#!/usr/bin/env python # # Copyright 2001 Google Inc. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Script that generates the build.ninja for ninja itself. Projects that use ninja themselves should either write a similar script or use a meta-build system that supports Ninja output.""" from optparse import OptionParser import os import sys sys.path.insert(0, 'misc') import ninja_syntax parser = OptionParser() platforms = ['linux', 'freebsd', 'mingw', 'windows'] profilers = ['gmon', 'pprof'] parser.add_option('--platform', help='target platform (' + '/'.join(platforms) + ')', choices=platforms) parser.add_option('--host', help='host platform (' + '/'.join(platforms) + ')', choices=platforms) parser.add_option('--debug', action='store_true', help='enable debugging extras',) parser.add_option('--profile', metavar='TYPE', choices=profilers, help='enable profiling (' + '/'.join(profilers) + ')',) parser.add_option('--with-gtest', metavar='PATH', help='use gtest unpacked in directory PATH') parser.add_option('--with-python', metavar='EXE', help='use EXE as the Python interpreter', default=os.path.basename(sys.executable)) (options, args) = parser.parse_args() if args: print 'ERROR: extra unparsed command-line arguments:', args sys.exit(1) platform = options.platform if platform is None: platform = sys.platform if platform.startswith('linux'): platform = 'linux' elif platform.startswith('freebsd'): platform = 'freebsd' elif platform.startswith('mingw'): platform = 'mingw' elif platform.startswith('win'): platform = 'windows' host = options.host or platform BUILD_FILENAME = 'build.ninja' buildfile = open(BUILD_FILENAME, 'w') n = ninja_syntax.Writer(buildfile) n.comment('This file is used to build ninja itself.') n.comment('It is generated by ' + os.path.basename(__file__) + '.') n.newline() n.comment('The arguments passed to configure.py, for rerunning it.') n.variable('configure_args', ' '.join(sys.argv[1:])) env_keys = set(['CXX', 'AR', 'CFLAGS', 'LDFLAGS']) configure_env = dict((k, os.environ[k]) for k in os.environ if k in env_keys) if configure_env: config_str = ' '.join([k + '=' + configure_env[k] for k in configure_env]) n.variable('configure_env', config_str + '$ ') n.newline() CXX = configure_env.get('CXX', 'g++') objext = '.o' if platform == 'windows': CXX = 'cl' objext = '.obj' def src(filename): return os.path.join('src', filename) def built(filename): return os.path.join('$builddir', filename) def doc(filename): return os.path.join('doc', filename) def cc(name, **kwargs): return n.build(built(name + objext), 'cxx', src(name + '.c'), **kwargs) def cxx(name, **kwargs): return n.build(built(name + objext), 'cxx', src(name + '.cc'), **kwargs) def binary(name): if platform in ('mingw', 'windows'): return name + '.exe' return name n.variable('builddir', 'build') n.variable('cxx', CXX) if platform == 'windows': n.variable('ar', 'link') else: n.variable('ar', configure_env.get('AR', 'ar')) if platform == 'windows': cflags = ['/nologo', '/Zi', '/W4', '/WX', '/wd4530', '/wd4100', '/wd4706', '/wd4512', '/wd4800', '/wd4702', '/wd4819', '/GR-', '/DNOMINMAX', '/D_CRT_SECURE_NO_WARNINGS', "/DNINJA_PYTHON=\"%s\"" % (options.with_python,)] ldflags = ['/DEBUG', '/libpath:$builddir'] if not options.debug: cflags += ['/Ox', '/DNDEBUG', '/GL'] ldflags += ['/LTCG', '/OPT:REF', '/OPT:ICF'] else: cflags = ['-g', '-Wall', '-Wextra', '-Wno-deprecated', '-Wno-unused-parameter', '-fno-rtti', '-fno-exceptions', '-fvisibility=hidden', '-pipe', "-DNINJA_PYTHON=\"%s\"" % options.with_python] if options.debug: cflags += ['-D_GLIBCXX_DEBUG', '-D_GLIBCXX_DEBUG_PEDANTIC'] else: cflags += ['-O2', '-DNDEBUG'] if 'clang' in os.path.basename(CXX): cflags += ['-fcolor-diagnostics'] ldflags = ['-L$builddir'] libs = [] if platform == 'mingw': cflags.remove('-fvisibility=hidden'); ldflags.append('-static') elif platform == 'sunos5': cflags.remove('-fvisibility=hidden') elif platform == 'windows': pass else: if options.profile == 'gmon': cflags.append('-pg') ldflags.append('-pg') elif options.profile == 'pprof': libs.append('-lprofiler') def shell_escape(str): """Escape str such that it's interpreted as a single argument by the shell.""" # This isn't complete, but it's just enough to make NINJA_PYTHON work. if platform == 'windows': return str if '"' in str: return "'%s'" % str.replace("'", "\\'") return str if 'CFLAGS' in configure_env: cflags.append(configure_env['CFLAGS']) n.variable('cflags', ' '.join(shell_escape(flag) for flag in cflags)) if 'LDFLAGS' in configure_env: ldflags.append(configure_env['LDFLAGS']) n.variable('ldflags', ' '.join(shell_escape(flag) for flag in ldflags)) n.newline() if platform == 'windows': n.rule('cxx', command='$cxx $cflags -c $in /Fo$out', depfile='$out.d', description='CXX $out') else: n.rule('cxx', command='$cxx -MMD -MT $out -MF $out.d $cflags -c $in -o $out', depfile='$out.d', description='CXX $out') n.newline() if host == 'windows': n.rule('ar', command='lib /nologo /ltcg /out:$out $in', description='LIB $out') elif host == 'mingw': n.rule('ar', command='cmd /c $ar cqs $out.tmp $in && move /Y $out.tmp $out', description='AR $out') else: n.rule('ar', command='rm -f $out && $ar crs $out $in', description='AR $out') n.newline() if platform == 'windows': n.rule('link', command='$cxx $in $libs /nologo /link $ldflags /out:$out', description='LINK $out') else: n.rule('link', command='$cxx $ldflags -o $out $in $libs', description='LINK $out') n.newline() objs = [] if platform not in ('mingw', 'windows'): n.comment('browse_py.h is used to inline browse.py.') n.rule('inline', command='src/inline.sh $varname < $in > $out', description='INLINE $out') n.build(built('browse_py.h'), 'inline', src('browse.py'), implicit='src/inline.sh', variables=[('varname', 'kBrowsePy')]) n.newline() objs += cxx('browse', order_only=built('browse_py.h')) n.newline() n.comment('the depfile parser and ninja lexers are generated using re2c.') n.rule('re2c', command='re2c -b -i --no-generation-date -o $out $in', description='RE2C $out') # Generate the .cc files in the source directory so we can check them in. n.build(src('depfile_parser.cc'), 're2c', src('depfile_parser.in.cc')) n.build(src('lexer.cc'), 're2c', src('lexer.in.cc')) n.newline() n.comment('Core source files all build into ninja library.') for name in ['build', 'build_log', 'clean', 'depfile_parser', 'disk_interface', 'edit_distance', 'eval_env', 'explain', 'graph', 'graphviz', 'lexer', 'manifest_parser', 'metrics', 'state', 'util']: objs += cxx(name) if platform == 'mingw' or platform == 'windows': objs += cxx('subprocess-win32') objs += cc('getopt') else: objs += cxx('subprocess') if platform == 'windows': ninja_lib = n.build(built('ninja.lib'), 'ar', objs) else: ninja_lib = n.build(built('libninja.a'), 'ar', objs) n.newline() if platform == 'windows': libs.append('ninja.lib') else: libs.append('-lninja') all_targets = [] n.comment('Main executable is library plus main() function.') objs = cxx('ninja') ninja = n.build(binary('ninja'), 'link', objs, implicit=ninja_lib, variables=[('libs', libs)]) if 'ninja' not in ninja: n.build('ninja', 'phony', ninja) n.newline() all_targets += ninja n.comment('Tests all build into ninja_test executable.') variables = [] test_cflags = None test_ldflags = None test_libs = libs objs = [] if options.with_gtest: path = options.with_gtest gtest_all_incs = '-I%s -I%s' % (path, os.path.join(path, 'include')) if platform == 'windows': gtest_cflags = '/nologo /EHsc ' + gtest_all_incs else: gtest_cflags = '-fvisibility=hidden ' + gtest_all_incs objs += n.build(built('gtest-all' + objext), 'cxx', os.path.join(path, 'src/gtest-all.cc'), variables=[('cflags', gtest_cflags)]) objs += n.build(built('gtest_main' + objext), 'cxx', os.path.join(path, 'src/gtest_main.cc'), variables=[('cflags', gtest_cflags)]) test_cflags = cflags + ['-DGTEST_HAS_RTTI=0', '-I%s' % os.path.join(path, 'include')] elif platform == 'windows': test_libs.extend(['gtest_main.lib', 'gtest.lib']) else: test_libs.extend(['-lgtest_main', '-lgtest']) for name in ['build_log_test', 'build_test', 'clean_test', 'depfile_parser_test', 'disk_interface_test', 'edit_distance_test', 'graph_test', 'lexer_test', 'manifest_parser_test', 'state_test', 'subprocess_test', 'test', 'util_test']: objs += cxx(name, variables=[('cflags', test_cflags)]) if platform != 'mingw' and platform != 'windows': test_libs.append('-lpthread') ninja_test = n.build(binary('ninja_test'), 'link', objs, implicit=ninja_lib, variables=[('ldflags', test_ldflags), ('libs', test_libs)]) if 'ninja_test' not in ninja_test: n.build('ninja_test', 'phony', ninja_test) n.newline() all_targets += ninja_test n.comment('Ancilliary executables.') objs = cxx('parser_perftest') all_targets += n.build(binary('parser_perftest'), 'link', objs, implicit=ninja_lib, variables=[('libs', libs)]) objs = cxx('build_log_perftest') all_targets += n.build(binary('build_log_perftest'), 'link', objs, implicit=ninja_lib, variables=[('libs', libs)]) objs = cxx('canon_perftest') all_targets += n.build(binary('canon_perftest'), 'link', objs, implicit=ninja_lib, variables=[('libs', libs)]) objs = cxx('hash_collision_bench') all_targets += n.build(binary('hash_collision_bench'), 'link', objs, implicit=ninja_lib, variables=[('libs', libs)]) n.newline() n.comment('Generate a graph using the "graph" tool.') n.rule('gendot', command='./ninja -t graph > $out') n.rule('gengraph', command='dot -Tpng $in > $out') dot = n.build(built('graph.dot'), 'gendot', ['ninja', 'build.ninja']) n.build('graph.png', 'gengraph', dot) n.newline() n.comment('Generate the manual using asciidoc.') n.rule('asciidoc', command='asciidoc -a toc -a max-width=45em -o $out $in', description='ASCIIDOC $in') manual = n.build(doc('manual.html'), 'asciidoc', doc('manual.asciidoc')) n.build('manual', 'phony', order_only=manual) n.newline() n.comment('Generate Doxygen.') n.rule('doxygen', command='doxygen $in', description='DOXYGEN $in') n.variable('doxygen_mainpage_generator', src('gen_doxygen_mainpage.sh')) n.rule('doxygen_mainpage', command='$doxygen_mainpage_generator $in > $out', description='DOXYGEN_MAINPAGE $out') mainpage = n.build(built('doxygen_mainpage'), 'doxygen_mainpage', ['README', 'HACKING', 'COPYING'], implicit=['$doxygen_mainpage_generator']) n.build('doxygen', 'doxygen', doc('doxygen.config'), implicit=mainpage) n.newline() if host != 'mingw': n.comment('Regenerate build files if build script changes.') n.rule('configure', command='${configure_env}%s configure.py $configure_args' % options.with_python, generator=True) n.build('build.ninja', 'configure', implicit=['configure.py', 'misc/ninja_syntax.py']) n.newline() n.comment('Build only the main binary by default.') n.default(ninja) n.newline() n.build('all', 'phony', all_targets) print 'wrote %s.' % BUILD_FILENAME