr(obj, vptr); } template struct traits_asval { static int asval(VALUE obj, Type *val) { if (val) { Type *p = 0; int res = traits_asptr::asptr(obj, &p); if (!SWIG_IsOK(res)) return res; if (p) { typedef typename noconst_traits::noconst_type noconst_type; *(const_cast(val)) = *p; if (SWIG_IsNewObj(res)){ delete p; res = SWIG_DelNewMask(res); } return res; } else { return SWIG_ERROR; } } else { return traits_asptr::asptr(obj, (Type **)(0)); } } }; template struct traits_asval { static int asval(VALUE obj, Type **val) { if (val) { typedef typename noconst_traits::noconst_type noconst_type; noconst_type *p = 0; int res = traits_asptr::asptr(obj, &p); if (SWIG_IsOK(res)) { *(const_cast(val)) = p; } return res; } else { return traits_asptr::asptr(obj, (Type **)(0)); } } }; template inline int asval(VALUE obj, Type *val) { return traits_asval::asval(obj, val); } template struct traits_as { static Type as(VALUE obj, bool throw_error) { Type v; int res = asval(obj, &v); if (!obj || !SWIG_IsOK(res)) { if (throw_error) throw std::invalid_argument("bad type"); VALUE lastErr = rb_gv_get("$!"); if (lastErr == Qnil) { SWIG_Error(SWIG_TypeError, swig::type_name()); } } return v; } }; template struct traits_as { static Type as(VALUE obj, bool throw_error) { Type *v = 0; int res = (obj ? traits_asptr::asptr(obj, &v) : SWIG_ERROR); if (SWIG_IsOK(res) && v) { if (SWIG_IsNewObj(res)) { Type r(*v); delete v; return r; } else { return *v; } } else { // Uninitialized return value, no Type() constructor required. if (throw_error) throw std::invalid_argument("bad type"); VALUE lastErr = rb_gv_get("$!"); if (lastErr == Qnil) { SWIG_Error(SWIG_TypeError, swig::type_name()); } static Type *v_def = (Type*) malloc(sizeof(Type)); memset(v_def,0,sizeof(Type)); return *v_def; } } }; template struct traits_as { static Type* as(VALUE obj, bool throw_error) { Type *v = 0; int res = (obj ? traits_asptr::asptr(obj, &v) : SWIG_ERROR); if (SWIG_IsOK(res)) { return v; } else { if (throw_error) throw std::invalid_argument("bad type"); VALUE lastErr = rb_gv_get("$!"); if (lastErr == Qnil) { SWIG_Error(SWIG_TypeError, swig::type_name()); } return 0; } } }; template inline Type as(VALUE obj, bool te = false) { return traits_as< Type, typename traits< Type >::category >::as(obj, te); } template struct traits_check { static bool check(VALUE obj) { int res = obj ? asval(obj, (Type *)(0)) : SWIG_ERROR; return SWIG_IsOK(res) ? true : false; } }; template struct traits_check { static bool check(VALUE obj) { int res = obj ? asptr(obj, (Type **)(0)) : SWIG_ERROR; return SWIG_IsOK(res) ? true : false; } }; template inline bool check(VALUE obj) { return traits_check::category>::check(obj); } } namespace swig { template <> struct traits { typedef value_category category; static const char* type_name() { return"std::string"; } }; template <> struct traits_asval { typedef std::string value_type; static int asval(VALUE obj, value_type *val) { return SWIG_AsVal_std_string (obj, val); } }; template <> struct traits_from { typedef std::string value_type; static VALUE from(const value_type& val) { return SWIG_From_std_string (val); } }; } #include namespace swig { template < class T > struct yield : public std::unary_function< T, bool > { bool operator()( const T& v ) const { return RTEST( rb_yield( swig::from< T >(v) ) ); } }; inline size_t check_index(ptrdiff_t i, size_t size, bool insert = false) { if ( i < 0 ) { if ((size_t) (-i) <= size) return (size_t) (i + size); } else if ( (size_t) i < size ) { return (size_t) i; } else if (insert && ((size_t) i == size)) { return size; } throw std::out_of_range("index out of range"); } inline size_t slice_index(ptrdiff_t i, size_t size) { if ( i < 0 ) { if ((size_t) (-i) <= size) { return (size_t) (i + size); } else { throw std::out_of_range("index out of range"); } } else { return ( (size_t) i < size ) ? ((size_t) i) : size; } } template inline typename Sequence::iterator getpos(Sequence* self, Difference i) { typename Sequence::iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template inline typename Sequence::const_iterator cgetpos(const Sequence* self, Difference i) { typename Sequence::const_iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template inline Sequence* getslice(const Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::const_iterator vb = self->begin(); typename Sequence::const_iterator ve = self->begin(); std::advance(vb,ii); std::advance(ve,jj); return new Sequence(vb, ve); } else { return new Sequence(); } } template inline void setslice(Sequence* self, Difference i, Difference j, const InputSeq& v) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj < ii) jj = ii; size_t ssize = jj - ii; if (ssize <= v.size()) { typename Sequence::iterator sb = self->begin(); typename InputSeq::const_iterator vmid = v.begin(); std::advance(sb,ii); std::advance(vmid, jj - ii); self->insert(std::copy(v.begin(), vmid, sb), vmid, v.end()); } else { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); self->insert(sb, v.begin(), v.end()); } } template inline void delslice(Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); } } } #if defined(__SUNPRO_CC) && defined(_RWSTD_VER) # if !defined(SWIG_NO_STD_NOITERATOR_TRAITS_STL) # define SWIG_STD_NOITERATOR_TRAITS_STL # endif #endif #if !defined(SWIG_STD_NOITERATOR_TRAITS_STL) #include #else namespace std { template struct iterator_traits { typedef ptrdiff_t difference_type; typedef typename Iterator::value_type value_type; }; template struct iterator_traits<__reverse_bi_iterator > { typedef Distance difference_type; typedef T value_type; }; template struct iterator_traits { typedef T value_type; typedef ptrdiff_t difference_type; }; template inline typename iterator_traits<_InputIterator>::difference_type distance(_InputIterator __first, _InputIterator __last) { typename iterator_traits<_InputIterator>::difference_type __n = 0; while (__first != __last) { ++__first; ++__n; } return __n; } } #endif namespace swig { /** * Templated base classes for all custom const_iterators. * */ template class ConstIterator_T : public ConstIterator { public: typedef OutConstIterator const_iter; typedef typename std::iterator_traits::value_type value_type; typedef ConstIterator_T self_type; protected: virtual bool equal (const ConstIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return (current == iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } virtual ptrdiff_t distance(const ConstIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return std::distance(current, iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } virtual ConstIterator* advance(ptrdiff_t n) { std::advance( current, n ); return this; } public: ConstIterator_T() : ConstIterator(Qnil) { } ConstIterator_T(const_iter curr, VALUE seq = Qnil) : ConstIterator(seq), current(curr) { } const const_iter& get_current() const { return current; } const value_type& operator*() const { return *current; } virtual VALUE inspect() const { VALUE ret = rb_str_new2("#<"); ret = rb_str_cat2( ret, rb_obj_classname(_seq) ); ret = rb_str_cat2( ret, "::const_iterator " ); VALUE cur = value(); ret = rb_str_concat( ret, rb_inspect(cur) ); ret = rb_str_cat2( ret, ">" ); return ret; } virtual VALUE to_s() const { VALUE ret = rb_str_new2( rb_obj_classname(_seq) ); ret = rb_str_cat2( ret, "::const_iterator " ); VALUE cur = value(); ret = rb_str_concat( ret, rb_obj_as_string(cur) ); return ret; } protected: const_iter current; }; /** * Templated base classes for all custom non-const iterators. * */ template class Iterator_T : public Iterator { public: typedef InOutIterator nonconst_iter; // Make this class iterator STL compatible, by using iterator_traits typedef typename std::iterator_traits::iterator_category iterator_category; typedef typename std::iterator_traits::value_type value_type; typedef typename std::iterator_traits::difference_type difference_type; typedef typename std::iterator_traits::pointer pointer; typedef typename std::iterator_traits::reference reference; typedef Iterator base; typedef Iterator_T< nonconst_iter > self_type; protected: virtual bool equal (const ConstIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return (current == iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } virtual ptrdiff_t distance(const ConstIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return std::distance(current, iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } virtual Iterator* advance(ptrdiff_t n) { std::advance( current, n ); return this; } public: Iterator_T(nonconst_iter curr, VALUE seq = Qnil) : Iterator(seq), current(curr) { } const nonconst_iter& get_current() const { return current; } self_type& operator=( const self_type& b ) { base::operator=( b ); return *this; } self_type& operator=( const value_type& b ) { *current = b; return *this; } const value_type& operator*() const { return *current; } value_type& operator*() { return *current; } virtual VALUE inspect() const { VALUE ret = rb_str_new2("#<"); ret = rb_str_cat2( ret, rb_obj_classname(_seq) ); ret = rb_str_cat2( ret, "::iterator " ); VALUE cur = value(); ret = rb_str_concat( ret, rb_inspect(cur) ); ret = rb_str_cat2( ret, ">" ); return ret; } virtual VALUE to_s() const { VALUE ret = rb_str_new2( rb_obj_classname(_seq) ); ret = rb_str_cat2( ret, "::iterator " ); VALUE cur = value(); ret = rb_str_concat( ret, rb_obj_as_string(cur) ); return ret; } protected: nonconst_iter current; }; /** * Auxiliary functor to store the value of a ruby object inside * a reference of a compatible C++ type. ie: Ruby -> C++ * */ template struct asval_oper { typedef ValueType value_type; typedef bool result_type; bool operator()(VALUE obj, value_type& v) const { return ( swig::asval< value_type >(obj, &v) == SWIG_OK ); } }; /** * Auxiliary functor to return a ruby object from a C++ type. * ie: C++ -> Ruby * */ template struct from_oper { typedef const ValueType& argument_type; typedef VALUE result_type; result_type operator()(argument_type v) const { return swig::from(v); } }; /** * ConstIterator class for a const_iterator with no end() boundaries. * */ template::value_type, typename FromOper = from_oper > class ConstIteratorOpen_T : public ConstIterator_T { public: FromOper from; typedef OutConstIterator const_iter; typedef ValueType value_type; typedef ConstIterator_T base; typedef ConstIteratorOpen_T self_type; ConstIteratorOpen_T(const_iter curr, VALUE seq = Qnil) : ConstIterator_T(curr, seq) { } virtual VALUE value() const { return from(static_cast(*(base::current))); } ConstIterator *dup() const { return new self_type(*this); } }; /** * Iterator class for an iterator with no end() boundaries. * */ template::value_type, typename FromOper = from_oper, typename AsvalOper = asval_oper > class IteratorOpen_T : public Iterator_T { public: FromOper from; AsvalOper asval; typedef InOutIterator nonconst_iter; typedef ValueType value_type; typedef Iterator_T base; typedef IteratorOpen_T self_type; public: IteratorOpen_T(nonconst_iter curr, VALUE seq = Qnil) : Iterator_T(curr, seq) { } virtual VALUE value() const { return from(static_cast(*(base::current))); } virtual VALUE setValue( const VALUE& v ) { value_type& dst = *base::current; if ( asval(v, dst) ) return v; return Qnil; } Iterator *dup() const { return new self_type(*this); } }; /** * ConstIterator class for a const_iterator where begin() and end() boundaries are known. * */ template::value_type, typename FromOper = from_oper > class ConstIteratorClosed_T : public ConstIterator_T { public: FromOper from; typedef OutConstIterator const_iter; typedef ValueType value_type; typedef ConstIterator_T base; typedef ConstIteratorClosed_T self_type; protected: virtual ConstIterator* advance(ptrdiff_t n) { std::advance( base::current, n ); if ( base::current == end ) throw stop_iteration(); return this; } public: ConstIteratorClosed_T(const_iter curr, const_iter first, const_iter last, VALUE seq = Qnil) : ConstIterator_T(curr, seq), begin(first), end(last) { } virtual VALUE value() const { if (base::current == end) { throw stop_iteration(); } else { return from(static_cast(*(base::current))); } } ConstIterator *dup() const { return new self_type(*this); } private: const_iter begin; const_iter end; }; /** * Iterator class for a iterator where begin() and end() boundaries are known. * */ template::value_type, typename FromOper = from_oper, typename AsvalOper = asval_oper > class IteratorClosed_T : public Iterator_T { public: FromOper from; AsvalOper asval; typedef InOutIterator nonconst_iter; typedef ValueType value_type; typedef Iterator_T base; typedef IteratorClosed_T self_type; protected: virtual Iterator* advance(ptrdiff_t n) { std::advance( base::current, n ); if ( base::current == end ) throw stop_iteration(); return this; } public: IteratorClosed_T(nonconst_iter curr, nonconst_iter first, nonconst_iter last, VALUE seq = Qnil) : Iterator_T(curr, seq), begin(first), end(last) { } virtual VALUE value() const { if (base::current == end) { throw stop_iteration(); } else { return from(static_cast(*(base::current))); } } // Iterator setter method, required by Ruby virtual VALUE setValue( const VALUE& v ) { if (base::current == end) throw stop_iteration(); value_type& dst = *base::current; if ( asval( v, dst ) ) return v; return Qnil; } Iterator *dup() const { return new self_type(*this); } private: nonconst_iter begin; nonconst_iter end; }; /* Partial specialization for bools which don't allow de-referencing */ template< typename InOutIterator, typename FromOper, typename AsvalOper > class IteratorOpen_T< InOutIterator, bool, FromOper, AsvalOper > : public Iterator_T { public: FromOper from; AsvalOper asval; typedef InOutIterator nonconst_iter; typedef bool value_type; typedef Iterator_T base; typedef IteratorOpen_T self_type; IteratorOpen_T(nonconst_iter curr, VALUE seq = Qnil) : Iterator_T(curr, seq) { } virtual VALUE value() const { return from(static_cast(*(base::current))); } virtual VALUE setValue( const VALUE& v ) { bool tmp = *base::current; if ( asval( v, tmp ) ) { *base::current = tmp; return v; } return Qnil; } Iterator *dup() const { return new self_type(*this); } }; /* Partial specialization for bools which don't allow de-referencing */ template< typename InOutIterator, typename FromOper, typename AsvalOper > class IteratorClosed_T< InOutIterator, bool, FromOper, AsvalOper > : public Iterator_T { public: FromOper from; AsvalOper asval; typedef InOutIterator nonconst_iter; typedef bool value_type; typedef Iterator_T base; typedef IteratorClosed_T self_type; protected: virtual Iterator* advance(ptrdiff_t n) { std::advance( base::current, n ); if ( base::current == end ) throw stop_iteration(); return this; } public: IteratorClosed_T(nonconst_iter curr, nonconst_iter first, nonconst_iter last, VALUE seq = Qnil) : Iterator_T(curr, seq), begin(first), end(last) { } virtual VALUE value() const { if (base::current == end) { throw stop_iteration(); } else { return from(static_cast(*(base::current))); } } virtual VALUE setValue( const VALUE& v ) { if (base::current == end) throw stop_iteration(); bool tmp = *base::current; if ( asval( v, tmp ) ) { *base::current = tmp; return v; } return Qnil; } Iterator *dup() const { return new self_type(*this); } private: nonconst_iter begin; nonconst_iter end; }; /** * Helper function used to wrap a bounded const_iterator. This is to be used in * a %typemap(out), for example. * */ template inline Iterator* make_nonconst_iterator(const InOutIter& current, const InOutIter& begin, const InOutIter& end, VALUE seq = Qnil) { return new IteratorClosed_T(current, begin, end, seq); } /** * Helper function used to wrap an unbounded const_iterator. This is to be used in * a %typemap(out), for example. * */ template inline Iterator* make_nonconst_iterator(const InOutIter& current, VALUE seq = Qnil) { return new IteratorOpen_T(current, seq); } /** * Helper function used to wrap a bounded const_iterator. This is to be used in * a %typemap(out), for example. * */ template inline ConstIterator* make_const_iterator(const OutIter& current, const OutIter& begin, const OutIter& end, VALUE seq = Qnil) { return new ConstIteratorClosed_T(current, begin, end, seq); } /** * Helper function used to wrap an unbounded const_iterator. This is to be used in * a %typemap(out), for example. * */ template inline ConstIterator* make_const_iterator(const OutIter& current, VALUE seq = Qnil) { return new ConstIteratorOpen_T(current, seq); } } namespace swig { /** * This class is a proxy class for references, used to return and set values * of an element of a Ruby Array of stuff. * It can be used by RubySequence_InputIterator to make it work with STL * algorithms. * */ template struct RubySequence_Ref { RubySequence_Ref(VALUE seq, int index) : _seq(seq), _index(index) { } operator T () const { VALUE item = rb_ary_entry(_seq, _index ); try { return swig::as(item, true); } catch (std::exception& e) { char msg[1024]; sprintf(msg, "in sequence element %d ", _index); VALUE lastErr = rb_gv_get("$!"); if ( lastErr == Qnil ) { SWIG_Error(SWIG_TypeError, swig::type_name()); } VALUE str = rb_str_new2(msg); str = rb_str_cat2( str, e.what() ); SWIG_Ruby_ExceptionType( NULL, str ); throw; } } RubySequence_Ref& operator=(const T& v) { rb_ary_set(_seq, _index, swig::from< T >(v)); return *this; } private: VALUE _seq; int _index; }; /** * This class is a proxy to return a pointer to a class, usually * RubySequence_Ref. * It can be used by RubySequence_InputIterator to make it work with STL * algorithms. * */ template struct RubySequence_ArrowProxy { RubySequence_ArrowProxy(const T& x): m_value(x) {} const T* operator->() const { return &m_value; } operator const T*() const { return &m_value; } T m_value; }; /** * Input Iterator. This adapator class is a random access iterator that * allows you to use STL algorithms with a Ruby class (a Ruby Array by default). * */ template > struct RubySequence_InputIterator { typedef RubySequence_InputIterator self; typedef std::random_access_iterator_tag iterator_category; typedef Reference reference; typedef T value_type; typedef T* pointer; typedef ptrdiff_t difference_type; RubySequence_InputIterator() { } RubySequence_InputIterator(VALUE seq, int index) : _seq(seq), _index(index) { } reference operator*() const { return reference(_seq, _index); } RubySequence_ArrowProxy operator->() const { return RubySequence_ArrowProxy(operator*()); } bool operator==(const self& ri) const { return (_index == ri._index) && (_seq == ri._seq); } bool operator!=(const self& ri) const { return !(operator==(ri)); } self& operator ++ () { ++_index; return *this; } self& operator -- () { --_index; return *this; } self& operator += (difference_type n) { _index += n; return *this; } self operator +(difference_type n) const { return self(_seq, _index + n); } self& operator -= (difference_type n) { _index -= n; return *this; } self operator -(difference_type n) const { return self(_seq, _index - n); } difference_type operator - (const self& ri) const { return _index - ri._index; } bool operator < (const self& ri) const { return _index < ri._index; } reference operator[](difference_type n) const { return reference(_seq, _index + n); } private: VALUE _seq; difference_type _index; }; /** * This adaptor class allows you to use a Ruby Array as if it was an STL * container, giving it begin(), end(), and iterators. * */ template struct RubySequence_Cont { typedef RubySequence_Ref reference; typedef const RubySequence_Ref const_reference; typedef T value_type; typedef T* pointer; typedef int difference_type; typedef int size_type; typedef const pointer const_pointer; typedef RubySequence_InputIterator iterator; typedef RubySequence_InputIterator const_iterator; RubySequence_Cont(VALUE seq) : _seq(0) { if (!rb_obj_is_kind_of(seq, rb_cArray)) { throw std::invalid_argument("an Array is expected"); } _seq = seq; } ~RubySequence_Cont() { } size_type size() const { return RARRAY_LEN(_seq); } bool empty() const { return size() == 0; } iterator begin() { return iterator(_seq, 0); } const_iterator begin() const { return const_iterator(_seq, 0); } iterator end() { return iterator(_seq, size()); } const_iterator end() const { return const_iterator(_seq, size()); } reference operator[](difference_type n) { return reference(_seq, n); } const_reference operator[](difference_type n) const { return const_reference(_seq, n); } bool check(bool set_err = false) const { int s = (int) size(); for (int i = 0; i < s; ++i) { VALUE item = rb_ary_entry(_seq, i ); if (!swig::check(item)) { if (set_err) { char msg[1024]; sprintf(msg, "in sequence element %d", i); SWIG_Error(SWIG_RuntimeError, msg); } return false; } } return true; } private: VALUE _seq; }; } namespace swig { template inline void assign(const RubySeq& rubyseq, Seq* seq) { // seq->assign(rubyseq.begin(), rubyseq.end()); // not used as not always implemented typedef typename RubySeq::value_type value_type; typename RubySeq::const_iterator it = rubyseq.begin(); for (;it != rubyseq.end(); ++it) { seq->insert(seq->end(),(value_type)(*it)); } } template struct traits_asptr_stdseq { typedef Seq sequence; typedef T value_type; static int asptr(VALUE obj, sequence **seq) { if (rb_obj_is_kind_of(obj, rb_cArray) == Qtrue) { try { RubySequence_Cont rubyseq(obj); if (seq) { sequence *pseq = new sequence(); assign(rubyseq, pseq); *seq = pseq; return SWIG_NEWOBJ; } else { return rubyseq.check() ? SWIG_OK : SWIG_ERROR; } } catch (std::exception& e) { if (seq) { VALUE lastErr = rb_gv_get("$!"); if (lastErr == Qnil) { rb_raise(rb_eTypeError, e.what()); } } return SWIG_ERROR; } } else { sequence *p; if (SWIG_ConvertPtr(obj,(void**)&p, swig::type_info(),0) == SWIG_OK) { if (seq) *seq = p; return SWIG_OLDOBJ; } } return SWIG_ERROR; } }; // Partial specialization for GC_VALUE's. No need to typecheck each // element. template< class Seq > struct traits_asptr_stdseq< Seq, swig::GC_VALUE > { typedef Seq sequence; typedef swig::GC_VALUE value_type; static int asptr(VALUE obj, sequence **seq) { if (rb_obj_is_kind_of(obj, rb_cArray) == Qtrue) { try { if (seq) { RubySequence_Cont rubyseq(obj); sequence *pseq = new sequence(); assign(rubyseq, pseq); *seq = pseq; return SWIG_NEWOBJ; } else { return true; } } catch (std::exception& e) { if (seq) { VALUE lastErr = rb_gv_get("$!"); if (lastErr == Qnil) { rb_raise(rb_eTypeError, e.what()); } } return SWIG_ERROR; } } else { sequence *p; if (SWIG_ConvertPtr(obj,(void**)&p, swig::type_info(),0) == SWIG_OK) { if (seq) *seq = p; return SWIG_OLDOBJ; } } return SWIG_ERROR; } }; template struct traits_from_stdseq { typedef Seq sequence; typedef T value_type; typedef typename Seq::size_type size_type; typedef typename sequence::const_iterator const_iterator; static VALUE from(const sequence& seq) { size_type size = seq.size(); if (size <= (size_type)INT_MAX) { VALUE obj = rb_ary_new2((int)size); int i = 0; for (const_iterator it = seq.begin(); it != seq.end(); ++it, ++i) { RARRAY_PTR(obj)[i] = swig::from< value_type >(*it); } RARRAY_LEN(obj) = size; rb_obj_freeze(obj); // treat as immutable result return obj; } else { rb_raise(rb_eRangeError,"sequence size not valid in ruby"); return Qnil; } } }; } namespace swig { template struct traits_asptr > { static int asptr(VALUE obj, std::vector **vec) { return traits_asptr_stdseq >::asptr(obj, vec); } }; template struct traits_from > { static VALUE from(const std::vector& vec) { return traits_from_stdseq >::from(vec); } }; } namespace swig { template <> struct traits > > { typedef pointer_category category; static const char* type_name() { return "std::vector<" "std::string" "," "std::allocator< std::string >" " >"; } }; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__dup(std::vector< std::string > *self){ return new std::vector >(*self); } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__inspect(std::vector< std::string > *self){ std::vector >::const_iterator i = self->begin(); std::vector >::const_iterator e = self->end(); VALUE str = rb_str_new2( swig::type_name< std::vector > >() ); str = rb_str_cat2( str, " [" ); bool comma = false; VALUE tmp; for ( ; i != e; ++i, comma = true ) { if (comma) str = rb_str_cat2( str, "," ); tmp = swig::from< std::vector >::value_type >( *i ); tmp = rb_inspect( tmp ); str = rb_str_buf_append( str, tmp ); } str = rb_str_cat2( str, "]" ); return str; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__to_a(std::vector< std::string > *self){ std::vector >::const_iterator i = self->begin(); std::vector >::const_iterator e = self->end(); VALUE ary = rb_ary_new2( std::distance( i, e ) ); VALUE tmp; for ( ; i != e; ++i ) { tmp = swig::from< std::vector >::value_type >( *i ); rb_ary_push( ary, tmp ); } return ary; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__to_s(std::vector< std::string > *self){ std::vector >::iterator i = self->begin(); std::vector >::iterator e = self->end(); VALUE str = rb_str_new2( "" ); VALUE tmp; for ( ; i != e; ++i ) { tmp = swig::from< std::vector >::value_type >( *i ); tmp = rb_obj_as_string( tmp ); str = rb_str_buf_append( str, tmp ); } return str; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__slice(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j){ if ( j <= 0 ) return Qnil; std::size_t len = self->size(); if ( i < 0 ) i = len - i; j += i; if ( static_cast(j) >= len ) j = len-1; VALUE r = Qnil; try { r = swig::from< const std::vector >* >( swig::getslice(self, i, j) ); } catch( std::out_of_range ) { } return r; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__each(std::vector< std::string > *self){ if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given"); VALUE r; std::vector >::const_iterator i = self->begin(); std::vector >::const_iterator e = self->end(); for ( ; i != e; ++i ) { r = swig::from< std::vector >::value_type >(*i); rb_yield(r); } return self; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__select(std::vector< std::string > *self){ if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given" ); std::vector >* r = new std::vector >; std::vector >::const_iterator i = self->begin(); std::vector >::const_iterator e = self->end(); for ( ; i != e; ++i ) { VALUE v = swig::from< std::vector >::value_type >(*i); if ( RTEST( rb_yield(v) ) ) self->insert( r->end(), *i); } return r; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__reject_bang(std::vector< std::string > *self){ if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given" ); std::vector >::iterator i = self->begin(); std::vector >::iterator e = self->end(); for ( ; i != e; ) { VALUE r = swig::from< std::vector >::value_type >(*i); if ( RTEST( rb_yield(r) ) ) { self->erase(i++); e = self->end(); } else { ++i; } } return self; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__delete_at(std::vector< std::string > *self,std::vector< std::string >::difference_type i){ VALUE r = Qnil; try { std::vector >::iterator at = swig::getpos(self, i); r = swig::from< std::vector >::value_type >( *(at) ); self->erase(at); } catch (std::out_of_range) { } return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____delete2__(std::vector< std::string > *self,std::vector< std::string >::value_type const &i){ VALUE r = Qnil; return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__pop(std::vector< std::string > *self){ if (self->empty()) return Qnil; std::vector >::value_type x = self->back(); self->pop_back(); return swig::from< std::vector >::value_type >( x ); } SWIGINTERN std::vector< std::string >::value_type const std_vector_Sl_std_string_Sg__push(std::vector< std::string > *self,std::vector< std::string >::value_type const &e){ self->push_back( e ); return e; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__reject(std::vector< std::string > *self){ if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given" ); std::vector >* r = new std::vector >; std::remove_copy_if( self->begin(), self->end(), std::back_inserter(*r), swig::yield< std::vector >::value_type >() ); return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__at(std::vector< std::string > const *self,std::vector< std::string >::difference_type i){ VALUE r = Qnil; try { r = swig::from< std::vector >::value_type >( *(swig::cgetpos(self, i)) ); } catch( std::out_of_range ) { } return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____getitem____SWIG_0(std::vector< std::string > const *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j){ if ( j <= 0 ) return Qnil; std::size_t len = self->size(); if ( i < 0 ) i = len - i; j += i; if ( static_cast(j) >= len ) j = len-1; VALUE r = Qnil; try { r = swig::from< const std::vector >* >( swig::getslice(self, i, j) ); } catch( std::out_of_range ) { } return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____getitem____SWIG_1(std::vector< std::string > const *self,std::vector< std::string >::difference_type i){ VALUE r = Qnil; try { r = swig::from< std::vector >::value_type >( *(swig::cgetpos(self, i)) ); } catch( std::out_of_range ) { } return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____getitem____SWIG_2(std::vector< std::string > const *self,VALUE i){ if ( rb_obj_is_kind_of( i, rb_cRange ) == Qfalse ) { rb_raise( rb_eTypeError, "not a valid index or range" ); } VALUE r = Qnil; static ID id_end = rb_intern("end"); static ID id_start = rb_intern("begin"); static ID id_noend = rb_intern("exclude_end?"); VALUE start = rb_funcall( i, id_start, 0 ); VALUE end = rb_funcall( i, id_end, 0 ); bool noend = ( rb_funcall( i, id_noend, 0 ) == Qtrue ); int len = self->size(); int s = NUM2INT( start ); if ( s < 0 ) s = len + s; else if ( s >= len ) return Qnil; int e = NUM2INT( end ); if ( e < 0 ) e = len + e; if ( e < s ) return Qnil; //std::swap( s, e ); if ( noend ) e -= 1; if ( e >= len ) e = len - 1; return swig::from< std::vector >* >( swig::getslice(self, s, e+1) ); } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____setitem____SWIG_0(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::value_type const &x){ std::size_t len = self->size(); if ( i < 0 ) i = len - i; else if ( static_cast(i) >= len ) self->resize( i+1, x ); else *(swig::getpos(self,i)) = x; return swig::from< std::vector >::value_type >( x ); } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____setitem____SWIG_1(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j,std::vector< std::string,std::allocator< std::string > > const &v){ if ( j <= 0 ) return Qnil; std::size_t len = self->size(); if ( i < 0 ) i = len - i; j += i; if ( static_cast(j) >= len ) { self->resize( j+1, *(v.begin()) ); j = len-1; } VALUE r = Qnil; swig::setslice(self, i, j, v); r = swig::from< const std::vector >* >( &v ); return r; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg__shift(std::vector< std::string > *self){ if (self->empty()) return Qnil; std::vector >::value_type x = self->front(); self->erase( self->begin() ); return swig::from< std::vector >::value_type >( x ); } SWIGINTERN int SWIG_AsVal_int (VALUE obj, int *val) { long v; int res = SWIG_AsVal_long (obj, &v); if (SWIG_IsOK(res)) { if ((v < INT_MIN || v > INT_MAX)) { return SWIG_OverflowError; } else { if (val) *val = static_cast< int >(v); } } return res; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__insert__SWIG_0(std::vector< std::string > *self,std::vector< std::string >::difference_type pos,int argc,VALUE *argv,...){ std::size_t len = self->size(); std::size_t i = swig::check_index( pos, len, true ); std::vector >::iterator start; VALUE elem = argv[0]; int idx = 0; try { std::vector >::value_type val = swig::as >::value_type>( elem, true ); if ( i >= len ) { self->resize(i-1, val); return self; } start = self->begin(); std::advance( start, i ); self->insert( start++, val ); for ( ++idx; idx < argc; ++idx ) { elem = argv[idx]; val = swig::as >::value_type>( elem ); self->insert( start++, val ); } } catch( std::invalid_argument ) { rb_raise( rb_eArgError, Ruby_Format_TypeError( "", swig::type_name >::value_type>(), __FUNCTION__, idx+2, elem )); } return self; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__unshift(std::vector< std::string > *self,int argc,VALUE *argv,...){ for ( int idx = argc-1; idx >= 0; --idx ) { std::vector >::iterator start = self->begin(); VALUE elem = argv[idx]; try { std::vector >::value_type val = swig::as >::value_type>( elem, true ); self->insert( start, val ); } catch( std::invalid_argument ) { rb_raise( rb_eArgError, Ruby_Format_TypeError( "", swig::type_name >::value_type>(), __FUNCTION__, idx+2, elem )); } } return self; } SWIGINTERNINLINE VALUE SWIG_From_unsigned_SS_long (unsigned long value) { return ULONG2NUM(value); } SWIGINTERNINLINE VALUE SWIG_From_size_t (size_t value) { return SWIG_From_unsigned_SS_long (static_cast< unsigned long >(value)); } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg__map_bang(std::vector< std::string > *self){ if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "No block given" ); VALUE r = Qnil; std::vector< std::string >::iterator i = self->begin(); std::vector< std::string >::iterator e = self->end(); try { for ( ; i != e; ++i ) { r = swig::from< std::string >( *i ); r = rb_yield( r ); *i = swig::as< std::string >( r ); } } catch ( const std::invalid_argument& ) { rb_raise(rb_eTypeError, "Yield block did not return a valid element for ""%arg(std::vector)"); } return self; } SWIGINTERN VALUE std_vector_Sl_std_string_Sg____delete__(std::vector< std::string > *self,std::string const &val){ VALUE r = Qnil; std::vector::iterator e = self->end(); std::vector::iterator i = std::remove( self->begin(), e, val ); // remove dangling elements now self->erase( i, e ); if ( i != e ) r = swig::from< std::string >( val ); else if ( rb_block_given_p() ) r = rb_yield(Qnil); return r; } SWIGINTERNINLINE VALUE SWIG_From_int (int value) { return SWIG_From_long (value); } SWIGINTERN int SWIG_AsVal_bool (VALUE obj, bool *val) { if (obj == Qtrue) { if (val) *val = true; return SWIG_OK; } else if (obj == Qfalse) { if (val) *val = false; return SWIG_OK; } else { int res = 0; if (SWIG_AsVal_int (obj, &res) == SWIG_OK) { if (val) *val = res ? true : false; return SWIG_OK; } } return SWIG_TypeError; } /*@SWIG:/usr/share/swig1.3/ruby/rubyprimtypes.swg,23,%ruby_aux_method@*/ SWIGINTERN VALUE SWIG_AUX_NUM2DBL(VALUE *args) { VALUE obj = args[0]; VALUE type = TYPE(obj); double *res = (double *)(args[1]); *res = (type == T_FLOAT ? NUM2DBL(obj) : (type == T_FIXNUM ? (double) FIX2INT(obj) : rb_big2dbl(obj))); return obj; } /*@SWIG@*/ SWIGINTERN int SWIG_AsVal_double (VALUE obj, double *val) { VALUE type = TYPE(obj); if ((type == T_FLOAT) || (type == T_FIXNUM) || (type == T_BIGNUM)) { double v; VALUE a[2]; a[0] = obj; a[1] = (VALUE)(&v); if (rb_rescue(RUBY_METHOD_FUNC(SWIG_AUX_NUM2DBL), (VALUE)a, RUBY_METHOD_FUNC(SWIG_ruby_failed), 0) != Qnil) { if (val) *val = v; return SWIG_OK; } } return SWIG_TypeError; } #define SWIG_From_double rb_float_new swig_class cGC_VALUE; /* Document-method: Simstring::GC_VALUE.inspect call-seq: inspect -> VALUE Inspect class and its contents. */ SWIGINTERN VALUE _wrap_GC_VALUE_inspect(int argc, VALUE *argv, VALUE self) { swig::GC_VALUE *arg1 = (swig::GC_VALUE *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__GC_VALUE, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::GC_VALUE const *","inspect", 1, self )); } arg1 = reinterpret_cast< swig::GC_VALUE * >(argp1); result = (VALUE)((swig::GC_VALUE const *)arg1)->inspect(); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::GC_VALUE.to_s call-seq: to_s -> VALUE Convert class to a String representation. */ SWIGINTERN VALUE _wrap_GC_VALUE_to_s(int argc, VALUE *argv, VALUE self) { swig::GC_VALUE *arg1 = (swig::GC_VALUE *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__GC_VALUE, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::GC_VALUE const *","to_s", 1, self )); } arg1 = reinterpret_cast< swig::GC_VALUE * >(argp1); result = (VALUE)((swig::GC_VALUE const *)arg1)->to_s(); vresult = result; return vresult; fail: return Qnil; } swig_class cConstIterator; SWIGINTERN void free_swig_ConstIterator(swig::ConstIterator *arg1) { delete arg1; } SWIGINTERN VALUE _wrap_ConstIterator_value(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","value", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); try { result = (VALUE)((swig::ConstIterator const *)arg1)->value(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::ConstIterator.dup call-seq: dup -> ConstIterator Create a duplicate of the class and unfreeze it if needed. */ SWIGINTERN VALUE _wrap_ConstIterator_dup(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","dup", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); result = (swig::ConstIterator *)((swig::ConstIterator const *)arg1)->dup(); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::ConstIterator.inspect call-seq: inspect -> VALUE Inspect class and its contents. */ SWIGINTERN VALUE _wrap_ConstIterator_inspect(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","inspect", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); result = (VALUE)((swig::ConstIterator const *)arg1)->inspect(); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::ConstIterator.to_s call-seq: to_s -> VALUE Convert class to a String representation. */ SWIGINTERN VALUE _wrap_ConstIterator_to_s(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","to_s", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); result = (VALUE)((swig::ConstIterator const *)arg1)->to_s(); vresult = result; return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_next__SWIG_0(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator *","next", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "size_t","next", 2, argv[0] )); } arg2 = static_cast< size_t >(val2); result = (swig::ConstIterator *)(arg1)->next(arg2); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_next__SWIG_1(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator *","next", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); try { result = (swig::ConstIterator *)(arg1)->next(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_next(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_ConstIterator_next__SWIG_1(nargs, args, self); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_ConstIterator_next__SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "ConstIterator.next", " swig::ConstIterator * ConstIterator.next(size_t n)\n" " swig::ConstIterator * ConstIterator.next()\n"); return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_previous__SWIG_0(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator *","previous", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "size_t","previous", 2, argv[0] )); } arg2 = static_cast< size_t >(val2); result = (swig::ConstIterator *)(arg1)->previous(arg2); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_previous__SWIG_1(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator *","previous", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); try { result = (swig::ConstIterator *)(arg1)->previous(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator_previous(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_ConstIterator_previous__SWIG_1(nargs, args, self); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_ConstIterator_previous__SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "ConstIterator.previous", " swig::ConstIterator * ConstIterator.previous(size_t n)\n" " swig::ConstIterator * ConstIterator.previous()\n"); return Qnil; } /* Document-method: Simstring::ConstIterator.== call-seq: ==(x) -> bool Equality comparison operator. */ SWIGINTERN VALUE _wrap_ConstIterator___eq__(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; swig::ConstIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 ; int res2 = 0 ; bool result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","operator ==", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); res2 = SWIG_ConvertPtr(argv[0], &argp2, SWIGTYPE_p_swig__ConstIterator, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "swig::ConstIterator const &","operator ==", 2, argv[0] )); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "swig::ConstIterator const &","operator ==", 2, argv[0])); } arg2 = reinterpret_cast< swig::ConstIterator * >(argp2); result = (bool)((swig::ConstIterator const *)arg1)->operator ==((swig::ConstIterator const &)*arg2); vresult = SWIG_From_bool(static_cast< bool >(result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::ConstIterator.+ call-seq: +(n) -> ConstIterator Add operator. */ SWIGINTERN VALUE _wrap_ConstIterator___add__(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","operator +", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "ptrdiff_t","operator +", 2, argv[0] )); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::ConstIterator *)((swig::ConstIterator const *)arg1)->operator +(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::ConstIterator.- call-seq: -(n) -> ConstIterator -(x) -> ptrdiff_t Substraction operator. */ SWIGINTERN VALUE _wrap_ConstIterator___sub____SWIG_0(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; swig::ConstIterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","operator -", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "ptrdiff_t","operator -", 2, argv[0] )); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::ConstIterator *)((swig::ConstIterator const *)arg1)->operator -(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__ConstIterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator___sub____SWIG_1(int argc, VALUE *argv, VALUE self) { swig::ConstIterator *arg1 = (swig::ConstIterator *) 0 ; swig::ConstIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 ; int res2 = 0 ; ptrdiff_t result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__ConstIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::ConstIterator const *","operator -", 1, self )); } arg1 = reinterpret_cast< swig::ConstIterator * >(argp1); res2 = SWIG_ConvertPtr(argv[0], &argp2, SWIGTYPE_p_swig__ConstIterator, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "swig::ConstIterator const &","operator -", 2, argv[0] )); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "swig::ConstIterator const &","operator -", 2, argv[0])); } arg2 = reinterpret_cast< swig::ConstIterator * >(argp2); result = ((swig::ConstIterator const *)arg1)->operator -((swig::ConstIterator const &)*arg2); vresult = SWIG_From_ptrdiff_t(static_cast< ptrdiff_t >(result)); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_ConstIterator___sub__(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[1], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_ConstIterator___sub____SWIG_1(nargs, args, self); } } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__ConstIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_ConstIterator___sub____SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "__sub__.new", " __sub__.new(ptrdiff_t n)\n" " __sub__.new(swig::ConstIterator const &x)\n"); return Qnil; } swig_class cIterator; SWIGINTERN VALUE _wrap_Iterator_valuee___(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; VALUE *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE temp2 ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator *","setValue", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); temp2 = static_cast< VALUE >(argv[0]); arg2 = &temp2; result = (VALUE)(arg1)->setValue((VALUE const &)*arg2); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::Iterator.dup call-seq: dup -> Iterator Create a duplicate of the class and unfreeze it if needed. */ SWIGINTERN VALUE _wrap_Iterator_dup(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","dup", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); result = (swig::Iterator *)((swig::Iterator const *)arg1)->dup(); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator_next__SWIG_0(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator *","next", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "size_t","next", 2, argv[0] )); } arg2 = static_cast< size_t >(val2); result = (swig::Iterator *)(arg1)->next(arg2); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator_next__SWIG_1(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator *","next", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); try { result = (swig::Iterator *)(arg1)->next(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator_next(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_Iterator_next__SWIG_1(nargs, args, self); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_Iterator_next__SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "Iterator.next", " swig::Iterator * Iterator.next(size_t n)\n" " swig::Iterator * Iterator.next()\n"); return Qnil; } SWIGINTERN VALUE _wrap_Iterator_previous__SWIG_0(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator *","previous", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "size_t","previous", 2, argv[0] )); } arg2 = static_cast< size_t >(val2); result = (swig::Iterator *)(arg1)->previous(arg2); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator_previous__SWIG_1(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator *","previous", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); try { result = (swig::Iterator *)(arg1)->previous(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator_previous(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_Iterator_previous__SWIG_1(nargs, args, self); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_Iterator_previous__SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "Iterator.previous", " swig::Iterator * Iterator.previous(size_t n)\n" " swig::Iterator * Iterator.previous()\n"); return Qnil; } /* Document-method: Simstring::Iterator.inspect call-seq: inspect -> VALUE Inspect class and its contents. */ SWIGINTERN VALUE _wrap_Iterator_inspect(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","inspect", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); result = (VALUE)((swig::Iterator const *)arg1)->inspect(); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::Iterator.to_s call-seq: to_s -> VALUE Convert class to a String representation. */ SWIGINTERN VALUE _wrap_Iterator_to_s(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","to_s", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); result = (VALUE)((swig::Iterator const *)arg1)->to_s(); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::Iterator.== call-seq: ==(x) -> bool Equality comparison operator. */ SWIGINTERN VALUE _wrap_Iterator___eq__(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; swig::Iterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 ; int res2 = 0 ; bool result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","operator ==", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); res2 = SWIG_ConvertPtr(argv[0], &argp2, SWIGTYPE_p_swig__Iterator, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "swig::Iterator const &","operator ==", 2, argv[0] )); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "swig::Iterator const &","operator ==", 2, argv[0])); } arg2 = reinterpret_cast< swig::Iterator * >(argp2); result = (bool)((swig::Iterator const *)arg1)->operator ==((swig::Iterator const &)*arg2); vresult = SWIG_From_bool(static_cast< bool >(result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::Iterator.+ call-seq: +(n) -> Iterator Add operator. */ SWIGINTERN VALUE _wrap_Iterator___add__(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","operator +", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "ptrdiff_t","operator +", 2, argv[0] )); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::Iterator *)((swig::Iterator const *)arg1)->operator +(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::Iterator.- call-seq: -(n) -> Iterator -(x) -> ptrdiff_t Substraction operator. */ SWIGINTERN VALUE _wrap_Iterator___sub____SWIG_0(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; swig::Iterator *result = 0 ; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","operator -", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "ptrdiff_t","operator -", 2, argv[0] )); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::Iterator *)((swig::Iterator const *)arg1)->operator -(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_Ruby_ExceptionType(NULL, Qnil); SWIG_fail; } } vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__Iterator, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator___sub____SWIG_1(int argc, VALUE *argv, VALUE self) { swig::Iterator *arg1 = (swig::Iterator *) 0 ; swig::Iterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 ; int res2 = 0 ; ptrdiff_t result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_swig__Iterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "swig::Iterator const *","operator -", 1, self )); } arg1 = reinterpret_cast< swig::Iterator * >(argp1); res2 = SWIG_ConvertPtr(argv[0], &argp2, SWIGTYPE_p_swig__Iterator, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "swig::Iterator const &","operator -", 2, argv[0] )); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "swig::Iterator const &","operator -", 2, argv[0])); } arg2 = reinterpret_cast< swig::Iterator * >(argp2); result = ((swig::Iterator const *)arg1)->operator -((swig::Iterator const &)*arg2); vresult = SWIG_From_ptrdiff_t(static_cast< ptrdiff_t >(result)); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_Iterator___sub__(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[1], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_Iterator___sub____SWIG_1(nargs, args, self); } } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__Iterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_Iterator___sub____SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "__sub__.new", " __sub__.new(ptrdiff_t n)\n" " __sub__.new(swig::Iterator const &x)\n"); return Qnil; } SWIGINTERN void free_swig_Iterator(swig::Iterator *arg1) { delete arg1; } swig_class cStringVector; /* Document-method: Simstring::StringVector.dup call-seq: dup -> StringVector Create a duplicate of the class and unfreeze it if needed. */ SWIGINTERN VALUE _wrap_StringVector_dup(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","dup", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__dup(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.inspect call-seq: inspect -> VALUE Inspect class and its contents. */ SWIGINTERN VALUE _wrap_StringVector_inspect(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","inspect", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (VALUE)std_vector_Sl_std_string_Sg__inspect(arg1); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.to_a call-seq: to_a -> VALUE Convert StringVector to an Array. */ SWIGINTERN VALUE _wrap_StringVector_to_a(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","to_a", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (VALUE)std_vector_Sl_std_string_Sg__to_a(arg1); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.to_s call-seq: to_s -> VALUE Convert class to a String representation. */ SWIGINTERN VALUE _wrap_StringVector_to_s(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","to_s", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (VALUE)std_vector_Sl_std_string_Sg__to_s(arg1); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.slice call-seq: slice(i, j) -> VALUE Return a slice (portion of) the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_slice(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","slice", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","slice", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","slice", 3, argv[1] )); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); result = (VALUE)std_vector_Sl_std_string_Sg__slice(arg1,arg2,arg3); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.each call-seq: each -> StringVector Iterate thru each element in the StringVector. A block must be provided. */ SWIGINTERN VALUE _wrap_StringVector_each(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","each", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__each(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.select call-seq: select -> StringVector Iterate thru each element in the StringVector and select those that match a condition. A block must be provided. */ SWIGINTERN VALUE _wrap_StringVector_select(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","select", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__select(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.reject! call-seq: reject! -> StringVector Iterate thru each element in the StringVector and reject those that fail a condition. A block must be provided. StringVector is modified in place. */ SWIGINTERN VALUE _wrap_StringVector_rejectN___(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","reject_bang", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__reject_bang(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.delete_at call-seq: delete_at(i) -> VALUE Delete an element at a certain index. */ SWIGINTERN VALUE _wrap_StringVector_delete_at(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","delete_at", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","delete_at", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); result = (VALUE)std_vector_Sl_std_string_Sg__delete_at(arg1,arg2); vresult = result; return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector___delete2__(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::value_type *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 = SWIG_OLDOBJ ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","__delete2__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(argv[0], &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","__delete2__", 2, argv[0] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","__delete2__", 2, argv[0])); } arg2 = ptr; } result = (VALUE)std_vector_Sl_std_string_Sg____delete2__(arg1,(std::string const &)*arg2); vresult = result; if (SWIG_IsNewObj(res2)) delete arg2; return vresult; fail: if (SWIG_IsNewObj(res2)) delete arg2; return Qnil; } /* Document-method: Simstring::StringVector.pop call-seq: pop -> VALUE Remove and return element at the end of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_pop(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","pop", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (VALUE)std_vector_Sl_std_string_Sg__pop(arg1); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.push call-seq: push(e) -> value_type Add an element at the end of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_push(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::value_type *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 = SWIG_OLDOBJ ; std::vector< std::string >::value_type result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","push", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(argv[0], &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","push", 2, argv[0] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","push", 2, argv[0])); } arg2 = ptr; } result = std_vector_Sl_std_string_Sg__push(arg1,(std::string const &)*arg2); vresult = SWIG_From_std_string(static_cast< std::string >(result)); if (SWIG_IsNewObj(res2)) delete arg2; return vresult; fail: if (SWIG_IsNewObj(res2)) delete arg2; return Qnil; } /* Document-method: Simstring::StringVector.reject call-seq: reject -> StringVector Iterate thru each element in the StringVector and reject those that fail a condition returning a new StringVector. A block must be provided. */ SWIGINTERN VALUE _wrap_StringVector_reject(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","reject", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__reject(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.at call-seq: at(i) -> VALUE Return element at a certain index. */ SWIGINTERN VALUE _wrap_StringVector_at(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","at", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","at", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); result = (VALUE)std_vector_Sl_std_string_Sg__at((std::vector< std::string > const *)arg1,arg2); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.[] call-seq: [](i, j) -> VALUE [](i) -> VALUE [](i) -> VALUE Element accessor/slicing. */ SWIGINTERN VALUE _wrap_StringVector___getitem____SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","__getitem__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__getitem__", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__getitem__", 3, argv[1] )); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); result = (VALUE)std_vector_Sl_std_string_Sg____getitem____SWIG_0((std::vector< std::string > const *)arg1,arg2,arg3); vresult = result; return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector___getitem____SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","__getitem__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__getitem__", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); result = (VALUE)std_vector_Sl_std_string_Sg____getitem____SWIG_1((std::vector< std::string > const *)arg1,arg2); vresult = result; return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector___getitem____SWIG_2(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; VALUE arg2 = (VALUE) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","__getitem__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); arg2 = argv[0]; result = (VALUE)std_vector_Sl_std_string_Sg____getitem____SWIG_2((std::vector< std::string > const *)arg1,arg2); vresult = result; return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector___getitem__(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[4]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 4) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_StringVector___getitem____SWIG_1(nargs, args, self); } } } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { _v = (argv[1] != 0); if (_v) { return _wrap_StringVector___getitem____SWIG_2(nargs, args, self); } } } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_StringVector___getitem____SWIG_0(nargs, args, self); } } } } fail: Ruby_Format_OverloadedError( argc, 4, "__getitem__", " VALUE __getitem__(std::vector< std::string >::difference_type i, std::vector< std::string >::difference_type j)\n" " VALUE __getitem__(std::vector< std::string >::difference_type i)\n" " VALUE __getitem__(VALUE i)\n"); return Qnil; } /* Document-method: Simstring::StringVector.[]= call-seq: []=(i, x) -> VALUE []=(i, j, v) -> VALUE Element setter/slicing. */ SWIGINTERN VALUE _wrap_StringVector___setitem____SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; VALUE result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","__setitem__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__setitem__", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(argv[1], &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","__setitem__", 3, argv[1] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","__setitem__", 3, argv[1])); } arg3 = ptr; } result = (VALUE)std_vector_Sl_std_string_Sg____setitem____SWIG_0(arg1,arg2,(std::string const &)*arg3); vresult = result; if (SWIG_IsNewObj(res3)) delete arg3; return vresult; fail: if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; } SWIGINTERN VALUE _wrap_StringVector___setitem____SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; std::vector< std::string,std::allocator< std::string > > *arg4 = 0 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; int res4 = SWIG_OLDOBJ ; VALUE result; VALUE vresult = Qnil; if ((argc < 3) || (argc > 3)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 3)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","__setitem__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__setitem__", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","__setitem__", 3, argv[1] )); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); { std::vector > *ptr = (std::vector > *)0; res4 = swig::asptr(argv[2], &ptr); if (!SWIG_IsOK(res4)) { SWIG_exception_fail(SWIG_ArgError(res4), Ruby_Format_TypeError( "", "std::vector< std::string,std::allocator< std::string > > const &","__setitem__", 4, argv[2] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string,std::allocator< std::string > > const &","__setitem__", 4, argv[2])); } arg4 = ptr; } try { result = (VALUE)std_vector_Sl_std_string_Sg____setitem____SWIG_1(arg1,arg2,arg3,(std::vector< std::string,std::allocator< std::string > > const &)*arg4); } catch(std::invalid_argument &_e) { SWIG_exception_fail(SWIG_ValueError, (&_e)->what()); } vresult = result; if (SWIG_IsNewObj(res4)) delete arg4; return vresult; fail: if (SWIG_IsNewObj(res4)) delete arg4; return Qnil; } SWIGINTERN VALUE _wrap_StringVector___setitem__(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[5]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 5) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[2], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector___setitem____SWIG_0(nargs, args, self); } } } } if (argc == 4) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = swig::asptr(argv[3], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector___setitem____SWIG_1(nargs, args, self); } } } } } fail: Ruby_Format_OverloadedError( argc, 5, "__setitem__", " VALUE __setitem__(std::vector< std::string >::difference_type i, std::vector< std::string >::value_type const &x)\n" " VALUE __setitem__(std::vector< std::string >::difference_type i, std::vector< std::string >::difference_type j, std::vector< std::string,std::allocator< std::string > > const &v)\n"); return Qnil; } /* Document-method: Simstring::StringVector.shift call-seq: shift -> VALUE Remove and return element at the beginning of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_shift(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; VALUE result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","shift", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (VALUE)std_vector_Sl_std_string_Sg__shift(arg1); vresult = result; return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.insert call-seq: insert(pos, argc, ?) -> StringVector insert(pos, x) -> iterator insert(pos, n, x) Insert one or more new elements in the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_insert__SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; int arg3 ; VALUE *arg4 = (VALUE *) 0 ; void *arg5 = 0 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if (argc < 2) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","insert", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::difference_type","insert", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); { arg3 = argc - 1; arg4 = argv + 1; } result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__insert__SWIG_0(arg1,arg2,arg3,arg4,arg5); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.unshift call-seq: unshift(argc, ?) -> StringVector Add one or more elements at the beginning of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_unshift(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; int arg2 ; VALUE *arg3 = (VALUE *) 0 ; void *arg4 = 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if (argc < 1) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","unshift", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { arg2 = argc; arg3 = argv; } result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__unshift(arg1,arg2,arg3,arg4); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_new_StringVector__SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *result = 0 ; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } result = (std::vector< std::string > *)new std::vector< std::string >(); DATA_PTR(self) = result; return self; fail: return Qnil; } SWIGINTERN VALUE _wrap_new_StringVector__SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = 0 ; int res1 = SWIG_OLDOBJ ; std::vector< std::string > *result = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { std::vector > *ptr = (std::vector > *)0; res1 = swig::asptr(argv[0], &ptr); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const &","std::vector<(std::string)>", 1, argv[0] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string > const &","std::vector<(std::string)>", 1, argv[0])); } arg1 = ptr; } result = (std::vector< std::string > *)new std::vector< std::string >((std::vector< std::string > const &)*arg1); DATA_PTR(self) = result; if (SWIG_IsNewObj(res1)) delete arg1; return self; fail: if (SWIG_IsNewObj(res1)) delete arg1; return Qnil; } /* Document-method: Simstring::StringVector.empty? call-seq: empty? -> bool Check if the StringVector is empty or not. */ SWIGINTERN VALUE _wrap_StringVector_emptyq___(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; bool result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","empty", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (bool)((std::vector< std::string > const *)arg1)->empty(); vresult = SWIG_From_bool(static_cast< bool >(result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.size call-seq: size -> size_type Size or Length of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_size(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::size_type result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","size", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->size(); vresult = SWIG_From_size_t(static_cast< size_t >(result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.clear call-seq: clear Clear StringVector contents. */ SWIGINTERN VALUE _wrap_StringVector_clear(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","clear", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); (arg1)->clear(); return Qnil; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector_swap(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string > *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","swap", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(argv[0], &argp2, SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "std::vector< std::string > &","swap", 2, argv[0] )); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string > &","swap", 2, argv[0])); } arg2 = reinterpret_cast< std::vector< std::string > * >(argp2); (arg1)->swap(*arg2); return Qnil; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector_get_allocator(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; SwigValueWrapper< std::allocator< std::string > > result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","get_allocator", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->get_allocator(); vresult = SWIG_NewPointerObj((new std::vector< std::string >::allocator_type(static_cast< const std::vector< std::string >::allocator_type& >(result))), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, SWIG_POINTER_OWN | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.begin call-seq: begin -> const_iterator Return an iterator to the beginning of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_begin(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::const_iterator result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","begin", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->begin(); vresult = SWIG_NewPointerObj(swig::make_const_iterator(static_cast< const std::vector< std::string >::const_iterator & >(result), self), swig::ConstIterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.end call-seq: end -> const_iterator Return an iterator to past the end of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_end(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::const_iterator result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","end", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->end(); vresult = SWIG_NewPointerObj(swig::make_const_iterator(static_cast< const std::vector< std::string >::const_iterator & >(result), self), swig::ConstIterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.rbegin call-seq: rbegin -> const_reverse_iterator Return a reverse iterator to the beginning (the end) of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_rbegin(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::const_reverse_iterator result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","rbegin", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->rbegin(); vresult = SWIG_NewPointerObj(swig::make_const_iterator(static_cast< const std::vector< std::string >::const_reverse_iterator & >(result), self), swig::ConstIterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.rend call-seq: rend -> const_reverse_iterator Return a reverse iterator to past the end (past the beginning) of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_rend(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::const_reverse_iterator result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","rend", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->rend(); vresult = SWIG_NewPointerObj(swig::make_const_iterator(static_cast< const std::vector< std::string >::const_reverse_iterator & >(result), self), swig::ConstIterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_new_StringVector__SWIG_2(int argc, VALUE *argv, VALUE self) { std::vector< std::string >::size_type arg1 ; size_t val1 ; int ecode1 = 0 ; std::vector< std::string > *result = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } ecode1 = SWIG_AsVal_size_t(argv[0], &val1); if (!SWIG_IsOK(ecode1)) { SWIG_exception_fail(SWIG_ArgError(ecode1), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","std::vector<(std::string)>", 1, argv[0] )); } arg1 = static_cast< std::vector< std::string >::size_type >(val1); result = (std::vector< std::string > *)new std::vector< std::string >(arg1); DATA_PTR(self) = result; return self; fail: return Qnil; } /* Document-method: Simstring::StringVector.resize call-seq: resize(new_size) resize(new_size, x) Resize the size of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_resize__SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","resize", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","resize", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); (arg1)->resize(arg2); return Qnil; fail: return Qnil; } /* Document-method: Simstring::StringVector.erase call-seq: erase(pos) -> iterator erase(first, last) -> iterator Delete a portion of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_erase__SWIG_0(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *iter2 = 0 ; int res2 ; std::vector< std::string >::iterator result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","erase", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(argv[0], SWIG_as_voidptrptr(&iter2), swig::Iterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 2, argv[0] )); } else { swig::Iterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 2, argv[0] )); } } result = (arg1)->erase(arg2); vresult = SWIG_NewPointerObj(swig::make_nonconst_iterator(static_cast< const std::vector< std::string >::iterator & >(result), self), swig::Iterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector_erase__SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::iterator arg3 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *iter2 = 0 ; int res2 ; swig::Iterator *iter3 = 0 ; int res3 ; std::vector< std::string >::iterator result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","erase", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(argv[0], SWIG_as_voidptrptr(&iter2), swig::Iterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 2, argv[0] )); } else { swig::Iterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 2, argv[0] )); } } res3 = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter3), swig::Iterator::descriptor(), 0); if (!SWIG_IsOK(res3) || !iter3) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 3, argv[1] )); } else { swig::Iterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter3); if (iter_t) { arg3 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","erase", 3, argv[1] )); } } result = (arg1)->erase(arg2,arg3); vresult = SWIG_NewPointerObj(swig::make_nonconst_iterator(static_cast< const std::vector< std::string >::iterator & >(result), self), swig::Iterator::descriptor(),SWIG_POINTER_OWN); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector_erase(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[4]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 4) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::ConstIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::Iterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { return _wrap_StringVector_erase__SWIG_0(nargs, args, self); } } } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::ConstIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::Iterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { swig::ConstIterator *iter = 0; int res = SWIG_ConvertPtr(argv[2], SWIG_as_voidptrptr(&iter), swig::Iterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { return _wrap_StringVector_erase__SWIG_1(nargs, args, self); } } } } fail: Ruby_Format_OverloadedError( argc, 4, "StringVector.erase", " std::vector< std::string >::iterator StringVector.erase(std::vector< std::string >::iterator pos)\n" " std::vector< std::string >::iterator StringVector.erase(std::vector< std::string >::iterator first, std::vector< std::string >::iterator last)\n"); return Qnil; } #ifdef HAVE_RB_DEFINE_ALLOC_FUNC SWIGINTERN VALUE _wrap_StringVector_allocate(VALUE self) { #else SWIGINTERN VALUE _wrap_StringVector_allocate(int argc, VALUE *argv, VALUE self) { #endif VALUE vresult = SWIG_NewClassInstance(self, SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t); #ifndef HAVE_RB_DEFINE_ALLOC_FUNC rb_obj_call_init(vresult, argc, argv); #endif return vresult; } SWIGINTERN VALUE _wrap_new_StringVector__SWIG_3(int argc, VALUE *argv, VALUE self) { std::vector< std::string >::size_type arg1 ; std::vector< std::string >::value_type *arg2 = 0 ; size_t val1 ; int ecode1 = 0 ; int res2 = SWIG_OLDOBJ ; std::vector< std::string > *result = 0 ; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } ecode1 = SWIG_AsVal_size_t(argv[0], &val1); if (!SWIG_IsOK(ecode1)) { SWIG_exception_fail(SWIG_ArgError(ecode1), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","std::vector<(std::string)>", 1, argv[0] )); } arg1 = static_cast< std::vector< std::string >::size_type >(val1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(argv[1], &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","std::vector<(std::string)>", 2, argv[1] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","std::vector<(std::string)>", 2, argv[1])); } arg2 = ptr; } result = (std::vector< std::string > *)new std::vector< std::string >(arg1,(std::vector< std::string >::value_type const &)*arg2); DATA_PTR(self) = result; if (SWIG_IsNewObj(res2)) delete arg2; return self; fail: if (SWIG_IsNewObj(res2)) delete arg2; return Qnil; } SWIGINTERN VALUE _wrap_new_StringVector(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[2]; int ii; argc = nargs; if (argc > 2) SWIG_fail; for (ii = 0; (ii < argc); ++ii) { argv[ii] = args[ii]; } if (argc == 0) { return _wrap_new_StringVector__SWIG_0(nargs, args, self); } if (argc == 1) { int _v; { int res = SWIG_AsVal_size_t(argv[0], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_StringVector__SWIG_2(nargs, args, self); } } if (argc == 1) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_StringVector__SWIG_1(nargs, args, self); } } if (argc == 2) { int _v; { int res = SWIG_AsVal_size_t(argv[0], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[1], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_StringVector__SWIG_3(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 2, "StringVector.new", " StringVector.new()\n" " StringVector.new(std::vector< std::string > const &)\n" " StringVector.new(std::vector< std::string >::size_type size)\n" " StringVector.new(std::vector< std::string >::size_type size, std::vector< std::string >::value_type const &value)\n"); return Qnil; } /* Document-method: Simstring::StringVector.front call-seq: front -> value_type Return the first element in StringVector. */ SWIGINTERN VALUE _wrap_StringVector_front(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::value_type *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","front", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::vector< std::string >::value_type const &_result_ref = ((std::vector< std::string > const *)arg1)->front(); result = (std::vector< std::string >::value_type *) &_result_ref; } vresult = SWIG_From_std_string(static_cast< std::string >(*result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.back call-seq: back -> value_type Return the last element in StringVector. */ SWIGINTERN VALUE _wrap_StringVector_back(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::value_type *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","back", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::vector< std::string >::value_type const &_result_ref = ((std::vector< std::string > const *)arg1)->back(); result = (std::vector< std::string >::value_type *) &_result_ref; } vresult = SWIG_From_std_string(static_cast< std::string >(*result)); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.assign call-seq: assign(n, x) Assign a new StringVector or portion of it. */ SWIGINTERN VALUE _wrap_StringVector_assign(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","assign", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","assign", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(argv[1], &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","assign", 3, argv[1] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","assign", 3, argv[1])); } arg3 = ptr; } (arg1)->assign(arg2,(std::vector< std::string >::value_type const &)*arg3); if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; fail: if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; } /* Document-method: Simstring::StringVector.resize call-seq: resize(new_size) resize(new_size, x) Resize the size of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_resize__SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","resize", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","resize", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(argv[1], &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","resize", 3, argv[1] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","resize", 3, argv[1])); } arg3 = ptr; } (arg1)->resize(arg2,(std::vector< std::string >::value_type const &)*arg3); if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; fail: if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; } SWIGINTERN VALUE _wrap_StringVector_resize(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[4]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 4) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_StringVector_resize__SWIG_0(nargs, args, self); } } } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[2], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_resize__SWIG_1(nargs, args, self); } } } } fail: Ruby_Format_OverloadedError( argc, 4, "StringVector.resize", " void StringVector.resize(std::vector< std::string >::size_type new_size)\n" " void StringVector.resize(std::vector< std::string >::size_type new_size, std::vector< std::string >::value_type const &x)\n"); return Qnil; } /* Document-method: Simstring::StringVector.insert call-seq: insert(pos, argc, ?) -> StringVector insert(pos, x) -> iterator insert(pos, n, x) Insert one or more new elements in the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_insert__SWIG_1(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *iter2 = 0 ; int res2 ; int res3 = SWIG_OLDOBJ ; std::vector< std::string >::iterator result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","insert", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(argv[0], SWIG_as_voidptrptr(&iter2), swig::Iterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","insert", 2, argv[0] )); } else { swig::Iterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","insert", 2, argv[0] )); } } { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(argv[1], &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","insert", 3, argv[1] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","insert", 3, argv[1])); } arg3 = ptr; } result = (arg1)->insert(arg2,(std::vector< std::string >::value_type const &)*arg3); vresult = SWIG_NewPointerObj(swig::make_nonconst_iterator(static_cast< const std::vector< std::string >::iterator & >(result), self), swig::Iterator::descriptor(),SWIG_POINTER_OWN); if (SWIG_IsNewObj(res3)) delete arg3; return vresult; fail: if (SWIG_IsNewObj(res3)) delete arg3; return Qnil; } SWIGINTERN VALUE _wrap_StringVector_insert__SWIG_2(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::size_type arg3 ; std::vector< std::string >::value_type *arg4 = 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::Iterator *iter2 = 0 ; int res2 ; size_t val3 ; int ecode3 = 0 ; int res4 = SWIG_OLDOBJ ; if ((argc < 3) || (argc > 3)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 3)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","insert", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(argv[0], SWIG_as_voidptrptr(&iter2), swig::Iterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","insert", 2, argv[0] )); } else { swig::Iterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), Ruby_Format_TypeError( "", "std::vector< std::string >::iterator","insert", 2, argv[0] )); } } ecode3 = SWIG_AsVal_size_t(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","insert", 3, argv[1] )); } arg3 = static_cast< std::vector< std::string >::size_type >(val3); { std::string *ptr = (std::string *)0; res4 = SWIG_AsPtr_std_string(argv[2], &ptr); if (!SWIG_IsOK(res4)) { SWIG_exception_fail(SWIG_ArgError(res4), Ruby_Format_TypeError( "", "std::vector< std::string >::value_type const &","insert", 4, argv[2] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::vector< std::string >::value_type const &","insert", 4, argv[2])); } arg4 = ptr; } (arg1)->insert(arg2,arg3,(std::vector< std::string >::value_type const &)*arg4); if (SWIG_IsNewObj(res4)) delete arg4; return Qnil; fail: if (SWIG_IsNewObj(res4)) delete arg4; return Qnil; } SWIGINTERN VALUE _wrap_StringVector_insert(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[5]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 5) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::ConstIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::Iterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { int res = SWIG_AsPtr_std_string(argv[2], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_insert__SWIG_1(nargs, args, self); } } } } if (argc >= 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_int(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { if (argc <= 3) { return _wrap_StringVector_insert__SWIG_0(nargs, args, self); } return _wrap_StringVector_insert__SWIG_0(nargs, args, self); } } } } if (argc == 4) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::ConstIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::Iterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { { int res = SWIG_AsVal_size_t(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[3], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_insert__SWIG_2(nargs, args, self); } } } } } fail: Ruby_Format_OverloadedError( argc, 5, "insert", " void insert(std::vector< std::string >::difference_type pos, int argc, VALUE *argv, ...)\n" " void insert(std::vector< std::string >::iterator pos, std::vector< std::string >::value_type const &x)\n" " void insert(std::vector< std::string >::iterator pos, std::vector< std::string >::size_type n, std::vector< std::string >::value_type const &x)\n"); return Qnil; } /* Document-method: Simstring::StringVector.reserve call-seq: reserve(n) Reserve memory in the StringVector for a number of elements. */ SWIGINTERN VALUE _wrap_StringVector_reserve(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","reserve", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "std::vector< std::string >::size_type","reserve", 2, argv[0] )); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); (arg1)->reserve(arg2); return Qnil; fail: return Qnil; } /* Document-method: Simstring::StringVector.capacity call-seq: capacity -> size_type Reserved capacity of the StringVector. */ SWIGINTERN VALUE _wrap_StringVector_capacity(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string >::size_type result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > const *","capacity", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->capacity(); vresult = SWIG_From_size_t(static_cast< size_t >(result)); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_StringVector_map_bang(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","map_bang", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg__map_bang(arg1); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); return vresult; fail: return Qnil; } /* Document-method: Simstring::StringVector.__delete__ call-seq: __delete__(val) -> VALUE Delete a matching element. */ SWIGINTERN VALUE _wrap_StringVector___delete__(int argc, VALUE *argv, VALUE self) { std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::string *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 = SWIG_OLDOBJ ; VALUE result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "std::vector< std::string > *","__delete__", 1, self )); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(argv[0], &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "std::string const &","__delete__", 2, argv[0] )); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, Ruby_Format_TypeError("invalid null reference ", "std::string const &","__delete__", 2, argv[0])); } arg2 = ptr; } result = (VALUE)std_vector_Sl_std_string_Sg____delete__(arg1,(std::string const &)*arg2); vresult = result; if (SWIG_IsNewObj(res2)) delete arg2; return vresult; fail: if (SWIG_IsNewObj(res2)) delete arg2; return Qnil; } SWIGINTERN void free_std_vector_Sl_std_string_Sg_(std::vector< std::string > *arg1) { delete arg1; } swig_class cWriter; SWIGINTERN VALUE _wrap_new_writer__SWIG_0(int argc, VALUE *argv, VALUE self) { char *arg1 = (char *) 0 ; int arg2 ; bool arg3 ; bool arg4 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; bool val3 ; int ecode3 = 0 ; bool val4 ; int ecode4 = 0 ; writer *result = 0 ; if ((argc < 4) || (argc > 4)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 4)",argc); SWIG_fail; } res1 = SWIG_AsCharPtrAndSize(argv[0], &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "char const *","writer", 1, argv[0] )); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(argv[1], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "int","writer", 2, argv[1] )); } arg2 = static_cast< int >(val2); ecode3 = SWIG_AsVal_bool(argv[2], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "bool","writer", 3, argv[2] )); } arg3 = static_cast< bool >(val3); ecode4 = SWIG_AsVal_bool(argv[3], &val4); if (!SWIG_IsOK(ecode4)) { SWIG_exception_fail(SWIG_ArgError(ecode4), Ruby_Format_TypeError( "", "bool","writer", 4, argv[3] )); } arg4 = static_cast< bool >(val4); { try { result = (writer *)new writer((char const *)arg1,arg2,arg3,arg4); DATA_PTR(self) = result; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return self; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return Qnil; } SWIGINTERN VALUE _wrap_new_writer__SWIG_1(int argc, VALUE *argv, VALUE self) { char *arg1 = (char *) 0 ; int arg2 ; bool arg3 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; bool val3 ; int ecode3 = 0 ; writer *result = 0 ; if ((argc < 3) || (argc > 3)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 3)",argc); SWIG_fail; } res1 = SWIG_AsCharPtrAndSize(argv[0], &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "char const *","writer", 1, argv[0] )); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(argv[1], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "int","writer", 2, argv[1] )); } arg2 = static_cast< int >(val2); ecode3 = SWIG_AsVal_bool(argv[2], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "bool","writer", 3, argv[2] )); } arg3 = static_cast< bool >(val3); { try { result = (writer *)new writer((char const *)arg1,arg2,arg3); DATA_PTR(self) = result; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return self; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return Qnil; } SWIGINTERN VALUE _wrap_new_writer__SWIG_2(int argc, VALUE *argv, VALUE self) { char *arg1 = (char *) 0 ; int arg2 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; writer *result = 0 ; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } res1 = SWIG_AsCharPtrAndSize(argv[0], &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "char const *","writer", 1, argv[0] )); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(argv[1], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "int","writer", 2, argv[1] )); } arg2 = static_cast< int >(val2); { try { result = (writer *)new writer((char const *)arg1,arg2); DATA_PTR(self) = result; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return self; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return Qnil; } #ifdef HAVE_RB_DEFINE_ALLOC_FUNC SWIGINTERN VALUE _wrap_writer_allocate(VALUE self) { #else SWIGINTERN VALUE _wrap_writer_allocate(int argc, VALUE *argv, VALUE self) { #endif VALUE vresult = SWIG_NewClassInstance(self, SWIGTYPE_p_writer); #ifndef HAVE_RB_DEFINE_ALLOC_FUNC rb_obj_call_init(vresult, argc, argv); #endif return vresult; } SWIGINTERN VALUE _wrap_new_writer__SWIG_3(int argc, VALUE *argv, VALUE self) { char *arg1 = (char *) 0 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; writer *result = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_AsCharPtrAndSize(argv[0], &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "char const *","writer", 1, argv[0] )); } arg1 = reinterpret_cast< char * >(buf1); { try { result = (writer *)new writer((char const *)arg1); DATA_PTR(self) = result; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return self; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return Qnil; } SWIGINTERN VALUE _wrap_new_writer(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[4]; int ii; argc = nargs; if (argc > 4) SWIG_fail; for (ii = 0; (ii < argc); ++ii) { argv[ii] = args[ii]; } if (argc == 1) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_writer__SWIG_3(nargs, args, self); } } if (argc == 2) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_2(nargs, args, self); } } } if (argc == 3) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_1(nargs, args, self); } } } } if (argc == 4) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[3], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_0(nargs, args, self); } } } } } fail: Ruby_Format_OverloadedError( argc, 4, "writer.new", " writer.new(char const *filename, int n, bool be, bool unicode)\n" " writer.new(char const *filename, int n, bool be)\n" " writer.new(char const *filename, int n)\n" " writer.new(char const *filename)\n"); return Qnil; } SWIGINTERN void free_writer(writer *arg1) { delete arg1; } /* Document-method: Simstring::writer.insert call-seq: insert(string) Insert one or more new elements in the writer. */ SWIGINTERN VALUE _wrap_writer_insert(int argc, VALUE *argv, VALUE self) { writer *arg1 = (writer *) 0 ; char *arg2 = (char *) 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 ; char *buf2 = 0 ; int alloc2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_writer, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "writer *","insert", 1, self )); } arg1 = reinterpret_cast< writer * >(argp1); res2 = SWIG_AsCharPtrAndSize(argv[0], &buf2, NULL, &alloc2); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "char const *","insert", 2, argv[0] )); } arg2 = reinterpret_cast< char * >(buf2); { try { (arg1)->insert((char const *)arg2); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return Qnil; fail: if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return Qnil; } SWIGINTERN VALUE _wrap_writer_close(int argc, VALUE *argv, VALUE self) { writer *arg1 = (writer *) 0 ; void *argp1 = 0 ; int res1 = 0 ; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_writer, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "writer *","close", 1, self )); } arg1 = reinterpret_cast< writer * >(argp1); { try { (arg1)->close(); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } return Qnil; fail: return Qnil; } swig_class cReader; #ifdef HAVE_RB_DEFINE_ALLOC_FUNC SWIGINTERN VALUE _wrap_reader_allocate(VALUE self) { #else SWIGINTERN VALUE _wrap_reader_allocate(int argc, VALUE *argv, VALUE self) { #endif VALUE vresult = SWIG_NewClassInstance(self, SWIGTYPE_p_reader); #ifndef HAVE_RB_DEFINE_ALLOC_FUNC rb_obj_call_init(vresult, argc, argv); #endif return vresult; } SWIGINTERN VALUE _wrap_new_reader(int argc, VALUE *argv, VALUE self) { char *arg1 = (char *) 0 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; reader *result = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_AsCharPtrAndSize(argv[0], &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "char const *","reader", 1, argv[0] )); } arg1 = reinterpret_cast< char * >(buf1); { try { result = (reader *)new reader((char const *)arg1); DATA_PTR(self) = result; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return self; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return Qnil; } SWIGINTERN void free_reader(reader *arg1) { delete arg1; } SWIGINTERN VALUE _wrap_reader_retrieve(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; char *arg2 = (char *) 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 ; char *buf2 = 0 ; int alloc2 = 0 ; std::vector< std::string,std::allocator< std::string > > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","retrieve", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); res2 = SWIG_AsCharPtrAndSize(argv[0], &buf2, NULL, &alloc2); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), Ruby_Format_TypeError( "", "char const *","retrieve", 2, argv[0] )); } arg2 = reinterpret_cast< char * >(buf2); { try { result = (arg1)->retrieve((char const *)arg2); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } vresult = swig::from(static_cast< std::vector > >(result)); if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return vresult; fail: if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return Qnil; } SWIGINTERN VALUE _wrap_reader_close(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","close", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); { try { (arg1)->close(); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } return Qnil; fail: return Qnil; } SWIGINTERN VALUE _wrap_reader_measure_set(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; int arg2 ; void *argp1 = 0 ; int res1 = 0 ; int val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","measure", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); ecode2 = SWIG_AsVal_int(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "int","measure", 2, argv[0] )); } arg2 = static_cast< int >(val2); if (arg1) (arg1)->measure = arg2; return Qnil; fail: return Qnil; } SWIGINTERN VALUE _wrap_reader_measure_get(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; int result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","measure", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); result = (int) ((arg1)->measure); vresult = SWIG_From_int(static_cast< int >(result)); return vresult; fail: return Qnil; } SWIGINTERN VALUE _wrap_reader_threshold_set(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; double arg2 ; void *argp1 = 0 ; int res1 = 0 ; double val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","threshold", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); ecode2 = SWIG_AsVal_double(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "double","threshold", 2, argv[0] )); } arg2 = static_cast< double >(val2); if (arg1) (arg1)->threshold = arg2; return Qnil; fail: return Qnil; } SWIGINTERN VALUE _wrap_reader_threshold_get(int argc, VALUE *argv, VALUE self) { reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; double result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } res1 = SWIG_ConvertPtr(self, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), Ruby_Format_TypeError( "", "reader *","threshold", 1, self )); } arg1 = reinterpret_cast< reader * >(argp1); result = (double) ((arg1)->threshold); vresult = SWIG_From_double(static_cast< double >(result)); return vresult; fail: return Qnil; } /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (BEGIN) -------- */ static void *_p_swig__IteratorTo_p_swig__ConstIterator(void *x, int *SWIGUNUSEDPARM(newmemory)) { return (void *)((swig::ConstIterator *) ((swig::Iterator *) x)); } static swig_type_info _swigt__p_allocator_type = {"_p_allocator_type", "allocator_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_char = {"_p_char", "char *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_difference_type = {"_p_difference_type", "difference_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_p_void = {"_p_p_void", "void **|VALUE *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_reader = {"_p_reader", "reader *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_size_type = {"_p_size_type", "size_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t = {"_p_std__vectorT_std__string_std__allocatorT_std__string_t_t", "std::vector< std::string,std::allocator< std::string > > *|std::vector< std::string > *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type = {"_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type", "std::vector< std::string >::allocator_type *|std::allocator< std::string > *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_swig__ConstIterator = {"_p_swig__ConstIterator", "swig::ConstIterator *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_swig__GC_VALUE = {"_p_swig__GC_VALUE", "swig::GC_VALUE *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_swig__Iterator = {"_p_swig__Iterator", "swig::Iterator *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_value_type = {"_p_value_type", "value_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_writer = {"_p_writer", "writer *", 0, 0, (void*)0, 0}; static swig_type_info *swig_type_initial[] = { &_swigt__p_allocator_type, &_swigt__p_char, &_swigt__p_difference_type, &_swigt__p_p_void, &_swigt__p_reader, &_swigt__p_size_type, &_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, &_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, &_swigt__p_swig__ConstIterator, &_swigt__p_swig__GC_VALUE, &_swigt__p_swig__Iterator, &_swigt__p_value_type, &_swigt__p_writer, }; static swig_cast_info _swigc__p_allocator_type[] = { {&_swigt__p_allocator_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_char[] = { {&_swigt__p_char, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_difference_type[] = { {&_swigt__p_difference_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_p_void[] = { {&_swigt__p_p_void, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_reader[] = { {&_swigt__p_reader, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_size_type[] = { {&_swigt__p_size_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t[] = { {&_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type[] = { {&_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_swig__ConstIterator[] = { {&_swigt__p_swig__ConstIterator, 0, 0, 0}, {&_swigt__p_swig__Iterator, _p_swig__IteratorTo_p_swig__ConstIterator, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_swig__GC_VALUE[] = { {&_swigt__p_swig__GC_VALUE, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_swig__Iterator[] = { {&_swigt__p_swig__Iterator, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_value_type[] = { {&_swigt__p_value_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_writer[] = { {&_swigt__p_writer, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info *swig_cast_initial[] = { _swigc__p_allocator_type, _swigc__p_char, _swigc__p_difference_type, _swigc__p_p_void, _swigc__p_reader, _swigc__p_size_type, _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, _swigc__p_swig__ConstIterator, _swigc__p_swig__GC_VALUE, _swigc__p_swig__Iterator, _swigc__p_value_type, _swigc__p_writer, }; /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (END) -------- */ /* ----------------------------------------------------------------------------- * Type initialization: * This problem is tough by the requirement that no dynamic * memory is used. Also, since swig_type_info structures store pointers to * swig_cast_info structures and swig_cast_info structures store pointers back * to swig_type_info structures, we need some lookup code at initialization. * The idea is that swig generates all the structures that are needed. * The runtime then collects these partially filled structures. * The SWIG_InitializeModule function takes these initial arrays out of * swig_module, and does all the lookup, filling in the swig_module.types * array with the correct data and linking the correct swig_cast_info * structures together. * * The generated swig_type_info structures are assigned staticly to an initial * array. We just loop through that array, and handle each type individually. * First we lookup if this type has been already loaded, and if so, use the * loaded structure instead of the generated one. Then we have to fill in the * cast linked list. The cast data is initially stored in something like a * two-dimensional array. Each row corresponds to a type (there are the same * number of rows as there are in the swig_type_initial array). Each entry in * a column is one of the swig_cast_info structures for that type. * The cast_initial array is actually an array of arrays, because each row has * a variable number of columns. So to actually build the cast linked list, * we find the array of casts associated with the type, and loop through it * adding the casts to the list. The one last trick we need to do is making * sure the type pointer in the swig_cast_info struct is correct. * * First off, we lookup the cast->type name to see if it is already loaded. * There are three cases to handle: * 1) If the cast->type has already been loaded AND the type we are adding * casting info to has not been loaded (it is in this module), THEN we * replace the cast->type pointer with the type pointer that has already * been loaded. * 2) If BOTH types (the one we are adding casting info to, and the * cast->type) are loaded, THEN the cast info has already been loaded by * the previous module so we just ignore it. * 3) Finally, if cast->type has not already been loaded, then we add that * swig_cast_info to the linked list (because the cast->type) pointer will * be correct. * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #if 0 } /* c-mode */ #endif #endif #if 0 #define SWIGRUNTIME_DEBUG #endif SWIGRUNTIME void SWIG_InitializeModule(void *clientdata) { size_t i; swig_module_info *module_head, *iter; int found, init; clientdata = clientdata; /* check to see if the circular list has been setup, if not, set it up */ if (swig_module.next==0) { /* Initialize the swig_module */ swig_module.type_initial = swig_type_initial; swig_module.cast_initial = swig_cast_initial; swig_module.next = &swig_module; init = 1; } else { init = 0; } /* Try and load any already created modules */ module_head = SWIG_GetModule(clientdata); if (!module_head) { /* This is the first module loaded for this interpreter */ /* so set the swig module into the interpreter */ SWIG_SetModule(clientdata, &swig_module); module_head = &swig_module; } else { /* the interpreter has loaded a SWIG module, but has it loaded this one? */ found=0; iter=module_head; do { if (iter==&swig_module) { found=1; break; } iter=iter->next; } while (iter!= module_head); /* if the is found in the list, then all is done and we may leave */ if (found) return; /* otherwise we must add out module into the list */ swig_module.next = module_head->next; module_head->next = &swig_module; } /* When multiple interpeters are used, a module could have already been initialized in a different interpreter, but not yet have a pointer in this interpreter. In this case, we do not want to continue adding types... everything should be set up already */ if (init == 0) return; /* Now work on filling in swig_module.types */ #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: size %d\n", swig_module.size); #endif for (i = 0; i < swig_module.size; ++i) { swig_type_info *type = 0; swig_type_info *ret; swig_cast_info *cast; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name); #endif /* if there is another module already loaded */ if (swig_module.next != &swig_module) { type = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, swig_module.type_initial[i]->name); } if (type) { /* Overwrite clientdata field */ #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: found type %s\n", type->name); #endif if (swig_module.type_initial[i]->clientdata) { type->clientdata = swig_module.type_initial[i]->clientdata; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: found and overwrite type %s \n", type->name); #endif } } else { type = swig_module.type_initial[i]; } /* Insert casting types */ cast = swig_module.cast_initial[i]; while (cast->type) { /* Don't need to add information already in the list */ ret = 0; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: look cast %s\n", cast->type->name); #endif if (swig_module.next != &swig_module) { ret = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, cast->type->name); #ifdef SWIGRUNTIME_DEBUG if (ret) printf("SWIG_InitializeModule: found cast %s\n", ret->name); #endif } if (ret) { if (type == swig_module.type_initial[i]) { #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: skip old type %s\n", ret->name); #endif cast->type = ret; ret = 0; } else { /* Check for casting already in the list */ swig_cast_info *ocast = SWIG_TypeCheck(ret->name, type); #ifdef SWIGRUNTIME_DEBUG if (ocast) printf("SWIG_InitializeModule: skip old cast %s\n", ret->name); #endif if (!ocast) ret = 0; } } if (!ret) { #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: adding cast %s\n", cast->type->name); #endif if (type->cast) { type->cast->prev = cast; cast->next = type->cast; } type->cast = cast; } cast++; } /* Set entry in modules->types array equal to the type */ swig_module.types[i] = type; } swig_module.types[i] = 0; #ifdef SWIGRUNTIME_DEBUG printf("**** SWIG_InitializeModule: Cast List ******\n"); for (i = 0; i < swig_module.size; ++i) { int j = 0; swig_cast_info *cast = swig_module.cast_initial[i]; printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name); while (cast->type) { printf("SWIG_InitializeModule: cast type %s\n", cast->type->name); cast++; ++j; } printf("---- Total casts: %d\n",j); } printf("**** SWIG_InitializeModule: Cast List ******\n"); #endif } /* This function will propagate the clientdata field of type to * any new swig_type_info structures that have been added into the list * of equivalent types. It is like calling * SWIG_TypeClientData(type, clientdata) a second time. */ SWIGRUNTIME void SWIG_PropagateClientData(void) { size_t i; swig_cast_info *equiv; static int init_run = 0; if (init_run) return; init_run = 1; for (i = 0; i < swig_module.size; i++) { if (swig_module.types[i]->clientdata) { equiv = swig_module.types[i]->cast; while (equiv) { if (!equiv->converter) { if (equiv->type && !equiv->type->clientdata) SWIG_TypeClientData(equiv->type, swig_module.types[i]->clientdata); } equiv = equiv->next; } } } } #ifdef __cplusplus #if 0 { /* c-mode */ #endif } #endif /* */ #ifdef __cplusplus extern "C" #endif SWIGEXPORT void Init_simstring(void) { size_t i; SWIG_InitRuntime(); mSimstring = rb_define_module("Simstring"); SWIG_InitializeModule(0); for (i = 0; i < swig_module.size; i++) { SWIG_define_class(swig_module.types[i]); } SWIG_RubyInitializeTrackings(); cGC_VALUE.klass = rb_define_class_under(mSimstring, "GC_VALUE", rb_cObject); SWIG_TypeClientData(SWIGTYPE_p_swig__GC_VALUE, (void *) &cGC_VALUE); rb_undef_alloc_func(cGC_VALUE.klass); rb_define_method(cGC_VALUE.klass, "inspect", VALUEFUNC(_wrap_GC_VALUE_inspect), -1); rb_define_method(cGC_VALUE.klass, "to_s", VALUEFUNC(_wrap_GC_VALUE_to_s), -1); cGC_VALUE.mark = 0; cGC_VALUE.trackObjects = 0; swig::GC_VALUE::initialize(); cConstIterator.klass = rb_define_class_under(mSimstring, "ConstIterator", rb_cObject); SWIG_TypeClientData(SWIGTYPE_p_swig__ConstIterator, (void *) &cConstIterator); rb_undef_alloc_func(cConstIterator.klass); rb_define_method(cConstIterator.klass, "value", VALUEFUNC(_wrap_ConstIterator_value), -1); rb_define_method(cConstIterator.klass, "dup", VALUEFUNC(_wrap_ConstIterator_dup), -1); rb_define_method(cConstIterator.klass, "inspect", VALUEFUNC(_wrap_ConstIterator_inspect), -1); rb_define_method(cConstIterator.klass, "to_s", VALUEFUNC(_wrap_ConstIterator_to_s), -1); rb_define_method(cConstIterator.klass, "next", VALUEFUNC(_wrap_ConstIterator_next), -1); rb_define_method(cConstIterator.klass, "previous", VALUEFUNC(_wrap_ConstIterator_previous), -1); rb_define_method(cConstIterator.klass, "==", VALUEFUNC(_wrap_ConstIterator___eq__), -1); rb_define_method(cConstIterator.klass, "+", VALUEFUNC(_wrap_ConstIterator___add__), -1); rb_define_method(cConstIterator.klass, "-", VALUEFUNC(_wrap_ConstIterator___sub__), -1); cConstIterator.mark = 0; cConstIterator.destroy = (void (*)(void *)) free_swig_ConstIterator; cConstIterator.trackObjects = 0; cIterator.klass = rb_define_class_under(mSimstring, "Iterator", ((swig_class *) SWIGTYPE_p_swig__ConstIterator->clientdata)->klass); SWIG_TypeClientData(SWIGTYPE_p_swig__Iterator, (void *) &cIterator); rb_undef_alloc_func(cIterator.klass); rb_define_method(cIterator.klass, "value=", VALUEFUNC(_wrap_Iterator_valuee___), -1); rb_define_method(cIterator.klass, "dup", VALUEFUNC(_wrap_Iterator_dup), -1); rb_define_method(cIterator.klass, "next", VALUEFUNC(_wrap_Iterator_next), -1); rb_define_method(cIterator.klass, "previous", VALUEFUNC(_wrap_Iterator_previous), -1); rb_define_method(cIterator.klass, "inspect", VALUEFUNC(_wrap_Iterator_inspect), -1); rb_define_method(cIterator.klass, "to_s", VALUEFUNC(_wrap_Iterator_to_s), -1); rb_define_method(cIterator.klass, "==", VALUEFUNC(_wrap_Iterator___eq__), -1); rb_define_method(cIterator.klass, "+", VALUEFUNC(_wrap_Iterator___add__), -1); rb_define_method(cIterator.klass, "-", VALUEFUNC(_wrap_Iterator___sub__), -1); cIterator.mark = 0; cIterator.destroy = (void (*)(void *)) free_swig_Iterator; cIterator.trackObjects = 0; cStringVector.klass = rb_define_class_under(mSimstring, "StringVector", rb_cObject); SWIG_TypeClientData(SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, (void *) &cStringVector); rb_include_module(cStringVector.klass, rb_eval_string("Enumerable")); rb_define_alloc_func(cStringVector.klass, _wrap_StringVector_allocate); rb_define_method(cStringVector.klass, "initialize", VALUEFUNC(_wrap_new_StringVector), -1); rb_define_method(cStringVector.klass, "dup", VALUEFUNC(_wrap_StringVector_dup), -1); rb_define_method(cStringVector.klass, "inspect", VALUEFUNC(_wrap_StringVector_inspect), -1); rb_define_method(cStringVector.klass, "to_a", VALUEFUNC(_wrap_StringVector_to_a), -1); rb_define_method(cStringVector.klass, "to_s", VALUEFUNC(_wrap_StringVector_to_s), -1); rb_define_method(cStringVector.klass, "slice", VALUEFUNC(_wrap_StringVector_slice), -1); rb_define_method(cStringVector.klass, "each", VALUEFUNC(_wrap_StringVector_each), -1); rb_define_method(cStringVector.klass, "select", VALUEFUNC(_wrap_StringVector_select), -1); rb_define_method(cStringVector.klass, "reject!", VALUEFUNC(_wrap_StringVector_rejectN___), -1); rb_define_alias(cStringVector.klass, "delete_if", "reject!"); rb_define_method(cStringVector.klass, "delete_at", VALUEFUNC(_wrap_StringVector_delete_at), -1); rb_define_method(cStringVector.klass, "__delete2__", VALUEFUNC(_wrap_StringVector___delete2__), -1); rb_define_method(cStringVector.klass, "pop", VALUEFUNC(_wrap_StringVector_pop), -1); rb_define_method(cStringVector.klass, "push", VALUEFUNC(_wrap_StringVector_push), -1); rb_define_alias(cStringVector.klass, "<<", "push"); rb_define_method(cStringVector.klass, "reject", VALUEFUNC(_wrap_StringVector_reject), -1); rb_define_method(cStringVector.klass, "at", VALUEFUNC(_wrap_StringVector_at), -1); rb_define_method(cStringVector.klass, "[]", VALUEFUNC(_wrap_StringVector___getitem__), -1); rb_define_method(cStringVector.klass, "[]=", VALUEFUNC(_wrap_StringVector___setitem__), -1); rb_define_method(cStringVector.klass, "shift", VALUEFUNC(_wrap_StringVector_shift), -1); rb_define_method(cStringVector.klass, "unshift", VALUEFUNC(_wrap_StringVector_unshift), -1); rb_define_method(cStringVector.klass, "empty?", VALUEFUNC(_wrap_StringVector_emptyq___), -1); rb_define_method(cStringVector.klass, "size", VALUEFUNC(_wrap_StringVector_size), -1); rb_define_method(cStringVector.klass, "clear", VALUEFUNC(_wrap_StringVector_clear), -1); rb_define_method(cStringVector.klass, "swap", VALUEFUNC(_wrap_StringVector_swap), -1); rb_define_method(cStringVector.klass, "get_allocator", VALUEFUNC(_wrap_StringVector_get_allocator), -1); rb_define_method(cStringVector.klass, "begin", VALUEFUNC(_wrap_StringVector_begin), -1); rb_define_method(cStringVector.klass, "end", VALUEFUNC(_wrap_StringVector_end), -1); rb_define_method(cStringVector.klass, "rbegin", VALUEFUNC(_wrap_StringVector_rbegin), -1); rb_define_method(cStringVector.klass, "rend", VALUEFUNC(_wrap_StringVector_rend), -1); rb_define_method(cStringVector.klass, "erase", VALUEFUNC(_wrap_StringVector_erase), -1); rb_define_method(cStringVector.klass, "front", VALUEFUNC(_wrap_StringVector_front), -1); rb_define_method(cStringVector.klass, "back", VALUEFUNC(_wrap_StringVector_back), -1); rb_define_method(cStringVector.klass, "assign", VALUEFUNC(_wrap_StringVector_assign), -1); rb_define_method(cStringVector.klass, "resize", VALUEFUNC(_wrap_StringVector_resize), -1); rb_define_method(cStringVector.klass, "insert", VALUEFUNC(_wrap_StringVector_insert), -1); rb_define_method(cStringVector.klass, "reserve", VALUEFUNC(_wrap_StringVector_reserve), -1); rb_define_method(cStringVector.klass, "capacity", VALUEFUNC(_wrap_StringVector_capacity), -1); rb_define_method(cStringVector.klass, "map_bang", VALUEFUNC(_wrap_StringVector_map_bang), -1); rb_define_method(cStringVector.klass, "__delete__", VALUEFUNC(_wrap_StringVector___delete__), -1); cStringVector.mark = 0; cStringVector.destroy = (void (*)(void *)) free_std_vector_Sl_std_string_Sg_; cStringVector.trackObjects = 0; rb_define_const(mSimstring, "Exact", SWIG_From_int(static_cast< int >(exact))); rb_define_const(mSimstring, "Dice", SWIG_From_int(static_cast< int >(dice))); rb_define_const(mSimstring, "Cosine", SWIG_From_int(static_cast< int >(cosine))); rb_define_const(mSimstring, "Jaccard", SWIG_From_int(static_cast< int >(jaccard))); rb_define_const(mSimstring, "Overlap", SWIG_From_int(static_cast< int >(overlap))); cWriter.klass = rb_define_class_under(mSimstring, "Writer", rb_cObject); SWIG_TypeClientData(SWIGTYPE_p_writer, (void *) &cWriter); rb_define_alloc_func(cWriter.klass, _wrap_writer_allocate); rb_define_method(cWriter.klass, "initialize", VALUEFUNC(_wrap_new_writer), -1); rb_define_method(cWriter.klass, "insert", VALUEFUNC(_wrap_writer_insert), -1); rb_define_method(cWriter.klass, "close", VALUEFUNC(_wrap_writer_close), -1); cWriter.mark = 0; cWriter.destroy = (void (*)(void *)) free_writer; cWriter.trackObjects = 0; cReader.klass = rb_define_class_under(mSimstring, "Reader", rb_cObject); SWIG_TypeClientData(SWIGTYPE_p_reader, (void *) &cReader); rb_define_alloc_func(cReader.klass, _wrap_reader_allocate); rb_define_method(cReader.klass, "initialize", VALUEFUNC(_wrap_new_reader), -1); rb_define_method(cReader.klass, "retrieve", VALUEFUNC(_wrap_reader_retrieve), -1); rb_define_method(cReader.klass, "close", VALUEFUNC(_wrap_reader_close), -1); rb_define_method(cReader.klass, "measure=", VALUEFUNC(_wrap_reader_measure_set), -1); rb_define_method(cReader.klass, "measure", VALUEFUNC(_wrap_reader_measure_get), -1); rb_define_method(cReader.klass, "threshold=", VALUEFUNC(_wrap_reader_threshold_set), -1); rb_define_method(cReader.klass, "threshold", VALUEFUNC(_wrap_reader_threshold_get), -1); cReader.mark = 0; cReader.destroy = (void (*)(void *)) free_reader; cReader.trackObjects = 0; } simstring-1.0/swig/ruby/sample_unicode.rb0000644000076400007640000000077311344662045015604 00000000000000#!/usr/bin/env ruby -Ku require 'simstring' # Open a SimString database for writing with Unicode mode. db = Simstring::Writer.new('sample_unicode.db', 3, false, true) # Write a string, and close the database. db.insert('スパゲティ') db.close() # Open the database for reading. db = Simstring::Reader.new('sample_unicode.db') # Set a similarity measure and threshold. db.measure = Simstring::Cosine db.threshold = 0.6 # Use an 8-bit string in UTF-8 encoding. p(db.retrieve('スパゲティー')) simstring-1.0/swig/Makefile.in0000644000076400007640000002214111344663354013351 00000000000000# Makefile.in generated by automake 1.11 from Makefile.am. # @configure_input@ # Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, # 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, # Inc. # This Makefile.in is free software; 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} %exception { try { $action } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } %include "export.h" simstring-1.0/swig/Makefile.am0000644000076400007640000000046511344663342013342 00000000000000# $Id:$ EXTRA_DIST = \ export.i \ export.h \ export.cpp \ python/prepare.sh \ python/setup.py.in \ python/export_wrap.cpp \ python/simstring.py \ python/sample.py \ python/sample_unicode.py \ ruby/prepare.sh \ ruby/extconf.rb.in \ ruby/export_wrap.cpp \ ruby/sample.rb \ ruby/sample_unicode.rb simstring-1.0/swig/python/0000777000076400007640000000000011344663437012713 500000000000000simstring-1.0/swig/python/prepare.sh0000755000076400007640000000023611344662045014617 00000000000000#!/bin/sh # $Id:$ ln -s ../export.cpp ln -s ../export.h ln -s ../export.i if [ "$1" = "--swig" ]; then swig -c++ -python -o export_wrap.cpp export.i fi simstring-1.0/swig/python/simstring.py0000644000076400007640000001756111344663420015222 00000000000000# This file was automatically generated by SWIG (http://www.swig.org). # Version 1.3.36 # # Don't modify this file, modify the SWIG interface instead. # This file is compatible with both classic and new-style classes. import _simstring import new new_instancemethod = new.instancemethod try: _swig_property = property except NameError: pass # Python < 2.2 doesn't have 'property'. def _swig_setattr_nondynamic(self,class_type,name,value,static=1): if (name == "thisown"): return self.this.own(value) if (name == "this"): if type(value).__name__ == 'PySwigObject': self.__dict__[name] = value return method = class_type.__swig_setmethods__.get(name,None) if method: return method(self,value) if (not static) or hasattr(self,name): self.__dict__[name] = value else: raise AttributeError("You cannot add attributes to %s" % self) def _swig_setattr(self,class_type,name,value): return _swig_setattr_nondynamic(self,class_type,name,value,0) def _swig_getattr(self,class_type,name): if (name == "thisown"): return self.this.own() method = class_type.__swig_getmethods__.get(name,None) if method: return method(self) raise AttributeError,name def _swig_repr(self): try: strthis = "proxy of " + self.this.__repr__() except: strthis = "" return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) import types try: _object = types.ObjectType _newclass = 1 except AttributeError: class _object : pass _newclass = 0 del types class PySwigIterator(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, PySwigIterator, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, PySwigIterator, name) def __init__(self, *args, **kwargs): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _simstring.delete_PySwigIterator __del__ = lambda self : None; def value(*args): return _simstring.PySwigIterator_value(*args) def incr(*args): return _simstring.PySwigIterator_incr(*args) def decr(*args): return _simstring.PySwigIterator_decr(*args) def distance(*args): return _simstring.PySwigIterator_distance(*args) def equal(*args): return _simstring.PySwigIterator_equal(*args) def copy(*args): return _simstring.PySwigIterator_copy(*args) def next(*args): return _simstring.PySwigIterator_next(*args) def previous(*args): return _simstring.PySwigIterator_previous(*args) def advance(*args): return _simstring.PySwigIterator_advance(*args) def __eq__(*args): return _simstring.PySwigIterator___eq__(*args) def __ne__(*args): return _simstring.PySwigIterator___ne__(*args) def __iadd__(*args): return _simstring.PySwigIterator___iadd__(*args) def __isub__(*args): return _simstring.PySwigIterator___isub__(*args) def __add__(*args): return _simstring.PySwigIterator___add__(*args) def __sub__(*args): return _simstring.PySwigIterator___sub__(*args) def __iter__(self): return self PySwigIterator_swigregister = _simstring.PySwigIterator_swigregister PySwigIterator_swigregister(PySwigIterator) class StringVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, StringVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, StringVector, name) __repr__ = _swig_repr def iterator(*args): return _simstring.StringVector_iterator(*args) def __iter__(self): return self.iterator() def __nonzero__(*args): return _simstring.StringVector___nonzero__(*args) def __len__(*args): return _simstring.StringVector___len__(*args) def pop(*args): return _simstring.StringVector_pop(*args) def __getslice__(*args): return _simstring.StringVector___getslice__(*args) def __setslice__(*args): return _simstring.StringVector___setslice__(*args) def __delslice__(*args): return _simstring.StringVector___delslice__(*args) def __delitem__(*args): return _simstring.StringVector___delitem__(*args) def __getitem__(*args): return _simstring.StringVector___getitem__(*args) def __setitem__(*args): return _simstring.StringVector___setitem__(*args) def append(*args): return _simstring.StringVector_append(*args) def empty(*args): return _simstring.StringVector_empty(*args) def size(*args): return _simstring.StringVector_size(*args) def clear(*args): return _simstring.StringVector_clear(*args) def swap(*args): return _simstring.StringVector_swap(*args) def get_allocator(*args): return _simstring.StringVector_get_allocator(*args) def begin(*args): return _simstring.StringVector_begin(*args) def end(*args): return _simstring.StringVector_end(*args) def rbegin(*args): return _simstring.StringVector_rbegin(*args) def rend(*args): return _simstring.StringVector_rend(*args) def pop_back(*args): return _simstring.StringVector_pop_back(*args) def erase(*args): return _simstring.StringVector_erase(*args) def __init__(self, *args): this = _simstring.new_StringVector(*args) try: self.this.append(this) except: self.this = this def push_back(*args): return _simstring.StringVector_push_back(*args) def front(*args): return _simstring.StringVector_front(*args) def back(*args): return _simstring.StringVector_back(*args) def assign(*args): return _simstring.StringVector_assign(*args) def resize(*args): return _simstring.StringVector_resize(*args) def insert(*args): return _simstring.StringVector_insert(*args) def reserve(*args): return _simstring.StringVector_reserve(*args) def capacity(*args): return _simstring.StringVector_capacity(*args) __swig_destroy__ = _simstring.delete_StringVector __del__ = lambda self : None; StringVector_swigregister = _simstring.StringVector_swigregister StringVector_swigregister(StringVector) exact = _simstring.exact dice = _simstring.dice cosine = _simstring.cosine jaccard = _simstring.jaccard overlap = _simstring.overlap class writer(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, writer, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, writer, name) __repr__ = _swig_repr def __init__(self, *args): this = _simstring.new_writer(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _simstring.delete_writer __del__ = lambda self : None; def insert(*args): return _simstring.writer_insert(*args) def close(*args): return _simstring.writer_close(*args) writer_swigregister = _simstring.writer_swigregister writer_swigregister(writer) class reader(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, reader, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, reader, name) __repr__ = _swig_repr def __init__(self, *args): this = _simstring.new_reader(*args) try: self.this.append(this) except: self.this = this __swig_destroy__ = _simstring.delete_reader __del__ = lambda self : None; def retrieve(*args): return _simstring.reader_retrieve(*args) def close(*args): return _simstring.reader_close(*args) __swig_setmethods__["measure"] = _simstring.reader_measure_set __swig_getmethods__["measure"] = _simstring.reader_measure_get if _newclass:measure = _swig_property(_simstring.reader_measure_get, _simstring.reader_measure_set) __swig_setmethods__["threshold"] = _simstring.reader_threshold_set __swig_getmethods__["threshold"] = _simstring.reader_threshold_get if _newclass:threshold = _swig_property(_simstring.reader_threshold_get, _simstring.reader_threshold_set) reader_swigregister = _simstring.reader_swigregister reader_swigregister(reader) simstring-1.0/swig/python/setup.py.in0000755000076400007640000000164311344662045014747 00000000000000#!/usr/bin/env python """ setup.py file for SWIG example """ import sys import os.path def get_rootdir(): return os.path.abspath(os.path.join(os.path.dirname(__file__), '../..')) def get_includedir(): return os.path.join(get_rootdir(), 'include') def get_swigdir(): return os.path.join(get_rootdir(), 'swig') import os; os.environ['CC'] = 'g++'; os.environ['CXX'] = 'g++'; os.environ['CPP'] = 'g++'; os.environ['LDSHARED'] = 'g++' from distutils.core import setup, Extension simstring_module = Extension( '_simstring', sources = [ 'export.cpp', 'export_wrap.cpp', ], include_dirs=[get_includedir(),], extra_link_args=['-shared'], language='c++', ) setup( name = '@PACKAGE@', version = '@VERSION@', author = 'Naoaki Okazaki', description = """SimString Python module""", ext_modules = [simstring_module], py_modules = ["simstring"], ) simstring-1.0/swig/python/export_wrap.cpp0000644000076400007640000076026611344663420015716 00000000000000/* ---------------------------------------------------------------------------- * This file was automatically generated by SWIG (http://www.swig.org). * Version 1.3.36 * * This file is not intended to be easily readable and contains a number of * coding conventions designed to improve portability and efficiency. Do not make * changes to this file unless you know what you are doing--modify the SWIG * interface file instead. * ----------------------------------------------------------------------------- */ #define SWIGPYTHON #define SWIG_PYTHON_DIRECTOR_NO_VTABLE #ifdef __cplusplus template class SwigValueWrapper { T *tt; public: SwigValueWrapper() : tt(0) { } SwigValueWrapper(const SwigValueWrapper& rhs) : tt(new T(*rhs.tt)) { } SwigValueWrapper(const T& t) : tt(new T(t)) { } ~SwigValueWrapper() { delete tt; } SwigValueWrapper& operator=(const T& t) { delete tt; tt = new T(t); return *this; } operator T&() const { return *tt; } T *operator&() { return tt; } private: SwigValueWrapper& operator=(const SwigValueWrapper& rhs); }; template T SwigValueInit() { return T(); } #endif /* ----------------------------------------------------------------------------- * This section contains generic SWIG labels for method/variable * declarations/attributes, and other compiler dependent labels. * ----------------------------------------------------------------------------- */ /* template workaround for compilers that cannot correctly implement the C++ standard */ #ifndef SWIGTEMPLATEDISAMBIGUATOR # if defined(__SUNPRO_CC) && (__SUNPRO_CC <= 0x560) # define SWIGTEMPLATEDISAMBIGUATOR template # elif defined(__HP_aCC) /* Needed even with `aCC -AA' when `aCC -V' reports HP ANSI C++ B3910B A.03.55 */ /* If we find a maximum version that requires this, the test would be __HP_aCC <= 35500 for A.03.55 */ # define SWIGTEMPLATEDISAMBIGUATOR template # else # define SWIGTEMPLATEDISAMBIGUATOR # endif #endif /* inline attribute */ #ifndef SWIGINLINE # if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__)) # define SWIGINLINE inline # else # define SWIGINLINE # endif #endif /* attribute recognised by some compilers to avoid 'unused' warnings */ #ifndef SWIGUNUSED # if defined(__GNUC__) # if !(defined(__cplusplus)) || (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif # elif defined(__ICC) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif #endif #ifndef SWIG_MSC_UNSUPPRESS_4505 # if defined(_MSC_VER) # pragma warning(disable : 4505) /* unreferenced local function has been removed */ # endif #endif #ifndef SWIGUNUSEDPARM # ifdef __cplusplus # define SWIGUNUSEDPARM(p) # else # define SWIGUNUSEDPARM(p) p SWIGUNUSED # endif #endif /* internal SWIG method */ #ifndef SWIGINTERN # define SWIGINTERN static SWIGUNUSED #endif /* internal inline SWIG method */ #ifndef SWIGINTERNINLINE # define SWIGINTERNINLINE SWIGINTERN SWIGINLINE #endif /* exporting methods */ #if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) # ifndef GCC_HASCLASSVISIBILITY # define GCC_HASCLASSVISIBILITY # endif #endif #ifndef SWIGEXPORT # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # if defined(STATIC_LINKED) # define SWIGEXPORT # else # define SWIGEXPORT __declspec(dllexport) # endif # else # if defined(__GNUC__) && defined(GCC_HASCLASSVISIBILITY) # define SWIGEXPORT __attribute__ ((visibility("default"))) # else # define SWIGEXPORT # endif # endif #endif /* calling conventions for Windows */ #ifndef SWIGSTDCALL # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # define SWIGSTDCALL __stdcall # else # define SWIGSTDCALL # endif #endif /* Deal with Microsoft's attempt at deprecating C standard runtime functions */ #if !defined(SWIG_NO_CRT_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_CRT_SECURE_NO_DEPRECATE) # define _CRT_SECURE_NO_DEPRECATE #endif /* Deal with Microsoft's attempt at deprecating methods in the standard C++ library */ #if !defined(SWIG_NO_SCL_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_SCL_SECURE_NO_DEPRECATE) # define _SCL_SECURE_NO_DEPRECATE #endif /* Python.h has to appear first */ #include /* ----------------------------------------------------------------------------- * swigrun.swg * * This file contains generic CAPI SWIG runtime support for pointer * type checking. * ----------------------------------------------------------------------------- */ /* This should only be incremented when either the layout of swig_type_info changes, or for whatever reason, the runtime changes incompatibly */ #define SWIG_RUNTIME_VERSION "4" /* define SWIG_TYPE_TABLE_NAME as "SWIG_TYPE_TABLE" */ #ifdef SWIG_TYPE_TABLE # define SWIG_QUOTE_STRING(x) #x # define SWIG_EXPAND_AND_QUOTE_STRING(x) SWIG_QUOTE_STRING(x) # define SWIG_TYPE_TABLE_NAME SWIG_EXPAND_AND_QUOTE_STRING(SWIG_TYPE_TABLE) #else # define SWIG_TYPE_TABLE_NAME #endif /* You can use the SWIGRUNTIME and SWIGRUNTIMEINLINE macros for creating a static or dynamic library from the swig runtime code. In 99.9% of the cases, swig just needs to declare them as 'static'. But only do this if is strictly necessary, ie, if you have problems with your compiler or so. */ #ifndef SWIGRUNTIME # define SWIGRUNTIME SWIGINTERN #endif #ifndef SWIGRUNTIMEINLINE # define SWIGRUNTIMEINLINE SWIGRUNTIME SWIGINLINE #endif /* Generic buffer size */ #ifndef SWIG_BUFFER_SIZE # define SWIG_BUFFER_SIZE 1024 #endif /* Flags for pointer conversions */ #define SWIG_POINTER_DISOWN 0x1 #define SWIG_CAST_NEW_MEMORY 0x2 /* Flags for new pointer objects */ #define SWIG_POINTER_OWN 0x1 /* Flags/methods for returning states. The swig conversion methods, as ConvertPtr, return and integer that tells if the conversion was successful or not. And if not, an error code can be returned (see swigerrors.swg for the codes). Use the following macros/flags to set or process the returning states. In old swig versions, you usually write code as: if (SWIG_ConvertPtr(obj,vptr,ty.flags) != -1) { // success code } else { //fail code } Now you can be more explicit as: int res = SWIG_ConvertPtr(obj,vptr,ty.flags); if (SWIG_IsOK(res)) { // success code } else { // fail code } that seems to be the same, but now you can also do Type *ptr; int res = SWIG_ConvertPtr(obj,(void **)(&ptr),ty.flags); if (SWIG_IsOK(res)) { // success code if (SWIG_IsNewObj(res) { ... delete *ptr; } else { ... } } else { // fail code } I.e., now SWIG_ConvertPtr can return new objects and you can identify the case and take care of the deallocation. Of course that requires also to SWIG_ConvertPtr to return new result values, as int SWIG_ConvertPtr(obj, ptr,...) { if () { if () { *ptr = ; return SWIG_NEWOBJ; } else { *ptr = ; return SWIG_OLDOBJ; } } else { return SWIG_BADOBJ; } } Of course, returning the plain '0(success)/-1(fail)' still works, but you can be more explicit by returning SWIG_BADOBJ, SWIG_ERROR or any of the swig errors code. Finally, if the SWIG_CASTRANK_MODE is enabled, the result code allows to return the 'cast rank', for example, if you have this int food(double) int fooi(int); and you call food(1) // cast rank '1' (1 -> 1.0) fooi(1) // cast rank '0' just use the SWIG_AddCast()/SWIG_CheckState() */ #define SWIG_OK (0) #define SWIG_ERROR (-1) #define SWIG_IsOK(r) (r >= 0) #define SWIG_ArgError(r) ((r != SWIG_ERROR) ? r : SWIG_TypeError) /* The CastRankLimit says how many bits are used for the cast rank */ #define SWIG_CASTRANKLIMIT (1 << 8) /* The NewMask denotes the object was created (using new/malloc) */ #define SWIG_NEWOBJMASK (SWIG_CASTRANKLIMIT << 1) /* The TmpMask is for in/out typemaps that use temporal objects */ #define SWIG_TMPOBJMASK (SWIG_NEWOBJMASK << 1) /* Simple returning values */ #define SWIG_BADOBJ (SWIG_ERROR) #define SWIG_OLDOBJ (SWIG_OK) #define SWIG_NEWOBJ (SWIG_OK | SWIG_NEWOBJMASK) #define SWIG_TMPOBJ (SWIG_OK | SWIG_TMPOBJMASK) /* Check, add and del mask methods */ #define SWIG_AddNewMask(r) (SWIG_IsOK(r) ? (r | SWIG_NEWOBJMASK) : r) #define SWIG_DelNewMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_NEWOBJMASK) : r) #define SWIG_IsNewObj(r) (SWIG_IsOK(r) && (r & SWIG_NEWOBJMASK)) #define SWIG_AddTmpMask(r) (SWIG_IsOK(r) ? (r | SWIG_TMPOBJMASK) : r) #define SWIG_DelTmpMask(r) (SWIG_IsOK(r) ? (r & ~SWIG_TMPOBJMASK) : r) #define SWIG_IsTmpObj(r) (SWIG_IsOK(r) && (r & SWIG_TMPOBJMASK)) /* Cast-Rank Mode */ #if defined(SWIG_CASTRANK_MODE) # ifndef SWIG_TypeRank # define SWIG_TypeRank unsigned long # endif # ifndef SWIG_MAXCASTRANK /* Default cast allowed */ # define SWIG_MAXCASTRANK (2) # endif # define SWIG_CASTRANKMASK ((SWIG_CASTRANKLIMIT) -1) # define SWIG_CastRank(r) (r & SWIG_CASTRANKMASK) SWIGINTERNINLINE int SWIG_AddCast(int r) { return SWIG_IsOK(r) ? ((SWIG_CastRank(r) < SWIG_MAXCASTRANK) ? (r + 1) : SWIG_ERROR) : r; } SWIGINTERNINLINE int SWIG_CheckState(int r) { return SWIG_IsOK(r) ? SWIG_CastRank(r) + 1 : 0; } #else /* no cast-rank mode */ # define SWIG_AddCast # define SWIG_CheckState(r) (SWIG_IsOK(r) ? 1 : 0) #endif #include #ifdef __cplusplus extern "C" { #endif typedef void *(*swig_converter_func)(void *, int *); typedef struct swig_type_info *(*swig_dycast_func)(void **); /* Structure to store information on one type */ typedef struct swig_type_info { const char *name; /* mangled name of this type */ const char *str; /* human readable name of this type */ swig_dycast_func dcast; /* dynamic cast function down a hierarchy */ struct swig_cast_info *cast; /* linked list of types that can cast into this type */ void *clientdata; /* language specific type data */ int owndata; /* flag if the structure owns the clientdata */ } swig_type_info; /* Structure to store a type and conversion function used for casting */ typedef struct swig_cast_info { swig_type_info *type; /* pointer to type that is equivalent to this type */ swig_converter_func converter; /* function to cast the void pointers */ struct swig_cast_info *next; /* pointer to next cast in linked list */ struct swig_cast_info *prev; /* pointer to the previous cast */ } swig_cast_info; /* Structure used to store module information * Each module generates one structure like this, and the runtime collects * all of these structures and stores them in a circularly linked list.*/ typedef struct swig_module_info { swig_type_info **types; /* Array of pointers to swig_type_info structures that are in this module */ size_t size; /* Number of types in this module */ struct swig_module_info *next; /* Pointer to next element in circularly linked list */ swig_type_info **type_initial; /* Array of initially generated type structures */ swig_cast_info **cast_initial; /* Array of initially generated casting structures */ void *clientdata; /* Language specific module data */ } swig_module_info; /* Compare two type names skipping the space characters, therefore "char*" == "char *" and "Class" == "Class", etc. Return 0 when the two name types are equivalent, as in strncmp, but skipping ' '. */ SWIGRUNTIME int SWIG_TypeNameComp(const char *f1, const char *l1, const char *f2, const char *l2) { for (;(f1 != l1) && (f2 != l2); ++f1, ++f2) { while ((*f1 == ' ') && (f1 != l1)) ++f1; while ((*f2 == ' ') && (f2 != l2)) ++f2; if (*f1 != *f2) return (*f1 > *f2) ? 1 : -1; } return (int)((l1 - f1) - (l2 - f2)); } /* Check type equivalence in a name list like ||... Return 0 if not equal, 1 if equal */ SWIGRUNTIME int SWIG_TypeEquiv(const char *nb, const char *tb) { int equiv = 0; const char* te = tb + strlen(tb); const char* ne = nb; while (!equiv && *ne) { for (nb = ne; *ne; ++ne) { if (*ne == '|') break; } equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0; if (*ne) ++ne; } return equiv; } /* Check type equivalence in a name list like ||... Return 0 if equal, -1 if nb < tb, 1 if nb > tb */ SWIGRUNTIME int SWIG_TypeCompare(const char *nb, const char *tb) { int equiv = 0; const char* te = tb + strlen(tb); const char* ne = nb; while (!equiv && *ne) { for (nb = ne; *ne; ++ne) { if (*ne == '|') break; } equiv = (SWIG_TypeNameComp(nb, ne, tb, te) == 0) ? 1 : 0; if (*ne) ++ne; } return equiv; } /* think of this as a c++ template<> or a scheme macro */ #define SWIG_TypeCheck_Template(comparison, ty) \ if (ty) { \ swig_cast_info *iter = ty->cast; \ while (iter) { \ if (comparison) { \ if (iter == ty->cast) return iter; \ /* Move iter to the top of the linked list */ \ iter->prev->next = iter->next; \ if (iter->next) \ iter->next->prev = iter->prev; \ iter->next = ty->cast; \ iter->prev = 0; \ if (ty->cast) ty->cast->prev = iter; \ ty->cast = iter; \ return iter; \ } \ iter = iter->next; \ } \ } \ return 0 /* Check the typename */ SWIGRUNTIME swig_cast_info * SWIG_TypeCheck(const char *c, swig_type_info *ty) { SWIG_TypeCheck_Template(strcmp(iter->type->name, c) == 0, ty); } /* Same as previous function, except strcmp is replaced with a pointer comparison */ SWIGRUNTIME swig_cast_info * SWIG_TypeCheckStruct(swig_type_info *from, swig_type_info *into) { SWIG_TypeCheck_Template(iter->type == from, into); } /* Cast a pointer up an inheritance hierarchy */ SWIGRUNTIMEINLINE void * SWIG_TypeCast(swig_cast_info *ty, void *ptr, int *newmemory) { return ((!ty) || (!ty->converter)) ? ptr : (*ty->converter)(ptr, newmemory); } /* Dynamic pointer casting. Down an inheritance hierarchy */ SWIGRUNTIME swig_type_info * SWIG_TypeDynamicCast(swig_type_info *ty, void **ptr) { swig_type_info *lastty = ty; if (!ty || !ty->dcast) return ty; while (ty && (ty->dcast)) { ty = (*ty->dcast)(ptr); if (ty) lastty = ty; } return lastty; } /* Return the name associated with this type */ SWIGRUNTIMEINLINE const char * SWIG_TypeName(const swig_type_info *ty) { return ty->name; } /* Return the pretty name associated with this type, that is an unmangled type name in a form presentable to the user. */ SWIGRUNTIME const char * SWIG_TypePrettyName(const swig_type_info *type) { /* The "str" field contains the equivalent pretty names of the type, separated by vertical-bar characters. We choose to print the last name, as it is often (?) the most specific. */ if (!type) return NULL; if (type->str != NULL) { const char *last_name = type->str; const char *s; for (s = type->str; *s; s++) if (*s == '|') last_name = s+1; return last_name; } else return type->name; } /* Set the clientdata field for a type */ SWIGRUNTIME void SWIG_TypeClientData(swig_type_info *ti, void *clientdata) { swig_cast_info *cast = ti->cast; /* if (ti->clientdata == clientdata) return; */ ti->clientdata = clientdata; while (cast) { if (!cast->converter) { swig_type_info *tc = cast->type; if (!tc->clientdata) { SWIG_TypeClientData(tc, clientdata); } } cast = cast->next; } } SWIGRUNTIME void SWIG_TypeNewClientData(swig_type_info *ti, void *clientdata) { SWIG_TypeClientData(ti, clientdata); ti->owndata = 1; } /* Search for a swig_type_info structure only by mangled name Search is a O(log #types) We start searching at module start, and finish searching when start == end. Note: if start == end at the beginning of the function, we go all the way around the circular list. */ SWIGRUNTIME swig_type_info * SWIG_MangledTypeQueryModule(swig_module_info *start, swig_module_info *end, const char *name) { swig_module_info *iter = start; do { if (iter->size) { register size_t l = 0; register size_t r = iter->size - 1; do { /* since l+r >= 0, we can (>> 1) instead (/ 2) */ register size_t i = (l + r) >> 1; const char *iname = iter->types[i]->name; if (iname) { register int compare = strcmp(name, iname); if (compare == 0) { return iter->types[i]; } else if (compare < 0) { if (i) { r = i - 1; } else { break; } } else if (compare > 0) { l = i + 1; } } else { break; /* should never happen */ } } while (l <= r); } iter = iter->next; } while (iter != end); return 0; } /* Search for a swig_type_info structure for either a mangled name or a human readable name. It first searches the mangled names of the types, which is a O(log #types) If a type is not found it then searches the human readable names, which is O(#types). We start searching at module start, and finish searching when start == end. Note: if start == end at the beginning of the function, we go all the way around the circular list. */ SWIGRUNTIME swig_type_info * SWIG_TypeQueryModule(swig_module_info *start, swig_module_info *end, const char *name) { /* STEP 1: Search the name field using binary search */ swig_type_info *ret = SWIG_MangledTypeQueryModule(start, end, name); if (ret) { return ret; } else { /* STEP 2: If the type hasn't been found, do a complete search of the str field (the human readable name) */ swig_module_info *iter = start; do { register size_t i = 0; for (; i < iter->size; ++i) { if (iter->types[i]->str && (SWIG_TypeEquiv(iter->types[i]->str, name))) return iter->types[i]; } iter = iter->next; } while (iter != end); } /* neither found a match */ return 0; } /* Pack binary data into a string */ SWIGRUNTIME char * SWIG_PackData(char *c, void *ptr, size_t sz) { static const char hex[17] = "0123456789abcdef"; register const unsigned char *u = (unsigned char *) ptr; register const unsigned char *eu = u + sz; for (; u != eu; ++u) { register unsigned char uu = *u; *(c++) = hex[(uu & 0xf0) >> 4]; *(c++) = hex[uu & 0xf]; } return c; } /* Unpack binary data from a string */ SWIGRUNTIME const char * SWIG_UnpackData(const char *c, void *ptr, size_t sz) { register unsigned char *u = (unsigned char *) ptr; register const unsigned char *eu = u + sz; for (; u != eu; ++u) { register char d = *(c++); register unsigned char uu; if ((d >= '0') && (d <= '9')) uu = ((d - '0') << 4); else if ((d >= 'a') && (d <= 'f')) uu = ((d - ('a'-10)) << 4); else return (char *) 0; d = *(c++); if ((d >= '0') && (d <= '9')) uu |= (d - '0'); else if ((d >= 'a') && (d <= 'f')) uu |= (d - ('a'-10)); else return (char *) 0; *u = uu; } return c; } /* Pack 'void *' into a string buffer. */ SWIGRUNTIME char * SWIG_PackVoidPtr(char *buff, void *ptr, const char *name, size_t bsz) { char *r = buff; if ((2*sizeof(void *) + 2) > bsz) return 0; *(r++) = '_'; r = SWIG_PackData(r,&ptr,sizeof(void *)); if (strlen(name) + 1 > (bsz - (r - buff))) return 0; strcpy(r,name); return buff; } SWIGRUNTIME const char * SWIG_UnpackVoidPtr(const char *c, void **ptr, const char *name) { if (*c != '_') { if (strcmp(c,"NULL") == 0) { *ptr = (void *) 0; return name; } else { return 0; } } return SWIG_UnpackData(++c,ptr,sizeof(void *)); } SWIGRUNTIME char * SWIG_PackDataName(char *buff, void *ptr, size_t sz, const char *name, size_t bsz) { char *r = buff; size_t lname = (name ? strlen(name) : 0); if ((2*sz + 2 + lname) > bsz) return 0; *(r++) = '_'; r = SWIG_PackData(r,ptr,sz); if (lname) { strncpy(r,name,lname+1); } else { *r = 0; } return buff; } SWIGRUNTIME const char * SWIG_UnpackDataName(const char *c, void *ptr, size_t sz, const char *name) { if (*c != '_') { if (strcmp(c,"NULL") == 0) { memset(ptr,0,sz); return name; } else { return 0; } } return SWIG_UnpackData(++c,ptr,sz); } #ifdef __cplusplus } #endif /* Errors in SWIG */ #define SWIG_UnknownError -1 #define SWIG_IOError -2 #define SWIG_RuntimeError -3 #define SWIG_IndexError -4 #define SWIG_TypeError -5 #define SWIG_DivisionByZero -6 #define SWIG_OverflowError -7 #define SWIG_SyntaxError -8 #define SWIG_ValueError -9 #define SWIG_SystemError -10 #define SWIG_AttributeError -11 #define SWIG_MemoryError -12 #define SWIG_NullReferenceError -13 /* Add PyOS_snprintf for old Pythons */ #if PY_VERSION_HEX < 0x02020000 # if defined(_MSC_VER) || defined(__BORLANDC__) || defined(_WATCOM) # define PyOS_snprintf _snprintf # else # define PyOS_snprintf snprintf # endif #endif /* A crude PyString_FromFormat implementation for old Pythons */ #if PY_VERSION_HEX < 0x02020000 #ifndef SWIG_PYBUFFER_SIZE # define SWIG_PYBUFFER_SIZE 1024 #endif static PyObject * PyString_FromFormat(const char *fmt, ...) { va_list ap; char buf[SWIG_PYBUFFER_SIZE * 2]; int res; va_start(ap, fmt); res = vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); return (res < 0 || res >= (int)sizeof(buf)) ? 0 : PyString_FromString(buf); } #endif /* Add PyObject_Del for old Pythons */ #if PY_VERSION_HEX < 0x01060000 # define PyObject_Del(op) PyMem_DEL((op)) #endif #ifndef PyObject_DEL # define PyObject_DEL PyObject_Del #endif /* A crude PyExc_StopIteration exception for old Pythons */ #if PY_VERSION_HEX < 0x02020000 # ifndef PyExc_StopIteration # define PyExc_StopIteration PyExc_RuntimeError # endif # ifndef PyObject_GenericGetAttr # define PyObject_GenericGetAttr 0 # endif #endif /* Py_NotImplemented is defined in 2.1 and up. */ #if PY_VERSION_HEX < 0x02010000 # ifndef Py_NotImplemented # define Py_NotImplemented PyExc_RuntimeError # endif #endif /* A crude PyString_AsStringAndSize implementation for old Pythons */ #if PY_VERSION_HEX < 0x02010000 # ifndef PyString_AsStringAndSize # define PyString_AsStringAndSize(obj, s, len) {*s = PyString_AsString(obj); *len = *s ? strlen(*s) : 0;} # endif #endif /* PySequence_Size for old Pythons */ #if PY_VERSION_HEX < 0x02000000 # ifndef PySequence_Size # define PySequence_Size PySequence_Length # endif #endif /* PyBool_FromLong for old Pythons */ #if PY_VERSION_HEX < 0x02030000 static PyObject *PyBool_FromLong(long ok) { PyObject *result = ok ? Py_True : Py_False; Py_INCREF(result); return result; } #endif /* Py_ssize_t for old Pythons */ /* This code is as recommended by: */ /* http://www.python.org/dev/peps/pep-0353/#conversion-guidelines */ #if PY_VERSION_HEX < 0x02050000 && !defined(PY_SSIZE_T_MIN) typedef int Py_ssize_t; # define PY_SSIZE_T_MAX INT_MAX # define PY_SSIZE_T_MIN INT_MIN #endif /* ----------------------------------------------------------------------------- * error manipulation * ----------------------------------------------------------------------------- */ SWIGRUNTIME PyObject* SWIG_Python_ErrorType(int code) { PyObject* type = 0; switch(code) { case SWIG_MemoryError: type = PyExc_MemoryError; break; case SWIG_IOError: type = PyExc_IOError; break; case SWIG_RuntimeError: type = PyExc_RuntimeError; break; case SWIG_IndexError: type = PyExc_IndexError; break; case SWIG_TypeError: type = PyExc_TypeError; break; case SWIG_DivisionByZero: type = PyExc_ZeroDivisionError; break; case SWIG_OverflowError: type = PyExc_OverflowError; break; case SWIG_SyntaxError: type = PyExc_SyntaxError; break; case SWIG_ValueError: type = PyExc_ValueError; break; case SWIG_SystemError: type = PyExc_SystemError; break; case SWIG_AttributeError: type = PyExc_AttributeError; break; default: type = PyExc_RuntimeError; } return type; } SWIGRUNTIME void SWIG_Python_AddErrorMsg(const char* mesg) { PyObject *type = 0; PyObject *value = 0; PyObject *traceback = 0; if (PyErr_Occurred()) PyErr_Fetch(&type, &value, &traceback); if (value) { PyObject *old_str = PyObject_Str(value); PyErr_Clear(); Py_XINCREF(type); PyErr_Format(type, "%s %s", PyString_AsString(old_str), mesg); Py_DECREF(old_str); Py_DECREF(value); } else { PyErr_SetString(PyExc_RuntimeError, mesg); } } #if defined(SWIG_PYTHON_NO_THREADS) # if defined(SWIG_PYTHON_THREADS) # undef SWIG_PYTHON_THREADS # endif #endif #if defined(SWIG_PYTHON_THREADS) /* Threading support is enabled */ # if !defined(SWIG_PYTHON_USE_GIL) && !defined(SWIG_PYTHON_NO_USE_GIL) # if (PY_VERSION_HEX >= 0x02030000) /* For 2.3 or later, use the PyGILState calls */ # define SWIG_PYTHON_USE_GIL # endif # endif # if defined(SWIG_PYTHON_USE_GIL) /* Use PyGILState threads calls */ # ifndef SWIG_PYTHON_INITIALIZE_THREADS # define SWIG_PYTHON_INITIALIZE_THREADS PyEval_InitThreads() # endif # ifdef __cplusplus /* C++ code */ class SWIG_Python_Thread_Block { bool status; PyGILState_STATE state; public: void end() { if (status) { PyGILState_Release(state); status = false;} } SWIG_Python_Thread_Block() : status(true), state(PyGILState_Ensure()) {} ~SWIG_Python_Thread_Block() { end(); } }; class SWIG_Python_Thread_Allow { bool status; PyThreadState *save; public: void end() { if (status) { PyEval_RestoreThread(save); status = false; }} SWIG_Python_Thread_Allow() : status(true), save(PyEval_SaveThread()) {} ~SWIG_Python_Thread_Allow() { end(); } }; # define SWIG_PYTHON_THREAD_BEGIN_BLOCK SWIG_Python_Thread_Block _swig_thread_block # define SWIG_PYTHON_THREAD_END_BLOCK _swig_thread_block.end() # define SWIG_PYTHON_THREAD_BEGIN_ALLOW SWIG_Python_Thread_Allow _swig_thread_allow # define SWIG_PYTHON_THREAD_END_ALLOW _swig_thread_allow.end() # else /* C code */ # define SWIG_PYTHON_THREAD_BEGIN_BLOCK PyGILState_STATE _swig_thread_block = PyGILState_Ensure() # define SWIG_PYTHON_THREAD_END_BLOCK PyGILState_Release(_swig_thread_block) # define SWIG_PYTHON_THREAD_BEGIN_ALLOW PyThreadState *_swig_thread_allow = PyEval_SaveThread() # define SWIG_PYTHON_THREAD_END_ALLOW PyEval_RestoreThread(_swig_thread_allow) # endif # else /* Old thread way, not implemented, user must provide it */ # if !defined(SWIG_PYTHON_INITIALIZE_THREADS) # define SWIG_PYTHON_INITIALIZE_THREADS # endif # if !defined(SWIG_PYTHON_THREAD_BEGIN_BLOCK) # define SWIG_PYTHON_THREAD_BEGIN_BLOCK # endif # if !defined(SWIG_PYTHON_THREAD_END_BLOCK) # define SWIG_PYTHON_THREAD_END_BLOCK # endif # if !defined(SWIG_PYTHON_THREAD_BEGIN_ALLOW) # define SWIG_PYTHON_THREAD_BEGIN_ALLOW # endif # if !defined(SWIG_PYTHON_THREAD_END_ALLOW) # define SWIG_PYTHON_THREAD_END_ALLOW # endif # endif #else /* No thread support */ # define SWIG_PYTHON_INITIALIZE_THREADS # define SWIG_PYTHON_THREAD_BEGIN_BLOCK # define SWIG_PYTHON_THREAD_END_BLOCK # define SWIG_PYTHON_THREAD_BEGIN_ALLOW # define SWIG_PYTHON_THREAD_END_ALLOW #endif /* ----------------------------------------------------------------------------- * Python API portion that goes into the runtime * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #if 0 } /* cc-mode */ #endif #endif /* ----------------------------------------------------------------------------- * Constant declarations * ----------------------------------------------------------------------------- */ /* Constant Types */ #define SWIG_PY_POINTER 4 #define SWIG_PY_BINARY 5 /* Constant information structure */ typedef struct swig_const_info { int type; char *name; long lvalue; double dvalue; void *pvalue; swig_type_info **ptype; } swig_const_info; #ifdef __cplusplus #if 0 { /* cc-mode */ #endif } #endif /* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * pyrun.swg * * This file contains the runtime support for Python modules * and includes code for managing global variables and pointer * type checking. * * ----------------------------------------------------------------------------- */ /* Common SWIG API */ /* for raw pointers */ #define SWIG_Python_ConvertPtr(obj, pptr, type, flags) SWIG_Python_ConvertPtrAndOwn(obj, pptr, type, flags, 0) #define SWIG_ConvertPtr(obj, pptr, type, flags) SWIG_Python_ConvertPtr(obj, pptr, type, flags) #define SWIG_ConvertPtrAndOwn(obj,pptr,type,flags,own) SWIG_Python_ConvertPtrAndOwn(obj, pptr, type, flags, own) #define SWIG_NewPointerObj(ptr, type, flags) SWIG_Python_NewPointerObj(ptr, type, flags) #define SWIG_CheckImplicit(ty) SWIG_Python_CheckImplicit(ty) #define SWIG_AcquirePtr(ptr, src) SWIG_Python_AcquirePtr(ptr, src) #define swig_owntype int /* for raw packed data */ #define SWIG_ConvertPacked(obj, ptr, sz, ty) SWIG_Python_ConvertPacked(obj, ptr, sz, ty) #define SWIG_NewPackedObj(ptr, sz, type) SWIG_Python_NewPackedObj(ptr, sz, type) /* for class or struct pointers */ #define SWIG_ConvertInstance(obj, pptr, type, flags) SWIG_ConvertPtr(obj, pptr, type, flags) #define SWIG_NewInstanceObj(ptr, type, flags) SWIG_NewPointerObj(ptr, type, flags) /* for C or C++ function pointers */ #define SWIG_ConvertFunctionPtr(obj, pptr, type) SWIG_Python_ConvertFunctionPtr(obj, pptr, type) #define SWIG_NewFunctionPtrObj(ptr, type) SWIG_Python_NewPointerObj(ptr, type, 0) /* for C++ member pointers, ie, member methods */ #define SWIG_ConvertMember(obj, ptr, sz, ty) SWIG_Python_ConvertPacked(obj, ptr, sz, ty) #define SWIG_NewMemberObj(ptr, sz, type) SWIG_Python_NewPackedObj(ptr, sz, type) /* Runtime API */ #define SWIG_GetModule(clientdata) SWIG_Python_GetModule() #define SWIG_SetModule(clientdata, pointer) SWIG_Python_SetModule(pointer) #define SWIG_NewClientData(obj) PySwigClientData_New(obj) #define SWIG_SetErrorObj SWIG_Python_SetErrorObj #define SWIG_SetErrorMsg SWIG_Python_SetErrorMsg #define SWIG_ErrorType(code) SWIG_Python_ErrorType(code) #define SWIG_Error(code, msg) SWIG_Python_SetErrorMsg(SWIG_ErrorType(code), msg) #define SWIG_fail goto fail /* Runtime API implementation */ /* Error manipulation */ SWIGINTERN void SWIG_Python_SetErrorObj(PyObject *errtype, PyObject *obj) { SWIG_PYTHON_THREAD_BEGIN_BLOCK; PyErr_SetObject(errtype, obj); Py_DECREF(obj); SWIG_PYTHON_THREAD_END_BLOCK; } SWIGINTERN void SWIG_Python_SetErrorMsg(PyObject *errtype, const char *msg) { SWIG_PYTHON_THREAD_BEGIN_BLOCK; PyErr_SetString(errtype, (char *) msg); SWIG_PYTHON_THREAD_END_BLOCK; } #define SWIG_Python_Raise(obj, type, desc) SWIG_Python_SetErrorObj(SWIG_Python_ExceptionType(desc), obj) /* Set a constant value */ SWIGINTERN void SWIG_Python_SetConstant(PyObject *d, const char *name, PyObject *obj) { PyDict_SetItemString(d, (char*) name, obj); Py_DECREF(obj); } /* Append a value to the result obj */ SWIGINTERN PyObject* SWIG_Python_AppendOutput(PyObject* result, PyObject* obj) { #if !defined(SWIG_PYTHON_OUTPUT_TUPLE) if (!result) { result = obj; } else if (result == Py_None) { Py_DECREF(result); result = obj; } else { if (!PyList_Check(result)) { PyObject *o2 = result; result = PyList_New(1); PyList_SetItem(result, 0, o2); } PyList_Append(result,obj); Py_DECREF(obj); } return result; #else PyObject* o2; PyObject* o3; if (!result) { result = obj; } else if (result == Py_None) { Py_DECREF(result); result = obj; } else { if (!PyTuple_Check(result)) { o2 = result; result = PyTuple_New(1); PyTuple_SET_ITEM(result, 0, o2); } o3 = PyTuple_New(1); PyTuple_SET_ITEM(o3, 0, obj); o2 = result; result = PySequence_Concat(o2, o3); Py_DECREF(o2); Py_DECREF(o3); } return result; #endif } /* Unpack the argument tuple */ SWIGINTERN int SWIG_Python_UnpackTuple(PyObject *args, const char *name, Py_ssize_t min, Py_ssize_t max, PyObject **objs) { if (!args) { if (!min && !max) { return 1; } else { PyErr_Format(PyExc_TypeError, "%s expected %s%d arguments, got none", name, (min == max ? "" : "at least "), (int)min); return 0; } } if (!PyTuple_Check(args)) { PyErr_SetString(PyExc_SystemError, "UnpackTuple() argument list is not a tuple"); return 0; } else { register Py_ssize_t l = PyTuple_GET_SIZE(args); if (l < min) { PyErr_Format(PyExc_TypeError, "%s expected %s%d arguments, got %d", name, (min == max ? "" : "at least "), (int)min, (int)l); return 0; } else if (l > max) { PyErr_Format(PyExc_TypeError, "%s expected %s%d arguments, got %d", name, (min == max ? "" : "at most "), (int)max, (int)l); return 0; } else { register int i; for (i = 0; i < l; ++i) { objs[i] = PyTuple_GET_ITEM(args, i); } for (; l < max; ++l) { objs[l] = 0; } return i + 1; } } } /* A functor is a function object with one single object argument */ #if PY_VERSION_HEX >= 0x02020000 #define SWIG_Python_CallFunctor(functor, obj) PyObject_CallFunctionObjArgs(functor, obj, NULL); #else #define SWIG_Python_CallFunctor(functor, obj) PyObject_CallFunction(functor, "O", obj); #endif /* Helper for static pointer initialization for both C and C++ code, for example static PyObject *SWIG_STATIC_POINTER(MyVar) = NewSomething(...); */ #ifdef __cplusplus #define SWIG_STATIC_POINTER(var) var #else #define SWIG_STATIC_POINTER(var) var = 0; if (!var) var #endif /* ----------------------------------------------------------------------------- * Pointer declarations * ----------------------------------------------------------------------------- */ /* Flags for new pointer objects */ #define SWIG_POINTER_NOSHADOW (SWIG_POINTER_OWN << 1) #define SWIG_POINTER_NEW (SWIG_POINTER_NOSHADOW | SWIG_POINTER_OWN) #define SWIG_POINTER_IMPLICIT_CONV (SWIG_POINTER_DISOWN << 1) #ifdef __cplusplus extern "C" { #if 0 } /* cc-mode */ #endif #endif /* How to access Py_None */ #if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # ifndef SWIG_PYTHON_NO_BUILD_NONE # ifndef SWIG_PYTHON_BUILD_NONE # define SWIG_PYTHON_BUILD_NONE # endif # endif #endif #ifdef SWIG_PYTHON_BUILD_NONE # ifdef Py_None # undef Py_None # define Py_None SWIG_Py_None() # endif SWIGRUNTIMEINLINE PyObject * _SWIG_Py_None(void) { PyObject *none = Py_BuildValue((char*)""); Py_DECREF(none); return none; } SWIGRUNTIME PyObject * SWIG_Py_None(void) { static PyObject *SWIG_STATIC_POINTER(none) = _SWIG_Py_None(); return none; } #endif /* The python void return value */ SWIGRUNTIMEINLINE PyObject * SWIG_Py_Void(void) { PyObject *none = Py_None; Py_INCREF(none); return none; } /* PySwigClientData */ typedef struct { PyObject *klass; PyObject *newraw; PyObject *newargs; PyObject *destroy; int delargs; int implicitconv; } PySwigClientData; SWIGRUNTIMEINLINE int SWIG_Python_CheckImplicit(swig_type_info *ty) { PySwigClientData *data = (PySwigClientData *)ty->clientdata; return data ? data->implicitconv : 0; } SWIGRUNTIMEINLINE PyObject * SWIG_Python_ExceptionType(swig_type_info *desc) { PySwigClientData *data = desc ? (PySwigClientData *) desc->clientdata : 0; PyObject *klass = data ? data->klass : 0; return (klass ? klass : PyExc_RuntimeError); } SWIGRUNTIME PySwigClientData * PySwigClientData_New(PyObject* obj) { if (!obj) { return 0; } else { PySwigClientData *data = (PySwigClientData *)malloc(sizeof(PySwigClientData)); /* the klass element */ data->klass = obj; Py_INCREF(data->klass); /* the newraw method and newargs arguments used to create a new raw instance */ if (PyClass_Check(obj)) { data->newraw = 0; data->newargs = obj; Py_INCREF(obj); } else { #if (PY_VERSION_HEX < 0x02020000) data->newraw = 0; #else data->newraw = PyObject_GetAttrString(data->klass, (char *)"__new__"); #endif if (data->newraw) { Py_INCREF(data->newraw); data->newargs = PyTuple_New(1); PyTuple_SetItem(data->newargs, 0, obj); } else { data->newargs = obj; } Py_INCREF(data->newargs); } /* the destroy method, aka as the C++ delete method */ data->destroy = PyObject_GetAttrString(data->klass, (char *)"__swig_destroy__"); if (PyErr_Occurred()) { PyErr_Clear(); data->destroy = 0; } if (data->destroy) { int flags; Py_INCREF(data->destroy); flags = PyCFunction_GET_FLAGS(data->destroy); #ifdef METH_O data->delargs = !(flags & (METH_O)); #else data->delargs = 0; #endif } else { data->delargs = 0; } data->implicitconv = 0; return data; } } SWIGRUNTIME void PySwigClientData_Del(PySwigClientData* data) { Py_XDECREF(data->newraw); Py_XDECREF(data->newargs); Py_XDECREF(data->destroy); } /* =============== PySwigObject =====================*/ typedef struct { PyObject_HEAD void *ptr; swig_type_info *ty; int own; PyObject *next; } PySwigObject; SWIGRUNTIME PyObject * PySwigObject_long(PySwigObject *v) { return PyLong_FromVoidPtr(v->ptr); } SWIGRUNTIME PyObject * PySwigObject_format(const char* fmt, PySwigObject *v) { PyObject *res = NULL; PyObject *args = PyTuple_New(1); if (args) { if (PyTuple_SetItem(args, 0, PySwigObject_long(v)) == 0) { PyObject *ofmt = PyString_FromString(fmt); if (ofmt) { res = PyString_Format(ofmt,args); Py_DECREF(ofmt); } Py_DECREF(args); } } return res; } SWIGRUNTIME PyObject * PySwigObject_oct(PySwigObject *v) { return PySwigObject_format("%o",v); } SWIGRUNTIME PyObject * PySwigObject_hex(PySwigObject *v) { return PySwigObject_format("%x",v); } SWIGRUNTIME PyObject * #ifdef METH_NOARGS PySwigObject_repr(PySwigObject *v) #else PySwigObject_repr(PySwigObject *v, PyObject *args) #endif { const char *name = SWIG_TypePrettyName(v->ty); PyObject *hex = PySwigObject_hex(v); PyObject *repr = PyString_FromFormat("", name, PyString_AsString(hex)); Py_DECREF(hex); if (v->next) { #ifdef METH_NOARGS PyObject *nrep = PySwigObject_repr((PySwigObject *)v->next); #else PyObject *nrep = PySwigObject_repr((PySwigObject *)v->next, args); #endif PyString_ConcatAndDel(&repr,nrep); } return repr; } SWIGRUNTIME int PySwigObject_print(PySwigObject *v, FILE *fp, int SWIGUNUSEDPARM(flags)) { #ifdef METH_NOARGS PyObject *repr = PySwigObject_repr(v); #else PyObject *repr = PySwigObject_repr(v, NULL); #endif if (repr) { fputs(PyString_AsString(repr), fp); Py_DECREF(repr); return 0; } else { return 1; } } SWIGRUNTIME PyObject * PySwigObject_str(PySwigObject *v) { char result[SWIG_BUFFER_SIZE]; return SWIG_PackVoidPtr(result, v->ptr, v->ty->name, sizeof(result)) ? PyString_FromString(result) : 0; } SWIGRUNTIME int PySwigObject_compare(PySwigObject *v, PySwigObject *w) { void *i = v->ptr; void *j = w->ptr; return (i < j) ? -1 : ((i > j) ? 1 : 0); } SWIGRUNTIME PyTypeObject* _PySwigObject_type(void); SWIGRUNTIME PyTypeObject* PySwigObject_type(void) { static PyTypeObject *SWIG_STATIC_POINTER(type) = _PySwigObject_type(); return type; } SWIGRUNTIMEINLINE int PySwigObject_Check(PyObject *op) { return ((op)->ob_type == PySwigObject_type()) || (strcmp((op)->ob_type->tp_name,"PySwigObject") == 0); } SWIGRUNTIME PyObject * PySwigObject_New(void *ptr, swig_type_info *ty, int own); SWIGRUNTIME void PySwigObject_dealloc(PyObject *v) { PySwigObject *sobj = (PySwigObject *) v; PyObject *next = sobj->next; if (sobj->own == SWIG_POINTER_OWN) { swig_type_info *ty = sobj->ty; PySwigClientData *data = ty ? (PySwigClientData *) ty->clientdata : 0; PyObject *destroy = data ? data->destroy : 0; if (destroy) { /* destroy is always a VARARGS method */ PyObject *res; if (data->delargs) { /* we need to create a temporal object to carry the destroy operation */ PyObject *tmp = PySwigObject_New(sobj->ptr, ty, 0); res = SWIG_Python_CallFunctor(destroy, tmp); Py_DECREF(tmp); } else { PyCFunction meth = PyCFunction_GET_FUNCTION(destroy); PyObject *mself = PyCFunction_GET_SELF(destroy); res = ((*meth)(mself, v)); } Py_XDECREF(res); } #if !defined(SWIG_PYTHON_SILENT_MEMLEAK) else { const char *name = SWIG_TypePrettyName(ty); printf("swig/python detected a memory leak of type '%s', no destructor found.\n", (name ? name : "unknown")); } #endif } Py_XDECREF(next); PyObject_DEL(v); } SWIGRUNTIME PyObject* PySwigObject_append(PyObject* v, PyObject* next) { PySwigObject *sobj = (PySwigObject *) v; #ifndef METH_O PyObject *tmp = 0; if (!PyArg_ParseTuple(next,(char *)"O:append", &tmp)) return NULL; next = tmp; #endif if (!PySwigObject_Check(next)) { return NULL; } sobj->next = next; Py_INCREF(next); return SWIG_Py_Void(); } SWIGRUNTIME PyObject* #ifdef METH_NOARGS PySwigObject_next(PyObject* v) #else PySwigObject_next(PyObject* v, PyObject *SWIGUNUSEDPARM(args)) #endif { PySwigObject *sobj = (PySwigObject *) v; if (sobj->next) { Py_INCREF(sobj->next); return sobj->next; } else { return SWIG_Py_Void(); } } SWIGINTERN PyObject* #ifdef METH_NOARGS PySwigObject_disown(PyObject *v) #else PySwigObject_disown(PyObject* v, PyObject *SWIGUNUSEDPARM(args)) #endif { PySwigObject *sobj = (PySwigObject *)v; sobj->own = 0; return SWIG_Py_Void(); } SWIGINTERN PyObject* #ifdef METH_NOARGS PySwigObject_acquire(PyObject *v) #else PySwigObject_acquire(PyObject* v, PyObject *SWIGUNUSEDPARM(args)) #endif { PySwigObject *sobj = (PySwigObject *)v; sobj->own = SWIG_POINTER_OWN; return SWIG_Py_Void(); } SWIGINTERN PyObject* PySwigObject_own(PyObject *v, PyObject *args) { PyObject *val = 0; #if (PY_VERSION_HEX < 0x02020000) if (!PyArg_ParseTuple(args,(char *)"|O:own",&val)) #else if (!PyArg_UnpackTuple(args, (char *)"own", 0, 1, &val)) #endif { return NULL; } else { PySwigObject *sobj = (PySwigObject *)v; PyObject *obj = PyBool_FromLong(sobj->own); if (val) { #ifdef METH_NOARGS if (PyObject_IsTrue(val)) { PySwigObject_acquire(v); } else { PySwigObject_disown(v); } #else if (PyObject_IsTrue(val)) { PySwigObject_acquire(v,args); } else { PySwigObject_disown(v,args); } #endif } return obj; } } #ifdef METH_O static PyMethodDef swigobject_methods[] = { {(char *)"disown", (PyCFunction)PySwigObject_disown, METH_NOARGS, (char *)"releases ownership of the pointer"}, {(char *)"acquire", (PyCFunction)PySwigObject_acquire, METH_NOARGS, (char *)"aquires ownership of the pointer"}, {(char *)"own", (PyCFunction)PySwigObject_own, METH_VARARGS, (char *)"returns/sets ownership of the pointer"}, {(char *)"append", (PyCFunction)PySwigObject_append, METH_O, (char *)"appends another 'this' object"}, {(char *)"next", (PyCFunction)PySwigObject_next, METH_NOARGS, (char *)"returns the next 'this' object"}, {(char *)"__repr__",(PyCFunction)PySwigObject_repr, METH_NOARGS, (char *)"returns object representation"}, {0, 0, 0, 0} }; #else static PyMethodDef swigobject_methods[] = { {(char *)"disown", (PyCFunction)PySwigObject_disown, METH_VARARGS, (char *)"releases ownership of the pointer"}, {(char *)"acquire", (PyCFunction)PySwigObject_acquire, METH_VARARGS, (char *)"aquires ownership of the pointer"}, {(char *)"own", (PyCFunction)PySwigObject_own, METH_VARARGS, (char *)"returns/sets ownership of the pointer"}, {(char *)"append", (PyCFunction)PySwigObject_append, METH_VARARGS, (char *)"appends another 'this' object"}, {(char *)"next", (PyCFunction)PySwigObject_next, METH_VARARGS, (char *)"returns the next 'this' object"}, {(char *)"__repr__",(PyCFunction)PySwigObject_repr, METH_VARARGS, (char *)"returns object representation"}, {0, 0, 0, 0} }; #endif #if PY_VERSION_HEX < 0x02020000 SWIGINTERN PyObject * PySwigObject_getattr(PySwigObject *sobj,char *name) { return Py_FindMethod(swigobject_methods, (PyObject *)sobj, name); } #endif SWIGRUNTIME PyTypeObject* _PySwigObject_type(void) { static char swigobject_doc[] = "Swig object carries a C/C++ instance pointer"; static PyNumberMethods PySwigObject_as_number = { (binaryfunc)0, /*nb_add*/ (binaryfunc)0, /*nb_subtract*/ (binaryfunc)0, /*nb_multiply*/ (binaryfunc)0, /*nb_divide*/ (binaryfunc)0, /*nb_remainder*/ (binaryfunc)0, /*nb_divmod*/ (ternaryfunc)0,/*nb_power*/ (unaryfunc)0, /*nb_negative*/ (unaryfunc)0, /*nb_positive*/ (unaryfunc)0, /*nb_absolute*/ (inquiry)0, /*nb_nonzero*/ 0, /*nb_invert*/ 0, /*nb_lshift*/ 0, /*nb_rshift*/ 0, /*nb_and*/ 0, /*nb_xor*/ 0, /*nb_or*/ (coercion)0, /*nb_coerce*/ (unaryfunc)PySwigObject_long, /*nb_int*/ (unaryfunc)PySwigObject_long, /*nb_long*/ (unaryfunc)0, /*nb_float*/ (unaryfunc)PySwigObject_oct, /*nb_oct*/ (unaryfunc)PySwigObject_hex, /*nb_hex*/ #if PY_VERSION_HEX >= 0x02050000 /* 2.5.0 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 /* nb_inplace_add -> nb_index */ #elif PY_VERSION_HEX >= 0x02020000 /* 2.2.0 */ 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 /* nb_inplace_add -> nb_inplace_true_divide */ #elif PY_VERSION_HEX >= 0x02000000 /* 2.0.0 */ 0,0,0,0,0,0,0,0,0,0,0 /* nb_inplace_add -> nb_inplace_or */ #endif }; static PyTypeObject pyswigobject_type; static int type_init = 0; if (!type_init) { const PyTypeObject tmp = { PyObject_HEAD_INIT(NULL) 0, /* ob_size */ (char *)"PySwigObject", /* tp_name */ sizeof(PySwigObject), /* tp_basicsize */ 0, /* tp_itemsize */ (destructor)PySwigObject_dealloc, /* tp_dealloc */ (printfunc)PySwigObject_print, /* tp_print */ #if PY_VERSION_HEX < 0x02020000 (getattrfunc)PySwigObject_getattr, /* tp_getattr */ #else (getattrfunc)0, /* tp_getattr */ #endif (setattrfunc)0, /* tp_setattr */ (cmpfunc)PySwigObject_compare, /* tp_compare */ (reprfunc)PySwigObject_repr, /* tp_repr */ &PySwigObject_as_number, /* tp_as_number */ 0, /* tp_as_sequence */ 0, /* tp_as_mapping */ (hashfunc)0, /* tp_hash */ (ternaryfunc)0, /* tp_call */ (reprfunc)PySwigObject_str, /* tp_str */ PyObject_GenericGetAttr, /* tp_getattro */ 0, /* tp_setattro */ 0, /* tp_as_buffer */ Py_TPFLAGS_DEFAULT, /* tp_flags */ swigobject_doc, /* tp_doc */ 0, /* tp_traverse */ 0, /* tp_clear */ 0, /* tp_richcompare */ 0, /* tp_weaklistoffset */ #if PY_VERSION_HEX >= 0x02020000 0, /* tp_iter */ 0, /* tp_iternext */ swigobject_methods, /* tp_methods */ 0, /* tp_members */ 0, /* tp_getset */ 0, /* tp_base */ 0, /* tp_dict */ 0, /* tp_descr_get */ 0, /* tp_descr_set */ 0, /* tp_dictoffset */ 0, /* tp_init */ 0, /* tp_alloc */ 0, /* tp_new */ 0, /* tp_free */ 0, /* tp_is_gc */ 0, /* tp_bases */ 0, /* tp_mro */ 0, /* tp_cache */ 0, /* tp_subclasses */ 0, /* tp_weaklist */ #endif #if PY_VERSION_HEX >= 0x02030000 0, /* tp_del */ #endif #ifdef COUNT_ALLOCS 0,0,0,0 /* tp_alloc -> tp_next */ #endif }; pyswigobject_type = tmp; pyswigobject_type.ob_type = &PyType_Type; type_init = 1; } return &pyswigobject_type; } SWIGRUNTIME PyObject * PySwigObject_New(void *ptr, swig_type_info *ty, int own) { PySwigObject *sobj = PyObject_NEW(PySwigObject, PySwigObject_type()); if (sobj) { sobj->ptr = ptr; sobj->ty = ty; sobj->own = own; sobj->next = 0; } return (PyObject *)sobj; } /* ----------------------------------------------------------------------------- * Implements a simple Swig Packed type, and use it instead of string * ----------------------------------------------------------------------------- */ typedef struct { PyObject_HEAD void *pack; swig_type_info *ty; size_t size; } PySwigPacked; SWIGRUNTIME int PySwigPacked_print(PySwigPacked *v, FILE *fp, int SWIGUNUSEDPARM(flags)) { char result[SWIG_BUFFER_SIZE]; fputs("pack, v->size, 0, sizeof(result))) { fputs("at ", fp); fputs(result, fp); } fputs(v->ty->name,fp); fputs(">", fp); return 0; } SWIGRUNTIME PyObject * PySwigPacked_repr(PySwigPacked *v) { char result[SWIG_BUFFER_SIZE]; if (SWIG_PackDataName(result, v->pack, v->size, 0, sizeof(result))) { return PyString_FromFormat("", result, v->ty->name); } else { return PyString_FromFormat("", v->ty->name); } } SWIGRUNTIME PyObject * PySwigPacked_str(PySwigPacked *v) { char result[SWIG_BUFFER_SIZE]; if (SWIG_PackDataName(result, v->pack, v->size, 0, sizeof(result))){ return PyString_FromFormat("%s%s", result, v->ty->name); } else { return PyString_FromString(v->ty->name); } } SWIGRUNTIME int PySwigPacked_compare(PySwigPacked *v, PySwigPacked *w) { size_t i = v->size; size_t j = w->size; int s = (i < j) ? -1 : ((i > j) ? 1 : 0); return s ? s : strncmp((char *)v->pack, (char *)w->pack, 2*v->size); } SWIGRUNTIME PyTypeObject* _PySwigPacked_type(void); SWIGRUNTIME PyTypeObject* PySwigPacked_type(void) { static PyTypeObject *SWIG_STATIC_POINTER(type) = _PySwigPacked_type(); return type; } SWIGRUNTIMEINLINE int PySwigPacked_Check(PyObject *op) { return ((op)->ob_type == _PySwigPacked_type()) || (strcmp((op)->ob_type->tp_name,"PySwigPacked") == 0); } SWIGRUNTIME void PySwigPacked_dealloc(PyObject *v) { if (PySwigPacked_Check(v)) { PySwigPacked *sobj = (PySwigPacked *) v; free(sobj->pack); } PyObject_DEL(v); } SWIGRUNTIME PyTypeObject* _PySwigPacked_type(void) { static char swigpacked_doc[] = "Swig object carries a C/C++ instance pointer"; static PyTypeObject pyswigpacked_type; static int type_init = 0; if (!type_init) { const PyTypeObject tmp = { PyObject_HEAD_INIT(NULL) 0, /* ob_size */ (char *)"PySwigPacked", /* tp_name */ sizeof(PySwigPacked), /* tp_basicsize */ 0, /* tp_itemsize */ (destructor)PySwigPacked_dealloc, /* tp_dealloc */ (printfunc)PySwigPacked_print, /* tp_print */ (getattrfunc)0, /* tp_getattr */ (setattrfunc)0, /* tp_setattr */ (cmpfunc)PySwigPacked_compare, /* tp_compare */ (reprfunc)PySwigPacked_repr, /* tp_repr */ 0, /* tp_as_number */ 0, /* tp_as_sequence */ 0, /* tp_as_mapping */ (hashfunc)0, /* tp_hash */ (ternaryfunc)0, /* tp_call */ (reprfunc)PySwigPacked_str, /* tp_str */ PyObject_GenericGetAttr, /* tp_getattro */ 0, /* tp_setattro */ 0, /* tp_as_buffer */ Py_TPFLAGS_DEFAULT, /* tp_flags */ swigpacked_doc, /* tp_doc */ 0, /* tp_traverse */ 0, /* tp_clear */ 0, /* tp_richcompare */ 0, /* tp_weaklistoffset */ #if PY_VERSION_HEX >= 0x02020000 0, /* tp_iter */ 0, /* tp_iternext */ 0, /* tp_methods */ 0, /* tp_members */ 0, /* tp_getset */ 0, /* tp_base */ 0, /* tp_dict */ 0, /* tp_descr_get */ 0, /* tp_descr_set */ 0, /* tp_dictoffset */ 0, /* tp_init */ 0, /* tp_alloc */ 0, /* tp_new */ 0, /* tp_free */ 0, /* tp_is_gc */ 0, /* tp_bases */ 0, /* tp_mro */ 0, /* tp_cache */ 0, /* tp_subclasses */ 0, /* tp_weaklist */ #endif #if PY_VERSION_HEX >= 0x02030000 0, /* tp_del */ #endif #ifdef COUNT_ALLOCS 0,0,0,0 /* tp_alloc -> tp_next */ #endif }; pyswigpacked_type = tmp; pyswigpacked_type.ob_type = &PyType_Type; type_init = 1; } return &pyswigpacked_type; } SWIGRUNTIME PyObject * PySwigPacked_New(void *ptr, size_t size, swig_type_info *ty) { PySwigPacked *sobj = PyObject_NEW(PySwigPacked, PySwigPacked_type()); if (sobj) { void *pack = malloc(size); if (pack) { memcpy(pack, ptr, size); sobj->pack = pack; sobj->ty = ty; sobj->size = size; } else { PyObject_DEL((PyObject *) sobj); sobj = 0; } } return (PyObject *) sobj; } SWIGRUNTIME swig_type_info * PySwigPacked_UnpackData(PyObject *obj, void *ptr, size_t size) { if (PySwigPacked_Check(obj)) { PySwigPacked *sobj = (PySwigPacked *)obj; if (sobj->size != size) return 0; memcpy(ptr, sobj->pack, size); return sobj->ty; } else { return 0; } } /* ----------------------------------------------------------------------------- * pointers/data manipulation * ----------------------------------------------------------------------------- */ SWIGRUNTIMEINLINE PyObject * _SWIG_This(void) { return PyString_FromString("this"); } SWIGRUNTIME PyObject * SWIG_This(void) { static PyObject *SWIG_STATIC_POINTER(swig_this) = _SWIG_This(); return swig_this; } /* #define SWIG_PYTHON_SLOW_GETSET_THIS */ SWIGRUNTIME PySwigObject * SWIG_Python_GetSwigThis(PyObject *pyobj) { if (PySwigObject_Check(pyobj)) { return (PySwigObject *) pyobj; } else { PyObject *obj = 0; #if (!defined(SWIG_PYTHON_SLOW_GETSET_THIS) && (PY_VERSION_HEX >= 0x02030000)) if (PyInstance_Check(pyobj)) { obj = _PyInstance_Lookup(pyobj, SWIG_This()); } else { PyObject **dictptr = _PyObject_GetDictPtr(pyobj); if (dictptr != NULL) { PyObject *dict = *dictptr; obj = dict ? PyDict_GetItem(dict, SWIG_This()) : 0; } else { #ifdef PyWeakref_CheckProxy if (PyWeakref_CheckProxy(pyobj)) { PyObject *wobj = PyWeakref_GET_OBJECT(pyobj); return wobj ? SWIG_Python_GetSwigThis(wobj) : 0; } #endif obj = PyObject_GetAttr(pyobj,SWIG_This()); if (obj) { Py_DECREF(obj); } else { if (PyErr_Occurred()) PyErr_Clear(); return 0; } } } #else obj = PyObject_GetAttr(pyobj,SWIG_This()); if (obj) { Py_DECREF(obj); } else { if (PyErr_Occurred()) PyErr_Clear(); return 0; } #endif if (obj && !PySwigObject_Check(obj)) { /* a PyObject is called 'this', try to get the 'real this' PySwigObject from it */ return SWIG_Python_GetSwigThis(obj); } return (PySwigObject *)obj; } } /* Acquire a pointer value */ SWIGRUNTIME int SWIG_Python_AcquirePtr(PyObject *obj, int own) { if (own == SWIG_POINTER_OWN) { PySwigObject *sobj = SWIG_Python_GetSwigThis(obj); if (sobj) { int oldown = sobj->own; sobj->own = own; return oldown; } } return 0; } /* Convert a pointer value */ SWIGRUNTIME int SWIG_Python_ConvertPtrAndOwn(PyObject *obj, void **ptr, swig_type_info *ty, int flags, int *own) { if (!obj) return SWIG_ERROR; if (obj == Py_None) { if (ptr) *ptr = 0; return SWIG_OK; } else { PySwigObject *sobj = SWIG_Python_GetSwigThis(obj); if (own) *own = 0; while (sobj) { void *vptr = sobj->ptr; if (ty) { swig_type_info *to = sobj->ty; if (to == ty) { /* no type cast needed */ if (ptr) *ptr = vptr; break; } else { swig_cast_info *tc = SWIG_TypeCheck(to->name,ty); if (!tc) { sobj = (PySwigObject *)sobj->next; } else { if (ptr) { int newmemory = 0; *ptr = SWIG_TypeCast(tc,vptr,&newmemory); if (newmemory == SWIG_CAST_NEW_MEMORY) { assert(own); if (own) *own = *own | SWIG_CAST_NEW_MEMORY; } } break; } } } else { if (ptr) *ptr = vptr; break; } } if (sobj) { if (own) *own = *own | sobj->own; if (flags & SWIG_POINTER_DISOWN) { sobj->own = 0; } return SWIG_OK; } else { int res = SWIG_ERROR; if (flags & SWIG_POINTER_IMPLICIT_CONV) { PySwigClientData *data = ty ? (PySwigClientData *) ty->clientdata : 0; if (data && !data->implicitconv) { PyObject *klass = data->klass; if (klass) { PyObject *impconv; data->implicitconv = 1; /* avoid recursion and call 'explicit' constructors*/ impconv = SWIG_Python_CallFunctor(klass, obj); data->implicitconv = 0; if (PyErr_Occurred()) { PyErr_Clear(); impconv = 0; } if (impconv) { PySwigObject *iobj = SWIG_Python_GetSwigThis(impconv); if (iobj) { void *vptr; res = SWIG_Python_ConvertPtrAndOwn((PyObject*)iobj, &vptr, ty, 0, 0); if (SWIG_IsOK(res)) { if (ptr) { *ptr = vptr; /* transfer the ownership to 'ptr' */ iobj->own = 0; res = SWIG_AddCast(res); res = SWIG_AddNewMask(res); } else { res = SWIG_AddCast(res); } } } Py_DECREF(impconv); } } } } return res; } } } /* Convert a function ptr value */ SWIGRUNTIME int SWIG_Python_ConvertFunctionPtr(PyObject *obj, void **ptr, swig_type_info *ty) { if (!PyCFunction_Check(obj)) { return SWIG_ConvertPtr(obj, ptr, ty, 0); } else { void *vptr = 0; /* here we get the method pointer for callbacks */ const char *doc = (((PyCFunctionObject *)obj) -> m_ml -> ml_doc); const char *desc = doc ? strstr(doc, "swig_ptr: ") : 0; if (desc) { desc = ty ? SWIG_UnpackVoidPtr(desc + 10, &vptr, ty->name) : 0; if (!desc) return SWIG_ERROR; } if (ty) { swig_cast_info *tc = SWIG_TypeCheck(desc,ty); if (tc) { int newmemory = 0; *ptr = SWIG_TypeCast(tc,vptr,&newmemory); assert(!newmemory); /* newmemory handling not yet implemented */ } else { return SWIG_ERROR; } } else { *ptr = vptr; } return SWIG_OK; } } /* Convert a packed value value */ SWIGRUNTIME int SWIG_Python_ConvertPacked(PyObject *obj, void *ptr, size_t sz, swig_type_info *ty) { swig_type_info *to = PySwigPacked_UnpackData(obj, ptr, sz); if (!to) return SWIG_ERROR; if (ty) { if (to != ty) { /* check type cast? */ swig_cast_info *tc = SWIG_TypeCheck(to->name,ty); if (!tc) return SWIG_ERROR; } } return SWIG_OK; } /* ----------------------------------------------------------------------------- * Create a new pointer object * ----------------------------------------------------------------------------- */ /* Create a new instance object, whitout calling __init__, and set the 'this' attribute. */ SWIGRUNTIME PyObject* SWIG_Python_NewShadowInstance(PySwigClientData *data, PyObject *swig_this) { #if (PY_VERSION_HEX >= 0x02020000) PyObject *inst = 0; PyObject *newraw = data->newraw; if (newraw) { inst = PyObject_Call(newraw, data->newargs, NULL); if (inst) { #if !defined(SWIG_PYTHON_SLOW_GETSET_THIS) PyObject **dictptr = _PyObject_GetDictPtr(inst); if (dictptr != NULL) { PyObject *dict = *dictptr; if (dict == NULL) { dict = PyDict_New(); *dictptr = dict; PyDict_SetItem(dict, SWIG_This(), swig_this); } } #else PyObject *key = SWIG_This(); PyObject_SetAttr(inst, key, swig_this); #endif } } else { PyObject *dict = PyDict_New(); PyDict_SetItem(dict, SWIG_This(), swig_this); inst = PyInstance_NewRaw(data->newargs, dict); Py_DECREF(dict); } return inst; #else #if (PY_VERSION_HEX >= 0x02010000) PyObject *inst; PyObject *dict = PyDict_New(); PyDict_SetItem(dict, SWIG_This(), swig_this); inst = PyInstance_NewRaw(data->newargs, dict); Py_DECREF(dict); return (PyObject *) inst; #else PyInstanceObject *inst = PyObject_NEW(PyInstanceObject, &PyInstance_Type); if (inst == NULL) { return NULL; } inst->in_class = (PyClassObject *)data->newargs; Py_INCREF(inst->in_class); inst->in_dict = PyDict_New(); if (inst->in_dict == NULL) { Py_DECREF(inst); return NULL; } #ifdef Py_TPFLAGS_HAVE_WEAKREFS inst->in_weakreflist = NULL; #endif #ifdef Py_TPFLAGS_GC PyObject_GC_Init(inst); #endif PyDict_SetItem(inst->in_dict, SWIG_This(), swig_this); return (PyObject *) inst; #endif #endif } SWIGRUNTIME void SWIG_Python_SetSwigThis(PyObject *inst, PyObject *swig_this) { PyObject *dict; #if (PY_VERSION_HEX >= 0x02020000) && !defined(SWIG_PYTHON_SLOW_GETSET_THIS) PyObject **dictptr = _PyObject_GetDictPtr(inst); if (dictptr != NULL) { dict = *dictptr; if (dict == NULL) { dict = PyDict_New(); *dictptr = dict; } PyDict_SetItem(dict, SWIG_This(), swig_this); return; } #endif dict = PyObject_GetAttrString(inst, (char*)"__dict__"); PyDict_SetItem(dict, SWIG_This(), swig_this); Py_DECREF(dict); } SWIGINTERN PyObject * SWIG_Python_InitShadowInstance(PyObject *args) { PyObject *obj[2]; if (!SWIG_Python_UnpackTuple(args,(char*)"swiginit", 2, 2, obj)) { return NULL; } else { PySwigObject *sthis = SWIG_Python_GetSwigThis(obj[0]); if (sthis) { PySwigObject_append((PyObject*) sthis, obj[1]); } else { SWIG_Python_SetSwigThis(obj[0], obj[1]); } return SWIG_Py_Void(); } } /* Create a new pointer object */ SWIGRUNTIME PyObject * SWIG_Python_NewPointerObj(void *ptr, swig_type_info *type, int flags) { if (!ptr) { return SWIG_Py_Void(); } else { int own = (flags & SWIG_POINTER_OWN) ? SWIG_POINTER_OWN : 0; PyObject *robj = PySwigObject_New(ptr, type, own); PySwigClientData *clientdata = type ? (PySwigClientData *)(type->clientdata) : 0; if (clientdata && !(flags & SWIG_POINTER_NOSHADOW)) { PyObject *inst = SWIG_Python_NewShadowInstance(clientdata, robj); if (inst) { Py_DECREF(robj); robj = inst; } } return robj; } } /* Create a new packed object */ SWIGRUNTIMEINLINE PyObject * SWIG_Python_NewPackedObj(void *ptr, size_t sz, swig_type_info *type) { return ptr ? PySwigPacked_New((void *) ptr, sz, type) : SWIG_Py_Void(); } /* -----------------------------------------------------------------------------* * Get type list * -----------------------------------------------------------------------------*/ #ifdef SWIG_LINK_RUNTIME void *SWIG_ReturnGlobalTypeList(void *); #endif SWIGRUNTIME swig_module_info * SWIG_Python_GetModule(void) { static void *type_pointer = (void *)0; /* first check if module already created */ if (!type_pointer) { #ifdef SWIG_LINK_RUNTIME type_pointer = SWIG_ReturnGlobalTypeList((void *)0); #else type_pointer = PyCObject_Import((char*)"swig_runtime_data" SWIG_RUNTIME_VERSION, (char*)"type_pointer" SWIG_TYPE_TABLE_NAME); if (PyErr_Occurred()) { PyErr_Clear(); type_pointer = (void *)0; } #endif } return (swig_module_info *) type_pointer; } #if PY_MAJOR_VERSION < 2 /* PyModule_AddObject function was introduced in Python 2.0. The following function is copied out of Python/modsupport.c in python version 2.3.4 */ SWIGINTERN int PyModule_AddObject(PyObject *m, char *name, PyObject *o) { PyObject *dict; if (!PyModule_Check(m)) { PyErr_SetString(PyExc_TypeError, "PyModule_AddObject() needs module as first arg"); return SWIG_ERROR; } if (!o) { PyErr_SetString(PyExc_TypeError, "PyModule_AddObject() needs non-NULL value"); return SWIG_ERROR; } dict = PyModule_GetDict(m); if (dict == NULL) { /* Internal error -- modules must have a dict! */ PyErr_Format(PyExc_SystemError, "module '%s' has no __dict__", PyModule_GetName(m)); return SWIG_ERROR; } if (PyDict_SetItemString(dict, name, o)) return SWIG_ERROR; Py_DECREF(o); return SWIG_OK; } #endif SWIGRUNTIME void SWIG_Python_DestroyModule(void *vptr) { swig_module_info *swig_module = (swig_module_info *) vptr; swig_type_info **types = swig_module->types; size_t i; for (i =0; i < swig_module->size; ++i) { swig_type_info *ty = types[i]; if (ty->owndata) { PySwigClientData *data = (PySwigClientData *) ty->clientdata; if (data) PySwigClientData_Del(data); } } Py_DECREF(SWIG_This()); } SWIGRUNTIME void SWIG_Python_SetModule(swig_module_info *swig_module) { static PyMethodDef swig_empty_runtime_method_table[] = { {NULL, NULL, 0, NULL} };/* Sentinel */ PyObject *module = Py_InitModule((char*)"swig_runtime_data" SWIG_RUNTIME_VERSION, swig_empty_runtime_method_table); PyObject *pointer = PyCObject_FromVoidPtr((void *) swig_module, SWIG_Python_DestroyModule); if (pointer && module) { PyModule_AddObject(module, (char*)"type_pointer" SWIG_TYPE_TABLE_NAME, pointer); } else { Py_XDECREF(pointer); } } /* The python cached type query */ SWIGRUNTIME PyObject * SWIG_Python_TypeCache(void) { static PyObject *SWIG_STATIC_POINTER(cache) = PyDict_New(); return cache; } SWIGRUNTIME swig_type_info * SWIG_Python_TypeQuery(const char *type) { PyObject *cache = SWIG_Python_TypeCache(); PyObject *key = PyString_FromString(type); PyObject *obj = PyDict_GetItem(cache, key); swig_type_info *descriptor; if (obj) { descriptor = (swig_type_info *) PyCObject_AsVoidPtr(obj); } else { swig_module_info *swig_module = SWIG_Python_GetModule(); descriptor = SWIG_TypeQueryModule(swig_module, swig_module, type); if (descriptor) { obj = PyCObject_FromVoidPtr(descriptor, NULL); PyDict_SetItem(cache, key, obj); Py_DECREF(obj); } } Py_DECREF(key); return descriptor; } /* For backward compatibility only */ #define SWIG_POINTER_EXCEPTION 0 #define SWIG_arg_fail(arg) SWIG_Python_ArgFail(arg) #define SWIG_MustGetPtr(p, type, argnum, flags) SWIG_Python_MustGetPtr(p, type, argnum, flags) SWIGRUNTIME int SWIG_Python_AddErrMesg(const char* mesg, int infront) { if (PyErr_Occurred()) { PyObject *type = 0; PyObject *value = 0; PyObject *traceback = 0; PyErr_Fetch(&type, &value, &traceback); if (value) { PyObject *old_str = PyObject_Str(value); Py_XINCREF(type); PyErr_Clear(); if (infront) { PyErr_Format(type, "%s %s", mesg, PyString_AsString(old_str)); } else { PyErr_Format(type, "%s %s", PyString_AsString(old_str), mesg); } Py_DECREF(old_str); } return 1; } else { return 0; } } SWIGRUNTIME int SWIG_Python_ArgFail(int argnum) { if (PyErr_Occurred()) { /* add information about failing argument */ char mesg[256]; PyOS_snprintf(mesg, sizeof(mesg), "argument number %d:", argnum); return SWIG_Python_AddErrMesg(mesg, 1); } else { return 0; } } SWIGRUNTIMEINLINE const char * PySwigObject_GetDesc(PyObject *self) { PySwigObject *v = (PySwigObject *)self; swig_type_info *ty = v ? v->ty : 0; return ty ? ty->str : (char*)""; } SWIGRUNTIME void SWIG_Python_TypeError(const char *type, PyObject *obj) { if (type) { #if defined(SWIG_COBJECT_TYPES) if (obj && PySwigObject_Check(obj)) { const char *otype = (const char *) PySwigObject_GetDesc(obj); if (otype) { PyErr_Format(PyExc_TypeError, "a '%s' is expected, 'PySwigObject(%s)' is received", type, otype); return; } } else #endif { const char *otype = (obj ? obj->ob_type->tp_name : 0); if (otype) { PyObject *str = PyObject_Str(obj); const char *cstr = str ? PyString_AsString(str) : 0; if (cstr) { PyErr_Format(PyExc_TypeError, "a '%s' is expected, '%s(%s)' is received", type, otype, cstr); } else { PyErr_Format(PyExc_TypeError, "a '%s' is expected, '%s' is received", type, otype); } Py_XDECREF(str); return; } } PyErr_Format(PyExc_TypeError, "a '%s' is expected", type); } else { PyErr_Format(PyExc_TypeError, "unexpected type is received"); } } /* Convert a pointer value, signal an exception on a type mismatch */ SWIGRUNTIME void * SWIG_Python_MustGetPtr(PyObject *obj, swig_type_info *ty, int argnum, int flags) { void *result; if (SWIG_Python_ConvertPtr(obj, &result, ty, flags) == -1) { PyErr_Clear(); if (flags & SWIG_POINTER_EXCEPTION) { SWIG_Python_TypeError(SWIG_TypePrettyName(ty), obj); SWIG_Python_ArgFail(argnum); } } return result; } #ifdef __cplusplus #if 0 { /* cc-mode */ #endif } #endif #define SWIG_exception_fail(code, msg) do { SWIG_Error(code, msg); SWIG_fail; } while(0) #define SWIG_contract_assert(expr, msg) if (!(expr)) { SWIG_Error(SWIG_RuntimeError, msg); SWIG_fail; } else #define SWIG_exception(code, msg) do { SWIG_Error(code, msg); SWIG_fail;; } while(0) /* -------- TYPES TABLE (BEGIN) -------- */ #define SWIGTYPE_p_allocator_type swig_types[0] #define SWIGTYPE_p_char swig_types[1] #define SWIGTYPE_p_difference_type swig_types[2] #define SWIGTYPE_p_p_PyObject swig_types[3] #define SWIGTYPE_p_reader swig_types[4] #define SWIGTYPE_p_size_type swig_types[5] #define SWIGTYPE_p_std__invalid_argument swig_types[6] #define SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t swig_types[7] #define SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type swig_types[8] #define SWIGTYPE_p_swig__PySwigIterator swig_types[9] #define SWIGTYPE_p_value_type swig_types[10] #define SWIGTYPE_p_writer swig_types[11] static swig_type_info *swig_types[13]; static swig_module_info swig_module = {swig_types, 12, 0, 0, 0, 0}; #define SWIG_TypeQuery(name) SWIG_TypeQueryModule(&swig_module, &swig_module, name) #define SWIG_MangledTypeQuery(name) SWIG_MangledTypeQueryModule(&swig_module, &swig_module, name) /* -------- TYPES TABLE (END) -------- */ #if (PY_VERSION_HEX <= 0x02000000) # if !defined(SWIG_PYTHON_CLASSIC) # error "This python version requires swig to be run with the '-classic' option" # endif #endif /*----------------------------------------------- @(target):= _simstring.so ------------------------------------------------*/ #define SWIG_init init_simstring #define SWIG_name "_simstring" #define SWIGVERSION 0x010336 #define SWIG_VERSION SWIGVERSION #define SWIG_as_voidptr(a) const_cast< void * >(static_cast< const void * >(a)) #define SWIG_as_voidptrptr(a) ((void)SWIG_as_voidptr(*a),reinterpret_cast< void** >(a)) #include namespace swig { class PyObject_ptr { protected: PyObject *_obj; public: PyObject_ptr() :_obj(0) { } PyObject_ptr(const PyObject_ptr& item) : _obj(item._obj) { Py_XINCREF(_obj); } PyObject_ptr(PyObject *obj, bool initial_ref = true) :_obj(obj) { if (initial_ref) { Py_XINCREF(_obj); } } PyObject_ptr & operator=(const PyObject_ptr& item) { Py_XINCREF(item._obj); Py_XDECREF(_obj); _obj = item._obj; return *this; } ~PyObject_ptr() { Py_XDECREF(_obj); } operator PyObject *() const { return _obj; } PyObject *operator->() const { return _obj; } }; } namespace swig { struct PyObject_var : PyObject_ptr { PyObject_var(PyObject* obj = 0) : PyObject_ptr(obj, false) { } PyObject_var & operator = (PyObject* obj) { Py_XDECREF(_obj); _obj = obj; return *this; } }; } #include "export.h" #include #include #include #if defined(__GNUC__) # if __GNUC__ == 2 && __GNUC_MINOR <= 96 # define SWIG_STD_NOMODERN_STL # endif #endif #include #include namespace swig { struct stop_iteration { }; struct PySwigIterator { private: PyObject_ptr _seq; protected: PySwigIterator(PyObject *seq) : _seq(seq) { } public: virtual ~PySwigIterator() {} // Access iterator method, required by Python virtual PyObject *value() const = 0; // Forward iterator method, required by Python virtual PySwigIterator *incr(size_t n = 1) = 0; // Backward iterator method, very common in C++, but not required in Python virtual PySwigIterator *decr(size_t /*n*/ = 1) { throw stop_iteration(); } // Random access iterator methods, but not required in Python virtual ptrdiff_t distance(const PySwigIterator &/*x*/) const { throw std::invalid_argument("operation not supported"); } virtual bool equal (const PySwigIterator &/*x*/) const { throw std::invalid_argument("operation not supported"); } // C++ common/needed methods virtual PySwigIterator *copy() const = 0; PyObject *next() { SWIG_PYTHON_THREAD_BEGIN_BLOCK; // disable threads PyObject *obj = value(); incr(); SWIG_PYTHON_THREAD_END_BLOCK; // re-enable threads return obj; } PyObject *previous() { SWIG_PYTHON_THREAD_BEGIN_BLOCK; // disable threads decr(); PyObject *obj = value(); SWIG_PYTHON_THREAD_END_BLOCK; // re-enable threads return obj; } PySwigIterator *advance(ptrdiff_t n) { return (n > 0) ? incr(n) : decr(-n); } bool operator == (const PySwigIterator& x) const { return equal(x); } bool operator != (const PySwigIterator& x) const { return ! operator==(x); } PySwigIterator& operator += (ptrdiff_t n) { return *advance(n); } PySwigIterator& operator -= (ptrdiff_t n) { return *advance(-n); } PySwigIterator* operator + (ptrdiff_t n) const { return copy()->advance(n); } PySwigIterator* operator - (ptrdiff_t n) const { return copy()->advance(-n); } ptrdiff_t operator - (const PySwigIterator& x) const { return x.distance(*this); } static swig_type_info* descriptor() { static int init = 0; static swig_type_info* desc = 0; if (!init) { desc = SWIG_TypeQuery("swig::PySwigIterator *"); init = 1; } return desc; } }; } SWIGINTERN int SWIG_AsVal_double (PyObject *obj, double *val) { int res = SWIG_TypeError; if (PyFloat_Check(obj)) { if (val) *val = PyFloat_AsDouble(obj); return SWIG_OK; } else if (PyInt_Check(obj)) { if (val) *val = PyInt_AsLong(obj); return SWIG_OK; } else if (PyLong_Check(obj)) { double v = PyLong_AsDouble(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_OK; } else { PyErr_Clear(); } } #ifdef SWIG_PYTHON_CAST_MODE { int dispatch = 0; double d = PyFloat_AsDouble(obj); if (!PyErr_Occurred()) { if (val) *val = d; return SWIG_AddCast(SWIG_OK); } else { PyErr_Clear(); } if (!dispatch) { long v = PyLong_AsLong(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_AddCast(SWIG_AddCast(SWIG_OK)); } else { PyErr_Clear(); } } } #endif return res; } #include #include SWIGINTERNINLINE int SWIG_CanCastAsInteger(double *d, double min, double max) { double x = *d; if ((min <= x && x <= max)) { double fx = floor(x); double cx = ceil(x); double rd = ((x - fx) < 0.5) ? fx : cx; /* simple rint */ if ((errno == EDOM) || (errno == ERANGE)) { errno = 0; } else { double summ, reps, diff; if (rd < x) { diff = x - rd; } else if (rd > x) { diff = rd - x; } else { return 1; } summ = rd + x; reps = diff/summ; if (reps < 8*DBL_EPSILON) { *d = rd; return 1; } } } return 0; } SWIGINTERN int SWIG_AsVal_unsigned_SS_long (PyObject *obj, unsigned long *val) { if (PyInt_Check(obj)) { long v = PyInt_AsLong(obj); if (v >= 0) { if (val) *val = v; return SWIG_OK; } else { return SWIG_OverflowError; } } else if (PyLong_Check(obj)) { unsigned long v = PyLong_AsUnsignedLong(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_OK; } else { PyErr_Clear(); } } #ifdef SWIG_PYTHON_CAST_MODE { int dispatch = 0; unsigned long v = PyLong_AsUnsignedLong(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_AddCast(SWIG_OK); } else { PyErr_Clear(); } if (!dispatch) { double d; int res = SWIG_AddCast(SWIG_AsVal_double (obj,&d)); if (SWIG_IsOK(res) && SWIG_CanCastAsInteger(&d, 0, ULONG_MAX)) { if (val) *val = (unsigned long)(d); return res; } } } #endif return SWIG_TypeError; } SWIGINTERNINLINE int SWIG_AsVal_size_t (PyObject * obj, size_t *val) { unsigned long v; int res = SWIG_AsVal_unsigned_SS_long (obj, val ? &v : 0); if (SWIG_IsOK(res) && val) *val = static_cast< size_t >(v); return res; } #define SWIG_From_long PyInt_FromLong SWIGINTERNINLINE PyObject * SWIG_From_ptrdiff_t (ptrdiff_t value) { return SWIG_From_long (static_cast< long >(value)); } SWIGINTERNINLINE PyObject* SWIG_From_bool (bool value) { return PyBool_FromLong(value ? 1 : 0); } SWIGINTERN int SWIG_AsVal_long (PyObject *obj, long* val) { if (PyInt_Check(obj)) { if (val) *val = PyInt_AsLong(obj); return SWIG_OK; } else if (PyLong_Check(obj)) { long v = PyLong_AsLong(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_OK; } else { PyErr_Clear(); } } #ifdef SWIG_PYTHON_CAST_MODE { int dispatch = 0; long v = PyInt_AsLong(obj); if (!PyErr_Occurred()) { if (val) *val = v; return SWIG_AddCast(SWIG_OK); } else { PyErr_Clear(); } if (!dispatch) { double d; int res = SWIG_AddCast(SWIG_AsVal_double (obj,&d)); if (SWIG_IsOK(res) && SWIG_CanCastAsInteger(&d, LONG_MIN, LONG_MAX)) { if (val) *val = (long)(d); return res; } } } #endif return SWIG_TypeError; } SWIGINTERNINLINE int SWIG_AsVal_ptrdiff_t (PyObject * obj, ptrdiff_t *val) { long v; int res = SWIG_AsVal_long (obj, val ? &v : 0); if (SWIG_IsOK(res) && val) *val = static_cast< ptrdiff_t >(v); return res; } #include #include #include namespace swig { template struct noconst_traits { typedef Type noconst_type; }; template struct noconst_traits { typedef Type noconst_type; }; /* type categories */ struct pointer_category { }; struct value_category { }; /* General traits that provides type_name and type_info */ template struct traits { }; template inline const char* type_name() { return traits::noconst_type >::type_name(); } template struct traits_info { static swig_type_info *type_query(std::string name) { name += " *"; return SWIG_TypeQuery(name.c_str()); } static swig_type_info *type_info() { static swig_type_info *info = type_query(type_name()); return info; } }; template inline swig_type_info *type_info() { return traits_info::type_info(); } /* Partial specialization for pointers */ template struct traits { typedef pointer_category category; static std::string make_ptr_name(const char* name) { std::string ptrname = name; ptrname += " *"; return ptrname; } static const char* type_name() { static std::string name = make_ptr_name(swig::type_name()); return name.c_str(); } }; template struct traits_as { }; template struct traits_check { }; } namespace swig { /* Traits that provides the from method */ template struct traits_from_ptr { static PyObject *from(Type *val, int owner = 0) { return SWIG_NewPointerObj(val, type_info(), owner); } }; template struct traits_from { static PyObject *from(const Type& val) { return traits_from_ptr::from(new Type(val), 1); } }; template struct traits_from { static PyObject *from(Type* val) { return traits_from_ptr::from(val, 0); } }; template struct traits_from { static PyObject *from(const Type* val) { return traits_from_ptr::from(const_cast(val), 0); } }; template inline PyObject *from(const Type& val) { return traits_from::from(val); } template inline PyObject *from_ptr(Type* val, int owner) { return traits_from_ptr::from(val, owner); } /* Traits that provides the asval/as/check method */ template struct traits_asptr { static int asptr(PyObject *obj, Type **val) { Type *p; int res = (SWIG_ConvertPtr(obj, (void**)&p, type_info(), 0) == SWIG_OK) ? SWIG_OLDOBJ : 0; if (SWIG_IsOK(res)) { if (val) *val = p; } return res; } }; template inline int asptr(PyObject *obj, Type **vptr) { return traits_asptr::asptr(obj, vptr); } template struct traits_asval { static int asval(PyObject *obj, Type *val) { if (val) { Type *p = 0; int res = traits_asptr::asptr(obj, &p); if (!SWIG_IsOK(res)) return res; if (p) { typedef typename noconst_traits::noconst_type noconst_type; *(const_cast(val)) = *p; if (SWIG_IsNewObj(res)){ delete p; res = SWIG_DelNewMask(res); } return res; } else { return SWIG_ERROR; } } else { return traits_asptr::asptr(obj, (Type **)(0)); } } }; template struct traits_asval { static int asval(PyObject *obj, Type **val) { if (val) { typedef typename noconst_traits::noconst_type noconst_type; noconst_type *p = 0; int res = traits_asptr::asptr(obj, &p); if (SWIG_IsOK(res)) { *(const_cast(val)) = p; } return res; } else { return traits_asptr::asptr(obj, (Type **)(0)); } } }; template inline int asval(PyObject *obj, Type *val) { return traits_asval::asval(obj, val); } template struct traits_as { static Type as(PyObject *obj, bool throw_error) { Type v; int res = asval(obj, &v); if (!obj || !SWIG_IsOK(res)) { if (!PyErr_Occurred()) { ::SWIG_Error(SWIG_TypeError, swig::type_name()); } if (throw_error) throw std::invalid_argument("bad type"); } return v; } }; template struct traits_as { static Type as(PyObject *obj, bool throw_error) { Type *v = 0; int res = (obj ? traits_asptr::asptr(obj, &v) : SWIG_ERROR); if (SWIG_IsOK(res) && v) { if (SWIG_IsNewObj(res)) { Type r(*v); delete v; return r; } else { return *v; } } else { // Uninitialized return value, no Type() constructor required. static Type *v_def = (Type*) malloc(sizeof(Type)); if (!PyErr_Occurred()) { SWIG_Error(SWIG_TypeError, swig::type_name()); } if (throw_error) throw std::invalid_argument("bad type"); memset(v_def,0,sizeof(Type)); return *v_def; } } }; template struct traits_as { static Type* as(PyObject *obj, bool throw_error) { Type *v = 0; int res = (obj ? traits_asptr::asptr(obj, &v) : SWIG_ERROR); if (SWIG_IsOK(res)) { return v; } else { if (!PyErr_Occurred()) { SWIG_Error(SWIG_TypeError, swig::type_name()); } if (throw_error) throw std::invalid_argument("bad type"); return 0; } } }; template inline Type as(PyObject *obj, bool te = false) { return traits_as::category>::as(obj, te); } template struct traits_check { static bool check(PyObject *obj) { int res = obj ? asval(obj, (Type *)(0)) : SWIG_ERROR; return SWIG_IsOK(res) ? true : false; } }; template struct traits_check { static bool check(PyObject *obj) { int res = obj ? asptr(obj, (Type **)(0)) : SWIG_ERROR; return SWIG_IsOK(res) ? true : false; } }; template inline bool check(PyObject *obj) { return traits_check::category>::check(obj); } } #include namespace std { template <> struct less : public binary_function { bool operator()(PyObject * v, PyObject *w) const { bool res; SWIG_PYTHON_THREAD_BEGIN_BLOCK; res = PyObject_Compare(v, w) < 0; SWIG_PYTHON_THREAD_END_BLOCK; return res; } }; template <> struct less : public binary_function { bool operator()(const swig::PyObject_ptr& v, const swig::PyObject_ptr& w) const { return std::less()(v, w); } }; template <> struct less : public binary_function { bool operator()(const swig::PyObject_var& v, const swig::PyObject_var& w) const { return std::less()(v, w); } }; } namespace swig { template <> struct traits { typedef value_category category; static const char* type_name() { return "PyObject *"; } }; template <> struct traits_asval { typedef PyObject * value_type; static int asval(PyObject *obj, value_type *val) { if (val) *val = obj; return SWIG_OK; } }; template <> struct traits_check { static bool check(PyObject *) { return true; } }; template <> struct traits_from { typedef PyObject * value_type; static PyObject *from(const value_type& val) { Py_XINCREF(val); return val; } }; } namespace swig { inline size_t check_index(ptrdiff_t i, size_t size, bool insert = false) { if ( i < 0 ) { if ((size_t) (-i) <= size) return (size_t) (i + size); } else if ( (size_t) i < size ) { return (size_t) i; } else if (insert && ((size_t) i == size)) { return size; } throw std::out_of_range("index out of range"); } inline size_t slice_index(ptrdiff_t i, size_t size) { if ( i < 0 ) { if ((size_t) (-i) <= size) { return (size_t) (i + size); } else { throw std::out_of_range("index out of range"); } } else { return ( (size_t) i < size ) ? ((size_t) i) : size; } } template inline typename Sequence::iterator getpos(Sequence* self, Difference i) { typename Sequence::iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template inline typename Sequence::const_iterator cgetpos(const Sequence* self, Difference i) { typename Sequence::const_iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template inline Sequence* getslice(const Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::const_iterator vb = self->begin(); typename Sequence::const_iterator ve = self->begin(); std::advance(vb,ii); std::advance(ve,jj); return new Sequence(vb, ve); } else { return new Sequence(); } } template inline void setslice(Sequence* self, Difference i, Difference j, const InputSeq& v) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj < ii) jj = ii; size_t ssize = jj - ii; if (ssize <= v.size()) { typename Sequence::iterator sb = self->begin(); typename InputSeq::const_iterator vmid = v.begin(); std::advance(sb,ii); std::advance(vmid, jj - ii); self->insert(std::copy(v.begin(), vmid, sb), vmid, v.end()); } else { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); self->insert(sb, v.begin(), v.end()); } } template inline void delslice(Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); } } } #if defined(__SUNPRO_CC) && defined(_RWSTD_VER) # if !defined(SWIG_NO_STD_NOITERATOR_TRAITS_STL) # define SWIG_STD_NOITERATOR_TRAITS_STL # endif #endif #if !defined(SWIG_STD_NOITERATOR_TRAITS_STL) #include #else namespace std { template struct iterator_traits { typedef ptrdiff_t difference_type; typedef typename Iterator::value_type value_type; }; template struct iterator_traits<__reverse_bi_iterator > { typedef Distance difference_type; typedef T value_type; }; template struct iterator_traits { typedef T value_type; typedef ptrdiff_t difference_type; }; template inline typename iterator_traits<_InputIterator>::difference_type distance(_InputIterator __first, _InputIterator __last) { typename iterator_traits<_InputIterator>::difference_type __n = 0; while (__first != __last) { ++__first; ++__n; } return __n; } } #endif namespace swig { template class PySwigIterator_T : public PySwigIterator { public: typedef OutIterator out_iterator; typedef typename std::iterator_traits::value_type value_type; typedef PySwigIterator_T self_type; PySwigIterator_T(out_iterator curr, PyObject *seq) : PySwigIterator(seq), current(curr) { } const out_iterator& get_current() const { return current; } bool equal (const PySwigIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return (current == iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } ptrdiff_t distance(const PySwigIterator &iter) const { const self_type *iters = dynamic_cast(&iter); if (iters) { return std::distance(current, iters->get_current()); } else { throw std::invalid_argument("bad iterator type"); } } protected: out_iterator current; }; template struct from_oper { typedef const ValueType& argument_type; typedef PyObject *result_type; result_type operator()(argument_type v) const { return swig::from(v); } }; template::value_type, typename FromOper = from_oper > class PySwigIteratorOpen_T : public PySwigIterator_T { public: FromOper from; typedef OutIterator out_iterator; typedef ValueType value_type; typedef PySwigIterator_T base; typedef PySwigIteratorOpen_T self_type; PySwigIteratorOpen_T(out_iterator curr, PyObject *seq) : PySwigIterator_T(curr, seq) { } PyObject *value() const { return from(static_cast(*(base::current))); } PySwigIterator *copy() const { return new self_type(*this); } PySwigIterator *incr(size_t n = 1) { while (n--) { ++base::current; } return this; } PySwigIterator *decr(size_t n = 1) { while (n--) { --base::current; } return this; } }; template::value_type, typename FromOper = from_oper > class PySwigIteratorClosed_T : public PySwigIterator_T { public: FromOper from; typedef OutIterator out_iterator; typedef ValueType value_type; typedef PySwigIterator_T base; typedef PySwigIteratorClosed_T self_type; PySwigIteratorClosed_T(out_iterator curr, out_iterator first, out_iterator last, PyObject *seq) : PySwigIterator_T(curr, seq), begin(first), end(last) { } PyObject *value() const { if (base::current == end) { throw stop_iteration(); } else { return from(static_cast(*(base::current))); } } PySwigIterator *copy() const { return new self_type(*this); } PySwigIterator *incr(size_t n = 1) { while (n--) { if (base::current == end) { throw stop_iteration(); } else { ++base::current; } } return this; } PySwigIterator *decr(size_t n = 1) { while (n--) { if (base::current == begin) { throw stop_iteration(); } else { --base::current; } } return this; } private: out_iterator begin; out_iterator end; }; template inline PySwigIterator* make_output_iterator(const OutIter& current, const OutIter& begin,const OutIter& end, PyObject *seq = 0) { return new PySwigIteratorClosed_T(current, begin, end, seq); } template inline PySwigIterator* make_output_iterator(const OutIter& current, PyObject *seq = 0) { return new PySwigIteratorOpen_T(current, seq); } } namespace swig { template struct PySequence_Ref { PySequence_Ref(PyObject* seq, int index) : _seq(seq), _index(index) { } operator T () const { swig::PyObject_var item = PySequence_GetItem(_seq, _index); try { return swig::as(item, true); } catch (std::exception& e) { char msg[1024]; sprintf(msg, "in sequence element %d ", _index); if (!PyErr_Occurred()) { ::SWIG_Error(SWIG_TypeError, swig::type_name()); } SWIG_Python_AddErrorMsg(msg); SWIG_Python_AddErrorMsg(e.what()); throw; } } PySequence_Ref& operator=(const T& v) { PySequence_SetItem(_seq, _index, swig::from(v)); return *this; } private: PyObject* _seq; int _index; }; template struct PySequence_ArrowProxy { PySequence_ArrowProxy(const T& x): m_value(x) {} const T* operator->() const { return &m_value; } operator const T*() const { return &m_value; } T m_value; }; template struct PySequence_InputIterator { typedef PySequence_InputIterator self; typedef std::random_access_iterator_tag iterator_category; typedef Reference reference; typedef T value_type; typedef T* pointer; typedef int difference_type; PySequence_InputIterator() { } PySequence_InputIterator(PyObject* seq, int index) : _seq(seq), _index(index) { } reference operator*() const { return reference(_seq, _index); } PySequence_ArrowProxy operator->() const { return PySequence_ArrowProxy(operator*()); } bool operator==(const self& ri) const { return (_index == ri._index) && (_seq == ri._seq); } bool operator!=(const self& ri) const { return !(operator==(ri)); } self& operator ++ () { ++_index; return *this; } self& operator -- () { --_index; return *this; } self& operator += (difference_type n) { _index += n; return *this; } self operator +(difference_type n) const { return self(_seq, _index + n); } self& operator -= (difference_type n) { _index -= n; return *this; } self operator -(difference_type n) const { return self(_seq, _index - n); } difference_type operator - (const self& ri) const { return _index - ri._index; } bool operator < (const self& ri) const { return _index < ri._index; } reference operator[](difference_type n) const { return reference(_seq, _index + n); } private: PyObject* _seq; difference_type _index; }; template struct PySequence_Cont { typedef PySequence_Ref reference; typedef const PySequence_Ref const_reference; typedef T value_type; typedef T* pointer; typedef int difference_type; typedef int size_type; typedef const pointer const_pointer; typedef PySequence_InputIterator iterator; typedef PySequence_InputIterator const_iterator; PySequence_Cont(PyObject* seq) : _seq(0) { if (!PySequence_Check(seq)) { throw std::invalid_argument("a sequence is expected"); } _seq = seq; Py_INCREF(_seq); } ~PySequence_Cont() { Py_XDECREF(_seq); } size_type size() const { return static_cast(PySequence_Size(_seq)); } bool empty() const { return size() == 0; } iterator begin() { return iterator(_seq, 0); } const_iterator begin() const { return const_iterator(_seq, 0); } iterator end() { return iterator(_seq, size()); } const_iterator end() const { return const_iterator(_seq, size()); } reference operator[](difference_type n) { return reference(_seq, n); } const_reference operator[](difference_type n) const { return const_reference(_seq, n); } bool check(bool set_err = true) const { int s = size(); for (int i = 0; i < s; ++i) { swig::PyObject_var item = PySequence_GetItem(_seq, i); if (!swig::check(item)) { if (set_err) { char msg[1024]; sprintf(msg, "in sequence element %d", i); SWIG_Error(SWIG_RuntimeError, msg); } return false; } } return true; } private: PyObject* _seq; }; } SWIGINTERN swig_type_info* SWIG_pchar_descriptor(void) { static int init = 0; static swig_type_info* info = 0; if (!init) { info = SWIG_TypeQuery("_p_char"); init = 1; } return info; } SWIGINTERN int SWIG_AsCharPtrAndSize(PyObject *obj, char** cptr, size_t* psize, int *alloc) { if (PyString_Check(obj)) { char *cstr; Py_ssize_t len; PyString_AsStringAndSize(obj, &cstr, &len); if (cptr) { if (alloc) { /* In python the user should not be able to modify the inner string representation. To warranty that, if you define SWIG_PYTHON_SAFE_CSTRINGS, a new/copy of the python string buffer is always returned. The default behavior is just to return the pointer value, so, be careful. */ #if defined(SWIG_PYTHON_SAFE_CSTRINGS) if (*alloc != SWIG_OLDOBJ) #else if (*alloc == SWIG_NEWOBJ) #endif { *cptr = reinterpret_cast< char* >(memcpy((new char[len + 1]), cstr, sizeof(char)*(len + 1))); *alloc = SWIG_NEWOBJ; } else { *cptr = cstr; *alloc = SWIG_OLDOBJ; } } else { *cptr = PyString_AsString(obj); } } if (psize) *psize = len + 1; return SWIG_OK; } else { swig_type_info* pchar_descriptor = SWIG_pchar_descriptor(); if (pchar_descriptor) { void* vptr = 0; if (SWIG_ConvertPtr(obj, &vptr, pchar_descriptor, 0) == SWIG_OK) { if (cptr) *cptr = (char *) vptr; if (psize) *psize = vptr ? (strlen((char *)vptr) + 1) : 0; if (alloc) *alloc = SWIG_OLDOBJ; return SWIG_OK; } } } return SWIG_TypeError; } SWIGINTERN int SWIG_AsPtr_std_string (PyObject * obj, std::string **val) { char* buf = 0 ; size_t size = 0; int alloc = SWIG_OLDOBJ; if (SWIG_IsOK((SWIG_AsCharPtrAndSize(obj, &buf, &size, &alloc)))) { if (buf) { if (val) *val = new std::string(buf, size - 1); if (alloc == SWIG_NEWOBJ) delete[] buf; return SWIG_NEWOBJ; } else { if (val) *val = 0; return SWIG_OLDOBJ; } } else { static int init = 0; static swig_type_info* descriptor = 0; if (!init) { descriptor = SWIG_TypeQuery("std::string" " *"); init = 1; } if (descriptor) { std::string *vptr; int res = SWIG_ConvertPtr(obj, (void**)&vptr, descriptor, 0); if (SWIG_IsOK(res) && val) *val = vptr; return res; } } return SWIG_ERROR; } SWIGINTERN int SWIG_AsVal_std_string (PyObject * obj, std::string *val) { std::string* v = (std::string *) 0; int res = SWIG_AsPtr_std_string (obj, &v); if (!SWIG_IsOK(res)) return res; if (v) { if (val) *val = *v; if (SWIG_IsNewObj(res)) { delete v; res = SWIG_DelNewMask(res); } return res; } return SWIG_ERROR; } SWIGINTERNINLINE PyObject * SWIG_FromCharPtrAndSize(const char* carray, size_t size) { if (carray) { if (size > INT_MAX) { swig_type_info* pchar_descriptor = SWIG_pchar_descriptor(); return pchar_descriptor ? SWIG_NewPointerObj(const_cast< char * >(carray), pchar_descriptor, 0) : SWIG_Py_Void(); } else { return PyString_FromStringAndSize(carray, static_cast< int >(size)); } } else { return SWIG_Py_Void(); } } SWIGINTERNINLINE PyObject * SWIG_From_std_string (const std::string& s) { if (s.size()) { return SWIG_FromCharPtrAndSize(s.data(), s.size()); } else { return SWIG_FromCharPtrAndSize(s.c_str(), 0); } } namespace swig { template <> struct traits { typedef value_category category; static const char* type_name() { return"std::string"; } }; template <> struct traits_asval { typedef std::string value_type; static int asval(PyObject *obj, value_type *val) { return SWIG_AsVal_std_string (obj, val); } }; template <> struct traits_from { typedef std::string value_type; static PyObject *from(const value_type& val) { return SWIG_From_std_string (val); } }; } namespace swig { template inline void assign(const PySeq& pyseq, Seq* seq) { // seq->assign(pyseq.begin(), pyseq.end()); // not used as not always implemented typedef typename PySeq::value_type value_type; typename PySeq::const_iterator it = pyseq.begin(); for (;it != pyseq.end(); ++it) { seq->insert(seq->end(),(value_type)(*it)); } } template struct traits_asptr_stdseq { typedef Seq sequence; typedef T value_type; static int asptr(PyObject *obj, sequence **seq) { if (obj == Py_None || SWIG_Python_GetSwigThis(obj)) { sequence *p; if (::SWIG_ConvertPtr(obj,(void**)&p, swig::type_info(),0) == SWIG_OK) { if (seq) *seq = p; return SWIG_OLDOBJ; } } else if (PySequence_Check(obj)) { try { PySequence_Cont pyseq(obj); if (seq) { sequence *pseq = new sequence(); assign(pyseq, pseq); *seq = pseq; return SWIG_NEWOBJ; } else { return pyseq.check() ? SWIG_OK : SWIG_ERROR; } } catch (std::exception& e) { if (seq) { if (!PyErr_Occurred()) { PyErr_SetString(PyExc_TypeError, e.what()); } } return SWIG_ERROR; } } return SWIG_ERROR; } }; template struct traits_from_stdseq { typedef Seq sequence; typedef T value_type; typedef typename Seq::size_type size_type; typedef typename sequence::const_iterator const_iterator; static PyObject *from(const sequence& seq) { #ifdef SWIG_PYTHON_EXTRA_NATIVE_CONTAINERS swig_type_info *desc = swig::type_info(); if (desc && desc->clientdata) { return SWIG_NewPointerObj(new sequence(seq), desc, SWIG_POINTER_OWN); } #endif size_type size = seq.size(); if (size <= (size_type)INT_MAX) { PyObject *obj = PyTuple_New((int)size); int i = 0; for (const_iterator it = seq.begin(); it != seq.end(); ++it, ++i) { PyTuple_SetItem(obj,i,swig::from(*it)); } return obj; } else { PyErr_SetString(PyExc_OverflowError,"sequence size not valid in python"); return NULL; } } }; } namespace swig { template struct traits_asptr > { static int asptr(PyObject *obj, std::vector **vec) { return traits_asptr_stdseq >::asptr(obj, vec); } }; template struct traits_from > { static PyObject *from(const std::vector& vec) { return traits_from_stdseq >::from(vec); } }; } namespace swig { template <> struct traits > > { typedef pointer_category category; static const char* type_name() { return "std::vector<" "std::string" "," "std::allocator< std::string >" " >"; } }; } SWIGINTERN swig::PySwigIterator *std_vector_Sl_std_string_Sg__iterator(std::vector< std::string > *self,PyObject **PYTHON_SELF){ return swig::make_output_iterator(self->begin(), self->begin(), self->end(), *PYTHON_SELF); } SWIGINTERN bool std_vector_Sl_std_string_Sg____nonzero__(std::vector< std::string > const *self){ return !(self->empty()); } SWIGINTERN std::vector< std::string >::size_type std_vector_Sl_std_string_Sg____len__(std::vector< std::string > const *self){ return self->size(); } SWIGINTERNINLINE PyObject* SWIG_From_unsigned_SS_long (unsigned long value) { return (value > LONG_MAX) ? PyLong_FromUnsignedLong(value) : PyInt_FromLong(static_cast< long >(value)); } SWIGINTERNINLINE PyObject * SWIG_From_size_t (size_t value) { return SWIG_From_unsigned_SS_long (static_cast< unsigned long >(value)); } SWIGINTERN std::vector< std::string >::value_type std_vector_Sl_std_string_Sg__pop(std::vector< std::string > *self){ if (self->size() == 0) throw std::out_of_range("pop from empty container"); std::vector >::value_type x = self->back(); self->pop_back(); return x; } SWIGINTERN std::vector< std::string,std::allocator< std::string > > *std_vector_Sl_std_string_Sg____getslice__(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j){ return swig::getslice(self, i, j); } SWIGINTERN void std_vector_Sl_std_string_Sg____setslice__(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j,std::vector< std::string,std::allocator< std::string > > const &v){ swig::setslice(self, i, j, v); } SWIGINTERN void std_vector_Sl_std_string_Sg____delslice__(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::difference_type j){ swig::delslice(self, i, j); } SWIGINTERN void std_vector_Sl_std_string_Sg____delitem__(std::vector< std::string > *self,std::vector< std::string >::difference_type i){ self->erase(swig::getpos(self,i)); } SWIGINTERN std::vector< std::string >::value_type const &std_vector_Sl_std_string_Sg____getitem__(std::vector< std::string > const *self,std::vector< std::string >::difference_type i){ return *(swig::cgetpos(self, i)); } SWIGINTERN void std_vector_Sl_std_string_Sg____setitem__(std::vector< std::string > *self,std::vector< std::string >::difference_type i,std::vector< std::string >::value_type const &x){ *(swig::getpos(self,i)) = x; } SWIGINTERN void std_vector_Sl_std_string_Sg__append(std::vector< std::string > *self,std::vector< std::string >::value_type const &x){ self->push_back(x); } SWIGINTERNINLINE PyObject * SWIG_From_int (int value) { return SWIG_From_long (value); } #include #if !defined(SWIG_NO_LLONG_MAX) # if !defined(LLONG_MAX) && defined(__GNUC__) && defined (__LONG_LONG_MAX__) # define LLONG_MAX __LONG_LONG_MAX__ # define LLONG_MIN (-LLONG_MAX - 1LL) # define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL) # endif #endif SWIGINTERN int SWIG_AsVal_int (PyObject * obj, int *val) { long v; int res = SWIG_AsVal_long (obj, &v); if (SWIG_IsOK(res)) { if ((v < INT_MIN || v > INT_MAX)) { return SWIG_OverflowError; } else { if (val) *val = static_cast< int >(v); } } return res; } SWIGINTERN int SWIG_AsVal_bool (PyObject *obj, bool *val) { int r = PyObject_IsTrue(obj); if (r == -1) return SWIG_ERROR; if (val) *val = r ? true : false; return SWIG_OK; } #define SWIG_From_double PyFloat_FromDouble #ifdef __cplusplus extern "C" { #endif SWIGINTERN PyObject *_wrap_delete_PySwigIterator(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:delete_PySwigIterator",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "delete_PySwigIterator" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); delete arg1; resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_value(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; PyObject *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_value",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_value" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); try { result = (PyObject *)((swig::PySwigIterator const *)arg1)->value(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = result; return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_incr__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator_incr",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_incr" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator_incr" "', argument " "2"" of type '" "size_t""'"); } arg2 = static_cast< size_t >(val2); try { result = (swig::PySwigIterator *)(arg1)->incr(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_incr__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_incr",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_incr" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); try { result = (swig::PySwigIterator *)(arg1)->incr(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_incr(PyObject *self, PyObject *args) { int argc; PyObject *argv[3]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 2); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_PySwigIterator_incr__SWIG_1(self, args); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_PySwigIterator_incr__SWIG_0(self, args); } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'PySwigIterator_incr'.\n" " Possible C/C++ prototypes are:\n" " incr(swig::PySwigIterator *,size_t)\n" " incr(swig::PySwigIterator *)\n"); return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_decr__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; size_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator_decr",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_decr" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator_decr" "', argument " "2"" of type '" "size_t""'"); } arg2 = static_cast< size_t >(val2); try { result = (swig::PySwigIterator *)(arg1)->decr(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_decr__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_decr",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_decr" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); try { result = (swig::PySwigIterator *)(arg1)->decr(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_decr(PyObject *self, PyObject *args) { int argc; PyObject *argv[3]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 2); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_PySwigIterator_decr__SWIG_1(self, args); } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_PySwigIterator_decr__SWIG_0(self, args); } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'PySwigIterator_decr'.\n" " Possible C/C++ prototypes are:\n" " decr(swig::PySwigIterator *,size_t)\n" " decr(swig::PySwigIterator *)\n"); return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_distance(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; swig::PySwigIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; ptrdiff_t result; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator_distance",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_distance" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_swig__PySwigIterator, 0 | 0); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "PySwigIterator_distance" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "PySwigIterator_distance" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } arg2 = reinterpret_cast< swig::PySwigIterator * >(argp2); try { result = ((swig::PySwigIterator const *)arg1)->distance((swig::PySwigIterator const &)*arg2); } catch(std::invalid_argument &_e) { SWIG_Python_Raise(SWIG_NewPointerObj((new std::invalid_argument(static_cast< const std::invalid_argument& >(_e))),SWIGTYPE_p_std__invalid_argument,SWIG_POINTER_OWN), "std::invalid_argument", SWIGTYPE_p_std__invalid_argument); SWIG_fail; } resultobj = SWIG_From_ptrdiff_t(static_cast< ptrdiff_t >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_equal(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; swig::PySwigIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; bool result; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator_equal",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_equal" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_swig__PySwigIterator, 0 | 0); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "PySwigIterator_equal" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "PySwigIterator_equal" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } arg2 = reinterpret_cast< swig::PySwigIterator * >(argp2); try { result = (bool)((swig::PySwigIterator const *)arg1)->equal((swig::PySwigIterator const &)*arg2); } catch(std::invalid_argument &_e) { SWIG_Python_Raise(SWIG_NewPointerObj((new std::invalid_argument(static_cast< const std::invalid_argument& >(_e))),SWIGTYPE_p_std__invalid_argument,SWIG_POINTER_OWN), "std::invalid_argument", SWIGTYPE_p_std__invalid_argument); SWIG_fail; } resultobj = SWIG_From_bool(static_cast< bool >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_copy(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_copy",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_copy" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); result = (swig::PySwigIterator *)((swig::PySwigIterator const *)arg1)->copy(); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_next(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; PyObject *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_next",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_next" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); try { result = (PyObject *)(arg1)->next(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = result; return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_previous(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; PyObject *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:PySwigIterator_previous",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_previous" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); try { result = (PyObject *)(arg1)->previous(); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = result; return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator_advance(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator_advance",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator_advance" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator_advance" "', argument " "2"" of type '" "ptrdiff_t""'"); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::PySwigIterator *)(arg1)->advance(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___eq__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; swig::PySwigIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; bool result; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___eq__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___eq__" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_swig__PySwigIterator, 0 | 0); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "PySwigIterator___eq__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "PySwigIterator___eq__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } arg2 = reinterpret_cast< swig::PySwigIterator * >(argp2); result = (bool)((swig::PySwigIterator const *)arg1)->operator ==((swig::PySwigIterator const &)*arg2); resultobj = SWIG_From_bool(static_cast< bool >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___ne__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; swig::PySwigIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; bool result; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___ne__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___ne__" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_swig__PySwigIterator, 0 | 0); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "PySwigIterator___ne__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "PySwigIterator___ne__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } arg2 = reinterpret_cast< swig::PySwigIterator * >(argp2); result = (bool)((swig::PySwigIterator const *)arg1)->operator !=((swig::PySwigIterator const &)*arg2); resultobj = SWIG_From_bool(static_cast< bool >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___iadd__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___iadd__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___iadd__" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator___iadd__" "', argument " "2"" of type '" "ptrdiff_t""'"); } arg2 = static_cast< ptrdiff_t >(val2); try { { swig::PySwigIterator &_result_ref = (arg1)->operator +=(arg2); result = (swig::PySwigIterator *) &_result_ref; } } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___isub__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___isub__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___isub__" "', argument " "1"" of type '" "swig::PySwigIterator *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator___isub__" "', argument " "2"" of type '" "ptrdiff_t""'"); } arg2 = static_cast< ptrdiff_t >(val2); try { { swig::PySwigIterator &_result_ref = (arg1)->operator -=(arg2); result = (swig::PySwigIterator *) &_result_ref; } } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___add__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___add__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___add__" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator___add__" "', argument " "2"" of type '" "ptrdiff_t""'"); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::PySwigIterator *)((swig::PySwigIterator const *)arg1)->operator +(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___sub____SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; ptrdiff_t arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; swig::PySwigIterator *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___sub__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___sub__" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "PySwigIterator___sub__" "', argument " "2"" of type '" "ptrdiff_t""'"); } arg2 = static_cast< ptrdiff_t >(val2); try { result = (swig::PySwigIterator *)((swig::PySwigIterator const *)arg1)->operator -(arg2); } catch(swig::stop_iteration &_e) { { (void)_e; SWIG_SetErrorObj(PyExc_StopIteration, SWIG_Py_Void()); SWIG_fail; } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___sub____SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; swig::PySwigIterator *arg1 = (swig::PySwigIterator *) 0 ; swig::PySwigIterator *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; ptrdiff_t result; if (!PyArg_ParseTuple(args,(char *)"OO:PySwigIterator___sub__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_swig__PySwigIterator, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "PySwigIterator___sub__" "', argument " "1"" of type '" "swig::PySwigIterator const *""'"); } arg1 = reinterpret_cast< swig::PySwigIterator * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_swig__PySwigIterator, 0 | 0); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "PySwigIterator___sub__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "PySwigIterator___sub__" "', argument " "2"" of type '" "swig::PySwigIterator const &""'"); } arg2 = reinterpret_cast< swig::PySwigIterator * >(argp2); result = ((swig::PySwigIterator const *)arg1)->operator -((swig::PySwigIterator const &)*arg2); resultobj = SWIG_From_ptrdiff_t(static_cast< ptrdiff_t >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_PySwigIterator___sub__(PyObject *self, PyObject *args) { int argc; PyObject *argv[3]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 2); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { int res = SWIG_ConvertPtr(argv[1], 0, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_PySwigIterator___sub____SWIG_1(self, args); } } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_swig__PySwigIterator, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_ptrdiff_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_PySwigIterator___sub____SWIG_0(self, args); } } } fail: Py_INCREF(Py_NotImplemented); return Py_NotImplemented; } SWIGINTERN PyObject *PySwigIterator_swigregister(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *obj; if (!PyArg_ParseTuple(args,(char*)"O:swigregister", &obj)) return NULL; SWIG_TypeNewClientData(SWIGTYPE_p_swig__PySwigIterator, SWIG_NewClientData(obj)); return SWIG_Py_Void(); } SWIGINTERN PyObject *_wrap_StringVector_iterator(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; PyObject **arg2 = (PyObject **) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; swig::PySwigIterator *result = 0 ; arg2 = &obj0; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_iterator",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_iterator" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (swig::PySwigIterator *)std_vector_Sl_std_string_Sg__iterator(arg1,arg2); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_swig__PySwigIterator, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___nonzero__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; bool result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector___nonzero__",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___nonzero__" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (bool)std_vector_Sl_std_string_Sg____nonzero__((std::vector< std::string > const *)arg1); resultobj = SWIG_From_bool(static_cast< bool >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___len__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::size_type result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector___len__",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___len__" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = std_vector_Sl_std_string_Sg____len__((std::vector< std::string > const *)arg1); resultobj = SWIG_From_size_t(static_cast< size_t >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_pop(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::value_type result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_pop",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_pop" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); try { result = std_vector_Sl_std_string_Sg__pop(arg1); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_From_std_string(static_cast< std::string >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___getslice__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; std::vector< std::string,std::allocator< std::string > > *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector___getslice__",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___getslice__" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___getslice__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "StringVector___getslice__" "', argument " "3"" of type '" "std::vector< std::string >::difference_type""'"); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); try { result = (std::vector< std::string,std::allocator< std::string > > *)std_vector_Sl_std_string_Sg____getslice__(arg1,arg2,arg3); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___setslice__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; std::vector< std::string,std::allocator< std::string > > *arg4 = 0 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; int res4 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; PyObject * obj3 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOOO:StringVector___setslice__",&obj0,&obj1,&obj2,&obj3)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___setslice__" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___setslice__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "StringVector___setslice__" "', argument " "3"" of type '" "std::vector< std::string >::difference_type""'"); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); { std::vector > *ptr = (std::vector > *)0; res4 = swig::asptr(obj3, &ptr); if (!SWIG_IsOK(res4)) { SWIG_exception_fail(SWIG_ArgError(res4), "in method '" "StringVector___setslice__" "', argument " "4"" of type '" "std::vector< std::string,std::allocator< std::string > > const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector___setslice__" "', argument " "4"" of type '" "std::vector< std::string,std::allocator< std::string > > const &""'"); } arg4 = ptr; } try { std_vector_Sl_std_string_Sg____setslice__(arg1,arg2,arg3,(std::vector< std::string,std::allocator< std::string > > const &)*arg4); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } catch(std::invalid_argument &_e) { SWIG_exception_fail(SWIG_ValueError, (&_e)->what()); } resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res4)) delete arg4; return resultobj; fail: if (SWIG_IsNewObj(res4)) delete arg4; return NULL; } SWIGINTERN PyObject *_wrap_StringVector___delslice__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::difference_type arg3 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; ptrdiff_t val3 ; int ecode3 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector___delslice__",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___delslice__" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___delslice__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); ecode3 = SWIG_AsVal_ptrdiff_t(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "StringVector___delslice__" "', argument " "3"" of type '" "std::vector< std::string >::difference_type""'"); } arg3 = static_cast< std::vector< std::string >::difference_type >(val3); try { std_vector_Sl_std_string_Sg____delslice__(arg1,arg2,arg3); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___delitem__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector___delitem__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___delitem__" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___delitem__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); try { std_vector_Sl_std_string_Sg____delitem__(arg1,arg2); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___getitem__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; std::vector< std::string >::value_type *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector___getitem__",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___getitem__" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___getitem__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); try { { std::vector< std::string >::value_type const &_result_ref = std_vector_Sl_std_string_Sg____getitem__((std::vector< std::string > const *)arg1,arg2); result = (std::vector< std::string >::value_type *) &_result_ref; } } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_From_std_string(static_cast< std::string >(*result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector___setitem__(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::difference_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; ptrdiff_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector___setitem__",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector___setitem__" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_ptrdiff_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector___setitem__" "', argument " "2"" of type '" "std::vector< std::string >::difference_type""'"); } arg2 = static_cast< std::vector< std::string >::difference_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(obj2, &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "StringVector___setitem__" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector___setitem__" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } arg3 = ptr; } try { std_vector_Sl_std_string_Sg____setitem__(arg1,arg2,(std::string const &)*arg3); } catch(std::out_of_range &_e) { SWIG_exception_fail(SWIG_IndexError, (&_e)->what()); } resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res3)) delete arg3; return resultobj; fail: if (SWIG_IsNewObj(res3)) delete arg3; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_append(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::value_type *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_append",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_append" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(obj1, &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "StringVector_append" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_append" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } arg2 = ptr; } std_vector_Sl_std_string_Sg__append(arg1,(std::string const &)*arg2); resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res2)) delete arg2; return resultobj; fail: if (SWIG_IsNewObj(res2)) delete arg2; return NULL; } SWIGINTERN PyObject *_wrap_new_StringVector__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *result = 0 ; if (!PyArg_ParseTuple(args,(char *)":new_StringVector")) SWIG_fail; result = (std::vector< std::string > *)new std::vector< std::string >(); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_NEW | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_new_StringVector__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = 0 ; int res1 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; std::vector< std::string > *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:new_StringVector",&obj0)) SWIG_fail; { std::vector > *ptr = (std::vector > *)0; res1 = swig::asptr(obj0, &ptr); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_StringVector" "', argument " "1"" of type '" "std::vector< std::string > const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "new_StringVector" "', argument " "1"" of type '" "std::vector< std::string > const &""'"); } arg1 = ptr; } result = (std::vector< std::string > *)new std::vector< std::string >((std::vector< std::string > const &)*arg1); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_NEW | 0 ); if (SWIG_IsNewObj(res1)) delete arg1; return resultobj; fail: if (SWIG_IsNewObj(res1)) delete arg1; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_empty(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; bool result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_empty",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_empty" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = (bool)((std::vector< std::string > const *)arg1)->empty(); resultobj = SWIG_From_bool(static_cast< bool >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_size(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::size_type result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_size",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_size" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->size(); resultobj = SWIG_From_size_t(static_cast< size_t >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_clear(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_clear",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_clear" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); (arg1)->clear(); resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_swap(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string > *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; void *argp2 = 0 ; int res2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_swap",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_swap" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(obj1, &argp2, SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 ); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "StringVector_swap" "', argument " "2"" of type '" "std::vector< std::string > &""'"); } if (!argp2) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_swap" "', argument " "2"" of type '" "std::vector< std::string > &""'"); } arg2 = reinterpret_cast< std::vector< std::string > * >(argp2); (arg1)->swap(*arg2); resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_get_allocator(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; SwigValueWrapper< std::allocator< std::string > > result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_get_allocator",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_get_allocator" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->get_allocator(); resultobj = SWIG_NewPointerObj((new std::vector< std::string >::allocator_type(static_cast< const std::vector< std::string >::allocator_type& >(result))), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, SWIG_POINTER_OWN | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_begin(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::const_iterator result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_begin",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_begin" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->begin(); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::const_iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_end(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::const_iterator result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_end",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_end" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->end(); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::const_iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_rbegin(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::const_reverse_iterator result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_rbegin",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_rbegin" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->rbegin(); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::const_reverse_iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_rend(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::const_reverse_iterator result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_rend",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_rend" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->rend(); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::const_reverse_iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_new_StringVector__SWIG_2(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string >::size_type arg1 ; size_t val1 ; int ecode1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string > *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:new_StringVector",&obj0)) SWIG_fail; ecode1 = SWIG_AsVal_size_t(obj0, &val1); if (!SWIG_IsOK(ecode1)) { SWIG_exception_fail(SWIG_ArgError(ecode1), "in method '" "new_StringVector" "', argument " "1"" of type '" "std::vector< std::string >::size_type""'"); } arg1 = static_cast< std::vector< std::string >::size_type >(val1); result = (std::vector< std::string > *)new std::vector< std::string >(arg1); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_NEW | 0 ); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_pop_back(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_pop_back",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_pop_back" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); (arg1)->pop_back(); resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_resize__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_resize",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_resize" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector_resize" "', argument " "2"" of type '" "std::vector< std::string >::size_type""'"); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); (arg1)->resize(arg2); resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_erase__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; void *argp1 = 0 ; int res1 = 0 ; swig::PySwigIterator *iter2 = 0 ; int res2 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; std::vector< std::string >::iterator result; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_erase",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_erase" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(obj1, SWIG_as_voidptrptr(&iter2), swig::PySwigIterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } else { swig::PySwigIterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } } result = (arg1)->erase(arg2); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_erase__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::iterator arg3 ; void *argp1 = 0 ; int res1 = 0 ; swig::PySwigIterator *iter2 = 0 ; int res2 ; swig::PySwigIterator *iter3 = 0 ; int res3 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; std::vector< std::string >::iterator result; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector_erase",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_erase" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(obj1, SWIG_as_voidptrptr(&iter2), swig::PySwigIterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } else { swig::PySwigIterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } } res3 = SWIG_ConvertPtr(obj2, SWIG_as_voidptrptr(&iter3), swig::PySwigIterator::descriptor(), 0); if (!SWIG_IsOK(res3) || !iter3) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "3"" of type '" "std::vector< std::string >::iterator""'"); } else { swig::PySwigIterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter3); if (iter_t) { arg3 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_erase" "', argument " "3"" of type '" "std::vector< std::string >::iterator""'"); } } result = (arg1)->erase(arg2,arg3); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_erase(PyObject *self, PyObject *args) { int argc; PyObject *argv[4]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 3); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::PySwigIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::PySwigIterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { return _wrap_StringVector_erase__SWIG_0(self, args); } } } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::PySwigIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::PySwigIterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { swig::PySwigIterator *iter = 0; int res = SWIG_ConvertPtr(argv[2], SWIG_as_voidptrptr(&iter), swig::PySwigIterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { return _wrap_StringVector_erase__SWIG_1(self, args); } } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'StringVector_erase'.\n" " Possible C/C++ prototypes are:\n" " erase(std::vector< std::string > *,std::vector< std::string >::iterator)\n" " erase(std::vector< std::string > *,std::vector< std::string >::iterator,std::vector< std::string >::iterator)\n"); return NULL; } SWIGINTERN PyObject *_wrap_new_StringVector__SWIG_3(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string >::size_type arg1 ; std::vector< std::string >::value_type *arg2 = 0 ; size_t val1 ; int ecode1 = 0 ; int res2 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; std::vector< std::string > *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:new_StringVector",&obj0,&obj1)) SWIG_fail; ecode1 = SWIG_AsVal_size_t(obj0, &val1); if (!SWIG_IsOK(ecode1)) { SWIG_exception_fail(SWIG_ArgError(ecode1), "in method '" "new_StringVector" "', argument " "1"" of type '" "std::vector< std::string >::size_type""'"); } arg1 = static_cast< std::vector< std::string >::size_type >(val1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(obj1, &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "new_StringVector" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "new_StringVector" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } arg2 = ptr; } result = (std::vector< std::string > *)new std::vector< std::string >(arg1,(std::vector< std::string >::value_type const &)*arg2); resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_NEW | 0 ); if (SWIG_IsNewObj(res2)) delete arg2; return resultobj; fail: if (SWIG_IsNewObj(res2)) delete arg2; return NULL; } SWIGINTERN PyObject *_wrap_new_StringVector(PyObject *self, PyObject *args) { int argc; PyObject *argv[3]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 2); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 0) { return _wrap_new_StringVector__SWIG_0(self, args); } if (argc == 1) { int _v; { int res = SWIG_AsVal_size_t(argv[0], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_StringVector__SWIG_2(self, args); } } if (argc == 1) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_StringVector__SWIG_1(self, args); } } if (argc == 2) { int _v; { int res = SWIG_AsVal_size_t(argv[0], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[1], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_StringVector__SWIG_3(self, args); } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'new_StringVector'.\n" " Possible C/C++ prototypes are:\n" " std::vector< std::string >()\n" " std::vector< std::string >(std::vector< std::string > const &)\n" " std::vector< std::string >(std::vector< std::string >::size_type)\n" " std::vector< std::string >(std::vector< std::string >::size_type,std::vector< std::string >::value_type const &)\n"); return NULL; } SWIGINTERN PyObject *_wrap_StringVector_push_back(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::value_type *arg2 = 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_push_back",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_push_back" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::string *ptr = (std::string *)0; res2 = SWIG_AsPtr_std_string(obj1, &ptr); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "StringVector_push_back" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_push_back" "', argument " "2"" of type '" "std::vector< std::string >::value_type const &""'"); } arg2 = ptr; } (arg1)->push_back((std::vector< std::string >::value_type const &)*arg2); resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res2)) delete arg2; return resultobj; fail: if (SWIG_IsNewObj(res2)) delete arg2; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_front(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::value_type *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_front",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_front" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::vector< std::string >::value_type const &_result_ref = ((std::vector< std::string > const *)arg1)->front(); result = (std::vector< std::string >::value_type *) &_result_ref; } resultobj = SWIG_From_std_string(static_cast< std::string >(*result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_back(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::value_type *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_back",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_back" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { std::vector< std::string >::value_type const &_result_ref = ((std::vector< std::string > const *)arg1)->back(); result = (std::vector< std::string >::value_type *) &_result_ref; } resultobj = SWIG_From_std_string(static_cast< std::string >(*result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_assign(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector_assign",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_assign" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector_assign" "', argument " "2"" of type '" "std::vector< std::string >::size_type""'"); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(obj2, &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "StringVector_assign" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_assign" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } arg3 = ptr; } (arg1)->assign(arg2,(std::vector< std::string >::value_type const &)*arg3); resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res3)) delete arg3; return resultobj; fail: if (SWIG_IsNewObj(res3)) delete arg3; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_resize__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; int res3 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector_resize",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_resize" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector_resize" "', argument " "2"" of type '" "std::vector< std::string >::size_type""'"); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(obj2, &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "StringVector_resize" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_resize" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } arg3 = ptr; } (arg1)->resize(arg2,(std::vector< std::string >::value_type const &)*arg3); resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res3)) delete arg3; return resultobj; fail: if (SWIG_IsNewObj(res3)) delete arg3; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_resize(PyObject *self, PyObject *args) { int argc; PyObject *argv[4]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 3); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 2) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_StringVector_resize__SWIG_0(self, args); } } } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_size_t(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[2], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_resize__SWIG_1(self, args); } } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'StringVector_resize'.\n" " Possible C/C++ prototypes are:\n" " resize(std::vector< std::string > *,std::vector< std::string >::size_type)\n" " resize(std::vector< std::string > *,std::vector< std::string >::size_type,std::vector< std::string >::value_type const &)\n"); return NULL; } SWIGINTERN PyObject *_wrap_StringVector_insert__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::value_type *arg3 = 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::PySwigIterator *iter2 = 0 ; int res2 ; int res3 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; std::vector< std::string >::iterator result; if (!PyArg_ParseTuple(args,(char *)"OOO:StringVector_insert",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_insert" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(obj1, SWIG_as_voidptrptr(&iter2), swig::PySwigIterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_insert" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } else { swig::PySwigIterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_insert" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } } { std::string *ptr = (std::string *)0; res3 = SWIG_AsPtr_std_string(obj2, &ptr); if (!SWIG_IsOK(res3)) { SWIG_exception_fail(SWIG_ArgError(res3), "in method '" "StringVector_insert" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_insert" "', argument " "3"" of type '" "std::vector< std::string >::value_type const &""'"); } arg3 = ptr; } result = (arg1)->insert(arg2,(std::vector< std::string >::value_type const &)*arg3); resultobj = SWIG_NewPointerObj(swig::make_output_iterator(static_cast< const std::vector< std::string >::iterator & >(result)), swig::PySwigIterator::descriptor(),SWIG_POINTER_OWN); if (SWIG_IsNewObj(res3)) delete arg3; return resultobj; fail: if (SWIG_IsNewObj(res3)) delete arg3; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_insert__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::iterator arg2 ; std::vector< std::string >::size_type arg3 ; std::vector< std::string >::value_type *arg4 = 0 ; void *argp1 = 0 ; int res1 = 0 ; swig::PySwigIterator *iter2 = 0 ; int res2 ; size_t val3 ; int ecode3 = 0 ; int res4 = SWIG_OLDOBJ ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; PyObject * obj3 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOOO:StringVector_insert",&obj0,&obj1,&obj2,&obj3)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_insert" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); res2 = SWIG_ConvertPtr(obj1, SWIG_as_voidptrptr(&iter2), swig::PySwigIterator::descriptor(), 0); if (!SWIG_IsOK(res2) || !iter2) { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_insert" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } else { swig::PySwigIterator_T::iterator > *iter_t = dynamic_cast::iterator > *>(iter2); if (iter_t) { arg2 = iter_t->get_current(); } else { SWIG_exception_fail(SWIG_ArgError(SWIG_TypeError), "in method '" "StringVector_insert" "', argument " "2"" of type '" "std::vector< std::string >::iterator""'"); } } ecode3 = SWIG_AsVal_size_t(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "StringVector_insert" "', argument " "3"" of type '" "std::vector< std::string >::size_type""'"); } arg3 = static_cast< std::vector< std::string >::size_type >(val3); { std::string *ptr = (std::string *)0; res4 = SWIG_AsPtr_std_string(obj3, &ptr); if (!SWIG_IsOK(res4)) { SWIG_exception_fail(SWIG_ArgError(res4), "in method '" "StringVector_insert" "', argument " "4"" of type '" "std::vector< std::string >::value_type const &""'"); } if (!ptr) { SWIG_exception_fail(SWIG_ValueError, "invalid null reference " "in method '" "StringVector_insert" "', argument " "4"" of type '" "std::vector< std::string >::value_type const &""'"); } arg4 = ptr; } (arg1)->insert(arg2,arg3,(std::vector< std::string >::value_type const &)*arg4); resultobj = SWIG_Py_Void(); if (SWIG_IsNewObj(res4)) delete arg4; return resultobj; fail: if (SWIG_IsNewObj(res4)) delete arg4; return NULL; } SWIGINTERN PyObject *_wrap_StringVector_insert(PyObject *self, PyObject *args) { int argc; PyObject *argv[5]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 4); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 3) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::PySwigIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::PySwigIterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { int res = SWIG_AsPtr_std_string(argv[2], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_insert__SWIG_0(self, args); } } } } if (argc == 4) { int _v; int res = swig::asptr(argv[0], (std::vector >**)(0)); _v = SWIG_CheckState(res); if (_v) { swig::PySwigIterator *iter = 0; int res = SWIG_ConvertPtr(argv[1], SWIG_as_voidptrptr(&iter), swig::PySwigIterator::descriptor(), 0); _v = (SWIG_IsOK(res) && iter && (dynamic_cast::iterator > *>(iter) != 0)); if (_v) { { int res = SWIG_AsVal_size_t(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { int res = SWIG_AsPtr_std_string(argv[3], (std::string**)(0)); _v = SWIG_CheckState(res); if (_v) { return _wrap_StringVector_insert__SWIG_1(self, args); } } } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'StringVector_insert'.\n" " Possible C/C++ prototypes are:\n" " insert(std::vector< std::string > *,std::vector< std::string >::iterator,std::vector< std::string >::value_type const &)\n" " insert(std::vector< std::string > *,std::vector< std::string >::iterator,std::vector< std::string >::size_type,std::vector< std::string >::value_type const &)\n"); return NULL; } SWIGINTERN PyObject *_wrap_StringVector_reserve(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; std::vector< std::string >::size_type arg2 ; void *argp1 = 0 ; int res1 = 0 ; size_t val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:StringVector_reserve",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_reserve" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); ecode2 = SWIG_AsVal_size_t(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "StringVector_reserve" "', argument " "2"" of type '" "std::vector< std::string >::size_type""'"); } arg2 = static_cast< std::vector< std::string >::size_type >(val2); (arg1)->reserve(arg2); resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_StringVector_capacity(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; std::vector< std::string >::size_type result; if (!PyArg_ParseTuple(args,(char *)"O:StringVector_capacity",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "StringVector_capacity" "', argument " "1"" of type '" "std::vector< std::string > const *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); result = ((std::vector< std::string > const *)arg1)->capacity(); resultobj = SWIG_From_size_t(static_cast< size_t >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_delete_StringVector(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; std::vector< std::string > *arg1 = (std::vector< std::string > *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:delete_StringVector",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "delete_StringVector" "', argument " "1"" of type '" "std::vector< std::string > *""'"); } arg1 = reinterpret_cast< std::vector< std::string > * >(argp1); { try { delete arg1; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *StringVector_swigregister(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *obj; if (!PyArg_ParseTuple(args,(char*)"O:swigregister", &obj)) return NULL; SWIG_TypeNewClientData(SWIGTYPE_p_std__vectorT_std__string_std__allocatorT_std__string_t_t, SWIG_NewClientData(obj)); return SWIG_Py_Void(); } SWIGINTERN PyObject *_wrap_new_writer__SWIG_0(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; char *arg1 = (char *) 0 ; int arg2 ; bool arg3 ; bool arg4 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; bool val3 ; int ecode3 = 0 ; bool val4 ; int ecode4 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; PyObject * obj3 = 0 ; writer *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOOO:new_writer",&obj0,&obj1,&obj2,&obj3)) SWIG_fail; res1 = SWIG_AsCharPtrAndSize(obj0, &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_writer" "', argument " "1"" of type '" "char const *""'"); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "new_writer" "', argument " "2"" of type '" "int""'"); } arg2 = static_cast< int >(val2); ecode3 = SWIG_AsVal_bool(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "new_writer" "', argument " "3"" of type '" "bool""'"); } arg3 = static_cast< bool >(val3); ecode4 = SWIG_AsVal_bool(obj3, &val4); if (!SWIG_IsOK(ecode4)) { SWIG_exception_fail(SWIG_ArgError(ecode4), "in method '" "new_writer" "', argument " "4"" of type '" "bool""'"); } arg4 = static_cast< bool >(val4); { try { result = (writer *)new writer((char const *)arg1,arg2,arg3,arg4); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_writer, SWIG_POINTER_NEW | 0 ); if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return resultobj; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return NULL; } SWIGINTERN PyObject *_wrap_new_writer__SWIG_1(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; char *arg1 = (char *) 0 ; int arg2 ; bool arg3 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; bool val3 ; int ecode3 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; PyObject * obj2 = 0 ; writer *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OOO:new_writer",&obj0,&obj1,&obj2)) SWIG_fail; res1 = SWIG_AsCharPtrAndSize(obj0, &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_writer" "', argument " "1"" of type '" "char const *""'"); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "new_writer" "', argument " "2"" of type '" "int""'"); } arg2 = static_cast< int >(val2); ecode3 = SWIG_AsVal_bool(obj2, &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), "in method '" "new_writer" "', argument " "3"" of type '" "bool""'"); } arg3 = static_cast< bool >(val3); { try { result = (writer *)new writer((char const *)arg1,arg2,arg3); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_writer, SWIG_POINTER_NEW | 0 ); if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return resultobj; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return NULL; } SWIGINTERN PyObject *_wrap_new_writer__SWIG_2(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; char *arg1 = (char *) 0 ; int arg2 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; int val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; writer *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:new_writer",&obj0,&obj1)) SWIG_fail; res1 = SWIG_AsCharPtrAndSize(obj0, &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_writer" "', argument " "1"" of type '" "char const *""'"); } arg1 = reinterpret_cast< char * >(buf1); ecode2 = SWIG_AsVal_int(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "new_writer" "', argument " "2"" of type '" "int""'"); } arg2 = static_cast< int >(val2); { try { result = (writer *)new writer((char const *)arg1,arg2); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_writer, SWIG_POINTER_NEW | 0 ); if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return resultobj; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return NULL; } SWIGINTERN PyObject *_wrap_new_writer__SWIG_3(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; char *arg1 = (char *) 0 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; PyObject * obj0 = 0 ; writer *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:new_writer",&obj0)) SWIG_fail; res1 = SWIG_AsCharPtrAndSize(obj0, &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_writer" "', argument " "1"" of type '" "char const *""'"); } arg1 = reinterpret_cast< char * >(buf1); { try { result = (writer *)new writer((char const *)arg1); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_writer, SWIG_POINTER_NEW | 0 ); if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return resultobj; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return NULL; } SWIGINTERN PyObject *_wrap_new_writer(PyObject *self, PyObject *args) { int argc; PyObject *argv[5]; int ii; if (!PyTuple_Check(args)) SWIG_fail; argc = (int)PyObject_Length(args); for (ii = 0; (ii < argc) && (ii < 4); ii++) { argv[ii] = PyTuple_GET_ITEM(args,ii); } if (argc == 1) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_writer__SWIG_3(self, args); } } if (argc == 2) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_2(self, args); } } } if (argc == 3) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_1(self, args); } } } } if (argc == 4) { int _v; int res = SWIG_AsCharPtrAndSize(argv[0], 0, NULL, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_int(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_bool(argv[3], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_writer__SWIG_0(self, args); } } } } } fail: SWIG_SetErrorMsg(PyExc_NotImplementedError,"Wrong number of arguments for overloaded function 'new_writer'.\n" " Possible C/C++ prototypes are:\n" " writer(char const *,int,bool,bool)\n" " writer(char const *,int,bool)\n" " writer(char const *,int)\n" " writer(char const *)\n"); return NULL; } SWIGINTERN PyObject *_wrap_delete_writer(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; writer *arg1 = (writer *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:delete_writer",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_writer, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "delete_writer" "', argument " "1"" of type '" "writer *""'"); } arg1 = reinterpret_cast< writer * >(argp1); { try { delete arg1; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_writer_insert(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; writer *arg1 = (writer *) 0 ; char *arg2 = (char *) 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 ; char *buf2 = 0 ; int alloc2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:writer_insert",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_writer, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "writer_insert" "', argument " "1"" of type '" "writer *""'"); } arg1 = reinterpret_cast< writer * >(argp1); res2 = SWIG_AsCharPtrAndSize(obj1, &buf2, NULL, &alloc2); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "writer_insert" "', argument " "2"" of type '" "char const *""'"); } arg2 = reinterpret_cast< char * >(buf2); { try { (arg1)->insert((char const *)arg2); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return resultobj; fail: if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return NULL; } SWIGINTERN PyObject *_wrap_writer_close(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; writer *arg1 = (writer *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:writer_close",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_writer, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "writer_close" "', argument " "1"" of type '" "writer *""'"); } arg1 = reinterpret_cast< writer * >(argp1); { try { (arg1)->close(); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *writer_swigregister(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *obj; if (!PyArg_ParseTuple(args,(char*)"O:swigregister", &obj)) return NULL; SWIG_TypeNewClientData(SWIGTYPE_p_writer, SWIG_NewClientData(obj)); return SWIG_Py_Void(); } SWIGINTERN PyObject *_wrap_new_reader(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; char *arg1 = (char *) 0 ; int res1 ; char *buf1 = 0 ; int alloc1 = 0 ; PyObject * obj0 = 0 ; reader *result = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:new_reader",&obj0)) SWIG_fail; res1 = SWIG_AsCharPtrAndSize(obj0, &buf1, NULL, &alloc1); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "new_reader" "', argument " "1"" of type '" "char const *""'"); } arg1 = reinterpret_cast< char * >(buf1); { try { result = (reader *)new reader((char const *)arg1); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_reader, SWIG_POINTER_NEW | 0 ); if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return resultobj; fail: if (alloc1 == SWIG_NEWOBJ) delete[] buf1; return NULL; } SWIGINTERN PyObject *_wrap_delete_reader(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:delete_reader",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, SWIG_POINTER_DISOWN | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "delete_reader" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); { try { delete arg1; } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_reader_retrieve(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; char *arg2 = (char *) 0 ; void *argp1 = 0 ; int res1 = 0 ; int res2 ; char *buf2 = 0 ; int alloc2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; std::vector< std::string,std::allocator< std::string > > result; if (!PyArg_ParseTuple(args,(char *)"OO:reader_retrieve",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_retrieve" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); res2 = SWIG_AsCharPtrAndSize(obj1, &buf2, NULL, &alloc2); if (!SWIG_IsOK(res2)) { SWIG_exception_fail(SWIG_ArgError(res2), "in method '" "reader_retrieve" "', argument " "2"" of type '" "char const *""'"); } arg2 = reinterpret_cast< char * >(buf2); { try { result = (arg1)->retrieve((char const *)arg2); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = swig::from(static_cast< std::vector > >(result)); if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return resultobj; fail: if (alloc2 == SWIG_NEWOBJ) delete[] buf2; return NULL; } SWIGINTERN PyObject *_wrap_reader_close(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; if (!PyArg_ParseTuple(args,(char *)"O:reader_close",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_close" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); { try { (arg1)->close(); } catch(const std::invalid_argument& e) { SWIG_exception(SWIG_IOError, e.what()); } catch(const std::runtime_error& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch (const std::exception& e) { SWIG_exception(SWIG_RuntimeError, e.what()); } catch(...) { SWIG_exception(SWIG_RuntimeError,"Unknown exception"); } } resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_reader_measure_set(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; int arg2 ; void *argp1 = 0 ; int res1 = 0 ; int val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:reader_measure_set",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_measure_set" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); ecode2 = SWIG_AsVal_int(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "reader_measure_set" "', argument " "2"" of type '" "int""'"); } arg2 = static_cast< int >(val2); if (arg1) (arg1)->measure = arg2; resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_reader_measure_get(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; int result; if (!PyArg_ParseTuple(args,(char *)"O:reader_measure_get",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_measure_get" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); result = (int) ((arg1)->measure); resultobj = SWIG_From_int(static_cast< int >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_reader_threshold_set(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; double arg2 ; void *argp1 = 0 ; int res1 = 0 ; double val2 ; int ecode2 = 0 ; PyObject * obj0 = 0 ; PyObject * obj1 = 0 ; if (!PyArg_ParseTuple(args,(char *)"OO:reader_threshold_set",&obj0,&obj1)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_threshold_set" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); ecode2 = SWIG_AsVal_double(obj1, &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), "in method '" "reader_threshold_set" "', argument " "2"" of type '" "double""'"); } arg2 = static_cast< double >(val2); if (arg1) (arg1)->threshold = arg2; resultobj = SWIG_Py_Void(); return resultobj; fail: return NULL; } SWIGINTERN PyObject *_wrap_reader_threshold_get(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *resultobj = 0; reader *arg1 = (reader *) 0 ; void *argp1 = 0 ; int res1 = 0 ; PyObject * obj0 = 0 ; double result; if (!PyArg_ParseTuple(args,(char *)"O:reader_threshold_get",&obj0)) SWIG_fail; res1 = SWIG_ConvertPtr(obj0, &argp1,SWIGTYPE_p_reader, 0 | 0 ); if (!SWIG_IsOK(res1)) { SWIG_exception_fail(SWIG_ArgError(res1), "in method '" "reader_threshold_get" "', argument " "1"" of type '" "reader *""'"); } arg1 = reinterpret_cast< reader * >(argp1); result = (double) ((arg1)->threshold); resultobj = SWIG_From_double(static_cast< double >(result)); return resultobj; fail: return NULL; } SWIGINTERN PyObject *reader_swigregister(PyObject *SWIGUNUSEDPARM(self), PyObject *args) { PyObject *obj; if (!PyArg_ParseTuple(args,(char*)"O:swigregister", &obj)) return NULL; SWIG_TypeNewClientData(SWIGTYPE_p_reader, SWIG_NewClientData(obj)); return SWIG_Py_Void(); } static PyMethodDef SwigMethods[] = { { (char *)"delete_PySwigIterator", _wrap_delete_PySwigIterator, METH_VARARGS, NULL}, { (char *)"PySwigIterator_value", _wrap_PySwigIterator_value, METH_VARARGS, NULL}, { (char *)"PySwigIterator_incr", _wrap_PySwigIterator_incr, METH_VARARGS, NULL}, { (char *)"PySwigIterator_decr", _wrap_PySwigIterator_decr, METH_VARARGS, NULL}, { (char *)"PySwigIterator_distance", _wrap_PySwigIterator_distance, METH_VARARGS, NULL}, { (char *)"PySwigIterator_equal", _wrap_PySwigIterator_equal, METH_VARARGS, NULL}, { (char *)"PySwigIterator_copy", _wrap_PySwigIterator_copy, METH_VARARGS, NULL}, { (char *)"PySwigIterator_next", _wrap_PySwigIterator_next, METH_VARARGS, NULL}, { (char *)"PySwigIterator_previous", _wrap_PySwigIterator_previous, METH_VARARGS, NULL}, { (char *)"PySwigIterator_advance", _wrap_PySwigIterator_advance, METH_VARARGS, NULL}, { (char *)"PySwigIterator___eq__", _wrap_PySwigIterator___eq__, METH_VARARGS, NULL}, { (char *)"PySwigIterator___ne__", _wrap_PySwigIterator___ne__, METH_VARARGS, NULL}, { (char *)"PySwigIterator___iadd__", _wrap_PySwigIterator___iadd__, METH_VARARGS, NULL}, { (char *)"PySwigIterator___isub__", _wrap_PySwigIterator___isub__, METH_VARARGS, NULL}, { (char *)"PySwigIterator___add__", _wrap_PySwigIterator___add__, METH_VARARGS, NULL}, { (char *)"PySwigIterator___sub__", _wrap_PySwigIterator___sub__, METH_VARARGS, NULL}, { (char *)"PySwigIterator_swigregister", PySwigIterator_swigregister, METH_VARARGS, NULL}, { (char *)"StringVector_iterator", _wrap_StringVector_iterator, METH_VARARGS, NULL}, { (char *)"StringVector___nonzero__", _wrap_StringVector___nonzero__, METH_VARARGS, NULL}, { (char *)"StringVector___len__", _wrap_StringVector___len__, METH_VARARGS, NULL}, { (char *)"StringVector_pop", _wrap_StringVector_pop, METH_VARARGS, NULL}, { (char *)"StringVector___getslice__", _wrap_StringVector___getslice__, METH_VARARGS, NULL}, { (char *)"StringVector___setslice__", _wrap_StringVector___setslice__, METH_VARARGS, NULL}, { (char *)"StringVector___delslice__", _wrap_StringVector___delslice__, METH_VARARGS, NULL}, { (char *)"StringVector___delitem__", _wrap_StringVector___delitem__, METH_VARARGS, NULL}, { (char *)"StringVector___getitem__", _wrap_StringVector___getitem__, METH_VARARGS, NULL}, { (char *)"StringVector___setitem__", _wrap_StringVector___setitem__, METH_VARARGS, NULL}, { (char *)"StringVector_append", _wrap_StringVector_append, METH_VARARGS, NULL}, { (char *)"StringVector_empty", _wrap_StringVector_empty, METH_VARARGS, NULL}, { (char *)"StringVector_size", _wrap_StringVector_size, METH_VARARGS, NULL}, { (char *)"StringVector_clear", _wrap_StringVector_clear, METH_VARARGS, NULL}, { (char *)"StringVector_swap", _wrap_StringVector_swap, METH_VARARGS, NULL}, { (char *)"StringVector_get_allocator", _wrap_StringVector_get_allocator, METH_VARARGS, NULL}, { (char *)"StringVector_begin", _wrap_StringVector_begin, METH_VARARGS, NULL}, { (char *)"StringVector_end", _wrap_StringVector_end, METH_VARARGS, NULL}, { (char *)"StringVector_rbegin", _wrap_StringVector_rbegin, METH_VARARGS, NULL}, { (char *)"StringVector_rend", _wrap_StringVector_rend, METH_VARARGS, NULL}, { (char *)"StringVector_pop_back", _wrap_StringVector_pop_back, METH_VARARGS, NULL}, { (char *)"StringVector_erase", _wrap_StringVector_erase, METH_VARARGS, NULL}, { (char *)"new_StringVector", _wrap_new_StringVector, METH_VARARGS, NULL}, { (char *)"StringVector_push_back", _wrap_StringVector_push_back, METH_VARARGS, NULL}, { (char *)"StringVector_front", _wrap_StringVector_front, METH_VARARGS, NULL}, { (char *)"StringVector_back", _wrap_StringVector_back, METH_VARARGS, NULL}, { (char *)"StringVector_assign", _wrap_StringVector_assign, METH_VARARGS, NULL}, { (char *)"StringVector_resize", _wrap_StringVector_resize, METH_VARARGS, NULL}, { (char *)"StringVector_insert", _wrap_StringVector_insert, METH_VARARGS, NULL}, { (char *)"StringVector_reserve", _wrap_StringVector_reserve, METH_VARARGS, NULL}, { (char *)"StringVector_capacity", _wrap_StringVector_capacity, METH_VARARGS, NULL}, { (char *)"delete_StringVector", _wrap_delete_StringVector, METH_VARARGS, NULL}, { (char *)"StringVector_swigregister", StringVector_swigregister, METH_VARARGS, NULL}, { (char *)"new_writer", _wrap_new_writer, METH_VARARGS, NULL}, { (char *)"delete_writer", _wrap_delete_writer, METH_VARARGS, NULL}, { (char *)"writer_insert", _wrap_writer_insert, METH_VARARGS, NULL}, { (char *)"writer_close", _wrap_writer_close, METH_VARARGS, NULL}, { (char *)"writer_swigregister", writer_swigregister, METH_VARARGS, NULL}, { (char *)"new_reader", _wrap_new_reader, METH_VARARGS, NULL}, { (char *)"delete_reader", _wrap_delete_reader, METH_VARARGS, NULL}, { (char *)"reader_retrieve", _wrap_reader_retrieve, METH_VARARGS, NULL}, { (char *)"reader_close", _wrap_reader_close, METH_VARARGS, NULL}, { (char *)"reader_measure_set", _wrap_reader_measure_set, METH_VARARGS, NULL}, { (char *)"reader_measure_get", _wrap_reader_measure_get, METH_VARARGS, NULL}, { (char *)"reader_threshold_set", _wrap_reader_threshold_set, METH_VARARGS, NULL}, { (char *)"reader_threshold_get", _wrap_reader_threshold_get, METH_VARARGS, NULL}, { (char *)"reader_swigregister", reader_swigregister, METH_VARARGS, NULL}, { NULL, NULL, 0, NULL } }; /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (BEGIN) -------- */ static swig_type_info _swigt__p_allocator_type = {"_p_allocator_type", "allocator_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_char = {"_p_char", "char *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_difference_type = {"_p_difference_type", "difference_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_p_PyObject = {"_p_p_PyObject", "PyObject **", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_reader = {"_p_reader", "reader *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_size_type = {"_p_size_type", "size_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_std__invalid_argument = {"_p_std__invalid_argument", "std::invalid_argument *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t = {"_p_std__vectorT_std__string_std__allocatorT_std__string_t_t", "std::vector< std::string,std::allocator< std::string > > *|std::vector< std::string > *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type = {"_p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type", "std::vector< std::string >::allocator_type *|std::allocator< std::string > *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_swig__PySwigIterator = {"_p_swig__PySwigIterator", "swig::PySwigIterator *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_value_type = {"_p_value_type", "value_type *", 0, 0, (void*)0, 0}; static swig_type_info _swigt__p_writer = {"_p_writer", "writer *", 0, 0, (void*)0, 0}; static swig_type_info *swig_type_initial[] = { &_swigt__p_allocator_type, &_swigt__p_char, &_swigt__p_difference_type, &_swigt__p_p_PyObject, &_swigt__p_reader, &_swigt__p_size_type, &_swigt__p_std__invalid_argument, &_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, &_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, &_swigt__p_swig__PySwigIterator, &_swigt__p_value_type, &_swigt__p_writer, }; static swig_cast_info _swigc__p_allocator_type[] = { {&_swigt__p_allocator_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_char[] = { {&_swigt__p_char, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_difference_type[] = { {&_swigt__p_difference_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_p_PyObject[] = { {&_swigt__p_p_PyObject, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_reader[] = { {&_swigt__p_reader, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_size_type[] = { {&_swigt__p_size_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_std__invalid_argument[] = { {&_swigt__p_std__invalid_argument, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t[] = { {&_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type[] = { {&_swigt__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_swig__PySwigIterator[] = { {&_swigt__p_swig__PySwigIterator, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_value_type[] = { {&_swigt__p_value_type, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info _swigc__p_writer[] = { {&_swigt__p_writer, 0, 0, 0},{0, 0, 0, 0}}; static swig_cast_info *swig_cast_initial[] = { _swigc__p_allocator_type, _swigc__p_char, _swigc__p_difference_type, _swigc__p_p_PyObject, _swigc__p_reader, _swigc__p_size_type, _swigc__p_std__invalid_argument, _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t, _swigc__p_std__vectorT_std__string_std__allocatorT_std__string_t_t__allocator_type, _swigc__p_swig__PySwigIterator, _swigc__p_value_type, _swigc__p_writer, }; /* -------- TYPE CONVERSION AND EQUIVALENCE RULES (END) -------- */ static swig_const_info swig_const_table[] = { {0, 0, 0, 0.0, 0, 0}}; #ifdef __cplusplus } #endif /* ----------------------------------------------------------------------------- * Type initialization: * This problem is tough by the requirement that no dynamic * memory is used. Also, since swig_type_info structures store pointers to * swig_cast_info structures and swig_cast_info structures store pointers back * to swig_type_info structures, we need some lookup code at initialization. * The idea is that swig generates all the structures that are needed. * The runtime then collects these partially filled structures. * The SWIG_InitializeModule function takes these initial arrays out of * swig_module, and does all the lookup, filling in the swig_module.types * array with the correct data and linking the correct swig_cast_info * structures together. * * The generated swig_type_info structures are assigned staticly to an initial * array. We just loop through that array, and handle each type individually. * First we lookup if this type has been already loaded, and if so, use the * loaded structure instead of the generated one. Then we have to fill in the * cast linked list. The cast data is initially stored in something like a * two-dimensional array. Each row corresponds to a type (there are the same * number of rows as there are in the swig_type_initial array). Each entry in * a column is one of the swig_cast_info structures for that type. * The cast_initial array is actually an array of arrays, because each row has * a variable number of columns. So to actually build the cast linked list, * we find the array of casts associated with the type, and loop through it * adding the casts to the list. The one last trick we need to do is making * sure the type pointer in the swig_cast_info struct is correct. * * First off, we lookup the cast->type name to see if it is already loaded. * There are three cases to handle: * 1) If the cast->type has already been loaded AND the type we are adding * casting info to has not been loaded (it is in this module), THEN we * replace the cast->type pointer with the type pointer that has already * been loaded. * 2) If BOTH types (the one we are adding casting info to, and the * cast->type) are loaded, THEN the cast info has already been loaded by * the previous module so we just ignore it. * 3) Finally, if cast->type has not already been loaded, then we add that * swig_cast_info to the linked list (because the cast->type) pointer will * be correct. * ----------------------------------------------------------------------------- */ #ifdef __cplusplus extern "C" { #if 0 } /* c-mode */ #endif #endif #if 0 #define SWIGRUNTIME_DEBUG #endif SWIGRUNTIME void SWIG_InitializeModule(void *clientdata) { size_t i; swig_module_info *module_head, *iter; int found, init; clientdata = clientdata; /* check to see if the circular list has been setup, if not, set it up */ if (swig_module.next==0) { /* Initialize the swig_module */ swig_module.type_initial = swig_type_initial; swig_module.cast_initial = swig_cast_initial; swig_module.next = &swig_module; init = 1; } else { init = 0; } /* Try and load any already created modules */ module_head = SWIG_GetModule(clientdata); if (!module_head) { /* This is the first module loaded for this interpreter */ /* so set the swig module into the interpreter */ SWIG_SetModule(clientdata, &swig_module); module_head = &swig_module; } else { /* the interpreter has loaded a SWIG module, but has it loaded this one? */ found=0; iter=module_head; do { if (iter==&swig_module) { found=1; break; } iter=iter->next; } while (iter!= module_head); /* if the is found in the list, then all is done and we may leave */ if (found) return; /* otherwise we must add out module into the list */ swig_module.next = module_head->next; module_head->next = &swig_module; } /* When multiple interpeters are used, a module could have already been initialized in a different interpreter, but not yet have a pointer in this interpreter. In this case, we do not want to continue adding types... everything should be set up already */ if (init == 0) return; /* Now work on filling in swig_module.types */ #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: size %d\n", swig_module.size); #endif for (i = 0; i < swig_module.size; ++i) { swig_type_info *type = 0; swig_type_info *ret; swig_cast_info *cast; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name); #endif /* if there is another module already loaded */ if (swig_module.next != &swig_module) { type = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, swig_module.type_initial[i]->name); } if (type) { /* Overwrite clientdata field */ #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: found type %s\n", type->name); #endif if (swig_module.type_initial[i]->clientdata) { type->clientdata = swig_module.type_initial[i]->clientdata; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: found and overwrite type %s \n", type->name); #endif } } else { type = swig_module.type_initial[i]; } /* Insert casting types */ cast = swig_module.cast_initial[i]; while (cast->type) { /* Don't need to add information already in the list */ ret = 0; #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: look cast %s\n", cast->type->name); #endif if (swig_module.next != &swig_module) { ret = SWIG_MangledTypeQueryModule(swig_module.next, &swig_module, cast->type->name); #ifdef SWIGRUNTIME_DEBUG if (ret) printf("SWIG_InitializeModule: found cast %s\n", ret->name); #endif } if (ret) { if (type == swig_module.type_initial[i]) { #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: skip old type %s\n", ret->name); #endif cast->type = ret; ret = 0; } else { /* Check for casting already in the list */ swig_cast_info *ocast = SWIG_TypeCheck(ret->name, type); #ifdef SWIGRUNTIME_DEBUG if (ocast) printf("SWIG_InitializeModule: skip old cast %s\n", ret->name); #endif if (!ocast) ret = 0; } } if (!ret) { #ifdef SWIGRUNTIME_DEBUG printf("SWIG_InitializeModule: adding cast %s\n", cast->type->name); #endif if (type->cast) { type->cast->prev = cast; cast->next = type->cast; } type->cast = cast; } cast++; } /* Set entry in modules->types array equal to the type */ swig_module.types[i] = type; } swig_module.types[i] = 0; #ifdef SWIGRUNTIME_DEBUG printf("**** SWIG_InitializeModule: Cast List ******\n"); for (i = 0; i < swig_module.size; ++i) { int j = 0; swig_cast_info *cast = swig_module.cast_initial[i]; printf("SWIG_InitializeModule: type %d %s\n", i, swig_module.type_initial[i]->name); while (cast->type) { printf("SWIG_InitializeModule: cast type %s\n", cast->type->name); cast++; ++j; } printf("---- Total casts: %d\n",j); } printf("**** SWIG_InitializeModule: Cast List ******\n"); #endif } /* This function will propagate the clientdata field of type to * any new swig_type_info structures that have been added into the list * of equivalent types. It is like calling * SWIG_TypeClientData(type, clientdata) a second time. */ SWIGRUNTIME void SWIG_PropagateClientData(void) { size_t i; swig_cast_info *equiv; static int init_run = 0; if (init_run) return; init_run = 1; for (i = 0; i < swig_module.size; i++) { if (swig_module.types[i]->clientdata) { equiv = swig_module.types[i]->cast; while (equiv) { if (!equiv->converter) { if (equiv->type && !equiv->type->clientdata) SWIG_TypeClientData(equiv->type, swig_module.types[i]->clientdata); } equiv = equiv->next; } } } } #ifdef __cplusplus #if 0 { /* c-mode */ #endif } #endif #ifdef __cplusplus extern "C" { #endif /* Python-specific SWIG API */ #define SWIG_newvarlink() SWIG_Python_newvarlink() #define SWIG_addvarlink(p, name, get_attr, set_attr) SWIG_Python_addvarlink(p, name, get_attr, set_attr) #define SWIG_InstallConstants(d, constants) SWIG_Python_InstallConstants(d, constants) /* ----------------------------------------------------------------------------- * global variable support code. * ----------------------------------------------------------------------------- */ typedef struct swig_globalvar { char *name; /* Name of global variable */ PyObject *(*get_attr)(void); /* Return the current value */ int (*set_attr)(PyObject *); /* Set the value */ struct swig_globalvar *next; } swig_globalvar; typedef struct swig_varlinkobject { PyObject_HEAD swig_globalvar *vars; } swig_varlinkobject; SWIGINTERN PyObject * swig_varlink_repr(swig_varlinkobject *SWIGUNUSEDPARM(v)) { return PyString_FromString(""); } SWIGINTERN PyObject * swig_varlink_str(swig_varlinkobject *v) { PyObject *str = PyString_FromString("("); swig_globalvar *var; for (var = v->vars; var; var=var->next) { PyString_ConcatAndDel(&str,PyString_FromString(var->name)); if (var->next) PyString_ConcatAndDel(&str,PyString_FromString(", ")); } PyString_ConcatAndDel(&str,PyString_FromString(")")); return str; } SWIGINTERN int swig_varlink_print(swig_varlinkobject *v, FILE *fp, int SWIGUNUSEDPARM(flags)) { PyObject *str = swig_varlink_str(v); fprintf(fp,"Swig global variables "); fprintf(fp,"%s\n", PyString_AsString(str)); Py_DECREF(str); return 0; } SWIGINTERN void swig_varlink_dealloc(swig_varlinkobject *v) { swig_globalvar *var = v->vars; while (var) { swig_globalvar *n = var->next; free(var->name); free(var); var = n; } } SWIGINTERN PyObject * swig_varlink_getattr(swig_varlinkobject *v, char *n) { PyObject *res = NULL; swig_globalvar *var = v->vars; while (var) { if (strcmp(var->name,n) == 0) { res = (*var->get_attr)(); break; } var = var->next; } if (res == NULL && !PyErr_Occurred()) { PyErr_SetString(PyExc_NameError,"Unknown C global variable"); } return res; } SWIGINTERN int swig_varlink_setattr(swig_varlinkobject *v, char *n, PyObject *p) { int res = 1; swig_globalvar *var = v->vars; while (var) { if (strcmp(var->name,n) == 0) { res = (*var->set_attr)(p); break; } var = var->next; } if (res == 1 && !PyErr_Occurred()) { PyErr_SetString(PyExc_NameError,"Unknown C global variable"); } return res; } SWIGINTERN PyTypeObject* swig_varlink_type(void) { static char varlink__doc__[] = "Swig var link object"; static PyTypeObject varlink_type; static int type_init = 0; if (!type_init) { const PyTypeObject tmp = { PyObject_HEAD_INIT(NULL) 0, /* Number of items in variable part (ob_size) */ (char *)"swigvarlink", /* Type name (tp_name) */ sizeof(swig_varlinkobject), /* Basic size (tp_basicsize) */ 0, /* Itemsize (tp_itemsize) */ (destructor) swig_varlink_dealloc, /* Deallocator (tp_dealloc) */ (printfunc) swig_varlink_print, /* Print (tp_print) */ (getattrfunc) swig_varlink_getattr, /* get attr (tp_getattr) */ (setattrfunc) swig_varlink_setattr, /* Set attr (tp_setattr) */ 0, /* tp_compare */ (reprfunc) swig_varlink_repr, /* tp_repr */ 0, /* tp_as_number */ 0, /* tp_as_sequence */ 0, /* tp_as_mapping */ 0, /* tp_hash */ 0, /* tp_call */ (reprfunc)swig_varlink_str, /* tp_str */ 0, /* tp_getattro */ 0, /* tp_setattro */ 0, /* tp_as_buffer */ 0, /* tp_flags */ varlink__doc__, /* tp_doc */ 0, /* tp_traverse */ 0, /* tp_clear */ 0, /* tp_richcompare */ 0, /* tp_weaklistoffset */ #if PY_VERSION_HEX >= 0x02020000 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* tp_iter -> tp_weaklist */ #endif #if PY_VERSION_HEX >= 0x02030000 0, /* tp_del */ #endif #ifdef COUNT_ALLOCS 0,0,0,0 /* tp_alloc -> tp_next */ #endif }; varlink_type = tmp; varlink_type.ob_type = &PyType_Type; type_init = 1; } return &varlink_type; } /* Create a variable linking object for use later */ SWIGINTERN PyObject * SWIG_Python_newvarlink(void) { swig_varlinkobject *result = PyObject_NEW(swig_varlinkobject, swig_varlink_type()); if (result) { result->vars = 0; } return ((PyObject*) result); } SWIGINTERN void SWIG_Python_addvarlink(PyObject *p, char *name, PyObject *(*get_attr)(void), int (*set_attr)(PyObject *p)) { swig_varlinkobject *v = (swig_varlinkobject *) p; swig_globalvar *gv = (swig_globalvar *) malloc(sizeof(swig_globalvar)); if (gv) { size_t size = strlen(name)+1; gv->name = (char *)malloc(size); if (gv->name) { strncpy(gv->name,name,size); gv->get_attr = get_attr; gv->set_attr = set_attr; gv->next = v->vars; } } v->vars = gv; } SWIGINTERN PyObject * SWIG_globals(void) { static PyObject *_SWIG_globals = 0; if (!_SWIG_globals) _SWIG_globals = SWIG_newvarlink(); return _SWIG_globals; } /* ----------------------------------------------------------------------------- * constants/methods manipulation * ----------------------------------------------------------------------------- */ /* Install Constants */ SWIGINTERN void SWIG_Python_InstallConstants(PyObject *d, swig_const_info constants[]) { PyObject *obj = 0; size_t i; for (i = 0; constants[i].type; ++i) { switch(constants[i].type) { case SWIG_PY_POINTER: obj = SWIG_NewPointerObj(constants[i].pvalue, *(constants[i]).ptype,0); break; case SWIG_PY_BINARY: obj = SWIG_NewPackedObj(constants[i].pvalue, constants[i].lvalue, *(constants[i].ptype)); break; default: obj = 0; break; } if (obj) { PyDict_SetItemString(d, constants[i].name, obj); Py_DECREF(obj); } } } /* -----------------------------------------------------------------------------*/ /* Fix SwigMethods to carry the callback ptrs when needed */ /* -----------------------------------------------------------------------------*/ SWIGINTERN void SWIG_Python_FixMethods(PyMethodDef *methods, swig_const_info *const_table, swig_type_info **types, swig_type_info **types_initial) { size_t i; for (i = 0; methods[i].ml_name; ++i) { const char *c = methods[i].ml_doc; if (c && (c = strstr(c, "swig_ptr: "))) { int j; swig_const_info *ci = 0; const char *name = c + 10; for (j = 0; const_table[j].type; ++j) { if (strncmp(const_table[j].name, name, strlen(const_table[j].name)) == 0) { ci = &(const_table[j]); break; } } if (ci) { size_t shift = (ci->ptype) - types; swig_type_info *ty = types_initial[shift]; size_t ldoc = (c - methods[i].ml_doc); size_t lptr = strlen(ty->name)+2*sizeof(void*)+2; char *ndoc = (char*)malloc(ldoc + lptr + 10); if (ndoc) { char *buff = ndoc; void *ptr = (ci->type == SWIG_PY_POINTER) ? ci->pvalue : 0; if (ptr) { strncpy(buff, methods[i].ml_doc, ldoc); buff += ldoc; strncpy(buff, "swig_ptr: ", 10); buff += 10; SWIG_PackVoidPtr(buff, ptr, ty->name, lptr); methods[i].ml_doc = ndoc; } } } } } } #ifdef __cplusplus } #endif /* -----------------------------------------------------------------------------* * Partial Init method * -----------------------------------------------------------------------------*/ #ifdef __cplusplus extern "C" #endif SWIGEXPORT void SWIG_init(void) { PyObject *m, *d; /* Fix SwigMethods to carry the callback ptrs when needed */ SWIG_Python_FixMethods(SwigMethods, swig_const_table, swig_types, swig_type_initial); m = Py_InitModule((char *) SWIG_name, SwigMethods); d = PyModule_GetDict(m); SWIG_InitializeModule(0); SWIG_InstallConstants(d,swig_const_table); SWIG_Python_SetConstant(d, "exact",SWIG_From_int(static_cast< int >(exact))); SWIG_Python_SetConstant(d, "dice",SWIG_From_int(static_cast< int >(dice))); SWIG_Python_SetConstant(d, "cosine",SWIG_From_int(static_cast< int >(cosine))); SWIG_Python_SetConstant(d, "jaccard",SWIG_From_int(static_cast< int >(jaccard))); SWIG_Python_SetConstant(d, "overlap",SWIG_From_int(static_cast< int >(overlap))); } simstring-1.0/swig/python/sample.py0000644000076400007640000000122711344662045014456 00000000000000#!/usr/bin/env python import simstring # Create a SimString database with two person names. db = simstring.writer('sample.db') db.insert('Barack Hussein Obama II') db.insert('James Gordon Brown') db.close() # Open the database for reading. db = simstring.reader('sample.db') # Use cosine similarity and threshold 0.6. db.measure = simstring.cosine db.threshold = 0.6 print(db.retrieve('Barack Obama')) # OK. print(db.retrieve('Gordon Brown')) # OK. print(db.retrieve('Obama')) # Too dissimilar! # Use overlap coefficient and threshold 1.0. db.measure = simstring.overlap db.threshold = 1. print(db.retrieve('Obama')) # OK. simstring-1.0/swig/python/sample_unicode.py0000644000076400007640000000151311344662045016162 00000000000000#!/usr/bin/env python # -*- coding:utf-8 -*- """ A Unicode sample. We assume that the source code is written in UTF-8 encoding (see the encoding declaration in line 2). We can use 8-bit strings as they are with SimString. """ import simstring # Open a SimString database for writing with Unicode mode. db = simstring.writer('sample_unicode.db', 3, False, True) # Write a string, and close the database. db.insert('スパゲティ') db.close() # Open the SimString database for reading. db = simstring.reader('sample_unicode.db') # Set a similarity measure and threshold. db.measure = simstring.cosine db.threshold = 0.6 # Use an 8-bit string encoded in UTF-8. print ' '.join(db.retrieve('スパゲティー')) # Convert a Unicode object into an UTF-8 query string. print ' '.join(db.retrieve(u'スパゲティー'.encode('utf-8'))) simstring-1.0/swig/export.cpp0000644000076400007640000001635611344662045013340 00000000000000#include #include #include #include #include #include #include #include #include "export.h" #define UTF16 "UTF-16LE" #define UTF32 "UTF-32LE" #ifdef USE_LIBICONV_GNU #define iconv_open libiconv_open #define iconv_convert libiconv_convert #define iconv_close libiconv_close #endif/*USE_LIBICONV_GNU*/ #ifndef ICONV_CONST #define ICONV_CONST #endif/*ICONV_CONST*/ template bool iconv_convert(iconv_t cd, const source_type& src, destination_type& dst) { typedef typename source_type::value_type source_char_type; typedef typename destination_type::value_type destination_char_type; const char *inbuf = reinterpret_cast(src.c_str()); size_t inbytesleft = sizeof(source_char_type) * src.length(); while (inbytesleft > 0) { char buffer[1024]; char *p = buffer; size_t outbytesleft = 1024; int ret = iconv(cd, (ICONV_CONST char **)&inbuf, &inbytesleft, &p, &outbytesleft); if (ret == -1 && errno != E2BIG) { return false; } dst.append( reinterpret_cast(buffer), (1024 - outbytesleft) / sizeof(destination_char_type) ); } return true; } typedef simstring::ngram_generator ngram_generator_type; typedef simstring::writer_base writer_type; typedef simstring::writer_base uwriter_type; typedef simstring::reader reader_type; writer::writer(const char *filename, int n, bool be, bool unicode) : m_dbw(NULL), m_gen(NULL), m_unicode(unicode) { ngram_generator_type *gen = new ngram_generator_type(n, be); if (unicode) { uwriter_type *dbw = new uwriter_type(*gen, filename); if (dbw->fail()) { std::string message = dbw->error(); delete dbw; delete gen; throw std::invalid_argument(message); } m_dbw = dbw; m_gen = gen; } else { writer_type *dbw = new writer_type(*gen, filename); if (dbw->fail()) { std::string message = dbw->error(); delete dbw; delete gen; throw std::invalid_argument(message); } m_dbw = dbw; m_gen = gen; } } writer::~writer() { if (m_unicode) { uwriter_type* dbw = reinterpret_cast(m_dbw); ngram_generator_type* gen = reinterpret_cast(m_gen); dbw->close(); if (dbw->fail()) { std::string message = dbw->error(); delete dbw; delete gen; throw std::runtime_error(message); } delete dbw; delete gen; } else { writer_type* dbw = reinterpret_cast(m_dbw); ngram_generator_type* gen = reinterpret_cast(m_gen); dbw->close(); if (dbw->fail()) { std::string message = dbw->error(); delete dbw; delete gen; throw std::runtime_error(message); } delete dbw; delete gen; } } void writer::insert(const char *string) { if (m_unicode) { uwriter_type* dbw = reinterpret_cast(m_dbw); std::wstring str; iconv_t cd = iconv_open("WCHAR_T", "UTF-8"); iconv_convert(cd, std::string(string), str); iconv_close(cd); dbw->insert(str); if (dbw->fail()) { throw std::runtime_error(dbw->error()); } } else { writer_type* dbw = reinterpret_cast(m_dbw); dbw->insert(string); if (dbw->fail()) { throw std::runtime_error(dbw->error()); } } } void writer::close() { if (m_unicode) { uwriter_type* dbw = reinterpret_cast(m_dbw); dbw->close(); if (dbw->fail()) { throw std::runtime_error(dbw->error()); } } else { writer_type* dbw = reinterpret_cast(m_dbw); dbw->close(); if (dbw->fail()) { throw std::runtime_error(dbw->error()); } } } reader::reader(const char *filename) : m_dbr(NULL), measure(cosine), threshold(0.7) { reader_type *dbr = new reader_type; if (!dbr->open(filename)) { delete dbr; throw std::invalid_argument("Failed to open the database"); } m_dbr = dbr; } reader::~reader() { this->close(); delete reinterpret_cast(m_dbr); } template void retrieve_thru( reader_type& dbr, const std::string& query, int measure, double threshold, insert_iterator_type ins ) { switch (measure) { case exact: dbr.retrieve(query, threshold, ins); break; case dice: dbr.retrieve(query, threshold, ins); break; case cosine: dbr.retrieve(query, threshold, ins); break; case jaccard: dbr.retrieve(query, threshold, ins); break; case overlap: dbr.retrieve(query, threshold, ins); break; } } template void retrieve_iconv( reader_type& dbr, const std::string& query, const char *encoding, int measure, double threshold, insert_iterator_type ins ) { typedef std::basic_string string_type; typedef std::vector strings_type; // Translate the character encoding of the query string from UTF-8 to the target encoding. string_type qstr; iconv_t fwd = iconv_open(encoding, "UTF-8"); iconv_convert(fwd, query, qstr); iconv_close(fwd); strings_type xstrs; switch (measure) { case exact: dbr.retrieve(qstr, threshold, std::back_inserter(xstrs)); break; case dice: dbr.retrieve(qstr, threshold, std::back_inserter(xstrs)); break; case cosine: dbr.retrieve(qstr, threshold, std::back_inserter(xstrs)); break; case jaccard: dbr.retrieve(qstr, threshold, std::back_inserter(xstrs)); break; case overlap: dbr.retrieve(qstr, threshold, std::back_inserter(xstrs)); break; } // Translate back the character encoding of retrieved strings into UTF-8. iconv_t bwd = iconv_open("UTF-8", encoding); for (typename strings_type::const_iterator it = xstrs.begin();it != xstrs.end();++it) { std::string dst; iconv_convert(bwd, *it, dst); *ins = dst; } iconv_close(bwd); } std::vector reader::retrieve(const char *query) { reader_type& dbr = *reinterpret_cast(m_dbr); std::vector ret; switch (dbr.char_size()) { case 1: retrieve_thru(dbr, query, this->measure, this->threshold, std::back_inserter(ret)); break; case 2: retrieve_iconv(dbr, query, UTF16, this->measure, this->threshold, std::back_inserter(ret)); break; case 4: retrieve_iconv(dbr, query, UTF32, this->measure, this->threshold, std::back_inserter(ret)); break; } return ret; } void reader::close() { reader_type& dbr = *reinterpret_cast(m_dbr); dbr.close(); } simstring-1.0/swig/export.h0000644000076400007640000001413411344662045012775 00000000000000#ifndef __EXPORT_H__ #define __EXPORT_H__ #include #include /** * \addtogroup swig_interface SimString SWIG interface * @{ * * The SimString SWIG interface. */ /** * Similarity measures. */ enum { /// Exact matching. exact, /// Dice coefficient. dice, /// Cosine coefficient. cosine, /// Jaccard coefficient. jaccard, /// Overlap coefficient. overlap, }; /** * SimString database writer. */ class writer { protected: void *m_dbw; void *m_gen; bool m_unicode; public: /** * Creates a new database. * This function creates an instance of SimString database writer * for creating a new database. If this function failes to open * the database, it throws SWIG_IOError. * * @param filename The database filename. * @param n The unit of character n-grams. * @param be \c true to represent a begin and end of strings * in character n-grams. * @param unicode \c true to use Unicode mode. In Unicode mode, * wide (\c wchar_t) characters are used in n-grams. * @throw SWIG_IOError */ writer(const char *filename, int n = 3, bool be = false, bool unicode = false); /** * Destructs the writer. * Destructing a writer object automatically closes the database. * @throw SWIG_IOError */ virtual ~writer(); /** * Inserts a string into the database. * @param string A string to be inserted to the database. This * argument must be a null-terminated byte stream. * If the database is created with Unicode mode, this * function assumes that the byte stream is encoded in * UTF-8, and converts it into a \c wchar_t string. * @throw SWIG_IOError */ void insert(const char *string); /** * Closes the database. * This function flushes and closes the database. If this function failes * to close the database, it throws SWIG_IOError. * @throw SWIG_IOError */ void close(); }; /** * SimString database reader. */ class reader { protected: void *m_dbr; public: /** * Opens a database for retrieving strings. * This function creates an instance of SimString database reader * by opening an existing database. If this function failes to open * the database, it throws SWIG_IOError. * * @param filename The database filename. * @throw SWIG_IOError */ reader(const char *filename); /** * Destructs the database reader. * Destructing the reader object automatically closes the database. */ virtual ~reader(); /** * Retrieves strings that are similar to the query string. * This function retrieves strings whose similarity with the query string * are no smaller than a threshold. Before calling this function, set the * similarity measure and threshold to \ref measure and \ref threshold * attributes of the reader object. * * @param query The query string. This argument must be a * null-terminated byte stream. If the database was * created with Unicode mode, this function assumes * that the byte stream is encoded in UTF-8, and * converts it into a wchar_t string. * @return The array of strings retrieved for the query. * If the database was created with Unicode mode, * this function returns strings in UTF-8. * @see measure The similarity function used by this function. * @see threshold The similarity value used by this function. */ std::vector retrieve(const char *query); /** * Closes a database. */ void close(); public: /** * Similarity measure. * Specify a similarity measure for approximate string retrieval used * by retrieve() function. * @see exact, cosine, dice, jaccard, overlap */ int measure; /** * Threshold for the similarity measure. * Specify a threshold for approximate string retrieval used by * retrieve() function. */ double threshold; }; /** @} */ /** @mainpage SimString SWIG interface @section intro Introduction This document describes a SWIG interface that bridges SimString with various programing languages including Python and Ruby. Although SimString currently distribution provides SWIG wrappers for Python and Ruby, it may be easy to build libraries for other languages. SimString module provides two simple classes ::writer and ::reader. In the ::writer class, one can create a SimString database using the constructor writer::writer, and call the member function writer::insert for inserting a string into the database. In the ::reader class, one can open an existing SimString database with the constructor reader::reader, specify a similarity measure and threshold with two attributes reader::measure and reader::threshold, and call the member function reader::retrieve for performing approximate string matching. SimString module always uses 8-bit null-terminated byte streams in writer::insert and reader::retrieve functions. The encoding of byte streams can be arbitrary, but must be UTF-8 for a database in Unicode mode. @section api Documentation - @ref swig_interface "SWIG interface" @section language Language-specific Notes @subsection language-ruby Ruby - Because of the naming convention, the initial letter of a name is capitalized as follows: the module name (Simstring), class names (Writer and Reader), and similarity measures (Exact, Dice, Cosine, Jaccard, Overlap). @section sample Sample Programs @subsection python Python A basic sample. @include python/sample.py A Unicode sample. @include python/sample_unicode.py @subsection ruby Ruby A basic sample. @include ruby/sample.rb A Unicode sample. @include ruby/sample_unicode.rb */ #endif/*__EXPORT_H__*/ simstring-1.0/simstring.sln0000644000076400007640000000157211344662045013071 00000000000000 Microsoft Visual Studio Solution File, Format Version 10.00 # Visual Studio 2008 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "frontend", "frontend\frontend.vcproj", "{DE6A2D5D-8AFA-4471-A9A2-C8E671CCC301}" EndProject Global GlobalSection(SolutionConfigurationPlatforms) = preSolution Debug|Win32 = Debug|Win32 Release|Win32 = Release|Win32 EndGlobalSection GlobalSection(ProjectConfigurationPlatforms) = postSolution {DE6A2D5D-8AFA-4471-A9A2-C8E671CCC301}.Debug|Win32.ActiveCfg = Debug|Win32 {DE6A2D5D-8AFA-4471-A9A2-C8E671CCC301}.Debug|Win32.Build.0 = Debug|Win32 {DE6A2D5D-8AFA-4471-A9A2-C8E671CCC301}.Release|Win32.ActiveCfg = Release|Win32 {DE6A2D5D-8AFA-4471-A9A2-C8E671CCC301}.Release|Win32.Build.0 = Release|Win32 EndGlobalSection GlobalSection(SolutionProperties) = preSolution HideSolutionNode = FALSE EndGlobalSection EndGlobal simstring-1.0/AUTHORS0000644000076400007640000000005011344662045011372 00000000000000Naoaki Okazaki simstring-1.0/configure0000755000076400007640000057012711344662067012256 00000000000000#! /bin/sh # Guess values for system-dependent variables and create Makefiles. # Generated by GNU Autoconf 2.64. # # Copyright (C) 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001, # 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software # Foundation, Inc. # # This configure script is free software; the Free Software Foundation # gives unlimited permission to copy, distribute and modify it. ## -------------------- ## ## M4sh Initialization. ## ## -------------------- ## # Be more Bourne compatible DUALCASE=1; export DUALCASE # for MKS sh if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then : emulate sh NULLCMD=: # Pre-4.2 versions of Zsh do word splitting on ${1+"$@"}, which # is contrary to our usage. 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dbr.retrieve(query, measure, threshold, std::back_inserter(xstrs)); // Output the retrieved strings separated by ", ". for (int i = 0;i < (int)xstrs.size();++i) { std::cout << (i != 0 ? ", " : "") << xstrs[i]; } std::cout << std::endl; } int main(int argc, char *argv[]) { // Create a SimString database with two person names. simstring::ngram_generator gen(3, false); simstring::writer_base dbw(gen, "sample.db"); dbw.insert("Barack Hussein Obama II"); dbw.insert("James Gordon Brown"); dbw.close(); // Open the database for reading. simstring::reader dbr; dbr.open("sample.db"); retrieve(dbr, "Barack Obama", simstring::cosine, 0.6); retrieve(dbr, "Gordon Brown", simstring::cosine, 0.6); retrieve(dbr, "Obama", simstring::cosine, 0.6); retrieve(dbr, "Obama", simstring::overlap, 1.0); return 0; } simstring-1.0/README0000644000076400007640000000674611344662045011224 00000000000000 SimString Version 1.0 http://www.chokkan.org/software/simstring/ * INTRODUCTION SimString is an implementation of a simple and efficient algorithm for approximate string matching. Please refer to the web site for more information about this software. * COPYRIGHT AND LICENSING INFORMATION This program is distributed under the modified BSD license. Refer to COPYING file for the precise description of the license. Portions of this software are based on CDB++. The MIT License Copyright (c) 2008,2009, Naoaki Okazaki All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the authors nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Portions of this software are based on a portable stdint.h (for MSVC). Copyright (c) 2005-2007 Paul Hsieh Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. Redistributions in binary form must not misrepresent the orignal source in the documentation and/or other materials provided with the distribution. The names of the authors nor its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 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In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions (known as zlib license): * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. * * Naoaki Okazaki * */ /* $Id: optparse.h 2 2009-07-08 05:44:37Z naoaki $ */ /* * Class 'optparse' implements a parser for GNU-style command-line arguments. * Inherit this class to define your own option variables and to implement an * option handler with macros, BEGIN_OPTION_MAP, ON_OPTION(_WITH_ARG), and * END_OPTION_MAP. Consult the sample program attached at the bottom of this * source code. * * This code was comfirmed to be compiled with MCVC++ 2003 and gcc 3.3. * Define _BUILD_NCL_SAMPLE if you want to build a sample program. * $ g++ -D_BUILD_NCL_SAMPLE -xc++ optparse.h */ #ifndef __NCL_OPTPRASE_H__ #define __NCL_OPTPRASE_H__ #include #include #include #include #ifdef USE_NCL_NAMESPACE namespace ncl { #endif/*USE_NCL_NAMESPACE*/ /** * An event-driven parser for command-line arguments. * @author Naoaki Okazaki */ class optparse { public: /** * Exception class for unrecognized options. */ class unrecognized_option : public std::invalid_argument { public: unrecognized_option(char shortopt) : std::invalid_argument(std::string("-") + shortopt) {} unrecognized_option(const std::string& longopt) : std::invalid_argument(std::string("--") + longopt) {} }; /** * Exception class for invalid values. */ class invalid_value : public std::invalid_argument { public: invalid_value(const std::string& message) : std::invalid_argument(message) {} }; public: /** Construct. */ optparse() {} /** Destruct. */ virtual ~optparse() {} /** * Parse options. * @param argv array of null-terminated strings to be parsed * @param num_argv specifies the number, in strings, of the array * @return the number of used arguments * @throws optparse_exception */ int parse(char * const argv[], int num_argv) { int i; for (i = 1;i < num_argv;++i) { const char *token = argv[i]; if (*token++ == '-') { const char *next_token = (i+1 < num_argv) ? argv[i+1] : ""; if (!*token) { break; // only '-' was found. } else if (*token == '-') { const char *arg = std::strchr(++token, '='); if (arg) { arg++; } else { arg = next_token; } int ret = handle_option(0, token, arg); if (ret < 0) { throw unrecognized_option(token); } if (arg == next_token) { i += ret; } } else { char c; while ((c = *token++) != '\0') { const char *arg = *token ? token : next_token; int ret = handle_option(c, token, arg); if (ret < 0) { throw unrecognized_option(c); } if (ret > 0) { if (arg == token) { token = ""; } else { i++; } } } // while } // else (*token == '-') } else { break; // a non-option argument was fonud. } } // for (i) return i; } protected: /** * Option handler * This function should be overridden by inheritance class. * @param c short option character, 0 for long option * @param longname long option name * @param arg an argument for the option * @return 0 (success); 1 (success with use of an argument); -1 (failed, unrecognized option) * @throws option_parser_exception */ virtual int handle_option(char c, const char *longname, const char *arg) { return 0; } int __optstrcmp(const char *option, const char *longname) { const char *p = std::strchr(option, '='); return p ? std::strncmp(option, longname, p-option) : std::strcmp(option, longname); } }; /** The begin of inline option map. */ #define BEGIN_OPTION_MAP_INLINE() \ virtual int handle_option(char __c, const char *__longname, const char *arg) \ { \ int used_args = 0; \ if (0) { \ /** Define of option map. */ #define DEFINE_OPTION_MAP() \ virtual int handle_option(char __c, const char *__longname, const char *arg); /** Begin of option map implimentation. */ #define BEGIN_OPTION_MAP(_Class) \ int _Class::handle_option(char __c, const char *__longname, const char *arg) \ { \ int used_args = 0; \ if (0) { \ /** An entry of option map */ #define ON_OPTION(test) \ return used_args; \ } else if (test) { \ used_args = 0; \ #define ON_OPTION_WITH_ARG(test) \ return used_args; \ } else if (test) { \ used_args = 1; \ /** The end of option map implementation */ #define END_OPTION_MAP() \ return used_args; \ } \ return -1; \ } \ /** A predicator for short options */ #define SHORTOPT(x) (__c == x) /** A predicator for long options */ #define LONGOPT(x) (!__c && __optstrcmp(__longname, x) == 0) #ifdef USE_NCL_NAMESPACE }; #endif/*USE_NCL_NAMESPACE*/ #ifdef _BUILD_NCL_SAMPLE #include #include /** * A class to store parameters specified by command-line arguments */ class option : public optparse { public: int bytes; int lines; bool quiet; option() : bytes(0), lines(0), quiet(false) {} BEGIN_OPTION_MAP_INLINE() ON_OPTION(SHORTOPT('b') || LONGOPT("bytes")) bytes = std::atoi(arg); used_args = 1; // Notify the parser of a consumption of argument. ON_OPTION_WITH_ARG(SHORTOPT('l') || LONGOPT("lines")) lines = std::atoi(arg); // no need of the notification: used_args variable will be set to 1. ON_OPTION(SHORTOPT('q') || LONGOPT("quiet") || LONGOPT("silent")) quiet = true; END_OPTION_MAP() }; int main(int argc, char *argv[]) { try { option opt; int argused = opt.parse(&argv[1], argc-1); // Skip argv[0]. std::cout << "used argv: " << argused << std::endl; std::cout << "bytes: " << opt.bytes << std::endl; std::cout << "lines: " << opt.lines << std::endl; std::cout << "quiet: " << opt.quiet << std::endl; } catch (const optparse::unrecognized_option& e) { std::cout << "unrecognized option: " << e.what() << std::endl; return 1; } catch (const optparse::invalid_value& e) { std::cout << "invalid value: " << e.what() << std::endl; return 1; } return 0; } #endif/*_BUILD_NCL_SAMPLE*/ #endif/*__NCL_OPTPRASE_H__*/ simstring-1.0/frontend/Makefile.in0000644000076400007640000003473311344662066014230 00000000000000# Makefile.in generated by automake 1.11 from Makefile.am. # @configure_input@ # Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, # 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, # Inc. # This Makefile.in is free software; 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IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: main.cpp 101 2010-02-26 14:59:34Z naoaki $ */ #include #include #include #include #include #include #include #include #include #include #include #include "optparse.h" class option { public: enum { MODE_RETRIEVE = 0, MODE_BUILD, MODE_HELP, MODE_VERSION, }; enum { CC_CHAR = 0, // char CC_WCHAR, // wchar_t }; int mode; int code; std::string name; int ngram_size; bool be; int measure; double threshold; bool echo_back; bool quiet; bool benchmark; public: option() : mode(MODE_RETRIEVE), code(CC_CHAR), name(""), ngram_size(3), be(false), measure(simstring::cosine), threshold(0.7), echo_back(false), quiet(false), benchmark(false) { } }; class option_parser : public option, public optparse { BEGIN_OPTION_MAP_INLINE() ON_OPTION(SHORTOPT('b') || LONGOPT("build")) mode = MODE_BUILD; ON_OPTION_WITH_ARG(SHORTOPT('d') || LONGOPT("database")) name = arg; ON_OPTION(SHORTOPT('u') || LONGOPT("unicode")) code = CC_WCHAR; ON_OPTION_WITH_ARG(SHORTOPT('n') || LONGOPT("ngram")) ngram_size = std::atoi(arg); ON_OPTION(SHORTOPT('m') || LONGOPT("mark")) be = true; ON_OPTION_WITH_ARG(SHORTOPT('s') || LONGOPT("similarity")) if (std::strcmp(arg, "exact") == 0) { measure = simstring::exact; } else if (std::strcmp(arg, "dice") == 0) { measure = simstring::dice; } else if (std::strcmp(arg, "cosine") == 0) { measure = simstring::cosine; } else if (std::strcmp(arg, "jaccard") == 0) { measure = simstring::jaccard; } else if (std::strcmp(arg, "overlap") == 0) { measure = simstring::overlap; } ON_OPTION_WITH_ARG(SHORTOPT('t') || LONGOPT("threshold")) threshold = std::atof(arg); ON_OPTION(SHORTOPT('e') || LONGOPT("echo")) echo_back = true; ON_OPTION(SHORTOPT('q') || LONGOPT("quiet")) quiet = true; ON_OPTION(SHORTOPT('p') || LONGOPT("benchmark")) benchmark = true; ON_OPTION(SHORTOPT('v') || LONGOPT("version")) mode = MODE_VERSION; ON_OPTION(SHORTOPT('h') || LONGOPT("help")) mode = MODE_HELP; END_OPTION_MAP() }; int usage(std::ostream& os, const char *argv0) { os << "USAGE: " << argv0 << " [OPTIONS]" << std::endl; os << "This utility finds strings in the database (DB) such that they have similarity," << std::endl; os << "in the similarity measure (SIM), no smaller than the threshold (TH) with" << std::endl; os << "queries read from STDIN. When -b (--build) option is specified, this utility" << std::endl; os << "builds a database (DB) for strings read from STDIN." << std::endl; os << std::endl; os << "OPTIONS:" << std::endl; os << " -b, --build build a database for strings read from STDIN" << std::endl; os << " -d, --database=DB specify a database file" << std::endl; os << " -u, --unicode use Unicode (wchar_t) for representing characters" << std::endl; os << " -n, --ngram=N specify the unit of n-grams (DEFAULT=3)" << std::endl; os << " -m, --mark include marks for begins and ends of strings" << std::endl; os << " -s, --similarity=SIM specify a similarity measure (DEFAULT='cosine'):" << std::endl; os << " exact exact match" << std::endl; os << " dice dice coefficient" << std::endl; os << " cosine cosine coefficient" << std::endl; os << " jaccard jaccard coefficient" << std::endl; os << " overlap overlap coefficient" << std::endl; os << " -t, --threshold=TH specify the threshold (DEFAULT=0.7)" << std::endl; os << " -e, --echo-back echo back query strings to the output" << std::endl; os << " -q, --quiet suppress supplemental information from the output" << std::endl; os << " -p, --benchmark show benchmark result (retrieved strings are suppressed)" << std::endl; os << " -v, --version show this version information and exit" << std::endl; os << " -h, --help show this help message and exit" << std::endl; os << std::endl; return 0; } int version(std::ostream& os) { os << SIMSTRING_NAME " "; os << SIMSTRING_MAJOR_VERSION << "." << SIMSTRING_MINOR_VERSION << " "; os << SIMSTRING_COPYRIGHT << std::endl; os << std::endl; return 0; } template int build(option& opt, istream_type& is) { typedef std::basic_string string_type; typedef simstring::ngram_generator ngram_generator_type; typedef simstring::writer_base writer_type; std::ostream& os = std::cout; std::ostream& es = std::cerr; // Show the copyright information. version(os); // Show parameters for database construction. os << "Constructing the database" << std::endl; os << "Database name: " << opt.name << std::endl; os << "N-gram length: " << opt.ngram_size << std::endl; os << "Begin/end marks: " << std::boolalpha << opt.be << std::endl; os << "Char type: " << typeid(char_type).name() << " (" << sizeof(char_type) << ")" << std::endl; os.flush(); // Open the database for construction. clock_t clk = std::clock(); ngram_generator_type gen(opt.ngram_size, opt.be); writer_type db(gen, opt.name); if (db.fail()) { es << "ERROR: " << db.error() << std::endl; return 1; } // Insert every string from STDIN into the database. int n = 0; for (;;) { // Read a line. string_type line; std::getline(is, line); if (is.eof()) { break; } // Insert the string. if (!db.insert(line)) { es << "ERROR: " << db.error() << std::endl; return 1; } // Progress report. if (!opt.quiet && ++n % 10000 == 0) { os << "Number of strings: " << n << std::endl; os.flush(); } } os << "Number of strings: " << n << std::endl; os << std::endl; os.flush(); // Finalize the database. os << "Flushing the database" << std::endl; if (!db.close()) { es << "ERROR: " << db.error() << std::endl; return 1; } os << std::endl; // Report the elaped time for construction. os << "Total number of strings: " << n << std::endl; os << "Seconds required: " << (std::clock() - clk) / (double)CLOCKS_PER_SEC << std::endl; os << std::endl; os.flush(); return 0; } // widen for strings only with ASCII characters. template std::basic_string widen(const std::string& str) { std::basic_string dst; std::string::const_iterator it; for (it = str.begin();it != str.end();++it) { dst += static_cast(*it); } return dst; } template int retrieve(option& opt, istream_type& is, ostream_type& os) { typedef std::basic_string string_type; typedef std::vector strings_type; typedef simstring::reader reader_type; std::ostream& es = std::cerr; // Open the database. reader_type db; if (!db.open(opt.name)) { es << "ERROR: " << db.error() << std::endl; return 1; } // Check the size of characters. if (db.char_size() != sizeof(char_type)) { es << "ERROR: Inconsistent character encoding " << "(DB:" << db.char_size() << ", " << "CUR:" << sizeof(char_type) << "): " << std::endl; es << "This problem may be solved by specifying -u (--unicode) option." << std::endl; return 1; } int num_queries = 0; int num_retrieved = 0; clock_t clk_total = 0; for (;;) { // Read a line. string_type line; std::getline(is, line); if (is.eof()) { break; } // Issue a query. strings_type xstrs; clock_t clk = std::clock(); db.retrieve(line, opt.measure, opt.threshold, std::back_inserter(xstrs)); clock_t elapsed = (std::clock() - clk); // Update stats. clk_total += elapsed; num_retrieved += (int)xstrs.size(); ++num_queries; // Do not output results when the benchmarking flag is on. if (!opt.benchmark) { // Output the query string if necessary. if (opt.echo_back) { os << line << std::endl; } // Output the retrieved strings. typename strings_type::const_iterator it; for (it = xstrs.begin();it != xstrs.end();++it) { os << os.widen('\t') << *it << std::endl; } os.flush(); } // Do not output information when the quiet flag is on. if (!opt.quiet) { os << xstrs.size() << widen(" strings retrieved (") << (std::clock() - clk) / (double)CLOCKS_PER_SEC << widen(" sec)") << std::endl; } } // Output the benchmark information if necessary. if (opt.benchmark) { os << widen("Total number of queries: ") << num_queries << std::endl; os << widen("Seconds per query: ") << clk_total / (double)CLOCKS_PER_SEC / num_queries << std::endl; os << widen("Number of retrieved strings per query: ") << num_retrieved / (double)num_queries << std::endl; } return 0; } int main(int argc, char *argv[]) { // Parse the command-line options. option_parser opt; try { int arg_used = opt.parse(argv, argc); } catch (const optparse::unrecognized_option& e) { std::cerr << "ERROR: unrecognized option: " << e.what() << std::endl; return 1; } catch (const optparse::invalid_value& e) { std::cerr << "ERROR: " << e.what() << std::endl; return 1; } // Change the locale of wcin and wcout if necessary. if (opt.code == option::CC_WCHAR) { std::ios_base::sync_with_stdio(false); std::locale::global(std::locale("")); std::wcout.imbue(std::locale("")); std::wcin.imbue(std::locale("")); } // Branches for the processing mode. switch (opt.mode) { case option::MODE_HELP: return usage(std::cout, argv[0]); case option::MODE_VERSION: return version(std::cout); case option::MODE_BUILD: if (opt.code == option::CC_CHAR) { return build(opt, std::cin); } else if (opt.code == option::CC_WCHAR) { return build(opt, std::wcin); } break; case option::MODE_RETRIEVE: if (opt.code == option::CC_CHAR) { return retrieve(opt, std::cin, std::cout); } else if (opt.code == option::CC_WCHAR) { return retrieve(opt, std::wcin, std::wcout); } break; } // An unknown processing mode. return 1; } simstring-1.0/config.h.in0000644000076400007640000000541011344662064012353 00000000000000/* config.h.in. Generated from configure.in by autoheader. */ /* Define to 1 if you have the header file. */ #undef HAVE_INTTYPES_H /* Define to 1 if you have the `m' library (-lm). */ #undef HAVE_LIBM /* Define to 1 if you have the `mmap' library (-lmmap). */ #undef HAVE_LIBMMAP /* Define to 1 if you have the header file. */ #undef HAVE_MEMORY_H /* Define to 1 if you have the header file. */ #undef HAVE_STDINT_H /* Define to 1 if you have the header file. */ #undef HAVE_STDLIB_H /* Define to 1 if you have the header file. */ #undef HAVE_STRINGS_H /* Define to 1 if you have the header file. */ #undef HAVE_STRING_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_MMAN_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_STAT_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_TYPES_H /* Define to 1 if the system has the type `uint32_t'. */ #undef HAVE_UINT32_T /* Define to 1 if you have the header file. */ #undef HAVE_UNISTD_H /* Name of package */ #undef PACKAGE /* Define to the address where bug reports for this package should be sent. */ #undef PACKAGE_BUGREPORT /* Define to the full name of this package. */ #undef PACKAGE_NAME /* Define to the full name and version of this package. */ #undef PACKAGE_STRING /* Define to the one symbol short name of this package. */ #undef PACKAGE_TARNAME /* Define to the home page for this package. */ #undef PACKAGE_URL /* Define to the version of this package. */ #undef PACKAGE_VERSION /* The size of `', as computed by sizeof. */ #undef SIZEOF_ /* Define to 1 if you have the ANSI C header files. */ #undef STDC_HEADERS /* Define to 1 if your declares `struct tm'. */ #undef TM_IN_SYS_TIME /* Enable extensions on AIX 3, Interix. */ #ifndef _ALL_SOURCE # undef _ALL_SOURCE #endif /* Enable GNU extensions on systems that have them. */ #ifndef _GNU_SOURCE # undef _GNU_SOURCE #endif /* Enable threading extensions on Solaris. */ #ifndef _POSIX_PTHREAD_SEMANTICS # undef _POSIX_PTHREAD_SEMANTICS #endif /* Enable extensions on HP NonStop. */ #ifndef _TANDEM_SOURCE # undef _TANDEM_SOURCE #endif /* Enable general extensions on Solaris. */ #ifndef __EXTENSIONS__ # undef __EXTENSIONS__ #endif /* Version number of package */ #undef VERSION /* Define to 1 if on MINIX. */ #undef _MINIX /* Define to 2 if the system does not provide POSIX.1 features except with this defined. */ #undef _POSIX_1_SOURCE /* Define to 1 if you need to in order for `stat' and other things to work. */ #undef _POSIX_SOURCE /* Define to empty if `const' does not conform to ANSI C. */ #undef const /* Define to `unsigned int' if does not define. */ #undef size_t simstring-1.0/Makefile.am0000644000076400007640000000045611344663053012370 00000000000000# $Id: Makefile.am 108 2010-03-07 08:39:07Z naoaki $ SUBDIRS = include frontend sample swig docdir = $(prefix)/share/doc/@PACKAGE@ doc_DATA = README INSTALL COPYING AUTHORS ChangeLog EXTRA_DIST = \ autogen.sh \ win32/stdint.h \ simstring.sln #AUTOMAKE_OPTIONS = foreign #ACLOCAL_AMFLAGS = -I m4 simstring-1.0/autogen.sh0000755000076400007640000000111111344662045012322 00000000000000#!/bin/sh # $Id: autogen.sh 3 2009-07-08 06:14:45Z naoaki $ if [ "$1" = "--force" ]; then FORCE=--force NOFORCE= FORCE_MISSING=--force-missing else FORCE= NOFORCE=--no-force FORCE_MISSING= fi #libtoolize --copy $FORCE 2>&1 | sed '/^You should/d' || { # echo "libtoolize failed!" # exit 1 #} aclocal $FORCE || { echo "aclocal failed!" exit 1 } autoheader $FORCE || { echo "autoheader failed!" exit 1 } automake -a -c $NOFORCE || { echo "automake failed!" exit 1 } autoconf $FORCE || { echo "autoconf failed!" exit 1 } simstring-1.0/depcomp0000755000076400007640000004426711344662066011724 00000000000000#! /bin/sh # depcomp - compile a program generating dependencies as side-effects scriptversion=2009-04-28.21; # UTC # Copyright (C) 1999, 2000, 2003, 2004, 2005, 2006, 2007, 2009 Free # Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2, or (at your option) # any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program. If not, see . # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. # Originally written by Alexandre Oliva . case $1 in '') echo "$0: No command. Try \`$0 --help' for more information." 1>&2 exit 1; ;; -h | --h*) cat <<\EOF Usage: depcomp [--help] [--version] PROGRAM [ARGS] Run PROGRAMS ARGS to compile a file, generating dependencies as side-effects. Environment variables: depmode Dependency tracking mode. source Source file read by `PROGRAMS ARGS'. object Object file output by `PROGRAMS ARGS'. DEPDIR directory where to store dependencies. depfile Dependency file to output. tmpdepfile Temporary file to use when outputing dependencies. libtool Whether libtool is used (yes/no). Report bugs to . EOF exit $? ;; -v | --v*) echo "depcomp $scriptversion" exit $? ;; esac if test -z "$depmode" || test -z "$source" || test -z "$object"; then echo "depcomp: Variables source, object and depmode must be set" 1>&2 exit 1 fi # Dependencies for sub/bar.o or sub/bar.obj go into sub/.deps/bar.Po. depfile=${depfile-`echo "$object" | sed 's|[^\\/]*$|'${DEPDIR-.deps}'/&|;s|\.\([^.]*\)$|.P\1|;s|Pobj$|Po|'`} tmpdepfile=${tmpdepfile-`echo "$depfile" | sed 's/\.\([^.]*\)$/.T\1/'`} rm -f "$tmpdepfile" # Some modes work just like other modes, but use different flags. We # parameterize here, but still list the modes in the big case below, # to make depend.m4 easier to write. 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This case will never be run, # since it is checked for above. exit 1 ;; none) exec "$@" ;; *) echo "Unknown depmode $depmode" 1>&2 exit 1 ;; esac exit 0 # Local Variables: # mode: shell-script # sh-indentation: 2 # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "scriptversion=" # time-stamp-format: "%:y-%02m-%02d.%02H" # time-stamp-time-zone: "UTC" # time-stamp-end: "; # UTC" # End: simstring-1.0/config.sub0000755000076400007640000010224011344662066012314 00000000000000#! /bin/sh # Configuration validation subroutine script. # Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, # 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 # Free Software Foundation, Inc. timestamp='2009-04-17' # This file is (in principle) common to ALL GNU software. # The presence of a machine in this file suggests that SOME GNU software # can handle that machine. It does not imply ALL GNU software can. # # This file is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA # 02110-1301, USA. # # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. # Please send patches to . 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The user should be able to distinguish # a failure to support a valid configuration from a meaningless # configuration. # The goal of this file is to map all the various variations of a given # machine specification into a single specification in the form: # CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM # or in some cases, the newer four-part form: # CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM # It is wrong to echo any other type of specification. me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] CPU-MFR-OPSYS $0 [OPTION] ALIAS Canonicalize a configuration name. Operation modes: -h, --help print this help, then exit -t, --time-stamp print date of last modification, then exit -v, --version print version number, then exit Report bugs and patches to ." version="\ GNU config.sub ($timestamp) Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." help=" Try \`$me --help' for more information." # Parse command line while test $# -gt 0 ; do case $1 in --time-stamp | --time* | -t ) echo "$timestamp" ; exit ;; --version | -v ) echo "$version" ; exit ;; --help | --h* | -h ) echo "$usage"; exit ;; -- ) # Stop option processing shift; break ;; - ) # Use stdin as input. break ;; -* ) echo "$me: invalid option $1$help" exit 1 ;; *local*) # First pass through any local machine types. echo $1 exit ;; * ) break ;; esac done case $# in 0) echo "$me: missing argument$help" >&2 exit 1;; 1) ;; *) echo "$me: too many arguments$help" >&2 exit 1;; esac # Separate what the user gave into CPU-COMPANY and OS or KERNEL-OS (if any). # Here we must recognize all the valid KERNEL-OS combinations. maybe_os=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\2/'` case $maybe_os in nto-qnx* | linux-gnu* | linux-dietlibc | linux-newlib* | linux-uclibc* | \ uclinux-uclibc* | uclinux-gnu* | kfreebsd*-gnu* | knetbsd*-gnu* | netbsd*-gnu* | \ kopensolaris*-gnu* | \ storm-chaos* | os2-emx* | rtmk-nova*) os=-$maybe_os basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'` ;; *) basic_machine=`echo $1 | sed 's/-[^-]*$//'` if [ $basic_machine != $1 ] then os=`echo $1 | sed 's/.*-/-/'` else os=; fi ;; esac ### Let's recognize common machines as not being operating systems so ### that things like config.sub decstation-3100 work. We also ### recognize some manufacturers as not being operating systems, so we ### can provide default operating systems below. case $os in -sun*os*) # Prevent following clause from handling this invalid input. ;; -dec* | -mips* | -sequent* | -encore* | -pc532* | -sgi* | -sony* | \ -att* | -7300* | -3300* | -delta* | -motorola* | -sun[234]* | \ -unicom* | -ibm* | -next | -hp | -isi* | -apollo | -altos* | \ -convergent* | -ncr* | -news | -32* | -3600* | -3100* | -hitachi* |\ -c[123]* | -convex* | -sun | -crds | -omron* | -dg | -ultra | -tti* | \ -harris | -dolphin | -highlevel | -gould | -cbm | -ns | -masscomp | \ -apple | -axis | -knuth | -cray) os= basic_machine=$1 ;; -sim | -cisco | -oki | -wec | -winbond) os= basic_machine=$1 ;; -scout) ;; -wrs) os=-vxworks basic_machine=$1 ;; -chorusos*) os=-chorusos basic_machine=$1 ;; -chorusrdb) os=-chorusrdb basic_machine=$1 ;; -hiux*) os=-hiuxwe2 ;; -sco6) os=-sco5v6 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5) os=-sco3.2v5 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco4) os=-sco3.2v4 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2.[4-9]*) os=`echo $os | sed -e 's/sco3.2./sco3.2v/'` basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2v[4-9]*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5v6*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco*) os=-sco3.2v2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -udk*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -isc) os=-isc2.2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -clix*) basic_machine=clipper-intergraph ;; -isc*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -lynx*) os=-lynxos ;; -ptx*) basic_machine=`echo $1 | sed -e 's/86-.*/86-sequent/'` ;; -windowsnt*) os=`echo $os | sed -e 's/windowsnt/winnt/'` ;; -psos*) os=-psos ;; -mint | -mint[0-9]*) basic_machine=m68k-atari os=-mint ;; esac # Decode aliases for certain CPU-COMPANY combinations. case $basic_machine in # Recognize the basic CPU types without company name. # Some are omitted here because they have special meanings below. 1750a | 580 \ | a29k \ | alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \ | alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \ | am33_2.0 \ | arc | arm | arm[bl]e | arme[lb] | armv[2345] | armv[345][lb] | avr | avr32 \ | bfin \ | c4x | clipper \ | d10v | d30v | dlx | dsp16xx \ | fido | fr30 | frv \ | h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \ | i370 | i860 | i960 | ia64 \ | ip2k | iq2000 \ | lm32 \ | m32c | m32r | m32rle | m68000 | m68k | m88k \ | maxq | mb | microblaze | mcore | mep | metag \ | mips | mipsbe | mipseb | mipsel | mipsle \ | mips16 \ | mips64 | mips64el \ | mips64octeon | mips64octeonel \ | mips64orion | mips64orionel \ | mips64r5900 | mips64r5900el \ | mips64vr | mips64vrel \ | mips64vr4100 | mips64vr4100el \ | mips64vr4300 | mips64vr4300el \ | mips64vr5000 | mips64vr5000el \ | mips64vr5900 | mips64vr5900el \ | mipsisa32 | mipsisa32el \ | mipsisa32r2 | mipsisa32r2el \ | mipsisa64 | mipsisa64el \ | mipsisa64r2 | mipsisa64r2el \ | mipsisa64sb1 | mipsisa64sb1el \ | mipsisa64sr71k | mipsisa64sr71kel \ | mipstx39 | mipstx39el \ | mn10200 | mn10300 \ | moxie \ | mt \ | msp430 \ | nios | nios2 \ | ns16k | ns32k \ | or32 \ | pdp10 | pdp11 | pj | pjl \ | powerpc | powerpc64 | powerpc64le | powerpcle | ppcbe \ | pyramid \ | score \ | sh | sh[1234] | sh[24]a | sh[24]aeb | sh[23]e | sh[34]eb | sheb | shbe | shle | sh[1234]le | sh3ele \ | sh64 | sh64le \ | sparc | sparc64 | sparc64b | sparc64v | sparc86x | sparclet | sparclite \ | sparcv8 | sparcv9 | sparcv9b | sparcv9v \ | spu | strongarm \ | tahoe | thumb | tic4x | tic80 | tron \ | v850 | v850e \ | we32k \ | x86 | xc16x | xscale | xscalee[bl] | xstormy16 | xtensa \ | z8k | z80) basic_machine=$basic_machine-unknown ;; m6811 | m68hc11 | m6812 | m68hc12) # Motorola 68HC11/12. basic_machine=$basic_machine-unknown os=-none ;; m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k) ;; ms1) basic_machine=mt-unknown ;; # We use `pc' rather than `unknown' # because (1) that's what they normally are, and # (2) the word "unknown" tends to confuse beginning users. i*86 | x86_64) basic_machine=$basic_machine-pc ;; # Object if more than one company name word. *-*-*) echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2 exit 1 ;; # Recognize the basic CPU types with company name. 580-* \ | a29k-* \ | alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \ | alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \ | alphapca5[67]-* | alpha64pca5[67]-* | arc-* \ | arm-* | armbe-* | armle-* | armeb-* | armv*-* \ | avr-* | avr32-* \ | bfin-* | bs2000-* \ | c[123]* | c30-* | [cjt]90-* | c4x-* | c54x-* | c55x-* | c6x-* \ | clipper-* | craynv-* | cydra-* \ | d10v-* | d30v-* | dlx-* \ | elxsi-* \ | f30[01]-* | f700-* | fido-* | fr30-* | frv-* | fx80-* \ | h8300-* | h8500-* \ | hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \ | i*86-* | i860-* | i960-* | ia64-* \ | ip2k-* | iq2000-* \ | lm32-* \ | m32c-* | m32r-* | m32rle-* \ | m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \ | m88110-* | m88k-* | maxq-* | mcore-* | metag-* \ | mips-* | mipsbe-* | mipseb-* | mipsel-* | mipsle-* \ | mips16-* \ | mips64-* | mips64el-* \ | mips64octeon-* | mips64octeonel-* \ | mips64orion-* | mips64orionel-* \ | mips64r5900-* | mips64r5900el-* \ | mips64vr-* | mips64vrel-* \ | mips64vr4100-* | mips64vr4100el-* \ | mips64vr4300-* | mips64vr4300el-* \ | mips64vr5000-* | mips64vr5000el-* \ | mips64vr5900-* | mips64vr5900el-* \ | mipsisa32-* | mipsisa32el-* \ | mipsisa32r2-* | mipsisa32r2el-* \ | mipsisa64-* | mipsisa64el-* \ | mipsisa64r2-* | mipsisa64r2el-* \ | mipsisa64sb1-* | mipsisa64sb1el-* \ | mipsisa64sr71k-* | mipsisa64sr71kel-* \ | mipstx39-* | mipstx39el-* \ | mmix-* \ | mt-* \ | msp430-* \ | nios-* | nios2-* \ | none-* | np1-* | ns16k-* | ns32k-* \ | orion-* \ | pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \ | powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* | ppcbe-* \ | pyramid-* \ | romp-* | rs6000-* \ | sh-* | sh[1234]-* | sh[24]a-* | sh[24]aeb-* | sh[23]e-* | sh[34]eb-* | sheb-* | shbe-* \ | shle-* | sh[1234]le-* | sh3ele-* | sh64-* | sh64le-* \ | sparc-* | sparc64-* | sparc64b-* | sparc64v-* | sparc86x-* | sparclet-* \ | sparclite-* \ | sparcv8-* | sparcv9-* | sparcv9b-* | sparcv9v-* | strongarm-* | sv1-* | sx?-* \ | tahoe-* | thumb-* \ | tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* | tile-* \ | tron-* \ | v850-* | v850e-* | vax-* \ | we32k-* \ | x86-* | x86_64-* | xc16x-* | xps100-* | xscale-* | xscalee[bl]-* \ | xstormy16-* | xtensa*-* \ | ymp-* \ | z8k-* | z80-*) ;; # Recognize the basic CPU types without company name, with glob match. xtensa*) basic_machine=$basic_machine-unknown ;; # Recognize the various machine names and aliases which stand # for a CPU type and a company and sometimes even an OS. 386bsd) basic_machine=i386-unknown os=-bsd ;; 3b1 | 7300 | 7300-att | att-7300 | pc7300 | safari | unixpc) basic_machine=m68000-att ;; 3b*) basic_machine=we32k-att ;; a29khif) basic_machine=a29k-amd os=-udi ;; abacus) basic_machine=abacus-unknown ;; adobe68k) basic_machine=m68010-adobe os=-scout ;; alliant | fx80) basic_machine=fx80-alliant ;; altos | altos3068) basic_machine=m68k-altos ;; am29k) basic_machine=a29k-none os=-bsd ;; amd64) basic_machine=x86_64-pc ;; amd64-*) basic_machine=x86_64-`echo $basic_machine | sed 's/^[^-]*-//'` ;; amdahl) basic_machine=580-amdahl os=-sysv ;; amiga | amiga-*) basic_machine=m68k-unknown ;; amigaos | amigados) basic_machine=m68k-unknown os=-amigaos ;; amigaunix | amix) basic_machine=m68k-unknown os=-sysv4 ;; apollo68) basic_machine=m68k-apollo os=-sysv ;; apollo68bsd) basic_machine=m68k-apollo os=-bsd ;; aros) basic_machine=i386-pc os=-aros ;; aux) basic_machine=m68k-apple os=-aux ;; balance) basic_machine=ns32k-sequent os=-dynix ;; blackfin) basic_machine=bfin-unknown os=-linux ;; blackfin-*) basic_machine=bfin-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; c90) basic_machine=c90-cray os=-unicos ;; cegcc) basic_machine=arm-unknown os=-cegcc ;; convex-c1) basic_machine=c1-convex os=-bsd ;; convex-c2) basic_machine=c2-convex os=-bsd ;; convex-c32) basic_machine=c32-convex os=-bsd ;; convex-c34) basic_machine=c34-convex os=-bsd ;; convex-c38) basic_machine=c38-convex os=-bsd ;; cray | j90) basic_machine=j90-cray os=-unicos ;; craynv) basic_machine=craynv-cray os=-unicosmp ;; cr16) basic_machine=cr16-unknown os=-elf ;; crds | unos) basic_machine=m68k-crds ;; crisv32 | crisv32-* | etraxfs*) basic_machine=crisv32-axis ;; cris | cris-* | etrax*) basic_machine=cris-axis ;; crx) basic_machine=crx-unknown os=-elf ;; da30 | da30-*) basic_machine=m68k-da30 ;; decstation | decstation-3100 | pmax | pmax-* | pmin | dec3100 | decstatn) basic_machine=mips-dec ;; decsystem10* | dec10*) basic_machine=pdp10-dec os=-tops10 ;; decsystem20* | dec20*) basic_machine=pdp10-dec os=-tops20 ;; delta | 3300 | motorola-3300 | motorola-delta \ | 3300-motorola | delta-motorola) basic_machine=m68k-motorola ;; delta88) basic_machine=m88k-motorola os=-sysv3 ;; dicos) basic_machine=i686-pc os=-dicos ;; djgpp) basic_machine=i586-pc os=-msdosdjgpp ;; dpx20 | dpx20-*) basic_machine=rs6000-bull os=-bosx ;; dpx2* | dpx2*-bull) basic_machine=m68k-bull os=-sysv3 ;; ebmon29k) basic_machine=a29k-amd os=-ebmon ;; elxsi) basic_machine=elxsi-elxsi os=-bsd ;; encore | umax | mmax) basic_machine=ns32k-encore ;; es1800 | OSE68k | ose68k | ose | OSE) basic_machine=m68k-ericsson os=-ose ;; fx2800) basic_machine=i860-alliant ;; genix) basic_machine=ns32k-ns ;; gmicro) basic_machine=tron-gmicro os=-sysv ;; go32) basic_machine=i386-pc os=-go32 ;; h3050r* | hiux*) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; h8300hms) basic_machine=h8300-hitachi os=-hms ;; h8300xray) basic_machine=h8300-hitachi os=-xray ;; h8500hms) basic_machine=h8500-hitachi os=-hms ;; harris) basic_machine=m88k-harris os=-sysv3 ;; hp300-*) basic_machine=m68k-hp ;; hp300bsd) basic_machine=m68k-hp os=-bsd ;; hp300hpux) basic_machine=m68k-hp os=-hpux ;; hp3k9[0-9][0-9] | hp9[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k2[0-9][0-9] | hp9k31[0-9]) basic_machine=m68000-hp ;; hp9k3[2-9][0-9]) basic_machine=m68k-hp ;; hp9k6[0-9][0-9] | hp6[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k7[0-79][0-9] | hp7[0-79][0-9]) basic_machine=hppa1.1-hp ;; hp9k78[0-9] | hp78[0-9]) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[67]1 | hp8[67]1 | hp9k80[24] | hp80[24] | hp9k8[78]9 | hp8[78]9 | hp9k893 | hp893) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[0-9][13679] | hp8[0-9][13679]) basic_machine=hppa1.1-hp ;; hp9k8[0-9][0-9] | hp8[0-9][0-9]) basic_machine=hppa1.0-hp ;; hppa-next) os=-nextstep3 ;; hppaosf) basic_machine=hppa1.1-hp os=-osf ;; hppro) basic_machine=hppa1.1-hp os=-proelf ;; i370-ibm* | ibm*) basic_machine=i370-ibm ;; # I'm not sure what "Sysv32" means. Should this be sysv3.2? i*86v32) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv32 ;; i*86v4*) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv4 ;; i*86v) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv ;; i*86sol2) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-solaris2 ;; i386mach) basic_machine=i386-mach os=-mach ;; i386-vsta | vsta) basic_machine=i386-unknown os=-vsta ;; iris | iris4d) basic_machine=mips-sgi case $os in -irix*) ;; *) os=-irix4 ;; esac ;; isi68 | isi) basic_machine=m68k-isi os=-sysv ;; m68knommu) basic_machine=m68k-unknown os=-linux ;; m68knommu-*) basic_machine=m68k-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; m88k-omron*) basic_machine=m88k-omron ;; magnum | m3230) basic_machine=mips-mips os=-sysv ;; merlin) basic_machine=ns32k-utek os=-sysv ;; mingw32) basic_machine=i386-pc os=-mingw32 ;; mingw32ce) basic_machine=arm-unknown os=-mingw32ce ;; miniframe) basic_machine=m68000-convergent ;; *mint | -mint[0-9]* | *MiNT | *MiNT[0-9]*) basic_machine=m68k-atari os=-mint ;; mips3*-*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'` ;; mips3*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`-unknown ;; monitor) basic_machine=m68k-rom68k os=-coff ;; morphos) basic_machine=powerpc-unknown os=-morphos ;; msdos) basic_machine=i386-pc os=-msdos ;; ms1-*) basic_machine=`echo $basic_machine | sed -e 's/ms1-/mt-/'` ;; mvs) basic_machine=i370-ibm os=-mvs ;; ncr3000) basic_machine=i486-ncr os=-sysv4 ;; netbsd386) basic_machine=i386-unknown os=-netbsd ;; netwinder) basic_machine=armv4l-rebel os=-linux ;; news | news700 | news800 | news900) basic_machine=m68k-sony os=-newsos ;; news1000) basic_machine=m68030-sony os=-newsos ;; news-3600 | risc-news) basic_machine=mips-sony os=-newsos ;; necv70) basic_machine=v70-nec os=-sysv ;; next | m*-next ) basic_machine=m68k-next case $os in -nextstep* ) ;; -ns2*) os=-nextstep2 ;; *) os=-nextstep3 ;; esac ;; nh3000) basic_machine=m68k-harris os=-cxux ;; nh[45]000) basic_machine=m88k-harris os=-cxux ;; nindy960) basic_machine=i960-intel os=-nindy ;; mon960) basic_machine=i960-intel os=-mon960 ;; nonstopux) basic_machine=mips-compaq os=-nonstopux ;; np1) basic_machine=np1-gould ;; nsr-tandem) basic_machine=nsr-tandem ;; op50n-* | op60c-*) basic_machine=hppa1.1-oki os=-proelf ;; openrisc | openrisc-*) basic_machine=or32-unknown ;; os400) basic_machine=powerpc-ibm os=-os400 ;; OSE68000 | ose68000) basic_machine=m68000-ericsson os=-ose ;; os68k) basic_machine=m68k-none os=-os68k ;; pa-hitachi) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; paragon) basic_machine=i860-intel os=-osf ;; parisc) basic_machine=hppa-unknown os=-linux ;; parisc-*) basic_machine=hppa-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; pbd) basic_machine=sparc-tti ;; pbb) basic_machine=m68k-tti ;; pc532 | pc532-*) basic_machine=ns32k-pc532 ;; pc98) basic_machine=i386-pc ;; pc98-*) basic_machine=i386-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentium | p5 | k5 | k6 | nexgen | viac3) basic_machine=i586-pc ;; pentiumpro | p6 | 6x86 | athlon | athlon_*) basic_machine=i686-pc ;; pentiumii | pentium2 | pentiumiii | pentium3) basic_machine=i686-pc ;; pentium4) basic_machine=i786-pc ;; pentium-* | p5-* | k5-* | k6-* | nexgen-* | viac3-*) basic_machine=i586-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentiumpro-* | p6-* | 6x86-* | athlon-*) basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentiumii-* | pentium2-* | pentiumiii-* | pentium3-*) basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentium4-*) basic_machine=i786-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pn) basic_machine=pn-gould ;; power) basic_machine=power-ibm ;; ppc) basic_machine=powerpc-unknown ;; ppc-*) basic_machine=powerpc-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppcle | powerpclittle | ppc-le | powerpc-little) basic_machine=powerpcle-unknown ;; ppcle-* | powerpclittle-*) basic_machine=powerpcle-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppc64) basic_machine=powerpc64-unknown ;; ppc64-*) basic_machine=powerpc64-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppc64le | powerpc64little | ppc64-le | powerpc64-little) basic_machine=powerpc64le-unknown ;; 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We just wanted to have am__tar # and am__untar set. test -n "${am_cv_prog_tar_$1}" && break # tar/untar a dummy directory, and stop if the command works rm -rf conftest.dir mkdir conftest.dir echo GrepMe > conftest.dir/file AM_RUN_LOG([tardir=conftest.dir && eval $am__tar_ >conftest.tar]) rm -rf conftest.dir if test -s conftest.tar; then AM_RUN_LOG([$am__untar /dev/null 2>&1 && break fi done rm -rf conftest.dir AC_CACHE_VAL([am_cv_prog_tar_$1], [am_cv_prog_tar_$1=$_am_tool]) AC_MSG_RESULT([$am_cv_prog_tar_$1])]) AC_SUBST([am__tar]) AC_SUBST([am__untar]) ]) # _AM_PROG_TAR simstring-1.0/INSTALL0000644000076400007640000002713611344662066011374 00000000000000Installation Instructions ************************* Copyright (C) 1994, 1995, 1996, 1999, 2000, 2001, 2002, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc. This file is free documentation; the Free Software Foundation gives unlimited permission to copy, distribute and modify it. Basic Installation ================== Briefly, the shell commands `./configure; make; make install' should configure, build, and install this package. The following more-detailed instructions are generic; see the `README' file for instructions specific to this package. The `configure' shell script attempts to guess correct values for various system-dependent variables used during compilation. It uses those values to create a `Makefile' in each directory of the package. It may also create one or more `.h' files containing system-dependent definitions. Finally, it creates a shell script `config.status' that you can run in the future to recreate the current configuration, and a file `config.log' containing compiler output (useful mainly for debugging `configure'). It can also use an optional file (typically called `config.cache' and enabled with `--cache-file=config.cache' or simply `-C') that saves the results of its tests to speed up reconfiguring. Caching is disabled by default to prevent problems with accidental use of stale cache files. If you need to do unusual things to compile the package, please try to figure out how `configure' could check whether to do them, and mail diffs or instructions to the address given in the `README' so they can be considered for the next release. If you are using the cache, and at some point `config.cache' contains results you don't want to keep, you may remove or edit it. The file `configure.ac' (or `configure.in') is used to create `configure' by a program called `autoconf'. You need `configure.ac' if you want to change it or regenerate `configure' using a newer version of `autoconf'. The simplest way to compile this package is: 1. `cd' to the directory containing the package's source code and type `./configure' to configure the package for your system. Running `configure' might take a while. While running, it prints some messages telling which features it is checking for. 2. 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If the package supports it, you can cause programs to be installed with an extra prefix or suffix on their names by giving `configure' the option `--program-prefix=PREFIX' or `--program-suffix=SUFFIX'. Optional Features ================= Some packages pay attention to `--enable-FEATURE' options to `configure', where FEATURE indicates an optional part of the package. They may also pay attention to `--with-PACKAGE' options, where PACKAGE is something like `gnu-as' or `x' (for the X Window System). The `README' should mention any `--enable-' and `--with-' options that the package recognizes. For packages that use the X Window System, `configure' can usually find the X include and library files automatically, but if it doesn't, you can use the `configure' options `--x-includes=DIR' and `--x-libraries=DIR' to specify their locations. Particular systems ================== On HP-UX, the default C compiler is not ANSI C compatible. 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Until the bug is fixed you can use this workaround: CONFIG_SHELL=/bin/bash /bin/bash ./configure CONFIG_SHELL=/bin/bash `configure' Invocation ====================== `configure' recognizes the following options to control how it operates. `--help' `-h' Print a summary of all of the options to `configure', and exit. `--help=short' `--help=recursive' Print a summary of the options unique to this package's `configure', and exit. The `short' variant lists options used only in the top level, while the `recursive' variant lists options also present in any nested packages. `--version' `-V' Print the version of Autoconf used to generate the `configure' script, and exit. `--cache-file=FILE' Enable the cache: use and save the results of the tests in FILE, traditionally `config.cache'. FILE defaults to `/dev/null' to disable caching. `--config-cache' `-C' Alias for `--cache-file=config.cache'. `--quiet' `--silent' `-q' Do not print messages saying which checks are being made. To suppress all normal output, redirect it to `/dev/null' (any error messages will still be shown). `--srcdir=DIR' Look for the package's source code in directory DIR. Usually `configure' can determine that directory automatically. `--prefix=DIR' Use DIR as the installation prefix. *Note Installation Names:: for more details, including other options available for fine-tuning the installation locations. `--no-create' `-n' Run the configure checks, but stop before creating any output files. `configure' also accepts some other, not widely useful, options. Run `configure --help' for more details. simstring-1.0/win32/0000777000076400007640000000000011344663437011363 500000000000000simstring-1.0/win32/stdint.h0000644000076400007640000005417311344662045012761 00000000000000/* A portable stdint.h * * Copyright (c) 2005-2007 Paul Hsieh * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must not misrepresent the orignal * source in the documentation and/or other materials provided * with the distribution. * * The names of the authors nor its contributors may be used to * endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. * **************************************************************************** * * Version 0.1.8 * * The ANSI C standard committee, for the C99 standard, specified the * inclusion of a new standard include file called stdint.h. This is * a very useful and long desired include file which contains several * very precise definitions for integer scalar types that is * critically important for making portable several classes of * applications including cryptography, hashing, variable length * integer libraries and so on. But for most developers its likely * useful just for programming sanity. * * The problem is that most compiler vendors have decided not to * implement the C99 standard, and the next C++ language standard * (which has a lot more mindshare these days) will be a long time in * coming and its unknown whether or not it will include stdint.h or * how much adoption it will have. Either way, it will be a long time * before all compilers come with a stdint.h and it also does nothing * for the extremely large number of compilers available today which * do not include this file, or anything comparable to it. * * So that's what this file is all about. Its an attempt to build a * single universal include file that works on as many platforms as * possible to deliver what stdint.h is supposed to. A few things * that should be noted about this file: * * 1) It is not guaranteed to be portable and/or present an identical * interface on all platforms. The extreme variability of the * ANSI C standard makes this an impossibility right from the * very get go. Its really only meant to be useful for the vast * majority of platforms that possess the capability of * implementing usefully and precisely defined, standard sized * integer scalars. Systems which are not intrinsically 2s * complement may produce invalid constants. * * 2) There is an unavoidable use of non-reserved symbols. * * 3) Other standard include files are invoked. * * 4) This file may come in conflict with future platforms that do * include stdint.h. The hope is that one or the other can be * used with no real difference. * * 5) In the current verison, if your platform can't represent * int32_t, int16_t and int8_t, it just dumps out with a compiler * error. * * 6) 64 bit integers may or may not be defined. Test for their * presence with the test: #ifdef INT64_MAX or #ifdef UINT64_MAX. * Note that this is different from the C99 specification which * requires the existence of 64 bit support in the compiler. If * this is not defined for your platform, yet it is capable of * dealing with 64 bits then it is because this file has not yet * been extended to cover all of your system's capabilities. * * 7) (u)intptr_t may or may not be defined. Test for its presence * with the test: #ifdef PTRDIFF_MAX. If this is not defined * for your platform, then it is because this file has not yet * been extended to cover all of your system's capabilities, not * because its optional. * * 8) The following might not been defined even if your platform is * capable of defining it: * * WCHAR_MIN * WCHAR_MAX * (u)int64_t * PTRDIFF_MIN * PTRDIFF_MAX * (u)intptr_t * * 9) The following have not been defined: * * WINT_MIN * WINT_MAX * * 10) The criteria for defining (u)int_least(*)_t isn't clear, * except for systems which don't have a type that precisely * defined 8, 16, or 32 bit types (which this include file does * not support anyways). Default definitions have been given. * * 11) The criteria for defining (u)int_fast(*)_t isn't something I * would trust to any particular compiler vendor or the ANSI C * committee. It is well known that "compatible systems" are * commonly created that have very different performance * characteristics from the systems they are compatible with, * especially those whose vendors make both the compiler and the * system. Default definitions have been given, but its strongly * recommended that users never use these definitions for any * reason (they do *NOT* deliver any serious guarantee of * improved performance -- not in this file, nor any vendor's * stdint.h). * * 12) The following macros: * * PRINTF_INTMAX_MODIFIER * PRINTF_INT64_MODIFIER * PRINTF_INT32_MODIFIER * PRINTF_INT16_MODIFIER * PRINTF_LEAST64_MODIFIER * PRINTF_LEAST32_MODIFIER * PRINTF_LEAST16_MODIFIER * PRINTF_INTPTR_MODIFIER * * are strings which have been defined as the modifiers required * for the "d", "u" and "x" printf formats to correctly output * (u)intmax_t, (u)int64_t, (u)int32_t, (u)int16_t, (u)least64_t, * (u)least32_t, (u)least16_t and (u)intptr_t types respectively. * PRINTF_INTPTR_MODIFIER is not defined for some systems which * provide their own stdint.h. PRINTF_INT64_MODIFIER is not * defined if INT64_MAX is not defined. These are an extension * beyond what C99 specifies must be in stdint.h. * * In addition, the following macros are defined: * * PRINTF_INTMAX_HEX_WIDTH * PRINTF_INT64_HEX_WIDTH * PRINTF_INT32_HEX_WIDTH * PRINTF_INT16_HEX_WIDTH * PRINTF_INT8_HEX_WIDTH * PRINTF_INTMAX_DEC_WIDTH * PRINTF_INT64_DEC_WIDTH * PRINTF_INT32_DEC_WIDTH * PRINTF_INT16_DEC_WIDTH * PRINTF_INT8_DEC_WIDTH * * Which specifies the maximum number of characters required to * print the number of that type in either hexadecimal or decimal. * These are an extension beyond what C99 specifies must be in * stdint.h. * * Compilers tested (all with 0 warnings at their highest respective * settings): Borland Turbo C 2.0, WATCOM C/C++ 11.0 (16 bits and 32 * bits), Microsoft Visual C++ 6.0 (32 bit), Microsoft Visual Studio * .net (VC7), Intel C++ 4.0, GNU gcc v3.3.3 * * This file should be considered a work in progress. Suggestions for * improvements, especially those which increase coverage are strongly * encouraged. * * Acknowledgements * * The following people have made significant contributions to the * development and testing of this file: * * Chris Howie * John Steele Scott * Dave Thorup * */ #include #include #include /* * For gcc with _STDINT_H, fill in the PRINTF_INT*_MODIFIER macros, and * do nothing else. On the Mac OS X version of gcc this is _STDINT_H_. */ #if ((defined(__STDC__) && __STDC__ && __STDC_VERSION__ >= 199901L) || (defined (__WATCOMC__) && (defined (_STDINT_H_INCLUDED) || __WATCOMC__ >= 1250)) || (defined(__GNUC__) && (defined(_STDINT_H) || defined(_STDINT_H_)) )) && !defined (_PSTDINT_H_INCLUDED) #include #define _PSTDINT_H_INCLUDED # ifndef PRINTF_INT64_MODIFIER # define PRINTF_INT64_MODIFIER "ll" # endif # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "l" # endif # ifndef PRINTF_INT16_MODIFIER # define PRINTF_INT16_MODIFIER "h" # endif # ifndef PRINTF_INTMAX_MODIFIER # define PRINTF_INTMAX_MODIFIER PRINTF_INT64_MODIFIER # endif # ifndef PRINTF_INT64_HEX_WIDTH # define PRINTF_INT64_HEX_WIDTH "16" # endif # ifndef PRINTF_INT32_HEX_WIDTH # define PRINTF_INT32_HEX_WIDTH "8" # endif # ifndef PRINTF_INT16_HEX_WIDTH # define PRINTF_INT16_HEX_WIDTH "4" # endif # ifndef PRINTF_INT8_HEX_WIDTH # define PRINTF_INT8_HEX_WIDTH "2" # endif # ifndef PRINTF_INT64_DEC_WIDTH # define PRINTF_INT64_DEC_WIDTH "20" # endif # ifndef PRINTF_INT32_DEC_WIDTH # define PRINTF_INT32_DEC_WIDTH "10" # endif # ifndef PRINTF_INT16_DEC_WIDTH # define PRINTF_INT16_DEC_WIDTH "5" # endif # ifndef PRINTF_INT8_DEC_WIDTH # define PRINTF_INT8_DEC_WIDTH "3" # endif # ifndef PRINTF_INTMAX_HEX_WIDTH # define PRINTF_INTMAX_HEX_WIDTH PRINTF_INT64_HEX_WIDTH # endif # ifndef PRINTF_INTMAX_DEC_WIDTH # define PRINTF_INTMAX_DEC_WIDTH PRINTF_INT64_DEC_WIDTH # endif #endif #ifndef _PSTDINT_H_INCLUDED #define _PSTDINT_H_INCLUDED #ifndef SIZE_MAX # define SIZE_MAX (~(size_t)0) #endif /* * Deduce the type assignments from limits.h under the assumption that * integer sizes in bits are powers of 2, and follow the ANSI * definitions. */ #ifndef UINT8_MAX # define UINT8_MAX 0xff #endif #ifndef uint8_t # if (UCHAR_MAX == UINT8_MAX) || defined (S_SPLINT_S) typedef unsigned char uint8_t; # define UINT8_C(v) ((uint8_t) v) # else # error "Platform not supported" # endif #endif #ifndef INT8_MAX # define INT8_MAX 0x7f #endif #ifndef INT8_MIN # define INT8_MIN INT8_C(0x80) #endif #ifndef int8_t # if (SCHAR_MAX == INT8_MAX) || defined (S_SPLINT_S) typedef signed char int8_t; # define INT8_C(v) ((int8_t) v) # else # error "Platform not supported" # endif #endif #ifndef UINT16_MAX # define UINT16_MAX 0xffff #endif #ifndef uint16_t #if (UINT_MAX == UINT16_MAX) || defined (S_SPLINT_S) typedef unsigned int uint16_t; # ifndef PRINTF_INT16_MODIFIER # define PRINTF_INT16_MODIFIER "" # endif # define UINT16_C(v) ((uint16_t) (v)) #elif (USHRT_MAX == UINT16_MAX) typedef unsigned short uint16_t; # define UINT16_C(v) ((uint16_t) (v)) # ifndef PRINTF_INT16_MODIFIER # define PRINTF_INT16_MODIFIER "h" # endif #else #error "Platform not supported" #endif #endif #ifndef INT16_MAX # define INT16_MAX 0x7fff #endif #ifndef INT16_MIN # define INT16_MIN INT16_C(0x8000) #endif #ifndef int16_t #if (INT_MAX == INT16_MAX) || defined (S_SPLINT_S) typedef signed int int16_t; # define INT16_C(v) ((int16_t) (v)) # ifndef PRINTF_INT16_MODIFIER # define PRINTF_INT16_MODIFIER "" # endif #elif (SHRT_MAX == INT16_MAX) typedef signed short int16_t; # define INT16_C(v) ((int16_t) (v)) # ifndef PRINTF_INT16_MODIFIER # define PRINTF_INT16_MODIFIER "h" # endif #else #error "Platform not supported" #endif #endif #ifndef UINT32_MAX # define UINT32_MAX (0xffffffffUL) #endif #ifndef uint32_t #if (ULONG_MAX == UINT32_MAX) || defined (S_SPLINT_S) typedef unsigned long uint32_t; # define UINT32_C(v) v ## UL # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "l" # endif #elif (UINT_MAX == UINT32_MAX) typedef unsigned int uint32_t; # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "" # endif # define UINT32_C(v) v ## U #elif (USHRT_MAX == UINT32_MAX) typedef unsigned short uint32_t; # define UINT32_C(v) ((unsigned short) (v)) # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "" # endif #else #error "Platform not supported" #endif #endif #ifndef INT32_MAX # define INT32_MAX (0x7fffffffL) #endif #ifndef INT32_MIN # define INT32_MIN INT32_C(0x80000000) #endif #ifndef int32_t #if (LONG_MAX == INT32_MAX) || defined (S_SPLINT_S) typedef signed long int32_t; # define INT32_C(v) v ## L # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "l" # endif #elif (INT_MAX == INT32_MAX) typedef signed int int32_t; # define INT32_C(v) v # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "" # endif #elif (SHRT_MAX == INT32_MAX) typedef signed short int32_t; # define INT32_C(v) ((short) (v)) # ifndef PRINTF_INT32_MODIFIER # define PRINTF_INT32_MODIFIER "" # endif #else #error "Platform not supported" #endif #endif /* * The macro stdint_int64_defined is temporarily used to record * whether or not 64 integer support is available. It must be * defined for any 64 integer extensions for new platforms that are * added. */ #undef stdint_int64_defined #if (defined(__STDC__) && defined(__STDC_VERSION__)) || defined (S_SPLINT_S) # if (__STDC__ && __STDC_VERSION >= 199901L) || defined (S_SPLINT_S) # define stdint_int64_defined typedef long long int64_t; typedef unsigned long long uint64_t; # define UINT64_C(v) v ## ULL # define INT64_C(v) v ## LL # ifndef PRINTF_INT64_MODIFIER # define PRINTF_INT64_MODIFIER "ll" # endif # endif #endif #if !defined (stdint_int64_defined) # if defined(__GNUC__) # define stdint_int64_defined __extension__ typedef long long int64_t; __extension__ typedef unsigned long long uint64_t; # define UINT64_C(v) v ## ULL # define INT64_C(v) v ## LL # ifndef PRINTF_INT64_MODIFIER # define PRINTF_INT64_MODIFIER "ll" # endif # elif defined(__MWERKS__) || defined (__SUNPRO_C) || defined (__SUNPRO_CC) || defined (__APPLE_CC__) || defined (_LONG_LONG) || defined (_CRAYC) || defined (S_SPLINT_S) # define stdint_int64_defined typedef long long int64_t; typedef unsigned long long uint64_t; # define UINT64_C(v) v ## ULL # define INT64_C(v) v ## LL # ifndef PRINTF_INT64_MODIFIER # define PRINTF_INT64_MODIFIER "ll" # endif # elif (defined(__WATCOMC__) && defined(__WATCOM_INT64__)) || (defined(_MSC_VER) && _INTEGRAL_MAX_BITS >= 64) || (defined (__BORLANDC__) && __BORLANDC__ > 0x460) || defined (__alpha) || defined (__DECC) # define stdint_int64_defined typedef __int64 int64_t; typedef unsigned __int64 uint64_t; # define UINT64_C(v) v ## UI64 # define INT64_C(v) v ## I64 # ifndef PRINTF_INT64_MODIFIER # define PRINTF_INT64_MODIFIER "I64" # endif # endif #endif #if !defined (LONG_LONG_MAX) && defined (INT64_C) # define LONG_LONG_MAX INT64_C (9223372036854775807) #endif #ifndef ULONG_LONG_MAX # define ULONG_LONG_MAX UINT64_C (18446744073709551615) #endif #if !defined (INT64_MAX) && defined (INT64_C) # define INT64_MAX INT64_C (9223372036854775807) #endif #if !defined (INT64_MIN) && defined (INT64_C) # define INT64_MIN INT64_C (-9223372036854775808) #endif #if !defined (UINT64_MAX) && defined (INT64_C) # define UINT64_MAX UINT64_C (18446744073709551615) #endif /* * Width of hexadecimal for number field. */ #ifndef PRINTF_INT64_HEX_WIDTH # define PRINTF_INT64_HEX_WIDTH "16" #endif #ifndef PRINTF_INT32_HEX_WIDTH # define PRINTF_INT32_HEX_WIDTH "8" #endif #ifndef PRINTF_INT16_HEX_WIDTH # define PRINTF_INT16_HEX_WIDTH "4" #endif #ifndef PRINTF_INT8_HEX_WIDTH # define PRINTF_INT8_HEX_WIDTH "2" #endif #ifndef PRINTF_INT64_DEC_WIDTH # define PRINTF_INT64_DEC_WIDTH "20" #endif #ifndef PRINTF_INT32_DEC_WIDTH # define PRINTF_INT32_DEC_WIDTH "10" #endif #ifndef PRINTF_INT16_DEC_WIDTH # define PRINTF_INT16_DEC_WIDTH "5" #endif #ifndef PRINTF_INT8_DEC_WIDTH # define PRINTF_INT8_DEC_WIDTH "3" #endif /* * Ok, lets not worry about 128 bit integers for now. Moore's law says * we don't need to worry about that until about 2040 at which point * we'll have bigger things to worry about. */ #ifdef stdint_int64_defined typedef int64_t intmax_t; typedef uint64_t uintmax_t; # define INTMAX_MAX INT64_MAX # define INTMAX_MIN INT64_MIN # define UINTMAX_MAX UINT64_MAX # define UINTMAX_C(v) UINT64_C(v) # define INTMAX_C(v) INT64_C(v) # ifndef PRINTF_INTMAX_MODIFIER # define PRINTF_INTMAX_MODIFIER PRINTF_INT64_MODIFIER # endif # ifndef PRINTF_INTMAX_HEX_WIDTH # define PRINTF_INTMAX_HEX_WIDTH PRINTF_INT64_HEX_WIDTH # endif # ifndef PRINTF_INTMAX_DEC_WIDTH # define PRINTF_INTMAX_DEC_WIDTH PRINTF_INT64_DEC_WIDTH # endif #else typedef int32_t intmax_t; typedef uint32_t uintmax_t; # define INTMAX_MAX INT32_MAX # define UINTMAX_MAX UINT32_MAX # define UINTMAX_C(v) UINT32_C(v) # define INTMAX_C(v) INT32_C(v) # ifndef PRINTF_INTMAX_MODIFIER # define PRINTF_INTMAX_MODIFIER PRINTF_INT32_MODIFIER # endif # ifndef PRINTF_INTMAX_HEX_WIDTH # define PRINTF_INTMAX_HEX_WIDTH PRINTF_INT32_HEX_WIDTH # endif # ifndef PRINTF_INTMAX_DEC_WIDTH # define PRINTF_INTMAX_DEC_WIDTH PRINTF_INT32_DEC_WIDTH # endif #endif /* * Because this file currently only supports platforms which have * precise powers of 2 as bit sizes for the default integers, the * least definitions are all trivial. Its possible that a future * version of this file could have different definitions. */ #ifndef stdint_least_defined typedef int8_t int_least8_t; typedef uint8_t uint_least8_t; typedef int16_t int_least16_t; typedef uint16_t uint_least16_t; typedef int32_t int_least32_t; typedef uint32_t uint_least32_t; # define PRINTF_LEAST32_MODIFIER PRINTF_INT32_MODIFIER # define PRINTF_LEAST16_MODIFIER PRINTF_INT16_MODIFIER # define UINT_LEAST8_MAX UINT8_MAX # define INT_LEAST8_MAX INT8_MAX # define UINT_LEAST16_MAX UINT16_MAX # define INT_LEAST16_MAX INT16_MAX # define UINT_LEAST32_MAX UINT32_MAX # define INT_LEAST32_MAX INT32_MAX # define INT_LEAST8_MIN INT8_MIN # define INT_LEAST16_MIN INT16_MIN # define INT_LEAST32_MIN INT32_MIN # ifdef stdint_int64_defined typedef int64_t int_least64_t; typedef uint64_t uint_least64_t; # define PRINTF_LEAST64_MODIFIER PRINTF_INT64_MODIFIER # define UINT_LEAST64_MAX UINT64_MAX # define INT_LEAST64_MAX INT64_MAX # define INT_LEAST64_MIN INT64_MIN # endif #endif #undef stdint_least_defined /* * The ANSI C committee pretending to know or specify anything about * performance is the epitome of misguided arrogance. The mandate of * this file is to *ONLY* ever support that absolute minimum * definition of the fast integer types, for compatibility purposes. * No extensions, and no attempt to suggest what may or may not be a * faster integer type will ever be made in this file. Developers are * warned to stay away from these types when using this or any other * stdint.h. */ typedef int_least8_t int_fast8_t; typedef uint_least8_t uint_fast8_t; typedef int_least16_t int_fast16_t; typedef uint_least16_t uint_fast16_t; typedef int_least32_t int_fast32_t; typedef uint_least32_t uint_fast32_t; #define UINT_FAST8_MAX UINT_LEAST8_MAX #define INT_FAST8_MAX INT_LEAST8_MAX #define UINT_FAST16_MAX UINT_LEAST16_MAX #define INT_FAST16_MAX INT_LEAST16_MAX #define UINT_FAST32_MAX UINT_LEAST32_MAX #define INT_FAST32_MAX INT_LEAST32_MAX #define INT_FAST8_MIN IN_LEASTT8_MIN #define INT_FAST16_MIN INT_LEAST16_MIN #define INT_FAST32_MIN INT_LEAST32_MIN #ifdef stdint_int64_defined typedef int_least64_t int_fast64_t; typedef uint_least64_t uint_fast64_t; # define UINT_FAST64_MAX UINT_LEAST64_MAX # define INT_FAST64_MAX INT_LEAST64_MAX # define INT_FAST64_MIN INT_LEAST64_MIN #endif #undef stdint_int64_defined /* * Whatever piecemeal, per compiler thing we can do about the wchar_t * type limits. */ #if defined(__WATCOMC__) || defined(_MSC_VER) || defined (__GNUC__) # include # ifndef WCHAR_MIN # define WCHAR_MIN 0 # endif # ifndef WCHAR_MAX # define WCHAR_MAX ((wchar_t)-1) # endif #endif /* * Whatever piecemeal, per compiler/platform thing we can do about the * (u)intptr_t types and limits. */ #if defined (_MSC_VER) && defined (_UINTPTR_T_DEFINED) # define STDINT_H_UINTPTR_T_DEFINED #endif #ifndef STDINT_H_UINTPTR_T_DEFINED # if defined (__alpha__) || defined (__ia64__) || defined (__x86_64__) || defined (_WIN64) # define stdint_intptr_bits 64 # elif defined (__WATCOMC__) || defined (__TURBOC__) # if defined(__TINY__) || defined(__SMALL__) || defined(__MEDIUM__) # define stdint_intptr_bits 16 # else # define stdint_intptr_bits 32 # endif # elif defined (__i386__) || defined (_WIN32) || defined (WIN32) # define stdint_intptr_bits 32 # elif defined (__INTEL_COMPILER) /* TODO -- what will Intel do about x86-64? */ # endif # ifdef stdint_intptr_bits # define stdint_intptr_glue3_i(a,b,c) a##b##c # define stdint_intptr_glue3(a,b,c) stdint_intptr_glue3_i(a,b,c) # ifndef PRINTF_INTPTR_MODIFIER # define PRINTF_INTPTR_MODIFIER stdint_intptr_glue3(PRINTF_INT,stdint_intptr_bits,_MODIFIER) # endif # ifndef PTRDIFF_MAX # define PTRDIFF_MAX stdint_intptr_glue3(INT,stdint_intptr_bits,_MAX) # endif # ifndef PTRDIFF_MIN # define PTRDIFF_MIN stdint_intptr_glue3(INT,stdint_intptr_bits,_MIN) # endif # ifndef UINTPTR_MAX # define UINTPTR_MAX stdint_intptr_glue3(UINT,stdint_intptr_bits,_MAX) # endif # ifndef INTPTR_MAX # define INTPTR_MAX stdint_intptr_glue3(INT,stdint_intptr_bits,_MAX) # endif # ifndef INTPTR_MIN # define INTPTR_MIN stdint_intptr_glue3(INT,stdint_intptr_bits,_MIN) # endif # ifndef INTPTR_C # define INTPTR_C(x) stdint_intptr_glue3(INT,stdint_intptr_bits,_C)(x) # endif # ifndef UINTPTR_C # define UINTPTR_C(x) stdint_intptr_glue3(UINT,stdint_intptr_bits,_C)(x) # endif typedef stdint_intptr_glue3(uint,stdint_intptr_bits,_t) uintptr_t; typedef stdint_intptr_glue3( int,stdint_intptr_bits,_t) intptr_t; # else /* TODO -- This following is likely wrong for some platforms, and does nothing for the definition of uintptr_t. */ typedef ptrdiff_t intptr_t; # endif # define STDINT_H_UINTPTR_T_DEFINED #endif /* * Assumes sig_atomic_t is signed and we have a 2s complement machine. */ #ifndef SIG_ATOMIC_MAX # define SIG_ATOMIC_MAX ((((sig_atomic_t) 1) << (sizeof (sig_atomic_t)*CHAR_BIT-1)) - 1) #endif #endif simstring-1.0/NEWS0000644000076400007640000000000011344662045011014 00000000000000simstring-1.0/missing0000755000076400007640000002623311344662066011737 00000000000000#! /bin/sh # Common stub for a few missing GNU programs while installing. scriptversion=2009-04-28.21; # UTC # Copyright (C) 1996, 1997, 1999, 2000, 2002, 2003, 2004, 2005, 2006, # 2008, 2009 Free Software Foundation, Inc. # Originally by Fran,cois Pinard , 1996. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2, or (at your option) # any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program. If not, see . # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. if test $# -eq 0; then echo 1>&2 "Try \`$0 --help' for more information" exit 1 fi run=: sed_output='s/.* --output[ =]\([^ ]*\).*/\1/p' sed_minuso='s/.* -o \([^ ]*\).*/\1/p' # In the cases where this matters, `missing' is being run in the # srcdir already. if test -f configure.ac; then configure_ac=configure.ac else configure_ac=configure.in fi msg="missing on your system" case $1 in --run) # Try to run requested program, and just exit if it succeeds. run= shift "$@" && exit 0 # Exit code 63 means version mismatch. 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# UTC # This originates from X11R5 (mit/util/scripts/install.sh), which was # later released in X11R6 (xc/config/util/install.sh) with the # following copyright and license. # # Copyright (C) 1994 X Consortium # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to # deal in the Software without restriction, including without limitation the # rights to use, copy, modify, merge, publish, distribute, sublicense, and/or # sell copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the names of the authors nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. simstring-1.0/include/0000777000076400007640000000000011344663437012044 500000000000000simstring-1.0/include/Makefile.in0000644000076400007640000003213211344662066014023 00000000000000# Makefile.in generated by automake 1.11 from Makefile.am. # @configure_input@ # Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, # 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, # Inc. # This Makefile.in is free software; the Free Software Foundation # gives unlimited permission to copy and/or distribute it, # with or without modifications, as long as this notice is preserved. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY, to the extent permitted by law; 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IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: memory_mapped_file.h 85 2010-02-23 17:23:34Z naoaki $ */ #ifndef __MEMORY_MAPPED_FILE_H__ #define __MEMORY_MAPPED_FILE_H__ #include #include class memory_mapped_file_base { public: typedef size_t size_type; memory_mapped_file_base() {} virtual ~memory_mapped_file_base() {} void open(const std::string& path, std::ios_base::openmode mode) {} bool is_open() const {return false; } void close() {} void resize(size_type size) {} size_type size() const {return 0; } char* data() const {return NULL; } const char* const_data() const {return NULL; } static int alignment() {return 0; } }; #if defined(_WIN32) #include "memory_mapped_file_win32.h" #define memory_mapped_file memory_mapped_file_win32 #else #include "memory_mapped_file_posix.h" #define memory_mapped_file memory_mapped_file_posix #endif #endif/*__MEMORY_MAPPED_FILE_H__*/ simstring-1.0/include/simstring/ngram.h0000644000076400007640000001233011344662045015245 00000000000000/* * N-gram generator. * * Copyright (c) 2009,2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: ngram.h 84 2010-02-22 12:37:32Z naoaki $ */ #ifndef __NGRAM_H__ #define __NGRAM_H__ #include #include #include namespace simstring { /** * Obtain a set of letter n-grams in a string. * @param str The string. * @param ins The insert iterator that receives the set of n-grams. * @param n The unit of n-grams. * @param be \c true to generate n-grams that encode begin and end of * a string. */ template < class string_type, class insert_iterator > static void ngrams( const string_type& str, insert_iterator ins, int n, bool be ) { typedef typename string_type::value_type char_type; typedef std::basic_stringstream stringstream_type; typedef std::map ngram_stat_type; const char_type mark = (char_type)0x01; string_type src; if (be) { // Append marks for begin/end of the string. for (int i = 0;i < n-1;++i) src += mark; src += str; for (int i = 0;i < n-1;++i) src += mark; } else if ((int)str.length() < n) { // Pad marks when the string is shorter than n. src = str; for (int i = 0;i < n - (int)str.length();++i) { src += mark; } } else { src = str; } // Count n-grams in the string. ngram_stat_type stat; for (typename string_type::size_type i = 0;i < src.length()-n+1;++i) { string_type ngram = src.substr(i, n); ++stat[ngram]; } // Convert the n-gram stat into a set. typename ngram_stat_type::const_iterator it; for (it = stat.begin();it != stat.end();++it) { *ins = it->first; // Append numbers if the same n-gram occurs more than once. for (int i = 2;i <= it->second;++i) { stringstream_type ss; ss << it->first << i; *ins = ss.str(); } } } /** * N-gram generator. * * This class generates n-grams for a string. */ class ngram_generator { protected: int m_n; ///< The unit of n-grams. bool m_be; ///< The flag for begin/end of tokens. public: /** * Constructs an instance as a tri-gram generator. */ ngram_generator() : m_n(3), m_be(false) { } /** * Constructs an instance as an n-gram generator. * @param n The unit of n-grams. * @param be \c true to generate n-grams that encode begin and * end of a string. */ ngram_generator(int n, bool be=false) : m_n(n), m_be(be) { } /** * Sets the parameters for n-gram generation. * @param n The unit of n-grams. * @param be \c true to generate n-grams that encode begin and * end of a string. */ void set(int n, bool be=false) { m_n = n; m_be = be; } /** * Gets the unit of n-grams. * @return int The unit of n-grams. */ int get_n() const { return m_n; } /** * Gets the flag for representing a begin/end of letters. * @return bool \c true if n-grams encoding the begin and end of a * string are generated. */ bool get_be() const { return m_be; } /** * Obtain a set of letter n-grams in a string. * @param str The string. * @param ins The insert iterator that receives the set of n-grams. */ template void operator()(const string_type& str, insert_iterator ins) const { ngrams(str, ins, m_n, m_be); } }; }; #endif/*__NGRAM_H__*/ simstring-1.0/include/simstring/memory_mapped_file_posix.h0000644000076400007640000001155011344662045021223 00000000000000/* * Memory-mapped-file implementation for POSIX. * * Copyright (c) 2008-2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: memory_mapped_file_posix.h 85 2010-02-23 17:23:34Z naoaki $ */ #ifndef __MEMORY_MAPPED_FILE_POSIX_H__ #define __MEMORY_MAPPED_FILE_POSIX_H__ #include #include #include #include #include #include #include class memory_mapped_file_posix : public memory_mapped_file_base { public: typedef size_t size_type; protected: int m_fd; std::ios_base::openmode m_mode; void* m_data; size_type m_size; public: memory_mapped_file_posix() { m_fd = -1; m_mode = std::ios_base::in; m_data = NULL; m_size = 0; } virtual ~memory_mapped_file_posix() { close(); } void open(const std::string& path, std::ios_base::openmode mode) { int flags = 0; struct stat buf; if (mode & std::ios_base::in) { flags = O_RDONLY; } if (mode & std::ios_base::out) { flags = O_RDWR | O_CREAT; } if (mode & std::ios_base::trunc) { flags |= (O_RDWR | O_TRUNC); } m_fd = ::open(path.c_str(), flags, S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH); if (m_fd != -1) { if (::fstat(m_fd, &buf) == 0) { m_mode = mode; this->resize((size_type)buf.st_size); } else { ::close(m_fd); m_fd = -1; } } } bool is_open() const { return (m_fd != -1); } void close() { this->free(); if (m_fd != -1) { ::close(m_fd); m_fd = -1; } } bool resize(size_type size) { if (size == 0) { this->free(); return true; } if (m_fd == -1) { return false; } this->free(); if ((m_mode & std::ios_base::out) && m_size < size) { /* Try to expand the file to the specified size. */ if (::lseek(m_size, size, SEEK_SET) >= 0) { char c; if (read(m_fd, &c, sizeof(char)) == -1) { c = 0; } if (write(m_fd, &c, sizeof(char)) == -1) { return false; // Failed to write the last position. } } else { return false; // Failed to expand the file. } } /* Map the file into process memory. */ m_data = ::mmap( NULL, size, (m_mode & std::ios_base::out) ? (PROT_READ | PROT_WRITE) : PROT_READ, MAP_SHARED, m_fd, 0); m_size = size; return true; } void free() { if (m_data != NULL) { ::munmap(m_data, m_size); m_data = NULL; } m_size = 0; } size_type size() const { return m_size; } char* data() const { return reinterpret_cast(m_data); } const char* const_data() const { return reinterpret_cast(m_data); } static int alignment() { return 0; } }; #endif/*__MEMORY_MAPPED_FILE_POSIX_H__*/ simstring-1.0/include/simstring/measure.h0000644000076400007640000000777511344662045015623 00000000000000/* * SimString similarity measures. * * Copyright (c) 2009,2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: measure.h 104 2010-03-07 07:43:40Z naoaki $ */ #ifndef __SIMSTRING_MEASURE_H__ #define __SIMSTRING_MEASURE_H__ #include namespace simstring { namespace measure { /** * This class implements the traits of exact matching. */ struct exact { inline static int min_size(int qsize, double alpha) { return qsize; } inline static int max_size(int qsize, double alpha) { return qsize; } inline static int min_match(int qsize, int rsize, double alpha) { return qsize; } }; /** * This class implements the traits of dice coefficient. */ struct dice { inline static int min_size(int qsize, double alpha) { return (int)std::ceil(alpha * qsize / (2. - qsize)); } inline static int max_size(int qsize, double alpha) { return (int)std::floor((2. - alpha) * qsize / alpha); } inline static int min_match(int qsize, int rsize, double alpha) { return (int)std::ceil(0.5 * alpha * (qsize + rsize)); } }; /** * This class implements the traits of cosine coefficient. */ struct cosine { inline static int min_size(int qsize, double alpha) { return (int)std::ceil(alpha * alpha * qsize); } inline static int max_size(int qsize, double alpha) { return (int)std::floor(qsize / (alpha * alpha)); } inline static int min_match(int qsize, int rsize, double alpha) { return (int)std::ceil(alpha * std::sqrt((double)qsize * rsize)); } }; /** * This class implements the traits of Jaccard coefficient. */ struct jaccard { inline static int min_size(int qsize, double alpha) { return (int)std::ceil(alpha * qsize); } inline static int max_size(int qsize, double alpha) { return (int)std::floor(qsize / alpha); } inline static int min_match(int qsize, int rsize, double alpha) { return (int)std::ceil(alpha * (qsize + rsize) / (1 + alpha)); } }; /** * This class implements the traits of overlap coefficient. */ struct overlap { inline static int min_size(int qsize, double alpha) { return 1; } inline static int max_size(int qsize, double alpha) { return (int)INT_MAX; } inline static int min_match(int qsize, int rsize, double alpha) { return (int)std::ceil(alpha * std::min(qsize, rsize)); } }; }; }; #endif/*__SIMSTRING_MEASURE_H__*/ simstring-1.0/include/simstring/simstring.h0000644000076400007640000007345311344662045016175 00000000000000/* * SimString. * * Copyright (c) 2009,2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: simstring.h 106 2010-03-07 08:15:49Z naoaki $ */ #ifndef __SIMSTRING_H__ #define __SIMSTRING_H__ #include #include #include #include #include #include #include #include #include #include #include #include #include "ngram.h" #include "measure.h" #include "cdbpp.h" #include "memory_mapped_file.h" #define SIMSTRING_NAME "SimString" #define SIMSTRING_COPYRIGHT "Copyright (c) 2009,2010 Naoaki Okazaki" #define SIMSTRING_MAJOR_VERSION 1 #define SIMSTRING_MINOR_VERSION 0 #define SIMSTRING_STREAM_VERSION 2 /** * \addtogroup api SimString C++ API * @{ * * The SimString C++ API. */ namespace simstring { enum { BYTEORDER_CHECK = 0x62445371, }; /** * Query types. */ enum { /// Exact match. exact = 0, /// Approximate string matching with dice coefficient. dice, /// Approximate string matching with cosine coefficient. cosine, /// Approximate string matching with jaccard coefficient. jaccard, /// Approximate string matching with overlap coefficient. overlap, }; /** * A writer for an n-gram database. * This template class builds an n-gram database. The first template * argument (string_tmpl) specifies the type of a key (string), the second * template argument (value_tmpl) specifies the type of a value associated * with a key, and the third template argument (ngram_generator_tmpl) * customizes generation of feature sets (n-grams) from keys. * * This class is inherited by writer_base, which adds the functionality of * managing a master string table (list of strings). * * @param string_tmpl The type of a string. * @param value_tmpl The value type. * This is required to be an integer type. * @param ngram_generator_tmpl The type of an n-gram generator. */ template < class string_tmpl, class value_tmpl, class ngram_generator_tmpl > class ngramdb_writer_base { public: /// The type representing a string. typedef string_tmpl string_type; /// The type of values associated with key strings. typedef value_tmpl value_type; /// The function type for generating n-grams from a key string. typedef ngram_generator_tmpl ngram_generator_type; /// The type representing a character. typedef typename string_type::value_type char_type; protected: /// The type of an array of n-grams. typedef std::vector ngrams_type; /// The vector type of values associated with an n-gram. typedef std::vector values_type; /// The type implementing an index (associations from n-grams to values). typedef std::map hashdb_type; /// The vector of indices for different n-gram sizes. typedef std::vector indices_type; protected: /// The vector of indices. indices_type m_indices; /// The n-gram generator. const ngram_generator_type& m_gen; /// The error message. std::stringstream m_error; public: /** * Constructs an object. * @param gen The n-gram generator. */ ngramdb_writer_base(const ngram_generator_type& gen) : m_gen(gen) { } /** * Destructs an object. */ virtual ~ngramdb_writer_base() { } /** * Clears the database. */ void clear() { m_indices.clear(); m_error.str(""); } /** * Checks whether the database is empty. * @return bool \c true if the database is empty, \c false otherwise. */ bool empty() { return m_indices.empty(); } /** * Returns the maximum length of keys in the n-gram database. * @return int The maximum length of keys. */ int max_size() const { return (int)m_indices.size(); } /** * Checks whether an error has occurred. * @return bool \c true if an error has occurred. */ bool fail() const { return !m_error.str().empty(); } /** * Returns an error message. * @return std::string The string of the error message. */ std::string error() const { return m_error.str(); } /** * Inserts a string to the n-gram database. * @param key The key string. * @param value The value associated with the string. */ bool insert(const string_type& key, const value_type& value) { // Generate n-grams from the key string. ngrams_type ngrams; m_gen(key, std::back_inserter(ngrams)); if (ngrams.empty()) { return false; } // Resize the index array for the number of the n-grams; // we build an index for each n-gram number. if (m_indices.size() < ngrams.size()) { m_indices.resize(ngrams.size()); } hashdb_type& index = m_indices[ngrams.size()-1]; // Store the associations from the n-grams to the value. typename ngrams_type::const_iterator it; for (it = ngrams.begin();it != ngrams.end();++it) { const string_type& ngram = *it; typename hashdb_type::iterator iti = index.find(ngram); if (iti == index.end()) { // Create a new posting array. values_type v(1); v[0] = value; index.insert(typename hashdb_type::value_type(ngram, v)); } else { // Append the value to the existing posting array. iti->second.push_back(value); } } return true; } /** * Stores the n-gram database to files. * @param name The prefix of file names. * @return bool \c true if the database is successfully stored, * \c false otherwise. */ bool store(const std::string& base) { // Write out all the indices to files. for (int i = 0;i < (int)m_indices.size();++i) { if (!m_indices[i].empty()) { std::stringstream ss; ss << base << '.' << i+1 << ".cdb"; bool b = this->store(ss.str(), m_indices[i]); if (!b) { return false; } } } return true; } protected: bool store(const std::string& name, const hashdb_type& index) { // Open the database file with binary mode. std::ofstream ofs(name.c_str(), std::ios::binary); if (ofs.fail()) { m_error << "Failed to open a file for writing: " << name; return false; } try { // Open a CDB++ writer. cdbpp::builder dbw(ofs); // Put associations: n-gram -> values. typename hashdb_type::const_iterator it; for (it = index.begin();it != index.end();++it) { // Put an association from an n-gram to its values. dbw.put( it->first.c_str(), sizeof(char_type) * it->first.length(), &it->second[0], sizeof(it->second[0]) * it->second.size() ); } } catch (const cdbpp::builder_exception& e) { m_error << "CDB++ error: " << e.what(); return false; } return true; } }; /** * A SimString database writer. * This template class builds a SimString database. The first template * argument (string_tmpl) specifies the type of a character, and the second * template argument (ngram_generator_tmpl) customizes generation of feature * sets (n-grams) from strings. * * Inheriting the base class ngramdb_writer_base that builds indices from * n-grams to string IDs, this class maintains associations between strings * and string IDs. * * @param string_tmpl The type of a string. * @param ngram_generator_tmpl The type of an n-gram generator. */ template < class string_tmpl, class ngram_generator_tmpl = ngram_generator > class writer_base : public ngramdb_writer_base { public: /// The type representing a string. typedef string_tmpl string_type; /// The type of values associated with key strings. typedef uint32_t value_type; /// The function type for generating n-grams from a key string. typedef ngram_generator_tmpl ngram_generator_type; /// The type representing a character. typedef typename string_type::value_type char_type; // The type of the base class. typedef ngramdb_writer_base base_type; protected: /// The base name of the database. std::string m_name; /// The output stream for the string collection. std::ofstream m_ofs; /// The number of strings in the database. int m_num_entries; public: /** * Constructs a writer object. * @param gen The n-gram generator used by this writer. */ writer_base(const ngram_generator_type& gen) : base_type(gen), m_num_entries(0) { } /** * Constructs a writer object by opening a database. * @param gen The n-gram generator used by this writer. * @param name The name of the database. */ writer_base( const ngram_generator_type& gen, const std::string& name ) : base_type(gen), m_num_entries(0) { this->open(name); } /** * Destructs a writer object. */ virtual ~writer_base() { close(); } /** * Opens a database. * @param name The name of the database. * @return bool \c true if the database is successfully opened, * \c false otherwise. */ bool open(const std::string& name) { m_num_entries = 0; // Open the master file for writing. m_ofs.open(name.c_str(), std::ios::binary); if (m_ofs.fail()) { this->m_error << "Failed to open a file for writing: " << name; return false; } // Reserve the region for a file header. if (!this->write_header(m_ofs)) { m_ofs.close(); return false; } m_name = name; return true; } /** * Closes the database. * @param name The name of the database. * @return bool \c true if the database is successfully opened, * \c false otherwise. */ bool close() { bool b = true; // Write the n-gram database to files. if (!m_name.empty()) { b &= this->store(m_name); } // Finalize the file header, and close the file. if (m_ofs.is_open()) { b &= this->write_header(m_ofs); m_ofs.close(); } // Initialize the members. m_name.clear(); m_num_entries = 0; return b; } /** * Inserts a string to the database. * @param str The string to be inserted. * @return bool \c true if the string is successfully inserted, * \c false otherwise. */ bool insert(const string_type& str) { // This will be the offset address to access the key string. value_type off = (value_type)(std::streamoff)m_ofs.tellp(); // Write the key string to the master file. m_ofs.write(reinterpret_cast(str.c_str()), sizeof(char_type) * (str.length()+1)); if (m_ofs.fail()) { this->m_error << "Failed to write a string to the master file."; return false; } ++m_num_entries; // Insert the n-grams of the key string to the database. return base_type::insert(str, off); } protected: bool write_header(std::ofstream& ofs) { uint32_t num_entries = m_num_entries; uint32_t max_size = (uint32_t)this->max_size(); uint32_t size = (uint32_t)m_ofs.tellp(); // Seek to the beginning of the master file, to which the file header // is to be written. ofs.seekp(0); if (ofs.fail()) { this->m_error << "Failed to seek the file pointer for the master file."; return false; } // Write the file header. m_ofs.write("SSDB", 4); write_uint32(BYTEORDER_CHECK); write_uint32(SIMSTRING_STREAM_VERSION); write_uint32(size); write_uint32(sizeof(char_type)); write_uint32(this->m_gen.get_n()); write_uint32(static_cast(this->m_gen.get_be())); write_uint32(num_entries); write_uint32(max_size); if (ofs.fail()) { this->m_error << "Failed to write a file header to the master file."; return false; } return true; } inline void write_uint32(uint32_t value) { m_ofs.write(reinterpret_cast(&value), sizeof(value)); } }; /** * A reader for an n-gram database. * @param value_tmpl The value type. * This is required to be an integer type. */ template < class value_tmpl > class ngramdb_reader_base { public: /// The type of a value. typedef value_tmpl value_type; protected: // An inverted list of SIDs. struct inverted_list_type { int num; const value_type* values; friend bool operator<( const inverted_list_type& x, const inverted_list_type& y ) { return (x.num < y.num); } }; // An array of inverted lists. typedef std::vector inverted_lists_type; // A hash table that retrieves SIDs from n-grams. typedef cdbpp::cdbpp hashtbl_type; // An index containing strings of the same size. struct index_type { // The memory image of the database. memory_mapped_file image; // The index. hashtbl_type table; }; // Indices with different sizes of strings. typedef std::vector indices_type; // A candidate string of retrieved results. struct candidate_type { // The SID. value_type value; // The overlap count (frequency of the SID in the inverted lists). int num; candidate_type(value_type v, int n) : value(v), num(n) { } }; // An array of candidates. typedef std::vector candidates_type; // An array of SIDs retrieved. typedef std::vector results_type; protected: // The array of the indices. indices_type m_indices; // The maximum size of strings in the database. int m_max_size; // The database name (base name of indices). std::string m_name; // The error message. std::stringstream m_error; public: /** * Constructs an object. */ ngramdb_reader_base() { } /** * Destructs an object. */ virtual ~ngramdb_reader_base() { } /** * Checks whether an error has occurred. * @return bool \c true if an error has occurred. */ bool fail() const { return !m_error.str().empty(); } /** * Returns an error message. * @return std::string The string of the error message. */ std::string error() const { return m_error.str(); } /** * Opens an n-gram database. * @param name The name of the database. * @param max_size The maximum size of the strings. */ void open(const std::string& name, int max_size) { m_name = name; m_max_size = max_size; // The maximum size corresponds to the number of indices in the database. m_indices.resize(max_size); } /** * Closes an n-gram database. */ void close() { m_name.clear(); m_indices.clear(); m_error.str(""); } /** * Performs an overlap join on inverted lists retrieved for the query. * @param query The query object that stores query n-grams, * threshold, and conditions for the similarity * measure. * @param results The SIDs that satisfies the overlap join. */ template void overlapjoin(const query_type& query, double alpha, results_type& results) { int i; const int qsize = query.size(); // Allocate a vector of postings corresponding to n-gram queries. inverted_lists_type posts(qsize); // Compute the range of n-gram lengths for the candidate strings; // in other words, we do not have to search for strings whose n-gram // lengths are out of this range. const int xmin = std::max(measure_type::min_size(query.size(), alpha), 1); const int xmax = std::min(measure_type::max_size(query.size(), alpha), m_max_size); // Loop for each length in the range. for (int xsize = xmin;xsize <= xmax;++xsize) { // Access to the n-gram index for the length. hashtbl_type& tbl = open_index(m_name, xsize); if (!tbl.is_open()) { // Ignore an empty index. continue; } // Search for string entries that match to each query n-gram. // Note that we do not traverse each entry here, but only obtain // the number of and the pointer to the entries. typename query_type::const_iterator it; for (it = query.begin(), i = 0;it != query.end();++it, ++i) { size_t vsize; const void *values = tbl.get( it->c_str(), sizeof(it->at(0)) * it->length(), &vsize ); posts[i].num = (int)(vsize / sizeof(value_type)); posts[i].values = reinterpret_cast(values); } // Sort the query n-grams by ascending order of their frequencies. // This reduces the number of initial candidates. std::sort(posts.begin(), posts.end()); // The minimum number of n-gram matches required for the query. const int mmin = measure_type::min_match(qsize, xsize, alpha); // A candidate must match to one of n-grams in these queries. const int min_queries = qsize - mmin + 1; // Step 1: collect candidates that match to the initial queries. candidates_type cands; for (i = 0;i < min_queries;++i) { candidates_type tmp; typename candidates_type::const_iterator itc = cands.begin(); const value_type* p = posts[i].values; const value_type* last = posts[i].values + posts[i].num; while (itc != cands.end() || p != last) { if (itc == cands.end() || (p != last && itc->value > *p)) { tmp.push_back(candidate_type(*p, 1)); ++p; } else if (p == last || (itc != cands.end() && itc->value < *p)) { tmp.push_back(candidate_type(itc->value, itc->num)); ++itc; } else { tmp.push_back(candidate_type(itc->value, itc->num+1)); ++itc; ++p; } } std::swap(cands, tmp); } // No initial candidate is found. if (cands.empty()) { continue; } // Step 2: count the number of matches with remaining queries. for (;i < qsize;++i) { candidates_type tmp; typename candidates_type::const_iterator itc; const value_type* first = posts[i].values; const value_type* last = posts[i].values + posts[i].num; // For each active candidate. for (itc = cands.begin();itc != cands.end();++itc) { int num = itc->num; if (std::binary_search(first, last, itc->value)) { ++num; } if (mmin <= num) { // This candidate has sufficient matches. results.push_back(itc->value); } else if (num + (qsize - i - 1) >= mmin) { // This candidate still has the chance. tmp.push_back(candidate_type(itc->value, num)); } } std::swap(cands, tmp); // Exit the loop if all candidates are pruned. if (cands.empty()) { break; } } if (!cands.empty()) { // Step 2 was not performed. typename candidates_type::const_iterator itc; for (itc = cands.begin();itc != cands.end();++itc) { if (mmin <= itc->num) { results.push_back(itc->value); } } } } } protected: /** * Open the index storing strings of the specific size. * @param base The base name of the indices. * @param size The size of strings. * @return hashtbl_type& The hash table of the index. */ hashtbl_type& open_index(const std::string& base, int size) { index_type& index = m_indices[size-1]; if (!index.table.is_open()) { std::stringstream ss; ss << base << '.' << size << ".cdb"; index.image.open(ss.str().c_str(), std::ios::in); if (index.image.is_open()) { index.table.open(index.image.data(), index.image.size()); } } return index.table; } }; /** * A SimString database reader. * This template class retrieves string from a SimString database. * * Inheriting the base class ngramdb_reader_base that retrieves string IDs * from a query feature set, this class manages the master string table, * which maintains associations between strings and string IDs. */ class reader : public ngramdb_reader_base { public: /// The type of an n-gram generator. typedef ngram_generator ngram_generator_type; /// The type of the base class. typedef ngramdb_reader_base base_type; protected: int m_ngram_unit; bool m_be; int m_char_size; /// The content of the master file. std::vector m_strings; public: /** * Constructs an object. */ reader() { } /** * Destructs an object. */ virtual ~reader() { close(); } /** * Opens a SimString database. * @param name The name of the SimString database. * @return bool \c true if the database is successfully opened, * \c false otherwise. */ bool open(const std::string& name) { uint32_t num_entries, max_size; // Open the master file. std::ifstream ifs(name.c_str(), std::ios_base::in | std::ios_base::binary); if (ifs.fail()) { this->m_error << "Failed to open the master file: " << name; return false; } // Obtain the size of the master file. ifs.seekg(0, std::ios_base::end); size_t size = (size_t)ifs.tellg(); ifs.seekg(0, std::ios_base::beg); // Read the image of the master file. m_strings.resize(size); ifs.read(&m_strings[0], size); ifs.close(); // Check the file header. const char* p = &m_strings[0]; if (size < 36 || std::strncmp(p, "SSDB", 4) != 0) { this->m_error << "Incorrect file format"; return false; } p += 4; // Check the byte order. if (BYTEORDER_CHECK != read_uint32(p)) { this->m_error << "Incompatible byte order"; return false; } p += 4; // Check the version. if (SIMSTRING_STREAM_VERSION != read_uint32(p)) { this->m_error << "Incompatible stream version"; return false; } p += 4; // Check the chunk size. if (size != read_uint32(p)) { this->m_error << "Inconsistent chunk size"; return false; } p += 4; // Read the unit of n-grams, begin/end flag. m_char_size = (int)read_uint32(p); p += 4; m_ngram_unit = (int)read_uint32(p); p += 4; m_be = (read_uint32(p) != 0); p += 4; // Read the number of enties. num_entries = read_uint32(p); p += 4; // Read the maximum size of strings in the database. max_size = read_uint32(p); base_type::open(name, (int)max_size); return true; } /** * Closes the database. */ void close() { base_type::close(); } int char_size() const { return m_char_size; } /** * Retrieves strings that are similar to the query. * @param query The query string. * @param measure The similarity measure. * @param alpha The threshold for approximate string matching. * @param ins The insert iterator that receives retrieved * strings. * @see ::simstring::exact, ::simstring::dice, ::simstring::cosine, * ::simstring::jaccard, ::simstring::overlap */ template void retrieve( const string_type& query, int measure, double alpha, insert_iterator ins ) { switch (measure) { case exact: this->retrieve(query, alpha, ins); break; case dice: this->retrieve(query, alpha, ins); break; case cosine: this->retrieve(query, alpha, ins); break; case jaccard: this->retrieve(query, alpha, ins); break; case overlap: this->retrieve(query, alpha, ins); break; } } /** * Retrieves strings that are similar to the query. * @param measure_type The similarity measure. * @param query The query string. * @param alpha The threshold for approximate string matching. * @param ins The insert iterator that receives retrieved * strings. * @see ::simstring::measure::exact, ::simstring::measure::dice, * ::simstring::measure::cosine, ::simstring::measure::jaccard, * ::simstring::measure::overlap */ template void retrieve( const string_type& query, double alpha, insert_iterator ins ) { typedef std::vector ngrams_type; typedef typename string_type::value_type char_type; ngram_generator_type gen(m_ngram_unit, m_be); ngrams_type ngrams; gen(query, std::back_inserter(ngrams)); typename base_type::results_type results; base_type::overlapjoin(ngrams, alpha, results); typename base_type::results_type::const_iterator it; const char* strings = &m_strings[0]; for (it = results.begin();it != results.end();++it) { const char_type* xstr = reinterpret_cast(strings + *it); *ins = xstr; } } protected: inline uint32_t read_uint32(const char* p) const { return *reinterpret_cast(p); } }; }; /** @} */ /** @mainpage SimString - A fast and efficient implementation for approximate string matching @section documentation Documentation - @ref api "SimString C++ API" @section sample Sample Programs A basic sample. @include sample.cpp A Unicode sample. @include sample_unicode.cpp */ #endif/*__SIMSTRING_H__*/ simstring-1.0/include/simstring/cdbpp.h0000644000076400007640000005374211344662045015245 00000000000000/* * C++ implementation of Constant Database (CDB++) * * Copyright (c) 2008-2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: cdbpp.h 98 2010-02-26 05:51:27Z naoaki $ */ #ifndef __CDBPP_H__ #define __CDBPP_H__ #include #include #include #include #include #include #include namespace cdbpp { /** * \addtogroup cdbpp_api CDB++ API * @{ * * The CDB++ API. */ // Global constants. enum { // Version number. CDBPP_VERSION = 1, // The number of hash tables. NUM_TABLES = 256, // A constant for byte-order checking. BYTEORDER_CHECK = 0x62445371, }; /** * MurmurHash2. * * This code makes the following assumption about how your machine behaves * - We can read a 4-byte value from any address without crashing. * * It also has a few limitations: * - It will not work incrementally. * - It will not produce the same results on little-endian and big-endian * machines. * * @author Austin Appleby */ class murmurhash2 : public std::binary_function { protected: inline static uint32_t get32bits(const char *d) { return *reinterpret_cast(d); } public: inline uint32_t operator() (const void *key, size_t size) const { // 'm' and 'r' are mixing constants generated offline. // They're not really 'magic', they just happen to work well. const uint32_t m = 0x5bd1e995; const int32_t r = 24; // Initialize the hash to a 'random' value const uint32_t seed = 0x87654321; uint32_t h = seed ^ size; // Mix 4 bytes at a time into the hash const char * data = (const char *)key; while (size >= 4) { uint32_t k = get32bits(data); k *= m; k ^= k >> r; k *= m; h *= m; h ^= k; data += 4; size -= 4; } // Handle the last few bytes of the input array switch (size) { case 3: h ^= data[2] << 16; case 2: h ^= data[1] << 8; case 1: h ^= data[0]; h *= m; }; // Do a few final mixes of the hash to ensure the last few // bytes are well-incorporated. h ^= h >> 13; h *= m; h ^= h >> 15; return h; } }; struct tableref_t { uint32_t offset; // Offset to a hash table. uint32_t num; // Number of elements in the hash table. }; static uint32_t get_data_begin() { return (16 + sizeof(tableref_t) * NUM_TABLES); } /** * Exception class for the CDB++ builder. */ class builder_exception : public std::invalid_argument { public: builder_exception(const std::string& msg) : std::invalid_argument(msg) { } }; /** * CDB++ builder. */ template class builder_base { protected: // A bucket structure. struct bucket { uint32_t hash; // Hash value of the record. uint32_t offset; // Offset address to the actual record. bucket() : hash(0), offset(0) { } bucket(uint32_t h, uint32_t o) : hash(h), offset(o) { } }; // A hash table is a vector of buckets. typedef std::vector hashtable; protected: std::ofstream& m_os; // Output stream. uint32_t m_begin; uint32_t m_cur; hashtable m_ht[NUM_TABLES]; // Hash tables. public: /** * Constructs an object. * @param os The output stream to which this class write the * database. This stream must be opened in the * binary mode (\c std::ios_base::binary). */ builder_base(std::ofstream& os) : m_os(os) { m_begin = m_os.tellp(); m_cur = get_data_begin(); m_os.seekp(m_begin + m_cur); } /** * Destructs an object. */ virtual ~builder_base() { this->close(); } /** * Inserts a pair of key and value to the database. * Any key in the database should be unique, but this library does not * check duplicated keys. * @param key The pointer to the key. * @param ksize The size of the key. * @param value The pointer to the value. * @param vsize The size of the value. */ template void put(const key_t *key, size_t ksize, const value_t *value, size_t vsize) { // Write out the current record. write_uint32((uint32_t)ksize); m_os.write(reinterpret_cast(key), ksize); write_uint32((uint32_t)vsize); m_os.write(reinterpret_cast(value), vsize); // Compute the hash value and choose a hash table. uint32_t hv = hash_function()(static_cast(key), ksize); hashtable& ht = m_ht[hv % NUM_TABLES]; // Store the hash value and offset to the hash table. ht.push_back(bucket(hv, m_cur)); // Increment the current position. m_cur += sizeof(uint32_t) + ksize + sizeof(uint32_t) + vsize; } protected: void close() { // Check the consistency of the stream offset. if (m_begin + m_cur != (uint32_t)m_os.tellp()) { throw builder_exception("Inconsistent stream offset"); } // Store the hash tables. At this moment, the file pointer refers to // the offset succeeding the last key/value pair. for (size_t i = 0;i < NUM_TABLES;++i) { hashtable& ht = m_ht[i]; // Do not write an empty hash table. if (!ht.empty()) { // An actual table will have the double size; half elements // in the table are kept empty. int n = ht.size() * 2; // Allocate the actual table. bucket* dst = new bucket[n]; // Put hash elements to the table with the open-address method. typename hashtable::const_iterator it; for (it = ht.begin();it != ht.end();++it) { int k = (it->hash >> 8) % n; // Find a vacant element. while (dst[k].offset != 0) { k = (k+1) % n; } // Store the hash element. dst[k].hash = it->hash; dst[k].offset = it->offset; } // Write out the new table. for (int k = 0;k < n;++k) { write_uint32(dst[k].hash); write_uint32(dst[k].offset); } // Free the table. delete[] dst; } } // Store the current position. uint32_t offset = (uint32_t)m_os.tellp(); // Rewind the stream position to the beginning. m_os.seekp(m_begin); // Write the file header. char chunkid[4] = {'C','D','B','+'}; m_os.write(chunkid, 4); write_uint32(offset - m_begin); write_uint32(CDBPP_VERSION); write_uint32(BYTEORDER_CHECK); // Write references to hash tables. At this moment, dbw->cur points // to the offset succeeding the last key/data pair. for (size_t i = 0;i < NUM_TABLES;++i) { // Offset to the hash table (or zero for non-existent tables). write_uint32(m_ht[i].empty() ? 0 : m_cur); // Bucket size is double to the number of elements. write_uint32(m_ht[i].size() * 2); // Advance the offset counter. m_cur += sizeof(uint32_t) * 2 * m_ht[i].size() * 2; } // Seek to the last position. m_os.seekp(offset); } inline void write_uint32(uint32_t value) { m_os.write(reinterpret_cast(&value), sizeof(value)); } }; /** * Exception class for the CDB++ reader. */ class cdbpp_exception : public std::invalid_argument { public: cdbpp_exception(const std::string& msg) : std::invalid_argument(msg) { } }; /** * CDB++ reader. */ template class cdbpp_base { protected: struct bucket_t { uint32_t hash; // Hash value of the record. uint32_t offset; // Offset address to the actual record. }; struct hashtable_t { uint32_t num; // Number of elements in the table. const bucket_t* buckets; // Buckets (array of bucket). }; protected: const uint8_t* m_buffer; // Pointer to the memory block. size_t m_size; // Size of the memory block. bool m_own; // hashtable_t m_ht[NUM_TABLES]; // Hash tables. size_t m_n; public: /** * Constructs an object. */ cdbpp_base() : m_buffer(NULL), m_size(0), m_own(false), m_n(0) { } /** * Constructs an object by opening a database on memory. * @param buffer The pointer to the memory image of the database. * @param size The size of the memory image. * @param own If this is set to \c true, this library will call * delete[] when the database is closed. */ cdbpp_base(const void *buffer, size_t size, bool own) : m_buffer(NULL), m_size(0), m_own(false), m_n(0) { this->open(buffer, size, own); } /** * Constructs an object by opening a database from an input stream. * @param ifs The input stream from which this library reads * a database. */ cdbpp_base(std::ifstream& ifs) : m_buffer(NULL), m_size(0), m_own(false), m_n(0) { this->open(ifs); } /** * Destructs the object. */ virtual ~cdbpp_base() { close(); } /** * Tests if the database is opened. * @return bool \c true if the database is opened, * \c false otherwise. */ bool is_open() const { return (m_buffer != NULL); } /** * Obtains the number of elements in the database. * @return size_t The number of elements. */ size_t size() const { return m_n; } /** * Tests if the database is empty. * @return bool \c true if the number of records is zero, * \c false otherwise. */ bool empty() const { return (m_n == 0); } /** * Opens the database from an input stream. * @param ifs The input stream from which this library reads * a database. */ size_t open(std::ifstream& ifs) { char chunk[4], size[4]; std::istream::pos_type offset = ifs.tellg(); do { // Read a chunk identifier. ifs.read(chunk, 4); if (ifs.fail()) { break; } // Check the chunk identifier. if (std::strncmp(chunk, "CDB+", 4) != 0) { break; } // Read the size of the chunk. ifs.read(size, 4); if (ifs.fail()) { break; } // Allocate a memory block for the chunk. uint32_t chunk_size = read_uint32(reinterpret_cast(size)); uint8_t* block = new uint8_t[chunk_size]; // Read the memory image from the stream. ifs.seekg(0, std::ios_base::beg); if (ifs.fail()) { break; } ifs.read(reinterpret_cast(block), chunk_size); if (ifs.fail()) { break; } return this->open(block, chunk_size, true); } while (0); ifs.seekg(offset, std::ios::beg); return 0; } /** * Opens the database from a memory image. * @param buffer The pointer to the memory image of the database. * @param size The size of the memory image. * @param own If this is set to \c true, this library will call * delete[] when the database is closed. */ size_t open(const void *buffer, size_t size, bool own = false) { const uint8_t *p = reinterpret_cast(buffer); // Make sure that the size of the chunk is larger than the minimum size. if (size < get_data_begin()) { throw cdbpp_exception("The memory image is smaller than a chunk header."); } // Check the chunk identifier. if (memcmp(p, "CDB+", 4) != 0) { throw cdbpp_exception("Incorrect chunk header"); } p += 4; // Read the chunk header. uint32_t csize = read_uint32(p); p += sizeof(uint32_t); uint32_t version = read_uint32(p); p += sizeof(uint32_t); uint32_t byteorder = read_uint32(p); p += sizeof(uint32_t); // Check the byte-order consistency. if (byteorder != BYTEORDER_CHECK) { throw cdbpp_exception("Inconsistent byte order"); } // Check the version number. if (version != CDBPP_VERSION) { throw cdbpp_exception("Incompatible CDB++ versions"); } // Check the chunk size. if (size < csize) { throw cdbpp_exception("The memory image is smaller than a chunk size."); } // Set memory block and size. m_buffer = reinterpret_cast(buffer); m_size = size; m_own = own; // Set pointers to the hash tables. m_n = 0; const tableref_t* ref = reinterpret_cast(p); for (size_t i = 0;i < NUM_TABLES;++i) { if (ref[i].offset) { // Set the buckets. m_ht[i].buckets = reinterpret_cast(m_buffer + ref[i].offset); m_ht[i].num = ref[i].num; } else { // An empty hash table. m_ht[i].buckets = NULL; m_ht[i].num = 0; } // The number of records is the half of the table size. m_n += (ref[i].num / 2); } return (size_t)csize; } /** * Closes the database. */ void close() { if (m_own && m_buffer != NULL) { delete[] m_buffer; } m_buffer = NULL; m_size = 0; m_n = 0; } /** * Finds the key in the database. * @param key The pointer to the key. * @param ksize The size of the key. * @param vsize The pointer of a variable to which the size of the * value returned. This parameter can be \c NULL. * @return const void* The pointer to the value. */ const void* get(const void *key, size_t ksize, size_t* vsize) const { uint32_t hv = hash_function()(key, ksize); const hashtable_t* ht = &m_ht[hv % NUM_TABLES]; if (ht->num && ht->buckets != NULL) { int n = ht->num; int k = (hv >> 8) % n; const bucket_t* p = NULL; while (p = &ht->buckets[k], p->offset) { if (p->hash == hv) { const uint8_t *q = m_buffer + p->offset; if (read_uint32(q) == ksize && memcmp(key, q + sizeof(uint32_t), ksize) == 0) { q += sizeof(uint32_t) + ksize; if (vsize != NULL) { *vsize = read_uint32(q); } return q + sizeof(uint32_t); } } k = (k+1) % n; } } if (vsize != NULL) { *vsize = 0; } return NULL; } protected: inline uint32_t read_uint32(const uint8_t* p) const { return *reinterpret_cast(p); } }; /// CDB++ builder with MurmurHash2. typedef builder_base builder; /// CDB++ reader with MurmurHash2. typedef cdbpp_base cdbpp; }; /** @} */ /** @mainpage C++ implementation of Constant Database (CDB++) @section intro Introduction Constant Database PlusPlus (CDB++) is a C++ implementation of hash database specialized for serialization and retrieval of static associations between keys and their values. The database provides several features: - Fast look-ups. This library implements the data structure of the Constant Database proposed by Daniel J. Bernstein. - Low footprint. A CDB++ database consists of a chunk header (16 bytes), hash tables (2048 bytes and 16 bytes per record), and actual records (8 bytes plus key/value size per record). - Fast hash function. CDB++ incorporates the fast and collision-resistant hash function for strings (MurmurHash 2.0) implemented by Austin Appleby. - Chunk format. The structure of CDB++ is designed to store the data in a chunk of a file; CDB++ database can be embedded into a file with other arbitrary data. - Simple write interface. CDB++ can serialize a hash database to C++ output streams (\c std::ostream). - Simple read interface. CDB++ can prepare a hash database from an input stream (\c std::istream) or from a memory block on which a database image is read or memory-mapped from a file. - Cross platform. The source code can be compiled on Microsoft Visual Studio 2008, GNU C Compiler (gcc), etc. - Very simple API. The CDB++ API exposes only a few functions; one can use this library just by looking at the sample code. - Single C++ header implementation. CDB++ is implemented in a single header file (cdbpp.h); one can use the CDB++ API only by including cdbpp.h in a source code. CDB++ does not support these for simplicity: - modifying associations - checking collisions in keys - compatibility of the database format on different byte-order architectures @section sample Sample code This sample code constructs a database "test.cdb" with 100,000 string/integer associations, "000000"/0, "000001"/1, ..., "100000"/100000 (in build function). Then the code issues string queries "000000", ..., "100000", and checks whether the values are correct (in read function). @include sample.cpp @section download Download - Source code CDB++ is distributed under the term of the modified BSD license. @section changelog History - Version 1.1 (2009-07-14): - Fixed a compile issue (a patch submitted by Takashi Imamichi). - Replaced SuperFastHash with MurmurHash 2.0 (a patch submitted by Takashi Imamichi). - Classes cdbpp::builder_base and cdbpp::cdbpp_base taking a template argument to configure a hash function. Classes cdbpp::builder and cdbpp::cdbpp are now the synonyms of \c cdbpp::builder_base and \c cdbpp::cdbpp_base, respectively. - Split the sample code into build and read functions. - Version 1.0 (2009-07-09): - Initial release. @section api Documentation - @ref cdbpp_api "CDB++ API" @section acknowledgements Acknowledgements The data structure of the constant database was originally proposed by Daniel J. Bernstein. The source code of CDB++ includes the MurmurHash 2.0 implemented by Austin Appleby. The CDB++ distribution contains "a portable stdint.h", which is released by Paul Hsieh under the term of the modified BSD license, for addressing the compatibility issue of Microsoft Visual Studio 2008. The original code is available at: http://www.azillionmonkeys.com/qed/pstdint.h @section reference References - cdb by Daniel J. Bernstein. - TinyCDB - a Constant DataBase by Michael Tokarev. - Constant Database C++ Bindings by Stanislav Ievlev. - Constant Database (cdb) Internals by Yusuke Shinyama. - MurmurHash 2.0 by Austin Appleby. */ #endif/*__CDBPP_H__*/ simstring-1.0/include/simstring/memory_mapped_file_win32.h0000644000076400007640000001171411344662045021025 00000000000000/* * Memory-mapped-file implementation for Win32. * * Copyright (c) 2008-2010 Naoaki Okazaki * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the authors nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id: memory_mapped_file_win32.h 85 2010-02-23 17:23:34Z naoaki $ */ #ifndef __MEMORY_MAPPED_FILE_WIN32_H__ #define __MEMORY_MAPPED_FILE_WIN32_H__ #define NOMINMAX // To fix min/max conflicts with STL. #include #include class memory_mapped_file_win32 : public memory_mapped_file_base { public: typedef size_t size_type; protected: HANDLE m_hFile; HANDLE m_hMapping; std::ios_base::openmode m_mode; char* m_data; size_type m_size; public: memory_mapped_file_win32() { m_hFile = INVALID_HANDLE_VALUE; m_hMapping = INVALID_HANDLE_VALUE; m_mode = 0; m_data = NULL; m_size = 0; } virtual ~memory_mapped_file_win32() { close(); } void open(const std::string& path, std::ios_base::openmode mode) { DWORD dwDesiredAccess = 0; DWORD dwCreationDisposition = 0; if (mode & std::ios_base::in) { dwDesiredAccess |= GENERIC_READ; dwCreationDisposition = OPEN_EXISTING; } if (mode & std::ios_base::out) { dwDesiredAccess |= GENERIC_WRITE; dwCreationDisposition = CREATE_NEW; } if (mode & std::ios_base::trunc) { dwDesiredAccess = (GENERIC_READ | GENERIC_WRITE); dwCreationDisposition = CREATE_ALWAYS; } m_hFile = CreateFileA( path.c_str(), dwDesiredAccess, 0, NULL, dwCreationDisposition, FILE_ATTRIBUTE_NORMAL, NULL ); if (m_hFile != INVALID_HANDLE_VALUE) { m_mode = mode; this->resize((size_type)GetFileSize(m_hFile, NULL)); } } bool is_open() const { return (m_hFile != INVALID_HANDLE_VALUE); } void close() { this->free(); if (m_hFile != INVALID_HANDLE_VALUE) { CloseHandle(m_hFile); m_hFile = INVALID_HANDLE_VALUE; } } bool resize(size_type size) { if (size == 0) { this->free(); return true; } if (m_hFile == INVALID_HANDLE_VALUE) { return false; } this->free(); DWORD flProtect = (m_mode & std::ios_base::out) ? PAGE_READWRITE : PAGE_READONLY; m_hMapping = CreateFileMappingA( m_hFile, NULL, flProtect, 0, (DWORD)size, NULL ); if (m_hMapping == NULL) { CloseHandle(m_hFile); m_hFile = NULL; return false; } DWORD dwDesiredAccess = (m_mode & std::ios_base::out) ? FILE_MAP_ALL_ACCESS : FILE_MAP_READ; m_data = (char*)MapViewOfFile( m_hMapping, dwDesiredAccess, 0, 0, 0 ); if (m_data == NULL) { CloseHandle(m_hMapping); m_hMapping = NULL; CloseHandle(m_hFile); m_hFile = NULL; return false; } m_size = size; return true; } void free() { if (m_data != NULL) { UnmapViewOfFile(m_data); m_data = NULL; } if (m_hMapping != INVALID_HANDLE_VALUE) { CloseHandle(m_hMapping); m_hMapping = NULL; } m_size = 0; } size_type size() const { return m_size; } char* data() const { return m_data; } const char* const_data() const { return m_data; } static int alignment() { return 0; } }; #endif/*__MEMORY_MAPPED_FILE_WIN32_H__*/