pax_global_header00006660000000000000000000000064130274516440014520gustar00rootroot0000000000000052 comment=6db47f00c7b6902b4e74e0bdb057ffc9ccaa906a php-geos/000077500000000000000000000000001302745164400126065ustar00rootroot00000000000000php-geos/.drone.yml000066400000000000000000000013031302745164400145130ustar00rootroot00000000000000# See http://readme.drone.io/usage/overview pipeline: build: image: docker.kbt.io/php-geos/build-test:trisquel pull: true commands: - export PATH=${PHP_BIN}:${GEOS_BIN}:${PATH} - php --version # Always use newest phpize or we'll be hit by # false negatives on make check, see # https://git.osgeo.org/gogs/geos/php-geos/issues/16 - /opt/php-7.1.0/bin/phpize - ./configure - make - make check matrix: PHP_BIN: - /opt/php-5.4.9/bin/ - /opt/php-5.5.38/bin/ - /opt/php-5.6.28/bin/ - /opt/php-7.0.13/bin/ - /opt/php-7.1.0/bin/ GEOS_BIN: - /opt/geos-3.4.3/bin/ - /opt/geos-3.5.1/bin/ - /opt/geos-3.6.0/bin/ php-geos/.gitignore000066400000000000000000000015251302745164400146010ustar00rootroot00000000000000*~ *.swp *.lo *.la .deps .libs Makefile Makefile.fragments Makefile.global Makefile.objects acinclude.m4 aclocal.m4 autom4te.cache build config.cache config.guess config.h config.h.in config.log config.nice config.status config.sub configure configure.in conftest conftest.c include install-sh libtool ltmain.sh missing mkinstalldirs modules scan_makefile_in.awk *.dsw *.plg *.opt *.ncb Release Release_inline Debug Release_TS Release_TSDbg Release_TS_inline Debug_TS memcached*.tgz run-tests.php cscope.out php_memcached.loT tests/*.log tests/*.mem tests/*.out tests/*.diff tests/*.php tests/*.exp tests/*.sh tests/*/*.log tests/*/*.mem tests/*/*.out tests/*/*.diff tests/*/*.php tests/*/*.exp tests/*/*.sh tests/*/*/*.log tests/*/*/*.mem tests/*/*/*.out tests/*/*/*.diff tests/*/*/*.php tests/*/*/*.exp tests/*/*/*.sh tmp-php.ini !/docker/**/Makefile php-geos/COPYING000066400000000000000000000007351302745164400136460ustar00rootroot00000000000000 This PHP extension is covered under the following licenses: - geos.c and php_geos.h have been extracted from the GEOS library and are covered under the LGPL 2.1 are are copyright Sandro Santilli See the LGPL-2 file for details. - the remainder of the system including the "PECL-ization" of the extension are covered under the MIT license and is copyright J Smith See the MIT-LICENSE file for details. php-geos/CREDITS000066400000000000000000000001471302745164400136300ustar00rootroot00000000000000geos Sandro Santilli - GEOS J Smith - PHP packaging php-geos/LGPL-2000066400000000000000000000636421302745164400134410ustar00rootroot00000000000000 GNU LESSER GENERAL PUBLIC LICENSE Version 2.1, February 1999 Copyright (C) 1991, 1999 Free Software Foundation, Inc. 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 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Here is a sample; alter the names: Yoyodyne, Inc., hereby disclaims all copyright interest in the library `Frob' (a library for tweaking knobs) written by James Random Hacker. , 1 April 1990 Ty Coon, President of Vice That's all there is to it! php-geos/MIT-LICENSE000066400000000000000000000021261302745164400142430ustar00rootroot00000000000000Copyright (c) 2016 J Smith Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. 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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. php-geos/Makefile.frag000066400000000000000000000000711302745164400151620ustar00rootroot00000000000000 check: REPORT_EXIT_STATUS=1 NO_INTERACTION=1 make test php-geos/NEWS000066400000000000000000000001561302745164400133070ustar00rootroot000000000000001.0.0 - 20161224 First stand-alone release (previous versions were shipped as part of GEOS since 20100618) php-geos/README.md000066400000000000000000000021671302745164400140730ustar00rootroot00000000000000PHP module for GEOS =================== [![build status] (https://drone.osgeo.kbt.io/api/badges/geos/php-geos/status.svg?branch=master)] (https://drone.osgeo.kbt.io/geos/php-geos?branch=master) The code in this directory provides a PHP module to make use of functionalities of the [GEOS library] (http://geos.osgeo.org). The bindings are linked to the C-API, for betters stability. # Building ## Requirements You need: - PHP development files ( often found in packages named something like 'php5-dev' ) - GEOS development files ( often found in packages named something like 'libgeos-dev' ) ## Procedure git clone https://git.osgeo.org/gogs/geos/php-geos.git cd php-geos ./autogen.sh ./configure make # generates modules/geos.so # Testing Automated testing is executed on 'make check'. You'll need phpunit installed for this to work. To install: pear install --force --alldeps phpunit/phpunit # Installing As root (or owner with write access to the directory returned by php-config --extension-dir), run: make install # Using ... TODO ... (reference some automatically built doc?) php-geos/TODO000066400000000000000000000004701302745164400132770ustar00rootroot00000000000000In order of priority - Find a way to have GEOSGeometry contents shown on var_dump - Documentation !! (doxygen-based?) - Add interface for algorithms (Orientation Index) ? - Add interfaces for prepared geometries ? - Add interfaces for STRTree ? - Add interfaces for GEOSCoordSeq ? - Add Geometry Constructors ? php-geos/autogen.sh000077500000000000000000000000221302745164400146010ustar00rootroot00000000000000#!/bin/sh phpize php-geos/config.m4000066400000000000000000000134751302745164400143270ustar00rootroot00000000000000dnl dnl $ Id: $ dnl vim:se ts=2 sw=2 et: PHP_ARG_ENABLE(geos, whether to enable geos support, [ --enable-geos Enable geos support]) PHP_ARG_WITH(geos-config, for geos-config, [ --with-geos-config[=DIR] Use geos-config]) if test -z "$PHP_DEBUG"; then AC_ARG_ENABLE(debug, [ --enable-debug compile with debugging symbols],[ PHP_DEBUG=$enableval ],[ PHP_DEBUG=no ]) fi if test "$PHP_GEOS" != "no"; then if test "$PHP_GEOS_CONFIG" != "yes"; then if test -x "$PHP_GEOS_CONFIG"; then GEOS_CONFIG="$PHP_GEOS_CONFIG" fi else AC_PATH_PROG(GEOS_CONFIG, geos-config) fi if test -n "$GEOS_CONFIG"; then GEOS_VERSION=`$GEOS_CONFIG --version` GEOS_INCLUDE=`$GEOS_CONFIG --includes` GEOS_LDFLAGS=`$GEOS_CONFIG --ldflags` AC_MSG_RESULT([Using GEOS version $GEOS_VERSION]) AC_DEFINE(HAVE_GEOS_C_H,1,[Whether to have geos_c.h]) fi if test -z "$GEOS_INCLUDE"; then AC_MSG_ERROR(Cannot find geos_c.h. Please specify correct GEOS installation path) fi if test -z "$GEOS_LDFLAGS"; then AC_MSG_ERROR(Cannot find geos_c.so. Please specify correct GEOS installation path) fi old_CFLAGS=$CFLAGS CFLAGS="-I$GEOS_INCLUDE $CFLAGS" old_LDFLAGS=$LDFLAGS LDFLAGS="$GEOS_LDFLAGS $LDFLAGS" AC_CHECK_HEADER(geos_c.h,, AC_MSG_ERROR(Can't find GEOS includes)) AC_CHECK_LIB(geos_c, initGEOS_r,, AC_MSG_ERROR([Unable to build the GEOS: a newer libgeos is required])) AC_CHECK_LIB(geos_c, finishGEOS_r,, AC_MSG_ERROR([Unable to build the GEOS: a newer libgeos is required])) AC_CHECK_LIB(geos_c, GEOSClipByRect_r, AC_DEFINE(HAVE_GEOS_CLIP_BY_RECT,1,[Whether we have GEOSClipByRect_r])) AC_CHECK_LIB(geos_c, GEOSCoveredBy_r, AC_DEFINE(HAVE_GEOS_COVERED_BY,1,[Whether we have GEOSCoveredBy_r])) AC_CHECK_LIB(geos_c, GEOSCovers_r, AC_DEFINE(HAVE_GEOS_COVERS,1,[Whether we have GEOSCovers_r])) AC_CHECK_LIB(geos_c, GEOSDelaunayTriangulation_r, AC_DEFINE(HAVE_GEOS_DELAUNAY_TRIANGULATION,1,[Whether we have GEOSDelaunayTriangulation_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetEndPoint_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_END_POINT,1,[Whether we have GEOSGeomGetEndPoint_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetNumPoints_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_NUM_POINTS,1,[Whether we have GEOSGeomGetNumPoints_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetPointN_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_POINT_N,1,[Whether we have GEOSGeomGetPointN_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetStartPoint_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_START_POINT,1,[Whether we have GEOSGeomGetStartPoint_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetX_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_X,1,[Whether we have GEOSGeomGetX_r])) AC_CHECK_LIB(geos_c, GEOSGeomGetY_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_Y,1,[Whether we have GEOSGeomGetY_r])) AC_CHECK_LIB(geos_c, GEOSGeom_extractUniquePoints_r, AC_DEFINE(HAVE_GEOS_GEOM_EXTRACT_UNIQUE_POINTS,1,[Whether we have GEOSGeom_extractUniquePoints_r])) AC_CHECK_LIB(geos_c, GEOSGeom_getCoordinateDimension_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_COORDINATE_DIMENSION,1,[Whether we have GEOSGeom_getCoordinateDimension_r])) AC_CHECK_LIB(geos_c, GEOSNode_r, AC_DEFINE(HAVE_GEOS_NODE,1,[Whether we have GEOSNode_r])) AC_CHECK_LIB(geos_c, GEOSOffsetCurve_r, AC_DEFINE(HAVE_GEOS_OFFSET_CURVE,1,[Whether we have GEOSOffsetCurve_r])) AC_CHECK_LIB(geos_c, GEOSPolygonize_full_r, AC_DEFINE(HAVE_GEOS_POLYGONIZE_FULL,1,[Whether we have GEOSPolygonize_full_r])) AC_CHECK_LIB(geos_c, GEOSRelateBoundaryNodeRule_r, AC_DEFINE(HAVE_GEOS_RELATE_BOUNDARY_NODE_RULE,1,[Whether we have GEOSRelateBoundaryNodeRule_r])) AC_CHECK_LIB(geos_c, GEOSRelatePatternMatch_r, AC_DEFINE(HAVE_GEOS_RELATE_PATTERN_MATCH,1,[Whether we have GEOSRelatePatternMatch_r])) AC_CHECK_LIB(geos_c, GEOSSharedPaths_r, AC_DEFINE(HAVE_GEOS_SHARED_PATHS,1,[Whether we have GEOSSharedPaths_r])) AC_CHECK_LIB(geos_c, GEOSSnap_r, AC_DEFINE(HAVE_GEOS_SNAP,1,[Whether we have GEOSSnap_r])) AC_CHECK_LIB(geos_c, GEOSUnaryUnion_r, AC_DEFINE(HAVE_GEOS_UNARY_UNION,1,[Whether we have GEOSUnaryUnion_r])) AC_CHECK_LIB(geos_c, GEOSVoronoiDiagram_r, AC_DEFINE(HAVE_GEOS_VORONOI_DIAGRAM,1,[Whether we have GEOSVoronoiDiagram_r])) AC_CHECK_LIB(geos_c, GEOSisClosed_r, AC_DEFINE(HAVE_GEOS_IS_CLOSED,1,[Whether we have GEOSisClosed_r])) AC_CHECK_LIB(geos_c, GEOSisValidDetail_r, AC_DEFINE(HAVE_GEOS_IS_VALID_DETAIL,1,[Whether we have GEOSisValidDetail_r])) AC_CHECK_LIB(geos_c, GEOSGeom_setPrecision_r, AC_DEFINE(HAVE_GEOS_GEOM_SET_PRECISION,1,[Whether we have GEOSGeom_setPrecision_r])) AC_CHECK_LIB(geos_c, GEOSGeom_getPrecision_r, AC_DEFINE(HAVE_GEOS_GEOM_GET_PRECISION,1,[Whether we have GEOSGeom_getPrecision_r])) AC_CHECK_LIB(geos_c, GEOSWKTWriter_setTrim_r, AC_DEFINE(HAVE_GEOS_WKT_WRITER_SET_TRIM,1,[Whether we have GEOSWKTWriter_setTrim_r])) AC_CHECK_LIB(geos_c, GEOSWKTWriter_setRoundingPrecision_r, AC_DEFINE(HAVE_GEOS_WKT_WRITER_SET_ROUNDING_PRECISION,1,[Whether we have GEOSWKTWriter_setRoundingPrecision_r])) AC_CHECK_LIB(geos_c, GEOSWKTWriter_setOutputDimension_r, AC_DEFINE(HAVE_GEOS_WKT_WRITER_SET_OUTPUT_DIMENSION,1,[Whether we have GEOSWKTWriter_setOutputDimension_r])) AC_CHECK_LIB(geos_c, GEOSWKTWriter_getOutputDimension_r, AC_DEFINE(HAVE_GEOS_WKT_WRITER_GET_OUTPUT_DIMENSION,1,[Whether we have GEOSWKTWriter_getOutputDimension_r])) AC_CHECK_LIB(geos_c, GEOSWKTWriter_setOld3D_r, AC_DEFINE(HAVE_GEOS_WKT_WRITER_SET_OLD_3D,1,[Whether we have GEOSWKTWriter_setOld3D_r])) AC_TRY_COMPILE(geos_c.h, GEOS_PREC_NO_TOPO, AC_DEFINE(HAVE_GEOS_PREC_NO_TOPO,1,[Whether we have GEOS_PREC_NO_TOPO])) AC_TRY_COMPILE(geos_c.h, GEOS_PREC_KEEP_COLLAPSED, AC_DEFINE(HAVE_GEOS_PREC_KEEP_COLLAPSED,1,[Whether we have GEOS_PREC_KEEP_COLLAPSED])) CFLAGS=$old_CFLAGS dnl LDFLAGS=$old_LDFLAGS PHP_ADD_LIBRARY(geos_c, 1, GEOS_SHARED_LIBADD) PHP_ADD_MAKEFILE_FRAGMENT(Makefile.frag) PHP_SUBST(GEOS_SHARED_LIBADD) PHP_ADD_INCLUDE($GEOS_INCLUDE, 1) PHP_NEW_EXTENSION(geos, geos.c, $ext_shared,,) fi php-geos/docker/000077500000000000000000000000001302745164400140555ustar00rootroot00000000000000php-geos/docker/build-test/000077500000000000000000000000001302745164400161315ustar00rootroot00000000000000php-geos/docker/build-test/Dockerfile.alpine000066400000000000000000000073761302745164400214070ustar00rootroot00000000000000FROM index.docker.io/alpine:latest RUN apk add --update \ build-base \ && rm -rf /var/cache/apk/* RUN apk add --update \ curl \ && rm -rf /var/cache/apk/* RUN apk add --update \ autoconf \ && rm -rf /var/cache/apk/* # PHP-5.4.9 RUN curl -so php-5.4.9.tar.bz2 \ http://museum.php.net/php5/php-5.4.9.tar.bz2 RUN tar xjf php-5.4.9.tar.bz2 RUN cd php-5.4.9 && \ ./configure --prefix=/opt/php-5.4.9 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.4.9* RUN strip /opt/php-5.4.9/bin/php # PHP-5.5.38 RUN curl -so php-5.5.38.tar.bz2 \ http://www.php.net/distributions/php-5.5.38.tar.bz2 RUN tar xjf php-5.5.38.tar.bz2 RUN cd php-5.5.38 && \ ./configure --prefix=/opt/php-5.5.38 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.5.38* RUN strip /opt/php-5.5.38/bin/php # PHP-5.6.28 RUN curl -so php-5.6.28.tar.bz2 \ http://www.php.net/distributions/php-5.6.28.tar.bz2 RUN tar xjf php-5.6.28.tar.bz2 RUN cd php-5.6.28 && \ ./configure --prefix=/opt/php-5.6.28 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.6.28* RUN strip /opt/php-5.6.28/bin/php # PHP-7.0.13 RUN curl -so php-7.0.13.tar.bz2 \ http://www.php.net/distributions/php-7.0.13.tar.bz2 RUN tar xjf php-7.0.13.tar.bz2 RUN cd php-7.0.13 && \ ./configure --prefix=/opt/php-7.0.13 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-7.0.13* RUN rm /opt/php-7.0.13/bin/phpdbg RUN strip /opt/php-7.0.13/bin/php # PHP-7.1.0 RUN curl -so php-7.1.0.tar.bz2 \ http://www.php.net/distributions/php-7.1.0.tar.bz2 RUN tar xjf php-7.1.0.tar.bz2 RUN cd php-7.1.0 && \ ./configure --prefix=/opt/php-7.1.0 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-7.1.0* RUN rm /opt/php-7.1.0/bin/phpdbg RUN strip /opt/php-7.1.0/bin/php # GEOS-3.4.3 RUN curl -so geos-3.4.3.tar.bz2 \ http://download.osgeo.org/geos/geos-3.4.3.tar.bz2 RUN tar xjf geos-3.4.3.tar.bz2 RUN cd geos-3.4.3 && \ ./configure --prefix=/opt/geos-3.4.3 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.4.3* # GEOS-3.5.1 RUN curl -so geos-3.5.1.tar.bz2 \ http://download.osgeo.org/geos/geos-3.5.1.tar.bz2 RUN tar xjf geos-3.5.1.tar.bz2 RUN cd geos-3.5.1 && \ ./configure --prefix=/opt/geos-3.5.1 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.5.1* # GEOS-3.6.0 RUN curl -so geos-3.6.0.tar.bz2 \ http://download.osgeo.org/geos/geos-3.6.0.tar.bz2 RUN tar xjf geos-3.6.0.tar.bz2 RUN cd geos-3.6.0 && \ ./configure --prefix=/opt/geos-3.6.0 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.6.0* php-geos/docker/build-test/Dockerfile.trisquel000066400000000000000000000072121302745164400217740ustar00rootroot00000000000000FROM kpengboy/trisquel RUN apt-get update -qq && apt-get install -y \ autoconf \ build-essential \ curl # PHP-5.4.9 RUN curl -so php-5.4.9.tar.bz2 \ http://museum.php.net/php5/php-5.4.9.tar.bz2 RUN tar xjf php-5.4.9.tar.bz2 RUN cd php-5.4.9 && \ ./configure --prefix=/opt/php-5.4.9 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.4.9* RUN strip /opt/php-5.4.9/bin/php # PHP-5.5.38 RUN curl -so php-5.5.38.tar.bz2 \ http://www.php.net/distributions/php-5.5.38.tar.bz2 RUN tar xjf php-5.5.38.tar.bz2 RUN cd php-5.5.38 && \ ./configure --prefix=/opt/php-5.5.38 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.5.38* RUN strip /opt/php-5.5.38/bin/php # PHP-5.6.28 RUN curl -so php-5.6.28.tar.bz2 \ http://www.php.net/distributions/php-5.6.28.tar.bz2 RUN tar xjf php-5.6.28.tar.bz2 RUN cd php-5.6.28 && \ ./configure --prefix=/opt/php-5.6.28 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-5.6.28* RUN strip /opt/php-5.6.28/bin/php # PHP-7.0.13 RUN curl -so php-7.0.13.tar.bz2 \ http://www.php.net/distributions/php-7.0.13.tar.bz2 RUN tar xjf php-7.0.13.tar.bz2 RUN cd php-7.0.13 && \ ./configure --prefix=/opt/php-7.0.13 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-7.0.13* RUN rm /opt/php-7.0.13/bin/phpdbg RUN strip /opt/php-7.0.13/bin/php # PHP-7.1.0 RUN curl -so php-7.1.0.tar.bz2 \ http://www.php.net/distributions/php-7.1.0.tar.bz2 RUN tar xjf php-7.1.0.tar.bz2 RUN cd php-7.1.0 && \ ./configure --prefix=/opt/php-7.1.0 \ --enable-debug \ --disable-all \ --disable-cgi \ --disable-dom \ --disable-libxml \ --disable-simplexml \ --disable-xml \ --disable-xmlreader \ --disable-xmlwriter \ --without-pear && \ make install RUN cd .. && rm -rf php-7.1.0* RUN rm /opt/php-7.1.0/bin/phpdbg RUN strip /opt/php-7.1.0/bin/php # GEOS-3.4.3 RUN curl -so geos-3.4.3.tar.bz2 \ http://download.osgeo.org/geos/geos-3.4.3.tar.bz2 RUN tar xjf geos-3.4.3.tar.bz2 RUN cd geos-3.4.3 && \ ./configure --prefix=/opt/geos-3.4.3 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.4.3* # GEOS-3.5.1 RUN curl -so geos-3.5.1.tar.bz2 \ http://download.osgeo.org/geos/geos-3.5.1.tar.bz2 RUN tar xjf geos-3.5.1.tar.bz2 RUN cd geos-3.5.1 && \ ./configure --prefix=/opt/geos-3.5.1 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.5.1* # GEOS-3.6.0 RUN curl -so geos-3.6.0.tar.bz2 \ http://download.osgeo.org/geos/geos-3.6.0.tar.bz2 RUN tar xjf geos-3.6.0.tar.bz2 RUN cd geos-3.6.0 && \ ./configure --prefix=/opt/geos-3.6.0 \ --disable-swig \ --disable-static \ && make install-strip RUN cd .. && rm -rf geos-3.6.0* php-geos/docker/build-test/Makefile000066400000000000000000000006641302745164400175770ustar00rootroot00000000000000DOCKER=docker REGISTRY=docker.kbt.io NAME=$(REGISTRY)/php-geos/build-test BUILDOPTS=--build-arg http_proxy=$${http_proxy} all: alpine trisquel push: alpine-push trisquel-push alpine: $(DOCKER) build $(BUILDOPTS) -t $(NAME):alpine - < Dockerfile.alpine alpine-push: $(DOCKER) push $(NAME):alpine trisquel: $(DOCKER) build $(BUILDOPTS) -t $(NAME):trisquel - < Dockerfile.trisquel trisquel-push: $(DOCKER) push $(NAME):trisquel php-geos/geos.c000077500000000000000000002533141302745164400137220ustar00rootroot00000000000000/*********************************************************************** * * GEOS - Geometry Engine Open Source * http://trac.osgeo.org/geos * * Copyright (C) 2010 Sandro Santilli * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser 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 * ***********************************************************************/ /* PHP stuff */ #include "php.h" #include "ext/standard/info.h" /* for php_info_... */ #include "Zend/zend_exceptions.h" /* for zend_throw_exception_object */ /* GEOS stuff */ #include "geos_c.h" /* Own stuff */ #include "php_geos.h" static ZEND_DECLARE_MODULE_GLOBALS(geos); static PHP_GINIT_FUNCTION(geos); PHP_MINIT_FUNCTION(geos); PHP_MSHUTDOWN_FUNCTION(geos); PHP_RINIT_FUNCTION(geos); PHP_RSHUTDOWN_FUNCTION(geos); PHP_MINFO_FUNCTION(geos); PHP_FUNCTION(GEOSVersion); PHP_FUNCTION(GEOSPolygonize); PHP_FUNCTION(GEOSLineMerge); #ifdef HAVE_GEOS_SHARED_PATHS PHP_FUNCTION(GEOSSharedPaths); #endif #ifdef HAVE_GEOS_RELATE_PATTERN_MATCH PHP_FUNCTION(GEOSRelateMatch); #endif #if PHP_VERSION_ID < 50399 #define zend_function_entry function_entry #endif #if PHP_VERSION_ID >= 70000 # define GEOS_PHP_DTOR_OBJECT zend_object # define zend_object_value zend_object * # define zend_uint size_t # define MAKE_STD_ZVAL(x) x = emalloc(sizeof(zval)) # define GEOS_PHP_RETURN_STRING(x) { RETVAL_STRING((x)); efree((x)); return; } # define GEOS_PHP_RETURN_STRINGL(x,s) { RETVAL_STRINGL((x),(s)); efree((x)); return; } # define GEOS_PHP_ADD_ASSOC_ARRAY(a,k,v) { add_assoc_string((a), (k), (v)); efree((v)); } # define GEOS_PHP_ADD_ASSOC_ZVAL(a,k,v) { add_assoc_zval((a), (k), (v)); efree((v)); } # define GEOS_PHP_HASH_GET_CUR_KEY(s,k,i) zend_hash_get_current_key((s), (k), (i)) # define GEOS_PHP_HASH_GET_CUR_DATA(h,d) ( d = zend_hash_get_current_data((h)) ) # define GEOS_PHP_ZVAL zval * #else /* PHP_VERSION_ID < 70000 */ # define GEOS_PHP_DTOR_OBJECT void # define GEOS_PHP_RETURN_STRING(x) RETURN_STRING((x),0) # define GEOS_PHP_RETURN_STRINGL(x,s) RETURN_STRINGL((x),(s),0) # define GEOS_PHP_ADD_ASSOC_ARRAY(a,k,v) add_assoc_string((a), (k), (v), 0) # define GEOS_PHP_ADD_ASSOC_ZVAL(a,k,v) add_assoc_zval((a), (k), (v)) # define GEOS_PHP_HASH_GET_CUR_KEY(s,k,i) zend_hash_get_current_key((s), (k), (i), 0) # define zend_string char # define ZSTR_VAL(x) (x) # define GEOS_PHP_HASH_GET_CUR_DATA(h,d) zend_hash_get_current_data((h),(void**)&(d)) # define GEOS_PHP_ZVAL zval ** #endif static zend_function_entry geos_functions[] = { PHP_FE(GEOSVersion, NULL) PHP_FE(GEOSPolygonize, NULL) PHP_FE(GEOSLineMerge, NULL) # ifdef HAVE_GEOS_SHARED_PATHS PHP_FE(GEOSSharedPaths, NULL) # endif # ifdef HAVE_GEOS_RELATE_PATTERN_MATCH PHP_FE(GEOSRelateMatch, NULL) # endif {NULL, NULL, NULL} }; zend_module_entry geos_module_entry = { STANDARD_MODULE_HEADER, PHP_GEOS_EXTNAME, geos_functions, PHP_MINIT(geos), /* module init function */ PHP_MSHUTDOWN(geos), /* module shutdown function */ PHP_RINIT(geos), /* request init function */ PHP_RSHUTDOWN(geos), /* request shutdown function */ PHP_MINFO(geos), /* module info function */ PHP_GEOS_VERSION, PHP_MODULE_GLOBALS(geos), /* globals descriptor */ PHP_GINIT(geos), /* globals ctor */ NULL, /* globals dtor */ NULL, /* post deactivate */ STANDARD_MODULE_PROPERTIES_EX }; #ifdef COMPILE_DL_GEOS ZEND_GET_MODULE(geos) #endif /* -- Utility functions ---------------------- */ static void noticeHandler(const char *fmt, ...) { TSRMLS_FETCH(); char message[256]; va_list args; va_start(args, fmt); vsnprintf(message, sizeof(message) - 1, fmt, args); va_end(args); php_error_docref(NULL TSRMLS_CC, E_NOTICE, "%s", message); } static void errorHandler(const char *fmt, ...) { TSRMLS_FETCH(); char message[256]; va_list args; va_start(args, fmt); vsnprintf(message, sizeof(message) - 1, fmt, args); va_end(args); /* TODO: use a GEOSException ? */ zend_throw_exception_ex(zend_exception_get_default(TSRMLS_C), 1 TSRMLS_CC, "%s", message); } typedef struct Proxy_t { #if PHP_VERSION_ID >= 70000 int id; void* relay; zend_object std; #else zend_object std; void* relay; #endif } Proxy; #if PHP_VERSION_ID >= 70000 static inline Proxy *php_geos_fetch_object(zend_object *obj) { return (Proxy *)((char *) obj - XtOffsetOf(Proxy, std)); } # define Z_GEOS_OBJ_P(zv) (Proxy *)((char *) (Z_OBJ_P(zv)) - XtOffsetOf(Proxy, std)) #else # ifdef Z_OBJ # define Z_GEOS_OBJ_P(zv) (Proxy*)Z_OBJ(*val TSRMLS_CC) # else # define Z_GEOS_OBJ_P(zv) (Proxy*)zend_object_store_get_object(val TSRMLS_CC) # endif #endif static void setRelay(zval* val, void* obj) { TSRMLS_FETCH(); Proxy* proxy = Z_GEOS_OBJ_P(val); proxy->relay = obj; } static inline void * getRelay(zval* val, zend_class_entry* ce) { TSRMLS_FETCH(); Proxy* proxy = Z_GEOS_OBJ_P(val); if ( proxy->std.ce != ce ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "Relay object is not an %s", ce->name); } if ( ! proxy->relay ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "Relay object for object of type %s is not set", ce->name); } return proxy->relay; } static long getZvalAsLong(GEOS_PHP_ZVAL val) { long ret; zval tmp; #if PHP_VERSION_ID >= 70000 tmp = *val; #else tmp = **val; #endif zval_copy_ctor(&tmp); convert_to_long(&tmp); ret = Z_LVAL(tmp); zval_dtor(&tmp); return ret; } static long getZvalAsDouble(GEOS_PHP_ZVAL val) { double ret; zval tmp; #if PHP_VERSION_ID >= 70000 tmp = *val; #else tmp = **val; #endif zval_copy_ctor(&tmp); convert_to_double(&tmp); ret = Z_DVAL(tmp); zval_dtor(&tmp); return ret; } static zend_object_value Gen_create_obj (zend_class_entry *type, void (*dtor)(GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC), zend_object_handlers* handlers) { TSRMLS_FETCH(); #if PHP_VERSION_ID >= 70000 Proxy *obj = (Proxy *) ecalloc(1, sizeof(Proxy) + zend_object_properties_size(type)); zend_object_std_init(&obj->std, type TSRMLS_CC); object_properties_init(&obj->std, type); obj->std.handlers = handlers; /* TODO: install the destructor ? (dtor) ! */ /* TODO: do not allocate a full Proxy if we're going to use an object */ return &obj->std; #else /* PHP_VERSION_ID < 70000 */ zend_object_value retval; Proxy *obj = (Proxy *)ecalloc(1, sizeof(Proxy)); obj->std.ce = type; ALLOC_HASHTABLE(obj->std.properties); zend_hash_init(obj->std.properties, 0, NULL, ZVAL_PTR_DTOR, 0); #if PHP_VERSION_ID < 50399 zend_hash_copy(obj->std.properties, &type->default_properties, (copy_ctor_func_t)zval_add_ref, NULL, sizeof(zval *)); #else object_properties_init(&(obj->std), type); #endif retval.handle = zend_objects_store_put(obj, NULL, dtor, NULL TSRMLS_CC); retval.handlers = handlers; return retval; #endif /* PHP_VERSION_ID < 70000 */ } /* -- class GEOSGeometry -------------------- */ PHP_METHOD(Geometry, __construct); PHP_METHOD(Geometry, __toString); PHP_METHOD(Geometry, project); PHP_METHOD(Geometry, interpolate); PHP_METHOD(Geometry, buffer); #ifdef HAVE_GEOS_OFFSET_CURVE PHP_METHOD(Geometry, offsetCurve); #endif PHP_METHOD(Geometry, envelope); PHP_METHOD(Geometry, intersection); PHP_METHOD(Geometry, convexHull); PHP_METHOD(Geometry, difference); PHP_METHOD(Geometry, symDifference); PHP_METHOD(Geometry, boundary); PHP_METHOD(Geometry, union); /* also does union cascaded */ PHP_METHOD(Geometry, pointOnSurface); PHP_METHOD(Geometry, centroid); PHP_METHOD(Geometry, relate); #ifdef HAVE_GEOS_RELATE_BOUNDARY_NODE_RULE PHP_METHOD(Geometry, relateBoundaryNodeRule); #endif PHP_METHOD(Geometry, simplify); /* also does topology-preserving */ PHP_METHOD(Geometry, normalize); #ifdef HAVE_GEOS_GEOM_SET_PRECISION PHP_METHOD(Geometry, setPrecision); #endif #ifdef HAVE_GEOS_GEOM_GET_PRECISION PHP_METHOD(Geometry, getPrecision); #endif #ifdef HAVE_GEOS_GEOM_EXTRACT_UNIQUE_POINTS PHP_METHOD(Geometry, extractUniquePoints); #endif PHP_METHOD(Geometry, disjoint); PHP_METHOD(Geometry, touches); PHP_METHOD(Geometry, intersects); PHP_METHOD(Geometry, crosses); PHP_METHOD(Geometry, within); PHP_METHOD(Geometry, contains); PHP_METHOD(Geometry, overlaps); #ifdef HAVE_GEOS_COVERS PHP_METHOD(Geometry, covers); #endif #ifdef HAVE_GEOS_COVERED_BY PHP_METHOD(Geometry, coveredBy); #endif PHP_METHOD(Geometry, equals); PHP_METHOD(Geometry, equalsExact); PHP_METHOD(Geometry, isEmpty); #ifdef HAVE_GEOS_IS_VALID_DETAIL PHP_METHOD(Geometry, checkValidity); #endif PHP_METHOD(Geometry, isSimple); PHP_METHOD(Geometry, isRing); PHP_METHOD(Geometry, hasZ); #ifdef HAVE_GEOS_IS_CLOSED PHP_METHOD(Geometry, isClosed); #endif PHP_METHOD(Geometry, typeName); PHP_METHOD(Geometry, typeId); PHP_METHOD(Geometry, getSRID); PHP_METHOD(Geometry, setSRID); PHP_METHOD(Geometry, numGeometries); PHP_METHOD(Geometry, geometryN); PHP_METHOD(Geometry, numInteriorRings); #ifdef HAVE_GEOS_GEOM_GET_NUM_POINTS PHP_METHOD(Geometry, numPoints); #endif #ifdef HAVE_GEOS_GEOM_GET_X PHP_METHOD(Geometry, getX); #endif #ifdef HAVE_GEOS_GEOM_GET_Y PHP_METHOD(Geometry, getY); #endif PHP_METHOD(Geometry, interiorRingN); PHP_METHOD(Geometry, exteriorRing); PHP_METHOD(Geometry, numCoordinates); PHP_METHOD(Geometry, dimension); #ifdef HAVE_GEOS_GEOM_GET_COORDINATE_DIMENSION PHP_METHOD(Geometry, coordinateDimension); #endif #ifdef HAVE_GEOS_GEOM_GET_POINT_N PHP_METHOD(Geometry, pointN); #endif #ifdef HAVE_GEOS_GEOM_GET_START_POINT PHP_METHOD(Geometry, startPoint); #endif #ifdef HAVE_GEOS_GEOM_GET_END_POINT PHP_METHOD(Geometry, endPoint); #endif PHP_METHOD(Geometry, area); PHP_METHOD(Geometry, length); PHP_METHOD(Geometry, distance); PHP_METHOD(Geometry, hausdorffDistance); #ifdef HAVE_GEOS_SNAP PHP_METHOD(Geometry, snapTo); #endif #ifdef HAVE_GEOS_NODE PHP_METHOD(Geometry, node); #endif #ifdef HAVE_GEOS_DELAUNAY_TRIANGULATION PHP_METHOD(Geometry, delaunayTriangulation); #endif #ifdef HAVE_GEOS_VORONOI_DIAGRAM PHP_METHOD(Geometry, voronoiDiagram); #endif #ifdef HAVE_GEOS_CLIP_BY_RECT PHP_METHOD(Geometry, clipByRect); #endif static zend_function_entry Geometry_methods[] = { PHP_ME(Geometry, __construct, NULL, 0) PHP_ME(Geometry, __toString, NULL, 0) PHP_ME(Geometry, project, NULL, 0) PHP_ME(Geometry, interpolate, NULL, 0) PHP_ME(Geometry, buffer, NULL, 0) # ifdef HAVE_GEOS_OFFSET_CURVE PHP_ME(Geometry, offsetCurve, NULL, 0) # endif PHP_ME(Geometry, envelope, NULL, 0) PHP_ME(Geometry, intersection, NULL, 0) PHP_ME(Geometry, convexHull, NULL, 0) PHP_ME(Geometry, difference, NULL, 0) PHP_ME(Geometry, symDifference, NULL, 0) PHP_ME(Geometry, boundary, NULL, 0) PHP_ME(Geometry, union, NULL, 0) PHP_ME(Geometry, pointOnSurface, NULL, 0) PHP_ME(Geometry, centroid, NULL, 0) PHP_ME(Geometry, relate, NULL, 0) # ifdef HAVE_GEOS_RELATE_BOUNDARY_NODE_RULE PHP_ME(Geometry, relateBoundaryNodeRule, NULL, 0) # endif PHP_ME(Geometry, simplify, NULL, 0) PHP_ME(Geometry, normalize, NULL, 0) # ifdef HAVE_GEOS_GEOM_SET_PRECISION PHP_ME(Geometry, setPrecision, NULL, 0) # endif # if HAVE_GEOS_GEOM_GET_PRECISION PHP_ME(Geometry, getPrecision, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_EXTRACT_UNIQUE_POINTS PHP_ME(Geometry, extractUniquePoints, NULL, 0) # endif PHP_ME(Geometry, disjoint, NULL, 0) PHP_ME(Geometry, touches, NULL, 0) PHP_ME(Geometry, intersects, NULL, 0) PHP_ME(Geometry, crosses, NULL, 0) PHP_ME(Geometry, within, NULL, 0) PHP_ME(Geometry, contains, NULL, 0) PHP_ME(Geometry, overlaps, NULL, 0) # ifdef HAVE_GEOS_COVERS PHP_ME(Geometry, covers, NULL, 0) # endif # ifdef HAVE_GEOS_COVERED_BY PHP_ME(Geometry, coveredBy, NULL, 0) # endif PHP_ME(Geometry, equals, NULL, 0) PHP_ME(Geometry, equalsExact, NULL, 0) PHP_ME(Geometry, isEmpty, NULL, 0) # ifdef HAVE_GEOS_IS_VALID_DETAIL PHP_ME(Geometry, checkValidity, NULL, 0) # endif PHP_ME(Geometry, isSimple, NULL, 0) PHP_ME(Geometry, isRing, NULL, 0) PHP_ME(Geometry, hasZ, NULL, 0) # ifdef HAVE_GEOS_IS_CLOSED PHP_ME(Geometry, isClosed, NULL, 0) # endif PHP_ME(Geometry, typeName, NULL, 0) PHP_ME(Geometry, typeId, NULL, 0) PHP_ME(Geometry, getSRID, NULL, 0) PHP_ME(Geometry, setSRID, NULL, 0) PHP_ME(Geometry, numGeometries, NULL, 0) PHP_ME(Geometry, geometryN, NULL, 0) PHP_ME(Geometry, numInteriorRings, NULL, 0) # ifdef HAVE_GEOS_GEOM_GET_NUM_POINTS PHP_ME(Geometry, numPoints, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_GET_X PHP_ME(Geometry, getX, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_GET_Y PHP_ME(Geometry, getY, NULL, 0) # endif PHP_ME(Geometry, interiorRingN, NULL, 0) PHP_ME(Geometry, exteriorRing, NULL, 0) PHP_ME(Geometry, numCoordinates, NULL, 0) PHP_ME(Geometry, dimension, NULL, 0) # ifdef HAVE_GEOS_GEOM_GET_COORDINATE_DIMENSION PHP_ME(Geometry, coordinateDimension, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_GET_POINT_N PHP_ME(Geometry, pointN, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_GET_START_POINT PHP_ME(Geometry, startPoint, NULL, 0) # endif # ifdef HAVE_GEOS_GEOM_GET_END_POINT PHP_ME(Geometry, endPoint, NULL, 0) # endif PHP_ME(Geometry, area, NULL, 0) PHP_ME(Geometry, length, NULL, 0) PHP_ME(Geometry, distance, NULL, 0) PHP_ME(Geometry, hausdorffDistance, NULL, 0) # if HAVE_GEOS_SNAP PHP_ME(Geometry, snapTo, NULL, 0) # endif # ifdef HAVE_GEOS_NODE PHP_ME(Geometry, node, NULL, 0) # endif # ifdef HAVE_GEOS_DELAUNAY_TRIANGULATION PHP_ME(Geometry, delaunayTriangulation, NULL, 0) # endif # ifdef HAVE_GEOS_VORONOI_DIAGRAM PHP_ME(Geometry, voronoiDiagram, NULL, 0) # endif # ifdef HAVE_GEOS_CLIP_BY_RECT PHP_ME(Geometry, clipByRect, NULL, 0) # endif {NULL, NULL, NULL} }; static zend_class_entry *Geometry_ce_ptr; static zend_object_handlers Geometry_object_handlers; /* Geometry serializer */ static GEOSWKBWriter* Geometry_serializer = 0; static GEOSWKBWriter* getGeometrySerializer() { TSRMLS_FETCH(); if ( ! Geometry_serializer ) { Geometry_serializer = GEOSWKBWriter_create_r(GEOS_G(handle)); GEOSWKBWriter_setIncludeSRID_r(GEOS_G(handle), Geometry_serializer, 1); GEOSWKBWriter_setOutputDimension_r(GEOS_G(handle), Geometry_serializer, 3); } return Geometry_serializer; } static void delGeometrySerializer() { TSRMLS_FETCH(); if ( Geometry_serializer ) { GEOSWKBWriter_destroy_r(GEOS_G(handle), Geometry_serializer); } } /* Geometry deserializer */ static GEOSWKBReader* Geometry_deserializer = 0; static GEOSWKBReader* getGeometryDeserializer() { TSRMLS_FETCH(); if ( ! Geometry_deserializer ) { Geometry_deserializer = GEOSWKBReader_create_r(GEOS_G(handle)); } return Geometry_deserializer; } static void delGeometryDeserializer() { TSRMLS_FETCH(); if ( Geometry_deserializer ) { GEOSWKBReader_destroy_r(GEOS_G(handle), Geometry_deserializer); } } /* Serializer function for GEOSGeometry */ static int Geometry_serialize(zval *object, unsigned char **buffer, zend_uint *buf_len, zend_serialize_data *data TSRMLS_DC) { GEOSWKBWriter *serializer; GEOSGeometry *geom; char* ret; size_t retsize; serializer = getGeometrySerializer(); geom = (GEOSGeometry*)getRelay(object, Geometry_ce_ptr); /* NOTE: we might be fine using binary here */ ret = (char*)GEOSWKBWriter_writeHEX_r(GEOS_G(handle), serializer, geom, &retsize); /* we'll probably get an exception if ret is null */ if ( ! ret ) return FAILURE; *buffer = (unsigned char*)estrndup(ret, retsize); GEOSFree_r(GEOS_G(handle), ret); *buf_len = retsize; return SUCCESS; } static int Geometry_deserialize(GEOS_PHP_ZVAL object, zend_class_entry *ce, const unsigned char *buf, zend_uint buf_len, zend_unserialize_data *data TSRMLS_DC) { GEOSWKBReader* deserializer; GEOSGeometry* geom; deserializer = getGeometryDeserializer(); geom = GEOSWKBReader_readHEX_r(GEOS_G(handle), deserializer, buf, buf_len); /* check zend_class_entry being what we expect! */ if ( ce != Geometry_ce_ptr ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "Geometry_deserialize called with unexpected zend_class_entry"); return FAILURE; } #if PHP_VERSION_ID >= 70000 object_init_ex(object, ce); setRelay(object, geom); #else object_init_ex(*object, ce); setRelay(*object, geom); #endif return SUCCESS; } /* * Push components of the given geometry * to the given array zval. * Components geometries are cloned. * NOTE: collection components are not descended into */ static void dumpGeometry(GEOSGeometry* g, zval* array) { TSRMLS_FETCH(); int ngeoms, i; ngeoms = GEOSGetNumGeometries_r(GEOS_G(handle), g); for (i=0; i= 70000 efree(tmp); #endif } } static void Geometry_dtor (GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC) { #if PHP_VERSION_ID < 70000 Proxy *obj = (Proxy *)object; #else Proxy *obj = php_geos_fetch_object(object); #endif GEOSGeom_destroy_r(GEOS_G(handle), (GEOSGeometry*)obj->relay); #if PHP_VERSION_ID >= 70000 //zend_object_std_dtor(&obj->std); #else zend_hash_destroy(obj->std.properties); FREE_HASHTABLE(obj->std.properties); efree(obj); #endif } static zend_object_value Geometry_create_obj (zend_class_entry *type TSRMLS_DC) { return Gen_create_obj(type, Geometry_dtor, &Geometry_object_handlers); } PHP_METHOD(Geometry, __construct) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "GEOSGeometry can't be constructed using new, check WKTReader"); } PHP_METHOD(Geometry, __toString) { GEOSGeometry *geom; GEOSWKTWriter *writer; char *wkt; char *ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); writer = GEOSWKTWriter_create_r(GEOS_G(handle)); /* NOTE: if we get an exception before reaching * GEOSWKTWriter_destory below we'll be leaking memory. * One fix could be storing the object in a refcounted * zval. */ # ifdef HAVE_GEOS_WKT_WRITER_SET_TRIM GEOSWKTWriter_setTrim_r(GEOS_G(handle), writer, 1); # endif wkt = GEOSWKTWriter_write_r(GEOS_G(handle), writer, geom); /* we'll probably get an exception if wkt is null */ if ( ! wkt ) RETURN_NULL(); GEOSWKTWriter_destroy_r(GEOS_G(handle), writer); ret = estrdup(wkt); GEOSFree_r(GEOS_G(handle), wkt); GEOS_PHP_RETURN_STRING(ret); } PHP_METHOD(Geometry, project) { GEOSGeometry *this; GEOSGeometry *other; zval *zobj; zend_bool normalized = 0; double ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o|b", &zobj, &normalized) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); if ( normalized ) { ret = GEOSProjectNormalized_r(GEOS_G(handle), this, other); } else { ret = GEOSProject_r(GEOS_G(handle), this, other); } if ( ret < 0 ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(ret); } PHP_METHOD(Geometry, interpolate) { GEOSGeometry *this; double dist; GEOSGeometry *ret; zend_bool normalized = 0; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d|b", &dist, &normalized) == FAILURE) { RETURN_NULL(); } if ( normalized ) { ret = GEOSInterpolateNormalized_r(GEOS_G(handle), this, dist); } else { ret = GEOSInterpolate_r(GEOS_G(handle), this, dist); } if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::buffer(dist, []) * * styleArray keys supported: * 'quad_segs' * Type: int * Number of segments used to approximate * a quarter circle (defaults to 8). * 'endcap' * Type: long * Endcap style (defaults to GEOSBUF_CAP_ROUND) * 'join' * Type: long * Join style (defaults to GEOSBUF_JOIN_ROUND) * 'mitre_limit' * Type: double * mitre ratio limit (only affects joins with GEOSBUF_JOIN_MITRE style) * 'miter_limit' is also accepted as a synonym for 'mitre_limit'. * 'single_sided' * Type: bool * If true buffer lines only on one side, so that the input line * will be a portion of the boundary of the returned polygon. * Only applies to lineal input. Defaults to false. */ PHP_METHOD(Geometry, buffer) { GEOSGeometry *this; double dist; GEOSGeometry *ret; GEOSBufferParams *params; static const double default_mitreLimit = 5.0; static const int default_endCapStyle = GEOSBUF_CAP_ROUND; static const int default_joinStyle = GEOSBUF_JOIN_ROUND; static const int default_quadSegs = 8; long int quadSegs = default_quadSegs; long int endCapStyle = default_endCapStyle; long int joinStyle = default_joinStyle; double mitreLimit = default_mitreLimit; long singleSided = 0; zval *style_val = NULL; GEOS_PHP_ZVAL data; HashTable *style; zend_string *key; ulong index; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d|a", &dist, &style_val) == FAILURE) { RETURN_NULL(); } params = GEOSBufferParams_create_r(GEOS_G(handle)); if ( style_val ) { style = HASH_OF(style_val); while(GEOS_PHP_HASH_GET_CUR_KEY(style, &key, &index) == HASH_KEY_IS_STRING) { if(!strcmp(ZSTR_VAL(key), "quad_segs")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); quadSegs = getZvalAsLong(data); GEOSBufferParams_setQuadrantSegments_r(GEOS_G(handle), params, quadSegs); } else if(!strcmp(ZSTR_VAL(key), "endcap")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); endCapStyle = getZvalAsLong(data); GEOSBufferParams_setEndCapStyle_r(GEOS_G(handle), params, endCapStyle); } else if(!strcmp(ZSTR_VAL(key), "join")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); joinStyle = getZvalAsLong(data); GEOSBufferParams_setJoinStyle_r(GEOS_G(handle), params, joinStyle); } else if(!strcmp(ZSTR_VAL(key), "mitre_limit")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); mitreLimit = getZvalAsDouble(data); GEOSBufferParams_setMitreLimit_r(GEOS_G(handle), params, mitreLimit); } else if(!strcmp(ZSTR_VAL(key), "single_sided")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); singleSided = getZvalAsLong(data); GEOSBufferParams_setSingleSided_r(GEOS_G(handle), params, singleSided); } zend_hash_move_forward(style); } } ret = GEOSBufferWithParams_r(GEOS_G(handle), this, params, dist); GEOSBufferParams_destroy_r(GEOS_G(handle), params); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::offsetCurve(dist, []) * * styleArray keys supported: * 'quad_segs' * Type: int * Number of segments used to approximate * a quarter circle (defaults to 8). * 'join' * Type: long * Join style (defaults to GEOSBUF_JOIN_ROUND) * 'mitre_limit' * Type: double * mitre ratio limit (only affects joins with GEOSBUF_JOIN_MITRE style) * 'miter_limit' is also accepted as a synonym for 'mitre_limit'. */ #ifdef HAVE_GEOS_OFFSET_CURVE PHP_METHOD(Geometry, offsetCurve) { GEOSGeometry *this; double dist; GEOSGeometry *ret; static const double default_mitreLimit = 5.0; static const int default_joinStyle = GEOSBUF_JOIN_ROUND; static const int default_quadSegs = 8; long int quadSegs = default_quadSegs; long int joinStyle = default_joinStyle; double mitreLimit = default_mitreLimit; zval *style_val = NULL; GEOS_PHP_ZVAL data; HashTable *style; zend_string *key; ulong index; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d|a", &dist, &style_val) == FAILURE) { RETURN_NULL(); } if ( style_val ) { style = HASH_OF(style_val); while(GEOS_PHP_HASH_GET_CUR_KEY(style, &key, &index) == HASH_KEY_IS_STRING) { if(!strcmp(ZSTR_VAL(key), "quad_segs")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); quadSegs = getZvalAsLong(data); } else if(!strcmp(ZSTR_VAL(key), "join")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); joinStyle = getZvalAsLong(data); } else if(!strcmp(ZSTR_VAL(key), "mitre_limit")) { GEOS_PHP_HASH_GET_CUR_DATA(style, data); mitreLimit = getZvalAsDouble(data); } zend_hash_move_forward(style); } } ret = GEOSOffsetCurve_r(GEOS_G(handle), this, dist, quadSegs, joinStyle, mitreLimit); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif PHP_METHOD(Geometry, envelope) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSEnvelope_r(GEOS_G(handle), this); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } PHP_METHOD(Geometry, intersection) { GEOSGeometry *this; GEOSGeometry *other; GEOSGeometry *ret; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSIntersection_r(GEOS_G(handle), this, other); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry GEOSGeometry::clipByRect(xmin,ymin,xmax,ymax) */ #ifdef HAVE_GEOS_CLIP_BY_RECT PHP_METHOD(Geometry, clipByRect) { GEOSGeometry *this; GEOSGeometry *ret; double xmin,ymin,xmax,ymax; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "dddd", &xmin, &ymin, &xmax, &ymax) == FAILURE) { RETURN_NULL(); } ret = GEOSClipByRect_r(GEOS_G(handle), this, xmin, ymin, xmax, ymax); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif PHP_METHOD(Geometry, convexHull) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSConvexHull_r(GEOS_G(handle), this); if ( ret == NULL ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } PHP_METHOD(Geometry, difference) { GEOSGeometry *this; GEOSGeometry *other; GEOSGeometry *ret; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSDifference_r(GEOS_G(handle), this, other); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } PHP_METHOD(Geometry, symDifference) { GEOSGeometry *this; GEOSGeometry *other; GEOSGeometry *ret; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSSymDifference_r(GEOS_G(handle), this, other); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } PHP_METHOD(Geometry, boundary) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSBoundary_r(GEOS_G(handle), this); if ( ret == NULL ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::union(otherGeom) * GEOSGeometry::union() */ PHP_METHOD(Geometry, union) { GEOSGeometry *this; GEOSGeometry *other; GEOSGeometry *ret; zval *zobj = NULL; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|o", &zobj) == FAILURE) { RETURN_NULL(); } if ( zobj ) { other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSUnion_r(GEOS_G(handle), this, other); } else { # ifdef HAVE_GEOS_UNARY_UNION ret = GEOSUnaryUnion_r(GEOS_G(handle), this); # else ret = GEOSUnionCascaded_r(GEOS_G(handle), this); # endif } if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::pointOnSurface() */ PHP_METHOD(Geometry, pointOnSurface) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSPointOnSurface_r(GEOS_G(handle), this); if ( ret == NULL ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::centroid() */ PHP_METHOD(Geometry, centroid) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGetCentroid_r(GEOS_G(handle), this); if ( ret == NULL ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry::relate(otherGeom) * GEOSGeometry::relate(otherGeom, pattern) */ PHP_METHOD(Geometry, relate) { GEOSGeometry *this; GEOSGeometry *other; zval *zobj; char* pat = NULL; #if PHP_VERSION_ID >= 70000 size_t patlen; #else int patlen; #endif int retInt; zend_bool retBool; char* retStr; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o|s", &zobj, &pat, &patlen) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); if ( ! pat ) { /* we'll compute it */ pat = GEOSRelate_r(GEOS_G(handle), this, other); if ( ! pat ) RETURN_NULL(); /* should get an exception first */ retStr = estrdup(pat); GEOSFree_r(GEOS_G(handle), pat); GEOS_PHP_RETURN_STRING(retStr); } else { retInt = GEOSRelatePattern_r(GEOS_G(handle), this, other, pat); if ( retInt == 2 ) RETURN_NULL(); /* should get an exception first */ retBool = retInt; RETURN_BOOL(retBool); } } /** * GEOSGeometry::relateBoundaryNodeRule(otherGeom, rule) */ #ifdef HAVE_GEOS_RELATE_BOUNDARY_NODE_RULE PHP_METHOD(Geometry, relateBoundaryNodeRule) { GEOSGeometry *this; GEOSGeometry *other; zval *zobj; char* pat; long int bnr = GEOSRELATE_BNR_OGC; char* retStr; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ol", &zobj, &bnr) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); /* we'll compute it */ pat = GEOSRelateBoundaryNodeRule_r(GEOS_G(handle), this, other, bnr); if ( ! pat ) RETURN_NULL(); /* should get an exception first */ retStr = estrdup(pat); GEOSFree_r(GEOS_G(handle), pat); GEOS_PHP_RETURN_STRING(retStr); } #endif /** * GEOSGeometry GEOSGeometry::simplify(tolerance) * GEOSGeometry GEOSGeometry::simplify(tolerance, preserveTopology) */ PHP_METHOD(Geometry, simplify) { GEOSGeometry *this; double tolerance; zend_bool preserveTopology = 0; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d|b", &tolerance, &preserveTopology) == FAILURE) { RETURN_NULL(); } if ( preserveTopology ) { ret = GEOSTopologyPreserveSimplify_r(GEOS_G(handle), this, tolerance); } else { ret = GEOSSimplify_r(GEOS_G(handle), this, tolerance); } if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry GEOSGeometry::setPrecision(gridsize, [flags]) */ #ifdef HAVE_GEOS_GEOM_SET_PRECISION PHP_METHOD(Geometry, setPrecision) { GEOSGeometry *this; double gridSize; long int flags = 0; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d|l", &gridSize, &flags) == FAILURE) { RETURN_NULL(); } ret = GEOSGeom_setPrecision_r(GEOS_G(handle), this, gridSize, flags); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif /** * double GEOSGeometry::getPrecision() */ #ifdef HAVE_GEOS_GEOM_GET_PRECISION PHP_METHOD(Geometry, getPrecision) { GEOSGeometry *geom; double prec; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); prec = GEOSGeom_getPrecision_r(GEOS_G(handle), geom); if ( prec < 0 ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(prec); } #endif /** * GEOSGeometry GEOSGeometry::normalize() */ PHP_METHOD(Geometry, normalize) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeom_clone_r(GEOS_G(handle), this); if ( ! ret ) RETURN_NULL(); GEOSNormalize_r(GEOS_G(handle), ret); /* exception should be gotten automatically */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } /** * GEOSGeometry GEOSGeometry::extractUniquePoints() */ #ifdef HAVE_GEOS_GEOM_EXTRACT_UNIQUE_POINTS PHP_METHOD(Geometry, extractUniquePoints) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeom_extractUniquePoints_r(GEOS_G(handle), this); if ( ret == NULL ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif /** * bool GEOSGeometry::disjoint(GEOSGeometry) */ PHP_METHOD(Geometry, disjoint) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSDisjoint_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::touches(GEOSGeometry) */ PHP_METHOD(Geometry, touches) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSTouches_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::intersects(GEOSGeometry) */ PHP_METHOD(Geometry, intersects) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSIntersects_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::crosses(GEOSGeometry) */ PHP_METHOD(Geometry, crosses) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSCrosses_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::within(GEOSGeometry) */ PHP_METHOD(Geometry, within) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSWithin_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::contains(GEOSGeometry) */ PHP_METHOD(Geometry, contains) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSContains_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::overlaps(GEOSGeometry) */ PHP_METHOD(Geometry, overlaps) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSOverlaps_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::covers(GEOSGeometry) */ #ifdef HAVE_GEOS_COVERS PHP_METHOD(Geometry, covers) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSCovers_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } #endif /** * bool GEOSGeometry::coveredBy(GEOSGeometry) */ #ifdef HAVE_GEOS_COVERED_BY PHP_METHOD(Geometry, coveredBy) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSCoveredBy_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } #endif /** * bool GEOSGeometry::equals(GEOSGeometry) */ PHP_METHOD(Geometry, equals) { GEOSGeometry *this; GEOSGeometry *other; int ret; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSEquals_r(GEOS_G(handle), this, other); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::equalsExact(GEOSGeometry) * bool GEOSGeometry::equalsExact(GEOSGeometry, double tolerance) */ PHP_METHOD(Geometry, equalsExact) { GEOSGeometry *this; GEOSGeometry *other; int ret; double tolerance = 0; zend_bool retBool; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o|d", &zobj, &tolerance) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSEqualsExact_r(GEOS_G(handle), this, other, tolerance); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::isEmpty() */ PHP_METHOD(Geometry, isEmpty) { GEOSGeometry *this; int ret; zend_bool retBool; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSisEmpty_r(GEOS_G(handle), this); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * array GEOSGeometry::checkValidity() */ #ifdef HAVE_GEOS_IS_VALID_DETAIL PHP_METHOD(Geometry, checkValidity) { GEOSGeometry *this; GEOSGeometry *location = NULL; int ret; char *reason = NULL; zend_bool retBool; char *reasonVal = NULL; zval *locationVal = NULL; long int flags = 0; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|l", &flags) == FAILURE) { RETURN_NULL(); } ret = GEOSisValidDetail_r(GEOS_G(handle), this, flags, &reason, &location); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ if ( reason ) { reasonVal = estrdup(reason); GEOSFree_r(GEOS_G(handle), reason); } if ( location ) { MAKE_STD_ZVAL(locationVal); object_init_ex(locationVal, Geometry_ce_ptr); setRelay(locationVal, location); } retBool = ret; /* return value is an array */ array_init(return_value); add_assoc_bool(return_value, "valid", retBool); if ( reasonVal ) GEOS_PHP_ADD_ASSOC_ARRAY(return_value, "reason", reasonVal); if ( locationVal ) GEOS_PHP_ADD_ASSOC_ZVAL(return_value, "location", locationVal); } #endif /** * bool GEOSGeometry::isSimple() */ PHP_METHOD(Geometry, isSimple) { GEOSGeometry *this; int ret; zend_bool retBool; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSisSimple_r(GEOS_G(handle), this); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::isRing() */ PHP_METHOD(Geometry, isRing) { GEOSGeometry *this; int ret; zend_bool retBool; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSisRing_r(GEOS_G(handle), this); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::hasZ() */ PHP_METHOD(Geometry, hasZ) { GEOSGeometry *this; int ret; zend_bool retBool; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSHasZ_r(GEOS_G(handle), this); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } /** * bool GEOSGeometry::isClosed() */ #ifdef HAVE_GEOS_IS_CLOSED PHP_METHOD(Geometry, isClosed) { GEOSGeometry *this; int ret; zend_bool retBool; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSisClosed_r(GEOS_G(handle), this); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } #endif /** * string GEOSGeometry::typeName() */ PHP_METHOD(Geometry, typeName) { GEOSGeometry *this; char *typ; char *typVal; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); /* TODO: define constant strings instead... */ typ = GEOSGeomType_r(GEOS_G(handle), this); if ( ! typ ) RETURN_NULL(); /* should get an exception first */ typVal = estrdup(typ); GEOSFree_r(GEOS_G(handle), typ); GEOS_PHP_RETURN_STRING(typVal); } /** * long GEOSGeometry::typeId() */ PHP_METHOD(Geometry, typeId) { GEOSGeometry *this; long typ; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); /* TODO: define constant strings instead... */ typ = GEOSGeomTypeId_r(GEOS_G(handle), this); if ( typ == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(typ); } /** * long GEOSGeometry::getSRID() */ PHP_METHOD(Geometry, getSRID) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGetSRID_r(GEOS_G(handle), geom); RETURN_LONG(ret); } /** * void GEOSGeometry::setSRID(long) */ PHP_METHOD(Geometry, setSRID) { GEOSGeometry *geom; long int srid; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &srid) == FAILURE) { RETURN_NULL(); } GEOSSetSRID_r(GEOS_G(handle), geom, srid); } /** * long GEOSGeometry::numGeometries() */ PHP_METHOD(Geometry, numGeometries) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGetNumGeometries_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } /** * GEOSGeometry GEOSGeometry::geometryN() */ PHP_METHOD(Geometry, geometryN) { GEOSGeometry *geom; const GEOSGeometry *c; GEOSGeometry *cc; long int num; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &num) == FAILURE) { RETURN_NULL(); } if ( num >= GEOSGetNumGeometries_r(GEOS_G(handle), geom) ) RETURN_NULL(); c = GEOSGetGeometryN_r(GEOS_G(handle), geom, num); if ( ! c ) RETURN_NULL(); /* should get an exception first */ cc = GEOSGeom_clone_r(GEOS_G(handle), c); if ( ! cc ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, cc); } /** * long GEOSGeometry::numInteriorRings() */ PHP_METHOD(Geometry, numInteriorRings) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGetNumInteriorRings_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } /** * long GEOSGeometry::numPoints() */ #ifdef HAVE_GEOS_GEOM_GET_NUM_POINTS PHP_METHOD(Geometry, numPoints) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeomGetNumPoints_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } #endif /** * double GEOSGeometry::getX() */ #ifdef HAVE_GEOS_GEOM_GET_X PHP_METHOD(Geometry, getX) { GEOSGeometry *geom; int ret; double x; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeomGetX_r(GEOS_G(handle), geom, &x); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(x); } #endif /** * double GEOSGeometry::getY() */ #ifdef HAVE_GEOS_GEOM_GET_Y PHP_METHOD(Geometry, getY) { GEOSGeometry *geom; int ret; double y; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeomGetY_r(GEOS_G(handle), geom, &y); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(y); } #endif /** * GEOSGeometry GEOSGeometry::interiorRingN() */ PHP_METHOD(Geometry, interiorRingN) { GEOSGeometry *geom; const GEOSGeometry *c; GEOSGeometry *cc; long int num; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &num) == FAILURE) { RETURN_NULL(); } if ( num >= GEOSGetNumInteriorRings_r(GEOS_G(handle), geom) ) RETURN_NULL(); c = GEOSGetInteriorRingN_r(GEOS_G(handle), geom, num); if ( ! c ) RETURN_NULL(); /* should get an exception first */ cc = GEOSGeom_clone_r(GEOS_G(handle), c); if ( ! cc ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, cc); } /** * GEOSGeometry GEOSGeometry::exteriorRing() */ PHP_METHOD(Geometry, exteriorRing) { GEOSGeometry *geom; const GEOSGeometry *c; GEOSGeometry *cc; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); c = GEOSGetExteriorRing_r(GEOS_G(handle), geom); if ( ! c ) RETURN_NULL(); /* should get an exception first */ cc = GEOSGeom_clone_r(GEOS_G(handle), c); if ( ! cc ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, cc); } /** * long GEOSGeometry::numCoordinates() */ PHP_METHOD(Geometry, numCoordinates) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGetNumCoordinates_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } /** * long GEOSGeometry::dimension() * 0:puntual 1:lineal 2:areal */ PHP_METHOD(Geometry, dimension) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeom_getDimensions_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } /** * long GEOSGeometry::coordinateDimension() */ #ifdef HAVE_GEOS_GEOM_GET_COORDINATE_DIMENSION PHP_METHOD(Geometry, coordinateDimension) { GEOSGeometry *geom; long int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSGeom_getCoordinateDimension_r(GEOS_G(handle), geom); if ( ret == -1 ) RETURN_NULL(); /* should get an exception first */ RETURN_LONG(ret); } #endif /** * GEOSGeometry GEOSGeometry::pointN() */ #ifdef HAVE_GEOS_GEOM_GET_POINT_N PHP_METHOD(Geometry, pointN) { GEOSGeometry *geom; GEOSGeometry *c; long int num; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &num) == FAILURE) { RETURN_NULL(); } if ( num >= GEOSGeomGetNumPoints_r(GEOS_G(handle), geom) ) RETURN_NULL(); c = GEOSGeomGetPointN_r(GEOS_G(handle), geom, num); if ( ! c ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, c); } #endif /** * GEOSGeometry GEOSGeometry::startPoint() */ PHP_METHOD(Geometry, startPoint) { GEOSGeometry *geom; GEOSGeometry *c; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); c = GEOSGeomGetStartPoint_r(GEOS_G(handle), geom); if ( ! c ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, c); } /** * GEOSGeometry GEOSGeometry::endPoint() */ PHP_METHOD(Geometry, endPoint) { GEOSGeometry *geom; GEOSGeometry *c; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); c = GEOSGeomGetEndPoint_r(GEOS_G(handle), geom); if ( ! c ) RETURN_NULL(); /* should get an exception first */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, c); } /** * double GEOSGeometry::area() */ PHP_METHOD(Geometry, area) { GEOSGeometry *geom; double area; int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSArea_r(GEOS_G(handle), geom, &area); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(area); } /** * double GEOSGeometry::length() */ PHP_METHOD(Geometry, length) { GEOSGeometry *geom; double length; int ret; geom = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSLength_r(GEOS_G(handle), geom, &length); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(length); } /** * double GEOSGeometry::distance(GEOSGeometry) */ PHP_METHOD(Geometry, distance) { GEOSGeometry *this; GEOSGeometry *other; zval *zobj; double dist; int ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSDistance_r(GEOS_G(handle), this, other, &dist); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(dist); } /** * double GEOSGeometry::hausdorffDistance(GEOSGeometry) */ PHP_METHOD(Geometry, hausdorffDistance) { GEOSGeometry *this; GEOSGeometry *other; zval *zobj; double dist; int ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSHausdorffDistance_r(GEOS_G(handle), this, other, &dist); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ RETURN_DOUBLE(dist); } #ifdef HAVE_GEOS_SNAP PHP_METHOD(Geometry, snapTo) { GEOSGeometry *this; GEOSGeometry *other; GEOSGeometry *ret; double tolerance; zval *zobj; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "od", &zobj, &tolerance) == FAILURE) { RETURN_NULL(); } other = getRelay(zobj, Geometry_ce_ptr); ret = GEOSSnap_r(GEOS_G(handle), this, other, tolerance); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif #ifdef HAVE_GEOS_NODE PHP_METHOD(Geometry, node) { GEOSGeometry *this; GEOSGeometry *ret; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); ret = GEOSNode_r(GEOS_G(handle), this); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif /* -- class GEOSWKTReader -------------------- */ PHP_METHOD(WKTReader, __construct); PHP_METHOD(WKTReader, read); static zend_function_entry WKTReader_methods[] = { PHP_ME(WKTReader, __construct, NULL, 0) PHP_ME(WKTReader, read, NULL, 0) {NULL, NULL, NULL} }; static zend_class_entry *WKTReader_ce_ptr; static zend_object_handlers WKTReader_object_handlers; static void WKTReader_dtor (GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC) { #if PHP_VERSION_ID < 70000 Proxy *obj = (Proxy *)object; #else Proxy *obj = php_geos_fetch_object(object); #endif GEOSWKTReader *reader = (GEOSWKTReader*)obj->relay; if (reader) { GEOSWKTReader_destroy_r(GEOS_G(handle), reader); } #if PHP_VERSION_ID < 70000 zend_hash_destroy(obj->std.properties); FREE_HASHTABLE(obj->std.properties); efree(obj); #endif } static zend_object_value WKTReader_create_obj (zend_class_entry *type TSRMLS_DC) { return Gen_create_obj(type, WKTReader_dtor, &WKTReader_object_handlers); } PHP_METHOD(WKTReader, __construct) { GEOSWKTReader* obj; zval *object = getThis(); obj = GEOSWKTReader_create_r(GEOS_G(handle)); if ( ! obj ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "GEOSWKTReader_create() failed (didn't initGEOS?)"); } setRelay(object, obj); } PHP_METHOD(WKTReader, read) { GEOSWKTReader *reader; GEOSGeometry *geom; zend_string *wkt; #if PHP_VERSION_ID < 70000 int wktlen; #endif reader = (GEOSWKTReader*)getRelay(getThis(), WKTReader_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, #if PHP_VERSION_ID >= 70000 "S", &wkt #else "s", &wkt, &wktlen #endif ) == FAILURE) { RETURN_NULL(); } geom = GEOSWKTReader_read_r(GEOS_G(handle), reader, ZSTR_VAL(wkt)); /* we'll probably get an exception if geom is null */ if ( ! geom ) RETURN_NULL(); /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, geom); } /* -- class GEOSWKTWriter -------------------- */ PHP_METHOD(WKTWriter, __construct); PHP_METHOD(WKTWriter, write); #ifdef HAVE_GEOS_WKT_WRITER_SET_TRIM PHP_METHOD(WKTWriter, setTrim); #endif #ifdef HAVE_GEOS_WKT_WRITER_SET_ROUNDING_PRECISION PHP_METHOD(WKTWriter, setRoundingPrecision); #endif #ifdef HAVE_GEOS_WKT_WRITER_SET_OUTPUT_DIMENSION PHP_METHOD(WKTWriter, setOutputDimension); #endif #ifdef HAVE_GEOS_WKT_WRITER_GET_OUTPUT_DIMENSION PHP_METHOD(WKTWriter, getOutputDimension); #endif #ifdef HAVE_GEOS_WKT_WRITER_SET_OLD_3D PHP_METHOD(WKTWriter, setOld3D); #endif static zend_function_entry WKTWriter_methods[] = { PHP_ME(WKTWriter, __construct, NULL, 0) PHP_ME(WKTWriter, write, NULL, 0) # ifdef HAVE_GEOS_WKT_WRITER_SET_TRIM PHP_ME(WKTWriter, setTrim, NULL, 0) # endif # ifdef HAVE_GEOS_WKT_WRITER_SET_ROUNDING_PRECISION PHP_ME(WKTWriter, setRoundingPrecision, NULL, 0) # endif # ifdef HAVE_GEOS_WKT_WRITER_SET_OUTPUT_DIMENSION PHP_ME(WKTWriter, setOutputDimension, NULL, 0) # endif # ifdef HAVE_GEOS_WKT_WRITER_GET_OUTPUT_DIMENSION PHP_ME(WKTWriter, getOutputDimension, NULL, 0) # endif # ifdef HAVE_GEOS_WKT_WRITER_SET_OLD_3D PHP_ME(WKTWriter, setOld3D, NULL, 0) # endif {NULL, NULL, NULL} }; static zend_class_entry *WKTWriter_ce_ptr; static zend_object_handlers WKTWriter_object_handlers; static void WKTWriter_dtor (GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC) { #if PHP_VERSION_ID < 70000 Proxy *obj = (Proxy *)object; #else Proxy *obj = php_geos_fetch_object(object); #endif GEOSWKTWriter_destroy_r(GEOS_G(handle), (GEOSWKTWriter*)obj->relay); #if PHP_VERSION_ID >= 70000 //zend_object_std_dtor(&obj->std); #else zend_hash_destroy(obj->std.properties); FREE_HASHTABLE(obj->std.properties); efree(obj); #endif } static zend_object_value WKTWriter_create_obj (zend_class_entry *type TSRMLS_DC) { return Gen_create_obj(type, WKTWriter_dtor, &WKTWriter_object_handlers); } PHP_METHOD(WKTWriter, __construct) { GEOSWKTWriter* obj; zval *object = getThis(); obj = GEOSWKTWriter_create_r(GEOS_G(handle)); if ( ! obj ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "GEOSWKTWriter_create() failed (didn't initGEOS?)"); } setRelay(object, obj); } PHP_METHOD(WKTWriter, write) { GEOSWKTWriter *writer; zval *zobj; GEOSGeometry *geom; char* wkt; char* retstr; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } geom = getRelay(zobj, Geometry_ce_ptr); wkt = GEOSWKTWriter_write_r(GEOS_G(handle), writer, geom); /* we'll probably get an exception if wkt is null */ if ( ! wkt ) RETURN_NULL(); retstr = estrdup(wkt); GEOSFree_r(GEOS_G(handle), wkt); GEOS_PHP_RETURN_STRING(retstr); } #ifdef HAVE_GEOS_WKT_WRITER_SET_TRIM PHP_METHOD(WKTWriter, setTrim) { GEOSWKTWriter *writer; zend_bool trimval; char trim; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "b", &trimval) == FAILURE) { RETURN_NULL(); } trim = trimval; GEOSWKTWriter_setTrim_r(GEOS_G(handle), writer, trim); } #endif #ifdef HAVE_GEOS_WKT_WRITER_SET_ROUNDING_PRECISION PHP_METHOD(WKTWriter, setRoundingPrecision) { GEOSWKTWriter *writer; long int prec; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &prec) == FAILURE) { RETURN_NULL(); } GEOSWKTWriter_setRoundingPrecision_r(GEOS_G(handle), writer, prec); } #endif /** * void GEOSWKTWriter::setOutputDimension() */ #ifdef HAVE_GEOS_WKT_WRITER_SET_OUTPUT_DIMENSION PHP_METHOD(WKTWriter, setOutputDimension) { GEOSWKTWriter *writer; long int dim; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &dim) == FAILURE) { RETURN_NULL(); } GEOSWKTWriter_setOutputDimension_r(GEOS_G(handle), writer, dim); } #endif /** * long GEOSWKTWriter::getOutputDimension() */ #ifdef HAVE_GEOS_WKT_WRITER_GET_OUTPUT_DIMENSION PHP_METHOD(WKTWriter, getOutputDimension) { GEOSWKTWriter *writer; long int ret; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); ret = GEOSWKTWriter_getOutputDimension_r(GEOS_G(handle), writer); RETURN_LONG(ret); } #endif #ifdef HAVE_GEOS_WKT_WRITER_SET_OLD_3D PHP_METHOD(WKTWriter, setOld3D) { GEOSWKTWriter *writer; zend_bool bval; int val; writer = (GEOSWKTWriter*)getRelay(getThis(), WKTWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "b", &bval) == FAILURE) { RETURN_NULL(); } val = bval; GEOSWKTWriter_setOld3D_r(GEOS_G(handle), writer, val); } #endif /* -- class GEOSWKBWriter -------------------- */ PHP_METHOD(WKBWriter, __construct); PHP_METHOD(WKBWriter, getOutputDimension); PHP_METHOD(WKBWriter, setOutputDimension); PHP_METHOD(WKBWriter, getByteOrder); PHP_METHOD(WKBWriter, setByteOrder); PHP_METHOD(WKBWriter, setIncludeSRID); PHP_METHOD(WKBWriter, getIncludeSRID); PHP_METHOD(WKBWriter, write); PHP_METHOD(WKBWriter, writeHEX); static zend_function_entry WKBWriter_methods[] = { PHP_ME(WKBWriter, __construct, NULL, 0) PHP_ME(WKBWriter, getOutputDimension, NULL, 0) PHP_ME(WKBWriter, setOutputDimension, NULL, 0) PHP_ME(WKBWriter, getByteOrder, NULL, 0) PHP_ME(WKBWriter, setByteOrder, NULL, 0) PHP_ME(WKBWriter, getIncludeSRID, NULL, 0) PHP_ME(WKBWriter, setIncludeSRID, NULL, 0) PHP_ME(WKBWriter, write, NULL, 0) PHP_ME(WKBWriter, writeHEX, NULL, 0) {NULL, NULL, NULL} }; static zend_class_entry *WKBWriter_ce_ptr; static zend_object_handlers WKBWriter_object_handlers; static void WKBWriter_dtor (GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC) { #if PHP_VERSION_ID < 70000 Proxy *obj = (Proxy *)object; #else Proxy *obj = php_geos_fetch_object(object); #endif GEOSWKBWriter_destroy_r(GEOS_G(handle), (GEOSWKBWriter*)obj->relay); #if PHP_VERSION_ID >= 70000 //zend_object_std_dtor(&obj->std); #else zend_hash_destroy(obj->std.properties); FREE_HASHTABLE(obj->std.properties); efree(obj); #endif } static zend_object_value WKBWriter_create_obj (zend_class_entry *type TSRMLS_DC) { return Gen_create_obj(type, WKBWriter_dtor, &WKBWriter_object_handlers); } /** * GEOSWKBWriter w = new GEOSWKBWriter() */ PHP_METHOD(WKBWriter, __construct) { GEOSWKBWriter* obj; zval *object = getThis(); obj = GEOSWKBWriter_create_r(GEOS_G(handle)); if ( ! obj ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "GEOSWKBWriter_create() failed (didn't initGEOS?)"); } setRelay(object, obj); } /** * long GEOSWKBWriter::getOutputDimension(); */ PHP_METHOD(WKBWriter, getOutputDimension) { GEOSWKBWriter *writer; long int ret; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); ret = GEOSWKBWriter_getOutputDimension_r(GEOS_G(handle), writer); RETURN_LONG(ret); } /** * void GEOSWKBWriter::setOutputDimension(dims); */ PHP_METHOD(WKBWriter, setOutputDimension) { GEOSWKBWriter *writer; long int dim; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &dim) == FAILURE) { RETURN_NULL(); } GEOSWKBWriter_setOutputDimension_r(GEOS_G(handle), writer, dim); } /** * string GEOSWKBWriter::write(GEOSGeometry) */ PHP_METHOD(WKBWriter, write) { GEOSWKBWriter *writer; zval *zobj; GEOSGeometry *geom; char *ret; size_t retsize; char* retstr; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } geom = getRelay(zobj, Geometry_ce_ptr); ret = (char*)GEOSWKBWriter_write_r(GEOS_G(handle), writer, geom, &retsize); /* we'll probably get an exception if ret is null */ if ( ! ret ) RETURN_NULL(); retstr = estrndup(ret, retsize); GEOSFree_r(GEOS_G(handle), ret); GEOS_PHP_RETURN_STRINGL(retstr, retsize); } /** * string GEOSWKBWriter::writeHEX(GEOSGeometry) */ PHP_METHOD(WKBWriter, writeHEX) { GEOSWKBWriter *writer; zval *zobj; GEOSGeometry *geom; char *ret; size_t retsize; /* useless... */ char* retstr; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } geom = getRelay(zobj, Geometry_ce_ptr); ret = (char*)GEOSWKBWriter_writeHEX_r(GEOS_G(handle), writer, geom, &retsize); /* we'll probably get an exception if ret is null */ if ( ! ret ) RETURN_NULL(); retstr = estrndup(ret, retsize); GEOSFree_r(GEOS_G(handle), ret); GEOS_PHP_RETURN_STRING(retstr); } /** * long GEOSWKBWriter::getByteOrder(); */ PHP_METHOD(WKBWriter, getByteOrder) { GEOSWKBWriter *writer; long int ret; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); ret = GEOSWKBWriter_getByteOrder_r(GEOS_G(handle), writer); RETURN_LONG(ret); } /** * void GEOSWKBWriter::setByteOrder(dims); */ PHP_METHOD(WKBWriter, setByteOrder) { GEOSWKBWriter *writer; long int dim; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &dim) == FAILURE) { RETURN_NULL(); } GEOSWKBWriter_setByteOrder_r(GEOS_G(handle), writer, dim); } /** * bool GEOSWKBWriter::getIncludeSRID(); */ PHP_METHOD(WKBWriter, getIncludeSRID) { GEOSWKBWriter *writer; int ret; zend_bool retBool; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); ret = GEOSWKBWriter_getIncludeSRID_r(GEOS_G(handle), writer); retBool = ret; RETURN_BOOL(retBool); } /** * void GEOSWKBWriter::setIncludeSRID(bool); */ PHP_METHOD(WKBWriter, setIncludeSRID) { GEOSWKBWriter *writer; int inc; zend_bool incVal; writer = (GEOSWKBWriter*)getRelay(getThis(), WKBWriter_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "b", &incVal) == FAILURE) { RETURN_NULL(); } inc = incVal; GEOSWKBWriter_setIncludeSRID_r(GEOS_G(handle), writer, inc); } /* -- class GEOSWKBReader -------------------- */ PHP_METHOD(WKBReader, __construct); PHP_METHOD(WKBReader, read); PHP_METHOD(WKBReader, readHEX); static zend_function_entry WKBReader_methods[] = { PHP_ME(WKBReader, __construct, NULL, 0) PHP_ME(WKBReader, read, NULL, 0) PHP_ME(WKBReader, readHEX, NULL, 0) {NULL, NULL, NULL} }; static zend_class_entry *WKBReader_ce_ptr; static zend_object_handlers WKBReader_object_handlers; static void WKBReader_dtor (GEOS_PHP_DTOR_OBJECT *object TSRMLS_DC) { #if PHP_VERSION_ID < 70000 Proxy *obj = (Proxy *)object; #else Proxy *obj = php_geos_fetch_object(object); #endif GEOSWKBReader_destroy_r(GEOS_G(handle), (GEOSWKBReader*)obj->relay); #if PHP_VERSION_ID >= 70000 //zend_object_std_dtor(&obj->std); #else zend_hash_destroy(obj->std.properties); FREE_HASHTABLE(obj->std.properties); efree(obj); #endif } static zend_object_value WKBReader_create_obj (zend_class_entry *type TSRMLS_DC) { return Gen_create_obj(type, WKBReader_dtor, &WKBReader_object_handlers); } PHP_METHOD(WKBReader, __construct) { GEOSWKBReader* obj; zval *object = getThis(); obj = GEOSWKBReader_create_r(GEOS_G(handle)); if ( ! obj ) { php_error_docref(NULL TSRMLS_CC, E_ERROR, "GEOSWKBReader_create() failed (didn't initGEOS?)"); } setRelay(object, obj); } PHP_METHOD(WKBReader, read) { GEOSWKBReader *reader; GEOSGeometry *geom; zend_string* wkb; int wkblen; reader = (GEOSWKBReader*)getRelay(getThis(), WKBReader_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, #if PHP_VERSION_ID >= 70000 "S", &wkb #else "s", &wkb, &wkblen #endif ) == FAILURE) { RETURN_NULL(); } #if PHP_VERSION_ID >= 70000 wkblen = ZSTR_LEN(wkb); #endif geom = GEOSWKBReader_read_r(GEOS_G(handle), reader, (unsigned char*)ZSTR_VAL(wkb), wkblen); /* we'll probably get an exception if geom is null */ if ( ! geom ) RETURN_NULL(); /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, geom); } PHP_METHOD(WKBReader, readHEX) { GEOSWKBReader *reader; GEOSGeometry *geom; unsigned char* wkb; #if PHP_VERSION_ID >= 70000 size_t wkblen; #else int wkblen; #endif reader = (GEOSWKBReader*)getRelay(getThis(), WKBReader_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "s", &wkb, &wkblen) == FAILURE) { RETURN_NULL(); } geom = GEOSWKBReader_readHEX_r(GEOS_G(handle), reader, wkb, wkblen); /* we'll probably get an exception if geom is null */ if ( ! geom ) RETURN_NULL(); /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, geom); } /* -- Free functions ------------------------- */ /** * string GEOSVersion() */ PHP_FUNCTION(GEOSVersion) { char *str; str = estrdup(GEOSversion()); GEOS_PHP_RETURN_STRING(str); } /** * array GEOSPolygonize(GEOSGeometry $geom) * * The returned array contains the following elements: * * - 'rings' * Type: array of GEOSGeometry * Rings that can be formed by the costituent * linework of geometry. * - 'cut_edges' (optional) * Type: array of GEOSGeometry * Edges which are connected at both ends but * which do not form part of polygon. * - 'dangles' * Type: array of GEOSGeometry * Edges which have one or both ends which are * not incident on another edge endpoint * - 'invalid_rings' * Type: array of GEOSGeometry * Edges which form rings which are invalid * (e.g. the component lines contain a self-intersection) * */ PHP_FUNCTION(GEOSPolygonize) { GEOSGeometry *this; GEOSGeometry *rings; GEOSGeometry *cut_edges; GEOSGeometry *dangles; GEOSGeometry *invalid_rings; zval *array_elem; zval *zobj; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } this = getRelay(zobj, Geometry_ce_ptr); rings = GEOSPolygonize_full_r(GEOS_G(handle), this, &cut_edges, &dangles, &invalid_rings); if ( ! rings ) RETURN_NULL(); /* should get an exception first */ /* return value should be an array */ array_init(return_value); MAKE_STD_ZVAL(array_elem); array_init(array_elem); dumpGeometry(rings, array_elem); GEOSGeom_destroy_r(GEOS_G(handle), rings); GEOS_PHP_ADD_ASSOC_ZVAL(return_value, "rings", array_elem); MAKE_STD_ZVAL(array_elem); array_init(array_elem); dumpGeometry(cut_edges, array_elem); GEOSGeom_destroy_r(GEOS_G(handle), cut_edges); GEOS_PHP_ADD_ASSOC_ZVAL(return_value, "cut_edges", array_elem); MAKE_STD_ZVAL(array_elem); array_init(array_elem); dumpGeometry(dangles, array_elem); GEOSGeom_destroy_r(GEOS_G(handle), dangles); GEOS_PHP_ADD_ASSOC_ZVAL(return_value, "dangles", array_elem); MAKE_STD_ZVAL(array_elem); array_init(array_elem); dumpGeometry(invalid_rings, array_elem); GEOSGeom_destroy_r(GEOS_G(handle), invalid_rings); GEOS_PHP_ADD_ASSOC_ZVAL(return_value, "invalid_rings", array_elem); } /** * array GEOSLineMerge(GEOSGeometry $geom) */ PHP_FUNCTION(GEOSLineMerge) { GEOSGeometry *geom_in; GEOSGeometry *geom_out; zval *zobj; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "o", &zobj) == FAILURE) { RETURN_NULL(); } geom_in = getRelay(zobj, Geometry_ce_ptr); geom_out = GEOSLineMerge_r(GEOS_G(handle), geom_in); if ( ! geom_out ) RETURN_NULL(); /* should get an exception first */ /* return value should be an array */ array_init(return_value); dumpGeometry(geom_out, return_value); GEOSGeom_destroy_r(GEOS_G(handle), geom_out); } /** * GEOSGeometry GEOSSharedPaths(GEOSGeometry $geom1, GEOSGeometry *geom2) */ #ifdef HAVE_GEOS_SHARED_PATHS PHP_FUNCTION(GEOSSharedPaths) { GEOSGeometry *geom_in_1; GEOSGeometry *geom_in_2; GEOSGeometry *geom_out; zval *zobj1, *zobj2; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "oo", &zobj1, &zobj2) == FAILURE) { RETURN_NULL(); } geom_in_1 = getRelay(zobj1, Geometry_ce_ptr); geom_in_2 = getRelay(zobj2, Geometry_ce_ptr); geom_out = GEOSSharedPaths_r(GEOS_G(handle), geom_in_1, geom_in_2); if ( ! geom_out ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, geom_out); } #endif /** * GEOSGeometry::delaunayTriangulation([], []) * * 'tolerance' * Type: double * snapping tolerance to use for improved robustness * 'onlyEdges' * Type: boolean * if true will return a MULTILINESTRING, otherwise (the default) * it will return a GEOMETRYCOLLECTION containing triangular POLYGONs. */ #ifdef HAVE_GEOS_DELAUNAY_TRIANGULATION PHP_METHOD(Geometry, delaunayTriangulation) { GEOSGeometry *this; GEOSGeometry *ret; double tolerance = 0.0; zend_bool edgeonly = 0; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|db", &tolerance, &edgeonly) == FAILURE) { RETURN_NULL(); } ret = GEOSDelaunayTriangulation_r(GEOS_G(handle), this, tolerance, edgeonly ? 1 : 0); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif /** * GEOSGeometry::voronoiDiagram([], [], []) * * 'tolerance' * Type: double * snapping tolerance to use for improved robustness * 'onlyEdges' * Type: boolean * if true will return a MULTILINESTRING, otherwise (the default) * it will return a GEOMETRYCOLLECTION containing POLYGONs. * 'extent' * Type: geometry * Clip returned diagram by the extent of the given geometry */ #ifdef HAVE_GEOS_VORONOI_DIAGRAM PHP_METHOD(Geometry, voronoiDiagram) { GEOSGeometry *this; GEOSGeometry *ret; zval *zobj = 0; GEOSGeometry *env = 0; double tolerance = 0.0; zend_bool edgeonly = 0; this = (GEOSGeometry*)getRelay(getThis(), Geometry_ce_ptr); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|dbo", &tolerance, &edgeonly, &zobj) == FAILURE) { RETURN_NULL(); } if ( zobj ) env = getRelay(zobj, Geometry_ce_ptr); ret = GEOSVoronoiDiagram_r(GEOS_G(handle), this, env, tolerance, edgeonly ? 1 : 0); if ( ! ret ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ object_init_ex(return_value, Geometry_ce_ptr); setRelay(return_value, ret); } #endif /** * bool GEOSRelateMatch(string matrix, string pattern) */ #ifdef HAVE_GEOS_RELATE_PATTERN_MATCH PHP_FUNCTION(GEOSRelateMatch) { char* mat = NULL; char* pat = NULL; #if PHP_VERSION_ID >= 70000 size_t matlen; size_t patlen; #else int matlen; int patlen; #endif int ret; zend_bool retBool; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss", &mat, &matlen, &pat, &patlen) == FAILURE) { RETURN_NULL(); } ret = GEOSRelatePatternMatch_r(GEOS_G(handle), mat, pat); if ( ret == 2 ) RETURN_NULL(); /* should get an exception first */ /* return_value is a zval */ retBool = ret; RETURN_BOOL(retBool); } #endif /* ------ Initialization / Deinitialization / Meta ------------------ */ /* per-module initialization */ PHP_MINIT_FUNCTION(geos) { zend_class_entry ce; /* WKTReader */ INIT_CLASS_ENTRY(ce, "GEOSWKTReader", WKTReader_methods); WKTReader_ce_ptr = zend_register_internal_class(&ce TSRMLS_CC); WKTReader_ce_ptr->create_object = WKTReader_create_obj; memcpy(&WKTReader_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers)); WKTReader_object_handlers.clone_obj = NULL; #if PHP_VERSION_ID >= 70000 WKTReader_object_handlers.offset = XtOffsetOf(Proxy, std); WKTReader_object_handlers.free_obj = WKTReader_dtor; #endif /* WKTWriter */ INIT_CLASS_ENTRY(ce, "GEOSWKTWriter", WKTWriter_methods); WKTWriter_ce_ptr = zend_register_internal_class(&ce TSRMLS_CC); WKTWriter_ce_ptr->create_object = WKTWriter_create_obj; memcpy(&WKTWriter_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers)); WKTWriter_object_handlers.clone_obj = NULL; #if PHP_VERSION_ID >= 70000 WKTWriter_object_handlers.offset = XtOffsetOf(Proxy, std); WKTWriter_object_handlers.free_obj = WKTWriter_dtor; #endif /* Geometry */ INIT_CLASS_ENTRY(ce, "GEOSGeometry", Geometry_methods); Geometry_ce_ptr = zend_register_internal_class(&ce TSRMLS_CC); Geometry_ce_ptr->create_object = Geometry_create_obj; memcpy(&Geometry_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers)); Geometry_object_handlers.clone_obj = NULL; /* Geometry serialization */ Geometry_ce_ptr->serialize = Geometry_serialize; Geometry_ce_ptr->unserialize = Geometry_deserialize; #if PHP_VERSION_ID >= 70000 Geometry_object_handlers.offset = XtOffsetOf(Proxy, std); Geometry_object_handlers.free_obj = Geometry_dtor; #endif /* WKBWriter */ INIT_CLASS_ENTRY(ce, "GEOSWKBWriter", WKBWriter_methods); WKBWriter_ce_ptr = zend_register_internal_class(&ce TSRMLS_CC); WKBWriter_ce_ptr->create_object = WKBWriter_create_obj; memcpy(&WKBWriter_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers)); WKBWriter_object_handlers.clone_obj = NULL; #if PHP_VERSION_ID >= 70000 WKBWriter_object_handlers.offset = XtOffsetOf(Proxy, std); WKBWriter_object_handlers.free_obj = WKBWriter_dtor; #endif /* WKBReader */ INIT_CLASS_ENTRY(ce, "GEOSWKBReader", WKBReader_methods); WKBReader_ce_ptr = zend_register_internal_class(&ce TSRMLS_CC); WKBReader_ce_ptr->create_object = WKBReader_create_obj; memcpy(&WKBReader_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers)); WKBReader_object_handlers.clone_obj = NULL; #if PHP_VERSION_ID >= 70000 WKBReader_object_handlers.offset = XtOffsetOf(Proxy, std); WKBReader_object_handlers.free_obj = WKBReader_dtor; #endif /* Constants */ REGISTER_LONG_CONSTANT("GEOSBUF_CAP_ROUND", GEOSBUF_CAP_ROUND, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSBUF_CAP_FLAT", GEOSBUF_CAP_FLAT, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSBUF_CAP_SQUARE", GEOSBUF_CAP_SQUARE, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSBUF_JOIN_ROUND", GEOSBUF_JOIN_ROUND, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSBUF_JOIN_MITRE", GEOSBUF_JOIN_MITRE, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSBUF_JOIN_BEVEL", GEOSBUF_JOIN_BEVEL, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_POINT", GEOS_POINT, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_LINESTRING", GEOS_LINESTRING, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_LINEARRING", GEOS_LINEARRING, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_POLYGON", GEOS_POLYGON, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_MULTIPOINT", GEOS_MULTIPOINT, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_MULTILINESTRING", GEOS_MULTILINESTRING, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_MULTIPOLYGON", GEOS_MULTIPOLYGON, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOS_GEOMETRYCOLLECTION", GEOS_GEOMETRYCOLLECTION, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE", GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE, CONST_CS|CONST_PERSISTENT); # ifdef HAVE_GEOS_PREC_NO_TOPO REGISTER_LONG_CONSTANT("GEOS_PREC_NO_TOPO", GEOS_PREC_NO_TOPO, CONST_CS|CONST_PERSISTENT); # endif # ifdef HAVE_GEOS_PREC_KEEP_COLLAPSED REGISTER_LONG_CONSTANT("GEOS_PREC_KEEP_COLLAPSED", GEOS_PREC_KEEP_COLLAPSED, CONST_CS|CONST_PERSISTENT); # endif REGISTER_LONG_CONSTANT("GEOSRELATE_BNR_MOD2", GEOSRELATE_BNR_MOD2, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSRELATE_BNR_OGC", GEOSRELATE_BNR_OGC, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSRELATE_BNR_ENDPOINT", GEOSRELATE_BNR_ENDPOINT, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSRELATE_BNR_MULTIVALENT_ENDPOINT", GEOSRELATE_BNR_MULTIVALENT_ENDPOINT, CONST_CS|CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GEOSRELATE_BNR_MONOVALENT_ENDPOINT", GEOSRELATE_BNR_MONOVALENT_ENDPOINT, CONST_CS|CONST_PERSISTENT); return SUCCESS; } /* per-module shutdown */ PHP_MSHUTDOWN_FUNCTION(geos) { delGeometrySerializer(); delGeometryDeserializer(); return SUCCESS; } /* per-request initialization */ PHP_RINIT_FUNCTION(geos) { GEOS_G(handle) = initGEOS_r(noticeHandler, errorHandler); return SUCCESS; } /* pre-request destruction */ PHP_RSHUTDOWN_FUNCTION(geos) { finishGEOS_r(GEOS_G(handle)); return SUCCESS; } /* global initialization */ PHP_GINIT_FUNCTION(geos) { geos_globals->handle = NULL; } /* module info */ PHP_MINFO_FUNCTION(geos) { php_info_print_table_start(); php_info_print_table_row(2, "GEOS - Geometry Engine Open Source", "enabled"); php_info_print_table_row(2, "Version", PHP_GEOS_VERSION); php_info_print_table_row(2, "GEOS Version", GEOSversion()); php_info_print_table_end(); } php-geos/package.xml000066400000000000000000000042051302745164400147240ustar00rootroot00000000000000 geos pecl.php.net PHP extension for interfacing with the GEOS library This extension provides a PECL package for the GEOS library. J Smith jay jay@php.net yes Sandro Santilli strk@kbt.io 2016-01-19 0.0.1 0.0.1 stable stable Mixed - First release 5.6.0 1.4.0b1 geos stablestable 0.0.10.0.1 2016-01-19 - First release php-geos/php_geos.h000066400000000000000000000031421302745164400145630ustar00rootroot00000000000000/*********************************************************************** * * GEOS - Geometry Engine Open Source * http://trac.osgeo.org/geos * * Copyright (C) 2010 Sandro Santilli * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser 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 * ***********************************************************************/ #ifndef PHP_GEOS_H #define PHP_GEOS_H /* TODO: generate from ./configure ? */ #define PHP_GEOS_VERSION "0.0" #define PHP_GEOS_EXTNAME "geos" #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "php.h" #ifdef ZTS #include "TSRM.h" #endif extern zend_module_entry geos_module_entry; #define phpext_geos_ptr &geos_module_entry; #ifdef ZTS #define GEOS_G(v) TSRMG(geos_globals_id, zend_geos_globals *, v) #else #define GEOS_G(v) (geos_globals.v) #endif ZEND_BEGIN_MODULE_GLOBALS(geos) GEOSContextHandle_t handle; ZEND_END_MODULE_GLOBALS(geos) #endif /* PHP_GEOS_H */ php-geos/phpunit.xml000066400000000000000000000002311302745164400150130ustar00rootroot00000000000000 tests php-geos/test/000077500000000000000000000000001302745164400135655ustar00rootroot00000000000000php-geos/test/crashme.php000066400000000000000000000006051302745164400157210ustar00rootroot00000000000000test(); php-geos/tests/000077500000000000000000000000001302745164400137505ustar00rootroot00000000000000php-geos/tests/000_General.phpt000066400000000000000000000030261302745164400166020ustar00rootroot00000000000000--TEST-- General tests --SKIPIF-- --FILE-- assertContains('-CAPI-', GEOSVersion()); } public function testConstants() { $this->assertEquals(1, GEOSBUF_CAP_ROUND); $this->assertEquals(2, GEOSBUF_CAP_FLAT); $this->assertEquals(3, GEOSBUF_CAP_SQUARE); $this->assertEquals(1, GEOSBUF_JOIN_ROUND); $this->assertEquals(2, GEOSBUF_JOIN_MITRE); $this->assertEquals(3, GEOSBUF_JOIN_BEVEL); $this->assertEquals(0, GEOS_POINT); $this->assertEquals(1, GEOS_LINESTRING); $this->assertEquals(2, GEOS_LINEARRING); $this->assertEquals(3, GEOS_POLYGON); $this->assertEquals(4, GEOS_MULTIPOINT); $this->assertEquals(5, GEOS_MULTILINESTRING); $this->assertEquals(6, GEOS_MULTIPOLYGON); $this->assertEquals(7, GEOS_GEOMETRYCOLLECTION); $this->assertEquals(1, GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE); $this->assertEquals(1, GEOSRELATE_BNR_MOD2); $this->assertEquals(1, GEOSRELATE_BNR_OGC); $this->assertEquals(2, GEOSRELATE_BNR_ENDPOINT); $this->assertEquals(3, GEOSRELATE_BNR_MULTIVALENT_ENDPOINT); $this->assertEquals(4, GEOSRELATE_BNR_MONOVALENT_ENDPOINT); } } GeneralTest::run(); ?> --EXPECT-- GeneralTest->testGEOSVersion OK GeneralTest->testConstants OK php-geos/tests/001_Geometry.phpt000066400000000000000000002101371302745164400170240ustar00rootroot00000000000000--TEST-- Geometry tests --SKIPIF-- --FILE-- setTrim(TRUE); } if (method_exists("GEOSWKTWriter", 'setOutputDimension')) { $writer->setOutputDimension(3); } $g = $reader->read('POINT(6 7 8)'); $g->setSRID(54); $a = array('geom' => $g, 'name' => 'test geometry'); $srl = serialize($a); $a2 = unserialize($srl); $this->assertEquals('POINT Z (6 7 8)', $writer->write($a['geom'])); } public function testGeometry_project() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(1 2)'); $g2 = $reader->read('POINT(3 4)'); /* The method only accept lineal geometries */ try { $prj = $g->project($g2); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('lineal', $e->getMessage()); } $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('POINT(0 0)'); $prj = $g->project($g2); $this->assertEquals(0, $prj); $prj = $g->project($g2, TRUE); $this->assertEquals(0, $prj); $g2 = $reader->read('POINT(10 0)'); $prj = $g->project($g2); $this->assertEquals(10, $prj); $prj = $g->project($g2, TRUE); $this->assertEquals(1, $prj); $g2 = $reader->read('POINT(5 0)'); $prj = $g->project($g2); $this->assertEquals(5, $prj); $prj = $g->project($g2, TRUE); $this->assertEquals(0.5, $prj); $g = $reader->read('MULTILINESTRING((0 0, 10 0),(20 10, 20 20))'); $g2 = $reader->read('POINT(20 0)'); $prj = $g->project($g2); $this->assertEquals(10, $prj); $prj = $g->project($g2, TRUE); $this->assertEquals(0.5, $prj); $g2 = $reader->read('POINT(20 5)'); $prj = $g->project($g2); $this->assertEquals(10, $prj); $prj = $g->project($g2, TRUE); $this->assertEquals(0.5, $prj); } public function testGeometry_interpolate() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setTrim')) { $writer->setTrim(TRUE); } /* The method only accept LineString geometries */ $g = $reader->read('POINT(1 2)'); try { $prj = $g->interpolate(0); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('LineString', $e->getMessage()); } $g = $reader->read('LINESTRING(0 0, 10 0)'); $prj = $g->interpolate(0); $this->assertNotNull($prj); $this->assertEquals('POINT (0 0)', $writer->write($prj)); $prj = $g->interpolate(0, TRUE); $this->assertNotNull($prj); $this->assertEquals('POINT (0 0)', $writer->write($prj)); $prj = $g->interpolate(5); $this->assertNotNull($prj); $this->assertEquals('POINT (5 0)', $writer->write($prj)); $prj = $g->interpolate(0.5, TRUE); $this->assertNotNull($prj); $this->assertEquals('POINT (5 0)', $writer->write($prj)); /* return closest on longer distance */ $prj = $g->interpolate(20); $this->assertNotNull($prj); $this->assertEquals('POINT (10 0)', $writer->write($prj)); $prj = $g->interpolate(2, TRUE); $this->assertNotNull($prj); $this->assertEquals('POINT (10 0)', $writer->write($prj)); } public function testGeometry_buffer() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->buffer(0); $this->assertEquals('POLYGON EMPTY', $writer->write($b)); $b = $g->buffer(10); $this->assertEquals('POLYGON ((10 0, 10 -2, 9 -4, 8 -6, 7 -7, 6 -8, 4 -9, 2 -10, 0 -10, -2 -10, -4 -9, -6 -8, -7 -7, -8 -6, -9 -4, -10 -2, -10 -0, -10 2, -9 4, -8 6, -7 7, -6 8, -4 9, -2 10, -0 10, 2 10, 4 9, 6 8, 7 7, 8 6, 9 4, 10 2, 10 0))', $writer->write($b)); # One segment per quadrant $b = $g->buffer(10, array('quad_segs' => 1)); $this->assertEquals('POLYGON ((10 0, 0 -10, -10 -0, -0 10, 10 0))', $writer->write($b)); /* End cap styles */ $g = $reader->read('LINESTRING(0 0, 100 0)'); $b = $g->buffer(10, array( 'quad_segs' => 1, 'endcap' => GEOSBUF_CAP_ROUND )); $this->assertEquals('POLYGON ((100 10, 110 0, 100 -10, 0 -10, -10 0, 0 10, 100 10))', $writer->write($b)); $b = $g->buffer(10, array( 'quad_segs' => 1, 'endcap' => GEOSBUF_CAP_FLAT )); $this->assertEquals('POLYGON ((100 10, 100 -10, 0 -10, 0 10, 100 10))', $writer->write($b)); $b = $g->buffer(10, array( 'quad_segs' => 1, 'endcap' => GEOSBUF_CAP_SQUARE )); $this->assertEquals('POLYGON ((100 10, 110 10, 110 -10, 0 -10, -10 -10, -10 10, 100 10))', $writer->write($b)); /* Join styles */ $g = $reader->read('LINESTRING(0 0, 100 0, 100 100)'); $b = $g->buffer(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_ROUND )); $this->assertEquals('POLYGON ((90 10, 90 100, 93 107, 100 110, 107 107, 110 100, 110 0, 107 -7, 100 -10, 0 -10, -7 -7, -10 0, -7 7, 0 10, 90 10))', $writer->write($b)); $b = $g->buffer(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_BEVEL )); $this->assertEquals('POLYGON ((90 10, 90 100, 93 107, 100 110, 107 107, 110 100, 110 0, 100 -10, 0 -10, -7 -7, -10 0, -7 7, 0 10, 90 10))', $writer->write($b)); $b = $g->buffer(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_MITRE )); $this->assertEquals('POLYGON ((90 10, 90 100, 93 107, 100 110, 107 107, 110 100, 110 -10, 0 -10, -7 -7, -10 0, -7 7, 0 10, 90 10))', $writer->write($b)); $b = $g->buffer(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_MITRE, 'mitre_limit' => 1.0 )); $this->assertEquals('POLYGON ((90 10, 90 100, 93 107, 100 110, 107 107, 110 100, 109 -5, 105 -9, 0 -10, -7 -7, -10 0, -7 7, 0 10, 90 10))', $writer->write($b)); /* Check that elements of the passed style array are not * type-converted (buffer op will need to type-convert * internally) */ $ary = array('a' => 1); $myStyle = array( 'quad_segs' => "a string", 'join' => "1", 'endcap' => $ary, 'mitre_limit' => 2 /* an int.. */ ); $this->assertEquals('string', gettype($myStyle['quad_segs'])); $this->assertEquals('string', gettype($myStyle['join'])); $this->assertEquals('array', gettype($myStyle['endcap'])); $this->assertEquals('integer', gettype($myStyle['mitre_limit'])); $b = $g->buffer(10, $myStyle); $this->assertEquals('string', gettype($myStyle['quad_segs'])); $this->assertEquals('string', gettype($myStyle['join'])); $this->assertEquals('array', gettype($myStyle['endcap'])); $this->assertEquals('integer', gettype($myStyle['mitre_limit'])); /* Single-sided buffering */ $g = $reader->read('LINESTRING(0 0, 100 0)'); $b = $g->buffer(10, array( 'single_sided' => true )); $this->assertEquals('POLYGON ((100 0, 0 0, 0 10, 100 10, 100 0))', $writer->write($b)); $b = $g->buffer(-10, array( 'single_sided' => true )); $this->assertEquals('POLYGON ((0 0, 100 0, 100 -10, 0 -10, 0 0))', $writer->write($b)); } public function testGeometry_offsetCurve() { if (!method_exists("GEOSGeometry", 'offsetCurve')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setRoundingPrecision(0); /* Join styles */ $g = $reader->read('LINESTRING(0 0, 100 0, 100 100)'); /* left, round join */ $b = $g->offsetCurve(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_ROUND )); $this->assertEquals('LINESTRING (0 10, 90 10, 90 100)', $writer->write($b)); /* right, round join */ $b = $g->offsetCurve(-10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_ROUND )); $this->assertEquals('LINESTRING (110 100, 110 0, 107 -7, 100 -10, 0 -10)', $writer->write($b)); /* left, bevel join */ $b = $g->offsetCurve(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_BEVEL )); $this->assertEquals('LINESTRING (0 10, 90 10, 90 100)', $writer->write($b)); /* right, bevel join */ $b = $g->offsetCurve(-10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_BEVEL )); $this->assertEquals('LINESTRING (110 100, 110 0, 100 -10, 0 -10)', $writer->write($b)); /* left, mitre join */ $b = $g->offsetCurve(10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_MITRE )); $this->assertEquals('LINESTRING (0 10, 90 10, 90 100)', $writer->write($b)); /* right, mitre join */ $b = $g->offsetCurve(-10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_MITRE )); $this->assertEquals('LINESTRING (110 100, 110 -10, 0 -10)', $writer->write($b)); /* right, mitre join limited */ $b = $g->offsetCurve(-10, array( 'quad_segs' => 2, 'join' => GEOSBUF_JOIN_MITRE, 'mitre_limit' => 1.0 )); $this->assertEquals('LINESTRING (110 100, 109 -5, 105 -9, 0 -10)', $writer->write($b)); } public function testGeometry_envelope() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->envelope(); $this->assertEquals('POINT (0 0)', $writer->write($b)); $g = $reader->read('LINESTRING(0 0, 10 10)'); $b = $g->envelope(); $this->assertEquals('POLYGON ((0 0, 10 0, 10 10, 0 10, 0 0))', $writer->write($b)); } public function testGeometry_intersection() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } /* POINT - POINT */ $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'POINT (0 0)', $writer->write($gi)); $g2 = $reader->read('POINT(1 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); /* POINT - LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('POINT(5 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'POINT (5 0)', $writer->write($gi)); $g2 = $reader->read('POINT(12 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); /* LINE - LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->intersection($g2); $this->assertEquals( 'POINT (5 0)', $writer->write($gi)); $g2 = $reader->read('LINESTRING(5 0, 20 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'LINESTRING (5 0, 10 0)', $writer->write($gi)); /* LINE - POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->intersection($g2); $this->assertEquals( 'LINESTRING (5 0, 5 10)', $writer->write($gi)); $g2 = $reader->read('LINESTRING(10 0, 20 0)'); $gi = $g->intersection($g2); $this->assertEquals( 'POINT (10 0)', $writer->write($gi)); /* POLY - POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POLYGON((5 -5, 5 5, 15 5, 15 -5, 5 -5))'); $gi = $g->intersection($g2); $this->assertTrue($gi->equals($reader->read('POLYGON ((10 5, 10 0, 5 0, 5 5, 10 5))'))); $g2 = $reader->read('POLYGON((10 0, 20 0, 20 -5, 10 -5, 10 0))'); $gi = $g->intersection($g2); $this->assertEquals( 'POINT (10 0)', $writer->write($gi)); $g2 = $reader->read('POLYGON((8 0, 20 0, 20 -5, 10 -5, 8 0))'); $gi = $g->intersection($g2); $this->assertEquals( 'LINESTRING (8 0, 10 0)', $writer->write($gi)); } public function testGeometry_clipByRect() { if (!method_exists("GEOSGeometry", 'clipByRect')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setRoundingPrecision(0); /* POINT */ $g = $reader->read('POINT(0 0)'); $gi = $g->clipByRect(-1,-1,1,1); $this->assertEquals( 'POINT (0 0)', $writer->write($gi)); $gi = $g->clipByRect(1,1,2,2); $this->assertEquals( 'GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); /* LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $gi = $g->clipByRect(1,-1,2,1); $this->assertEquals( 'LINESTRING (1 0, 2 0)', $writer->write($gi)); /* POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $gi = $g->clipByRect(1,1,5,5); $this->assertEquals( 'POLYGON ((1 1, 1 5, 5 5, 5 1, 1 1))', $writer->write($gi)); $gi = $g->clipByRect(-1,-1,5,5); $this->assertEquals( 'POLYGON ((0 0, 0 5, 5 5, 5 0, 0 0))', $writer->write($gi)); } public function testGeometry_convexHull() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->convexHull(); $this->assertEquals('POINT (0 0)', $writer->write($b)); $g = $reader->read('LINESTRING(0 0, 10 10)'); $b = $g->convexHull(); $this->assertEquals('LINESTRING (0 0, 10 10)', $writer->write($b)); $g = $reader->read('POLYGON((0 0, 0 10, 5 5, 10 10, 10 0, 0 0))'); $b = $g->convexHull(); $this->assertEquals('POLYGON ((0 0, 0 10, 10 10, 10 0, 0 0))', $writer->write($b)); } public function testGeometry_difference() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } /* POINT - POINT */ $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $gi = $g->difference($g2); $this->assertEquals( 'GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); $g2 = $reader->read('POINT(1 0)'); $gi = $g->difference($g2); $this->assertEquals('POINT (0 0)', $writer->write($gi)); /* LINE - POINT */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('POINT(5 0)'); $gi = $g->difference($g2); $this->assertEquals('LINESTRING (0 0, 10 0)', $writer->write($gi)); /* POINT - LINE */ $g = $reader->read('POINT(5 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $gi = $g->difference($g2); $this->assertEquals('GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); $g2 = $reader->read('LINESTRING(0 1, 10 1)'); $gi = $g->difference($g2); $this->assertEquals( 'POINT (5 0)', $writer->write($gi)); /* LINE - LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->difference($g2); $this->assertEquals( 'MULTILINESTRING ((0 0, 5 0), (5 0, 10 0))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(5 0, 20 0)'); $gi = $g->difference($g2); $this->assertEquals( 'LINESTRING (0 0, 5 0)', $writer->write($gi)); /* POLY - LINE */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->difference($g2); $this->assertEquals('POLYGON ((5 0, 0 0, 0 10, 5 10, 10 10, 10 0, 5 0))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(10 0, 20 0)'); $gi = $g->difference($g2); $this->assertEquals('POLYGON ((10 0, 0 0, 0 10, 10 10, 10 0))', $writer->write($gi)); /* POLY - POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POLYGON((5 -5, 5 5, 15 5, 15 -5, 5 -5))'); $gi = $g->difference($g2); $this->assertEquals('POLYGON ((5 0, 0 0, 0 10, 10 10, 10 5, 5 5, 5 0))', $writer->write($gi)); } public function testGeometry_symdifference() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } /* POINT - POINT */ $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $gi = $g->symDifference($g2); $this->assertEquals( 'GEOMETRYCOLLECTION EMPTY', $writer->write($gi)); $g2 = $reader->read('POINT(1 0)'); $gi = $g->symDifference($g2); $this->assertEquals( 'MULTIPOINT (0 0, 1 0)', $writer->write($gi)); /* LINE - POINT */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('POINT(5 0)'); $gi = $g->symDifference($g2); $this->assertEquals('LINESTRING (0 0, 10 0)', $writer->write($gi)); /* POINT - LINE */ $g = $reader->read('POINT(5 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $gi = $g->symDifference($g2); $this->assertEquals( 'LINESTRING (0 0, 10 0)', $writer->write($gi)); $g2 = $reader->read('LINESTRING(0 1, 10 1)'); $gi = $g->symDifference($g2); $this->assertEquals('GEOMETRYCOLLECTION (POINT (5 0), LINESTRING (0 1, 10 1))', $writer->write($gi)); /* LINE - LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->symDifference($g2); $this->assertEquals('MULTILINESTRING ((0 0, 5 0), (5 0, 10 0), (5 -10, 5 0), (5 0, 5 10))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(5 0, 20 0)'); $gi = $g->symDifference($g2); $this->assertEquals('MULTILINESTRING ((0 0, 5 0), (10 0, 20 0))', $writer->write($gi)); /* POLY - LINE */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->symDifference($g2); $this->assertEquals('GEOMETRYCOLLECTION (LINESTRING (5 -10, 5 0), POLYGON ((5 0, 0 0, 0 10, 5 10, 10 10, 10 0, 5 0)))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(10 0, 20 0)'); $gi = $g->symDifference($g2); $this->assertEquals('GEOMETRYCOLLECTION (LINESTRING (10 0, 20 0), POLYGON ((10 0, 0 0, 0 10, 10 10, 10 0)))', $writer->write($gi)); /* POLY - POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POLYGON((5 -5, 5 5, 15 5, 15 -5, 5 -5))'); $gi = $g->symDifference($g2); $this->assertEquals('MULTIPOLYGON (((5 0, 0 0, 0 10, 10 10, 10 5, 5 5, 5 0)), ((5 0, 10 0, 10 5, 15 5, 15 -5, 5 -5, 5 0)))', $writer->write($gi)); } public function testGeometry_boundary() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->boundary(); $this->assertEquals('GEOMETRYCOLLECTION EMPTY', $writer->write($b)); $g = $reader->read('LINESTRING(0 0, 10 10)'); $b = $g->boundary(); $this->assertEquals('MULTIPOINT (0 0, 10 10)', $writer->write($b)); $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0),( 5 5, 5 6, 6 6, 6 5, 5 5))'); $b = $g->boundary(); $this->assertEquals('MULTILINESTRING ((0 0, 10 0, 10 10, 0 10, 0 0), (5 5, 5 6, 6 6, 6 5, 5 5))', $writer->write($b)); } public function testGeometry_union() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } /* POINT - POINT */ $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $gi = $g->union($g2); $this->assertEquals( 'POINT (0 0)', $writer->write($gi)); $g2 = $reader->read('POINT(1 0)'); $gi = $g->union($g2); $this->assertEquals( 'MULTIPOINT (0 0, 1 0)', $writer->write($gi)); /* LINE - POINT */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('POINT(5 0)'); $gi = $g->union($g2); $this->assertEquals('LINESTRING (0 0, 10 0)', $writer->write($gi)); /* POINT - LINE */ $g = $reader->read('POINT(5 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $gi = $g->union($g2); $this->assertEquals( 'LINESTRING (0 0, 10 0)', $writer->write($gi)); $g2 = $reader->read('LINESTRING(0 1, 10 1)'); $gi = $g->union($g2); $this->assertEquals('GEOMETRYCOLLECTION (POINT (5 0), LINESTRING (0 1, 10 1))', $writer->write($gi)); /* LINE - LINE */ $g = $reader->read('LINESTRING(0 0, 10 0)'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->union($g2); $this->assertEquals('MULTILINESTRING ((0 0, 5 0), (5 0, 10 0), (5 -10, 5 0), (5 0, 5 10))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(5 0, 20 0)'); $gi = $g->union($g2); $this->assertEquals('MULTILINESTRING ((0 0, 5 0), (5 0, 10 0), (10 0, 20 0))', $writer->write($gi)); /* POLY - LINE */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('LINESTRING(5 -10, 5 10)'); $gi = $g->union($g2); $this->assertEquals('GEOMETRYCOLLECTION (LINESTRING (5 -10, 5 0), POLYGON ((5 0, 0 0, 0 10, 5 10, 10 10, 10 0, 5 0)))', $writer->write($gi)); $g2 = $reader->read('LINESTRING(10 0, 20 0)'); $gi = $g->union($g2); $this->assertEquals('GEOMETRYCOLLECTION (LINESTRING (10 0, 20 0), POLYGON ((10 0, 0 0, 0 10, 10 10, 10 0)))', $writer->write($gi)); /* POLY - POLY */ $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POLYGON((5 -5, 5 5, 15 5, 15 -5, 5 -5))'); $gi = $g->union($g2); $this->assertEquals('POLYGON ((5 0, 0 0, 0 10, 10 10, 10 5, 15 5, 15 -5, 5 -5, 5 0))', $writer->write($gi)); } public function testGeometry_unaryunion() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('MULTIPOLYGON( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)), ((0 0, 11 0, 11 11, 0 11, 0 0)) ))'); $gu = $g->union(); $this->assertEquals('POLYGON ((1 0, 0 0, 0 1, 0 11, 10 11, 10 14, 14 14, 14 10, 11 10, 11 0, 1 0), (11 11, 12 11, 12 12, 11 12, 11 11))', $writer->write($gu)); $g = $reader->read('MULTILINESTRING( (0 0, 1 0, 1 1, 0 1, 0 0), (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11), (0 0, 11 0, 11 11, 0 11, 0 0) )'); $gu = $g->union(); $this->assertEquals('MULTILINESTRING ((0 0, 1 0), (1 0, 1 1, 0 1), (0 1, 0 0), (1 0, 11 0, 11 10), (11 10, 11 11), (11 11, 10 11), (10 11, 0 11, 0 1), (11 11, 11 12, 12 12, 12 11, 11 11), (10 10, 10 11), (10 11, 10 14, 14 14, 14 10, 11 10), (11 10, 10 10))', $writer->write($gu)); $g = $reader->read('MULTIPOINT( 0 0, 1 0, 1 1, 0 1, 0 0, 10 10, 10 14, 14 14, 14 10, 10 10, 11 11, 11 12, 12 12, 12 11, 11 11, 0 0, 11 0, 11 11, 0 11, 0 0 )'); $gu = $g->union(); $this->assertEquals('MULTIPOINT (0 0, 0 1, 0 11, 1 0, 1 1, 10 10, 10 14, 11 0, 11 11, 11 12, 12 11, 12 12, 14 10, 14 14)', $writer->write($gu)); $g = $reader->read('GEOMETRYCOLLECTION( MULTIPOLYGON( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)), ((0 0, 11 0, 11 11, 0 11, 0 0)) ), MULTILINESTRING( (0 0, 1 0, 1 1, 0 1, 0 0), (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11), (0 0, 11 0, 11 11, 0 11, 0 0),(-8 8, -8 6) ), MULTIPOINT( 0 0, 1 0, 1 1, 0 1, 0 0, 10 10, 10 14, 14 14, 14 10, 10 10, 11 11, 11 12, 12 12, 12 11, 11 11, 0 0, 11 0, 11 11, 0 11, 0 0, -10 -10 ))'); $gu = $g->union(); $this->assertEquals('GEOMETRYCOLLECTION (POINT (-10 -10), LINESTRING (-8 8, -8 6), POLYGON ((1 0, 0 0, 0 1, 0 11, 10 11, 10 14, 14 14, 14 10, 11 10, 11 0, 1 0), (11 12, 11 11, 12 11, 12 12, 11 12)))', $writer->write($gu)); } public function testGeometry_pointOnSurface() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->pointOnSurface(); $this->assertEquals('POINT (0 0)', $writer->write($b)); $g = $reader->read('LINESTRING(0 0, 5 5, 10 10)'); $b = $g->pointOnSurface(); $this->assertEquals('POINT (5 5)', $writer->write($b)); $g = $reader->read('POLYGON((0 0, 0 10, 5 5, 10 10, 10 0, 0 0))'); $b = $g->pointOnSurface(); $this->assertEquals('POINT (1 8)', $writer->write($b)); } public function testGeometry_centroid() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $b = $g->centroid(); $this->assertEquals('POINT (0 0)', $writer->write($b)); $g = $reader->read('LINESTRING(0 0, 10 10)'); $b = $g->centroid(); $this->assertEquals('POINT (5 5)', $writer->write($b)); $g = $reader->read('POLYGON((0 0, 0 10, 5 5, 10 10, 10 0, 0 0))'); $b = $g->centroid(); $this->assertEquals('POINT (5 4)', $writer->write($b)); } public function testGeometry_relate() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $ret = $g->relate($g2); $this->assertEquals('0FFFFFFF2', $ret); $ret = $g->relate($g2, '0FFFFFFF2'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, '0*******T'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, '0*******1'); $this->assertEquals(FALSE, $ret); $g = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(1 0)'); $ret = $g->relate($g2); $this->assertEquals('FF0FFF0F2', $ret); $ret = $g->relate($g2, 'FF0FFF0F2'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, 'F*******2'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, 'T*******2'); $this->assertEquals(FALSE, $ret); $g = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POINT(1 0)'); $ret = $g->relate($g2); $this->assertEquals('FF20F1FF2', $ret); $ret = $g->relate($g2, 'FF20F1FF2'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, 'F****T**T'); $this->assertEquals(TRUE, $ret); $ret = $g->relate($g2, 'T*******2'); $this->assertEquals(FALSE, $ret); } public function testGeometry_relateBoundaryNodeRule() { if (!method_exists("GEOSGeometry", 'relateBoundaryNodeRule')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('LINESTRING(0 0, 2 4, 5 5, 0 0)'); $g2 = $reader->read('POINT(0 0)'); $ret = $g->relateBoundaryNodeRule($g2, GEOSRELATE_BNR_OGC); $this->assertEquals('0F1FFFFF2', $ret); $ret = $g->relateBoundaryNodeRule($g2, GEOSRELATE_BNR_ENDPOINT); $this->assertEquals('FF10FFFF2', $ret); } public function testGeometry_polygonize() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('GEOMETRYCOLLECTION( LINESTRING(0 0, 10 10), LINESTRING(185 221, 100 100), LINESTRING(185 221, 88 275, 180 316), LINESTRING(185 221, 292 281, 180 316), LINESTRING(189 98, 83 187, 185 221), LINESTRING(189 98, 325 168, 185 221)) )'); $g2 = $reader->read('POINT(0 0)'); $ret = GEOSPolygonize($g); $this->assertEquals('array', gettype($ret)); $this->assertEquals('array', gettype($ret['rings'])); $this->assertEquals('array', gettype($ret['cut_edges'])); $this->assertEquals('array', gettype($ret['dangles'])); $this->assertEquals('array', gettype($ret['invalid_rings'])); $this->assertEquals(2, count($ret['rings'])); $this->assertEquals('POLYGON ((185 221, 88 275, 180 316, 292 281, 185 221))', # JTS-confirmed! $writer->write($ret['rings'][0])); $this->assertEquals('POLYGON ((189 98, 83 187, 185 221, 325 168, 189 98))', # JTS-confirmed ! $writer->write($ret['rings'][1])); $this->assertEquals(0, count($ret['cut_edges'])); $this->assertEquals(0, count($ret['invalid_rings'])); /* * FIXME: the duplicated dangle (0 0, 10 10) is unexpected */ $this->assertEquals(2, count($ret['dangles'])); $this->assertEquals('LINESTRING (185 221, 100 100)', # JTS-confirmed ! $writer->write($ret['dangles'][0])); $this->assertEquals('LINESTRING (0 0, 10 10)', # JTS-confirmed ! $writer->write($ret['dangles'][1])); ########################################################### $g = $g->union($g2); /* Now make sure linestrings are noded */ $ret = GEOSPolygonize($g); $this->assertEquals('array', gettype($ret)); $this->assertEquals('array', gettype($ret['rings'])); $this->assertEquals('array', gettype($ret['cut_edges'])); $this->assertEquals('array', gettype($ret['dangles'])); $this->assertEquals('array', gettype($ret['invalid_rings'])); $this->assertEquals(2, count($ret['dangles'])); $this->assertEquals('LINESTRING (132 146, 100 100)', $writer->write($ret['dangles'][0])); $this->assertEquals('LINESTRING (0 0, 10 10)', $writer->write($ret['dangles'][1])); $this->assertEquals(0, count($ret['invalid_rings'])); // TODO: test a polygonize run with cut lines and invalid_rings } public function testGeometry_lineMerge() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('MULTILINESTRING( (0 0, 10 10), (10 10, 10 0), (5 0, 10 0), (5 -5, 5 0) )'); $ret = GEOSLineMerge($g); $this->assertEquals('array', gettype($ret)); $this->assertEquals('1', count($ret)); $this->assertEquals('LINESTRING (0 0, 10 10, 10 0, 5 0, 5 -5)', $writer->write($ret[0])); } public function testGeometry_sharedPaths() { if (!function_exists('GEOSSharedPaths')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } /* LINE - LINE */ $g1 = $reader->read('LINESTRING(0 0, 50 0)'); $g2 = $reader->read('MULTILINESTRING((5 0, 15 0),(40 0, 30 0))'); $gs = GEOSSharedPaths($g1, $g2); $this->assertEquals('GEOMETRYCOLLECTION (MULTILINESTRING ((5 0, 15 0)), MULTILINESTRING ((30 0, 40 0)))', $writer->write($gs)); } public function testGeometry_simplify() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('LINESTRING(0 0, 3 4, 5 10, 10 0, 10 9, 5 11, 0 9)'); $gs = $g->simplify(2); $this->assertEquals( 'LINESTRING (0 0, 5 10, 10 0, 10 9, 0 9)', $writer->write($gs)); $gs = $g->simplify(2, TRUE); $this->assertEquals( 'LINESTRING (0 0, 5 10, 10 0, 10 9, 5 11, 0 9)', $writer->write($gs)); } public function testGeometry_extractUniquePoints() { if (!method_exists("GEOSGeometry", 'extractUniquePoints')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read( 'GEOMETRYCOLLECTION ( MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) ), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0), POINT(1 0)), LINESTRING EMPTY '); $gs = $g->extractUniquePoints(); if ( ! $gs ) RETURN_NULL(); /* should get an exception before */ $this->assertEquals('MULTIPOINT (0 0, 1 0, 1 1, 0 1, 10 10, 10 14, 14 14, 14 10, 11 11, 11 12, 12 12, 12 11, 2 3, 3 4, 9 0)', $writer->write($gs)); } public function testGeometry_relationalOps() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g1 = $reader->read('POINT(0 0)'); $g2 = $reader->read('POINT(0 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); /* no bounds, can't touch */ $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertTrue( $g1->within($g2) ); $this->assertTrue( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertTrue( $g1->equals($g2) ); $this->assertTrue( $g1->equalsExact($g2) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertTrue( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertTrue( $g1->coveredBy($g2) ); } $g1 = $reader->read('POINT(0 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertTrue( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 10) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertTrue( $g1->coveredBy($g2) ); } $g1 = $reader->read('POINT(5 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertTrue( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 10) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertTrue( $g1->coveredBy($g2) ); } $g1 = $reader->read('LINESTRING(5 -5, 5 5)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertTrue( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertFalse( $g1->coveredBy($g2) ); } $g1 = $reader->read('LINESTRING(5 0, 15 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertTrue( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertFalse( $g1->coveredBy($g2) ); } $g1 = $reader->read('LINESTRING(0 0, 5 0, 10 0)'); $g2 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertTrue( $g1->within($g2) ); $this->assertTrue( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertTrue( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertTrue( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertTrue( $g1->coveredBy($g2) ); } $g1 = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POLYGON((5 -5, 5 5, 15 5, 15 -5, 5 -5))'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertTrue( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertFalse( $g1->coveredBy($g2) ); } $g1 = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POINT(15 15)'); $this->assertTrue( $g1->disjoint($g2) ); $this->assertFalse( $g1->touches($g2) ); $this->assertFalse( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertFalse( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertFalse( $g1->coveredBy($g2) ); } $g1 = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 10, 0 0))'); $g2 = $reader->read('POINT(5 0)'); $this->assertFalse( $g1->disjoint($g2) ); $this->assertTrue( $g1->touches($g2) ); $this->assertTrue( $g1->intersects($g2) ); $this->assertFalse( $g1->crosses($g2) ); $this->assertFalse( $g1->within($g2) ); $this->assertFalse( $g1->contains($g2) ); $this->assertFalse( $g1->overlaps($g2) ); $this->assertFalse( $g1->equals($g2) ); $this->assertFalse( $g1->equalsExact($g2, 1) ); if (method_exists("GEOSGeometry", 'covers')) { $this->assertTrue( $g1->covers($g2) ); } if (method_exists("GEOSGeometry", 'coveredBy')) { $this->assertFalse( $g1->coveredBy($g2) ); } } public function testGeometry_isEmpty() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g1 = $reader->read('POINT(0 0)'); $this->assertFalse( $g1->isEmpty() ); $g1 = $reader->read('POINT EMPTY'); $this->assertTrue( $g1->isEmpty() ); $g1 = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertFalse( $g1->isEmpty() ); $g1 = $reader->read('LINESTRING EMPTY'); $this->assertTrue( $g1->isEmpty() ); $g1 = $reader->read('POLYGON((0 0, 10 0, 10 10, 0 0))'); $this->assertFalse( $g1->isEmpty() ); $g1 = $reader->read('POLYGON EMPTY'); $this->assertTrue( $g1->isEmpty() ); $g1 = $reader->read('GEOMETRYCOLLECTION(POINT(0 0))'); $this->assertFalse( $g1->isEmpty() ); $g1 = $reader->read('GEOMETRYCOLLECTION EMPTY'); $this->assertTrue( $g1->isEmpty() ); } public function testGeometry_checkValidity() { if (!method_exists("GEOSGeometry", 'checkValidity')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POINT(0 0)'); $val = $g->checkValidity(); $this->assertType( 'array', $val ); $this->assertTrue( $val['valid'] ); $this->assertFalse( isset($val['reason']) ); $this->assertFalse( isset($val['location']) ); $g = $reader->read('POINT(0 NaN)'); $val = $g->checkValidity(); $this->assertType( 'array', $val ); $this->assertFalse( $val['valid'] ); $this->assertEquals( 'Invalid Coordinate', $val['reason'] ); $this->assertEquals( 'POINT (0 nan)', $writer->write($val['location']) ); $g = $reader->read( 'POLYGON((0 0, -10 10, 10 10, 0 0, 4 5, -4 5, 0 0)))' ); $val = $g->checkValidity(); $this->assertType( 'array', $val ); $this->assertFalse( $val['valid'] ); $this->assertEquals( 'Ring Self-intersection', $val['reason'] ); $this->assertEquals( 'POINT (0 0)', $writer->write($val['location']) ); $g = $reader->read( 'POLYGON((0 0, -10 10, 10 10, 0 0, 4 5, -4 5, 0 0)))' ); $flags = GEOSVALID_ALLOW_SELFTOUCHING_RING_FORMING_HOLE; $val = $g->checkValidity($flags); $this->assertType( 'array', $val ); $this->assertTrue( $val['valid'] ); $this->assertFalse( isset($val['reason']) ); $this->assertFalse( isset($val['location']) ); } public function testGeometry_isSimple() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertTrue( $g->isSimple() ); $g = $reader->read('LINESTRING(0 0, 10 0)'); $this->assertTrue( $g->isSimple() ); $g = $reader->read('LINESTRING(0 0, 10 0, 5 5, 5 -5)'); $this->assertFalse( $g->isSimple() ); } public function testGeometry_isRing() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertFalse( $g->isRing() ); $g = $reader->read('LINESTRING(0 0, 10 0, 5 5, 5 -5)'); $this->assertFalse( $g->isRing() ); $g = $reader->read('LINESTRING(0 0, 10 0, 5 5, 0 0)'); $this->assertTrue( $g->isRing() ); } public function testGeometry_hasZ() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertFalse( $g->hasZ() ); $g = $reader->read('POINT(0 0 0)'); $this->assertTrue( $g->hasZ() ); } public function testGeometry_isClosed() { if (!method_exists("GEOSGeometry", 'isClosed')) { return; } $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); try { $this->assertFalse( $g->isClosed() ); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('LineString', $e->getMessage()); } $g = $reader->read('LINESTRING(0 0, 10 0, 5 5, 5 -5)'); $this->assertFalse( $g->isClosed() ); $g = $reader->read('LINESTRING(0 0, 10 0, 5 5, 0 0)'); $this->assertTrue( $g->isClosed() ); } public function testGeometry_type() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals('Point', $g->typeName()); $this->assertEquals(GEOS_POINT, $g->typeId()); $g = $reader->read('MULTIPOINT (0 1, 2 3)'); $this->assertEquals('MultiPoint', $g->typeName()); $this->assertEquals(GEOS_MULTIPOINT, $g->typeId()); $g = $reader->read('LINESTRING (0 0, 2 3)'); $this->assertEquals('LineString', $g->typeName()); $this->assertEquals(GEOS_LINESTRING, $g->typeId()); $g = $reader->read('MULTILINESTRING ((0 1, 2 3), (10 10, 3 4))'); $this->assertEquals('MultiLineString', $g->typeName()); $this->assertEquals(GEOS_MULTILINESTRING, $g->typeId()); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals('Polygon', $g->typeName()); $this->assertEquals(GEOS_POLYGON, $g->typeId()); $g = $reader->read('MULTIPOLYGON (((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)))'); $this->assertEquals('MultiPolygon', $g->typeName()); $this->assertEquals(GEOS_MULTIPOLYGON, $g->typeId()); $g = $reader->read('GEOMETRYCOLLECTION (MULTIPOLYGON (((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11))), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0))'); $this->assertEquals('GeometryCollection', $g->typeName()); $this->assertEquals(GEOS_GEOMETRYCOLLECTION, $g->typeId()); } public function testGeometry_srid() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals(0, $g->getSRID()); $g->setSRID(2); $this->assertEquals(2, $g->getSRID()); } public function testGeometry_numGeometries() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals(1, $g->numGeometries()); $g = $reader->read('MULTIPOINT (0 1, 2 3)'); $this->assertEquals(2, $g->numGeometries()); $g = $reader->read('LINESTRING (0 0, 2 3)'); $this->assertEquals(1, $g->numGeometries()); $g = $reader->read('MULTILINESTRING ((0 1, 2 3), (10 10, 3 4))'); $this->assertEquals(2, $g->numGeometries()); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals(1, $g->numGeometries()); $g = $reader->read('MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)))'); $this->assertEquals(2, $g->numGeometries()); $g = $reader->read('GEOMETRYCOLLECTION ( MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) ), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0))'); $this->assertEquals(6, $g->numGeometries()); } public function testGeometry_geometryN() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $c = $g->geometryN(0); $this->assertTrue( $g->equalsExact($c) ); $g = $reader->read('MULTIPOINT (0 1, 2 3)'); $this->assertEquals($reader->read('POINT(0 1)'), $g->geometryN(0)); $this->assertEquals($reader->read('POINT(2 3)'), $g->geometryN(1)); $c = $g->geometryN(2); $this->assertNull( $c ); } public function testGeometry_numInteriorRings() { $reader = new GEOSWKTReader(); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals(0, $g->numInteriorRings()); $g = $reader->read('POLYGON ( (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11))'); $this->assertEquals(1, $g->numInteriorRings()); $g = $reader->read('POLYGON ( (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11), (13 11, 13 12, 13.5 12, 13.5 11, 13 11))'); $this->assertEquals(2, $g->numInteriorRings()); $g = $reader->read('POINT (0 0)'); try { $g->numInteriorRings(); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'Polygon', $e->getMessage() ); } } public function testGeometry_numPoints() { if (!method_exists("GEOSGeometry", 'numPoints')) { return; } $reader = new GEOSWKTReader(); $g = $reader->read('LINESTRING (0 0, 1 0, 1 1, 0 1)'); $this->assertEquals(4, $g->numPoints()); $g = $reader->read('POINT (0 0)'); try { $g->numPoints(); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'LineString', $e->getMessage() ); } } public function testGeometry_getXY() { if (!method_exists("GEOSGeometry", 'getX')) { return; } if (!method_exists("GEOSGeometry", 'getY')) { return; } $reader = new GEOSWKTReader(); $g = $reader->read('POINT (1 2)'); $this->assertEquals(1, $g->getX()); $this->assertEquals(2, $g->getY()); $g = $reader->read('LINESTRING (0 0, 1 1)'); try { $g->getX(); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'Point', $e->getMessage() ); } try { $g->getY(); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'Point', $e->getMessage() ); } } public function testGeometry_interiorRingN() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POLYGON ( (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11))'); $r = $g->interiorRingN(0); $this->assertEquals('LINEARRING (11 11, 11 12, 12 12, 12 11, 11 11)', $writer->write($r) ); $g = $reader->read('POLYGON ( (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11), (13 11, 13 12, 13.5 12, 13.5 11, 13 11))'); $r = $g->interiorRingN(0); $this->assertEquals('LINEARRING (11 11, 11 12, 12 12, 12 11, 11 11)', $writer->write($r) ); $r = $g->interiorRingN(1); $this->assertEquals('LINEARRING (13 11, 13 12, 14 12, 14 11, 13 11)', $writer->write($r) ); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertNull($g->interiorRingN(0)); $g = $reader->read('POINT (0 0)'); try { $g->interiorRingN(0); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'Polygon', $e->getMessage() ); } } public function testGeometry_exteriorRing() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POLYGON ( (10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11))'); $r = $g->exteriorRing(); $this->assertEquals('LINEARRING (10 10, 10 14, 14 14, 14 10, 10 10)', $writer->write($r) ); $g = $reader->read('POINT (0 0)'); try { $g->exteriorRing(0); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'Polygon', $e->getMessage() ); } } public function testGeometry_numCoordinates() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals(1, $g->numCoordinates()); $g = $reader->read('MULTIPOINT (0 1, 2 3)'); $this->assertEquals(2, $g->numCoordinates()); $g = $reader->read('LINESTRING (0 0, 2 3)'); $this->assertEquals(2, $g->numCoordinates()); $g = $reader->read('MULTILINESTRING ((0 1, 2 3), (10 10, 3 4))'); $this->assertEquals(4, $g->numCoordinates()); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals(5, $g->numCoordinates()); $g = $reader->read('MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)))'); $this->assertEquals(15, $g->numCoordinates()); $g = $reader->read('GEOMETRYCOLLECTION ( MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) ), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0))'); $this->assertEquals(29, $g->numCoordinates()); } public function testGeometry_dimension() { $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals(0, $g->dimension()); $g = $reader->read('MULTIPOINT (0 1, 2 3)'); $this->assertEquals(0, $g->dimension()); $g = $reader->read('LINESTRING (0 0, 2 3)'); $this->assertEquals(1, $g->dimension()); $g = $reader->read('MULTILINESTRING ((0 1, 2 3), (10 10, 3 4))'); $this->assertEquals(1, $g->dimension()); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals(2, $g->dimension()); $g = $reader->read('MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)))'); $this->assertEquals(2, $g->dimension()); $g = $reader->read('GEOMETRYCOLLECTION ( MULTIPOLYGON ( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) ), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0))'); $this->assertEquals(2, $g->dimension()); } public function testGeometry_coordinateDimension() { if (!method_exists("GEOSGeometry", 'coordinateDimension')) { return; } $reader = new GEOSWKTReader(); $g = $reader->read('POINT(0 0)'); $this->assertEquals(2, $g->coordinateDimension()); $g = $reader->read('POINT(0 0 0)'); $this->assertEquals(3, $g->coordinateDimension()); } public function testGeometry_pointN() { if (!method_exists("GEOSGeometry", 'pointN')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setRoundingPrecision(0); $g = $reader->read('LINESTRING (10 10, 10 14, 14 14, 14 10)'); $this->assertEquals('POINT (10 10)', $writer->write($g->pointN(0)) ); $this->assertEquals('POINT (10 14)', $writer->write($g->pointN(1)) ); $this->assertEquals('POINT (14 14)', $writer->write($g->pointN(2)) ); $this->assertEquals('POINT (14 10)', $writer->write($g->pointN(3)) ); $this->assertNull( $g->pointN(4) ); $g = $reader->read('LINEARRING (11 11, 11 12, 12 11, 11 11)'); $this->assertEquals('POINT (11 11)', $writer->write($g->pointN(0)) ); $this->assertEquals('POINT (11 12)', $writer->write($g->pointN(1)) ); $this->assertEquals('POINT (12 11)', $writer->write($g->pointN(2)) ); $this->assertEquals('POINT (11 11)', $writer->write($g->pointN(3)) ); $g = $reader->read('POINT (0 0)'); try { $g->pointN(0); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'LineString', $e->getMessage() ); } } public function testGeometry_startendPoint() { if (!method_exists("GEOSGeometry", 'startPoint')) { return; } if (!method_exists("GEOSGeometry", 'endPoint')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('LINESTRING (10 10, 10 14, 14 14, 14 10)'); $this->assertEquals('POINT (10 10)', $writer->write($g->startPoint()) ); $this->assertEquals('POINT (14 10)', $writer->write($g->endPoint()) ); $this->assertNull( $g->pointN(4) ); $g = $reader->read('LINEARRING (11 11, 11 12, 12 11, 11 11)'); $this->assertEquals('POINT (11 11)', $writer->write($g->startPoint()) ); $this->assertEquals('POINT (11 11)', $writer->write($g->endPoint()) ); $g = $reader->read('POINT (0 0)'); try { $g->pointN(0); $this->assertTrue( FALSE ); } catch (Exception $e) { $this->assertContains( 'LineString', $e->getMessage() ); } } public function testGeometry_area() { $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { $writer->setRoundingPrecision(0); } $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals( 1.0, $g->area() ); $g = $reader->read('POINT (0 0)'); $this->assertEquals( 0.0, $g->area() ); $g = $reader->read('LINESTRING (0 0 , 10 0)'); $this->assertEquals( 0.0, $g->area() ); } public function testGeometry_length() { $reader = new GEOSWKTReader(); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertEquals( 4.0, $g->length() ); $g = $reader->read('POINT (0 0)'); $this->assertEquals( 0.0, $g->length() ); $g = $reader->read('LINESTRING (0 0 , 10 0)'); $this->assertEquals( 10.0, $g->length() ); } public function testGeometry_distance() { $reader = new GEOSWKTReader(); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $g2 = $reader->read('POINT(0.5 0.5)'); $this->assertEquals( 0.0, $g->distance($g2) ); $g2 = $reader->read('POINT (-1 0)'); $this->assertEquals( 1.0, $g->distance($g2) ); $g2 = $reader->read('LINESTRING (3 0 , 10 0)'); $this->assertEquals( 2.0, $g->distance($g2) ); } public function testGeometry_hausdorffDistance() { $reader = new GEOSWKTReader(); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $g2 = $reader->read('POINT(0 10)'); $this->assertEquals( 10.0, round($g->hausdorffDistance($g2)) ); $g2 = $reader->read('POINT (-1 0)'); $this->assertEquals( 2.0, round($g->hausdorffDistance($g2)) ); $g2 = $reader->read('LINESTRING (3 0 , 10 0)'); $this->assertEquals( 9.0, round($g->hausdorffDistance($g2)) ); } public function testGeometry_delaunayTriangulation() { if (!method_exists("GEOSGeometry", 'delaunayTriangulation')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setRoundingPrecision(0); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $b = $g->delaunayTriangulation(); $this->assertEquals('GEOMETRYCOLLECTION (POLYGON ((0 1, 0 0, 1 0, 0 1)), POLYGON ((0 1, 1 0, 1 1, 0 1)))', $writer->write($b)); $b = $g->delaunayTriangulation(0,true); $this->assertEquals('MULTILINESTRING ((0 1, 1 1), (0 0, 0 1), (0 0, 1 0), (1 0, 1 1), (0 1, 1 0))', $writer->write($b)); } public function testGeometry_voronoiDiagram() { if (!method_exists("GEOSGeometry", 'voronoiDiagram')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setRoundingPrecision(0); $g = $reader->read('MULTIPOINT(0 0, 100 0, 100 100, 0 100)'); $b = $g->voronoiDiagram(); $this->assertEquals('GEOMETRYCOLLECTION (POLYGON ((50 50, 50 200, 200 200, 200 50, 50 50)), POLYGON ((50 -100, 50 50, 200 50, 200 -100, 50 -100)), POLYGON ((-100 50, -100 200, 50 200, 50 50, -100 50)), POLYGON ((-100 -100, -100 50, 50 50, 50 -100, -100 -100)))', $writer->write($b->normalize())); $b = $g->voronoiDiagram(0, 1); $this->assertEquals('MULTILINESTRING ((50 50, 200 50), (50 50, 50 200), (50 -100, 50 50), (-100 50, 50 50))', $writer->write($b->normalize())); $b = $g->voronoiDiagram(0, 1, $g->buffer(1000)); $this->assertEquals('MULTILINESTRING ((50 50, 1100 50), (50 50, 50 1100), (50 -1000, 50 50), (-1000 50, 50 50))', $writer->write($b->normalize())); } public function testGeometry_snapTo() { if (!method_exists("GEOSGeometry", 'snapTo')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setTrim(true); $g = $reader->read('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'); $g2 = $reader->read('POINT(0.1 0)'); $snapped = $g->snapTo($g2, 0); $this->assertEquals('POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))', $writer->write($snapped)); $snapped = $g->snapTo($g2, 0.5); $this->assertEquals('POLYGON ((0.1 0, 1 0, 1 1, 0 1, 0.1 0))', $writer->write($snapped)); } public function testGeometry_node() { if (!method_exists("GEOSGeometry", 'node')) { return; } $reader = new GEOSWKTReader(); $writer = new GEOSWKTWriter(); $writer->setTrim(true); $g = $reader->read('LINESTRING(0 0, 10 0, 5 -5, 5 5)'); $noded = $g->node(); $this->assertEquals('MULTILINESTRING ((0 0, 5 0), (5 0, 10 0, 5 -5, 5 0), (5 0, 5 5))', $writer->write($noded)); } } GeometryTest::run(); ?> --EXPECT-- GeometryTest->testGeometry_serialization OK GeometryTest->testGeometry_project OK GeometryTest->testGeometry_interpolate OK GeometryTest->testGeometry_buffer OK GeometryTest->testGeometry_offsetCurve OK GeometryTest->testGeometry_envelope OK GeometryTest->testGeometry_intersection OK GeometryTest->testGeometry_clipByRect OK GeometryTest->testGeometry_convexHull OK GeometryTest->testGeometry_difference OK GeometryTest->testGeometry_symdifference OK GeometryTest->testGeometry_boundary OK GeometryTest->testGeometry_union OK GeometryTest->testGeometry_unaryunion OK GeometryTest->testGeometry_pointOnSurface OK GeometryTest->testGeometry_centroid OK GeometryTest->testGeometry_relate OK GeometryTest->testGeometry_relateBoundaryNodeRule OK GeometryTest->testGeometry_polygonize OK GeometryTest->testGeometry_lineMerge OK GeometryTest->testGeometry_sharedPaths OK GeometryTest->testGeometry_simplify OK GeometryTest->testGeometry_extractUniquePoints OK GeometryTest->testGeometry_relationalOps OK GeometryTest->testGeometry_isEmpty OK GeometryTest->testGeometry_checkValidity OK GeometryTest->testGeometry_isSimple OK GeometryTest->testGeometry_isRing OK GeometryTest->testGeometry_hasZ OK GeometryTest->testGeometry_isClosed OK GeometryTest->testGeometry_type OK GeometryTest->testGeometry_srid OK GeometryTest->testGeometry_numGeometries OK GeometryTest->testGeometry_geometryN OK GeometryTest->testGeometry_numInteriorRings OK GeometryTest->testGeometry_numPoints OK GeometryTest->testGeometry_getXY OK GeometryTest->testGeometry_interiorRingN OK GeometryTest->testGeometry_exteriorRing OK GeometryTest->testGeometry_numCoordinates OK GeometryTest->testGeometry_dimension OK GeometryTest->testGeometry_coordinateDimension OK GeometryTest->testGeometry_pointN OK GeometryTest->testGeometry_startendPoint OK GeometryTest->testGeometry_area OK GeometryTest->testGeometry_length OK GeometryTest->testGeometry_distance OK GeometryTest->testGeometry_hausdorffDistance OK GeometryTest->testGeometry_delaunayTriangulation OK GeometryTest->testGeometry_voronoiDiagram OK GeometryTest->testGeometry_snapTo OK GeometryTest->testGeometry_node OK php-geos/tests/002_WKTWriter.phpt000066400000000000000000000144151302745164400170750ustar00rootroot00000000000000--TEST-- WKTWriter tests --SKIPIF-- --FILE-- assertNotNull($writer); } public function testWKTWriter_write() { $writer = new GEOSWKTWriter(); $reader = new GEOSWKTReader(); try { $writer->write(1); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('expects parameter 1', $e->getMessage()); } $g = $reader->read('POINT(6 7)'); $this->assertEquals('POINT (6.0000000000000000 7.0000000000000000)', $writer->write($g)); } public function testWKTWriter_setTrim() { if (!method_exists("GEOSWKTWriter", 'setTrim')) { return; } $writer = new GEOSWKTWriter(); $reader = new GEOSWKTReader(); $g = $reader->read('POINT(6 7)'); $this->assertNotNull($g); $writer->setTrim(TRUE); $this->assertEquals('POINT (6 7)', $writer->write($g)); $writer->setTrim(FALSE); $this->assertEquals('POINT (6.0000000000000000 7.0000000000000000)', $writer->write($g)); } public function testWKT_roundTrip() { $r = new GEOSWKTReader(); $w = new GEOSWKTWriter(); if (method_exists("GEOSWKTWriter", 'setTrim')) { $w->setTrim(TRUE); } $in[] = 'POINT (0 0)'; $in[] = 'POINT EMPTY'; $in[] = 'MULTIPOINT (0 1, 2 3)'; $in[] = 'MULTIPOINT EMPTY'; $in[] = 'LINESTRING (0 0, 2 3)'; $in[] = 'LINESTRING EMPTY'; $in[] = 'MULTILINESTRING ((0 1, 2 3), (10 10, 3 4))'; $in[] = 'MULTILINESTRING EMPTY'; $in[] = 'POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0))'; $in[] = 'POLYGON EMPTY'; $in[] = 'MULTIPOLYGON (((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)))'; $in[] = 'MULTIPOLYGON EMPTY'; $in[] = 'GEOMETRYCOLLECTION (MULTIPOLYGON (((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11))), POLYGON ((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING ((0 0, 2 3), (10 10, 3 4)), LINESTRING (0 0, 2 3), MULTIPOINT (0 0, 2 3), POINT (9 0))'; $in[] = 'GEOMETRYCOLLECTION EMPTY'; foreach ($in as $i) { $this->assertEquals($i, $w->write($r->read($i))); } } public function testWKTWriter_setRoundingPrecision() { if (!method_exists("GEOSWKTWriter", 'setRoundingPrecision')) { return; } $writer = new GEOSWKTWriter(); $reader = new GEOSWKTReader(); $g = $reader->read('POINT(6.123456 7.123456)'); $this->assertEquals('POINT (6.1234560000000000 7.1234560000000000)', $writer->write($g)); $writer->setRoundingPrecision(2); $this->assertEquals('POINT (6.12 7.12)', $writer->write($g)); $writer->setRoundingPrecision(5); /* rounds */ $this->assertEquals('POINT (6.12346 7.12346)', $writer->write($g)); $writer->setRoundingPrecision(1); $this->assertEquals('POINT (6.1 7.1)', $writer->write($g)); $writer->setRoundingPrecision(0); $this->assertEquals('POINT (6 7)', $writer->write($g)); } public function testWKTWriter_getOutputDimension() { if (!method_exists("GEOSWKTWriter", 'getOutputDimension')) { return; } $writer = new GEOSWKTWriter(); $this->assertEquals(2, $writer->getOutputDimension()); } public function testWKTWriter_setOutputDimension() { if (!method_exists("GEOSWKTWriter", 'setOutputDimension')) { return; } $reader = new GEOSWKTReader(); $g3d = $reader->read('POINT(1 2 3)'); $g2d = $reader->read('POINT(3 2)'); $writer = new GEOSWKTWriter(); $writer->setTrim(TRUE); # Only 2d by default $this->assertEquals('POINT (1 2)', $writer->write($g3d)); # 3d if requested _and_ available $writer->setOutputDimension(3); $this->assertEquals('POINT Z (1 2 3)', $writer->write($g3d)); $this->assertEquals('POINT (3 2)', $writer->write($g2d)); # 1 is invalid try { $writer->setOutputDimension(1); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('must be 2 or 3', $e->getMessage()); } # 4 is invalid try { $writer->setOutputDimension(4); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('must be 2 or 3', $e->getMessage()); } } public function testWKTWriter_setOld3D() { if (!method_exists("GEOSWKTWriter", 'setOld3D')) { return; } $reader = new GEOSWKTReader(); $g3d = $reader->read('POINT(1 2 3)'); $writer = new GEOSWKTWriter(); $writer->setTrim(TRUE); # New 3d WKT by default $writer->setOutputDimension(3); $this->assertEquals('POINT Z (1 2 3)', $writer->write($g3d)); # Switch to old $writer->setOld3D(TRUE); $this->assertEquals('POINT (1 2 3)', $writer->write($g3d)); # Old3d flag is not reset when changing dimensions $writer->setOutputDimension(2); $this->assertEquals('POINT (1 2)', $writer->write($g3d)); $writer->setOutputDimension(3); $this->assertEquals('POINT (1 2 3)', $writer->write($g3d)); # Likewise, dimensions spec is not reset when changing old3d flag $writer->setOld3D(FALSE); $this->assertEquals('POINT Z (1 2 3)', $writer->write($g3d)); } } WKTWriterTest::run(); ?> --EXPECT-- WKTWriterTest->testWKTWriter__construct OK WKTWriterTest->testWKTWriter_write OK WKTWriterTest->testWKTWriter_setTrim OK WKTWriterTest->testWKT_roundTrip OK WKTWriterTest->testWKTWriter_setRoundingPrecision OK WKTWriterTest->testWKTWriter_getOutputDimension OK WKTWriterTest->testWKTWriter_setOutputDimension OK WKTWriterTest->testWKTWriter_setOld3D OK php-geos/tests/003_WKTReader.phpt000066400000000000000000000074631302745164400170310ustar00rootroot00000000000000--TEST-- WKTReader tests --SKIPIF-- --FILE-- assertNotNull($reader); } public function testWKTReader_read() { $reader = new GEOSWKTReader(); /* Good WKT */ $geom = $reader->read('POINT(0 0)'); $this->assertNotNull($geom); $geom = $reader->read('POINT(0 0 0)'); $this->assertNotNull($geom); $geom = $reader->read('POINT Z (0 0 0)'); $this->assertNotNull($geom); $geom = $reader->read('POINT EMPTY'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOINT(0 0 1, 2 3 4)'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOINT Z (0 0 1, 2 3 4)'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOINT((0 0), (2 3))'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOINT EMPTY'); $this->assertNotNull($geom); $geom = $reader->read('LINESTRING(0 0 1, 2 3 4)'); $this->assertNotNull($geom); $geom = $reader->read('LINESTRING EMPTY'); $this->assertNotNull($geom); $geom = $reader->read('MULTILINESTRING((0 0 1, 2 3 4), (10 10 2, 3 4 5))'); $this->assertNotNull($geom); $geom = $reader->read('MULTILINESTRING Z ((0 0 1, 2 3 4), (10 10 2, 3 4 5))'); $this->assertNotNull($geom); $geom = $reader->read('POLYGON((0 0, 1 0, 1 1, 0 1, 0 0))'); $this->assertNotNull($geom); $geom = $reader->read('POLYGON EMPTY'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOLYGON( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) )'); $this->assertNotNull($geom); $geom = $reader->read('MULTIPOLYGON EMPTY'); $this->assertNotNull($geom); $geom = $reader->read('GEOMETRYCOLLECTION( MULTIPOLYGON( ((0 0, 1 0, 1 1, 0 1, 0 0)), ((10 10, 10 14, 14 14, 14 10, 10 10), (11 11, 11 12, 12 12, 12 11, 11 11)) ), POLYGON((0 0, 1 0, 1 1, 0 1, 0 0)), MULTILINESTRING((0 0, 2 3), (10 10, 3 4)), LINESTRING(0 0, 2 3), MULTIPOINT(0 0, 2 3), POINT(9 0) )'); $this->assertNotNull($geom); $geom = $reader->read('GEOMETRYCOLLECTION EMPTY'); $this->assertNotNull($geom); } public function testBogusWKT() { $reader = new GEOSWKTReader(); /* BOGUS WKT */ try { $reader->read("MULTIDOT(0 1 2 3)"); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('ParseException', $e->getMessage()); } } public function testNoArgumentsToRead() { $reader = new GEOSWKTReader(); /* BOGUS call (#448) */ try { $reader->read(); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('expects exactly 1 parameter', $e->getMessage()); } } } WKTReaderTest::run(); ?> --EXPECT-- WKTReaderTest->testWKTReader__construct OK WKTReaderTest->testWKTReader_read OK WKTReaderTest->testBogusWKT OK WKTReaderTest->testNoArgumentsToRead OK php-geos/tests/004_WKBWriter.phpt000066400000000000000000000151611302745164400170540ustar00rootroot00000000000000--TEST-- WKBWriter tests --SKIPIF-- --FILE-- assertNotNull($writer); } public function testWKBWriter_getOutputDimension() { $writer = new GEOSWKBWriter(); $this->assertEquals(2, $writer->getOutputDimension()); } public function testWKBWriter_setOutputDimension() { $writer = new GEOSWKBWriter(); $writer->setOutputDimension(3); $this->assertEquals(3, $writer->getOutputDimension()); $writer->setOutputDimension(2); $this->assertEquals(2, $writer->getOutputDimension()); # 1 is invalid try { $writer->setOutputDimension(1); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('must be 2 or 3', $e->getMessage()); } # 4 is invalid try { $writer->setOutputDimension(4); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('must be 2 or 3', $e->getMessage()); } } public function testWKBWriter_getsetByteOrder() { $writer = new GEOSWKBWriter(); /* Machine-dependent */ $bo = $writer->getByteOrder(); $obo = $bo ? 0 : 1; $writer->setByteOrder($obo); $this->assertEquals($obo, $writer->getByteOrder()); # Anything different from 0 (BIG_ENDIAN) or 1 (LITTLE_ENDIAN) # is invalid try { $writer->setByteOrder(5); $this->assertTrue(FALSE); } catch (Exception $e) { $this->assertContains('LITTLE (1) or BIG (0)', $e->getMessage()); } } public function testWKBWriter_getsetIncludeSRID() { $writer = new GEOSWKBWriter(); $this->assertEquals(FALSE, $writer->getIncludeSRID()); $writer->setIncludeSRID(TRUE); $this->assertEquals(TRUE, $writer->getIncludeSRID()); $writer->setIncludeSRID(FALSE); $this->assertEquals(FALSE, $writer->getIncludeSRID()); } /** * @dataProvider providerWKBWriter_write * * @param integer $byteOrder The byte order: 0 for BIG endian, 1 for LITTLE endian. * @param integer $inputDimension The input dimension: 2 or 3. * @param integer $outputDimension The output dimension: 2 or 3. * @param boolean $includeSrid Whether to include the SRID in the output. * @param string $wkb The expected HEX WKB output. */ public function runWKBWriter_write($byteOrder, $inputDimension, $outputDimension, $includeSrid, $wkb) { $reader = new GEOSWKTReader(); $writer = new GEOSWKBWriter(); $writer->setByteOrder($byteOrder); $writer->setOutputDimension($outputDimension); $writer->setIncludeSRID($includeSrid); if ($inputDimension === 3) { $g = $reader->read('POINT(6 7 8)'); $g->setSRID(53); } else { $g = $reader->read('POINT(6 7)'); $g->setSRID(43); } $this->assertEquals(hex2bin($wkb), $writer->write($g)); $this->assertEquals($wkb, $writer->writeHEX($g)); } public function testWKBWriter_write() { // 2D input $this->runWKBWriter_write(1, 2, 2, false, '010100000000000000000018400000000000001C40'); // 2D LITTLE endian $this->runWKBWriter_write(1, 2, 2, true, '01010000202B00000000000000000018400000000000001C40'); // 2D LITTLE endian + SRID $this->runWKBWriter_write(0, 2, 2, false, '00000000014018000000000000401C000000000000'); // 2D BIG endian $this->runWKBWriter_write(0, 2, 2, true, '00200000010000002B4018000000000000401C000000000000'); // 2D BIG endian + SRID $this->runWKBWriter_write(1, 2, 3, false, '010100000000000000000018400000000000001C40'); // 3D LITTLE endian $this->runWKBWriter_write(1, 2, 3, true, '01010000202B00000000000000000018400000000000001C40'); // 3D LITTLE endian + SRID $this->runWKBWriter_write(0, 2, 3, false, '00000000014018000000000000401C000000000000'); // 3D BIG endian $this->runWKBWriter_write(0, 2, 3, true, '00200000010000002B4018000000000000401C000000000000'); // 3D BIG endian + SRID // 3D input $this->runWKBWriter_write(1, 3, 2, false, '010100000000000000000018400000000000001C40'); // 2D LITTLE endian $this->runWKBWriter_write(1, 3, 2, true, '01010000203500000000000000000018400000000000001C40'); // 2D LITTLE endian + SRID $this->runWKBWriter_write(0, 3, 2, false, '00000000014018000000000000401C000000000000'); // 2D BIG endian $this->runWKBWriter_write(0, 3, 2, true, '0020000001000000354018000000000000401C000000000000'); // 2D BIG endian + SRID $this->runWKBWriter_write(1, 3, 3, false, '010100008000000000000018400000000000001C400000000000002040'); // 3D LITTLE endian $this->runWKBWriter_write(1, 3, 3, true, '01010000A03500000000000000000018400000000000001C400000000000002040'); // 3D LITTLE endian + SRID $this->runWKBWriter_write(0, 3, 3, false, '00800000014018000000000000401C0000000000004020000000000000'); // 3D BIG endian $this->runWKBWriter_write(0, 3, 3, true, '00A0000001000000354018000000000000401C0000000000004020000000000000'); // 3D BIG endian + SRID } public function testInvalidWriteThrowsException() { $writer = new GEOSWKBWriter(); try { $writer->write(1); $this->assertTrue(false); } catch (ErrorException $e) { $this->assertContains('expects parameter 1 to be object, integer given', $e->getMessage()); } } public function testInvalidWriteHEXThrowsException() { $writer = new GEOSWKBWriter(); try { $writer->writeHEX(1); $this->assertTrue(false); } catch (ErrorException $e) { $this->assertContains('expects parameter 1 to be object, integer given', $e->getMessage()); } } } WKBWriterTest::run(); ?> --EXPECT-- WKBWriterTest->testWKBWriter__construct OK WKBWriterTest->testWKBWriter_getOutputDimension OK WKBWriterTest->testWKBWriter_setOutputDimension OK WKBWriterTest->testWKBWriter_getsetByteOrder OK WKBWriterTest->testWKBWriter_getsetIncludeSRID OK WKBWriterTest->testWKBWriter_write OK WKBWriterTest->testInvalidWriteThrowsException OK WKBWriterTest->testInvalidWriteHEXThrowsException OK php-geos/tests/005_WKBReader.phpt000066400000000000000000000175071302745164400170110ustar00rootroot00000000000000--TEST-- WKBReader tests --SKIPIF-- --FILE-- setRoundingPrecision(1); $writer->setOutputDimension(3); foreach ($this->providerValidWKB() as $test) { list ($wkb, $wkt, $srid) = $test; $geometry = $reader->readHEX($wkb); $this->assertEquals($wkt, $writer->write($geometry)); $this->assertEquals($srid, $geometry->getSRID()); $geometry = $reader->read(hex2bin($wkb)); $this->assertEquals($wkt, $writer->write($geometry)); $this->assertEquals($srid, $geometry->getSRID()); } } private function providerValidWKB() { return array( array('0101000020e6100000000000000000f03f0000000000000040', 'POINT (1.0 2.0)', 4326), array('01010000a0e6100000333333333333f33f3333333333330b406666666666661640', 'POINT Z (1.2 3.4 5.6)', 4326), array('0104000000030000000101000000000000000000f03f0000000000000040010100000000000000000008400000000000001040010100000000000000000014400000000000001840', 'MULTIPOINT (1.0 2.0, 3.0 4.0, 5.0 6.0)', 0), array('0104000080030000000101000080000000000000f03f00000000000000400000000000000840010100008000000000000010400000000000001440000000000000184001010000800000000000001c4000000000000020400000000000002240', 'MULTIPOINT Z (1.0 2.0 3.0, 4.0 5.0 6.0, 7.0 8.0 9.0)', 0), array('01040000207b00000000000000', 'MULTIPOINT EMPTY', 123), array('0102000020c801000003000000000000000000f03f00000000000000400000000000000840000000000000104000000000000008400000000000000040', 'LINESTRING (1.0 2.0, 3.0 4.0, 3.0 2.0)', 456), array('01020000a0db03000003000000000000000000f03f000000000000004000000000000008400000000000001040000000000000144000000000000018400000000000001c4000000000000020400000000000002240', 'LINESTRING Z (1.0 2.0 3.0, 4.0 5.0 6.0, 7.0 8.0 9.0)', 987), array('01020000201503000000000000', 'LINESTRING EMPTY', 789), array('0105000020d204000002000000010200000002000000000000000000f03f0000000000000000000000000000044000000000000000400102000000020000009a9999999999174000000000000020409a99999999990d40000000000000f03f', 'MULTILINESTRING ((1.0 0.0, 2.5 2.0), (5.9 8.0, 3.7 1.0))', 1234), array('01050000a0e110000002000000010200008002000000000000000000f03f0000000000000000000000000000f03f00000000000004400000000000000040000000000000f03f0102000080020000009a99999999991740000000000000204000000000000008409a99999999990d40000000000000f03f0000000000000840', 'MULTILINESTRING Z ((1.0 0.0 1.0, 2.5 2.0 1.0), (5.9 8.0 3.0, 3.7 1.0 3.0))', 4321), array('01050000203930000000000000', 'MULTILINESTRING EMPTY', 12345), array('0103000020f40100000100000004000000000000000000f03f000000000000f03f000000000000f03f000000000000f83f000000000000f83f000000000000f03f000000000000f03f000000000000f03f', 'POLYGON ((1.0 1.0, 1.0 1.5, 1.5 1.0, 1.0 1.0))', 500), array('0103000020f30100000200000005000000000000000000000000000000000000000000000000000000000000000000084000000000000008400000000000000840000000000000084000000000000000000000000000000000000000000000000005000000000000000000f03f000000000000f03f000000000000f03f0000000000000040000000000000004000000000000000400000000000000040000000000000f03f000000000000f03f000000000000f03f', 'POLYGON ((0.0 0.0, 0.0 3.0, 3.0 3.0, 3.0 0.0, 0.0 0.0), (1.0 1.0, 1.0 2.0, 2.0 2.0, 2.0 1.0, 1.0 1.0))', 499), array('01030000a06300000001000000040000009a9999999999f13f9a9999999999014000000000000000009a999999999901403333333333331d409a9999999999f13f00000000000021409a999999999901409a9999999999f13f9a9999999999f13f9a999999999901400000000000000000', 'POLYGON Z ((1.1 2.2 0.0, 2.2 7.3 1.1, 8.5 2.2 1.1, 1.1 2.2 0.0))', 99), array('01030000200100000000000000', 'POLYGON EMPTY', 1), array('0106000020020000000100000001030000000200000005000000000000000000000000000000000000000000000000000000000000000000084000000000000008400000000000000840000000000000084000000000000000000000000000000000000000000000000005000000000000000000f03f000000000000f03f000000000000f03f0000000000000040000000000000004000000000000000400000000000000040000000000000f03f000000000000f03f000000000000f03f', 'MULTIPOLYGON (((0.0 0.0, 0.0 3.0, 3.0 3.0, 3.0 0.0, 0.0 0.0), (1.0 1.0, 1.0 2.0, 2.0 2.0, 2.0 1.0, 1.0 1.0)))', 2), array('01060000a003000000010000000103000080020000000500000000000000000000000000000000000000000000000000000000000000000000000000000000000840000000000000000000000000000008400000000000000840000000000000000000000000000008400000000000000000000000000000000000000000000000000000000000000000000000000000000005000000000000000000f03f000000000000f03f9a9999999999f13f000000000000f03f00000000000000409a9999999999f13f000000000000004000000000000000409a9999999999f13f0000000000000040000000000000f03f9a9999999999f13f000000000000f03f000000000000f03f9a9999999999f13f', 'MULTIPOLYGON Z (((0.0 0.0 0.0, 0.0 3.0 0.0, 3.0 3.0 0.0, 3.0 0.0 0.0, 0.0 0.0 0.0), (1.0 1.0 1.1, 1.0 2.0 1.1, 2.0 2.0 1.1, 2.0 1.0 1.1, 1.0 1.0 1.1)))', 3), array('01060000200400000000000000', 'MULTIPOLYGON EMPTY', 4), array('01070000200f270000060000000101000000000000000000f03f00000000000000400104000000030000000101000000000000000000f03f0000000000000040010100000000000000000008400000000000001040010100000000000000000014400000000000001840010200000003000000000000000000f03f00000000000000400000000000000840000000000000104000000000000008400000000000000040010500000002000000010200000002000000000000000000f03f0000000000000000000000000000044000000000000000400102000000020000009a9999999999174000000000000020409a99999999990d40000000000000f03f01030000000200000005000000000000000000000000000000000000000000000000000000000000000000084000000000000008400000000000000840000000000000084000000000000000000000000000000000000000000000000005000000000000000000f03f000000000000f03f000000000000f03f0000000000000040000000000000004000000000000000400000000000000040000000000000f03f000000000000f03f000000000000f03f01060000000100000001030000000200000005000000000000000000000000000000000000000000000000000000000000000000084000000000000008400000000000000840000000000000084000000000000000000000000000000000000000000000000005000000000000000000f03f000000000000f03f000000000000f03f0000000000000040000000000000004000000000000000400000000000000040000000000000f03f000000000000f03f000000000000f03f', 'GEOMETRYCOLLECTION (POINT (1.0 2.0), MULTIPOINT (1.0 2.0, 3.0 4.0, 5.0 6.0), LINESTRING (1.0 2.0, 3.0 4.0, 3.0 2.0), MULTILINESTRING ((1.0 0.0, 2.5 2.0), (5.9 8.0, 3.7 1.0)), POLYGON ((0.0 0.0, 0.0 3.0, 3.0 3.0, 3.0 0.0, 0.0 0.0), (1.0 1.0, 1.0 2.0, 2.0 2.0, 2.0 1.0, 1.0 1.0)), MULTIPOLYGON (((0.0 0.0, 0.0 3.0, 3.0 3.0, 3.0 0.0, 0.0 0.0), (1.0 1.0, 1.0 2.0, 2.0 2.0, 2.0 1.0, 1.0 1.0))))', 9999), array('01070000200903000000000000', 'GEOMETRYCOLLECTION EMPTY', 777), ); } public function testBogusWKB() { $reader = new GEOSWKBReader(); try { $reader->read(hex2bin('1234567890abcdef')); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('ParseException', $e->getMessage()); } } public function testBogusHexWKB() { $reader = new GEOSWKBReader(); try { $reader->readHEX('1234567890abcdef'); $this->assertTrue(FALSE); # this is just to fail if we get here } catch (Exception $e) { $this->assertContains('ParseException', $e->getMessage()); } } } WKBReaderTest::run(); ?> --EXPECT-- WKBReaderTest->testValidWKB OK WKBReaderTest->testBogusWKB OK WKBReaderTest->testBogusHexWKB OK php-geos/tests/README.md000066400000000000000000000005651302745164400152350ustar00rootroot00000000000000Tests can be run manually from the top-level build dir using: php -n -d extension=modules/geos.so tests/001_Geometry.phpt If you want to use valgrind, it is recommended to disable Zend memory management: export USE_ZEND_ALLOC=0 And avoid unload of modules: export ZEND_DONT_UNLOAD_MODULES=1 Read more on https://bugs.php.net/bugs-getting-valgrind-log.php php-geos/tests/TestHelper.php000066400000000000000000000150471302745164400165470ustar00rootroot00000000000000"\x00", '10'=>"\x10", '20'=>"\x20", '30'=>"\x30", '40'=>"\x40", '50'=>"\x50", '60'=>"\x60", '70'=>"\x70", '01'=>"\x01", '11'=>"\x11", '21'=>"\x21", '31'=>"\x31", '41'=>"\x41", '51'=>"\x51", '61'=>"\x61", '71'=>"\x71", '02'=>"\x02", '12'=>"\x12", '22'=>"\x22", '32'=>"\x32", '42'=>"\x42", '52'=>"\x52", '62'=>"\x62", '72'=>"\x72", '03'=>"\x03", '13'=>"\x13", '23'=>"\x23", '33'=>"\x33", '43'=>"\x43", '53'=>"\x53", '63'=>"\x63", '73'=>"\x73", '04'=>"\x04", '14'=>"\x14", '24'=>"\x24", '34'=>"\x34", '44'=>"\x44", '54'=>"\x54", '64'=>"\x64", '74'=>"\x74", '05'=>"\x05", '15'=>"\x15", '25'=>"\x25", '35'=>"\x35", '45'=>"\x45", '55'=>"\x55", '65'=>"\x65", '75'=>"\x75", '06'=>"\x06", '16'=>"\x16", '26'=>"\x26", '36'=>"\x36", '46'=>"\x46", '56'=>"\x56", '66'=>"\x66", '76'=>"\x76", '07'=>"\x07", '17'=>"\x17", '27'=>"\x27", '37'=>"\x37", '47'=>"\x47", '57'=>"\x57", '67'=>"\x67", '77'=>"\x77", '08'=>"\x08", '18'=>"\x18", '28'=>"\x28", '38'=>"\x38", '48'=>"\x48", '58'=>"\x58", '68'=>"\x68", '78'=>"\x78", '09'=>"\x09", '19'=>"\x19", '29'=>"\x29", '39'=>"\x39", '49'=>"\x49", '59'=>"\x59", '69'=>"\x69", '79'=>"\x79", '0a'=>"\x0a", '1a'=>"\x1a", '2a'=>"\x2a", '3a'=>"\x3a", '4a'=>"\x4a", '5a'=>"\x5a", '6a'=>"\x6a", '7a'=>"\x7a", '0b'=>"\x0b", '1b'=>"\x1b", '2b'=>"\x2b", '3b'=>"\x3b", '4b'=>"\x4b", '5b'=>"\x5b", '6b'=>"\x6b", '7b'=>"\x7b", '0c'=>"\x0c", '1c'=>"\x1c", '2c'=>"\x2c", '3c'=>"\x3c", '4c'=>"\x4c", '5c'=>"\x5c", '6c'=>"\x6c", '7c'=>"\x7c", '0d'=>"\x0d", '1d'=>"\x1d", '2d'=>"\x2d", '3d'=>"\x3d", '4d'=>"\x4d", '5d'=>"\x5d", '6d'=>"\x6d", '7d'=>"\x7d", '0e'=>"\x0e", '1e'=>"\x1e", '2e'=>"\x2e", '3e'=>"\x3e", '4e'=>"\x4e", '5e'=>"\x5e", '6e'=>"\x6e", '7e'=>"\x7e", '0f'=>"\x0f", '1f'=>"\x1f", '2f'=>"\x2f", '3f'=>"\x3f", '4f'=>"\x4f", '5f'=>"\x5f", '6f'=>"\x6f", '7f'=>"\x7f", '80'=>"\x80", '90'=>"\x90", 'a0'=>"\xa0", 'b0'=>"\xb0", 'c0'=>"\xc0", 'd0'=>"\xd0", 'e0'=>"\xe0", 'f0'=>"\xf0", '81'=>"\x81", '91'=>"\x91", 'a1'=>"\xa1", 'b1'=>"\xb1", 'c1'=>"\xc1", 'd1'=>"\xd1", 'e1'=>"\xe1", 'f1'=>"\xf1", '82'=>"\x82", '92'=>"\x92", 'a2'=>"\xa2", 'b2'=>"\xb2", 'c2'=>"\xc2", 'd2'=>"\xd2", 'e2'=>"\xe2", 'f2'=>"\xf2", '83'=>"\x83", '93'=>"\x93", 'a3'=>"\xa3", 'b3'=>"\xb3", 'c3'=>"\xc3", 'd3'=>"\xd3", 'e3'=>"\xe3", 'f3'=>"\xf3", '84'=>"\x84", '94'=>"\x94", 'a4'=>"\xa4", 'b4'=>"\xb4", 'c4'=>"\xc4", 'd4'=>"\xd4", 'e4'=>"\xe4", 'f4'=>"\xf4", '85'=>"\x85", '95'=>"\x95", 'a5'=>"\xa5", 'b5'=>"\xb5", 'c5'=>"\xc5", 'd5'=>"\xd5", 'e5'=>"\xe5", 'f5'=>"\xf5", '86'=>"\x86", '96'=>"\x96", 'a6'=>"\xa6", 'b6'=>"\xb6", 'c6'=>"\xc6", 'd6'=>"\xd6", 'e6'=>"\xe6", 'f6'=>"\xf6", '87'=>"\x87", '97'=>"\x97", 'a7'=>"\xa7", 'b7'=>"\xb7", 'c7'=>"\xc7", 'd7'=>"\xd7", 'e7'=>"\xe7", 'f7'=>"\xf7", '88'=>"\x88", '98'=>"\x98", 'a8'=>"\xa8", 'b8'=>"\xb8", 'c8'=>"\xc8", 'd8'=>"\xd8", 'e8'=>"\xe8", 'f8'=>"\xf8", '89'=>"\x89", '99'=>"\x99", 'a9'=>"\xa9", 'b9'=>"\xb9", 'c9'=>"\xc9", 'd9'=>"\xd9", 'e9'=>"\xe9", 'f9'=>"\xf9", '8a'=>"\x8a", '9a'=>"\x9a", 'aa'=>"\xaa", 'ba'=>"\xba", 'ca'=>"\xca", 'da'=>"\xda", 'ea'=>"\xea", 'fa'=>"\xfa", '8b'=>"\x8b", '9b'=>"\x9b", 'ab'=>"\xab", 'bb'=>"\xbb", 'cb'=>"\xcb", 'db'=>"\xdb", 'eb'=>"\xeb", 'fb'=>"\xfb", '8c'=>"\x8c", '9c'=>"\x9c", 'ac'=>"\xac", 'bc'=>"\xbc", 'cc'=>"\xcc", 'dc'=>"\xdc", 'ec'=>"\xec", 'fc'=>"\xfc", '8d'=>"\x8d", '9d'=>"\x9d", 'ad'=>"\xad", 'bd'=>"\xbd", 'cd'=>"\xcd", 'dd'=>"\xdd", 'ed'=>"\xed", 'fd'=>"\xfd", '8e'=>"\x8e", '9e'=>"\x9e", 'ae'=>"\xae", 'be'=>"\xbe", 'ce'=>"\xce", 'de'=>"\xde", 'ee'=>"\xee", 'fe'=>"\xfe", '8f'=>"\x8f", '9f'=>"\x9f", 'af'=>"\xaf", 'bf'=>"\xbf", 'cf'=>"\xcf", 'df'=>"\xdf", 'ef'=>"\xef", 'ff'=>"\xff", ); $strlen = strlen($str); if ($strlen % 2 !== 0) { user_error('Hexadecimal input string must have an even length', E_USER_WARNING); return false; } if (strspn($str, '0123456789ABCDEFabcdef') !== $strlen) { return false; } return strtr(strtolower($str), $map); } } function exception_error_handler($errno, $errstr, $errfile, $errline ) { throw new ErrorException($errstr, $errno, 0, $errfile, $errline); } set_error_handler("exception_error_handler"); class GEOSTest { static public function run() { $instance = new static(); foreach (get_class_methods($instance) as $method) { if (strpos($method, 'test') === 0) { $class = get_class($instance); try { $instance->$method(); print "{$class}->{$method}\tOK" . PHP_EOL; } catch (Exception $e) { print "{$class}->{$method}\tERROR:" . PHP_EOL; print $e->getMessage() . "\n"; debug_print_backtrace(DEBUG_BACKTRACE_IGNORE_ARGS); throw $e; } } } } public function assertContains($expected, $actual) { if (strpos($actual, $expected) === false) { throw new Exception("Expected '{$actual}' to contain '{$expected}'."); } } public function assertEquals($expected, $actual) { if ($actual != $expected) { throw new Exception("Expected {$actual} to equal {$expected}."); } } public function assertNull($actual) { if (!is_null($actual)) { throw new Exception("Expected null."); } } public function assertNotNull($actual) { if (is_null($actual)) { throw new Exception("Expected not null."); } } public function assertTrue($expected) { if ($expected !== true) { throw new Exception("Expected true"); } } public function assertFalse($expected) { if ($expected !== false) { throw new Exception("Expected false"); } } public function assertType($expectedType, $value) { $validType = false; switch ($expectedType) { case 'array': $validType = is_array($value); } if (!$validType) { throw new Exception("Expected type '{$expectedType}.'"); } } }