ref: 40dc545e20541de60d2e360925957d6b0fe3dc97
dir: /meson.build/
# Copyright © 2018, VideoLAN and dav1d authors # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # 1. Redistributions of source code must retain the above copyright notice, this # list of conditions and the following disclaimer. # # 2. Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND # ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED # WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE # DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR # ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES # (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND # ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS # SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. project('dav1d', ['c'], version: '0.0.1', default_options: ['c_std=c99', 'warning_level=2', 'buildtype=release', 'b_ndebug=if-release'], meson_version: '>= 0.47.0') dav1d_version_array = meson.project_version().split('.') dav1d_version_major = dav1d_version_array[0] dav1d_version_minor = dav1d_version_array[1] dav1d_version_revision = dav1d_version_array[2] dav1d_src_root = meson.current_source_dir() cc = meson.get_compiler('c') # Configuratin data for config.h cdata = configuration_data() # Configuration data for config.asm cdata_asm = configuration_data() # Include directories dav1d_inc_dirs = include_directories(['.', 'include', 'include/dav1d']) # # Option handling # # Bitdepth option dav1d_bitdepths = get_option('bitdepths') foreach bitdepth : ['8', '10'] cdata.set10('CONFIG_@0@BPC'.format(bitdepth), dav1d_bitdepths.contains(bitdepth)) endforeach # ASM option is_asm_enabled = (get_option('build_asm') == true and (host_machine.cpu_family().startswith('x86')) or host_machine.cpu_family() == 'aarch64' or host_machine.cpu_family().startswith('arm')) cdata.set10('HAVE_ASM', is_asm_enabled) # # OS/Compiler checks and defines # # Arguments in test_args will be used even on feature tests test_args = [] # Define _POSIX_C_SOURCE to POSIX.1–2001 (IEEE Std 1003.1-2001) test_args += '-D_POSIX_C_SOURCE=200112L' add_project_arguments('-D_POSIX_C_SOURCE=200112L', language: 'c') if host_machine.system() == 'windows' cdata.set('_WIN32_WINNT', '0x0601') cdata.set('UNICODE', 1) # Define to 1 for Unicode (Wide Chars) APIs cdata.set('_UNICODE', 1) # Define to 1 for Unicode (Wide Chars) APIs cdata.set('__USE_MINGW_ANSI_STDIO', 1) # Define to force use of MinGW printf endif # On Windows, we use a compatibility layer to emulate pthread if host_machine.system() == 'windows' thread_dependency = [] thread_compat_dep = declare_dependency(sources : files('src/win32/thread.c')) else thread_dependency = dependency('threads') thread_compat_dep = [] endif # Header checks stdatomic_dependency = [] if not cc.check_header('stdatomic.h') if cc.get_id() == 'msvc' # we have a custom replacement for MSVC stdatomic_dependency = declare_dependency( include_directories : include_directories('include/compat'), ) else error('Atomics not supported') endif endif if cc.check_header('unistd.h') cdata.set('HAVE_UNISTD_H', 1) endif # Function checks if not cc.has_function('getopt_long', prefix : '#include <getopt.h>', args : test_args) getopt_dependency = declare_dependency( sources: files('tools/compat/getopt.c'), include_directories : include_directories('include/compat'), ) else getopt_dependency = [] endif if cc.has_function('posix_memalign', prefix : '#include <stdlib.h>', args : test_args) cdata.set('HAVE_POSIX_MEMALIGN', 1) elif cc.has_function('_aligned_malloc', prefix : '#include <malloc.h>', args : test_args) cdata.set('HAVE_ALIGNED_MALLOC', 1) endif if (host_machine.cpu_family() == 'aarch64' or host_machine.cpu_family().startswith('arm')) if cc.has_function('getauxval', prefix : '#include <sys/auxv.h>', args : test_args) cdata.set('HAVE_GETAUXVAL', 1) endif endif # Compiler flag tests if cc.has_argument('-fvisibility=hidden') add_project_arguments('-fvisibility=hidden', language: 'c') else warning('Compiler does not support -fvisibility=hidden, all symbols will be public!') endif # Compiler flags that should be set # But when the compiler does not supports them # it is not an error and silently tolerated optional_arguments = [ '-Wundef', '-Werror=vla', '-Wno-maybe-uninitialized', '-Wno-unused-parameter', '-Werror=missing-prototypes', ] if (get_option('buildtype') != 'debug' and get_option('buildtype') != 'plain') optional_arguments += '-fomit-frame-pointer' optional_arguments += '-ffast-math' endif add_project_arguments(cc.get_supported_arguments(optional_arguments), language : 'c') # libFuzzer related things fuzzing_engine = get_option('fuzzing_engine') if fuzzing_engine == 'libfuzzer' if not cc.has_argument('-fsanitize=fuzzer') error('fuzzing_engine libfuzzer requires "-fsanitize=fuzzer"') endif fuzzer_args = ['-fsanitize=fuzzer-no-link', '-fsanitize=fuzzer'] add_project_arguments(cc.first_supported_argument(fuzzer_args), language : 'c') endif # Stack alignments flags stackalign_flag = [] stackrealign_flag = [] if host_machine.cpu_family().startswith('x86') if cc.has_argument('-mpreferred-stack-boundary=5') stackalign_flag = ['-mpreferred-stack-boundary=5'] stackrealign_flag = ['-mincoming-stack-boundary=4'] cdata_asm.set('STACK_ALIGNMENT', 32) cdata.set('STACK_ALIGNMENT', 32) elif cc.has_argument('-mpreferred-stack-boundary=4') stackalign_flag = ['-mpreferred-stack-boundary=4'] stackrealign_flag = ['-mincoming-stack-boundary=4'] cdata_asm.set('STACK_ALIGNMENT', 16) cdata.set('STACK_ALIGNMENT', 16) elif cc.has_argument('-mstack-alignment=32') stackalign_flag = ['-mstack-alignment=32'] stackrealign_flag = ['-mstackrealign'] cdata_asm.set('STACK_ALIGNMENT', 32) cdata.set('STACK_ALIGNMENT', 32) else if host_machine.cpu_family() == 'x86_64' cdata_asm.set('STACK_ALIGNMENT', 16) cdata.set('STACK_ALIGNMENT', 16) else cdata_asm.set('STACK_ALIGNMENT', 4) cdata.set('STACK_ALIGNMENT', 4) endif endif endif cdata.set10('ARCH_AARCH64', host_machine.cpu_family() == 'aarch64') cdata.set10('ARCH_ARM', host_machine.cpu_family().startswith('arm')) if (is_asm_enabled and (host_machine.cpu_family() == 'aarch64' or host_machine.cpu_family().startswith('arm'))) as_func_code = '''__asm__ ( ".func meson_test" ".endfunc" ); ''' have_as_func = cc.compiles(as_func_code) cdata.set10('HAVE_AS_FUNC', have_as_func) endif if host_machine.cpu_family().startswith('x86') cdata.set10('ARCH_X86', true) if host_machine.cpu_family() == 'x86_64' cdata_asm.set10('ARCH_X86_64', true) cdata.set10('ARCH_X86_64', true) cdata_asm.set10('ARCH_X86_32', false) cdata.set10('ARCH_X86_32', false) cdata_asm.set10('PIC', true) else cdata_asm.set10('ARCH_X86_64', false) cdata.set10('ARCH_X86_64', false) cdata_asm.set10('ARCH_X86_32', true) cdata.set10('ARCH_X86_32', true) endif else cdata.set10('ARCH_X86', false) cdata.set10('ARCH_X86_64', false) cdata.set10('ARCH_X86_32', false) endif if cc.symbols_have_underscore_prefix() cdata.set10('PREFIX', true) cdata_asm.set10('PREFIX', true) endif # Generate config.h config_h_target = configure_file(output: 'config.h', configuration: cdata) # # ASM specific stuff # if is_asm_enabled and host_machine.cpu_family().startswith('x86') # Generate config.asm config_asm_target = configure_file(output: 'config.asm', output_format: 'nasm', configuration: cdata_asm) # NASM compiler support nasm = find_program('nasm') # check NASM version if nasm.found() nasm_r = run_command(nasm, '-v') out = nasm_r.stdout().strip().split() if out[1].to_lower() == 'version' if out[2].version_compare('<2.13') error('nasm 2.13 or later is required, found nasm @0@'.format(out[2])) endif else error('unexpected nasm version string: @0@'.format(nasm_r.stdout())) endif endif if host_machine.system() == 'windows' nasm_format = 'win' elif host_machine.system() == 'darwin' nasm_format = 'macho' else nasm_format = 'elf' endif if host_machine.cpu_family() == 'x86_64' nasm_format += '64' else nasm_format += '32' endif nasm_gen = generator(nasm, output: '@BASENAME@.obj', depfile: '@BASENAME@.obj.ndep', arguments: [ '-f', nasm_format, '-I', '@SOURCE_DIR@/src/', '-I', '@0@/'.format(meson.current_build_dir()), '-MQ', '@OUTPUT@', '-MF', '@DEPFILE@', '@EXTRA_ARGS@', '@INPUT@', '-o', '@OUTPUT@' ]) endif # # Include subdir meson.build files # The order is important! subdir('include') subdir('src') subdir('tools') subdir('tests')