flwrap-1.3.5/0000755000175000017500000000000013256721755010031 500000000000000flwrap-1.3.5/INSTALL0000644000175000017500000000323413256716376011007 00000000000000Installation Instructions for flwrap ************************************ To compile flwrap you will need: * A recent C++ compiler. The GNU C++ compilers in the 4.x series are known to work. * Version 1.3.4 or later of the Fast Light Tool Kit (FLTK), with its development library and headers. FLTK's multi-threading support is required. * The samplerate (a.k.a. secret rabbit code) library. * The PNG library. * The libxft library. You should read and follow the instructions for building on various OS platforms that are on the fldigi wiki: http://www.w1hkj.com/doku/doku.php?id=howtos The simplest way to compile this package on Linux 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. Type `make' to compile the package. 3. Optionally, type `make check' to run any self-tests that come with the package. 4. Type `make install' to install the programs and any data files and documentation. 5. You can remove the program binaries and object files from the source code directory by typing `make clean'. To also remove the files that `configure' created (so you can compile the package for a different kind of computer), type `make distclean'. There is also a `make maintainer-clean' target, but that is intended mainly for the package's developers. 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..................... $VERSION Target OS ................... $target_os Static linking .............. $ac_cv_static CPU optimizations ........... $ac_cv_opt Debugging ................... $ac_cv_debug ]) flwrap-1.3.5/scripts/0000755000175000017500000000000013256721755011520 500000000000000flwrap-1.3.5/scripts/build4mingw.sh0000755000175000017500000000051313256716376014226 00000000000000#!/bin/sh ### Script to build a win32 installation ./configure \ $PKGCFG \ $CROSSCFG \ --with-ptw32=/opt/mxe/usr/i686-pc-mingw32 \ PTW32_LIBS="-lpthread -lpcreposix -lpcre" \ FLTK_CONFIG=$PREFIX/bin/i686-pc-mingw32-fltk-config make $PREFIX/bin/i686-pc-mingw32-strip src/flwrap.exe make nsisinst mv src/*setup*exe . flwrap-1.3.5/scripts/mkappbundle.sh0000755000175000017500000000576313256716376014317 00000000000000#!/bin/sh ### Script to create the .app structure for osx ### 20180201 David Freese W1HKJ if [ $# -ne 2 ]; then echo "Syntax: $0 data-dir build-dir" >&2 exit 1 fi upcase1() { sed 'h; s/\(^.\).*/\1/; y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/; G; s/\n.//' } function copy_libs() { list="$1" while test "x$list" != "x"; do change="$list" list="" for obj in $change; do for lib in `otool -L $obj | \ sed -n 's!^.*[[:space:]]\([^[:space:]]*\.dylib\).*$!\1!p' | \ grep -Ev '^/(usr/lib|System)'`; do libfn="`basename $lib`" if ! test -f "Frameworks/$libfn"; then cp "$lib" "Frameworks/$libfn" install_name_tool -id "@executable_path/../Frameworks/$libfn" "Frameworks/$libfn" list="$list Frameworks/$libfn" fi install_name_tool -change "$lib" "@executable_path/../Frameworks/$libfn" "$obj" done done done } function bundle() { appname="${binary}-${appversion}.app" cd "$build" echo "creating ${build}/$bundle_dir/$appname" $mkinstalldirs "$bundle_dir/$appname/Contents/MacOS" "$bundle_dir/$appname/Contents/Resources" cd "$bundle_dir" $INSTALL_PROGRAM "${build}/$binary" "$appname/Contents/MacOS" test "x$NOSTRIP" = "x" && ${STRIP:-strip} -S "$appname/Contents/MacOS/$binary" $INSTALL_DATA "$icon" "$appname/Contents/Resources" echo "APPL${signature}" > "$appname/Contents/PkgInfo" sed -e "s!%%IDENTIFIER%%!${identifier}!g; s!%%NAME%%!${name}!g;\ s!%%SIGNATURE%%!${signature}!g; s!%%BINARY%%!${binary}!g;\ s!%%VERSION%%!${version}!g; s!%%ICON%%!${icon##*/}!g;" < "$plist" > "$appname/Contents/Info.plist" if grep '%%[A-Z]*%%' "$appname/Contents/Info.plist"; then echo "E: unsubstituted variables in $appname/Contents/Info.plist" >&2 exit 1 fi $mkinstalldirs "$appname/Contents/Frameworks" cd "$appname/Contents" copy_libs "MacOS/$binary" } #======================================================================= if [ -z "$PACKAGE_TARNAME" ]; then echo "E: \$PACKAGE_TARNAME undefined" exit 1 fi PWD=`pwd` data="${PWD}/$1" build="${PWD}/$2" bundle_dir="$APPBUNDLE" # more sanity checks for d in "$data" "$build"; do test -d "$d" && continue echo "E: ${d}: not a directory" >&2 exit 1 done if ! test -w "$build"; then echo "E: ${build} is not writeable" >&2 exit 1 fi plist="${data}/mac/Info.plist.in" flwrap_icon="${data}/mac/flwrap.icns" for f in "$plist" "$flwrap_icon"; do test -r "$f" && continue echo "E: ${f}: not readable" >&2 exit 1 done set -e identifier="com.w1hkj.$PACKAGE_TARNAME" name=$(echo "$PACKAGE_TARNAME" | upcase1) # we'll use the first four consonants as the signature signature="$(echo $PACKAGE_TARNAME | sed 's/[aeiouAEIOU]//g; s/\(^....\).*/\1/')" signature="$PACKAGE_TARNAME" binary="$PACKAGE_TARNAME" icon="$flwrap_icon" version="${flwrap_VERSION_MAJOR}.${flwrap_VERSION_MINOR}" appversion="$flwrap_VERSION" bundle cd "$build" echo "creating disk image" echo " source: " $bundle_dir echo " target: " ${APPBUNDLE}.dmg hdiutil create -ov -srcfolder "$bundle_dir" -format UDZO -tgtimagekey zlib-level=9 "${APPBUNDLE}.dmg" flwrap-1.3.5/scripts/mknsisinst.sh0000755000175000017500000000163713256721703014201 00000000000000#!/bin/sh ### Script to create a win32 installer file ### 20090510 Stelios Bounanos M0GLD, Dave Freese W1HKJ ### change for the target application FLWRAP_name=flwrap FLWRAP_bin=flwrap.exe if [ $# -ne 2 ]; then echo "Syntax: $0 data-dir build-dir" >&2 exit 1 fi if [ -z "$PACKAGE_TARNAME" ]; then echo "E: \$PACKAGE_TARNAME undefined" exit 1 fi PWD=`pwd` data="${PWD}/$1" build="${PWD}/$2" # more sanity checks for d in "$data" "$build"; do test -d "$d" && continue echo "E: ${d}: not a directory" >&2 exit 1 done if ! test -w "$build"; then echo "E: ${build} is not writeable" >&2 exit 1 fi set -e def="$def -DFLWRAP_NAME=$FLWRAP_name -DFLWRAP_BINARY=$FLWRAP_bin -DFLWRAP_VERSION=$PACKAGE_VERSION" $MAKENSIS -V2 -NOCD -D"INSTALLER_FILE=$INSTALLER_FILE" -D"LICENSE_FILE=$data/../COPYING" \ -D"SUPPORT_URL=$PACKAGE_HOME" -D"UPDATES_URL=$PACKAGE_DL" $def "$data/win32/fl_app.nsi" flwrap-1.3.5/data/0000755000175000017500000000000013256721755010742 500000000000000flwrap-1.3.5/data/mac/0000755000175000017500000000000013256721755011502 500000000000000flwrap-1.3.5/data/mac/flwrap.icns0000644000175000017500000002643012562727333013575 00000000000000icns-ih32$  iP<&Í–qHĉhB oT6{mR4XB2 5_G,3'$ [E1ÐiBÿ½ŒXÿ»ŒXÿ½ŽZÿÁ“^ÿ½[ÿ»ŽZÿ²†Uî¤}OؘsI¸Šh@—dL0pfL1OO;%.$I6" PF4 Ç‹iBÿ¿[ÿ»ŠWÿ¯€Pÿ¯Nÿ®~Mÿ®~Nÿ±ƒSÿ´ˆXÿ¶‰Xÿ¸ŠXÿºŒXÿ¼Ž[ÿÀ‘\ÿ½[ÿ¶ŠWý¯„Sè¤{MЊhBªmQ3²wY9±„d@ŠjP3fV@(DaI.'% 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(;_;:;8= ", " <;[;};|;1;2;3;4;5;6;7;8;9;0;a;b;c;d;e;B=f;g;h;i;Z.j;s=k;l; ", " m;n;o;p;q;r;s;t;u;v;w;x;y;z;A;B;C;D;E;F;G;H;I;J;K; ", " L;M;N;O;P;Q;R;S;T;U;V;X-W;X;Y;Z;`; >.>+> ", " @>#>$>%>&>*>=>->;>>>,>'>)>!>~> ", " {>]>^>/>(>_>:><>[>}>|> ", " 1>2>3>4>5>6> ", " 7> ", " "}; flwrap-1.3.5/data/flwrap.desktop0000644000175000017500000000030312562727333013541 00000000000000[Desktop Entry] Name=Flwrap GenericName=Amateur Radio Data Encapsulation Comment=Amateur Radio Communications Exec=flwrap Icon=flwrap Terminal=false Type=Application Categories=Network;HamRadio; flwrap-1.3.5/data/win32/0000755000175000017500000000000013256721755011704 500000000000000flwrap-1.3.5/data/win32/fl_app.nsi0000644000175000017500000001314212562727333013576 00000000000000# -*- conf -*- # NSIS installer script based on example2.nsi from the nsis-2.44 distribution. # Copyright (c) 2009 Stelios Bounanos, M0GLD. # Copyright (c) 2009 Dave Freese, W1HKJ # substitute your application name for instances of FLWRAP # Variables !define FLWRAP_DESCRIPTION "${FLWRAP_NAME} ${FLWRAP_VERSION}" !define FLWRAP_STRING "${FLWRAP_NAME}-${FLWRAP_VERSION}" !define PRODUCT_BINARY "${FLWRAP_BINARY}" !define PRODUCT_NAME "${FLWRAP_NAME}" !define PRODUCT_VERSION "${FLWRAP_VERSION}" !define PRODUCT_STRING "${FLWRAP_STRING}" !define PRODUCT_DESCRIPTION "${FLWRAP_DESCRIPTION}" # Compression options SetCompressor /SOLID lzma # This function is called before displaying the first installer page. # It aborts the installation if the Windows version is too old. !include WinVer.nsh Function .onInit ${IfNot} ${AtLeastWin2000} MessageBox MB_ICONSTOP "Sorry, your Windows version is too old.$\n${PRODUCT_NAME} requires Windows 2000 or later." Abort ${EndIf} FunctionEnd # The name of the installer Name "${PRODUCT_DESCRIPTION}" # The file to write OutFile ${INSTALLER_FILE} # The default installation directory InstallDir $PROGRAMFILES\${PRODUCT_STRING} # Registry key to check for directory (so if you install again, it will # overwrite the old one automatically) !define INSTALL_DIR_REG_KEY SOFTWARE\${PRODUCT_STRING} InstallDirRegKey HKLM "${INSTALL_DIR_REG_KEY}" "Install_Dir" # Request application privileges for Windows Vista RequestExecutionLevel admin # License LicenseText "${PRODUCT_NAME} is distributed under the GNU GPL as detailed \ below. You must abide by the terms of this license if you modify or \ redistribute the program." "Continue" LicenseData "${LICENSE_FILE}" SubCaption 0 ": License Information" # Other options BrandingText " " InstProgressFlags smooth VIAddVersionKey ProductName "${PRODUCT_NAME}" VIAddVersionKey ProductVersion "${PRODUCT_VERSION}" VIAddVersionKey FileVersion "${PRODUCT_VERSION}" VIAddVersionKey FileDescription "${FLWRAP_DESCRIPTION} installer" VIAddVersionKey LegalCopyright "${PRODUCT_NAME} developers" VIAddVersionKey OriginalFilename "${INSTALLER_FILE}" VIProductVersion "3.0.0.0" WindowIcon off XPStyle on # Installer pages Page license Page components Page directory Page instfiles UninstPage uninstConfirm UninstPage instfiles # Registry uninstall path !define REG_UNINSTALL_PATH Software\Microsoft\Windows\CurrentVersion\Uninstall\${PRODUCT_STRING} # This is a hidden section and is always selected. It writes the uninstall # registry keys and uninstaller binary. Section -install # Set output path to the installation directory. SetOutPath $INSTDIR # Write the installation paths into the registry WriteRegStr HKLM "${INSTALL_DIR_REG_KEY}" "Install_Dir" "$INSTDIR" # Write the uninstall keys for Windows WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "DisplayName" "${PRODUCT_DESCRIPTION}" WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "DisplayVersion" "${PRODUCT_VERSION}" WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "DisplayIcon" '"$INSTDIR\${PRODUCT_BINARY}"' WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "HelpLink" "${SUPPORT_URL}" WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "Publisher" "FLWRAP developers" WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "URLUpdateInfo" "${UPDATES_URL}" WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "UninstallString" '"$INSTDIR\uninstall.exe"' WriteRegStr HKLM "${REG_UNINSTALL_PATH}" "QuietUninstallString" '"$INSTDIR\uninstall.exe" /S' WriteRegDWORD HKLM "${REG_UNINSTALL_PATH}" "NoModify" 1 WriteRegDWORD HKLM "${REG_UNINSTALL_PATH}" "NoRepair" 1 WriteUninstaller "uninstall.exe" SectionEnd #Var WANT_FLWRAP Section "FLWRAP" SectionIn RO SetOutPath $INSTDIR File "${FLWRAP_BINARY}" SectionEnd # Start Menu path !define SM_PATH_BASE $SMPROGRAMS\${PRODUCT_NAME} !define SM_PATH ${SM_PATH_BASE}\${PRODUCT_STRING} # The following sections are optional Section "Start Menu Shortcuts" CreateDirectory "${SM_PATH}" CreateShortCut "${SM_PATH}\${FLWRAP_NAME}.lnk" "$INSTDIR\${FLWRAP_BINARY}" "" "$INSTDIR\${FLWRAP_BINARY}" 0 CreateShortCut "${SM_PATH}\Uninstall.lnk" "$INSTDIR\uninstall.exe" "" "$INSTDIR\uninstall.exe" 0 SectionEnd Section "Desktop Shortcuts" CreateShortCut "$DESKTOP\${FLWRAP_DESCRIPTION}.lnk" "$INSTDIR\${FLWRAP_BINARY}" "" \ "$INSTDIR\${FLWRAP_BINARY}" 0 SectionEnd # This is unselected by default Section /o "Quick Launch Shortcuts" CreateShortCut "$QUICKLAUNCH\${FLWRAP_DESCRIPTION}}.lnk" "$INSTDIR\${FLWRAP_BINARY}" "" \ "$INSTDIR\${FLWRAP_BINARY}" 0 SectionEnd # Uninstaller Section "Uninstall" # Remove registry keys DeleteRegKey HKLM "${REG_UNINSTALL_PATH}" DeleteRegKey HKLM "${INSTALL_DIR_REG_KEY}" # Remove files and uninstaller Delete /REBOOTOK $INSTDIR\${FLWRAP_BINARY} Delete /REBOOTOK $INSTDIR\uninstall.exe # Remove shortcuts, if any Delete "${SM_PATH}\*.*" Delete "$DESKTOP\${FLWRAP_DESCRIPTION}.lnk" Delete "$QUICKLAUNCH\${FLWRAP_DESCRIPTION}.lnk" # Remove directories used RMDir "${SM_PATH}" RMDir "${SM_PATH_BASE}" RMDir "$INSTDIR" SectionEnd # Offer to reboot the machine if the reboot flag is nonzero. This flag is set by # commands that specify the /REBOOTOK switch if the BINARY_* files were in use # during uninstallation. Stupid Windows. Function un.onGUIEnd IfRebootFlag 0 noreboot MessageBox MB_YESNO|MB_ICONQUESTION \ "A reboot is required to finish removing ${PRODUCT_NAME}. Do you wish to reboot now?" IDNO noreboot Reboot noreboot: FunctionEnd # Tell the user if we could not reboot for some reason. Function un.onRebootFailed MessageBox MB_OK|MB_ICONSTOP "Reboot failed. 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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 outputting dependencies. libtool Whether libtool is used (yes/no). Report bugs to . EOF exit $? ;; -v | --v*) echo "depcomp $scriptversion" exit $? ;; esac # Get the directory component of the given path, and save it in the # global variables '$dir'. Note that this directory component will # be either empty or ending with a '/' character. This is deliberate. set_dir_from () { case $1 in */*) dir=`echo "$1" | sed -e 's|/[^/]*$|/|'`;; *) dir=;; esac } # Get the suffix-stripped basename of the given path, and save it the # global variable '$base'. set_base_from () { base=`echo "$1" | sed -e 's|^.*/||' -e 's/\.[^.]*$//'` } # If no dependency file was actually created by the compiler invocation, # we still have to create a dummy depfile, to avoid errors with the # Makefile "include basename.Plo" scheme. make_dummy_depfile () { echo "#dummy" > "$depfile" } # Factor out some common post-processing of the generated depfile. # Requires the auxiliary global variable '$tmpdepfile' to be set. aix_post_process_depfile () { # If the compiler actually managed to produce a dependency file, # post-process it. if test -f "$tmpdepfile"; then # Each line is of the form 'foo.o: dependency.h'. # Do two passes, one to just change these to # $object: dependency.h # and one to simply output # dependency.h: # which is needed to avoid the deleted-header problem. { sed -e "s,^.*\.[$lower]*:,$object:," < "$tmpdepfile" sed -e "s,^.*\.[$lower]*:[$tab ]*,," -e 's,$,:,' < "$tmpdepfile" } > "$depfile" rm -f "$tmpdepfile" else make_dummy_depfile fi } # A tabulation character. tab=' ' # A newline character. nl=' ' # Character ranges might be problematic outside the C locale. # These definitions help. upper=ABCDEFGHIJKLMNOPQRSTUVWXYZ lower=abcdefghijklmnopqrstuvwxyz digits=0123456789 alpha=${upper}${lower} 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" # Avoid interferences from the environment. gccflag= dashmflag= # 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. Note that we *cannot* use a case # here, because this file can only contain one case statement. if test "$depmode" = hp; then # HP compiler uses -M and no extra arg. gccflag=-M depmode=gcc fi if test "$depmode" = dashXmstdout; then # This is just like dashmstdout with a different argument. dashmflag=-xM depmode=dashmstdout fi cygpath_u="cygpath -u -f -" if test "$depmode" = msvcmsys; then # This is just like msvisualcpp but w/o cygpath translation. # Just convert the backslash-escaped backslashes to single forward # slashes to satisfy depend.m4 cygpath_u='sed s,\\\\,/,g' depmode=msvisualcpp fi if test "$depmode" = msvc7msys; then # This is just like msvc7 but w/o cygpath translation. # Just convert the backslash-escaped backslashes to single forward # slashes to satisfy depend.m4 cygpath_u='sed s,\\\\,/,g' depmode=msvc7 fi if test "$depmode" = xlc; then # IBM C/C++ Compilers xlc/xlC can output gcc-like dependency information. gccflag=-qmakedep=gcc,-MF depmode=gcc fi case "$depmode" in gcc3) ## gcc 3 implements dependency tracking that does exactly what ## we want. Yay! Note: for some reason libtool 1.4 doesn't like ## it if -MD -MP comes after the -MF stuff. Hmm. ## Unfortunately, FreeBSD c89 acceptance of flags depends upon ## the command line argument order; so add the flags where they ## appear in depend2.am. Note that the slowdown incurred here ## affects only configure: in makefiles, %FASTDEP% shortcuts this. for arg do case $arg in -c) set fnord "$@" -MT "$object" -MD -MP -MF "$tmpdepfile" "$arg" ;; *) set fnord "$@" "$arg" ;; esac shift # fnord shift # $arg done "$@" stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile" exit $stat fi mv "$tmpdepfile" "$depfile" ;; gcc) ## Note that this doesn't just cater to obsosete pre-3.x GCC compilers. ## but also to in-use compilers like IMB xlc/xlC and the HP C compiler. ## (see the conditional assignment to $gccflag above). ## There are various ways to get dependency output from gcc. Here's ## why we pick this rather obscure method: ## - Don't want to use -MD because we'd like the dependencies to end ## up in a subdir. Having to rename by hand is ugly. ## (We might end up doing this anyway to support other compilers.) ## - The DEPENDENCIES_OUTPUT environment variable makes gcc act like ## -MM, not -M (despite what the docs say). Also, it might not be ## supported by the other compilers which use the 'gcc' depmode. ## - Using -M directly means running the compiler twice (even worse ## than renaming). if test -z "$gccflag"; then gccflag=-MD, fi "$@" -Wp,"$gccflag$tmpdepfile" stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile" exit $stat fi rm -f "$depfile" echo "$object : \\" > "$depfile" # The second -e expression handles DOS-style file names with drive # letters. sed -e 's/^[^:]*: / /' \ -e 's/^['$alpha']:\/[^:]*: / /' < "$tmpdepfile" >> "$depfile" ## This next piece of magic avoids the "deleted header file" problem. ## The problem is that when a header file which appears in a .P file ## is deleted, the dependency causes make to die (because there is ## typically no way to rebuild the header). We avoid this by adding ## dummy dependencies for each header file. Too bad gcc doesn't do ## this for us directly. ## Some versions of gcc put a space before the ':'. On the theory ## that the space means something, we add a space to the output as ## well. hp depmode also adds that space, but also prefixes the VPATH ## to the object. Take care to not repeat it in the output. ## Some versions of the HPUX 10.20 sed can't process this invocation ## correctly. Breaking it into two sed invocations is a workaround. tr ' ' "$nl" < "$tmpdepfile" \ | sed -e 's/^\\$//' -e '/^$/d' -e "s|.*$object$||" -e '/:$/d' \ | sed -e 's/$/ :/' >> "$depfile" rm -f "$tmpdepfile" ;; hp) # This case exists only to let depend.m4 do its work. It works by # looking at the text of this script. This case will never be run, # since it is checked for above. exit 1 ;; sgi) if test "$libtool" = yes; then "$@" "-Wp,-MDupdate,$tmpdepfile" else "$@" -MDupdate "$tmpdepfile" fi stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile" exit $stat fi rm -f "$depfile" if test -f "$tmpdepfile"; then # yes, the sourcefile depend on other files echo "$object : \\" > "$depfile" # Clip off the initial element (the dependent). Don't try to be # clever and replace this with sed code, as IRIX sed won't handle # lines with more than a fixed number of characters (4096 in # IRIX 6.2 sed, 8192 in IRIX 6.5). We also remove comment lines; # the IRIX cc adds comments like '#:fec' to the end of the # dependency line. tr ' ' "$nl" < "$tmpdepfile" \ | sed -e 's/^.*\.o://' -e 's/#.*$//' -e '/^$/ d' \ | tr "$nl" ' ' >> "$depfile" echo >> "$depfile" # The second pass generates a dummy entry for each header file. tr ' ' "$nl" < "$tmpdepfile" \ | sed -e 's/^.*\.o://' -e 's/#.*$//' -e '/^$/ d' -e 's/$/:/' \ >> "$depfile" else make_dummy_depfile fi rm -f "$tmpdepfile" ;; xlc) # This case exists only to let depend.m4 do its work. It works by # looking at the text of this script. This case will never be run, # since it is checked for above. exit 1 ;; aix) # The C for AIX Compiler uses -M and outputs the dependencies # in a .u file. In older versions, this file always lives in the # current directory. Also, the AIX compiler puts '$object:' at the # start of each line; $object doesn't have directory information. # Version 6 uses the directory in both cases. set_dir_from "$object" set_base_from "$object" if test "$libtool" = yes; then tmpdepfile1=$dir$base.u tmpdepfile2=$base.u tmpdepfile3=$dir.libs/$base.u "$@" -Wc,-M else tmpdepfile1=$dir$base.u tmpdepfile2=$dir$base.u tmpdepfile3=$dir$base.u "$@" -M fi stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile1" "$tmpdepfile2" "$tmpdepfile3" exit $stat fi for tmpdepfile in "$tmpdepfile1" "$tmpdepfile2" "$tmpdepfile3" do test -f "$tmpdepfile" && break done aix_post_process_depfile ;; tcc) # tcc (Tiny C Compiler) understand '-MD -MF file' since version 0.9.26 # FIXME: That version still under development at the moment of writing. # Make that this statement remains true also for stable, released # versions. # It will wrap lines (doesn't matter whether long or short) with a # trailing '\', as in: # # foo.o : \ # foo.c \ # foo.h \ # # It will put a trailing '\' even on the last line, and will use leading # spaces rather than leading tabs (at least since its commit 0394caf7 # "Emit spaces for -MD"). "$@" -MD -MF "$tmpdepfile" stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile" exit $stat fi rm -f "$depfile" # Each non-empty line is of the form 'foo.o : \' or ' dep.h \'. # We have to change lines of the first kind to '$object: \'. sed -e "s|.*:|$object :|" < "$tmpdepfile" > "$depfile" # And for each line of the second kind, we have to emit a 'dep.h:' # dummy dependency, to avoid the deleted-header problem. sed -n -e 's|^ *\(.*\) *\\$|\1:|p' < "$tmpdepfile" >> "$depfile" rm -f "$tmpdepfile" ;; ## The order of this option in the case statement is important, since the ## shell code in configure will try each of these formats in the order ## listed in this file. A plain '-MD' option would be understood by many ## compilers, so we must ensure this comes after the gcc and icc options. pgcc) # Portland's C compiler understands '-MD'. # Will always output deps to 'file.d' where file is the root name of the # source file under compilation, even if file resides in a subdirectory. # The object file name does not affect the name of the '.d' file. # pgcc 10.2 will output # foo.o: sub/foo.c sub/foo.h # and will wrap long lines using '\' : # foo.o: sub/foo.c ... \ # sub/foo.h ... \ # ... set_dir_from "$object" # Use the source, not the object, to determine the base name, since # that's sadly what pgcc will do too. set_base_from "$source" tmpdepfile=$base.d # For projects that build the same source file twice into different object # files, the pgcc approach of using the *source* file root name can cause # problems in parallel builds. Use a locking strategy to avoid stomping on # the same $tmpdepfile. lockdir=$base.d-lock trap " echo '$0: caught signal, cleaning up...' >&2 rmdir '$lockdir' exit 1 " 1 2 13 15 numtries=100 i=$numtries while test $i -gt 0; do # mkdir is a portable test-and-set. if mkdir "$lockdir" 2>/dev/null; then # This process acquired the lock. "$@" -MD stat=$? # Release the lock. rmdir "$lockdir" break else # If the lock is being held by a different process, wait # until the winning process is done or we timeout. while test -d "$lockdir" && test $i -gt 0; do sleep 1 i=`expr $i - 1` done fi i=`expr $i - 1` done trap - 1 2 13 15 if test $i -le 0; then echo "$0: failed to acquire lock after $numtries attempts" >&2 echo "$0: check lockdir '$lockdir'" >&2 exit 1 fi if test $stat -ne 0; then rm -f "$tmpdepfile" exit $stat fi rm -f "$depfile" # Each line is of the form `foo.o: dependent.h', # or `foo.o: dep1.h dep2.h \', or ` dep3.h dep4.h \'. # Do two passes, one to just change these to # `$object: dependent.h' and one to simply `dependent.h:'. sed "s,^[^:]*:,$object :," < "$tmpdepfile" > "$depfile" # Some versions of the HPUX 10.20 sed can't process this invocation # correctly. Breaking it into two sed invocations is a workaround. sed 's,^[^:]*: \(.*\)$,\1,;s/^\\$//;/^$/d;/:$/d' < "$tmpdepfile" \ | sed -e 's/$/ :/' >> "$depfile" rm -f "$tmpdepfile" ;; hp2) # The "hp" stanza above does not work with aCC (C++) and HP's ia64 # compilers, which have integrated preprocessors. The correct option # to use with these is +Maked; it writes dependencies to a file named # 'foo.d', which lands next to the object file, wherever that # happens to be. # Much of this is similar to the tru64 case; see comments there. set_dir_from "$object" set_base_from "$object" if test "$libtool" = yes; then tmpdepfile1=$dir$base.d tmpdepfile2=$dir.libs/$base.d "$@" -Wc,+Maked else tmpdepfile1=$dir$base.d tmpdepfile2=$dir$base.d "$@" +Maked fi stat=$? if test $stat -ne 0; then rm -f "$tmpdepfile1" "$tmpdepfile2" exit $stat fi for tmpdepfile in "$tmpdepfile1" "$tmpdepfile2" do test -f "$tmpdepfile" && break done if test -f "$tmpdepfile"; then sed -e "s,^.*\.[$lower]*:,$object:," "$tmpdepfile" > "$depfile" # Add 'dependent.h:' lines. sed -ne '2,${ s/^ *// s/ \\*$// s/$/:/ p }' "$tmpdepfile" >> "$depfile" else make_dummy_depfile fi rm -f "$tmpdepfile" "$tmpdepfile2" ;; tru64) # The Tru64 compiler uses -MD to generate dependencies as a side # effect. 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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 | -microblaze*) os= basic_machine=$1 ;; -bluegene*) os=-cnk ;; -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*178) os=-lynxos178 ;; -lynx*5) os=-lynxos5 ;; -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 \ | aarch64 | aarch64_be \ | alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \ | alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \ | am33_2.0 \ | arc | arceb \ | arm | arm[bl]e | arme[lb] | armv[2-8] | armv[3-8][lb] | armv7[arm] \ | avr | avr32 \ | ba \ | be32 | be64 \ | bfin \ | c4x | c8051 | clipper \ | d10v | d30v | dlx | dsp16xx \ | e2k | epiphany \ | fido | fr30 | frv | ft32 \ | h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \ | hexagon \ | i370 | i860 | i960 | ia64 \ | ip2k | iq2000 \ | k1om \ | le32 | le64 \ | lm32 \ | m32c | m32r | m32rle | m68000 | m68k | m88k \ | maxq | mb | microblaze | microblazeel | 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 \ | mipsisa32r6 | mipsisa32r6el \ | mipsisa64 | mipsisa64el \ | mipsisa64r2 | mipsisa64r2el \ | mipsisa64r6 | mipsisa64r6el \ | mipsisa64sb1 | mipsisa64sb1el \ | mipsisa64sr71k | mipsisa64sr71kel \ | mipsr5900 | mipsr5900el \ | mipstx39 | mipstx39el \ | mn10200 | mn10300 \ | moxie \ | mt \ | msp430 \ | nds32 | nds32le | nds32be \ | nios | nios2 | nios2eb | nios2el \ | ns16k | ns32k \ | open8 | or1k | or1knd | or32 \ | pdp10 | pdp11 | pj | pjl \ | powerpc | powerpc64 | powerpc64le | powerpcle \ | pyramid \ | riscv32 | riscv64 \ | rl78 | rx \ | score \ | sh | sh[1234] | sh[24]a | sh[24]aeb | sh[23]e | sh[234]eb | sheb | shbe | shle | sh[1234]le | sh3ele \ | sh64 | sh64le \ | sparc | sparc64 | sparc64b | sparc64v | sparc86x | sparclet | sparclite \ | sparcv8 | sparcv9 | sparcv9b | sparcv9v \ | spu \ | tahoe | tic4x | tic54x | tic55x | tic6x | tic80 | tron \ | ubicom32 \ | v850 | v850e | v850e1 | v850e2 | v850es | v850e2v3 \ | visium \ | we32k \ | x86 | xc16x | xstormy16 | xtensa \ | z8k | z80) basic_machine=$basic_machine-unknown ;; c54x) basic_machine=tic54x-unknown ;; c55x) basic_machine=tic55x-unknown ;; c6x) basic_machine=tic6x-unknown ;; leon|leon[3-9]) basic_machine=sparc-$basic_machine ;; m6811 | m68hc11 | m6812 | m68hc12 | m68hcs12x | nvptx | picochip) basic_machine=$basic_machine-unknown os=-none ;; m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k) ;; ms1) basic_machine=mt-unknown ;; strongarm | thumb | xscale) basic_machine=arm-unknown ;; xgate) basic_machine=$basic_machine-unknown os=-none ;; xscaleeb) basic_machine=armeb-unknown ;; xscaleel) basic_machine=armel-unknown ;; # We use `pc' rather than `unknown' # because (1) that's what they normally are, and # (2) the word "unknown" tends to confuse beginning users. i*86 | x86_64) basic_machine=$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-* \ | aarch64-* | aarch64_be-* \ | alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \ | alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \ | alphapca5[67]-* | alpha64pca5[67]-* | arc-* | arceb-* \ | arm-* | armbe-* | armle-* | armeb-* | armv*-* \ | avr-* | avr32-* \ | ba-* \ | be32-* | be64-* \ | bfin-* | bs2000-* \ | c[123]* | c30-* | [cjt]90-* | c4x-* \ | c8051-* | clipper-* | craynv-* | cydra-* \ | d10v-* | d30v-* | dlx-* \ | e2k-* | elxsi-* \ | f30[01]-* | f700-* | fido-* | fr30-* | frv-* | fx80-* \ | h8300-* | h8500-* \ | hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \ | hexagon-* \ | i*86-* | i860-* | i960-* | ia64-* \ | ip2k-* | iq2000-* \ | k1om-* \ | le32-* | le64-* \ | lm32-* \ | m32c-* | m32r-* | m32rle-* \ | m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \ | m88110-* | m88k-* | maxq-* | mcore-* | metag-* \ | microblaze-* | microblazeel-* \ | 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-* \ | mipsisa32r6-* | mipsisa32r6el-* \ | mipsisa64-* | mipsisa64el-* \ | mipsisa64r2-* | mipsisa64r2el-* \ | mipsisa64r6-* | mipsisa64r6el-* \ | mipsisa64sb1-* | mipsisa64sb1el-* \ | mipsisa64sr71k-* | mipsisa64sr71kel-* \ | mipsr5900-* | mipsr5900el-* \ | mipstx39-* | mipstx39el-* \ | mmix-* \ | mt-* \ | msp430-* \ | nds32-* | nds32le-* | nds32be-* \ | nios-* | nios2-* | nios2eb-* | nios2el-* \ | none-* | np1-* | ns16k-* | ns32k-* \ | open8-* \ | or1k*-* \ | orion-* \ | pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \ | powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* \ | pyramid-* \ | riscv32-* | riscv64-* \ | rl78-* | romp-* | rs6000-* | rx-* \ | 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-* | sv1-* | sx*-* \ | tahoe-* \ | tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* \ | tile*-* \ | tron-* \ | ubicom32-* \ | v850-* | v850e-* | v850e1-* | v850es-* | v850e2-* | v850e2v3-* \ | vax-* \ | visium-* \ | we32k-* \ | x86-* | x86_64-* | xc16x-* | xps100-* \ | 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 ;; asmjs) basic_machine=asmjs-unknown ;; 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 ;; bluegene*) basic_machine=powerpc-ibm os=-cnk ;; c54x-*) basic_machine=tic54x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; c55x-*) basic_machine=tic55x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; c6x-*) basic_machine=tic6x-`echo $basic_machine | sed 's/^[^-]*-//'` ;; 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 | 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*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 ;; leon-*|leon[3-9]-*) basic_machine=sparc-`echo $basic_machine | sed 's/-.*//'` ;; 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 ;; microblaze*) basic_machine=microblaze-xilinx ;; mingw64) basic_machine=x86_64-pc os=-mingw64 ;; mingw32) basic_machine=i686-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 ;; moxiebox) basic_machine=moxie-unknown os=-moxiebox ;; msdos) basic_machine=i386-pc os=-msdos ;; ms1-*) basic_machine=`echo $basic_machine | sed -e 's/ms1-/mt-/'` ;; msys) basic_machine=i686-pc os=-msys ;; mvs) basic_machine=i370-ibm os=-mvs ;; nacl) basic_machine=le32-unknown os=-nacl ;; 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 ;; neo-tandem) basic_machine=neo-tandem ;; nse-tandem) basic_machine=nse-tandem ;; 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 | ppcbe) basic_machine=powerpc-unknown ;; ppc-* | ppcbe-*) 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 ;; ppc64le-* | powerpc64little-*) basic_machine=powerpc64le-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ps2) basic_machine=i386-ibm ;; pw32) basic_machine=i586-unknown os=-pw32 ;; rdos | rdos64) basic_machine=x86_64-pc os=-rdos ;; rdos32) basic_machine=i386-pc os=-rdos ;; rom68k) basic_machine=m68k-rom68k os=-coff ;; rm[46]00) basic_machine=mips-siemens ;; rtpc | rtpc-*) basic_machine=romp-ibm ;; s390 | s390-*) basic_machine=s390-ibm ;; s390x | s390x-*) basic_machine=s390x-ibm ;; sa29200) basic_machine=a29k-amd os=-udi ;; sb1) basic_machine=mipsisa64sb1-unknown ;; sb1el) basic_machine=mipsisa64sb1el-unknown ;; sde) basic_machine=mipsisa32-sde os=-elf ;; sei) basic_machine=mips-sei os=-seiux ;; sequent) basic_machine=i386-sequent ;; sh) basic_machine=sh-hitachi os=-hms ;; sh5el) basic_machine=sh5le-unknown ;; sh64) basic_machine=sh64-unknown ;; sparclite-wrs | simso-wrs) basic_machine=sparclite-wrs os=-vxworks ;; sps7) basic_machine=m68k-bull os=-sysv2 ;; spur) basic_machine=spur-unknown ;; st2000) basic_machine=m68k-tandem ;; stratus) basic_machine=i860-stratus os=-sysv4 ;; strongarm-* | thumb-*) basic_machine=arm-`echo $basic_machine | sed 's/^[^-]*-//'` ;; sun2) basic_machine=m68000-sun ;; sun2os3) basic_machine=m68000-sun os=-sunos3 ;; sun2os4) basic_machine=m68000-sun os=-sunos4 ;; sun3os3) basic_machine=m68k-sun os=-sunos3 ;; sun3os4) basic_machine=m68k-sun os=-sunos4 ;; sun4os3) basic_machine=sparc-sun os=-sunos3 ;; sun4os4) basic_machine=sparc-sun os=-sunos4 ;; sun4sol2) basic_machine=sparc-sun os=-solaris2 ;; sun3 | sun3-*) basic_machine=m68k-sun ;; sun4) basic_machine=sparc-sun ;; sun386 | sun386i | roadrunner) basic_machine=i386-sun ;; sv1) basic_machine=sv1-cray os=-unicos ;; symmetry) basic_machine=i386-sequent os=-dynix ;; t3e) basic_machine=alphaev5-cray os=-unicos ;; t90) basic_machine=t90-cray os=-unicos ;; tile*) basic_machine=$basic_machine-unknown os=-linux-gnu ;; tx39) basic_machine=mipstx39-unknown ;; tx39el) basic_machine=mipstx39el-unknown ;; toad1) basic_machine=pdp10-xkl os=-tops20 ;; tower | tower-32) basic_machine=m68k-ncr ;; tpf) basic_machine=s390x-ibm os=-tpf ;; udi29k) basic_machine=a29k-amd os=-udi ;; ultra3) basic_machine=a29k-nyu os=-sym1 ;; v810 | necv810) basic_machine=v810-nec os=-none ;; 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IN NO EVENT SHALL THE # X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN # AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNEC- # TION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # Except as contained in this notice, the name of the X Consortium shall not # be used in advertising or otherwise to promote the sale, use or other deal- # ings in this Software without prior written authorization from the X Consor- # tium. # # # FSF changes to this file are in the public domain. # # Calling this script install-sh is preferred over install.sh, to prevent # 'make' implicit rules from creating a file called install from it # when there is no Makefile. # # This script is compatible with the BSD install script, but was written # from scratch. tab=' ' nl=' ' IFS=" $tab$nl" # Set DOITPROG to "echo" to test this script. doit=${DOITPROG-} doit_exec=${doit:-exec} # Put in absolute file names if you don't have them in your path; # or use environment vars. chgrpprog=${CHGRPPROG-chgrp} chmodprog=${CHMODPROG-chmod} chownprog=${CHOWNPROG-chown} cmpprog=${CMPPROG-cmp} cpprog=${CPPROG-cp} mkdirprog=${MKDIRPROG-mkdir} mvprog=${MVPROG-mv} rmprog=${RMPROG-rm} stripprog=${STRIPPROG-strip} posix_mkdir= # Desired mode of installed file. mode=0755 chgrpcmd= chmodcmd=$chmodprog chowncmd= mvcmd=$mvprog rmcmd="$rmprog -f" stripcmd= src= dst= dir_arg= dst_arg= copy_on_change=false is_target_a_directory=possibly usage="\ Usage: $0 [OPTION]... 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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. This Exception is an additional permission under section 7 # of the GNU General Public License, version 3 ("GPLv3"). # # Originally written by Per Bothner; maintained since 2000 by Ben Elliston. # # You can get the latest version of this script from: # http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.guess;hb=HEAD # # Please send patches to . me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] Output the configuration name of the system \`$me' is run on. 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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. 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) 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 -q __LP64__ 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:*:*) UNAME_PROCESSOR=`/usr/bin/uname -p` case ${UNAME_PROCESSOR} in amd64) echo x86_64-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; *) echo ${UNAME_PROCESSOR}-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; esac exit ;; i*:CYGWIN*:*) echo ${UNAME_MACHINE}-pc-cygwin exit ;; *:MINGW64*:*) echo ${UNAME_MACHINE}-pc-mingw64 exit ;; *:MINGW*:*) echo ${UNAME_MACHINE}-pc-mingw32 exit ;; *:MSYS*:*) echo ${UNAME_MACHINE}-pc-msys exit ;; i*:windows32*:*) # uname -m includes "-pc" on this system. echo ${UNAME_MACHINE}-mingw32 exit ;; i*:PW*:*) echo ${UNAME_MACHINE}-pc-pw32 exit ;; *:Interix*:*) case ${UNAME_MACHINE} in x86) echo i586-pc-interix${UNAME_RELEASE} exit ;; authenticamd | genuineintel | EM64T) 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 ;; 8664:Windows_NT:*) echo x86_64-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. Should we # UNAME_MACHINE based on the output of uname instead of i386? echo i586-pc-interix exit ;; i*:UWIN*:*) echo ${UNAME_MACHINE}-pc-uwin exit ;; amd64:CYGWIN*:*:* | x86_64:CYGWIN*:*:*) echo x86_64-unknown-cygwin exit ;; p*:CYGWIN*:*) echo powerpcle-unknown-cygwin exit ;; prep*:SunOS:5.*:*) echo powerpcle-unknown-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; *:GNU:*:*) # the GNU system echo `echo ${UNAME_MACHINE}|sed -e 's,[-/].*$,,'`-unknown-${LIBC}`echo ${UNAME_RELEASE}|sed -e 's,/.*$,,'` exit ;; *:GNU/*:*:*) # other systems with GNU libc and userland echo ${UNAME_MACHINE}-unknown-`echo ${UNAME_SYSTEM} | sed 's,^[^/]*/,,' | tr '[A-Z]' '[a-z]'``echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`-${LIBC} exit ;; i*86:Minix:*:*) echo ${UNAME_MACHINE}-pc-minix exit ;; aarch64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; aarch64_be:Linux:*:*) UNAME_MACHINE=aarch64_be echo ${UNAME_MACHINE}-unknown-linux-${LIBC} 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 -q ld.so.1 if test "$?" = 0 ; then LIBC="gnulibc1" ; fi echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; arc:Linux:*:* | arceb:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; arm*:Linux:*:*) eval $set_cc_for_build if echo __ARM_EABI__ | $CC_FOR_BUILD -E - 2>/dev/null \ | grep -q __ARM_EABI__ then echo ${UNAME_MACHINE}-unknown-linux-${LIBC} else if echo __ARM_PCS_VFP | $CC_FOR_BUILD -E - 2>/dev/null \ | grep -q __ARM_PCS_VFP then echo ${UNAME_MACHINE}-unknown-linux-${LIBC}eabi else echo ${UNAME_MACHINE}-unknown-linux-${LIBC}eabihf fi fi exit ;; avr32*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; cris:Linux:*:*) echo ${UNAME_MACHINE}-axis-linux-${LIBC} exit ;; crisv32:Linux:*:*) echo ${UNAME_MACHINE}-axis-linux-${LIBC} exit ;; e2k:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; frv:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; hexagon:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; i*86:Linux:*:*) echo ${UNAME_MACHINE}-pc-linux-${LIBC} exit ;; ia64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; m32r*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; m68*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; mips:Linux:*:* | mips64:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef ${UNAME_MACHINE} #undef ${UNAME_MACHINE}el #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=${UNAME_MACHINE}el #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=${UNAME_MACHINE} #else CPU= #endif #endif EOF eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep '^CPU'` test x"${CPU}" != x && { echo "${CPU}-unknown-linux-${LIBC}"; exit; } ;; openrisc*:Linux:*:*) echo or1k-unknown-linux-${LIBC} exit ;; or32:Linux:*:* | or1k*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; padre:Linux:*:*) echo sparc-unknown-linux-${LIBC} exit ;; parisc64:Linux:*:* | hppa64:Linux:*:*) echo hppa64-unknown-linux-${LIBC} 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-${LIBC} ;; PA8*) echo hppa2.0-unknown-linux-${LIBC} ;; *) echo hppa-unknown-linux-${LIBC} ;; esac exit ;; ppc64:Linux:*:*) echo powerpc64-unknown-linux-${LIBC} exit ;; ppc:Linux:*:*) echo powerpc-unknown-linux-${LIBC} exit ;; ppc64le:Linux:*:*) echo powerpc64le-unknown-linux-${LIBC} exit ;; ppcle:Linux:*:*) echo powerpcle-unknown-linux-${LIBC} exit ;; s390:Linux:*:* | s390x:Linux:*:*) echo ${UNAME_MACHINE}-ibm-linux-${LIBC} exit ;; sh64*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; sh*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; sparc:Linux:*:* | sparc64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; tile*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} exit ;; vax:Linux:*:*) echo ${UNAME_MACHINE}-dec-linux-${LIBC} exit ;; x86_64:Linux:*:*) echo ${UNAME_MACHINE}-pc-linux-${LIBC} exit ;; xtensa*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-${LIBC} 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 ${UNAME_MACHINE}-pc-os2-emx exit ;; 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That is also # ok. exec "$@" fi # Name of file we expect compiler to create. cofile=`echo "$cfile" | sed 's|^.*[\\/]||; s|^[a-zA-Z]:||; s/\.c$/.o/'` # Create the lock directory. # Note: use '[/\\:.-]' here to ensure that we don't use the same name # that we are using for the .o file. Also, base the name on the expected # object file name, since that is what matters with a parallel build. lockdir=`echo "$cofile" | sed -e 's|[/\\:.-]|_|g'`.d while true; do if mkdir "$lockdir" >/dev/null 2>&1; then break fi sleep 1 done # FIXME: race condition here if user kills between mkdir and trap. trap "rmdir '$lockdir'; exit 1" 1 2 15 # Run the compile. "$@" ret=$? if test -f "$cofile"; then test "$cofile" = "$ofile" || mv "$cofile" "$ofile" elif test -f "${cofile}bj"; then test "${cofile}bj" = "$ofile" || mv "${cofile}bj" "$ofile" fi rmdir "$lockdir" exit $ret # 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: flwrap-1.3.5/README0000644000175000017500000000104712562727330010625 00000000000000Flwrap is a software utility for Amateur Radio use. Its purpose is to encapsulate both text and binary files in a way that allows them to be transmitted over any of several digital modes verified at the receipt end for correctness The latest version can always be found at: http://www.w1hkj.com/Wrap.html Visit this page for extensive documentation and an archive of XML files for transceivers supported by RigCAT. Join the linuxham Yahoo group for support, news and updates on W1HKJ software: http://groups.yahoo.com/group/linuxham/join flwrap-1.3.5/src/0000755000175000017500000000000013256721755010620 500000000000000flwrap-1.3.5/src/wrapdialog.cxx0000644000175000017500000000300412562727330013404 00000000000000// generated by Fast Light User Interface Designer (fluid) version 1.0110 #include "wrapdialog.h" Fl_Output *txtResult=(Fl_Output *)0; Fl_Input *inpDropBox=(Fl_Input *)0; static void cb_inpDropBox(Fl_Input*, void*) { inpDropBox_changed(); } Fl_Return_Button *btnClose=(Fl_Return_Button *)0; static void cb_btnClose(Fl_Return_Button*, void*) { cb_close(); } Fl_Light_Button *btn_compress=(Fl_Light_Button *)0; static void cb_btn_compress(Fl_Light_Button* o, void*) { usecompression = o->value(); } Fl_Double_Window* make_window() { Fl_Double_Window* w; { Fl_Double_Window* o = new Fl_Double_Window(492, 152, "Wrap"); w = o; { txtResult = new Fl_Output(5, 10, 360, 107); txtResult->type(12); txtResult->textfont(1); Fl_Group::current()->resizable(txtResult); } // Fl_Output* txtResult { inpDropBox = new Fl_Input(368, 10, 118, 107, "^Drop file here^"); inpDropBox->color((Fl_Color)FL_LIGHT3); inpDropBox->callback((Fl_Callback*)cb_inpDropBox); inpDropBox->align(FL_ALIGN_BOTTOM); inpDropBox->when(3); } // Fl_Input* inpDropBox { btnClose = new Fl_Return_Button(271, 122, 87, 25, "Close"); btnClose->callback((Fl_Callback*)cb_btnClose); } // Fl_Return_Button* btnClose { Fl_Light_Button* o = btn_compress = new Fl_Light_Button(7, 122, 100, 25, "Compress"); btn_compress->callback((Fl_Callback*)cb_btn_compress); o->value(usecompression); } // Fl_Light_Button* btn_compress o->end(); } // Fl_Double_Window* o return w; } flwrap-1.3.5/src/flwrap-rc.rc0000644000175000017500000000026312562727330012756 00000000000000#include // include for version info constants #include "wraprc.h" IDI_ICON ICON DISCARDABLE "flwrap.ico" //A ICON MOVEABLE PURE LOADONCALL DISCARDABLE "flarq.ico" flwrap-1.3.5/src/Makefile.am0000644000175000017500000000735413256716376012610 00000000000000# Copyright (c) 2008 Dave Freese, W1HKJ (w1hkj AT w1hkj DOT com) bin_PROGRAMS = flwrap flwrap_CPPFLAGS = @FLWRAP_BUILD_CPPFLAGS@ flwrap_CXXFLAGS = @FLWRAP_BUILD_CXXFLAGS@ flwrap_CFLAGS = $(flwrap_CXXFLAGS) flwrap_LDFLAGS = @FLWRAP_BUILD_LDFLAGS@ flwrap_LDADD = @FLWRAP_BUILD_LDADD@ MINGW32_SRC = flwrap-rc.rc include/wraprc.h # We distribute these but do not always compile them EXTRA_flwrap_SOURCES = $(FLWRAP_WIN32_RES_SRC) $(MINGW32_SRC) flwrap_SOURCES = if MINGW32 if HAVE_WINDRES flwrap_SOURCES += $(MINGW32_SRC) endif endif ######################################################################## flwrap_VERSION_MAJOR = @FLWRAP_VERSION_MAJOR@ flwrap_VERSION_MINOR = @FLWRAP_VERSION_MINOR@ flwrap_VERSION_PATCH = @FLWRAP_VERSION_PATCH@ flwrap_VERSION = @FLWRAP_VERSION@ .EXPORT_ALL_VARIABLES: nsisinst appbundle # Sources that are generated, BUILT_SOURCES = # not distributed, nodist_flwrap_SOURCES = $(BUILT_SOURCES) # and deleted by the clean targets CLEANFILES = $(BUILT_SOURCES) CLEAN_LOCAL = if MINGW32 if HAVE_WINDRES .rc.o: $(WINDRES) -I$(srcdir)/include -I$(srcdir)/../data/win32 $< -O coff $@ endif endif install-data-local: if test -f $(srcdir)/../data/flwrap.xpm; then \ $(mkinstalldirs) $(DESTDIR)/$(datadir)/pixmaps; \ $(INSTALL_DATA) $(srcdir)/../data/flwrap.xpm $(DESTDIR)/$(datadir)/pixmaps; \ fi if test -f $(srcdir)/../data/flwrap.desktop; then \ $(mkinstalldirs) $(DESTDIR)/$(datadir)/applications; \ $(INSTALL_DATA) $(srcdir)/../data/flwrap.desktop $(DESTDIR)/$(datadir)/applications; \ fi uninstall-local: rm -f $(DESTDIR)/$(datadir)/pixmaps/flwrap.xpm rm -f $(DESTDIR)/$(datadir)/applications/flwrap.desktop FL_SRC = wrapdialog.fl if HAVE_FLUID flgen: $(FL_SRC) (cd $(srcdir)/include; \ for f in $(FL_SRC); do \ c=$${f%.fl}.cxx; \ h=$${f%.fl}.h; \ h=$${h##*/}; \ $(FLUID) -c -o ../$$c -h $$h ../$$f; \ done) endif INSTALLER_FILE = flwrap-$(FLWRAP_VERSION)_setup.exe APPBUNDLE=flwrap-$(FLWRAP_VERSION) APPBUNDLE_NOLIBS=$(APPBUNDLE)-nolibs if HAVE_NSIS nsisinst: $(bin_PROGRAMS) sh $(srcdir)/../scripts/mknsisinst.sh "$(srcdir)/../data" . CLEANFILES += $(INSTALLER_FILE) endif if DARWIN appbundle: $(bin_PROGRAMS) sh $(srcdir)/../scripts/mkappbundle.sh "$(srcdir)/../data" . CLEAN_LOCAL += $(APPBUNDLE_NOLIBS) $(APPBUNDLE) $(APPBUNDLE)*.dmg endif #if HAVE_ASCIIDOC #$(builddir)/../doc/guide.html: $(builddir)/../doc/guide.txt # $(MAKE) -C $(builddir)/../doc $(AM_MAKEFLAGS) guide.html #$(builddir)/dialogs/guide.cxx: $(builddir)/../doc/guide.html # mkdir -p $(builddir)/dialogs # sed 's/"/\\"/g; s/$$/\\n\\/g; 1 s/.*/const char* szBeginner = "&/; $$ s/.*/&n";/' $< > $@ #dialogs/htmlstrings.cxx: $(builddir)/dialogs/guide.cxx #distclean-local: # @if test "$(builddir)" != "$(srcdir)"; then \ # rm -f $(builddir)/dialogs/guide.cxx; \ # fi #endif clean-local: -rm -rf $(CLEAN_LOCAL) # Sources that we build. It is OK to have headers here. flwrap_SOURCES += \ flwrap.cxx \ wrapdialog.cxx \ base64.cxx \ include/base64.h \ include/crc16.h \ include/flwrap.h \ include/wrapdialog.h \ lzma/Alloc.h \ lzma/Alloc.c \ lzma/LzFind.c \ lzma/LzFind.h \ lzma/LzHash.h \ lzma/LzmaDec.c \ lzma/LzmaDec.h \ lzma/LzmaEnc.c \ lzma/LzmaEnc.h \ lzma/LzmaLib.c \ lzma/LzmaLib.h \ lzma/Types.h # Additional non-source files that are distributed # Additional source files that support non-Linux cross compilation EXTRA_DIST = \ $(srcdir)/../data/flwrap.desktop \ $(srcdir)/../data/flwrap.xpm \ $(srcdir)/../data/win32/fl_app.nsi \ $(srcdir)/../data/win32/flwrap.ico \ $(srcdir)/../scripts/mknsisinst.sh \ $(srcdir)/../scripts/build4mingw.sh \ $(srcdir)/../data/mac/Info.plist.in \ $(srcdir)/../data/mac/flwrap.icns \ $(srcdir)/../scripts/mkappbundle.sh \ $(FLWRAP_WIN32_SRC) \ $(FLWRAP_FL_SRC) flwrap-1.3.5/src/include/0000755000175000017500000000000013256721755012243 500000000000000flwrap-1.3.5/src/include/wrapdialog.h0000644000175000017500000000076412562727330014466 00000000000000// generated by Fast Light User Interface Designer (fluid) version 1.0110 #ifndef wrapdialog_h #define wrapdialog_h #include #include #include extern Fl_Output *txtResult; #include #include "flwrap.h" extern Fl_Input *inpDropBox; #include extern void cb_close(); extern Fl_Return_Button *btnClose; #include extern Fl_Light_Button *btn_compress; Fl_Double_Window* make_window(); #endif flwrap-1.3.5/src/include/base64.h0000644000175000017500000000116212562727330013412 00000000000000//===================================================================== // // base64 encoding / decoding class // //===================================================================== #include #include #include #include using namespace std; typedef unsigned char byte; class base64 { #define LINELEN 72 private: string output; size_t iolen; size_t iocp; bool ateof; byte dtable[256]; byte etable[256]; int linelength; bool crlf; void init(); public: base64(bool t = false) {crlf = t; init(); }; ~base64(){}; string encode(string in); string decode(string in); }; flwrap-1.3.5/src/include/flwrap.h0000644000175000017500000000015512562727330013622 00000000000000#ifndef _FL_WRAP_H #define _FL_WRAP_H extern void inpDropBox_changed(); extern bool usecompression; #endif flwrap-1.3.5/src/include/wraprc.h0000644000175000017500000000007712562727330013630 00000000000000// MS include file for application icon #define IDI_ICON 101 flwrap-1.3.5/src/include/crc16.h0000644000175000017500000000157112562727330013250 00000000000000//===================================================================== // // crc16 checksum // //===================================================================== class Ccrc16 { private: unsigned int crcval; char ss[5]; public: Ccrc16() { crcval = 0xFFFF; } ~Ccrc16() {}; void reset() { crcval = 0xFFFF;} unsigned int val() {return crcval;} string sval() { sprintf(ss,"%04X", crcval); return ss; } void update(char c) { crcval ^= c; for (int i = 0; i < 8; ++i) { if (crcval & 1) crcval = (crcval >> 1) ^ 0xA001; else crcval = (crcval >> 1); } } unsigned int crc16(char c) { update(c); return crcval; } unsigned int crc16(string s) { reset(); for (size_t i = 0; i < s.length(); i++) update(s[i]); return crcval; } string scrc16(string s) { crc16(s); return sval(); } }; flwrap-1.3.5/src/flwrap.cxx0000644000175000017500000003410013256716376012560 00000000000000// WRAP - wrap.cxx // // Author: Dave Freese, W1HKJ // Stelios Bounanos, M0GLD // // wrap surrounds critical text with markers and adds a checksum to the // resulting file. It unwraps a file that has been previously wrapped. The // wrap/unwrap is automatic and the user only need to process the file with // wrap and it will determine whether a wrap or unwrap is needed. The wrapped // file can be transmitted via a noisy channel and then tested at the end site // for file integrity. It reports on the success or failure with a small // dialog box. // // wrap 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 3 of the License, or // (at your option) any later version. // // WRAP 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 the program; if not, write to the // // Free Software Foundation, Inc. // 51 Franklin Street, Fifth Floor // Boston, MA 02110-1301 USA. // // $Id: main.c 141 2008-07-19 15:59:57Z jessekornblum $ #include #include #include #include #include #include #include #include #ifdef __WOE32__ # include #else # include #endif #include #include #include #include #include #include #ifdef __WOE32__ # include #endif #include #include "wrapdialog.h" #include "base64.h" #include "crc16.h" #include "lzma/LzmaLib.h" #ifdef __WOE32__ # include "wraprc.h" #endif int parse_args(int argc, char **argv, int& idx); using namespace std; const char *wrap_beg = "[WRAP:beg]"; const char *wrap_end = "[WRAP:end]"; const char *wrap_crlf = "[WRAP:crlf]"; const char *wrap_lf = "[WRAP:lf]"; const char *wrap_chksum = "[WRAP:chksum "; const char *b64_start = "[b64:start]"; const char *b64_end = "[b64:end]"; const char *wrap_fn = "[WRAP:fn "; Ccrc16 chksum; base64 b64(1); // insert lf for ease of viewing string inptext = ""; string check = ""; string outfilename = ""; string inpfilename = ""; string inpshortname = ""; string outshortname = ""; string foldername = ""; string errtext = ""; string infotext = ""; bool usecompression = false; void dress(string &str) { string s = ""; if (str.empty()) return; size_t p = 0; string rpl = ""; unsigned char ch; for (p = 0; p < str.length(); p++) { ch = str[p] & 0xFF; rpl = ch; if ( ch == '|') rpl = "||"; else if (ch >= 0x80 && ch < 0xC0) { rpl = "|-"; rpl += (ch - 0x60); } else if (ch >= 0xC0) { rpl = "|_"; rpl += (ch - 0xA0); } else if (ch < ' ') { if (ch != 0x09 && ch != 0x0A && ch != 0x0D) { rpl = "|+"; rpl += (ch + ' '); } } s.append(rpl); } str = s; } void strip(string &s) { if (s.empty()) return; size_t p = 0; string str = ""; while (p < s.length()) { if (s[p] != '|') str += s[p]; else { p++; if (s[p] == '|') str += s[p]; else if (s[p] == '+') { p++; str += (s[p] & 0xFF) - 0x20; } else if (s[p] == '-') { p++; str += (s[p] & 0xFF) + 0x60; } else if (s[p] == '_') { p++; str += (s[p] & 0xFF) + 0xA0; } else p++; } p++; } s = str; } bool isExtension(const char *s1, const char *s2) { #ifdef __WOE32__ char *sz1 = new char[strlen(s1) + 1]; char *sz2 = new char[strlen(s2) + 1]; char *p = 0; strcpy(sz1, s1); strcpy(sz2, s2); for (size_t i = 0; i < strlen(sz1); i++) sz1[i] = toupper(sz1[i]); for (size_t i = 0; i < strlen(sz2); i++) sz2[i] = toupper(sz2[i]); p = strstr(sz1, sz2); delete [] sz1; delete [] sz2; return (p != 0); #else const char *p = strcasestr(s1, s2); #endif return (p != 0); } void base64encode() { string outtext; outtext = b64.encode(inptext); inptext = b64_start; inptext.append(outtext); inptext.append(b64_end); } void convert2crlf(string &s) { if (s.find('\r') != string::npos) return; size_t p = s.find('\n'); while (p != string::npos) { s.replace(p, 1, "\r\n"); p = s.find('\n', p + 2); } } void convert2lf(string &s) { size_t p = s.find("\r\n"); while (p != string::npos) { s.replace(p, 2, "\n"); p = s.find("\r\n"); } } #define LZMA_STR "\1LZMA" bool compress_always(string &input) { // allocate 105% of the original size for the output buffer size_t outlen = (size_t)ceil(input.length() * 1.05); unsigned char* buf = new unsigned char[outlen]; size_t plen = LZMA_PROPS_SIZE; unsigned char outprops[LZMA_PROPS_SIZE]; uint32_t origlen = htonl(input.length()); size_t inlen = input.length(); int r; char msg[200]; if ((r = LzmaCompress(buf, &outlen, (const unsigned char*)input.data(), input.length(), outprops, &plen, 9, 0, -1, -1, -1, -1, -1)) != SZ_OK) { snprintf(msg, sizeof(msg), "File cannot be compressed.\nReprocess with compression disabled"); errtext = msg; return false; } // write LZMA_STR + original size (in network byte order) + props + data input.reserve(strlen(LZMA_STR) + sizeof(origlen) + sizeof(outprops) + outlen); input.assign(LZMA_STR); input.append((const char*)&origlen, sizeof(origlen)); input.append((const char*)&outprops, sizeof(outprops)); input.append((const char*)buf, outlen); snprintf(msg, sizeof(msg), "Compress: in = %ld, out = %ld", (long)inlen, (long)outlen); infotext = msg; delete [] buf; return true; } void decompress_maybe(string& input) { // input is LZMA_STR + original size (in network byte order) + props + data if (input.find(LZMA_STR)) { errtext.clear(); return; } const char* in = input.data(); size_t outlen = ntohl(*reinterpret_cast(in + strlen(LZMA_STR))); // if (outlen > 1 << 25) { // cerr << "W: refusing to decompress data (> 32MiB)\n"; // return; // } unsigned char* buf = new unsigned char[outlen]; unsigned char inprops[LZMA_PROPS_SIZE]; memcpy(inprops, in + strlen(LZMA_STR) + sizeof(uint32_t), LZMA_PROPS_SIZE); size_t inlen = input.length() - strlen(LZMA_STR) - sizeof(uint32_t) - LZMA_PROPS_SIZE; int r; char msg[200]; if ((r = LzmaUncompress(buf, &outlen, (const unsigned char*)in + input.length() - inlen, &inlen, inprops, LZMA_PROPS_SIZE)) != SZ_OK) { snprintf(msg, sizeof(msg), "Lzma Decompress failed with error code %d\n", r); errtext = msg; } else { input.reserve(outlen); input.assign((const char*)buf, outlen); } delete [] buf; } bool wrapfile(bool isbinary) { bool iscrlf = false; outfilename.append(".wrap"); outshortname = fl_filename_name(outfilename.c_str()); #ifdef ____WOE32____ int insize = inptext.length(); #else long insize = inptext.length(); #endif dress(inptext); if (isbinary) { if (!compress_always(inptext)) return false; base64encode(); } else { if (inptext.find("\r\n") != string::npos) { iscrlf = true; convert2lf(inptext); // checksum & data transfer always based on Unix end-of-line char } } string originalfilename = wrap_fn; originalfilename.append(inpshortname); originalfilename += ']'; inptext.insert(0, originalfilename); check = chksum.scrc16(inptext); ofstream wrapstream(outfilename.c_str(), ios::binary); if (wrapstream) { wrapstream << wrap_beg << (iscrlf ? wrap_crlf : wrap_lf) << inptext << wrap_chksum << check << ']' << wrap_end; wrapstream.close(); } else { errtext = "Cannot open output file"; return false; } char msg[200]; #ifdef ____WOE32____ int outsize = #else long outsize = #endif strlen(wrap_beg) + (iscrlf ? strlen(wrap_crlf) : strlen(wrap_lf)) + inptext.length() + strlen(wrap_chksum) + check.length() + 1 + strlen(wrap_end); #ifdef ____WOE32____ snprintf(msg, sizeof(msg), "In = %d bytes, Out = %d bytes", insize, outsize); #else snprintf(msg, sizeof(msg), "In = %ld bytes, Out = %ld bytes", insize, outsize); #endif infotext = msg; return true; } // all of this crlf checking is necessary because the original file may have had crlf pairs // or the OS save may have inserted them into the text (MSDOS) har! bool unwrapfile() { size_t p1, p2, p3, p4; string wtext; string testsum; string inpsum; bool iscrlf = false; p1 = inptext.find(wrap_beg); if (p1 == string::npos) { errtext = "Not a wrap file"; return false; } p1 = inptext.find(wrap_crlf); if (p1 != string::npos) { // original text had crlf pairs iscrlf = true; p1 += strlen(wrap_crlf); } else { p1 = inptext.find(wrap_lf); if (p1 == string::npos) { errtext = "Invalid file"; return false; } p1 += strlen(wrap_lf); } p2 = inptext.find(wrap_chksum, p1); if (p2 == string::npos) return false; wtext = inptext.substr(p1, p2-p1); // this is the original document p3 = p2 + strlen(wrap_chksum); p4 = inptext.find(']', p3); if (p4 == string::npos) { errtext = "Cannot find checksum in file"; return false; } inpsum = inptext.substr(p3, p4-p3); p4 = inptext.find(wrap_end, p4); if (p4 == string::npos) { errtext = "No end tag in file"; return false; } if (wtext.find("\r\n") != string::npos) convert2lf(wtext); testsum = chksum.scrc16(wtext); if (inpsum != testsum) { errtext = "Checksum failed\n"; errtext.append(inpsum); errtext.append(" in file\n"); errtext.append(testsum); errtext.append(" computed"); return false; } if (wtext.find(wrap_fn) == 0) { size_t p = wtext.find(']'); outshortname = wtext.substr(0, p); outshortname.erase(0, strlen(wrap_fn)); wtext.erase(0,p+1); // check for protocol abuse bool t1 = (outshortname.find('/') != string::npos); bool t2 = (outshortname.find('\\') != string::npos); bool t3 = (outshortname == "."); bool t4 = (outshortname == ".."); bool t5 = (outshortname.find(":") != string::npos); bool t6 = outshortname.empty(); if (t1 || t2 || t3 || t4 || t5 || t6) { errtext = "Filename corrupt, possible protocol abuse\n"; if (t1) errtext.append("Filename contains '/' character\n"); if (t2) errtext.append("Filename contains '\\' character\n"); if (t3) errtext.append("Filename contains leading '.' character\n"); if (t4) errtext.append("Filename contains leading '..' string\n"); if (t5) errtext.append("Filename contains MS directory specifier\n"); if (t6) errtext.append("Filename is empty\n"); return false; } outfilename = foldername; outfilename.append(outshortname); } else { p1 = outfilename.find(".wrap"); if (p1 != string::npos) outfilename.erase(p1); } if (iscrlf) convert2crlf(wtext); p1 = wtext.find(b64_start); if (p1 != string::npos) { p1 += strlen(b64_start); p2 = wtext.find(b64_end, p1); if (p2 == string::npos) { errtext = "Base 64 decode failed"; return false; } wtext = b64.decode(wtext.substr(p1, p2-p1)); decompress_maybe(wtext); } strip(wtext); ofstream tfile(outfilename.c_str(), ios::binary); if (tfile) { tfile << wtext; tfile.close(); } else { errtext = "Cannot open output file"; return false; } return true; } bool readfile(bool& isbinary) { char c; ifstream textfile; textfile.open(inpfilename.c_str(), ios::binary); if (!textfile) return false; inptext.clear(); textfile.seekg(0, ios::end); inptext.reserve(textfile.tellg()); textfile.seekg(0, ios::beg); isbinary = false; while (textfile.get(c)) inptext += c; return true; } void cb_close() { exit(0); } void wrap_unwrap() { char result[1000]; inpshortname = fl_filename_name(inpfilename.c_str()); foldername = inpfilename; foldername.erase(foldername.find(inpshortname)); txtResult->value(""); txtResult->redraw(); infotext = ""; bool isbinary = false; if (inpfilename.empty() || !readfile(isbinary)) { snprintf(result, sizeof(result), "Usage: flwrap [--usecomp] FILENAME or\n\ (1) Drag & Drop File onto desktop icon\n\ (2) Drag & Drop File into drop box ==>"); } else { if (usecompression) isbinary = true; if (inptext.find("[WRAP:") == string::npos) { if (!wrapfile(isbinary)) snprintf(result, sizeof(result), "%s\n", errtext.c_str()); else { snprintf(result, sizeof(result), "Success\ninput: %s\noutput: %s\nFolder: %s\n%s", inpshortname.c_str(), outshortname.c_str(), foldername.c_str(), infotext.c_str() ); } } else { if (!unwrapfile()) snprintf(result, sizeof(result), "%s", errtext.c_str()); else { outshortname = fl_filename_name(outfilename.c_str()); snprintf(result, sizeof(result), "Success\ninput: %s\noutput: %s\nFolder: %s\n%s", inpshortname.c_str(), outshortname.c_str(), foldername.c_str(), infotext.c_str() ); } } } inpDropBox->value(""); txtResult->value(result); } int main(int argc, char **argv) { Fl_Window *mainwin = make_window(); string Title = "Flwrap "; Title.append(VERSION); mainwin->label(Title.c_str()); string argvs = ""; for (int i = 0; i < argc; i++) argvs.append(argv[i]).append(" "); int arg_idx; argc = Fl::args(argc, argv, arg_idx, parse_args); wrap_unwrap(); #ifdef __WOE32__ mainwin->icon((char*)LoadIcon(fl_display, MAKEINTRESOURCE(IDI_ICON))); mainwin->show(1, argv); #else mainwin->show(argc, argv); #endif return Fl::run(); } int parse_args(int argc, char **argv, int& idx) { if (strcasecmp("--help", argv[idx]) == 0) { printf("\ --help this help text\n\ --version\n\ \n\ Usage: flwrap [--usecomp] FILENAME or\n\ Drag & Drop File onto desktop icon\n"); exit(0); } if (strcasecmp("--version", argv[idx]) == 0) { printf("Version: " VERSION "\n"); exit(0); } if (strcasecmp("--usecomp", argv[idx]) == 0) { usecompression = true; idx++; return 1; } // OS X passes process number as a command line argument if (strncasecmp("-psn", argv[idx], 4) == 0) { idx++; return 1; } inpfilename = outfilename = argv[idx]; idx++; return 1; } void inpDropBox_changed() { string fname; size_t n = string::npos; fname = inpDropBox->value(); if ((n = fname.find("file:///")) != string::npos) fname.erase(n, 7); while ((n = fname.find('\n')) != string::npos) fname.erase(n, 1); while ((n = fname.find('\r')) != string::npos) fname.erase(n, 1); inpDropBox->value(fname.c_str()); inpfilename = outfilename = fname; wrap_unwrap(); } flwrap-1.3.5/src/base64.cxx0000644000175000017500000000645112562727330012350 00000000000000//===================================================================== // // base64 encoding / decoding class // // To create a standalone base64 encode/coder: // g++ -DTEST b64.cxx -o base64 // // To use in a calling program: // // base64 b64; // default no CRLF's in output file // base 64 b64(true); // insert CRLF's in output file // pass c++ string into encoder / decoder // return value is encoded / decoded string // original string is left unchanged // // string instr, outstr; // outstr = b64.encoder(instr); // outstr = b64.decoder(instr); //===================================================================== #include "base64.h" void base64::init() { iolen = 0; iocp = 0; ateof = false; linelength = 0; // create the etable for encoding for (int i = 0; i < 9; i++) { etable[i] = 'A' + i; etable[i + 9] = 'J' + i; etable[26 + i] = 'a' + i; etable[26 + i + 9] = 'j' + i; } for (int i = 0; i < 8; i++) { etable[i + 18] = 'S' + i; etable[26 + i + 18] = 's' + i; } for (int i = 0; i < 10; i++) etable[52 + i] = '0' + i; etable[62] = '+'; etable[63] = '/'; // create the dtable for decoding for (int i= 0; i < 255; i++) dtable[i] = 0x80; for (int i = 'A'; i <= 'I'; i++) dtable[i] = 0 + (i - 'A'); for (int i = 'J'; i <= 'R'; i++) dtable[i] = 9 + (i - 'J'); for (int i = 'S'; i <= 'Z'; i++) dtable[i] = 18 + (i - 'S'); for (int i = 'a'; i <= 'i'; i++) dtable[i] = 26 + (i - 'a'); for (int i = 'j'; i <= 'r'; i++) dtable[i] = 35 + (i - 'j'); for (int i = 's'; i <= 'z'; i++) dtable[i] = 44 + (i - 's'); for (int i = '0'; i <= '9'; i++) dtable[i] = 52 + (i - '0'); dtable[(int)'+'] = 62; dtable[(int)'/'] = 63; dtable[(int)'='] = 0; } string base64::encode(string in) { int n; byte igroup[3], ogroup[4]; output = ""; iocp = 0; ateof = false; if (crlf) linelength = 0; iolen = in.length(); while (!ateof) { igroup[0] = igroup[1] = igroup[2] = 0; for (n = 0; n < 3; n++) { if (iocp == iolen) { ateof = true; break; } igroup[n] = (byte)in[iocp]; iocp++; } if (n > 0) { ogroup[0] = etable[igroup[0] >> 2]; ogroup[1] = etable[((igroup[0] & 3) << 4) | (igroup[1] >> 4)]; ogroup[2] = etable[((igroup[1] & 0xF) << 2) | (igroup[2] >> 6)]; ogroup[3] = etable[igroup[2] & 0x3F]; if (n < 3) ogroup[3] = '='; if (n < 2) ogroup[2] = '='; for (int i = 0; i < 4; i++) { if (crlf) if (linelength >= LINELEN) { output += '\n'; linelength = 0; } output += (byte)ogroup[i]; if (crlf) linelength++; } } } if (crlf) output += '\n'; return output; } string base64::decode(string in) { int i; output = ""; iocp = 0; iolen = in.length(); byte c; while (iocp < iolen) { byte a[4], b[4], o[3]; for (i = 0; i < 4; i++) { if (iocp == iolen) { output = "b64 file length error.\n"; return output; } c = in[iocp++]; while (c <= ' ') { if (iocp == iolen) { return output; } c = in[iocp++]; } if (dtable[c] & 0x80) { output = "Illegal character in b64 file.\n"; return output; } a[i] = c; b[i] = (byte)dtable[c]; } o[0] = (b[0] << 2) | (b[1] >> 4); o[1] = (b[1] << 4) | (b[2] >> 2); o[2] = (b[2] << 6) | b[3]; output += o[0]; if (a[2] != '=') { output += o[1]; if (a[3] != '=') output += o[2]; } } return output; } flwrap-1.3.5/src/config.h.in0000644000175000017500000000645013256716641012566 00000000000000/* src/config.h.in. Generated from configure.ac by autoheader. */ /* Build platform */ #undef BUILD_BUILD_PLATFORM /* Compiler */ #undef BUILD_COMPILER /* Configure arguments */ #undef BUILD_CONFIGURE_ARGS /* Build date */ #undef BUILD_DATE /* Build host */ #undef BUILD_HOST /* Host platform */ #undef BUILD_HOST_PLATFORM /* Target platform */ #undef BUILD_TARGET_PLATFORM /* Build user */ #undef BUILD_USER /* FLTK version */ #undef FLTK_BUILD_VERSION /* FLWRAP compiler flags */ #undef FLWRAP_BUILD_CXXFLAGS /* FLWRAP linker flags */ #undef FLWRAP_BUILD_LDFLAGS /* version string */ #undef FLWRAP_VERSION /* major version number */ #undef FLWRAP_VERSION_MAJOR /* minor version number */ #undef FLWRAP_VERSION_MINOR /* patch/alpha version string */ #undef FLWRAP_VERSION_PATCH /* Define to 0 if not using dbg::stack */ #undef HAVE_DBG_STACK /* Define to 1 if you have the header file. */ #undef HAVE_INTTYPES_H /* Define to 1 if you have the header file. */ #undef HAVE_MEMORY_H /* Define to 1 if stdbool.h conforms to C99. */ #undef HAVE_STDBOOL_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 `strstr' function. */ #undef HAVE_STRSTR /* 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 you have the header file. */ #undef HAVE_UNISTD_H /* Define to 1 if the system has the type `_Bool'. */ #undef HAVE__BOOL /* 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 /* Define to 1 if you have the ANSI C header files. */ #undef STDC_HEADERS /* 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 1 if we are building on mingw */ #undef __WOE32__ /* Define to `unsigned int' if does not define. */ #undef size_t flwrap-1.3.5/src/lzma/0000755000175000017500000000000013256721755011563 500000000000000flwrap-1.3.5/src/lzma/Alloc.h0000644000175000017500000000110512562727330012675 00000000000000/* Alloc.h -- Memory allocation functions 2008-03-13 Igor Pavlov Public domain */ #ifndef __COMMON_ALLOC_H #define __COMMON_ALLOC_H #include void *MyAlloc(size_t size); void MyFree(void *address); #ifdef _WIN32 void SetLargePageSize(); void *MidAlloc(size_t size); void MidFree(void *address); void *BigAlloc(size_t size); void BigFree(void *address); #else #define MidAlloc(size) MyAlloc(size) #define MidFree(address) MyFree(address) #define BigAlloc(size) MyAlloc(size) #define BigFree(address) MyFree(address) #endif #endif flwrap-1.3.5/src/lzma/Types.h0000644000175000017500000001144712562727330012761 00000000000000/* Types.h -- Basic types 2008-11-23 : Igor Pavlov : Public domain */ #ifndef __7Z_TYPES_H #define __7Z_TYPES_H #include #ifdef _WIN32 #include #endif #define SZ_OK 0 #define SZ_ERROR_DATA 1 #define SZ_ERROR_MEM 2 #define SZ_ERROR_CRC 3 #define SZ_ERROR_UNSUPPORTED 4 #define SZ_ERROR_PARAM 5 #define SZ_ERROR_INPUT_EOF 6 #define SZ_ERROR_OUTPUT_EOF 7 #define SZ_ERROR_READ 8 #define SZ_ERROR_WRITE 9 #define SZ_ERROR_PROGRESS 10 #define SZ_ERROR_FAIL 11 #define SZ_ERROR_THREAD 12 #define SZ_ERROR_ARCHIVE 16 #define SZ_ERROR_NO_ARCHIVE 17 typedef int SRes; #ifdef _WIN32 typedef DWORD WRes; #else typedef int WRes; #endif #ifndef RINOK #define RINOK(x) { int __result__ = (x); if (__result__ != 0) return __result__; } #endif typedef unsigned char Byte; typedef short Int16; typedef unsigned short UInt16; #ifdef _LZMA_UINT32_IS_ULONG typedef long Int32; typedef unsigned long UInt32; #else typedef int Int32; typedef unsigned int UInt32; #endif #ifdef _SZ_NO_INT_64 /* define _SZ_NO_INT_64, if your compiler doesn't support 64-bit integers. NOTES: Some code will work incorrectly in that case! */ typedef long Int64; typedef unsigned long UInt64; #else #if defined(_MSC_VER) || defined(__BORLANDC__) typedef __int64 Int64; typedef unsigned __int64 UInt64; #else typedef long long int Int64; typedef unsigned long long int UInt64; #endif #endif #ifdef _LZMA_NO_SYSTEM_SIZE_T typedef UInt32 SizeT; #else typedef size_t SizeT; #endif #if !defined(Bool) typedef int Bool; #endif #define True 1 #define False 0 #ifdef _MSC_VER #if _MSC_VER >= 1300 #define MY_NO_INLINE __declspec(noinline) #else #define MY_NO_INLINE #endif #define MY_CDECL __cdecl #define MY_STD_CALL __stdcall #define MY_FAST_CALL MY_NO_INLINE __fastcall #else #define MY_CDECL #define MY_STD_CALL #define MY_FAST_CALL #endif /* The following interfaces use first parameter as pointer to structure */ typedef struct { SRes (*Read)(void *p, void *buf, size_t *size); /* if (input(*size) != 0 && output(*size) == 0) means end_of_stream. (output(*size) < input(*size)) is allowed */ } ISeqInStream; /* it can return SZ_ERROR_INPUT_EOF */ SRes SeqInStream_Read(ISeqInStream *stream, void *buf, size_t size); SRes SeqInStream_Read2(ISeqInStream *stream, void *buf, size_t size, SRes errorType); SRes SeqInStream_ReadByte(ISeqInStream *stream, Byte *buf); typedef struct { size_t (*Write)(void *p, const void *buf, size_t size); /* Returns: result - the number of actually written bytes. (result < size) means error */ } ISeqOutStream; typedef enum { SZ_SEEK_SET = 0, SZ_SEEK_CUR = 1, SZ_SEEK_END = 2 } ESzSeek; typedef struct { SRes (*Read)(void *p, void *buf, size_t *size); /* same as ISeqInStream::Read */ SRes (*Seek)(void *p, Int64 *pos, ESzSeek origin); } ISeekInStream; typedef struct { SRes (*Look)(void *p, void **buf, size_t *size); /* if (input(*size) != 0 && output(*size) == 0) means end_of_stream. (output(*size) > input(*size)) is not allowed (output(*size) < input(*size)) is allowed */ SRes (*Skip)(void *p, size_t offset); /* offset must be <= output(*size) of Look */ SRes (*Read)(void *p, void *buf, size_t *size); /* reads directly (without buffer). It's same as ISeqInStream::Read */ SRes (*Seek)(void *p, Int64 *pos, ESzSeek origin); } ILookInStream; SRes LookInStream_LookRead(ILookInStream *stream, void *buf, size_t *size); SRes LookInStream_SeekTo(ILookInStream *stream, UInt64 offset); /* reads via ILookInStream::Read */ SRes LookInStream_Read2(ILookInStream *stream, void *buf, size_t size, SRes errorType); SRes LookInStream_Read(ILookInStream *stream, void *buf, size_t size); #define LookToRead_BUF_SIZE (1 << 14) typedef struct { ILookInStream s; ISeekInStream *realStream; size_t pos; size_t size; Byte buf[LookToRead_BUF_SIZE]; } CLookToRead; void LookToRead_CreateVTable(CLookToRead *p, int lookahead); void LookToRead_Init(CLookToRead *p); typedef struct { ISeqInStream s; ILookInStream *realStream; } CSecToLook; void SecToLook_CreateVTable(CSecToLook *p); typedef struct { ISeqInStream s; ILookInStream *realStream; } CSecToRead; void SecToRead_CreateVTable(CSecToRead *p); typedef struct { SRes (*Progress)(void *p, UInt64 inSize, UInt64 outSize); /* Returns: result. (result != SZ_OK) means break. Value (UInt64)(Int64)-1 for size means unknown value. */ } ICompressProgress; typedef struct { void *(*Alloc)(void *p, size_t size); void (*Free)(void *p, void *address); /* address can be 0 */ } ISzAlloc; #define IAlloc_Alloc(p, size) (p)->Alloc((p), size) #define IAlloc_Free(p, a) (p)->Free((p), a) #endif flwrap-1.3.5/src/lzma/LzmaEnc.c0000644000175000017500000017715712562727330013214 00000000000000/* LzmaEnc.c -- LZMA Encoder 2009-02-02 : Igor Pavlov : Public domain */ #include /* #define SHOW_STAT */ /* #define SHOW_STAT2 */ #if defined(SHOW_STAT) || defined(SHOW_STAT2) #include #endif #include "LzmaEnc.h" #include "LzFind.h" #ifdef COMPRESS_MF_MT #include "LzFindMt.h" #endif #ifdef SHOW_STAT static int ttt = 0; #endif #define kBlockSizeMax ((1 << LZMA_NUM_BLOCK_SIZE_BITS) - 1) #define kBlockSize (9 << 10) #define kUnpackBlockSize (1 << 18) #define kMatchArraySize (1 << 21) #define kMatchRecordMaxSize ((LZMA_MATCH_LEN_MAX * 2 + 3) * LZMA_MATCH_LEN_MAX) #define kNumMaxDirectBits (31) #define kNumTopBits 24 #define kTopValue ((UInt32)1 << kNumTopBits) #define kNumBitModelTotalBits 11 #define kBitModelTotal (1 << kNumBitModelTotalBits) #define kNumMoveBits 5 #define kProbInitValue (kBitModelTotal >> 1) #define kNumMoveReducingBits 4 #define kNumBitPriceShiftBits 4 #define kBitPrice (1 << kNumBitPriceShiftBits) void LzmaEncProps_Init(CLzmaEncProps *p) { p->level = 5; p->dictSize = p->mc = 0; p->lc = p->lp = p->pb = p->algo = p->fb = p->btMode = p->numHashBytes = p->numThreads = -1; p->writeEndMark = 0; } void LzmaEncProps_Normalize(CLzmaEncProps *p) { int level = p->level; if (level < 0) level = 5; p->level = level; if (p->dictSize == 0) p->dictSize = (level <= 5 ? (1 << (level * 2 + 14)) : (level == 6 ? (1 << 25) : (1 << 26))); if (p->lc < 0) p->lc = 3; if (p->lp < 0) p->lp = 0; if (p->pb < 0) p->pb = 2; if (p->algo < 0) p->algo = (level < 5 ? 0 : 1); if (p->fb < 0) p->fb = (level < 7 ? 32 : 64); if (p->btMode < 0) p->btMode = (p->algo == 0 ? 0 : 1); if (p->numHashBytes < 0) p->numHashBytes = 4; if (p->mc == 0) p->mc = (16 + (p->fb >> 1)) >> (p->btMode ? 0 : 1); if (p->numThreads < 0) p->numThreads = #ifdef COMPRESS_MF_MT ((p->btMode && p->algo) ? 2 : 1); #else 1; #endif } UInt32 LzmaEncProps_GetDictSize(const CLzmaEncProps *props2) { CLzmaEncProps props = *props2; LzmaEncProps_Normalize(&props); return props.dictSize; } /* #define LZMA_LOG_BSR */ /* Define it for Intel's CPU */ #ifdef LZMA_LOG_BSR #define kDicLogSizeMaxCompress 30 #define BSR2_RET(pos, res) { unsigned long i; _BitScanReverse(&i, (pos)); res = (i + i) + ((pos >> (i - 1)) & 1); } UInt32 GetPosSlot1(UInt32 pos) { UInt32 res; BSR2_RET(pos, res); return res; } #define GetPosSlot2(pos, res) { BSR2_RET(pos, res); } #define GetPosSlot(pos, res) { if (pos < 2) res = pos; else BSR2_RET(pos, res); } #else #define kNumLogBits (9 + (int)sizeof(size_t) / 2) #define kDicLogSizeMaxCompress ((kNumLogBits - 1) * 2 + 7) void LzmaEnc_FastPosInit(Byte *g_FastPos) { int c = 2, slotFast; g_FastPos[0] = 0; g_FastPos[1] = 1; for (slotFast = 2; slotFast < kNumLogBits * 2; slotFast++) { UInt32 k = (1 << ((slotFast >> 1) - 1)); UInt32 j; for (j = 0; j < k; j++, c++) g_FastPos[c] = (Byte)slotFast; } } #define BSR2_RET(pos, res) { UInt32 i = 6 + ((kNumLogBits - 1) & \ (0 - (((((UInt32)1 << (kNumLogBits + 6)) - 1) - pos) >> 31))); \ res = p->g_FastPos[pos >> i] + (i * 2); } /* #define BSR2_RET(pos, res) { res = (pos < (1 << (kNumLogBits + 6))) ? \ p->g_FastPos[pos >> 6] + 12 : \ p->g_FastPos[pos >> (6 + kNumLogBits - 1)] + (6 + (kNumLogBits - 1)) * 2; } */ #define GetPosSlot1(pos) p->g_FastPos[pos] #define GetPosSlot2(pos, res) { BSR2_RET(pos, res); } #define GetPosSlot(pos, res) { if (pos < kNumFullDistances) res = p->g_FastPos[pos]; else BSR2_RET(pos, res); } #endif #define LZMA_NUM_REPS 4 typedef unsigned CState; typedef struct _COptimal { UInt32 price; CState state; int prev1IsChar; int prev2; UInt32 posPrev2; UInt32 backPrev2; UInt32 posPrev; UInt32 backPrev; UInt32 backs[LZMA_NUM_REPS]; } COptimal; #define kNumOpts (1 << 12) #define kNumLenToPosStates 4 #define kNumPosSlotBits 6 #define kDicLogSizeMin 0 #define kDicLogSizeMax 32 #define kDistTableSizeMax (kDicLogSizeMax * 2) #define kNumAlignBits 4 #define kAlignTableSize (1 << kNumAlignBits) #define kAlignMask (kAlignTableSize - 1) #define kStartPosModelIndex 4 #define kEndPosModelIndex 14 #define kNumPosModels (kEndPosModelIndex - kStartPosModelIndex) #define kNumFullDistances (1 << (kEndPosModelIndex / 2)) #ifdef _LZMA_PROB32 #define CLzmaProb UInt32 #else #define CLzmaProb UInt16 #endif #define LZMA_PB_MAX 4 #define LZMA_LC_MAX 8 #define LZMA_LP_MAX 4 #define LZMA_NUM_PB_STATES_MAX (1 << LZMA_PB_MAX) #define kLenNumLowBits 3 #define kLenNumLowSymbols (1 << kLenNumLowBits) #define kLenNumMidBits 3 #define kLenNumMidSymbols (1 << kLenNumMidBits) #define kLenNumHighBits 8 #define kLenNumHighSymbols (1 << kLenNumHighBits) #define kLenNumSymbolsTotal (kLenNumLowSymbols + kLenNumMidSymbols + kLenNumHighSymbols) #define LZMA_MATCH_LEN_MIN 2 #define LZMA_MATCH_LEN_MAX (LZMA_MATCH_LEN_MIN + kLenNumSymbolsTotal - 1) #define kNumStates 12 typedef struct { CLzmaProb choice; CLzmaProb choice2; CLzmaProb low[LZMA_NUM_PB_STATES_MAX << kLenNumLowBits]; CLzmaProb mid[LZMA_NUM_PB_STATES_MAX << kLenNumMidBits]; CLzmaProb high[kLenNumHighSymbols]; } CLenEnc; typedef struct { CLenEnc p; UInt32 prices[LZMA_NUM_PB_STATES_MAX][kLenNumSymbolsTotal]; UInt32 tableSize; UInt32 counters[LZMA_NUM_PB_STATES_MAX]; } CLenPriceEnc; typedef struct _CRangeEnc { UInt32 range; Byte cache; UInt64 low; UInt64 cacheSize; Byte *buf; Byte *bufLim; Byte *bufBase; ISeqOutStream *outStream; UInt64 processed; SRes res; } CRangeEnc; typedef struct _CSeqInStreamBuf { ISeqInStream funcTable; const Byte *data; SizeT rem; } CSeqInStreamBuf; static SRes MyRead(void *pp, void *data, size_t *size) { size_t curSize = *size; CSeqInStreamBuf *p = (CSeqInStreamBuf *)pp; if (p->rem < curSize) curSize = p->rem; memcpy(data, p->data, curSize); p->rem -= curSize; p->data += curSize; *size = curSize; return SZ_OK; } typedef struct { CLzmaProb *litProbs; CLzmaProb isMatch[kNumStates][LZMA_NUM_PB_STATES_MAX]; CLzmaProb isRep[kNumStates]; CLzmaProb isRepG0[kNumStates]; CLzmaProb isRepG1[kNumStates]; CLzmaProb isRepG2[kNumStates]; CLzmaProb isRep0Long[kNumStates][LZMA_NUM_PB_STATES_MAX]; CLzmaProb posSlotEncoder[kNumLenToPosStates][1 << kNumPosSlotBits]; CLzmaProb posEncoders[kNumFullDistances - kEndPosModelIndex]; CLzmaProb posAlignEncoder[1 << kNumAlignBits]; CLenPriceEnc lenEnc; CLenPriceEnc repLenEnc; UInt32 reps[LZMA_NUM_REPS]; UInt32 state; } CSaveState; typedef struct _CLzmaEnc { IMatchFinder matchFinder; void *matchFinderObj; #ifdef COMPRESS_MF_MT int mtMode; CMatchFinderMt matchFinderMt; #endif CMatchFinder matchFinderBase; #ifdef COMPRESS_MF_MT Byte pad[128]; #endif UInt32 optimumEndIndex; UInt32 optimumCurrentIndex; UInt32 longestMatchLength; UInt32 numPairs; UInt32 numAvail; COptimal opt[kNumOpts]; #ifndef LZMA_LOG_BSR Byte g_FastPos[1 << kNumLogBits]; #endif UInt32 ProbPrices[kBitModelTotal >> kNumMoveReducingBits]; UInt32 matches[LZMA_MATCH_LEN_MAX * 2 + 2 + 1]; UInt32 numFastBytes; UInt32 additionalOffset; UInt32 reps[LZMA_NUM_REPS]; UInt32 state; UInt32 posSlotPrices[kNumLenToPosStates][kDistTableSizeMax]; UInt32 distancesPrices[kNumLenToPosStates][kNumFullDistances]; UInt32 alignPrices[kAlignTableSize]; UInt32 alignPriceCount; UInt32 distTableSize; unsigned lc, lp, pb; unsigned lpMask, pbMask; CLzmaProb *litProbs; CLzmaProb isMatch[kNumStates][LZMA_NUM_PB_STATES_MAX]; CLzmaProb isRep[kNumStates]; CLzmaProb isRepG0[kNumStates]; CLzmaProb isRepG1[kNumStates]; CLzmaProb isRepG2[kNumStates]; CLzmaProb isRep0Long[kNumStates][LZMA_NUM_PB_STATES_MAX]; CLzmaProb posSlotEncoder[kNumLenToPosStates][1 << kNumPosSlotBits]; CLzmaProb posEncoders[kNumFullDistances - kEndPosModelIndex]; CLzmaProb posAlignEncoder[1 << kNumAlignBits]; CLenPriceEnc lenEnc; CLenPriceEnc repLenEnc; unsigned lclp; int fastMode; CRangeEnc rc; int writeEndMark; UInt64 nowPos64; UInt32 matchPriceCount; int finished; int multiThread; SRes result; UInt32 dictSize; UInt32 matchFinderCycles; ISeqInStream *inStream; CSeqInStreamBuf seqBufInStream; CSaveState saveState; } CLzmaEnc; void LzmaEnc_SaveState(CLzmaEncHandle pp) { CLzmaEnc *p = (CLzmaEnc *)pp; CSaveState *dest = &p->saveState; int i; dest->lenEnc = p->lenEnc; dest->repLenEnc = p->repLenEnc; dest->state = p->state; for (i = 0; i < kNumStates; i++) { memcpy(dest->isMatch[i], p->isMatch[i], sizeof(p->isMatch[i])); memcpy(dest->isRep0Long[i], p->isRep0Long[i], sizeof(p->isRep0Long[i])); } for (i = 0; i < kNumLenToPosStates; i++) memcpy(dest->posSlotEncoder[i], p->posSlotEncoder[i], sizeof(p->posSlotEncoder[i])); memcpy(dest->isRep, p->isRep, sizeof(p->isRep)); memcpy(dest->isRepG0, p->isRepG0, sizeof(p->isRepG0)); memcpy(dest->isRepG1, p->isRepG1, sizeof(p->isRepG1)); memcpy(dest->isRepG2, p->isRepG2, sizeof(p->isRepG2)); memcpy(dest->posEncoders, p->posEncoders, sizeof(p->posEncoders)); memcpy(dest->posAlignEncoder, p->posAlignEncoder, sizeof(p->posAlignEncoder)); memcpy(dest->reps, p->reps, sizeof(p->reps)); memcpy(dest->litProbs, p->litProbs, (0x300 << p->lclp) * sizeof(CLzmaProb)); } void LzmaEnc_RestoreState(CLzmaEncHandle pp) { CLzmaEnc *dest = (CLzmaEnc *)pp; const CSaveState *p = &dest->saveState; int i; dest->lenEnc = p->lenEnc; dest->repLenEnc = p->repLenEnc; dest->state = p->state; for (i = 0; i < kNumStates; i++) { memcpy(dest->isMatch[i], p->isMatch[i], sizeof(p->isMatch[i])); memcpy(dest->isRep0Long[i], p->isRep0Long[i], sizeof(p->isRep0Long[i])); } for (i = 0; i < kNumLenToPosStates; i++) memcpy(dest->posSlotEncoder[i], p->posSlotEncoder[i], sizeof(p->posSlotEncoder[i])); memcpy(dest->isRep, p->isRep, sizeof(p->isRep)); memcpy(dest->isRepG0, p->isRepG0, sizeof(p->isRepG0)); memcpy(dest->isRepG1, p->isRepG1, sizeof(p->isRepG1)); memcpy(dest->isRepG2, p->isRepG2, sizeof(p->isRepG2)); memcpy(dest->posEncoders, p->posEncoders, sizeof(p->posEncoders)); memcpy(dest->posAlignEncoder, p->posAlignEncoder, sizeof(p->posAlignEncoder)); memcpy(dest->reps, p->reps, sizeof(p->reps)); memcpy(dest->litProbs, p->litProbs, (0x300 << dest->lclp) * sizeof(CLzmaProb)); } SRes LzmaEnc_SetProps(CLzmaEncHandle pp, const CLzmaEncProps *props2) { CLzmaEnc *p = (CLzmaEnc *)pp; CLzmaEncProps props = *props2; LzmaEncProps_Normalize(&props); if (props.lc > LZMA_LC_MAX || props.lp > LZMA_LP_MAX || props.pb > LZMA_PB_MAX || props.dictSize > (1 << kDicLogSizeMaxCompress) || props.dictSize > (1 << 30)) return SZ_ERROR_PARAM; p->dictSize = props.dictSize; p->matchFinderCycles = props.mc; { unsigned fb = props.fb; if (fb < 5) fb = 5; if (fb > LZMA_MATCH_LEN_MAX) fb = LZMA_MATCH_LEN_MAX; p->numFastBytes = fb; } p->lc = props.lc; p->lp = props.lp; p->pb = props.pb; p->fastMode = (props.algo == 0); p->matchFinderBase.btMode = props.btMode; { UInt32 numHashBytes = 4; if (props.btMode) { if (props.numHashBytes < 2) numHashBytes = 2; else if (props.numHashBytes < 4) numHashBytes = props.numHashBytes; } p->matchFinderBase.numHashBytes = numHashBytes; } p->matchFinderBase.cutValue = props.mc; p->writeEndMark = props.writeEndMark; #ifdef COMPRESS_MF_MT /* if (newMultiThread != _multiThread) { ReleaseMatchFinder(); _multiThread = newMultiThread; } */ p->multiThread = (props.numThreads > 1); #endif return SZ_OK; } static const int kLiteralNextStates[kNumStates] = {0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 4, 5}; static const int kMatchNextStates[kNumStates] = {7, 7, 7, 7, 7, 7, 7, 10, 10, 10, 10, 10}; static const int kRepNextStates[kNumStates] = {8, 8, 8, 8, 8, 8, 8, 11, 11, 11, 11, 11}; static const int kShortRepNextStates[kNumStates]= {9, 9, 9, 9, 9, 9, 9, 11, 11, 11, 11, 11}; #define IsCharState(s) ((s) < 7) #define GetLenToPosState(len) (((len) < kNumLenToPosStates + 1) ? (len) - 2 : kNumLenToPosStates - 1) #define kInfinityPrice (1 << 30) static void RangeEnc_Construct(CRangeEnc *p) { p->outStream = 0; p->bufBase = 0; } #define RangeEnc_GetProcessed(p) ((p)->processed + ((p)->buf - (p)->bufBase) + (p)->cacheSize) #define RC_BUF_SIZE (1 << 16) static int RangeEnc_Alloc(CRangeEnc *p, ISzAlloc *alloc) { if (p->bufBase == 0) { p->bufBase = (Byte *)alloc->Alloc(alloc, RC_BUF_SIZE); if (p->bufBase == 0) return 0; p->bufLim = p->bufBase + RC_BUF_SIZE; } return 1; } static void RangeEnc_Free(CRangeEnc *p, ISzAlloc *alloc) { alloc->Free(alloc, p->bufBase); p->bufBase = 0; } static void RangeEnc_Init(CRangeEnc *p) { /* Stream.Init(); */ p->low = 0; p->range = 0xFFFFFFFF; p->cacheSize = 1; p->cache = 0; p->buf = p->bufBase; p->processed = 0; p->res = SZ_OK; } static void RangeEnc_FlushStream(CRangeEnc *p) { size_t num; if (p->res != SZ_OK) return; num = p->buf - p->bufBase; if (num != p->outStream->Write(p->outStream, p->bufBase, num)) p->res = SZ_ERROR_WRITE; p->processed += num; p->buf = p->bufBase; } static void MY_FAST_CALL RangeEnc_ShiftLow(CRangeEnc *p) { if ((UInt32)p->low < (UInt32)0xFF000000 || (int)(p->low >> 32) != 0) { Byte temp = p->cache; do { Byte *buf = p->buf; *buf++ = (Byte)(temp + (Byte)(p->low >> 32)); p->buf = buf; if (buf == p->bufLim) RangeEnc_FlushStream(p); temp = 0xFF; } while (--p->cacheSize != 0); p->cache = (Byte)((UInt32)p->low >> 24); } p->cacheSize++; p->low = (UInt32)p->low << 8; } static void RangeEnc_FlushData(CRangeEnc *p) { int i; for (i = 0; i < 5; i++) RangeEnc_ShiftLow(p); } static void RangeEnc_EncodeDirectBits(CRangeEnc *p, UInt32 value, int numBits) { do { p->range >>= 1; p->low += p->range & (0 - ((value >> --numBits) & 1)); if (p->range < kTopValue) { p->range <<= 8; RangeEnc_ShiftLow(p); } } while (numBits != 0); } static void RangeEnc_EncodeBit(CRangeEnc *p, CLzmaProb *prob, UInt32 symbol) { UInt32 ttt = *prob; UInt32 newBound = (p->range >> kNumBitModelTotalBits) * ttt; if (symbol == 0) { p->range = newBound; ttt += (kBitModelTotal - ttt) >> kNumMoveBits; } else { p->low += newBound; p->range -= newBound; ttt -= ttt >> kNumMoveBits; } *prob = (CLzmaProb)ttt; if (p->range < kTopValue) { p->range <<= 8; RangeEnc_ShiftLow(p); } } static void LitEnc_Encode(CRangeEnc *p, CLzmaProb *probs, UInt32 symbol) { symbol |= 0x100; do { RangeEnc_EncodeBit(p, probs + (symbol >> 8), (symbol >> 7) & 1); symbol <<= 1; } while (symbol < 0x10000); } static void LitEnc_EncodeMatched(CRangeEnc *p, CLzmaProb *probs, UInt32 symbol, UInt32 matchByte) { UInt32 offs = 0x100; symbol |= 0x100; do { matchByte <<= 1; RangeEnc_EncodeBit(p, probs + (offs + (matchByte & offs) + (symbol >> 8)), (symbol >> 7) & 1); symbol <<= 1; offs &= ~(matchByte ^ symbol); } while (symbol < 0x10000); } void LzmaEnc_InitPriceTables(UInt32 *ProbPrices) { UInt32 i; for (i = (1 << kNumMoveReducingBits) / 2; i < kBitModelTotal; i += (1 << kNumMoveReducingBits)) { const int kCyclesBits = kNumBitPriceShiftBits; UInt32 w = i; UInt32 bitCount = 0; int j; for (j = 0; j < kCyclesBits; j++) { w = w * w; bitCount <<= 1; while (w >= ((UInt32)1 << 16)) { w >>= 1; bitCount++; } } ProbPrices[i >> kNumMoveReducingBits] = ((kNumBitModelTotalBits << kCyclesBits) - 15 - bitCount); } } #define GET_PRICE(prob, symbol) \ p->ProbPrices[((prob) ^ (((-(int)(symbol))) & (kBitModelTotal - 1))) >> kNumMoveReducingBits]; #define GET_PRICEa(prob, symbol) \ ProbPrices[((prob) ^ ((-((int)(symbol))) & (kBitModelTotal - 1))) >> kNumMoveReducingBits]; #define GET_PRICE_0(prob) p->ProbPrices[(prob) >> kNumMoveReducingBits] #define GET_PRICE_1(prob) p->ProbPrices[((prob) ^ (kBitModelTotal - 1)) >> kNumMoveReducingBits] #define GET_PRICE_0a(prob) ProbPrices[(prob) >> kNumMoveReducingBits] #define GET_PRICE_1a(prob) ProbPrices[((prob) ^ (kBitModelTotal - 1)) >> kNumMoveReducingBits] static UInt32 LitEnc_GetPrice(const CLzmaProb *probs, UInt32 symbol, UInt32 *ProbPrices) { UInt32 price = 0; symbol |= 0x100; do { price += GET_PRICEa(probs[symbol >> 8], (symbol >> 7) & 1); symbol <<= 1; } while (symbol < 0x10000); return price; } static UInt32 LitEnc_GetPriceMatched(const CLzmaProb *probs, UInt32 symbol, UInt32 matchByte, UInt32 *ProbPrices) { UInt32 price = 0; UInt32 offs = 0x100; symbol |= 0x100; do { matchByte <<= 1; price += GET_PRICEa(probs[offs + (matchByte & offs) + (symbol >> 8)], (symbol >> 7) & 1); symbol <<= 1; offs &= ~(matchByte ^ symbol); } while (symbol < 0x10000); return price; } static void RcTree_Encode(CRangeEnc *rc, CLzmaProb *probs, int numBitLevels, UInt32 symbol) { UInt32 m = 1; int i; for (i = numBitLevels; i != 0;) { UInt32 bit; i--; bit = (symbol >> i) & 1; RangeEnc_EncodeBit(rc, probs + m, bit); m = (m << 1) | bit; } } static void RcTree_ReverseEncode(CRangeEnc *rc, CLzmaProb *probs, int numBitLevels, UInt32 symbol) { UInt32 m = 1; int i; for (i = 0; i < numBitLevels; i++) { UInt32 bit = symbol & 1; RangeEnc_EncodeBit(rc, probs + m, bit); m = (m << 1) | bit; symbol >>= 1; } } static UInt32 RcTree_GetPrice(const CLzmaProb *probs, int numBitLevels, UInt32 symbol, UInt32 *ProbPrices) { UInt32 price = 0; symbol |= (1 << numBitLevels); while (symbol != 1) { price += GET_PRICEa(probs[symbol >> 1], symbol & 1); symbol >>= 1; } return price; } static UInt32 RcTree_ReverseGetPrice(const CLzmaProb *probs, int numBitLevels, UInt32 symbol, UInt32 *ProbPrices) { UInt32 price = 0; UInt32 m = 1; int i; for (i = numBitLevels; i != 0; i--) { UInt32 bit = symbol & 1; symbol >>= 1; price += GET_PRICEa(probs[m], bit); m = (m << 1) | bit; } return price; } static void LenEnc_Init(CLenEnc *p) { unsigned i; p->choice = p->choice2 = kProbInitValue; for (i = 0; i < (LZMA_NUM_PB_STATES_MAX << kLenNumLowBits); i++) p->low[i] = kProbInitValue; for (i = 0; i < (LZMA_NUM_PB_STATES_MAX << kLenNumMidBits); i++) p->mid[i] = kProbInitValue; for (i = 0; i < kLenNumHighSymbols; i++) p->high[i] = kProbInitValue; } static void LenEnc_Encode(CLenEnc *p, CRangeEnc *rc, UInt32 symbol, UInt32 posState) { if (symbol < kLenNumLowSymbols) { RangeEnc_EncodeBit(rc, &p->choice, 0); RcTree_Encode(rc, p->low + (posState << kLenNumLowBits), kLenNumLowBits, symbol); } else { RangeEnc_EncodeBit(rc, &p->choice, 1); if (symbol < kLenNumLowSymbols + kLenNumMidSymbols) { RangeEnc_EncodeBit(rc, &p->choice2, 0); RcTree_Encode(rc, p->mid + (posState << kLenNumMidBits), kLenNumMidBits, symbol - kLenNumLowSymbols); } else { RangeEnc_EncodeBit(rc, &p->choice2, 1); RcTree_Encode(rc, p->high, kLenNumHighBits, symbol - kLenNumLowSymbols - kLenNumMidSymbols); } } } static void LenEnc_SetPrices(CLenEnc *p, UInt32 posState, UInt32 numSymbols, UInt32 *prices, UInt32 *ProbPrices) { UInt32 a0 = GET_PRICE_0a(p->choice); UInt32 a1 = GET_PRICE_1a(p->choice); UInt32 b0 = a1 + GET_PRICE_0a(p->choice2); UInt32 b1 = a1 + GET_PRICE_1a(p->choice2); UInt32 i = 0; for (i = 0; i < kLenNumLowSymbols; i++) { if (i >= numSymbols) return; prices[i] = a0 + RcTree_GetPrice(p->low + (posState << kLenNumLowBits), kLenNumLowBits, i, ProbPrices); } for (; i < kLenNumLowSymbols + kLenNumMidSymbols; i++) { if (i >= numSymbols) return; prices[i] = b0 + RcTree_GetPrice(p->mid + (posState << kLenNumMidBits), kLenNumMidBits, i - kLenNumLowSymbols, ProbPrices); } for (; i < numSymbols; i++) prices[i] = b1 + RcTree_GetPrice(p->high, kLenNumHighBits, i - kLenNumLowSymbols - kLenNumMidSymbols, ProbPrices); } static void MY_FAST_CALL LenPriceEnc_UpdateTable(CLenPriceEnc *p, UInt32 posState, UInt32 *ProbPrices) { LenEnc_SetPrices(&p->p, posState, p->tableSize, p->prices[posState], ProbPrices); p->counters[posState] = p->tableSize; } static void LenPriceEnc_UpdateTables(CLenPriceEnc *p, UInt32 numPosStates, UInt32 *ProbPrices) { UInt32 posState; for (posState = 0; posState < numPosStates; posState++) LenPriceEnc_UpdateTable(p, posState, ProbPrices); } static void LenEnc_Encode2(CLenPriceEnc *p, CRangeEnc *rc, UInt32 symbol, UInt32 posState, int updatePrice, UInt32 *ProbPrices) { LenEnc_Encode(&p->p, rc, symbol, posState); if (updatePrice) if (--p->counters[posState] == 0) LenPriceEnc_UpdateTable(p, posState, ProbPrices); } static void MovePos(CLzmaEnc *p, UInt32 num) { #ifdef SHOW_STAT ttt += num; printf("\n MovePos %d", num); #endif if (num != 0) { p->additionalOffset += num; p->matchFinder.Skip(p->matchFinderObj, num); } } static UInt32 ReadMatchDistances(CLzmaEnc *p, UInt32 *numDistancePairsRes) { UInt32 lenRes = 0, numPairs; p->numAvail = p->matchFinder.GetNumAvailableBytes(p->matchFinderObj); numPairs = p->matchFinder.GetMatches(p->matchFinderObj, p->matches); #ifdef SHOW_STAT printf("\n i = %d numPairs = %d ", ttt, numPairs / 2); ttt++; { UInt32 i; for (i = 0; i < numPairs; i += 2) printf("%2d %6d | ", p->matches[i], p->matches[i + 1]); } #endif if (numPairs > 0) { lenRes = p->matches[numPairs - 2]; if (lenRes == p->numFastBytes) { const Byte *pby = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - 1; UInt32 distance = p->matches[numPairs - 1] + 1; UInt32 numAvail = p->numAvail; if (numAvail > LZMA_MATCH_LEN_MAX) numAvail = LZMA_MATCH_LEN_MAX; { const Byte *pby2 = pby - distance; for (; lenRes < numAvail && pby[lenRes] == pby2[lenRes]; lenRes++); } } } p->additionalOffset++; *numDistancePairsRes = numPairs; return lenRes; } #define MakeAsChar(p) (p)->backPrev = (UInt32)(-1); (p)->prev1IsChar = False; #define MakeAsShortRep(p) (p)->backPrev = 0; (p)->prev1IsChar = False; #define IsShortRep(p) ((p)->backPrev == 0) static UInt32 GetRepLen1Price(CLzmaEnc *p, UInt32 state, UInt32 posState) { return GET_PRICE_0(p->isRepG0[state]) + GET_PRICE_0(p->isRep0Long[state][posState]); } static UInt32 GetPureRepPrice(CLzmaEnc *p, UInt32 repIndex, UInt32 state, UInt32 posState) { UInt32 price; if (repIndex == 0) { price = GET_PRICE_0(p->isRepG0[state]); price += GET_PRICE_1(p->isRep0Long[state][posState]); } else { price = GET_PRICE_1(p->isRepG0[state]); if (repIndex == 1) price += GET_PRICE_0(p->isRepG1[state]); else { price += GET_PRICE_1(p->isRepG1[state]); price += GET_PRICE(p->isRepG2[state], repIndex - 2); } } return price; } static UInt32 GetRepPrice(CLzmaEnc *p, UInt32 repIndex, UInt32 len, UInt32 state, UInt32 posState) { return p->repLenEnc.prices[posState][len - LZMA_MATCH_LEN_MIN] + GetPureRepPrice(p, repIndex, state, posState); } static UInt32 Backward(CLzmaEnc *p, UInt32 *backRes, UInt32 cur) { UInt32 posMem = p->opt[cur].posPrev; UInt32 backMem = p->opt[cur].backPrev; p->optimumEndIndex = cur; do { if (p->opt[cur].prev1IsChar) { MakeAsChar(&p->opt[posMem]) p->opt[posMem].posPrev = posMem - 1; if (p->opt[cur].prev2) { p->opt[posMem - 1].prev1IsChar = False; p->opt[posMem - 1].posPrev = p->opt[cur].posPrev2; p->opt[posMem - 1].backPrev = p->opt[cur].backPrev2; } } { UInt32 posPrev = posMem; UInt32 backCur = backMem; backMem = p->opt[posPrev].backPrev; posMem = p->opt[posPrev].posPrev; p->opt[posPrev].backPrev = backCur; p->opt[posPrev].posPrev = cur; cur = posPrev; } } while (cur != 0); *backRes = p->opt[0].backPrev; p->optimumCurrentIndex = p->opt[0].posPrev; return p->optimumCurrentIndex; } #define LIT_PROBS(pos, prevByte) (p->litProbs + ((((pos) & p->lpMask) << p->lc) + ((prevByte) >> (8 - p->lc))) * 0x300) static UInt32 GetOptimum(CLzmaEnc *p, UInt32 position, UInt32 *backRes) { UInt32 numAvail, mainLen, numPairs, repMaxIndex, i, posState, lenEnd, len, cur; UInt32 matchPrice, repMatchPrice, normalMatchPrice; UInt32 reps[LZMA_NUM_REPS], repLens[LZMA_NUM_REPS]; UInt32 *matches; const Byte *data; Byte curByte, matchByte; if (p->optimumEndIndex != p->optimumCurrentIndex) { const COptimal *opt = &p->opt[p->optimumCurrentIndex]; UInt32 lenRes = opt->posPrev - p->optimumCurrentIndex; *backRes = opt->backPrev; p->optimumCurrentIndex = opt->posPrev; return lenRes; } p->optimumCurrentIndex = p->optimumEndIndex = 0; if (p->additionalOffset == 0) mainLen = ReadMatchDistances(p, &numPairs); else { mainLen = p->longestMatchLength; numPairs = p->numPairs; } numAvail = p->numAvail; if (numAvail < 2) { *backRes = (UInt32)(-1); return 1; } if (numAvail > LZMA_MATCH_LEN_MAX) numAvail = LZMA_MATCH_LEN_MAX; data = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - 1; repMaxIndex = 0; for (i = 0; i < LZMA_NUM_REPS; i++) { UInt32 lenTest; const Byte *data2; reps[i] = p->reps[i]; data2 = data - (reps[i] + 1); if (data[0] != data2[0] || data[1] != data2[1]) { repLens[i] = 0; continue; } for (lenTest = 2; lenTest < numAvail && data[lenTest] == data2[lenTest]; lenTest++); repLens[i] = lenTest; if (lenTest > repLens[repMaxIndex]) repMaxIndex = i; } if (repLens[repMaxIndex] >= p->numFastBytes) { UInt32 lenRes; *backRes = repMaxIndex; lenRes = repLens[repMaxIndex]; MovePos(p, lenRes - 1); return lenRes; } matches = p->matches; if (mainLen >= p->numFastBytes) { *backRes = matches[numPairs - 1] + LZMA_NUM_REPS; MovePos(p, mainLen - 1); return mainLen; } curByte = *data; matchByte = *(data - (reps[0] + 1)); if (mainLen < 2 && curByte != matchByte && repLens[repMaxIndex] < 2) { *backRes = (UInt32)-1; return 1; } p->opt[0].state = (CState)p->state; posState = (position & p->pbMask); { const CLzmaProb *probs = LIT_PROBS(position, *(data - 1)); p->opt[1].price = GET_PRICE_0(p->isMatch[p->state][posState]) + (!IsCharState(p->state) ? LitEnc_GetPriceMatched(probs, curByte, matchByte, p->ProbPrices) : LitEnc_GetPrice(probs, curByte, p->ProbPrices)); } MakeAsChar(&p->opt[1]); matchPrice = GET_PRICE_1(p->isMatch[p->state][posState]); repMatchPrice = matchPrice + GET_PRICE_1(p->isRep[p->state]); if (matchByte == curByte) { UInt32 shortRepPrice = repMatchPrice + GetRepLen1Price(p, p->state, posState); if (shortRepPrice < p->opt[1].price) { p->opt[1].price = shortRepPrice; MakeAsShortRep(&p->opt[1]); } } lenEnd = ((mainLen >= repLens[repMaxIndex]) ? mainLen : repLens[repMaxIndex]); if (lenEnd < 2) { *backRes = p->opt[1].backPrev; return 1; } p->opt[1].posPrev = 0; for (i = 0; i < LZMA_NUM_REPS; i++) p->opt[0].backs[i] = reps[i]; len = lenEnd; do p->opt[len--].price = kInfinityPrice; while (len >= 2); for (i = 0; i < LZMA_NUM_REPS; i++) { UInt32 repLen = repLens[i]; UInt32 price; if (repLen < 2) continue; price = repMatchPrice + GetPureRepPrice(p, i, p->state, posState); do { UInt32 curAndLenPrice = price + p->repLenEnc.prices[posState][repLen - 2]; COptimal *opt = &p->opt[repLen]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = 0; opt->backPrev = i; opt->prev1IsChar = False; } } while (--repLen >= 2); } normalMatchPrice = matchPrice + GET_PRICE_0(p->isRep[p->state]); len = ((repLens[0] >= 2) ? repLens[0] + 1 : 2); if (len <= mainLen) { UInt32 offs = 0; while (len > matches[offs]) offs += 2; for (; ; len++) { COptimal *opt; UInt32 distance = matches[offs + 1]; UInt32 curAndLenPrice = normalMatchPrice + p->lenEnc.prices[posState][len - LZMA_MATCH_LEN_MIN]; UInt32 lenToPosState = GetLenToPosState(len); if (distance < kNumFullDistances) curAndLenPrice += p->distancesPrices[lenToPosState][distance]; else { UInt32 slot; GetPosSlot2(distance, slot); curAndLenPrice += p->alignPrices[distance & kAlignMask] + p->posSlotPrices[lenToPosState][slot]; } opt = &p->opt[len]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = 0; opt->backPrev = distance + LZMA_NUM_REPS; opt->prev1IsChar = False; } if (len == matches[offs]) { offs += 2; if (offs == numPairs) break; } } } cur = 0; #ifdef SHOW_STAT2 if (position >= 0) { unsigned i; printf("\n pos = %4X", position); for (i = cur; i <= lenEnd; i++) printf("\nprice[%4X] = %d", position - cur + i, p->opt[i].price); } #endif for (;;) { UInt32 numAvailFull, newLen, numPairs, posPrev, state, posState, startLen; UInt32 curPrice, curAnd1Price, matchPrice, repMatchPrice; int nextIsChar; Byte curByte, matchByte; const Byte *data; COptimal *curOpt; COptimal *nextOpt; cur++; if (cur == lenEnd) return Backward(p, backRes, cur); newLen = ReadMatchDistances(p, &numPairs); if (newLen >= p->numFastBytes) { p->numPairs = numPairs; p->longestMatchLength = newLen; return Backward(p, backRes, cur); } position++; curOpt = &p->opt[cur]; posPrev = curOpt->posPrev; if (curOpt->prev1IsChar) { posPrev--; if (curOpt->prev2) { state = p->opt[curOpt->posPrev2].state; if (curOpt->backPrev2 < LZMA_NUM_REPS) state = kRepNextStates[state]; else state = kMatchNextStates[state]; } else state = p->opt[posPrev].state; state = kLiteralNextStates[state]; } else state = p->opt[posPrev].state; if (posPrev == cur - 1) { if (IsShortRep(curOpt)) state = kShortRepNextStates[state]; else state = kLiteralNextStates[state]; } else { UInt32 pos; const COptimal *prevOpt; if (curOpt->prev1IsChar && curOpt->prev2) { posPrev = curOpt->posPrev2; pos = curOpt->backPrev2; state = kRepNextStates[state]; } else { pos = curOpt->backPrev; if (pos < LZMA_NUM_REPS) state = kRepNextStates[state]; else state = kMatchNextStates[state]; } prevOpt = &p->opt[posPrev]; if (pos < LZMA_NUM_REPS) { UInt32 i; reps[0] = prevOpt->backs[pos]; for (i = 1; i <= pos; i++) reps[i] = prevOpt->backs[i - 1]; for (; i < LZMA_NUM_REPS; i++) reps[i] = prevOpt->backs[i]; } else { UInt32 i; reps[0] = (pos - LZMA_NUM_REPS); for (i = 1; i < LZMA_NUM_REPS; i++) reps[i] = prevOpt->backs[i - 1]; } } curOpt->state = (CState)state; curOpt->backs[0] = reps[0]; curOpt->backs[1] = reps[1]; curOpt->backs[2] = reps[2]; curOpt->backs[3] = reps[3]; curPrice = curOpt->price; nextIsChar = False; data = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - 1; curByte = *data; matchByte = *(data - (reps[0] + 1)); posState = (position & p->pbMask); curAnd1Price = curPrice + GET_PRICE_0(p->isMatch[state][posState]); { const CLzmaProb *probs = LIT_PROBS(position, *(data - 1)); curAnd1Price += (!IsCharState(state) ? LitEnc_GetPriceMatched(probs, curByte, matchByte, p->ProbPrices) : LitEnc_GetPrice(probs, curByte, p->ProbPrices)); } nextOpt = &p->opt[cur + 1]; if (curAnd1Price < nextOpt->price) { nextOpt->price = curAnd1Price; nextOpt->posPrev = cur; MakeAsChar(nextOpt); nextIsChar = True; } matchPrice = curPrice + GET_PRICE_1(p->isMatch[state][posState]); repMatchPrice = matchPrice + GET_PRICE_1(p->isRep[state]); if (matchByte == curByte && !(nextOpt->posPrev < cur && nextOpt->backPrev == 0)) { UInt32 shortRepPrice = repMatchPrice + GetRepLen1Price(p, state, posState); if (shortRepPrice <= nextOpt->price) { nextOpt->price = shortRepPrice; nextOpt->posPrev = cur; MakeAsShortRep(nextOpt); nextIsChar = True; } } numAvailFull = p->numAvail; { UInt32 temp = kNumOpts - 1 - cur; if (temp < numAvailFull) numAvailFull = temp; } if (numAvailFull < 2) continue; numAvail = (numAvailFull <= p->numFastBytes ? numAvailFull : p->numFastBytes); if (!nextIsChar && matchByte != curByte) /* speed optimization */ { /* try Literal + rep0 */ UInt32 temp; UInt32 lenTest2; const Byte *data2 = data - (reps[0] + 1); UInt32 limit = p->numFastBytes + 1; if (limit > numAvailFull) limit = numAvailFull; for (temp = 1; temp < limit && data[temp] == data2[temp]; temp++); lenTest2 = temp - 1; if (lenTest2 >= 2) { UInt32 state2 = kLiteralNextStates[state]; UInt32 posStateNext = (position + 1) & p->pbMask; UInt32 nextRepMatchPrice = curAnd1Price + GET_PRICE_1(p->isMatch[state2][posStateNext]) + GET_PRICE_1(p->isRep[state2]); /* for (; lenTest2 >= 2; lenTest2--) */ { UInt32 curAndLenPrice; COptimal *opt; UInt32 offset = cur + 1 + lenTest2; while (lenEnd < offset) p->opt[++lenEnd].price = kInfinityPrice; curAndLenPrice = nextRepMatchPrice + GetRepPrice(p, 0, lenTest2, state2, posStateNext); opt = &p->opt[offset]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = cur + 1; opt->backPrev = 0; opt->prev1IsChar = True; opt->prev2 = False; } } } } startLen = 2; /* speed optimization */ { UInt32 repIndex; for (repIndex = 0; repIndex < LZMA_NUM_REPS; repIndex++) { UInt32 lenTest; UInt32 lenTestTemp; UInt32 price; const Byte *data2 = data - (reps[repIndex] + 1); if (data[0] != data2[0] || data[1] != data2[1]) continue; for (lenTest = 2; lenTest < numAvail && data[lenTest] == data2[lenTest]; lenTest++); while (lenEnd < cur + lenTest) p->opt[++lenEnd].price = kInfinityPrice; lenTestTemp = lenTest; price = repMatchPrice + GetPureRepPrice(p, repIndex, state, posState); do { UInt32 curAndLenPrice = price + p->repLenEnc.prices[posState][lenTest - 2]; COptimal *opt = &p->opt[cur + lenTest]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = cur; opt->backPrev = repIndex; opt->prev1IsChar = False; } } while (--lenTest >= 2); lenTest = lenTestTemp; if (repIndex == 0) startLen = lenTest + 1; /* if (_maxMode) */ { UInt32 lenTest2 = lenTest + 1; UInt32 limit = lenTest2 + p->numFastBytes; UInt32 nextRepMatchPrice; if (limit > numAvailFull) limit = numAvailFull; for (; lenTest2 < limit && data[lenTest2] == data2[lenTest2]; lenTest2++); lenTest2 -= lenTest + 1; if (lenTest2 >= 2) { UInt32 state2 = kRepNextStates[state]; UInt32 posStateNext = (position + lenTest) & p->pbMask; UInt32 curAndLenCharPrice = price + p->repLenEnc.prices[posState][lenTest - 2] + GET_PRICE_0(p->isMatch[state2][posStateNext]) + LitEnc_GetPriceMatched(LIT_PROBS(position + lenTest, data[lenTest - 1]), data[lenTest], data2[lenTest], p->ProbPrices); state2 = kLiteralNextStates[state2]; posStateNext = (position + lenTest + 1) & p->pbMask; nextRepMatchPrice = curAndLenCharPrice + GET_PRICE_1(p->isMatch[state2][posStateNext]) + GET_PRICE_1(p->isRep[state2]); /* for (; lenTest2 >= 2; lenTest2--) */ { UInt32 curAndLenPrice; COptimal *opt; UInt32 offset = cur + lenTest + 1 + lenTest2; while (lenEnd < offset) p->opt[++lenEnd].price = kInfinityPrice; curAndLenPrice = nextRepMatchPrice + GetRepPrice(p, 0, lenTest2, state2, posStateNext); opt = &p->opt[offset]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = cur + lenTest + 1; opt->backPrev = 0; opt->prev1IsChar = True; opt->prev2 = True; opt->posPrev2 = cur; opt->backPrev2 = repIndex; } } } } } } /* for (UInt32 lenTest = 2; lenTest <= newLen; lenTest++) */ if (newLen > numAvail) { newLen = numAvail; for (numPairs = 0; newLen > matches[numPairs]; numPairs += 2); matches[numPairs] = newLen; numPairs += 2; } if (newLen >= startLen) { UInt32 normalMatchPrice = matchPrice + GET_PRICE_0(p->isRep[state]); UInt32 offs, curBack, posSlot; UInt32 lenTest; while (lenEnd < cur + newLen) p->opt[++lenEnd].price = kInfinityPrice; offs = 0; while (startLen > matches[offs]) offs += 2; curBack = matches[offs + 1]; GetPosSlot2(curBack, posSlot); for (lenTest = /*2*/ startLen; ; lenTest++) { UInt32 curAndLenPrice = normalMatchPrice + p->lenEnc.prices[posState][lenTest - LZMA_MATCH_LEN_MIN]; UInt32 lenToPosState = GetLenToPosState(lenTest); COptimal *opt; if (curBack < kNumFullDistances) curAndLenPrice += p->distancesPrices[lenToPosState][curBack]; else curAndLenPrice += p->posSlotPrices[lenToPosState][posSlot] + p->alignPrices[curBack & kAlignMask]; opt = &p->opt[cur + lenTest]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = cur; opt->backPrev = curBack + LZMA_NUM_REPS; opt->prev1IsChar = False; } if (/*_maxMode && */lenTest == matches[offs]) { /* Try Match + Literal + Rep0 */ const Byte *data2 = data - (curBack + 1); UInt32 lenTest2 = lenTest + 1; UInt32 limit = lenTest2 + p->numFastBytes; UInt32 nextRepMatchPrice; if (limit > numAvailFull) limit = numAvailFull; for (; lenTest2 < limit && data[lenTest2] == data2[lenTest2]; lenTest2++); lenTest2 -= lenTest + 1; if (lenTest2 >= 2) { UInt32 state2 = kMatchNextStates[state]; UInt32 posStateNext = (position + lenTest) & p->pbMask; UInt32 curAndLenCharPrice = curAndLenPrice + GET_PRICE_0(p->isMatch[state2][posStateNext]) + LitEnc_GetPriceMatched(LIT_PROBS(position + lenTest, data[lenTest - 1]), data[lenTest], data2[lenTest], p->ProbPrices); state2 = kLiteralNextStates[state2]; posStateNext = (posStateNext + 1) & p->pbMask; nextRepMatchPrice = curAndLenCharPrice + GET_PRICE_1(p->isMatch[state2][posStateNext]) + GET_PRICE_1(p->isRep[state2]); /* for (; lenTest2 >= 2; lenTest2--) */ { UInt32 offset = cur + lenTest + 1 + lenTest2; UInt32 curAndLenPrice; COptimal *opt; while (lenEnd < offset) p->opt[++lenEnd].price = kInfinityPrice; curAndLenPrice = nextRepMatchPrice + GetRepPrice(p, 0, lenTest2, state2, posStateNext); opt = &p->opt[offset]; if (curAndLenPrice < opt->price) { opt->price = curAndLenPrice; opt->posPrev = cur + lenTest + 1; opt->backPrev = 0; opt->prev1IsChar = True; opt->prev2 = True; opt->posPrev2 = cur; opt->backPrev2 = curBack + LZMA_NUM_REPS; } } } offs += 2; if (offs == numPairs) break; curBack = matches[offs + 1]; if (curBack >= kNumFullDistances) GetPosSlot2(curBack, posSlot); } } } } } #define ChangePair(smallDist, bigDist) (((bigDist) >> 7) > (smallDist)) static UInt32 GetOptimumFast(CLzmaEnc *p, UInt32 *backRes) { UInt32 numAvail, mainLen, mainDist, numPairs, repIndex, repLen, i; const Byte *data; const UInt32 *matches; if (p->additionalOffset == 0) mainLen = ReadMatchDistances(p, &numPairs); else { mainLen = p->longestMatchLength; numPairs = p->numPairs; } numAvail = p->numAvail; *backRes = (UInt32)-1; if (numAvail < 2) return 1; if (numAvail > LZMA_MATCH_LEN_MAX) numAvail = LZMA_MATCH_LEN_MAX; data = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - 1; repLen = repIndex = 0; for (i = 0; i < LZMA_NUM_REPS; i++) { UInt32 len; const Byte *data2 = data - (p->reps[i] + 1); if (data[0] != data2[0] || data[1] != data2[1]) continue; for (len = 2; len < numAvail && data[len] == data2[len]; len++); if (len >= p->numFastBytes) { *backRes = i; MovePos(p, len - 1); return len; } if (len > repLen) { repIndex = i; repLen = len; } } matches = p->matches; if (mainLen >= p->numFastBytes) { *backRes = matches[numPairs - 1] + LZMA_NUM_REPS; MovePos(p, mainLen - 1); return mainLen; } mainDist = 0; /* for GCC */ if (mainLen >= 2) { mainDist = matches[numPairs - 1]; while (numPairs > 2 && mainLen == matches[numPairs - 4] + 1) { if (!ChangePair(matches[numPairs - 3], mainDist)) break; numPairs -= 2; mainLen = matches[numPairs - 2]; mainDist = matches[numPairs - 1]; } if (mainLen == 2 && mainDist >= 0x80) mainLen = 1; } if (repLen >= 2 && ( (repLen + 1 >= mainLen) || (repLen + 2 >= mainLen && mainDist >= (1 << 9)) || (repLen + 3 >= mainLen && mainDist >= (1 << 15)))) { *backRes = repIndex; MovePos(p, repLen - 1); return repLen; } if (mainLen < 2 || numAvail <= 2) return 1; p->longestMatchLength = ReadMatchDistances(p, &p->numPairs); if (p->longestMatchLength >= 2) { UInt32 newDistance = matches[p->numPairs - 1]; if ((p->longestMatchLength >= mainLen && newDistance < mainDist) || (p->longestMatchLength == mainLen + 1 && !ChangePair(mainDist, newDistance)) || (p->longestMatchLength > mainLen + 1) || (p->longestMatchLength + 1 >= mainLen && mainLen >= 3 && ChangePair(newDistance, mainDist))) return 1; } data = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - 1; for (i = 0; i < LZMA_NUM_REPS; i++) { UInt32 len, limit; const Byte *data2 = data - (p->reps[i] + 1); if (data[0] != data2[0] || data[1] != data2[1]) continue; limit = mainLen - 1; for (len = 2; len < limit && data[len] == data2[len]; len++); if (len >= limit) return 1; } *backRes = mainDist + LZMA_NUM_REPS; MovePos(p, mainLen - 2); return mainLen; } static void WriteEndMarker(CLzmaEnc *p, UInt32 posState) { UInt32 len; RangeEnc_EncodeBit(&p->rc, &p->isMatch[p->state][posState], 1); RangeEnc_EncodeBit(&p->rc, &p->isRep[p->state], 0); p->state = kMatchNextStates[p->state]; len = LZMA_MATCH_LEN_MIN; LenEnc_Encode2(&p->lenEnc, &p->rc, len - LZMA_MATCH_LEN_MIN, posState, !p->fastMode, p->ProbPrices); RcTree_Encode(&p->rc, p->posSlotEncoder[GetLenToPosState(len)], kNumPosSlotBits, (1 << kNumPosSlotBits) - 1); RangeEnc_EncodeDirectBits(&p->rc, (((UInt32)1 << 30) - 1) >> kNumAlignBits, 30 - kNumAlignBits); RcTree_ReverseEncode(&p->rc, p->posAlignEncoder, kNumAlignBits, kAlignMask); } static SRes CheckErrors(CLzmaEnc *p) { if (p->result != SZ_OK) return p->result; if (p->rc.res != SZ_OK) p->result = SZ_ERROR_WRITE; if (p->matchFinderBase.result != SZ_OK) p->result = SZ_ERROR_READ; if (p->result != SZ_OK) p->finished = True; return p->result; } static SRes Flush(CLzmaEnc *p, UInt32 nowPos) { /* ReleaseMFStream(); */ p->finished = True; if (p->writeEndMark) WriteEndMarker(p, nowPos & p->pbMask); RangeEnc_FlushData(&p->rc); RangeEnc_FlushStream(&p->rc); return CheckErrors(p); } static void FillAlignPrices(CLzmaEnc *p) { UInt32 i; for (i = 0; i < kAlignTableSize; i++) p->alignPrices[i] = RcTree_ReverseGetPrice(p->posAlignEncoder, kNumAlignBits, i, p->ProbPrices); p->alignPriceCount = 0; } static void FillDistancesPrices(CLzmaEnc *p) { UInt32 tempPrices[kNumFullDistances]; UInt32 i, lenToPosState; for (i = kStartPosModelIndex; i < kNumFullDistances; i++) { UInt32 posSlot = GetPosSlot1(i); UInt32 footerBits = ((posSlot >> 1) - 1); UInt32 base = ((2 | (posSlot & 1)) << footerBits); tempPrices[i] = RcTree_ReverseGetPrice(p->posEncoders + base - posSlot - 1, footerBits, i - base, p->ProbPrices); } for (lenToPosState = 0; lenToPosState < kNumLenToPosStates; lenToPosState++) { UInt32 posSlot; const CLzmaProb *encoder = p->posSlotEncoder[lenToPosState]; UInt32 *posSlotPrices = p->posSlotPrices[lenToPosState]; for (posSlot = 0; posSlot < p->distTableSize; posSlot++) posSlotPrices[posSlot] = RcTree_GetPrice(encoder, kNumPosSlotBits, posSlot, p->ProbPrices); for (posSlot = kEndPosModelIndex; posSlot < p->distTableSize; posSlot++) posSlotPrices[posSlot] += ((((posSlot >> 1) - 1) - kNumAlignBits) << kNumBitPriceShiftBits); { UInt32 *distancesPrices = p->distancesPrices[lenToPosState]; UInt32 i; for (i = 0; i < kStartPosModelIndex; i++) distancesPrices[i] = posSlotPrices[i]; for (; i < kNumFullDistances; i++) distancesPrices[i] = posSlotPrices[GetPosSlot1(i)] + tempPrices[i]; } } p->matchPriceCount = 0; } void LzmaEnc_Construct(CLzmaEnc *p) { RangeEnc_Construct(&p->rc); MatchFinder_Construct(&p->matchFinderBase); #ifdef COMPRESS_MF_MT MatchFinderMt_Construct(&p->matchFinderMt); p->matchFinderMt.MatchFinder = &p->matchFinderBase; #endif { CLzmaEncProps props; LzmaEncProps_Init(&props); LzmaEnc_SetProps(p, &props); } #ifndef LZMA_LOG_BSR LzmaEnc_FastPosInit(p->g_FastPos); #endif LzmaEnc_InitPriceTables(p->ProbPrices); p->litProbs = 0; p->saveState.litProbs = 0; } CLzmaEncHandle LzmaEnc_Create(ISzAlloc *alloc) { void *p; p = alloc->Alloc(alloc, sizeof(CLzmaEnc)); if (p != 0) LzmaEnc_Construct((CLzmaEnc *)p); return p; } void LzmaEnc_FreeLits(CLzmaEnc *p, ISzAlloc *alloc) { alloc->Free(alloc, p->litProbs); alloc->Free(alloc, p->saveState.litProbs); p->litProbs = 0; p->saveState.litProbs = 0; } void LzmaEnc_Destruct(CLzmaEnc *p, ISzAlloc *alloc, ISzAlloc *allocBig) { #ifdef COMPRESS_MF_MT MatchFinderMt_Destruct(&p->matchFinderMt, allocBig); #endif MatchFinder_Free(&p->matchFinderBase, allocBig); LzmaEnc_FreeLits(p, alloc); RangeEnc_Free(&p->rc, alloc); } void LzmaEnc_Destroy(CLzmaEncHandle p, ISzAlloc *alloc, ISzAlloc *allocBig) { LzmaEnc_Destruct((CLzmaEnc *)p, alloc, allocBig); alloc->Free(alloc, p); } static SRes LzmaEnc_CodeOneBlock(CLzmaEnc *p, int useLimits, UInt32 maxPackSize, UInt32 maxUnpackSize) { UInt32 nowPos32, startPos32; if (p->inStream != 0) { p->matchFinderBase.stream = p->inStream; p->matchFinder.Init(p->matchFinderObj); p->inStream = 0; } if (p->finished) return p->result; RINOK(CheckErrors(p)); nowPos32 = (UInt32)p->nowPos64; startPos32 = nowPos32; if (p->nowPos64 == 0) { UInt32 numPairs; Byte curByte; if (p->matchFinder.GetNumAvailableBytes(p->matchFinderObj) == 0) return Flush(p, nowPos32); ReadMatchDistances(p, &numPairs); RangeEnc_EncodeBit(&p->rc, &p->isMatch[p->state][0], 0); p->state = kLiteralNextStates[p->state]; curByte = p->matchFinder.GetIndexByte(p->matchFinderObj, 0 - p->additionalOffset); LitEnc_Encode(&p->rc, p->litProbs, curByte); p->additionalOffset--; nowPos32++; } if (p->matchFinder.GetNumAvailableBytes(p->matchFinderObj) != 0) for (;;) { UInt32 pos, len, posState; if (p->fastMode) len = GetOptimumFast(p, &pos); else len = GetOptimum(p, nowPos32, &pos); #ifdef SHOW_STAT2 printf("\n pos = %4X, len = %d pos = %d", nowPos32, len, pos); #endif posState = nowPos32 & p->pbMask; if (len == 1 && pos == (UInt32)-1) { Byte curByte; CLzmaProb *probs; const Byte *data; RangeEnc_EncodeBit(&p->rc, &p->isMatch[p->state][posState], 0); data = p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - p->additionalOffset; curByte = *data; probs = LIT_PROBS(nowPos32, *(data - 1)); if (IsCharState(p->state)) LitEnc_Encode(&p->rc, probs, curByte); else LitEnc_EncodeMatched(&p->rc, probs, curByte, *(data - p->reps[0] - 1)); p->state = kLiteralNextStates[p->state]; } else { RangeEnc_EncodeBit(&p->rc, &p->isMatch[p->state][posState], 1); if (pos < LZMA_NUM_REPS) { RangeEnc_EncodeBit(&p->rc, &p->isRep[p->state], 1); if (pos == 0) { RangeEnc_EncodeBit(&p->rc, &p->isRepG0[p->state], 0); RangeEnc_EncodeBit(&p->rc, &p->isRep0Long[p->state][posState], ((len == 1) ? 0 : 1)); } else { UInt32 distance = p->reps[pos]; RangeEnc_EncodeBit(&p->rc, &p->isRepG0[p->state], 1); if (pos == 1) RangeEnc_EncodeBit(&p->rc, &p->isRepG1[p->state], 0); else { RangeEnc_EncodeBit(&p->rc, &p->isRepG1[p->state], 1); RangeEnc_EncodeBit(&p->rc, &p->isRepG2[p->state], pos - 2); if (pos == 3) p->reps[3] = p->reps[2]; p->reps[2] = p->reps[1]; } p->reps[1] = p->reps[0]; p->reps[0] = distance; } if (len == 1) p->state = kShortRepNextStates[p->state]; else { LenEnc_Encode2(&p->repLenEnc, &p->rc, len - LZMA_MATCH_LEN_MIN, posState, !p->fastMode, p->ProbPrices); p->state = kRepNextStates[p->state]; } } else { UInt32 posSlot; RangeEnc_EncodeBit(&p->rc, &p->isRep[p->state], 0); p->state = kMatchNextStates[p->state]; LenEnc_Encode2(&p->lenEnc, &p->rc, len - LZMA_MATCH_LEN_MIN, posState, !p->fastMode, p->ProbPrices); pos -= LZMA_NUM_REPS; GetPosSlot(pos, posSlot); RcTree_Encode(&p->rc, p->posSlotEncoder[GetLenToPosState(len)], kNumPosSlotBits, posSlot); if (posSlot >= kStartPosModelIndex) { UInt32 footerBits = ((posSlot >> 1) - 1); UInt32 base = ((2 | (posSlot & 1)) << footerBits); UInt32 posReduced = pos - base; if (posSlot < kEndPosModelIndex) RcTree_ReverseEncode(&p->rc, p->posEncoders + base - posSlot - 1, footerBits, posReduced); else { RangeEnc_EncodeDirectBits(&p->rc, posReduced >> kNumAlignBits, footerBits - kNumAlignBits); RcTree_ReverseEncode(&p->rc, p->posAlignEncoder, kNumAlignBits, posReduced & kAlignMask); p->alignPriceCount++; } } p->reps[3] = p->reps[2]; p->reps[2] = p->reps[1]; p->reps[1] = p->reps[0]; p->reps[0] = pos; p->matchPriceCount++; } } p->additionalOffset -= len; nowPos32 += len; if (p->additionalOffset == 0) { UInt32 processed; if (!p->fastMode) { if (p->matchPriceCount >= (1 << 7)) FillDistancesPrices(p); if (p->alignPriceCount >= kAlignTableSize) FillAlignPrices(p); } if (p->matchFinder.GetNumAvailableBytes(p->matchFinderObj) == 0) break; processed = nowPos32 - startPos32; if (useLimits) { if (processed + kNumOpts + 300 >= maxUnpackSize || RangeEnc_GetProcessed(&p->rc) + kNumOpts * 2 >= maxPackSize) break; } else if (processed >= (1 << 15)) { p->nowPos64 += nowPos32 - startPos32; return CheckErrors(p); } } } p->nowPos64 += nowPos32 - startPos32; return Flush(p, nowPos32); } #define kBigHashDicLimit ((UInt32)1 << 24) static SRes LzmaEnc_Alloc(CLzmaEnc *p, UInt32 keepWindowSize, ISzAlloc *alloc, ISzAlloc *allocBig) { UInt32 beforeSize = kNumOpts; int btMode; if (!RangeEnc_Alloc(&p->rc, alloc)) return SZ_ERROR_MEM; btMode = (p->matchFinderBase.btMode != 0); #ifdef COMPRESS_MF_MT p->mtMode = (p->multiThread && !p->fastMode && btMode); #endif { unsigned lclp = p->lc + p->lp; if (p->litProbs == 0 || p->saveState.litProbs == 0 || p->lclp != lclp) { LzmaEnc_FreeLits(p, alloc); p->litProbs = (CLzmaProb *)alloc->Alloc(alloc, (0x300 << lclp) * sizeof(CLzmaProb)); p->saveState.litProbs = (CLzmaProb *)alloc->Alloc(alloc, (0x300 << lclp) * sizeof(CLzmaProb)); if (p->litProbs == 0 || p->saveState.litProbs == 0) { LzmaEnc_FreeLits(p, alloc); return SZ_ERROR_MEM; } p->lclp = lclp; } } p->matchFinderBase.bigHash = (p->dictSize > kBigHashDicLimit); if (beforeSize + p->dictSize < keepWindowSize) beforeSize = keepWindowSize - p->dictSize; #ifdef COMPRESS_MF_MT if (p->mtMode) { RINOK(MatchFinderMt_Create(&p->matchFinderMt, p->dictSize, beforeSize, p->numFastBytes, LZMA_MATCH_LEN_MAX, allocBig)); p->matchFinderObj = &p->matchFinderMt; MatchFinderMt_CreateVTable(&p->matchFinderMt, &p->matchFinder); } else #endif { if (!MatchFinder_Create(&p->matchFinderBase, p->dictSize, beforeSize, p->numFastBytes, LZMA_MATCH_LEN_MAX, allocBig)) return SZ_ERROR_MEM; p->matchFinderObj = &p->matchFinderBase; MatchFinder_CreateVTable(&p->matchFinderBase, &p->matchFinder); } return SZ_OK; } void LzmaEnc_Init(CLzmaEnc *p) { UInt32 i; p->state = 0; for (i = 0 ; i < LZMA_NUM_REPS; i++) p->reps[i] = 0; RangeEnc_Init(&p->rc); for (i = 0; i < kNumStates; i++) { UInt32 j; for (j = 0; j < LZMA_NUM_PB_STATES_MAX; j++) { p->isMatch[i][j] = kProbInitValue; p->isRep0Long[i][j] = kProbInitValue; } p->isRep[i] = kProbInitValue; p->isRepG0[i] = kProbInitValue; p->isRepG1[i] = kProbInitValue; p->isRepG2[i] = kProbInitValue; } { UInt32 num = 0x300 << (p->lp + p->lc); for (i = 0; i < num; i++) p->litProbs[i] = kProbInitValue; } { for (i = 0; i < kNumLenToPosStates; i++) { CLzmaProb *probs = p->posSlotEncoder[i]; UInt32 j; for (j = 0; j < (1 << kNumPosSlotBits); j++) probs[j] = kProbInitValue; } } { for (i = 0; i < kNumFullDistances - kEndPosModelIndex; i++) p->posEncoders[i] = kProbInitValue; } LenEnc_Init(&p->lenEnc.p); LenEnc_Init(&p->repLenEnc.p); for (i = 0; i < (1 << kNumAlignBits); i++) p->posAlignEncoder[i] = kProbInitValue; p->optimumEndIndex = 0; p->optimumCurrentIndex = 0; p->additionalOffset = 0; p->pbMask = (1 << p->pb) - 1; p->lpMask = (1 << p->lp) - 1; } void LzmaEnc_InitPrices(CLzmaEnc *p) { if (!p->fastMode) { FillDistancesPrices(p); FillAlignPrices(p); } p->lenEnc.tableSize = p->repLenEnc.tableSize = p->numFastBytes + 1 - LZMA_MATCH_LEN_MIN; LenPriceEnc_UpdateTables(&p->lenEnc, 1 << p->pb, p->ProbPrices); LenPriceEnc_UpdateTables(&p->repLenEnc, 1 << p->pb, p->ProbPrices); } static SRes LzmaEnc_AllocAndInit(CLzmaEnc *p, UInt32 keepWindowSize, ISzAlloc *alloc, ISzAlloc *allocBig) { UInt32 i; for (i = 0; i < (UInt32)kDicLogSizeMaxCompress; i++) if (p->dictSize <= ((UInt32)1 << i)) break; p->distTableSize = i * 2; p->finished = False; p->result = SZ_OK; RINOK(LzmaEnc_Alloc(p, keepWindowSize, alloc, allocBig)); LzmaEnc_Init(p); LzmaEnc_InitPrices(p); p->nowPos64 = 0; return SZ_OK; } static SRes LzmaEnc_Prepare(CLzmaEncHandle pp, ISeqInStream *inStream, ISeqOutStream *outStream, ISzAlloc *alloc, ISzAlloc *allocBig) { CLzmaEnc *p = (CLzmaEnc *)pp; p->inStream = inStream; p->rc.outStream = outStream; return LzmaEnc_AllocAndInit(p, 0, alloc, allocBig); } SRes LzmaEnc_PrepareForLzma2(CLzmaEncHandle pp, ISeqInStream *inStream, UInt32 keepWindowSize, ISzAlloc *alloc, ISzAlloc *allocBig) { CLzmaEnc *p = (CLzmaEnc *)pp; p->inStream = inStream; return LzmaEnc_AllocAndInit(p, keepWindowSize, alloc, allocBig); } static void LzmaEnc_SetInputBuf(CLzmaEnc *p, const Byte *src, SizeT srcLen) { p->seqBufInStream.funcTable.Read = MyRead; p->seqBufInStream.data = src; p->seqBufInStream.rem = srcLen; } SRes LzmaEnc_MemPrepare(CLzmaEncHandle pp, const Byte *src, SizeT srcLen, UInt32 keepWindowSize, ISzAlloc *alloc, ISzAlloc *allocBig) { CLzmaEnc *p = (CLzmaEnc *)pp; LzmaEnc_SetInputBuf(p, src, srcLen); p->inStream = &p->seqBufInStream.funcTable; return LzmaEnc_AllocAndInit(p, keepWindowSize, alloc, allocBig); } void LzmaEnc_Finish(CLzmaEncHandle pp) { #ifdef COMPRESS_MF_MT CLzmaEnc *p = (CLzmaEnc *)pp; if (p->mtMode) MatchFinderMt_ReleaseStream(&p->matchFinderMt); #else pp = pp; #endif } typedef struct _CSeqOutStreamBuf { ISeqOutStream funcTable; Byte *data; SizeT rem; int overflow; } CSeqOutStreamBuf; static size_t MyWrite(void *pp, const void *data, size_t size) { CSeqOutStreamBuf *p = (CSeqOutStreamBuf *)pp; if (p->rem < size) { size = p->rem; p->overflow = True; } memcpy(p->data, data, size); p->rem -= size; p->data += size; return size; } UInt32 LzmaEnc_GetNumAvailableBytes(CLzmaEncHandle pp) { const CLzmaEnc *p = (CLzmaEnc *)pp; return p->matchFinder.GetNumAvailableBytes(p->matchFinderObj); } const Byte *LzmaEnc_GetCurBuf(CLzmaEncHandle pp) { const CLzmaEnc *p = (CLzmaEnc *)pp; return p->matchFinder.GetPointerToCurrentPos(p->matchFinderObj) - p->additionalOffset; } SRes LzmaEnc_CodeOneMemBlock(CLzmaEncHandle pp, int reInit, Byte *dest, size_t *destLen, UInt32 desiredPackSize, UInt32 *unpackSize) { CLzmaEnc *p = (CLzmaEnc *)pp; UInt64 nowPos64; SRes res; CSeqOutStreamBuf outStream; outStream.funcTable.Write = MyWrite; outStream.data = dest; outStream.rem = *destLen; outStream.overflow = False; p->writeEndMark = False; p->finished = False; p->result = SZ_OK; if (reInit) LzmaEnc_Init(p); LzmaEnc_InitPrices(p); nowPos64 = p->nowPos64; RangeEnc_Init(&p->rc); p->rc.outStream = &outStream.funcTable; res = LzmaEnc_CodeOneBlock(p, True, desiredPackSize, *unpackSize); *unpackSize = (UInt32)(p->nowPos64 - nowPos64); *destLen -= outStream.rem; if (outStream.overflow) return SZ_ERROR_OUTPUT_EOF; return res; } SRes LzmaEnc_Encode(CLzmaEncHandle pp, ISeqOutStream *outStream, ISeqInStream *inStream, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig) { CLzmaEnc *p = (CLzmaEnc *)pp; SRes res = SZ_OK; #ifdef COMPRESS_MF_MT Byte allocaDummy[0x300]; int i = 0; for (i = 0; i < 16; i++) allocaDummy[i] = (Byte)i; #endif RINOK(LzmaEnc_Prepare(pp, inStream, outStream, alloc, allocBig)); for (;;) { res = LzmaEnc_CodeOneBlock(p, False, 0, 0); if (res != SZ_OK || p->finished != 0) break; if (progress != 0) { res = progress->Progress(progress, p->nowPos64, RangeEnc_GetProcessed(&p->rc)); if (res != SZ_OK) { res = SZ_ERROR_PROGRESS; break; } } } LzmaEnc_Finish(pp); return res; } SRes LzmaEnc_WriteProperties(CLzmaEncHandle pp, Byte *props, SizeT *size) { CLzmaEnc *p = (CLzmaEnc *)pp; int i; UInt32 dictSize = p->dictSize; if (*size < LZMA_PROPS_SIZE) return SZ_ERROR_PARAM; *size = LZMA_PROPS_SIZE; props[0] = (Byte)((p->pb * 5 + p->lp) * 9 + p->lc); for (i = 11; i <= 30; i++) { if (dictSize <= ((UInt32)2 << i)) { dictSize = (2 << i); break; } if (dictSize <= ((UInt32)3 << i)) { dictSize = (3 << i); break; } } for (i = 0; i < 4; i++) props[1 + i] = (Byte)(dictSize >> (8 * i)); return SZ_OK; } SRes LzmaEnc_MemEncode(CLzmaEncHandle pp, Byte *dest, SizeT *destLen, const Byte *src, SizeT srcLen, int writeEndMark, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig) { SRes res; CLzmaEnc *p = (CLzmaEnc *)pp; CSeqOutStreamBuf outStream; LzmaEnc_SetInputBuf(p, src, srcLen); outStream.funcTable.Write = MyWrite; outStream.data = dest; outStream.rem = *destLen; outStream.overflow = False; p->writeEndMark = writeEndMark; res = LzmaEnc_Encode(pp, &outStream.funcTable, &p->seqBufInStream.funcTable, progress, alloc, allocBig); *destLen -= outStream.rem; if (outStream.overflow) return SZ_ERROR_OUTPUT_EOF; return res; } SRes LzmaEncode(Byte *dest, SizeT *destLen, const Byte *src, SizeT srcLen, const CLzmaEncProps *props, Byte *propsEncoded, SizeT *propsSize, int writeEndMark, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig) { CLzmaEnc *p = (CLzmaEnc *)LzmaEnc_Create(alloc); SRes res; if (p == 0) return SZ_ERROR_MEM; res = LzmaEnc_SetProps(p, props); if (res == SZ_OK) { res = LzmaEnc_WriteProperties(p, propsEncoded, propsSize); if (res == SZ_OK) res = LzmaEnc_MemEncode(p, dest, destLen, src, srcLen, writeEndMark, progress, alloc, allocBig); } LzmaEnc_Destroy(p, alloc, allocBig); return res; } flwrap-1.3.5/src/lzma/LzmaDec.h0000644000175000017500000001555112562727330013174 00000000000000/* LzmaDec.h -- LZMA Decoder 2008-10-04 : Igor Pavlov : Public domain */ #ifndef __LZMADEC_H #define __LZMADEC_H #include "Types.h" /* #define _LZMA_PROB32 */ /* _LZMA_PROB32 can increase the speed on some CPUs, but memory usage for CLzmaDec::probs will be doubled in that case */ #ifdef _LZMA_PROB32 #define CLzmaProb UInt32 #else #define CLzmaProb UInt16 #endif /* ---------- LZMA Properties ---------- */ #define LZMA_PROPS_SIZE 5 typedef struct _CLzmaProps { unsigned lc, lp, pb; UInt32 dicSize; } CLzmaProps; /* LzmaProps_Decode - decodes properties Returns: SZ_OK SZ_ERROR_UNSUPPORTED - Unsupported properties */ SRes LzmaProps_Decode(CLzmaProps *p, const Byte *data, unsigned size); /* ---------- LZMA Decoder state ---------- */ /* LZMA_REQUIRED_INPUT_MAX = number of required input bytes for worst case. Num bits = log2((2^11 / 31) ^ 22) + 26 < 134 + 26 = 160; */ #define LZMA_REQUIRED_INPUT_MAX 20 typedef struct { CLzmaProps prop; CLzmaProb *probs; Byte *dic; const Byte *buf; UInt32 range, code; SizeT dicPos; SizeT dicBufSize; UInt32 processedPos; UInt32 checkDicSize; unsigned state; UInt32 reps[4]; unsigned remainLen; int needFlush; int needInitState; UInt32 numProbs; unsigned tempBufSize; Byte tempBuf[LZMA_REQUIRED_INPUT_MAX]; } CLzmaDec; #define LzmaDec_Construct(p) { (p)->dic = 0; (p)->probs = 0; } void LzmaDec_Init(CLzmaDec *p); /* There are two types of LZMA streams: 0) Stream with end mark. That end mark adds about 6 bytes to compressed size. 1) Stream without end mark. You must know exact uncompressed size to decompress such stream. */ typedef enum { LZMA_FINISH_ANY, /* finish at any point */ LZMA_FINISH_END /* block must be finished at the end */ } ELzmaFinishMode; /* ELzmaFinishMode has meaning only if the decoding reaches output limit !!! You must use LZMA_FINISH_END, when you know that current output buffer covers last bytes of block. In other cases you must use LZMA_FINISH_ANY. If LZMA decoder sees end marker before reaching output limit, it returns SZ_OK, and output value of destLen will be less than output buffer size limit. You can check status result also. You can use multiple checks to test data integrity after full decompression: 1) Check Result and "status" variable. 2) Check that output(destLen) = uncompressedSize, if you know real uncompressedSize. 3) Check that output(srcLen) = compressedSize, if you know real compressedSize. You must use correct finish mode in that case. */ typedef enum { LZMA_STATUS_NOT_SPECIFIED, /* use main error code instead */ LZMA_STATUS_FINISHED_WITH_MARK, /* stream was finished with end mark. */ LZMA_STATUS_NOT_FINISHED, /* stream was not finished */ LZMA_STATUS_NEEDS_MORE_INPUT, /* you must provide more input bytes */ LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK /* there is probability that stream was finished without end mark */ } ELzmaStatus; /* ELzmaStatus is used only as output value for function call */ /* ---------- Interfaces ---------- */ /* There are 3 levels of interfaces: 1) Dictionary Interface 2) Buffer Interface 3) One Call Interface You can select any of these interfaces, but don't mix functions from different groups for same object. */ /* There are two variants to allocate state for Dictionary Interface: 1) LzmaDec_Allocate / LzmaDec_Free 2) LzmaDec_AllocateProbs / LzmaDec_FreeProbs You can use variant 2, if you set dictionary buffer manually. For Buffer Interface you must always use variant 1. LzmaDec_Allocate* can return: SZ_OK SZ_ERROR_MEM - Memory allocation error SZ_ERROR_UNSUPPORTED - Unsupported properties */ SRes LzmaDec_AllocateProbs(CLzmaDec *p, const Byte *props, unsigned propsSize, ISzAlloc *alloc); void LzmaDec_FreeProbs(CLzmaDec *p, ISzAlloc *alloc); SRes LzmaDec_Allocate(CLzmaDec *state, const Byte *prop, unsigned propsSize, ISzAlloc *alloc); void LzmaDec_Free(CLzmaDec *state, ISzAlloc *alloc); /* ---------- Dictionary Interface ---------- */ /* You can use it, if you want to eliminate the overhead for data copying from dictionary to some other external buffer. You must work with CLzmaDec variables directly in this interface. STEPS: LzmaDec_Constr() LzmaDec_Allocate() for (each new stream) { LzmaDec_Init() while (it needs more decompression) { LzmaDec_DecodeToDic() use data from CLzmaDec::dic and update CLzmaDec::dicPos } } LzmaDec_Free() */ /* LzmaDec_DecodeToDic The decoding to internal dictionary buffer (CLzmaDec::dic). You must manually update CLzmaDec::dicPos, if it reaches CLzmaDec::dicBufSize !!! finishMode: It has meaning only if the decoding reaches output limit (dicLimit). LZMA_FINISH_ANY - Decode just dicLimit bytes. LZMA_FINISH_END - Stream must be finished after dicLimit. Returns: SZ_OK status: LZMA_STATUS_FINISHED_WITH_MARK LZMA_STATUS_NOT_FINISHED LZMA_STATUS_NEEDS_MORE_INPUT LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK SZ_ERROR_DATA - Data error */ SRes LzmaDec_DecodeToDic(CLzmaDec *p, SizeT dicLimit, const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status); /* ---------- Buffer Interface ---------- */ /* It's zlib-like interface. See LzmaDec_DecodeToDic description for information about STEPS and return results, but you must use LzmaDec_DecodeToBuf instead of LzmaDec_DecodeToDic and you don't need to work with CLzmaDec variables manually. finishMode: It has meaning only if the decoding reaches output limit (*destLen). LZMA_FINISH_ANY - Decode just destLen bytes. LZMA_FINISH_END - Stream must be finished after (*destLen). */ SRes LzmaDec_DecodeToBuf(CLzmaDec *p, Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status); /* ---------- One Call Interface ---------- */ /* LzmaDecode finishMode: It has meaning only if the decoding reaches output limit (*destLen). LZMA_FINISH_ANY - Decode just destLen bytes. LZMA_FINISH_END - Stream must be finished after (*destLen). Returns: SZ_OK status: LZMA_STATUS_FINISHED_WITH_MARK LZMA_STATUS_NOT_FINISHED LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK SZ_ERROR_DATA - Data error SZ_ERROR_MEM - Memory allocation error SZ_ERROR_UNSUPPORTED - Unsupported properties SZ_ERROR_INPUT_EOF - It needs more bytes in input buffer (src). */ SRes LzmaDecode(Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen, const Byte *propData, unsigned propSize, ELzmaFinishMode finishMode, ELzmaStatus *status, ISzAlloc *alloc); #endif flwrap-1.3.5/src/lzma/Alloc.c0000644000175000017500000000537312562727330012703 00000000000000/* Alloc.c -- Memory allocation functions 2008-09-24 Igor Pavlov Public domain */ #ifdef _WIN32 #include #endif #include #include "Alloc.h" /* #define _SZ_ALLOC_DEBUG */ /* use _SZ_ALLOC_DEBUG to debug alloc/free operations */ #ifdef _SZ_ALLOC_DEBUG #include int g_allocCount = 0; int g_allocCountMid = 0; int g_allocCountBig = 0; #endif void *MyAlloc(size_t size) { if (size == 0) return 0; #ifdef _SZ_ALLOC_DEBUG { void *p = malloc(size); fprintf(stderr, "\nAlloc %10d bytes, count = %10d, addr = %8X", size, g_allocCount++, (unsigned)p); return p; } #else return malloc(size); #endif } void MyFree(void *address) { #ifdef _SZ_ALLOC_DEBUG if (address != 0) fprintf(stderr, "\nFree; count = %10d, addr = %8X", --g_allocCount, (unsigned)address); #endif free(address); } #ifdef _WIN32 void *MidAlloc(size_t size) { if (size == 0) return 0; #ifdef _SZ_ALLOC_DEBUG fprintf(stderr, "\nAlloc_Mid %10d bytes; count = %10d", size, g_allocCountMid++); #endif return VirtualAlloc(0, size, MEM_COMMIT, PAGE_READWRITE); } void MidFree(void *address) { #ifdef _SZ_ALLOC_DEBUG if (address != 0) fprintf(stderr, "\nFree_Mid; count = %10d", --g_allocCountMid); #endif if (address == 0) return; VirtualFree(address, 0, MEM_RELEASE); } #ifndef MEM_LARGE_PAGES #undef _7ZIP_LARGE_PAGES #endif #ifdef _7ZIP_LARGE_PAGES SIZE_T g_LargePageSize = 0; typedef SIZE_T (WINAPI *GetLargePageMinimumP)(); #endif void SetLargePageSize() { #ifdef _7ZIP_LARGE_PAGES SIZE_T size = 0; GetLargePageMinimumP largePageMinimum = (GetLargePageMinimumP) GetProcAddress(GetModuleHandle(TEXT("kernel32.dll")), "GetLargePageMinimum"); if (largePageMinimum == 0) return; size = largePageMinimum(); if (size == 0 || (size & (size - 1)) != 0) return; g_LargePageSize = size; #endif } void *BigAlloc(size_t size) { if (size == 0) return 0; #ifdef _SZ_ALLOC_DEBUG fprintf(stderr, "\nAlloc_Big %10d bytes; count = %10d", size, g_allocCountBig++); #endif #ifdef _7ZIP_LARGE_PAGES if (g_LargePageSize != 0 && g_LargePageSize <= (1 << 30) && size >= (1 << 18)) { void *res = VirtualAlloc(0, (size + g_LargePageSize - 1) & (~(g_LargePageSize - 1)), MEM_COMMIT | MEM_LARGE_PAGES, PAGE_READWRITE); if (res != 0) return res; } #endif return VirtualAlloc(0, size, MEM_COMMIT, PAGE_READWRITE); } void BigFree(void *address) { #ifdef _SZ_ALLOC_DEBUG if (address != 0) fprintf(stderr, "\nFree_Big; count = %10d", --g_allocCountBig); #endif if (address == 0) return; VirtualFree(address, 0, MEM_RELEASE); } #endif flwrap-1.3.5/src/lzma/LzFind.c0000644000175000017500000004742412562727330013042 00000000000000/* LzFind.c -- Match finder for LZ algorithms 2008-10-04 : Igor Pavlov : Public domain */ #include #include "LzFind.h" #include "LzHash.h" #define kEmptyHashValue 0 #define kMaxValForNormalize ((UInt32)0xFFFFFFFF) #define kNormalizeStepMin (1 << 10) /* it must be power of 2 */ #define kNormalizeMask (~(kNormalizeStepMin - 1)) #define kMaxHistorySize ((UInt32)3 << 30) #define kStartMaxLen 3 static void LzInWindow_Free(CMatchFinder *p, ISzAlloc *alloc) { if (!p->directInput) { alloc->Free(alloc, p->bufferBase); p->bufferBase = 0; } } /* keepSizeBefore + keepSizeAfter + keepSizeReserv must be < 4G) */ static int LzInWindow_Create(CMatchFinder *p, UInt32 keepSizeReserv, ISzAlloc *alloc) { UInt32 blockSize = p->keepSizeBefore + p->keepSizeAfter + keepSizeReserv; if (p->directInput) { p->blockSize = blockSize; return 1; } if (p->bufferBase == 0 || p->blockSize != blockSize) { LzInWindow_Free(p, alloc); p->blockSize = blockSize; p->bufferBase = (Byte *)alloc->Alloc(alloc, (size_t)blockSize); } return (p->bufferBase != 0); } Byte *MatchFinder_GetPointerToCurrentPos(CMatchFinder *p) { return p->buffer; } Byte MatchFinder_GetIndexByte(CMatchFinder *p, Int32 index) { return p->buffer[index]; } UInt32 MatchFinder_GetNumAvailableBytes(CMatchFinder *p) { return p->streamPos - p->pos; } void MatchFinder_ReduceOffsets(CMatchFinder *p, UInt32 subValue) { p->posLimit -= subValue; p->pos -= subValue; p->streamPos -= subValue; } static void MatchFinder_ReadBlock(CMatchFinder *p) { if (p->streamEndWasReached || p->result != SZ_OK) return; for (;;) { Byte *dest = p->buffer + (p->streamPos - p->pos); size_t size = (p->bufferBase + p->blockSize - dest); if (size == 0) return; p->result = p->stream->Read(p->stream, dest, &size); if (p->result != SZ_OK) return; if (size == 0) { p->streamEndWasReached = 1; return; } p->streamPos += (UInt32)size; if (p->streamPos - p->pos > p->keepSizeAfter) return; } } void MatchFinder_MoveBlock(CMatchFinder *p) { memmove(p->bufferBase, p->buffer - p->keepSizeBefore, (size_t)(p->streamPos - p->pos + p->keepSizeBefore)); p->buffer = p->bufferBase + p->keepSizeBefore; } int MatchFinder_NeedMove(CMatchFinder *p) { /* if (p->streamEndWasReached) return 0; */ return ((size_t)(p->bufferBase + p->blockSize - p->buffer) <= p->keepSizeAfter); } void MatchFinder_ReadIfRequired(CMatchFinder *p) { if (p->streamEndWasReached) return; if (p->keepSizeAfter >= p->streamPos - p->pos) MatchFinder_ReadBlock(p); } static void MatchFinder_CheckAndMoveAndRead(CMatchFinder *p) { if (MatchFinder_NeedMove(p)) MatchFinder_MoveBlock(p); MatchFinder_ReadBlock(p); } static void MatchFinder_SetDefaultSettings(CMatchFinder *p) { p->cutValue = 32; p->btMode = 1; p->numHashBytes = 4; /* p->skipModeBits = 0; */ p->directInput = 0; p->bigHash = 0; } #define kCrcPoly 0xEDB88320 void MatchFinder_Construct(CMatchFinder *p) { UInt32 i; p->bufferBase = 0; p->directInput = 0; p->hash = 0; MatchFinder_SetDefaultSettings(p); for (i = 0; i < 256; i++) { UInt32 r = i; int j; for (j = 0; j < 8; j++) r = (r >> 1) ^ (kCrcPoly & ~((r & 1) - 1)); p->crc[i] = r; } } static void MatchFinder_FreeThisClassMemory(CMatchFinder *p, ISzAlloc *alloc) { alloc->Free(alloc, p->hash); p->hash = 0; } void MatchFinder_Free(CMatchFinder *p, ISzAlloc *alloc) { MatchFinder_FreeThisClassMemory(p, alloc); LzInWindow_Free(p, alloc); } static CLzRef* AllocRefs(UInt32 num, ISzAlloc *alloc) { size_t sizeInBytes = (size_t)num * sizeof(CLzRef); if (sizeInBytes / sizeof(CLzRef) != num) return 0; return (CLzRef *)alloc->Alloc(alloc, sizeInBytes); } int MatchFinder_Create(CMatchFinder *p, UInt32 historySize, UInt32 keepAddBufferBefore, UInt32 matchMaxLen, UInt32 keepAddBufferAfter, ISzAlloc *alloc) { UInt32 sizeReserv; if (historySize > kMaxHistorySize) { MatchFinder_Free(p, alloc); return 0; } sizeReserv = historySize >> 1; if (historySize > ((UInt32)2 << 30)) sizeReserv = historySize >> 2; sizeReserv += (keepAddBufferBefore + matchMaxLen + keepAddBufferAfter) / 2 + (1 << 19); p->keepSizeBefore = historySize + keepAddBufferBefore + 1; p->keepSizeAfter = matchMaxLen + keepAddBufferAfter; /* we need one additional byte, since we use MoveBlock after pos++ and before dictionary using */ if (LzInWindow_Create(p, sizeReserv, alloc)) { UInt32 newCyclicBufferSize = (historySize /* >> p->skipModeBits */) + 1; UInt32 hs; p->matchMaxLen = matchMaxLen; { p->fixedHashSize = 0; if (p->numHashBytes == 2) hs = (1 << 16) - 1; else { hs = historySize - 1; hs |= (hs >> 1); hs |= (hs >> 2); hs |= (hs >> 4); hs |= (hs >> 8); hs >>= 1; /* hs >>= p->skipModeBits; */ hs |= 0xFFFF; /* don't change it! It's required for Deflate */ if (hs > (1 << 24)) { if (p->numHashBytes == 3) hs = (1 << 24) - 1; else hs >>= 1; } } p->hashMask = hs; hs++; if (p->numHashBytes > 2) p->fixedHashSize += kHash2Size; if (p->numHashBytes > 3) p->fixedHashSize += kHash3Size; if (p->numHashBytes > 4) p->fixedHashSize += kHash4Size; hs += p->fixedHashSize; } { UInt32 prevSize = p->hashSizeSum + p->numSons; UInt32 newSize; p->historySize = historySize; p->hashSizeSum = hs; p->cyclicBufferSize = newCyclicBufferSize; p->numSons = (p->btMode ? newCyclicBufferSize * 2 : newCyclicBufferSize); newSize = p->hashSizeSum + p->numSons; if (p->hash != 0 && prevSize == newSize) return 1; MatchFinder_FreeThisClassMemory(p, alloc); p->hash = AllocRefs(newSize, alloc); if (p->hash != 0) { p->son = p->hash + p->hashSizeSum; return 1; } } } MatchFinder_Free(p, alloc); return 0; } static void MatchFinder_SetLimits(CMatchFinder *p) { UInt32 limit = kMaxValForNormalize - p->pos; UInt32 limit2 = p->cyclicBufferSize - p->cyclicBufferPos; if (limit2 < limit) limit = limit2; limit2 = p->streamPos - p->pos; if (limit2 <= p->keepSizeAfter) { if (limit2 > 0) limit2 = 1; } else limit2 -= p->keepSizeAfter; if (limit2 < limit) limit = limit2; { UInt32 lenLimit = p->streamPos - p->pos; if (lenLimit > p->matchMaxLen) lenLimit = p->matchMaxLen; p->lenLimit = lenLimit; } p->posLimit = p->pos + limit; } void MatchFinder_Init(CMatchFinder *p) { UInt32 i; for (i = 0; i < p->hashSizeSum; i++) p->hash[i] = kEmptyHashValue; p->cyclicBufferPos = 0; p->buffer = p->bufferBase; p->pos = p->streamPos = p->cyclicBufferSize; p->result = SZ_OK; p->streamEndWasReached = 0; MatchFinder_ReadBlock(p); MatchFinder_SetLimits(p); } static UInt32 MatchFinder_GetSubValue(CMatchFinder *p) { return (p->pos - p->historySize - 1) & kNormalizeMask; } void MatchFinder_Normalize3(UInt32 subValue, CLzRef *items, UInt32 numItems) { UInt32 i; for (i = 0; i < numItems; i++) { UInt32 value = items[i]; if (value <= subValue) value = kEmptyHashValue; else value -= subValue; items[i] = value; } } static void MatchFinder_Normalize(CMatchFinder *p) { UInt32 subValue = MatchFinder_GetSubValue(p); MatchFinder_Normalize3(subValue, p->hash, p->hashSizeSum + p->numSons); MatchFinder_ReduceOffsets(p, subValue); } static void MatchFinder_CheckLimits(CMatchFinder *p) { if (p->pos == kMaxValForNormalize) MatchFinder_Normalize(p); if (!p->streamEndWasReached && p->keepSizeAfter == p->streamPos - p->pos) MatchFinder_CheckAndMoveAndRead(p); if (p->cyclicBufferPos == p->cyclicBufferSize) p->cyclicBufferPos = 0; MatchFinder_SetLimits(p); } static UInt32 * Hc_GetMatchesSpec(UInt32 lenLimit, UInt32 curMatch, UInt32 pos, const Byte *cur, CLzRef *son, UInt32 _cyclicBufferPos, UInt32 _cyclicBufferSize, UInt32 cutValue, UInt32 *distances, UInt32 maxLen) { son[_cyclicBufferPos] = curMatch; for (;;) { UInt32 delta = pos - curMatch; if (cutValue-- == 0 || delta >= _cyclicBufferSize) return distances; { const Byte *pb = cur - delta; curMatch = son[_cyclicBufferPos - delta + ((delta > _cyclicBufferPos) ? _cyclicBufferSize : 0)]; if (pb[maxLen] == cur[maxLen] && *pb == *cur) { UInt32 len = 0; while (++len != lenLimit) if (pb[len] != cur[len]) break; if (maxLen < len) { *distances++ = maxLen = len; *distances++ = delta - 1; if (len == lenLimit) return distances; } } } } } UInt32 * GetMatchesSpec1(UInt32 lenLimit, UInt32 curMatch, UInt32 pos, const Byte *cur, CLzRef *son, UInt32 _cyclicBufferPos, UInt32 _cyclicBufferSize, UInt32 cutValue, UInt32 *distances, UInt32 maxLen) { CLzRef *ptr0 = son + (_cyclicBufferPos << 1) + 1; CLzRef *ptr1 = son + (_cyclicBufferPos << 1); UInt32 len0 = 0, len1 = 0; for (;;) { UInt32 delta = pos - curMatch; if (cutValue-- == 0 || delta >= _cyclicBufferSize) { *ptr0 = *ptr1 = kEmptyHashValue; return distances; } { CLzRef *pair = son + ((_cyclicBufferPos - delta + ((delta > _cyclicBufferPos) ? _cyclicBufferSize : 0)) << 1); const Byte *pb = cur - delta; UInt32 len = (len0 < len1 ? len0 : len1); if (pb[len] == cur[len]) { if (++len != lenLimit && pb[len] == cur[len]) while (++len != lenLimit) if (pb[len] != cur[len]) break; if (maxLen < len) { *distances++ = maxLen = len; *distances++ = delta - 1; if (len == lenLimit) { *ptr1 = pair[0]; *ptr0 = pair[1]; return distances; } } } if (pb[len] < cur[len]) { *ptr1 = curMatch; ptr1 = pair + 1; curMatch = *ptr1; len1 = len; } else { *ptr0 = curMatch; ptr0 = pair; curMatch = *ptr0; len0 = len; } } } } static void SkipMatchesSpec(UInt32 lenLimit, UInt32 curMatch, UInt32 pos, const Byte *cur, CLzRef *son, UInt32 _cyclicBufferPos, UInt32 _cyclicBufferSize, UInt32 cutValue) { CLzRef *ptr0 = son + (_cyclicBufferPos << 1) + 1; CLzRef *ptr1 = son + (_cyclicBufferPos << 1); UInt32 len0 = 0, len1 = 0; for (;;) { UInt32 delta = pos - curMatch; if (cutValue-- == 0 || delta >= _cyclicBufferSize) { *ptr0 = *ptr1 = kEmptyHashValue; return; } { CLzRef *pair = son + ((_cyclicBufferPos - delta + ((delta > _cyclicBufferPos) ? _cyclicBufferSize : 0)) << 1); const Byte *pb = cur - delta; UInt32 len = (len0 < len1 ? len0 : len1); if (pb[len] == cur[len]) { while (++len != lenLimit) if (pb[len] != cur[len]) break; { if (len == lenLimit) { *ptr1 = pair[0]; *ptr0 = pair[1]; return; } } } if (pb[len] < cur[len]) { *ptr1 = curMatch; ptr1 = pair + 1; curMatch = *ptr1; len1 = len; } else { *ptr0 = curMatch; ptr0 = pair; curMatch = *ptr0; len0 = len; } } } } #define MOVE_POS \ ++p->cyclicBufferPos; \ p->buffer++; \ if (++p->pos == p->posLimit) MatchFinder_CheckLimits(p); #define MOVE_POS_RET MOVE_POS return offset; static void MatchFinder_MovePos(CMatchFinder *p) { MOVE_POS; } #define GET_MATCHES_HEADER2(minLen, ret_op) \ UInt32 lenLimit; UInt32 hashValue; const Byte *cur; UInt32 curMatch; \ lenLimit = p->lenLimit; { if (lenLimit < minLen) { MatchFinder_MovePos(p); ret_op; }} \ cur = p->buffer; #define GET_MATCHES_HEADER(minLen) GET_MATCHES_HEADER2(minLen, return 0) #define SKIP_HEADER(minLen) GET_MATCHES_HEADER2(minLen, continue) #define MF_PARAMS(p) p->pos, p->buffer, p->son, p->cyclicBufferPos, p->cyclicBufferSize, p->cutValue #define GET_MATCHES_FOOTER(offset, maxLen) \ offset = (UInt32)(GetMatchesSpec1(lenLimit, curMatch, MF_PARAMS(p), \ distances + offset, maxLen) - distances); MOVE_POS_RET; #define SKIP_FOOTER \ SkipMatchesSpec(lenLimit, curMatch, MF_PARAMS(p)); MOVE_POS; static UInt32 Bt2_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 offset; GET_MATCHES_HEADER(2) HASH2_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; offset = 0; GET_MATCHES_FOOTER(offset, 1) } UInt32 Bt3Zip_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 offset; GET_MATCHES_HEADER(3) HASH_ZIP_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; offset = 0; GET_MATCHES_FOOTER(offset, 2) } static UInt32 Bt3_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 hash2Value, delta2, maxLen, offset; GET_MATCHES_HEADER(3) HASH3_CALC; delta2 = p->pos - p->hash[hash2Value]; curMatch = p->hash[kFix3HashSize + hashValue]; p->hash[hash2Value] = p->hash[kFix3HashSize + hashValue] = p->pos; maxLen = 2; offset = 0; if (delta2 < p->cyclicBufferSize && *(cur - delta2) == *cur) { for (; maxLen != lenLimit; maxLen++) if (cur[(ptrdiff_t)maxLen - delta2] != cur[maxLen]) break; distances[0] = maxLen; distances[1] = delta2 - 1; offset = 2; if (maxLen == lenLimit) { SkipMatchesSpec(lenLimit, curMatch, MF_PARAMS(p)); MOVE_POS_RET; } } GET_MATCHES_FOOTER(offset, maxLen) } static UInt32 Bt4_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 hash2Value, hash3Value, delta2, delta3, maxLen, offset; GET_MATCHES_HEADER(4) HASH4_CALC; delta2 = p->pos - p->hash[ hash2Value]; delta3 = p->pos - p->hash[kFix3HashSize + hash3Value]; curMatch = p->hash[kFix4HashSize + hashValue]; p->hash[ hash2Value] = p->hash[kFix3HashSize + hash3Value] = p->hash[kFix4HashSize + hashValue] = p->pos; maxLen = 1; offset = 0; if (delta2 < p->cyclicBufferSize && *(cur - delta2) == *cur) { distances[0] = maxLen = 2; distances[1] = delta2 - 1; offset = 2; } if (delta2 != delta3 && delta3 < p->cyclicBufferSize && *(cur - delta3) == *cur) { maxLen = 3; distances[offset + 1] = delta3 - 1; offset += 2; delta2 = delta3; } if (offset != 0) { for (; maxLen != lenLimit; maxLen++) if (cur[(ptrdiff_t)maxLen - delta2] != cur[maxLen]) break; distances[offset - 2] = maxLen; if (maxLen == lenLimit) { SkipMatchesSpec(lenLimit, curMatch, MF_PARAMS(p)); MOVE_POS_RET; } } if (maxLen < 3) maxLen = 3; GET_MATCHES_FOOTER(offset, maxLen) } static UInt32 Hc4_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 hash2Value, hash3Value, delta2, delta3, maxLen, offset; GET_MATCHES_HEADER(4) HASH4_CALC; delta2 = p->pos - p->hash[ hash2Value]; delta3 = p->pos - p->hash[kFix3HashSize + hash3Value]; curMatch = p->hash[kFix4HashSize + hashValue]; p->hash[ hash2Value] = p->hash[kFix3HashSize + hash3Value] = p->hash[kFix4HashSize + hashValue] = p->pos; maxLen = 1; offset = 0; if (delta2 < p->cyclicBufferSize && *(cur - delta2) == *cur) { distances[0] = maxLen = 2; distances[1] = delta2 - 1; offset = 2; } if (delta2 != delta3 && delta3 < p->cyclicBufferSize && *(cur - delta3) == *cur) { maxLen = 3; distances[offset + 1] = delta3 - 1; offset += 2; delta2 = delta3; } if (offset != 0) { for (; maxLen != lenLimit; maxLen++) if (cur[(ptrdiff_t)maxLen - delta2] != cur[maxLen]) break; distances[offset - 2] = maxLen; if (maxLen == lenLimit) { p->son[p->cyclicBufferPos] = curMatch; MOVE_POS_RET; } } if (maxLen < 3) maxLen = 3; offset = (UInt32)(Hc_GetMatchesSpec(lenLimit, curMatch, MF_PARAMS(p), distances + offset, maxLen) - (distances)); MOVE_POS_RET } UInt32 Hc3Zip_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances) { UInt32 offset; GET_MATCHES_HEADER(3) HASH_ZIP_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; offset = (UInt32)(Hc_GetMatchesSpec(lenLimit, curMatch, MF_PARAMS(p), distances, 2) - (distances)); MOVE_POS_RET } static void Bt2_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { SKIP_HEADER(2) HASH2_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; SKIP_FOOTER } while (--num != 0); } void Bt3Zip_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { SKIP_HEADER(3) HASH_ZIP_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; SKIP_FOOTER } while (--num != 0); } static void Bt3_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { UInt32 hash2Value; SKIP_HEADER(3) HASH3_CALC; curMatch = p->hash[kFix3HashSize + hashValue]; p->hash[hash2Value] = p->hash[kFix3HashSize + hashValue] = p->pos; SKIP_FOOTER } while (--num != 0); } static void Bt4_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { UInt32 hash2Value, hash3Value; SKIP_HEADER(4) HASH4_CALC; curMatch = p->hash[kFix4HashSize + hashValue]; p->hash[ hash2Value] = p->hash[kFix3HashSize + hash3Value] = p->pos; p->hash[kFix4HashSize + hashValue] = p->pos; SKIP_FOOTER } while (--num != 0); } static void Hc4_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { UInt32 hash2Value, hash3Value; SKIP_HEADER(4) HASH4_CALC; curMatch = p->hash[kFix4HashSize + hashValue]; p->hash[ hash2Value] = p->hash[kFix3HashSize + hash3Value] = p->hash[kFix4HashSize + hashValue] = p->pos; p->son[p->cyclicBufferPos] = curMatch; MOVE_POS } while (--num != 0); } void Hc3Zip_MatchFinder_Skip(CMatchFinder *p, UInt32 num) { do { SKIP_HEADER(3) HASH_ZIP_CALC; curMatch = p->hash[hashValue]; p->hash[hashValue] = p->pos; p->son[p->cyclicBufferPos] = curMatch; MOVE_POS } while (--num != 0); } void MatchFinder_CreateVTable(CMatchFinder *p, IMatchFinder *vTable) { vTable->Init = (Mf_Init_Func)MatchFinder_Init; vTable->GetIndexByte = (Mf_GetIndexByte_Func)MatchFinder_GetIndexByte; vTable->GetNumAvailableBytes = (Mf_GetNumAvailableBytes_Func)MatchFinder_GetNumAvailableBytes; vTable->GetPointerToCurrentPos = (Mf_GetPointerToCurrentPos_Func)MatchFinder_GetPointerToCurrentPos; if (!p->btMode) { vTable->GetMatches = (Mf_GetMatches_Func)Hc4_MatchFinder_GetMatches; vTable->Skip = (Mf_Skip_Func)Hc4_MatchFinder_Skip; } else if (p->numHashBytes == 2) { vTable->GetMatches = (Mf_GetMatches_Func)Bt2_MatchFinder_GetMatches; vTable->Skip = (Mf_Skip_Func)Bt2_MatchFinder_Skip; } else if (p->numHashBytes == 3) { vTable->GetMatches = (Mf_GetMatches_Func)Bt3_MatchFinder_GetMatches; vTable->Skip = (Mf_Skip_Func)Bt3_MatchFinder_Skip; } else { vTable->GetMatches = (Mf_GetMatches_Func)Bt4_MatchFinder_GetMatches; vTable->Skip = (Mf_Skip_Func)Bt4_MatchFinder_Skip; } } flwrap-1.3.5/src/lzma/LzmaLib.c0000644000175000017500000000276412562727330013204 00000000000000/* LzmaLib.c -- LZMA library wrapper 2008-08-05 Igor Pavlov Public domain */ #include "LzmaEnc.h" #include "LzmaDec.h" #include "Alloc.h" #include "LzmaLib.h" static void *SzAlloc(void *p, size_t size) { p = p; return MyAlloc(size); } static void SzFree(void *p, void *address) { p = p; MyFree(address); } static ISzAlloc g_Alloc = { SzAlloc, SzFree }; MY_STDAPI LzmaCompress(unsigned char *dest, size_t *destLen, const unsigned char *src, size_t srcLen, unsigned char *outProps, size_t *outPropsSize, int level, /* 0 <= level <= 9, default = 5 */ unsigned dictSize, /* use (1 << N) or (3 << N). 4 KB < dictSize <= 128 MB */ int lc, /* 0 <= lc <= 8, default = 3 */ int lp, /* 0 <= lp <= 4, default = 0 */ int pb, /* 0 <= pb <= 4, default = 2 */ int fb, /* 5 <= fb <= 273, default = 32 */ int numThreads /* 1 or 2, default = 2 */ ) { CLzmaEncProps props; LzmaEncProps_Init(&props); props.level = level; props.dictSize = dictSize; props.lc = lc; props.lp = lp; props.pb = pb; props.fb = fb; props.numThreads = numThreads; return LzmaEncode(dest, destLen, src, srcLen, &props, outProps, outPropsSize, 0, NULL, &g_Alloc, &g_Alloc); } MY_STDAPI LzmaUncompress(unsigned char *dest, size_t *destLen, const unsigned char *src, size_t *srcLen, const unsigned char *props, size_t propsSize) { ELzmaStatus status; return LzmaDecode(dest, destLen, src, srcLen, props, (unsigned)propsSize, LZMA_FINISH_ANY, &status, &g_Alloc); } flwrap-1.3.5/src/lzma/LzmaLib.h0000644000175000017500000001063712562727330013207 00000000000000/* LzmaLib.h -- LZMA library interface 2008-08-05 Igor Pavlov Public domain */ #ifndef __LZMALIB_H #define __LZMALIB_H #include "Types.h" #ifdef __cplusplus #define MY_EXTERN_C extern "C" #else #define MY_EXTERN_C extern #endif #define MY_STDAPI MY_EXTERN_C int MY_STD_CALL #define LZMA_PROPS_SIZE 5 /* RAM requirements for LZMA: for compression: (dictSize * 11.5 + 6 MB) + state_size for decompression: dictSize + state_size state_size = (4 + (1.5 << (lc + lp))) KB by default (lc=3, lp=0), state_size = 16 KB. LZMA properties (5 bytes) format Offset Size Description 0 1 lc, lp and pb in encoded form. 1 4 dictSize (little endian). */ /* LzmaCompress ------------ outPropsSize - In: the pointer to the size of outProps buffer; *outPropsSize = LZMA_PROPS_SIZE = 5. Out: the pointer to the size of written properties in outProps buffer; *outPropsSize = LZMA_PROPS_SIZE = 5. LZMA Encoder will use defult values for any parameter, if it is -1 for any from: level, loc, lp, pb, fb, numThreads 0 for dictSize level - compression level: 0 <= level <= 9; level dictSize algo fb 0: 16 KB 0 32 1: 64 KB 0 32 2: 256 KB 0 32 3: 1 MB 0 32 4: 4 MB 0 32 5: 16 MB 1 32 6: 32 MB 1 32 7+: 64 MB 1 64 The default value for "level" is 5. algo = 0 means fast method algo = 1 means normal method dictSize - The dictionary size in bytes. The maximum value is 128 MB = (1 << 27) bytes for 32-bit version 1 GB = (1 << 30) bytes for 64-bit version The default value is 16 MB = (1 << 24) bytes. It's recommended to use the dictionary that is larger than 4 KB and that can be calculated as (1 << N) or (3 << N) sizes. lc - The number of literal context bits (high bits of previous literal). It can be in the range from 0 to 8. The default value is 3. Sometimes lc=4 gives the gain for big files. lp - The number of literal pos bits (low bits of current position for literals). It can be in the range from 0 to 4. The default value is 0. The lp switch is intended for periodical data when the period is equal to 2^lp. For example, for 32-bit (4 bytes) periodical data you can use lp=2. Often it's better to set lc=0, if you change lp switch. pb - The number of pos bits (low bits of current position). It can be in the range from 0 to 4. The default value is 2. The pb switch is intended for periodical data when the period is equal 2^pb. fb - Word size (the number of fast bytes). It can be in the range from 5 to 273. The default value is 32. Usually, a big number gives a little bit better compression ratio and slower compression process. numThreads - The number of thereads. 1 or 2. The default value is 2. Fast mode (algo = 0) can use only 1 thread. Out: destLen - processed output size Returns: SZ_OK - OK SZ_ERROR_MEM - Memory allocation error SZ_ERROR_PARAM - Incorrect paramater SZ_ERROR_OUTPUT_EOF - output buffer overflow SZ_ERROR_THREAD - errors in multithreading functions (only for Mt version) */ MY_STDAPI LzmaCompress(unsigned char *dest, size_t *destLen, const unsigned char *src, size_t srcLen, unsigned char *outProps, size_t *outPropsSize, /* *outPropsSize must be = 5 */ int level, /* 0 <= level <= 9, default = 5 */ unsigned dictSize, /* default = (1 << 24) */ int lc, /* 0 <= lc <= 8, default = 3 */ int lp, /* 0 <= lp <= 4, default = 0 */ int pb, /* 0 <= pb <= 4, default = 2 */ int fb, /* 5 <= fb <= 273, default = 32 */ int numThreads /* 1 or 2, default = 2 */ ); /* LzmaUncompress -------------- In: dest - output data destLen - output data size src - input data srcLen - input data size Out: destLen - processed output size srcLen - processed input size Returns: SZ_OK - OK SZ_ERROR_DATA - Data error SZ_ERROR_MEM - Memory allocation arror SZ_ERROR_UNSUPPORTED - Unsupported properties SZ_ERROR_INPUT_EOF - it needs more bytes in input buffer (src) */ MY_STDAPI LzmaUncompress(unsigned char *dest, size_t *destLen, const unsigned char *src, SizeT *srcLen, const unsigned char *props, size_t propsSize); #endif flwrap-1.3.5/src/lzma/LzmaEnc.h0000644000175000017500000000553212562727330013204 00000000000000/* LzmaEnc.h -- LZMA Encoder 2008-10-04 : Igor Pavlov : Public domain */ #ifndef __LZMAENC_H #define __LZMAENC_H #include "Types.h" #define LZMA_PROPS_SIZE 5 typedef struct _CLzmaEncProps { int level; /* 0 <= level <= 9 */ UInt32 dictSize; /* (1 << 12) <= dictSize <= (1 << 27) for 32-bit version (1 << 12) <= dictSize <= (1 << 30) for 64-bit version default = (1 << 24) */ int lc; /* 0 <= lc <= 8, default = 3 */ int lp; /* 0 <= lp <= 4, default = 0 */ int pb; /* 0 <= pb <= 4, default = 2 */ int algo; /* 0 - fast, 1 - normal, default = 1 */ int fb; /* 5 <= fb <= 273, default = 32 */ int btMode; /* 0 - hashChain Mode, 1 - binTree mode - normal, default = 1 */ int numHashBytes; /* 2, 3 or 4, default = 4 */ UInt32 mc; /* 1 <= mc <= (1 << 30), default = 32 */ unsigned writeEndMark; /* 0 - do not write EOPM, 1 - write EOPM, default = 0 */ int numThreads; /* 1 or 2, default = 2 */ } CLzmaEncProps; void LzmaEncProps_Init(CLzmaEncProps *p); void LzmaEncProps_Normalize(CLzmaEncProps *p); UInt32 LzmaEncProps_GetDictSize(const CLzmaEncProps *props2); /* ---------- CLzmaEncHandle Interface ---------- */ /* LzmaEnc_* functions can return the following exit codes: Returns: SZ_OK - OK SZ_ERROR_MEM - Memory allocation error SZ_ERROR_PARAM - Incorrect paramater in props SZ_ERROR_WRITE - Write callback error. SZ_ERROR_PROGRESS - some break from progress callback SZ_ERROR_THREAD - errors in multithreading functions (only for Mt version) */ typedef void * CLzmaEncHandle; CLzmaEncHandle LzmaEnc_Create(ISzAlloc *alloc); void LzmaEnc_Destroy(CLzmaEncHandle p, ISzAlloc *alloc, ISzAlloc *allocBig); SRes LzmaEnc_SetProps(CLzmaEncHandle p, const CLzmaEncProps *props); SRes LzmaEnc_WriteProperties(CLzmaEncHandle p, Byte *properties, SizeT *size); SRes LzmaEnc_Encode(CLzmaEncHandle p, ISeqOutStream *outStream, ISeqInStream *inStream, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig); SRes LzmaEnc_MemEncode(CLzmaEncHandle p, Byte *dest, SizeT *destLen, const Byte *src, SizeT srcLen, int writeEndMark, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig); /* ---------- One Call Interface ---------- */ /* LzmaEncode Return code: SZ_OK - OK SZ_ERROR_MEM - Memory allocation error SZ_ERROR_PARAM - Incorrect paramater SZ_ERROR_OUTPUT_EOF - output buffer overflow SZ_ERROR_THREAD - errors in multithreading functions (only for Mt version) */ SRes LzmaEncode(Byte *dest, SizeT *destLen, const Byte *src, SizeT srcLen, const CLzmaEncProps *props, Byte *propsEncoded, SizeT *propsSize, int writeEndMark, ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig); #endif flwrap-1.3.5/src/lzma/LzmaDec.c0000644000175000017500000006737612562727330013203 00000000000000/* LzmaDec.c -- LZMA Decoder 2008-11-06 : Igor Pavlov : Public domain */ #include "LzmaDec.h" #include #define kNumTopBits 24 #define kTopValue ((UInt32)1 << kNumTopBits) #define kNumBitModelTotalBits 11 #define kBitModelTotal (1 << kNumBitModelTotalBits) #define kNumMoveBits 5 #define RC_INIT_SIZE 5 #define NORMALIZE if (range < kTopValue) { range <<= 8; code = (code << 8) | (*buf++); } #define IF_BIT_0(p) ttt = *(p); NORMALIZE; bound = (range >> kNumBitModelTotalBits) * ttt; if (code < bound) #define UPDATE_0(p) range = bound; *(p) = (CLzmaProb)(ttt + ((kBitModelTotal - ttt) >> kNumMoveBits)); #define UPDATE_1(p) range -= bound; code -= bound; *(p) = (CLzmaProb)(ttt - (ttt >> kNumMoveBits)); #define GET_BIT2(p, i, A0, A1) IF_BIT_0(p) \ { UPDATE_0(p); i = (i + i); A0; } else \ { UPDATE_1(p); i = (i + i) + 1; A1; } #define GET_BIT(p, i) GET_BIT2(p, i, ; , ;) #define TREE_GET_BIT(probs, i) { GET_BIT((probs + i), i); } #define TREE_DECODE(probs, limit, i) \ { i = 1; do { TREE_GET_BIT(probs, i); } while (i < limit); i -= limit; } /* #define _LZMA_SIZE_OPT */ #ifdef _LZMA_SIZE_OPT #define TREE_6_DECODE(probs, i) TREE_DECODE(probs, (1 << 6), i) #else #define TREE_6_DECODE(probs, i) \ { i = 1; \ TREE_GET_BIT(probs, i); \ TREE_GET_BIT(probs, i); \ TREE_GET_BIT(probs, i); \ TREE_GET_BIT(probs, i); \ TREE_GET_BIT(probs, i); \ TREE_GET_BIT(probs, i); \ i -= 0x40; } #endif #define NORMALIZE_CHECK if (range < kTopValue) { if (buf >= bufLimit) return DUMMY_ERROR; range <<= 8; code = (code << 8) | (*buf++); } #define IF_BIT_0_CHECK(p) ttt = *(p); NORMALIZE_CHECK; bound = (range >> kNumBitModelTotalBits) * ttt; if (code < bound) #define UPDATE_0_CHECK range = bound; #define UPDATE_1_CHECK range -= bound; code -= bound; #define GET_BIT2_CHECK(p, i, A0, A1) IF_BIT_0_CHECK(p) \ { UPDATE_0_CHECK; i = (i + i); A0; } else \ { UPDATE_1_CHECK; i = (i + i) + 1; A1; } #define GET_BIT_CHECK(p, i) GET_BIT2_CHECK(p, i, ; , ;) #define TREE_DECODE_CHECK(probs, limit, i) \ { i = 1; do { GET_BIT_CHECK(probs + i, i) } while (i < limit); i -= limit; } #define kNumPosBitsMax 4 #define kNumPosStatesMax (1 << kNumPosBitsMax) #define kLenNumLowBits 3 #define kLenNumLowSymbols (1 << kLenNumLowBits) #define kLenNumMidBits 3 #define kLenNumMidSymbols (1 << kLenNumMidBits) #define kLenNumHighBits 8 #define kLenNumHighSymbols (1 << kLenNumHighBits) #define LenChoice 0 #define LenChoice2 (LenChoice + 1) #define LenLow (LenChoice2 + 1) #define LenMid (LenLow + (kNumPosStatesMax << kLenNumLowBits)) #define LenHigh (LenMid + (kNumPosStatesMax << kLenNumMidBits)) #define kNumLenProbs (LenHigh + kLenNumHighSymbols) #define kNumStates 12 #define kNumLitStates 7 #define kStartPosModelIndex 4 #define kEndPosModelIndex 14 #define kNumFullDistances (1 << (kEndPosModelIndex >> 1)) #define kNumPosSlotBits 6 #define kNumLenToPosStates 4 #define kNumAlignBits 4 #define kAlignTableSize (1 << kNumAlignBits) #define kMatchMinLen 2 #define kMatchSpecLenStart (kMatchMinLen + kLenNumLowSymbols + kLenNumMidSymbols + kLenNumHighSymbols) #define IsMatch 0 #define IsRep (IsMatch + (kNumStates << kNumPosBitsMax)) #define IsRepG0 (IsRep + kNumStates) #define IsRepG1 (IsRepG0 + kNumStates) #define IsRepG2 (IsRepG1 + kNumStates) #define IsRep0Long (IsRepG2 + kNumStates) #define PosSlot (IsRep0Long + (kNumStates << kNumPosBitsMax)) #define SpecPos (PosSlot + (kNumLenToPosStates << kNumPosSlotBits)) #define Align (SpecPos + kNumFullDistances - kEndPosModelIndex) #define LenCoder (Align + kAlignTableSize) #define RepLenCoder (LenCoder + kNumLenProbs) #define Literal (RepLenCoder + kNumLenProbs) #define LZMA_BASE_SIZE 1846 #define LZMA_LIT_SIZE 768 #define LzmaProps_GetNumProbs(p) ((UInt32)LZMA_BASE_SIZE + (LZMA_LIT_SIZE << ((p)->lc + (p)->lp))) #if Literal != LZMA_BASE_SIZE StopCompilingDueBUG #endif static const Byte kLiteralNextStates[kNumStates * 2] = { 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 4, 5, 7, 7, 7, 7, 7, 7, 7, 10, 10, 10, 10, 10 }; #define LZMA_DIC_MIN (1 << 12) /* First LZMA-symbol is always decoded. And it decodes new LZMA-symbols while (buf < bufLimit), but "buf" is without last normalization Out: Result: SZ_OK - OK SZ_ERROR_DATA - Error p->remainLen: < kMatchSpecLenStart : normal remain = kMatchSpecLenStart : finished = kMatchSpecLenStart + 1 : Flush marker = kMatchSpecLenStart + 2 : State Init Marker */ static int MY_FAST_CALL LzmaDec_DecodeReal(CLzmaDec *p, SizeT limit, const Byte *bufLimit) { CLzmaProb *probs = p->probs; unsigned state = p->state; UInt32 rep0 = p->reps[0], rep1 = p->reps[1], rep2 = p->reps[2], rep3 = p->reps[3]; unsigned pbMask = ((unsigned)1 << (p->prop.pb)) - 1; unsigned lpMask = ((unsigned)1 << (p->prop.lp)) - 1; unsigned lc = p->prop.lc; Byte *dic = p->dic; SizeT dicBufSize = p->dicBufSize; SizeT dicPos = p->dicPos; UInt32 processedPos = p->processedPos; UInt32 checkDicSize = p->checkDicSize; unsigned len = 0; const Byte *buf = p->buf; UInt32 range = p->range; UInt32 code = p->code; do { CLzmaProb *prob; UInt32 bound; unsigned ttt; unsigned posState = processedPos & pbMask; prob = probs + IsMatch + (state << kNumPosBitsMax) + posState; IF_BIT_0(prob) { unsigned symbol; UPDATE_0(prob); prob = probs + Literal; if (checkDicSize != 0 || processedPos != 0) prob += (LZMA_LIT_SIZE * (((processedPos & lpMask) << lc) + (dic[(dicPos == 0 ? dicBufSize : dicPos) - 1] >> (8 - lc)))); if (state < kNumLitStates) { symbol = 1; do { GET_BIT(prob + symbol, symbol) } while (symbol < 0x100); } else { unsigned matchByte = p->dic[(dicPos - rep0) + ((dicPos < rep0) ? dicBufSize : 0)]; unsigned offs = 0x100; symbol = 1; do { unsigned bit; CLzmaProb *probLit; matchByte <<= 1; bit = (matchByte & offs); probLit = prob + offs + bit + symbol; GET_BIT2(probLit, symbol, offs &= ~bit, offs &= bit) } while (symbol < 0x100); } dic[dicPos++] = (Byte)symbol; processedPos++; state = kLiteralNextStates[state]; /* if (state < 4) state = 0; else if (state < 10) state -= 3; else state -= 6; */ continue; } else { UPDATE_1(prob); prob = probs + IsRep + state; IF_BIT_0(prob) { UPDATE_0(prob); state += kNumStates; prob = probs + LenCoder; } else { UPDATE_1(prob); if (checkDicSize == 0 && processedPos == 0) return SZ_ERROR_DATA; prob = probs + IsRepG0 + state; IF_BIT_0(prob) { UPDATE_0(prob); prob = probs + IsRep0Long + (state << kNumPosBitsMax) + posState; IF_BIT_0(prob) { UPDATE_0(prob); dic[dicPos] = dic[(dicPos - rep0) + ((dicPos < rep0) ? dicBufSize : 0)]; dicPos++; processedPos++; state = state < kNumLitStates ? 9 : 11; continue; } UPDATE_1(prob); } else { UInt32 distance; UPDATE_1(prob); prob = probs + IsRepG1 + state; IF_BIT_0(prob) { UPDATE_0(prob); distance = rep1; } else { UPDATE_1(prob); prob = probs + IsRepG2 + state; IF_BIT_0(prob) { UPDATE_0(prob); distance = rep2; } else { UPDATE_1(prob); distance = rep3; rep3 = rep2; } rep2 = rep1; } rep1 = rep0; rep0 = distance; } state = state < kNumLitStates ? 8 : 11; prob = probs + RepLenCoder; } { unsigned limit, offset; CLzmaProb *probLen = prob + LenChoice; IF_BIT_0(probLen) { UPDATE_0(probLen); probLen = prob + LenLow + (posState << kLenNumLowBits); offset = 0; limit = (1 << kLenNumLowBits); } else { UPDATE_1(probLen); probLen = prob + LenChoice2; IF_BIT_0(probLen) { UPDATE_0(probLen); probLen = prob + LenMid + (posState << kLenNumMidBits); offset = kLenNumLowSymbols; limit = (1 << kLenNumMidBits); } else { UPDATE_1(probLen); probLen = prob + LenHigh; offset = kLenNumLowSymbols + kLenNumMidSymbols; limit = (1 << kLenNumHighBits); } } TREE_DECODE(probLen, limit, len); len += offset; } if (state >= kNumStates) { UInt32 distance; prob = probs + PosSlot + ((len < kNumLenToPosStates ? len : kNumLenToPosStates - 1) << kNumPosSlotBits); TREE_6_DECODE(prob, distance); if (distance >= kStartPosModelIndex) { unsigned posSlot = (unsigned)distance; int numDirectBits = (int)(((distance >> 1) - 1)); distance = (2 | (distance & 1)); if (posSlot < kEndPosModelIndex) { distance <<= numDirectBits; prob = probs + SpecPos + distance - posSlot - 1; { UInt32 mask = 1; unsigned i = 1; do { GET_BIT2(prob + i, i, ; , distance |= mask); mask <<= 1; } while (--numDirectBits != 0); } } else { numDirectBits -= kNumAlignBits; do { NORMALIZE range >>= 1; { UInt32 t; code -= range; t = (0 - ((UInt32)code >> 31)); /* (UInt32)((Int32)code >> 31) */ distance = (distance << 1) + (t + 1); code += range & t; } /* distance <<= 1; if (code >= range) { code -= range; distance |= 1; } */ } while (--numDirectBits != 0); prob = probs + Align; distance <<= kNumAlignBits; { unsigned i = 1; GET_BIT2(prob + i, i, ; , distance |= 1); GET_BIT2(prob + i, i, ; , distance |= 2); GET_BIT2(prob + i, i, ; , distance |= 4); GET_BIT2(prob + i, i, ; , distance |= 8); } if (distance == (UInt32)0xFFFFFFFF) { len += kMatchSpecLenStart; state -= kNumStates; break; } } } rep3 = rep2; rep2 = rep1; rep1 = rep0; rep0 = distance + 1; if (checkDicSize == 0) { if (distance >= processedPos) return SZ_ERROR_DATA; } else if (distance >= checkDicSize) return SZ_ERROR_DATA; state = (state < kNumStates + kNumLitStates) ? kNumLitStates : kNumLitStates + 3; /* state = kLiteralNextStates[state]; */ } len += kMatchMinLen; if (limit == dicPos) return SZ_ERROR_DATA; { SizeT rem = limit - dicPos; unsigned curLen = ((rem < len) ? (unsigned)rem : len); SizeT pos = (dicPos - rep0) + ((dicPos < rep0) ? dicBufSize : 0); processedPos += curLen; len -= curLen; if (pos + curLen <= dicBufSize) { Byte *dest = dic + dicPos; ptrdiff_t src = (ptrdiff_t)pos - (ptrdiff_t)dicPos; const Byte *lim = dest + curLen; dicPos += curLen; do *(dest) = (Byte)*(dest + src); while (++dest != lim); } else { do { dic[dicPos++] = dic[pos]; if (++pos == dicBufSize) pos = 0; } while (--curLen != 0); } } } } while (dicPos < limit && buf < bufLimit); NORMALIZE; p->buf = buf; p->range = range; p->code = code; p->remainLen = len; p->dicPos = dicPos; p->processedPos = processedPos; p->reps[0] = rep0; p->reps[1] = rep1; p->reps[2] = rep2; p->reps[3] = rep3; p->state = state; return SZ_OK; } static void MY_FAST_CALL LzmaDec_WriteRem(CLzmaDec *p, SizeT limit) { if (p->remainLen != 0 && p->remainLen < kMatchSpecLenStart) { Byte *dic = p->dic; SizeT dicPos = p->dicPos; SizeT dicBufSize = p->dicBufSize; unsigned len = p->remainLen; UInt32 rep0 = p->reps[0]; if (limit - dicPos < len) len = (unsigned)(limit - dicPos); if (p->checkDicSize == 0 && p->prop.dicSize - p->processedPos <= len) p->checkDicSize = p->prop.dicSize; p->processedPos += len; p->remainLen -= len; while (len-- != 0) { dic[dicPos] = dic[(dicPos - rep0) + ((dicPos < rep0) ? dicBufSize : 0)]; dicPos++; } p->dicPos = dicPos; } } static int MY_FAST_CALL LzmaDec_DecodeReal2(CLzmaDec *p, SizeT limit, const Byte *bufLimit) { do { SizeT limit2 = limit; if (p->checkDicSize == 0) { UInt32 rem = p->prop.dicSize - p->processedPos; if (limit - p->dicPos > rem) limit2 = p->dicPos + rem; } RINOK(LzmaDec_DecodeReal(p, limit2, bufLimit)); if (p->processedPos >= p->prop.dicSize) p->checkDicSize = p->prop.dicSize; LzmaDec_WriteRem(p, limit); } while (p->dicPos < limit && p->buf < bufLimit && p->remainLen < kMatchSpecLenStart); if (p->remainLen > kMatchSpecLenStart) { p->remainLen = kMatchSpecLenStart; } return 0; } typedef enum { DUMMY_ERROR, /* unexpected end of input stream */ DUMMY_LIT, DUMMY_MATCH, DUMMY_REP } ELzmaDummy; static ELzmaDummy LzmaDec_TryDummy(const CLzmaDec *p, const Byte *buf, SizeT inSize) { UInt32 range = p->range; UInt32 code = p->code; const Byte *bufLimit = buf + inSize; CLzmaProb *probs = p->probs; unsigned state = p->state; ELzmaDummy res; { CLzmaProb *prob; UInt32 bound; unsigned ttt; unsigned posState = (p->processedPos) & ((1 << p->prop.pb) - 1); prob = probs + IsMatch + (state << kNumPosBitsMax) + posState; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK /* if (bufLimit - buf >= 7) return DUMMY_LIT; */ prob = probs + Literal; if (p->checkDicSize != 0 || p->processedPos != 0) prob += (LZMA_LIT_SIZE * ((((p->processedPos) & ((1 << (p->prop.lp)) - 1)) << p->prop.lc) + (p->dic[(p->dicPos == 0 ? p->dicBufSize : p->dicPos) - 1] >> (8 - p->prop.lc)))); if (state < kNumLitStates) { unsigned symbol = 1; do { GET_BIT_CHECK(prob + symbol, symbol) } while (symbol < 0x100); } else { unsigned matchByte = p->dic[p->dicPos - p->reps[0] + ((p->dicPos < p->reps[0]) ? p->dicBufSize : 0)]; unsigned offs = 0x100; unsigned symbol = 1; do { unsigned bit; CLzmaProb *probLit; matchByte <<= 1; bit = (matchByte & offs); probLit = prob + offs + bit + symbol; GET_BIT2_CHECK(probLit, symbol, offs &= ~bit, offs &= bit) } while (symbol < 0x100); } res = DUMMY_LIT; } else { unsigned len; UPDATE_1_CHECK; prob = probs + IsRep + state; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK; state = 0; prob = probs + LenCoder; res = DUMMY_MATCH; } else { UPDATE_1_CHECK; res = DUMMY_REP; prob = probs + IsRepG0 + state; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK; prob = probs + IsRep0Long + (state << kNumPosBitsMax) + posState; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK; NORMALIZE_CHECK; return DUMMY_REP; } else { UPDATE_1_CHECK; } } else { UPDATE_1_CHECK; prob = probs + IsRepG1 + state; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK; } else { UPDATE_1_CHECK; prob = probs + IsRepG2 + state; IF_BIT_0_CHECK(prob) { UPDATE_0_CHECK; } else { UPDATE_1_CHECK; } } } state = kNumStates; prob = probs + RepLenCoder; } { unsigned limit, offset; CLzmaProb *probLen = prob + LenChoice; IF_BIT_0_CHECK(probLen) { UPDATE_0_CHECK; probLen = prob + LenLow + (posState << kLenNumLowBits); offset = 0; limit = 1 << kLenNumLowBits; } else { UPDATE_1_CHECK; probLen = prob + LenChoice2; IF_BIT_0_CHECK(probLen) { UPDATE_0_CHECK; probLen = prob + LenMid + (posState << kLenNumMidBits); offset = kLenNumLowSymbols; limit = 1 << kLenNumMidBits; } else { UPDATE_1_CHECK; probLen = prob + LenHigh; offset = kLenNumLowSymbols + kLenNumMidSymbols; limit = 1 << kLenNumHighBits; } } TREE_DECODE_CHECK(probLen, limit, len); len += offset; } if (state < 4) { unsigned posSlot; prob = probs + PosSlot + ((len < kNumLenToPosStates ? len : kNumLenToPosStates - 1) << kNumPosSlotBits); TREE_DECODE_CHECK(prob, 1 << kNumPosSlotBits, posSlot); if (posSlot >= kStartPosModelIndex) { int numDirectBits = ((posSlot >> 1) - 1); /* if (bufLimit - buf >= 8) return DUMMY_MATCH; */ if (posSlot < kEndPosModelIndex) { prob = probs + SpecPos + ((2 | (posSlot & 1)) << numDirectBits) - posSlot - 1; } else { numDirectBits -= kNumAlignBits; do { NORMALIZE_CHECK range >>= 1; code -= range & (((code - range) >> 31) - 1); /* if (code >= range) code -= range; */ } while (--numDirectBits != 0); prob = probs + Align; numDirectBits = kNumAlignBits; } { unsigned i = 1; do { GET_BIT_CHECK(prob + i, i); } while (--numDirectBits != 0); } } } } } NORMALIZE_CHECK; return res; } static void LzmaDec_InitRc(CLzmaDec *p, const Byte *data) { p->code = ((UInt32)data[1] << 24) | ((UInt32)data[2] << 16) | ((UInt32)data[3] << 8) | ((UInt32)data[4]); p->range = 0xFFFFFFFF; p->needFlush = 0; } void LzmaDec_InitDicAndState(CLzmaDec *p, int initDic, int initState) { p->needFlush = 1; p->remainLen = 0; p->tempBufSize = 0; if (initDic) { p->processedPos = 0; p->checkDicSize = 0; p->needInitState = 1; } if (initState) p->needInitState = 1; } void LzmaDec_Init(CLzmaDec *p) { p->dicPos = 0; LzmaDec_InitDicAndState(p, True, True); } static void LzmaDec_InitStateReal(CLzmaDec *p) { UInt32 numProbs = Literal + ((UInt32)LZMA_LIT_SIZE << (p->prop.lc + p->prop.lp)); UInt32 i; CLzmaProb *probs = p->probs; for (i = 0; i < numProbs; i++) probs[i] = kBitModelTotal >> 1; p->reps[0] = p->reps[1] = p->reps[2] = p->reps[3] = 1; p->state = 0; p->needInitState = 0; } SRes LzmaDec_DecodeToDic(CLzmaDec *p, SizeT dicLimit, const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status) { SizeT inSize = *srcLen; (*srcLen) = 0; LzmaDec_WriteRem(p, dicLimit); *status = LZMA_STATUS_NOT_SPECIFIED; while (p->remainLen != kMatchSpecLenStart) { int checkEndMarkNow; if (p->needFlush != 0) { for (; inSize > 0 && p->tempBufSize < RC_INIT_SIZE; (*srcLen)++, inSize--) p->tempBuf[p->tempBufSize++] = *src++; if (p->tempBufSize < RC_INIT_SIZE) { *status = LZMA_STATUS_NEEDS_MORE_INPUT; return SZ_OK; } if (p->tempBuf[0] != 0) return SZ_ERROR_DATA; LzmaDec_InitRc(p, p->tempBuf); p->tempBufSize = 0; } checkEndMarkNow = 0; if (p->dicPos >= dicLimit) { if (p->remainLen == 0 && p->code == 0) { *status = LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK; return SZ_OK; } if (finishMode == LZMA_FINISH_ANY) { *status = LZMA_STATUS_NOT_FINISHED; return SZ_OK; } if (p->remainLen != 0) { *status = LZMA_STATUS_NOT_FINISHED; return SZ_ERROR_DATA; } checkEndMarkNow = 1; } if (p->needInitState) LzmaDec_InitStateReal(p); if (p->tempBufSize == 0) { SizeT processed; const Byte *bufLimit; if (inSize < LZMA_REQUIRED_INPUT_MAX || checkEndMarkNow) { int dummyRes = LzmaDec_TryDummy(p, src, inSize); if (dummyRes == DUMMY_ERROR) { memcpy(p->tempBuf, src, inSize); p->tempBufSize = (unsigned)inSize; (*srcLen) += inSize; *status = LZMA_STATUS_NEEDS_MORE_INPUT; return SZ_OK; } if (checkEndMarkNow && dummyRes != DUMMY_MATCH) { *status = LZMA_STATUS_NOT_FINISHED; return SZ_ERROR_DATA; } bufLimit = src; } else bufLimit = src + inSize - LZMA_REQUIRED_INPUT_MAX; p->buf = src; if (LzmaDec_DecodeReal2(p, dicLimit, bufLimit) != 0) return SZ_ERROR_DATA; processed = (SizeT)(p->buf - src); (*srcLen) += processed; src += processed; inSize -= processed; } else { unsigned rem = p->tempBufSize, lookAhead = 0; while (rem < LZMA_REQUIRED_INPUT_MAX && lookAhead < inSize) p->tempBuf[rem++] = src[lookAhead++]; p->tempBufSize = rem; if (rem < LZMA_REQUIRED_INPUT_MAX || checkEndMarkNow) { int dummyRes = LzmaDec_TryDummy(p, p->tempBuf, rem); if (dummyRes == DUMMY_ERROR) { (*srcLen) += lookAhead; *status = LZMA_STATUS_NEEDS_MORE_INPUT; return SZ_OK; } if (checkEndMarkNow && dummyRes != DUMMY_MATCH) { *status = LZMA_STATUS_NOT_FINISHED; return SZ_ERROR_DATA; } } p->buf = p->tempBuf; if (LzmaDec_DecodeReal2(p, dicLimit, p->buf) != 0) return SZ_ERROR_DATA; lookAhead -= (rem - (unsigned)(p->buf - p->tempBuf)); (*srcLen) += lookAhead; src += lookAhead; inSize -= lookAhead; p->tempBufSize = 0; } } if (p->code == 0) *status = LZMA_STATUS_FINISHED_WITH_MARK; return (p->code == 0) ? SZ_OK : SZ_ERROR_DATA; } SRes LzmaDec_DecodeToBuf(CLzmaDec *p, Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status) { SizeT outSize = *destLen; SizeT inSize = *srcLen; *srcLen = *destLen = 0; for (;;) { SizeT inSizeCur = inSize, outSizeCur, dicPos; ELzmaFinishMode curFinishMode; SRes res; if (p->dicPos == p->dicBufSize) p->dicPos = 0; dicPos = p->dicPos; if (outSize > p->dicBufSize - dicPos) { outSizeCur = p->dicBufSize; curFinishMode = LZMA_FINISH_ANY; } else { outSizeCur = dicPos + outSize; curFinishMode = finishMode; } res = LzmaDec_DecodeToDic(p, outSizeCur, src, &inSizeCur, curFinishMode, status); src += inSizeCur; inSize -= inSizeCur; *srcLen += inSizeCur; outSizeCur = p->dicPos - dicPos; memcpy(dest, p->dic + dicPos, outSizeCur); dest += outSizeCur; outSize -= outSizeCur; *destLen += outSizeCur; if (res != 0) return res; if (outSizeCur == 0 || outSize == 0) return SZ_OK; } } void LzmaDec_FreeProbs(CLzmaDec *p, ISzAlloc *alloc) { alloc->Free(alloc, p->probs); p->probs = 0; } static void LzmaDec_FreeDict(CLzmaDec *p, ISzAlloc *alloc) { alloc->Free(alloc, p->dic); p->dic = 0; } void LzmaDec_Free(CLzmaDec *p, ISzAlloc *alloc) { LzmaDec_FreeProbs(p, alloc); LzmaDec_FreeDict(p, alloc); } SRes LzmaProps_Decode(CLzmaProps *p, const Byte *data, unsigned size) { UInt32 dicSize; Byte d; if (size < LZMA_PROPS_SIZE) return SZ_ERROR_UNSUPPORTED; else dicSize = data[1] | ((UInt32)data[2] << 8) | ((UInt32)data[3] << 16) | ((UInt32)data[4] << 24); if (dicSize < LZMA_DIC_MIN) dicSize = LZMA_DIC_MIN; p->dicSize = dicSize; d = data[0]; if (d >= (9 * 5 * 5)) return SZ_ERROR_UNSUPPORTED; p->lc = d % 9; d /= 9; p->pb = d / 5; p->lp = d % 5; return SZ_OK; } static SRes LzmaDec_AllocateProbs2(CLzmaDec *p, const CLzmaProps *propNew, ISzAlloc *alloc) { UInt32 numProbs = LzmaProps_GetNumProbs(propNew); if (p->probs == 0 || numProbs != p->numProbs) { LzmaDec_FreeProbs(p, alloc); p->probs = (CLzmaProb *)alloc->Alloc(alloc, numProbs * sizeof(CLzmaProb)); p->numProbs = numProbs; if (p->probs == 0) return SZ_ERROR_MEM; } return SZ_OK; } SRes LzmaDec_AllocateProbs(CLzmaDec *p, const Byte *props, unsigned propsSize, ISzAlloc *alloc) { CLzmaProps propNew; RINOK(LzmaProps_Decode(&propNew, props, propsSize)); RINOK(LzmaDec_AllocateProbs2(p, &propNew, alloc)); p->prop = propNew; return SZ_OK; } SRes LzmaDec_Allocate(CLzmaDec *p, const Byte *props, unsigned propsSize, ISzAlloc *alloc) { CLzmaProps propNew; SizeT dicBufSize; RINOK(LzmaProps_Decode(&propNew, props, propsSize)); RINOK(LzmaDec_AllocateProbs2(p, &propNew, alloc)); dicBufSize = propNew.dicSize; if (p->dic == 0 || dicBufSize != p->dicBufSize) { LzmaDec_FreeDict(p, alloc); p->dic = (Byte *)alloc->Alloc(alloc, dicBufSize); if (p->dic == 0) { LzmaDec_FreeProbs(p, alloc); return SZ_ERROR_MEM; } } p->dicBufSize = dicBufSize; p->prop = propNew; return SZ_OK; } SRes LzmaDecode(Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen, const Byte *propData, unsigned propSize, ELzmaFinishMode finishMode, ELzmaStatus *status, ISzAlloc *alloc) { CLzmaDec p; SRes res; SizeT inSize = *srcLen; SizeT outSize = *destLen; *srcLen = *destLen = 0; if (inSize < RC_INIT_SIZE) return SZ_ERROR_INPUT_EOF; LzmaDec_Construct(&p); res = LzmaDec_AllocateProbs(&p, propData, propSize, alloc); if (res != 0) return res; p.dic = dest; p.dicBufSize = outSize; LzmaDec_Init(&p); *srcLen = inSize; res = LzmaDec_DecodeToDic(&p, outSize, src, srcLen, finishMode, status); if (res == SZ_OK && *status == LZMA_STATUS_NEEDS_MORE_INPUT) res = SZ_ERROR_INPUT_EOF; (*destLen) = p.dicPos; LzmaDec_FreeProbs(&p, alloc); return res; } flwrap-1.3.5/src/lzma/LzHash.h0000644000175000017500000000374012562727330013043 00000000000000/* LzHash.h -- HASH functions for LZ algorithms 2008-10-04 : Igor Pavlov : Public domain */ #ifndef __LZHASH_H #define __LZHASH_H #define kHash2Size (1 << 10) #define kHash3Size (1 << 16) #define kHash4Size (1 << 20) #define kFix3HashSize (kHash2Size) #define kFix4HashSize (kHash2Size + kHash3Size) #define kFix5HashSize (kHash2Size + kHash3Size + kHash4Size) #define HASH2_CALC hashValue = cur[0] | ((UInt32)cur[1] << 8); #define HASH3_CALC { \ UInt32 temp = p->crc[cur[0]] ^ cur[1]; \ hash2Value = temp & (kHash2Size - 1); \ hashValue = (temp ^ ((UInt32)cur[2] << 8)) & p->hashMask; } #define HASH4_CALC { \ UInt32 temp = p->crc[cur[0]] ^ cur[1]; \ hash2Value = temp & (kHash2Size - 1); \ hash3Value = (temp ^ ((UInt32)cur[2] << 8)) & (kHash3Size - 1); \ hashValue = (temp ^ ((UInt32)cur[2] << 8) ^ (p->crc[cur[3]] << 5)) & p->hashMask; } #define HASH5_CALC { \ UInt32 temp = p->crc[cur[0]] ^ cur[1]; \ hash2Value = temp & (kHash2Size - 1); \ hash3Value = (temp ^ ((UInt32)cur[2] << 8)) & (kHash3Size - 1); \ hash4Value = (temp ^ ((UInt32)cur[2] << 8) ^ (p->crc[cur[3]] << 5)); \ hashValue = (hash4Value ^ (p->crc[cur[4]] << 3)) & p->hashMask; \ hash4Value &= (kHash4Size - 1); } /* #define HASH_ZIP_CALC hashValue = ((cur[0] | ((UInt32)cur[1] << 8)) ^ p->crc[cur[2]]) & 0xFFFF; */ #define HASH_ZIP_CALC hashValue = ((cur[2] | ((UInt32)cur[0] << 8)) ^ p->crc[cur[1]]) & 0xFFFF; #define MT_HASH2_CALC \ hash2Value = (p->crc[cur[0]] ^ cur[1]) & (kHash2Size - 1); #define MT_HASH3_CALC { \ UInt32 temp = p->crc[cur[0]] ^ cur[1]; \ hash2Value = temp & (kHash2Size - 1); \ hash3Value = (temp ^ ((UInt32)cur[2] << 8)) & (kHash3Size - 1); } #define MT_HASH4_CALC { \ UInt32 temp = p->crc[cur[0]] ^ cur[1]; \ hash2Value = temp & (kHash2Size - 1); \ hash3Value = (temp ^ ((UInt32)cur[2] << 8)) & (kHash3Size - 1); \ hash4Value = (temp ^ ((UInt32)cur[2] << 8) ^ (p->crc[cur[3]] << 5)) & (kHash4Size - 1); } #endif flwrap-1.3.5/src/lzma/LzFind.h0000644000175000017500000000637712562727330013051 00000000000000/* LzFind.h -- Match finder for LZ algorithms 2008-10-04 : Igor Pavlov : Public domain */ #ifndef __LZFIND_H #define __LZFIND_H #include "Types.h" typedef UInt32 CLzRef; typedef struct _CMatchFinder { Byte *buffer; UInt32 pos; UInt32 posLimit; UInt32 streamPos; UInt32 lenLimit; UInt32 cyclicBufferPos; UInt32 cyclicBufferSize; /* it must be = (historySize + 1) */ UInt32 matchMaxLen; CLzRef *hash; CLzRef *son; UInt32 hashMask; UInt32 cutValue; Byte *bufferBase; ISeqInStream *stream; int streamEndWasReached; UInt32 blockSize; UInt32 keepSizeBefore; UInt32 keepSizeAfter; UInt32 numHashBytes; int directInput; int btMode; /* int skipModeBits; */ int bigHash; UInt32 historySize; UInt32 fixedHashSize; UInt32 hashSizeSum; UInt32 numSons; SRes result; UInt32 crc[256]; } CMatchFinder; #define Inline_MatchFinder_GetPointerToCurrentPos(p) ((p)->buffer) #define Inline_MatchFinder_GetIndexByte(p, index) ((p)->buffer[(Int32)(index)]) #define Inline_MatchFinder_GetNumAvailableBytes(p) ((p)->streamPos - (p)->pos) int MatchFinder_NeedMove(CMatchFinder *p); Byte *MatchFinder_GetPointerToCurrentPos(CMatchFinder *p); void MatchFinder_MoveBlock(CMatchFinder *p); void MatchFinder_ReadIfRequired(CMatchFinder *p); void MatchFinder_Construct(CMatchFinder *p); /* Conditions: historySize <= 3 GB keepAddBufferBefore + matchMaxLen + keepAddBufferAfter < 511MB */ int MatchFinder_Create(CMatchFinder *p, UInt32 historySize, UInt32 keepAddBufferBefore, UInt32 matchMaxLen, UInt32 keepAddBufferAfter, ISzAlloc *alloc); void MatchFinder_Free(CMatchFinder *p, ISzAlloc *alloc); void MatchFinder_Normalize3(UInt32 subValue, CLzRef *items, UInt32 numItems); void MatchFinder_ReduceOffsets(CMatchFinder *p, UInt32 subValue); UInt32 * GetMatchesSpec1(UInt32 lenLimit, UInt32 curMatch, UInt32 pos, const Byte *buffer, CLzRef *son, UInt32 _cyclicBufferPos, UInt32 _cyclicBufferSize, UInt32 _cutValue, UInt32 *distances, UInt32 maxLen); /* Conditions: Mf_GetNumAvailableBytes_Func must be called before each Mf_GetMatchLen_Func. Mf_GetPointerToCurrentPos_Func's result must be used only before any other function */ typedef void (*Mf_Init_Func)(void *object); typedef Byte (*Mf_GetIndexByte_Func)(void *object, Int32 index); typedef UInt32 (*Mf_GetNumAvailableBytes_Func)(void *object); typedef const Byte * (*Mf_GetPointerToCurrentPos_Func)(void *object); typedef UInt32 (*Mf_GetMatches_Func)(void *object, UInt32 *distances); typedef void (*Mf_Skip_Func)(void *object, UInt32); typedef struct _IMatchFinder { Mf_Init_Func Init; Mf_GetIndexByte_Func GetIndexByte; Mf_GetNumAvailableBytes_Func GetNumAvailableBytes; Mf_GetPointerToCurrentPos_Func GetPointerToCurrentPos; Mf_GetMatches_Func GetMatches; Mf_Skip_Func Skip; } IMatchFinder; void MatchFinder_CreateVTable(CMatchFinder *p, IMatchFinder *vTable); void MatchFinder_Init(CMatchFinder *p); UInt32 Bt3Zip_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances); UInt32 Hc3Zip_MatchFinder_GetMatches(CMatchFinder *p, UInt32 *distances); void Bt3Zip_MatchFinder_Skip(CMatchFinder *p, UInt32 num); 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You may copy and distribute verbatim copies of the Program's source code as you receive it, in any medium, provided that you conspicuously and appropriately publish on each copy an appropriate copyright notice and disclaimer of warranty; keep intact all the notices that refer to this License and to the absence of any warranty; and give any other recipients of the Program a copy of this License along with the Program. You may charge a fee for the physical act of transferring a copy, and you may at your option offer warranty protection in exchange for a fee. 2. 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(Exception: if the Program itself is interactive but does not normally print such an announcement, your work based on the Program is not required to print an announcement.) These requirements apply to the modified work as a whole. If identifiable sections of that work are not derived from the Program, and can be reasonably considered independent and separate works in themselves, then this License, and its terms, do not apply to those sections when you distribute them as separate works. But when you distribute the same sections as part of a whole which is a work based on the Program, the distribution of the whole must be on the terms of this License, whose permissions for other licensees extend to the entire whole, and thus to each and every part regardless of who wrote it. Thus, it is not the intent of this section to claim rights or contest your rights to work written entirely by you; rather, the intent is to exercise the right to control the distribution of derivative or collective works based on the Program. In addition, mere aggregation of another work not based on the Program with the Program (or with a work based on the Program) on a volume of a storage or distribution medium does not bring the other work under the scope of this License. 3. You may copy and distribute the Program (or a work based on it, under Section 2) in object code or executable form under the terms of Sections 1 and 2 above provided that you also do one of the following: a) Accompany it with the complete corresponding machine-readable source code, which must be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, b) Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code. (This alternative is allowed only for noncommercial distribution and only if you received the program in object code or executable form with such an offer, in accord with Subsection b above.) The source code for a work means the preferred form of the work for making modifications to it. For an executable work, complete source code means all the source code for all modules it contains, plus any associated interface definition files, plus the scripts used to control compilation and installation of the executable. However, as a special exception, the source code distributed need not include anything that is normally distributed (in either source or binary form) with the major components (compiler, kernel, and so on) of the operating system on which the executable runs, unless that component itself accompanies the executable. If distribution of executable or object code is made by offering access to copy from a designated place, then offering equivalent access to copy the source code from the same place counts as distribution of the source code, even though third parties are not compelled to copy the source along with the object code. 4. You may not copy, modify, sublicense, or distribute the Program except as expressly provided under this License. Any attempt otherwise to copy, modify, sublicense or distribute the Program is void, and will automatically terminate your rights under this License. However, parties who have received copies, or rights, from you under this License will not have their licenses terminated so long as such parties remain in full compliance. 5. You are not required to accept this License, since you have not signed it. However, nothing else grants you permission to modify or distribute the Program or its derivative works. These actions are prohibited by law if you do not accept this License. Therefore, by modifying or distributing the Program (or any work based on the Program), you indicate your acceptance of this License to do so, and all its terms and conditions for copying, distributing or modifying the Program or works based on it. 6. Each time you redistribute the Program (or any work based on the Program), the recipient automatically receives a license from the original licensor to copy, distribute or modify the Program subject to these terms and conditions. You may not impose any further restrictions on the recipients' exercise of the rights granted herein. You are not responsible for enforcing compliance by third parties to this License. 7. If, as a consequence of a court judgment or allegation of patent infringement or for any other reason (not limited to patent issues), conditions are imposed on you (whether by court order, agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot distribute so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not distribute the Program at all. For example, if a patent license would not permit royalty-free redistribution of the Program by all those who receive copies directly or indirectly through you, then the only way you could satisfy both it and this License would be to refrain entirely from distribution of the Program. If any portion of this section is held invalid or unenforceable under any particular circumstance, the balance of the section is intended to apply and the section as a whole is intended to apply in other circumstances. It is not the purpose of this section to induce you to infringe any patents or other property right claims or to contest validity of any such claims; this section has the sole purpose of protecting the integrity of the free software distribution system, which is implemented by public license practices. Many people have made generous contributions to the wide range of software distributed through that system in reliance on consistent application of that system; it is up to the author/donor to decide if he or she is willing to distribute software through any other system and a licensee cannot impose that choice. This section is intended to make thoroughly clear what is believed to be a consequence of the rest of this License. 8. If the distribution and/or use of the Program is restricted in certain countries either by patents or by copyrighted interfaces, the original copyright holder who places the Program under this License may add an explicit geographical distribution limitation excluding those countries, so that distribution is permitted only in or among countries not thus excluded. In such case, this License incorporates the limitation as if written in the body of this License. 9. The Free Software Foundation may publish revised and/or new versions of the General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. Each version is given a distinguishing version number. If the Program specifies a version number of this License which applies to it and "any later version", you have the option of following the terms and conditions either of that version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of this License, you may choose any version ever published by the Free Software Foundation. 10. If you wish to incorporate parts of the Program into other free programs whose distribution conditions are different, write to the author to ask for permission. For software which is copyrighted by the Free Software Foundation, write to the Free Software Foundation; we sometimes make exceptions for this. Our decision will be guided by the two goals of preserving the free status of all derivatives of our free software and of promoting the sharing and reuse of software generally. NO WARRANTY 11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION. 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. END OF TERMS AND CONDITIONS How to Apply These Terms to Your New Programs If you develop a new program, and you want it to be of the greatest possible use to the public, the best way to achieve this is to make it free software which everyone can redistribute and change under these terms. To do so, attach the following notices to the program. It is safest to attach them to the start of each source file to most effectively convey the exclusion of warranty; and each file should have at least the "copyright" line and a pointer to where the full notice is found. Copyright (C) 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 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 St, Fifth Floor, Boston, MA 02110-1301 USA Also add information on how to contact you by electronic and paper mail. If the program is interactive, make it output a short notice like this when it starts in an interactive mode: Gnomovision version 69, Copyright (C) year name of author Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program. You should also get your employer (if you work as a programmer) or your school, if any, to sign a "copyright disclaimer" for the program, if necessary. Here is a sample; alter the names: Yoyodyne, Inc., hereby disclaims all copyright interest in the program `Gnomovision' (which makes passes at compilers) written by James Hacker. , 1 April 1989 Ty Coon, President of Vice This General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. 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