mirror of
https://git.yoctoproject.org/poky
synced 2026-02-06 16:56:37 +01:00
aea80fa7d1
Fixes the class to use HOST_OS and HOST_ARCH to set the cmake SYSTEM variables. The HOST variables should be used instead of TARGET_OS/TARGET_ARCH because we want to control how cmake compiles for where the package is going to run (the host), not what it will be generating output for (the target). The distinction is only really relevant when building canadian cross recipes. Also fix up the host OS detection to account for MinGW by setting CMAKE_SYSTEM_NAME to "Windows". This eliminates the need for meta-mingw to patch this in all the cmake recipes it builds. (From OE-Core rev: 59b8c49a54b8977ba2f3ed4f33f0fd3f7dd749d5) Signed-off-by: Joshua Watt <JPEWhacker@gmail.com> Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org> (cherry picked from commit 01245db2893e39ffb5d4a00e4689f048d0698974) Signed-off-by: Steve Sakoman <steve@sakoman.com> Signed-off-by: Richard Purdie <richard.purdie@linuxfoundation.org>
219 lines
8.5 KiB
Plaintext
219 lines
8.5 KiB
Plaintext
# Path to the CMake file to process.
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OECMAKE_SOURCEPATH ??= "${S}"
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DEPENDS_prepend = "cmake-native "
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B = "${WORKDIR}/build"
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# What CMake generator to use.
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# The supported options are "Unix Makefiles" or "Ninja".
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OECMAKE_GENERATOR ?= "Ninja"
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python() {
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generator = d.getVar("OECMAKE_GENERATOR")
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if "Unix Makefiles" in generator:
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args = "-G '" + generator + "' -DCMAKE_MAKE_PROGRAM=" + d.getVar("MAKE")
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d.setVar("OECMAKE_GENERATOR_ARGS", args)
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d.setVarFlag("do_compile", "progress", "percent")
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elif "Ninja" in generator:
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args = "-G '" + generator + "' -DCMAKE_MAKE_PROGRAM=ninja"
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d.appendVar("DEPENDS", " ninja-native")
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d.setVar("OECMAKE_GENERATOR_ARGS", args)
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d.setVarFlag("do_compile", "progress", r"outof:^\[(\d+)/(\d+)\]\s+")
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else:
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bb.fatal("Unknown CMake Generator %s" % generator)
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# C/C++ Compiler (without cpu arch/tune arguments)
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if not d.getVar('OECMAKE_C_COMPILER'):
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cc_list = d.getVar('CC').split()
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if cc_list[0] == 'ccache':
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d.setVar('OECMAKE_C_COMPILER_LAUNCHER', cc_list[0])
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d.setVar('OECMAKE_C_COMPILER', cc_list[1])
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else:
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d.setVar('OECMAKE_C_COMPILER', cc_list[0])
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if not d.getVar('OECMAKE_CXX_COMPILER'):
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cxx_list = d.getVar('CXX').split()
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if cxx_list[0] == 'ccache':
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d.setVar('OECMAKE_CXX_COMPILER_LAUNCHER', cxx_list[0])
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d.setVar('OECMAKE_CXX_COMPILER', cxx_list[1])
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else:
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d.setVar('OECMAKE_CXX_COMPILER', cxx_list[0])
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}
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OECMAKE_AR ?= "${AR}"
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# Compiler flags
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OECMAKE_C_FLAGS ?= "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS} ${CFLAGS}"
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OECMAKE_CXX_FLAGS ?= "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS} ${CXXFLAGS}"
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OECMAKE_C_FLAGS_RELEASE ?= "-DNDEBUG"
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OECMAKE_CXX_FLAGS_RELEASE ?= "-DNDEBUG"
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OECMAKE_C_LINK_FLAGS ?= "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS} ${CPPFLAGS} ${LDFLAGS}"
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OECMAKE_CXX_LINK_FLAGS ?= "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS} ${CXXFLAGS} ${LDFLAGS}"
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CXXFLAGS += "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS}"
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CFLAGS += "${HOST_CC_ARCH} ${TOOLCHAIN_OPTIONS}"
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OECMAKE_C_COMPILER_LAUNCHER ?= ""
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OECMAKE_CXX_COMPILER_LAUNCHER ?= ""
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OECMAKE_RPATH ?= ""
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OECMAKE_PERLNATIVE_DIR ??= ""
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OECMAKE_EXTRA_ROOT_PATH ?= ""
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OECMAKE_FIND_ROOT_PATH_MODE_PROGRAM = "ONLY"
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OECMAKE_FIND_ROOT_PATH_MODE_PROGRAM_class-native = "BOTH"
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EXTRA_OECMAKE_append = " ${PACKAGECONFIG_CONFARGS}"
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export CMAKE_BUILD_PARALLEL_LEVEL
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CMAKE_BUILD_PARALLEL_LEVEL_task-compile = "${@oe.utils.parallel_make(d, False)}"
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CMAKE_BUILD_PARALLEL_LEVEL_task-install = "${@oe.utils.parallel_make(d, True)}"
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OECMAKE_TARGET_COMPILE ?= "all"
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OECMAKE_TARGET_INSTALL ?= "install"
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def map_host_os_to_system_name(host_os):
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if host_os.startswith('mingw'):
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return 'Windows'
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if host_os.startswith('linux'):
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return 'Linux'
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return host_os
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# CMake expects target architectures in the format of uname(2),
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# which do not always match TARGET_ARCH, so all the necessary
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# conversions should happen here.
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def map_host_arch_to_uname_arch(host_arch):
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if host_arch == "powerpc":
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return "ppc"
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if host_arch == "powerpc64":
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return "ppc64"
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return host_arch
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cmake_do_generate_toolchain_file() {
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if [ "${BUILD_SYS}" = "${HOST_SYS}" ]; then
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cmake_crosscompiling="set( CMAKE_CROSSCOMPILING FALSE )"
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fi
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cat > ${WORKDIR}/toolchain.cmake <<EOF
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# CMake system name must be something like "Linux".
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# This is important for cross-compiling.
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$cmake_crosscompiling
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set( CMAKE_SYSTEM_NAME ${@map_host_os_to_system_name(d.getVar('HOST_OS'))} )
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set( CMAKE_SYSTEM_PROCESSOR ${@map_host_arch_to_uname_arch(d.getVar('HOST_ARCH'))} )
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set( CMAKE_C_COMPILER ${OECMAKE_C_COMPILER} )
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set( CMAKE_CXX_COMPILER ${OECMAKE_CXX_COMPILER} )
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set( CMAKE_C_COMPILER_LAUNCHER ${OECMAKE_C_COMPILER_LAUNCHER} )
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set( CMAKE_CXX_COMPILER_LAUNCHER ${OECMAKE_CXX_COMPILER_LAUNCHER} )
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set( CMAKE_ASM_COMPILER ${OECMAKE_C_COMPILER} )
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set( CMAKE_AR ${OECMAKE_AR} CACHE FILEPATH "Archiver" )
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set( CMAKE_C_FLAGS "${OECMAKE_C_FLAGS}" CACHE STRING "CFLAGS" )
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set( CMAKE_CXX_FLAGS "${OECMAKE_CXX_FLAGS}" CACHE STRING "CXXFLAGS" )
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set( CMAKE_ASM_FLAGS "${OECMAKE_C_FLAGS}" CACHE STRING "ASM FLAGS" )
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set( CMAKE_C_FLAGS_RELEASE "${OECMAKE_C_FLAGS_RELEASE}" CACHE STRING "Additional CFLAGS for release" )
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set( CMAKE_CXX_FLAGS_RELEASE "${OECMAKE_CXX_FLAGS_RELEASE}" CACHE STRING "Additional CXXFLAGS for release" )
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set( CMAKE_ASM_FLAGS_RELEASE "${OECMAKE_C_FLAGS_RELEASE}" CACHE STRING "Additional ASM FLAGS for release" )
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set( CMAKE_C_LINK_FLAGS "${OECMAKE_C_LINK_FLAGS}" CACHE STRING "LDFLAGS" )
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set( CMAKE_CXX_LINK_FLAGS "${OECMAKE_CXX_LINK_FLAGS}" CACHE STRING "LDFLAGS" )
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# only search in the paths provided so cmake doesnt pick
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# up libraries and tools from the native build machine
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set( CMAKE_FIND_ROOT_PATH ${STAGING_DIR_HOST} ${STAGING_DIR_NATIVE} ${CROSS_DIR} ${OECMAKE_PERLNATIVE_DIR} ${OECMAKE_EXTRA_ROOT_PATH} ${EXTERNAL_TOOLCHAIN} ${HOSTTOOLS_DIR})
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set( CMAKE_FIND_ROOT_PATH_MODE_PACKAGE ONLY )
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set( CMAKE_FIND_ROOT_PATH_MODE_PROGRAM ${OECMAKE_FIND_ROOT_PATH_MODE_PROGRAM} )
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set( CMAKE_FIND_ROOT_PATH_MODE_LIBRARY ONLY )
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set( CMAKE_FIND_ROOT_PATH_MODE_INCLUDE ONLY )
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set( CMAKE_PROGRAM_PATH "/" )
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# Use qt.conf settings
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set( ENV{QT_CONF_PATH} ${WORKDIR}/qt.conf )
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# We need to set the rpath to the correct directory as cmake does not provide any
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# directory as rpath by default
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set( CMAKE_INSTALL_RPATH ${OECMAKE_RPATH} )
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# Use RPATHs relative to build directory for reproducibility
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set( CMAKE_BUILD_RPATH_USE_ORIGIN ON )
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# Use our cmake modules
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list(APPEND CMAKE_MODULE_PATH "${STAGING_DATADIR}/cmake/Modules/")
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# add for non /usr/lib libdir, e.g. /usr/lib64
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set( CMAKE_LIBRARY_PATH ${libdir} ${base_libdir})
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# add include dir to implicit includes in case it differs from /usr/include
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list(APPEND CMAKE_C_IMPLICIT_INCLUDE_DIRECTORIES ${includedir})
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list(APPEND CMAKE_CXX_IMPLICIT_INCLUDE_DIRECTORIES ${includedir})
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EOF
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}
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addtask generate_toolchain_file after do_patch before do_configure
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CONFIGURE_FILES = "CMakeLists.txt"
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cmake_do_configure() {
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if [ "${OECMAKE_BUILDPATH}" ]; then
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bbnote "cmake.bbclass no longer uses OECMAKE_BUILDPATH. The default behaviour is now out-of-tree builds with B=WORKDIR/build."
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fi
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if [ "${S}" != "${B}" ]; then
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rm -rf ${B}
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mkdir -p ${B}
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cd ${B}
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else
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find ${B} -name CMakeFiles -or -name Makefile -or -name cmake_install.cmake -or -name CMakeCache.txt -delete
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fi
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# Just like autotools cmake can use a site file to cache result that need generated binaries to run
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if [ -e ${WORKDIR}/site-file.cmake ] ; then
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oecmake_sitefile="-C ${WORKDIR}/site-file.cmake"
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else
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oecmake_sitefile=
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fi
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cmake \
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${OECMAKE_GENERATOR_ARGS} \
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$oecmake_sitefile \
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${OECMAKE_SOURCEPATH} \
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-DCMAKE_INSTALL_PREFIX:PATH=${prefix} \
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-DCMAKE_INSTALL_BINDIR:PATH=${@os.path.relpath(d.getVar('bindir'), d.getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_SBINDIR:PATH=${@os.path.relpath(d.getVar('sbindir'), d.getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_LIBEXECDIR:PATH=${@os.path.relpath(d.getVar('libexecdir'), d.getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_SYSCONFDIR:PATH=${sysconfdir} \
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-DCMAKE_INSTALL_SHAREDSTATEDIR:PATH=${@os.path.relpath(d.getVar('sharedstatedir'), d. getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_LOCALSTATEDIR:PATH=${localstatedir} \
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-DCMAKE_INSTALL_LIBDIR:PATH=${@os.path.relpath(d.getVar('libdir'), d.getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_INCLUDEDIR:PATH=${@os.path.relpath(d.getVar('includedir'), d.getVar('prefix') + '/')} \
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-DCMAKE_INSTALL_DATAROOTDIR:PATH=${@os.path.relpath(d.getVar('datadir'), d.getVar('prefix') + '/')} \
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-DPYTHON_EXECUTABLE:PATH=${PYTHON} \
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-DPython_EXECUTABLE:PATH=${PYTHON} \
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-DPython3_EXECUTABLE:PATH=${PYTHON} \
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-DLIB_SUFFIX=${@d.getVar('baselib').replace('lib', '')} \
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-DCMAKE_INSTALL_SO_NO_EXE=0 \
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-DCMAKE_TOOLCHAIN_FILE=${WORKDIR}/toolchain.cmake \
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-DCMAKE_NO_SYSTEM_FROM_IMPORTED=1 \
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${EXTRA_OECMAKE} \
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-Wno-dev
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}
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# To disable verbose cmake logs for a given recipe or globally config metadata e.g. local.conf
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# add following
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#
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# CMAKE_VERBOSE = ""
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#
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CMAKE_VERBOSE ??= "VERBOSE=1"
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# Then run do_compile again
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cmake_runcmake_build() {
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bbnote ${DESTDIR:+DESTDIR=${DESTDIR} }${CMAKE_VERBOSE} cmake --build '${B}' "$@" -- ${EXTRA_OECMAKE_BUILD}
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eval ${DESTDIR:+DESTDIR=${DESTDIR} }${CMAKE_VERBOSE} cmake --build '${B}' "$@" -- ${EXTRA_OECMAKE_BUILD}
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}
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cmake_do_compile() {
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cmake_runcmake_build --target ${OECMAKE_TARGET_COMPILE}
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}
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cmake_do_install() {
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DESTDIR='${D}' cmake_runcmake_build --target ${OECMAKE_TARGET_INSTALL}
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}
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EXPORT_FUNCTIONS do_configure do_compile do_install do_generate_toolchain_file
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