# Copyright 2012-2014 The Meson development team # 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. import backends import environment, mesonlib import build import mlog import dependencies from mesonlib import File from meson_install import InstallData from build import InvalidArguments from coredata import MesonException import os, sys, shutil, pickle, re if mesonlib.is_windows(): quote_char = '"' execute_wrapper = 'cmd /c' else: quote_char = "'" execute_wrapper = '' def ninja_quote(text): return text.replace(' ', '$ ').replace(':', '$:') class RawFilename(): def __init__(self, fname): self.fname = fname def split(self, c): return self.fname.split(c) def startswith(self, s): return self.fname.startswith(s) class NinjaBuildElement(): def __init__(self, outfilenames, rule, infilenames): if isinstance(outfilenames, str): self.outfilenames = [outfilenames] else: self.outfilenames = outfilenames assert(isinstance(rule, str)) self.rule = rule if isinstance(infilenames, str): self.infilenames = [infilenames] else: self.infilenames = infilenames self.deps = [] self.orderdeps = [] self.elems = [] def add_dep(self, dep): if isinstance(dep, list): self.deps += dep else: self.deps.append(dep) def add_orderdep(self, dep): if isinstance(dep, list): self.orderdeps += dep else: self.orderdeps.append(dep) def add_item(self, name, elems): if isinstance(elems, str): elems = [elems] self.elems.append((name, elems)) def write(self, outfile): line = 'build %s: %s %s' % (' '.join([ninja_quote(i) for i in self.outfilenames]),\ self.rule, ' '.join([ninja_quote(i) for i in self.infilenames])) if len(self.deps) > 0: line += ' | ' + ' '.join([ninja_quote(x) for x in self.deps]) if len(self.orderdeps) > 0: line += ' || ' + ' '.join([ninja_quote(x) for x in self.orderdeps]) line += '\n' # This needs to be done to make these strings # pass through arbitrary shells. Backslash is a # quote character so it can break at any time. # Because of this always use forward slashes, # it is a path separator even on Windows. line = line.replace('\\', '/') outfile.write(line) for e in self.elems: (name, elems) = e should_quote = True if name == 'DEPFILE' or name == 'DESC' or name == 'pool': should_quote = False line = ' %s = ' % name q_templ = quote_char + "%s" + quote_char noq_templ = "%s" newelems = [] for i in elems: if not should_quote or i == '&&': # Hackety hack hack templ = noq_templ else: templ = q_templ newelems.append(templ % ninja_quote(i)) line += ' '.join(newelems) line += '\n' line = line.replace('\\', '/') outfile.write(line) outfile.write('\n') class NinjaBackend(backends.Backend): def __init__(self, build): super().__init__(build) self.source_suffix_in_objs = True self.ninja_filename = 'build.ninja' self.fortran_deps = {} self.all_outputs = {} def check_outputs(self, elem): for n in elem.outfilenames: if n in self.all_outputs: raise MesonException('Multiple producers for Ninja target "%s". Please rename your targets.' % n) self.all_outputs[n] = True def generate(self, interp): self.interpreter = interp outfilename = os.path.join(self.environment.get_build_dir(), self.ninja_filename) tempfilename = outfilename + '~' outfile = open(tempfilename, 'w') self.generate_pkgconfig_files() outfile.write('# This is the build file for project "%s"\n' % self.build.get_project()) outfile.write('# It is autogenerated by the Meson build system.\n') outfile.write('# Do not edit by hand.\n\n') outfile.write('ninja_required_version = 1.5.1\n\n') self.generate_rules(outfile) self.generate_phony(outfile) outfile.write('# Build rules for targets\n\n') [self.generate_target(t, outfile) for t in self.build.get_targets().values()] if len(self.build.pot) > 0: outfile.write('# Build rules for localisation.\n\n') self.generate_po(outfile) outfile.write('# Test rules\n\n') self.generate_tests(outfile) outfile.write('# Install rules\n\n') self.generate_install(outfile) if self.environment.coredata.coverage: outfile.write('# Coverage rules\n\n') self.generate_coverage_rules(outfile) outfile.write('# Suffix\n\n') self.generate_ending(outfile) # Only ovewrite the old build file after the new one has been # fully created. outfile.close() os.replace(tempfilename, outfilename) # Get all generated headers. Any source file might need them so # we need to add an order dependency to them. def get_generated_headers(self, target): header_deps = [] for gensource in target.get_generated_sources(): if isinstance(gensource, build.CustomTarget): continue for src in gensource.get_outfilelist(): if self.environment.is_header(src): header_deps.append(os.path.join(self.get_target_private_dir(target), src)) for dep in target.link_targets: if isinstance(dep, (build.StaticLibrary, build.SharedLibrary)): header_deps += self.get_generated_headers(dep) return header_deps def generate_target(self, target, outfile): if isinstance(target, build.CustomTarget): self.generate_custom_target(target, outfile) if isinstance(target, build.RunTarget): self.generate_run_target(target, outfile) name = target.get_id() gen_src_deps = [] if name in self.processed_targets: return if isinstance(target, build.Jar): self.generate_jar_target(target, outfile) return if 'rust' in self.environment.coredata.compilers.keys() and self.has_rust(target): self.generate_rust_target(target, outfile) return if 'cs' in self.environment.coredata.compilers.keys() and self.has_cs(target): self.generate_cs_target(target, outfile) return if 'vala' in self.environment.coredata.compilers.keys() and self.has_vala(target): gen_src_deps += self.generate_vala_compile(target, outfile) self.scan_fortran_module_outputs(target) # The following deals with C/C++ compilation. (gen_src, gen_other_deps) = self.process_dep_gens(outfile, target) gen_src_deps += gen_src self.process_target_dependencies(target, outfile) self.generate_custom_generator_rules(target, outfile) outname = self.get_target_filename(target) obj_list = [] use_pch = self.environment.coredata.use_pch is_unity = self.environment.coredata.unity if use_pch and target.has_pch(): pch_objects = self.generate_pch(target, outfile) else: pch_objects = [] header_deps = gen_other_deps unity_src = [] unity_deps = [] # Generated sources that must be built before compiling a Unity target. header_deps += self.get_generated_headers(target) for gensource in target.get_generated_sources(): if isinstance(gensource, build.CustomTarget): for src in gensource.output: src = os.path.join(self.get_target_dir(gensource), src) if self.environment.is_source(src) and not self.environment.is_header(src): if is_unity: unity_deps.append(os.path.join(self.environment.get_build_dir(), RawFilename(src))) else: obj_list.append(self.generate_single_compile(target, outfile, RawFilename(src), True, header_deps)) elif self.environment.is_object(src): obj_list.append(src) else: # Assume anything not specifically a source file is a header. This is because # people generate files with weird suffixes (.inc, .fh) that they then include # in their source files. header_deps.append(RawFilename(src)) else: for src in gensource.get_outfilelist(): if self.environment.is_object(src): obj_list.append(os.path.join(self.get_target_private_dir_abs(target), src)) elif not self.environment.is_header(src): if is_unity: if '/' in src: rel_src = src else: rel_src = os.path.join(self.get_target_private_dir_abs(target), src) unity_deps.append(rel_src) abs_src = os.path.join(self.environment.get_build_dir(), rel_src) unity_src.append(abs_src) else: obj_list.append(self.generate_single_compile(target, outfile, src, True, header_deps=header_deps)) src_list = [] for src in gen_src_deps: src_list.append(src) if is_unity: unity_src.append(os.path.join(self.environment.get_build_dir(), src)) header_deps.append(src) else: # Generated targets are ordered deps because the must exist # before the sources compiling them are used. After the first # compile we get precise dependency info from dep files. # This should work in all cases. If it does not, then just # move them from orderdeps to proper deps. obj_list.append(self.generate_single_compile(target, outfile, src, True, [], header_deps)) for src in target.get_sources(): if src.endswith('.vala'): continue if not self.environment.is_header(src): src_list.append(src) if is_unity: abs_src = os.path.join(self.environment.get_source_dir(), target.get_subdir(), src) unity_src.append(abs_src) else: obj_list.append(self.generate_single_compile(target, outfile, src, False, [], header_deps)) obj_list += self.flatten_object_list(target) if is_unity: for src in self.generate_unity_files(target, unity_src): obj_list.append(self.generate_single_compile(target, outfile, src, True, unity_deps + header_deps)) linker = self.determine_linker(target, src_list) elem = self.generate_link(target, outfile, outname, obj_list, linker, pch_objects) self.generate_shlib_aliases(target, self.get_target_dir(target)) elem.write(outfile) self.processed_targets[name] = True def process_target_dependencies(self, target, outfile): for t in target.get_dependencies(): tname = t.get_basename() + t.type_suffix() if not tname in self.processed_targets: self.generate_target(t, outfile) def generate_custom_target(self, target, outfile): ofilenames = [os.path.join(self.get_target_dir(target), i) for i in target.output] deps = [] for i in target.get_dependencies(): # FIXME, should not grab element at zero but rather expand all. if isinstance(i, list): i = i[0] deps.append(os.path.join(self.get_target_dir(i), i.get_filename()[0])) srcs = [] for i in target.sources: if isinstance(i, str): srcs.append(os.path.join(self.build_to_src, target.subdir, i)) else: srcs.append(i.rel_to_builddir(self.build_to_src)) deps += srcs if target.build_always: deps.append('PHONY') elem = NinjaBuildElement(ofilenames, 'CUSTOM_COMMAND', deps) for d in target.extra_depends: tmp = d.get_filename() if not isinstance(tmp, list): tmp = [tmp] for fname in tmp: elem.add_dep(os.path.join(self.get_target_dir(d), fname)) cmd = [] for i in target.command: if isinstance(i, build.CustomTarget): # GIR scanner will attempt to execute this binary but # it assumes that it is in path, so always give it a full path. tmp = i.get_filename()[0] i = os.path.join(self.get_target_dir(i), tmp) for (j, src) in enumerate(srcs): i = i.replace('@INPUT%d@' % j, src) for (j, res) in enumerate(ofilenames): i = i.replace('@OUTPUT%d@' % j, res) if i == '@INPUT@': cmd += srcs elif i == '@OUTPUT@': cmd += ofilenames else: if '@OUTDIR@' in i: i = i.replace('@OUTDIR@', self.get_target_dir(target)) elif '@PRIVATE_OUTDIR_' in i: match = re.search('@PRIVATE_OUTDIR_(ABS_)?([-a-zA-Z0-9.@:]*)@', i) source = match.group(0) if match.group(1) is None: lead_dir = '' else: lead_dir = self.environment.get_build_dir() target_id = match.group(2) i = i.replace(source, os.path.join(lead_dir, self.get_target_dir(self.build.targets[target_id]))) cmd.append(i) elem.add_item('COMMAND', cmd) elem.add_item('description', 'Generating %s with a custom command.' % target.name) elem.write(outfile) self.check_outputs(elem) self.processed_targets[target.name + target.type_suffix()] = True def generate_run_target(self, target, outfile): runnerscript = os.path.join(self.environment.get_script_dir(), 'commandrunner.py') deps = [] arg_strings = [] for i in target.args: if isinstance(i, str): arg_strings.append(i) elif isinstance(i, (build.BuildTarget, build.CustomTarget)): relfname = self.get_target_filename(i) deps.append(relfname) arg_strings.append(os.path.join(self.environment.get_build_dir(), relfname)) else: mlog.debug(str(i)) raise MesonException('Unreachable code in generate_run_target.') elem = NinjaBuildElement(target.name, 'CUSTOM_COMMAND', deps) cmd = [sys.executable, runnerscript, self.environment.get_source_dir(), self.environment.get_build_dir(), target.subdir] texe = target.command try: texe = texe.held_object except AttributeError: pass if isinstance(texe, build.Executable): abs_exe = os.path.join(self.environment.get_build_dir(), self.get_target_filename(texe)) deps.append(self.get_target_filename(texe)) if self.environment.is_cross_build() \ and self.environment.cross_info.config['binaries'].get('exe_wrapper', None) is not None: cmd += [self.environment.cross_info.config['binaries']['exe_wrapper']] cmd.append(abs_exe) else: cmd.append(target.command) cmd += arg_strings elem.add_item('COMMAND', cmd) elem.add_item('description', 'Running external command %s.' % target.name) elem.add_item('pool', 'console') elem.write(outfile) self.check_outputs(elem) self.processed_targets[target.name + target.type_suffix()] = True def generate_po(self, outfile): for p in self.build.pot: (packagename, languages, subdir) = p input_file = os.path.join(subdir, 'POTFILES') elem = NinjaBuildElement('pot', 'GEN_POT', []) elem.add_item('PACKAGENAME', packagename) elem.add_item('OUTFILE', packagename + '.pot') elem.add_item('FILELIST', os.path.join(self.environment.get_source_dir(), input_file)) elem.add_item('OUTDIR', os.path.join(self.environment.get_source_dir(), subdir)) elem.write(outfile) self.check_outputs(elem) for l in languages: infile = os.path.join(self.environment.get_source_dir(), subdir, l + '.po') outfilename = os.path.join(subdir, l + '.gmo') lelem = NinjaBuildElement(outfilename, 'GEN_GMO', infile) lelem.add_item('INFILE', infile) lelem.add_item('OUTFILE', outfilename) lelem.write(outfile) self.check_outputs(lelem) def generate_coverage_rules(self, outfile): (gcovr_exe, lcov_exe, genhtml_exe) = environment.find_coverage_tools() added_rule = False if gcovr_exe: added_rule = True elem = NinjaBuildElement('coverage-xml', 'CUSTOM_COMMAND', '') elem.add_item('COMMAND', [gcovr_exe, '-x', '-r', self.environment.get_build_dir(),\ '-o', os.path.join(self.environment.get_log_dir(), 'coverage.xml')]) elem.add_item('DESC', 'Generating XML coverage report.') elem.write(outfile) elem = NinjaBuildElement('coverage-text', 'CUSTOM_COMMAND', '') elem.add_item('COMMAND', [gcovr_exe, '-r', self.environment.get_build_dir(),\ '-o', os.path.join(self.environment.get_log_dir(), 'coverage.txt')]) elem.add_item('DESC', 'Generating text coverage report.') elem.write(outfile) self.check_outputs(elem) if lcov_exe and genhtml_exe: added_rule = True phony_elem = NinjaBuildElement('coverage-html', 'phony', 'coveragereport/index.html') phony_elem.write(outfile) elem = NinjaBuildElement('coveragereport/index.html', 'CUSTOM_COMMAND', '') command = [lcov_exe, '--directory', self.environment.get_build_dir(),\ '--capture', '--output-file', 'coverage.info', '--no-checksum',\ '&&', genhtml_exe, '--prefix', self.environment.get_build_dir(),\ '--output-directory', self.environment.get_log_dir(), '--title', 'Code coverage',\ '--legend', '--show-details', 'coverage.info'] elem.add_item('COMMAND', command) elem.add_item('DESC', 'Generating HTML coverage report.') self.check_outputs(elem) elem.write(outfile) if not added_rule: mlog.log(mlog.red('Warning:'), 'coverage requested but neither gcovr nor lcov/genhtml found.') def generate_install(self, outfile): script_root = self.environment.get_script_dir() install_script = os.path.join(script_root, 'meson_install.py') install_data_file = os.path.join(self.environment.get_scratch_dir(), 'install.dat') depfixer = os.path.join(script_root, 'depfixer.py') d = InstallData(self.environment.get_source_dir(), self.environment.get_build_dir(), self.environment.get_prefix(), depfixer) elem = NinjaBuildElement('install', 'CUSTOM_COMMAND', '') elem.add_dep('all') elem.add_item('DESC', 'Installing files.') elem.add_item('COMMAND', [sys.executable, install_script, install_data_file]) elem.add_item('pool', 'console') self.generate_depmf_install(d) self.generate_target_install(d) self.generate_header_install(d) self.generate_man_install(d) self.generate_data_install(d) self.generate_po_install(d, elem) self.generate_pkgconfig_install(d) self.generate_custom_install_script(d) self.generate_subdir_install(d) elem.write(outfile) self.check_outputs(elem) ofile = open(install_data_file, 'wb') pickle.dump(d, ofile) def generate_po_install(self, d, elem): for p in self.build.pot: (package_name, languages, subdir) = p # FIXME: assumes only one po package per source d.po_package_name = package_name for lang in languages: rel_src = os.path.join(subdir, lang + '.gmo') src_file = os.path.join(self.environment.get_build_dir(), rel_src) d.po.append((src_file, self.environment.coredata.localedir, lang)) elem.add_dep(rel_src) def generate_target_install(self, d): libdir = self.environment.get_libdir() bindir = self.environment.get_bindir() should_strip = self.environment.coredata.strip for t in self.build.get_targets().values(): if t.should_install(): outdir = t.get_custom_install_dir() if outdir is None: if isinstance(t, build.Executable): outdir = bindir else: outdir = libdir i = [self.get_target_filename(t), outdir, t.get_aliaslist(),\ should_strip, t.install_rpath] d.targets.append(i) def generate_pkgconfig_install(self, d): pkgroot = os.path.join(self.environment.coredata.libdir, 'pkgconfig') for p in self.build.pkgconfig_gens: pcfile = p.filebase + '.pc' srcabs = os.path.join(self.environment.get_scratch_dir(), pcfile) dstrel = os.path.join(pkgroot, pcfile) i = [srcabs, dstrel] d.man.append(i) def generate_custom_install_script(self, d): d.install_scripts = self.build.install_scripts def generate_header_install(self, d): incroot = self.environment.get_includedir() headers = self.build.get_headers() for h in headers: outdir = h.get_custom_install_dir() if outdir is None: outdir = os.path.join(incroot, h.get_install_subdir()) for f in h.get_sources(): abspath = os.path.join(self.environment.get_source_dir(), h.get_source_subdir(), f) i = [abspath, outdir] d.headers.append(i) def generate_man_install(self, d): manroot = self.environment.get_mandir() man = self.build.get_man() for m in man: for f in m.get_sources(): num = f.split('.')[-1] subdir = m.get_custom_install_dir() if subdir is None: subdir = os.path.join(manroot, 'man' + num) srcabs = os.path.join(self.environment.get_source_dir(), m.get_source_subdir(), f) dstabs = os.path.join(subdir, f + '.gz') i = [srcabs, dstabs] d.man.append(i) def generate_data_install(self, d): data = self.build.get_data() for de in data: subdir = de.get_install_dir() for f in de.get_sources(): if de.in_sourcetree: srcprefix = self.environment.get_source_dir() else: srcprefix = self.environment.get_build_dir() srcabs = os.path.join(srcprefix, de.get_source_subdir(), f) dstabs = os.path.join(subdir, f) i = [srcabs, dstabs] d.data.append(i) def generate_subdir_install(self, d): for sd in self.build.get_install_subdirs(): src_dir = os.path.join(self.environment.get_source_dir(), sd.source_subdir, sd.installable_subdir) dst_dir = os.path.join(self.environment.get_prefix(), sd.install_dir) d.install_subdirs.append([src_dir, dst_dir]) def generate_tests(self, outfile): self.serialise_tests() valgrind = environment.find_valgrind() script_root = self.environment.get_script_dir() test_script = os.path.join(script_root, 'meson_test.py') test_data = os.path.join(self.environment.get_scratch_dir(), 'meson_test_setup.dat') cmd = [sys.executable, test_script, test_data] elem = NinjaBuildElement('test', 'CUSTOM_COMMAND', ['all', 'PHONY']) elem.add_item('COMMAND', cmd) elem.add_item('DESC', 'Running test suite.') elem.add_item('pool', 'console') elem.write(outfile) self.check_outputs(elem) if valgrind: velem = NinjaBuildElement('test-valgrind', 'CUSTOM_COMMAND', ['all', 'PHONY']) velem.add_item('COMMAND', cmd + ['--wrapper=' + valgrind]) velem.add_item('DESC', 'Running test suite under Valgrind.') velem.add_item('pool', 'console') velem.write(outfile) self.check_outputs(velem) def generate_rules(self, outfile): outfile.write('# Rules for compiling.\n\n') self.generate_compile_rules(outfile) outfile.write('# Rules for linking.\n\n') if self.environment.is_cross_build(): self.generate_static_link_rules(True, outfile) self.generate_static_link_rules(False, outfile) self.generate_dynamic_link_rules(outfile) outfile.write('# Other rules\n\n') outfile.write('rule CUSTOM_COMMAND\n') outfile.write(' command = $COMMAND\n') outfile.write(' description = $DESC\n') outfile.write(' restat = 1\n\n') outfile.write('rule REGENERATE_BUILD\n') c = (quote_char + ninja_quote(sys.executable) + quote_char, quote_char + ninja_quote(self.environment.get_build_command()) + quote_char, quote_char + ninja_quote(self.environment.get_source_dir()) + quote_char, quote_char + ninja_quote(self.environment.get_build_dir()) + quote_char) outfile.write(" command = %s %s %s %s --backend ninja secret-handshake\n" % c) outfile.write(' description = Regenerating build files\n') outfile.write(' generator = 1\n\n') if len(self.build.pot) > 0: self.generate_gettext_rules(outfile) outfile.write('\n') def generate_gettext_rules(self, outfile): rule = 'rule GEN_POT\n' command = " command = xgettext --package-name=$PACKAGENAME -p $OUTDIR -f $FILELIST -D '%s' -k_ -o $OUTFILE\n" % \ self.environment.get_source_dir() desc = " description = Creating pot file for package $PACKAGENAME.\n" outfile.write(rule) outfile.write(command) outfile.write(desc) outfile.write('\n') rule = 'rule GEN_GMO\n' command = ' command = msgfmt $INFILE -o $OUTFILE\n' desc = ' description = Generating gmo file $OUTFILE\n' outfile.write(rule) outfile.write(command) outfile.write(desc) outfile.write('\n') def generate_phony(self, outfile): outfile.write('# Phony build target, always out of date\n') outfile.write('build PHONY: phony\n') outfile.write('\n') def generate_jar_target(self, target, outfile): fname = target.get_filename() subdir = target.get_subdir() outname_rel = os.path.join(self.get_target_dir(target), fname) src_list = target.get_sources() class_list = [] compiler = self.get_compiler_for_source(src_list[0]) assert(compiler.get_language() == 'java') c = 'c' m = '' e = '' f = 'f' main_class = target.get_main_class() if main_class != '': e = 'e' for src in src_list: class_list.append(self.generate_single_java_compile(src, target, compiler, outfile)) jar_rule = 'java_LINKER' commands = [c+m+e+f] if e != '': commands.append(main_class) commands.append(self.get_target_filename(target)) commands += ['-C', self.get_target_private_dir_abs(target)] commands += class_list elem = NinjaBuildElement(outname_rel, jar_rule, []) elem.add_dep([os.path.join(self.get_target_private_dir(target), i) for i in class_list]) elem.add_item('ARGS', commands) elem.write(outfile) self.check_outputs(elem) def generate_cs_resource_tasks(self, target, outfile): args = [] deps = [] for r in target.resources: rel_sourcefile = os.path.join(self.build_to_src, target.subdir, r) if r.endswith('.resources'): a = '-resource:' + rel_sourcefile elif r.endswith('.txt') or r.endswith('.resx'): ofilebase = os.path.splitext(os.path.basename(r))[0] + '.resources' ofilename = os.path.join(self.get_target_private_dir(target), ofilebase) elem = NinjaBuildElement(ofilename, "CUSTOM_COMMAND", rel_sourcefile) elem.add_item('COMMAND', ['resgen', rel_sourcefile, ofilename]) elem.add_item('DESC', 'Compiling resource %s.' % rel_sourcefile) elem.write(outfile) self.check_outputs(elem) deps.append(ofilename) a = '-resource:' + ofilename else: raise InvalidArguments('Unknown resource file %s.' % r) args.append(a) return (args, deps) def generate_cs_target(self, target, outfile): buildtype = self.environment.coredata.buildtype fname = target.get_filename() outname_rel = os.path.join(self.get_target_dir(target), fname) src_list = target.get_sources() compiler = self.get_compiler_for_source(src_list[0]) assert(compiler.get_language() == 'cs') rel_srcs = [s.rel_to_builddir(self.build_to_src) for s in src_list] deps = [] commands = target.extra_args.get('cs', []) commands += compiler.get_buildtype_args(buildtype) if isinstance(target, build.Executable): commands.append('-target:exe') elif isinstance(target, build.SharedLibrary): commands.append('-target:library') else: raise MesonException('Unknown C# target type.') (resource_args, resource_deps) = self.generate_cs_resource_tasks(target, outfile) commands += resource_args deps += resource_deps commands += compiler.get_output_args(outname_rel) for l in target.link_targets: lname = os.path.join(self.get_target_dir(l), l.get_filename()) commands += compiler.get_link_args(lname) deps.append(lname) if '-g' in commands: outputs = [outname_rel, outname_rel + '.mdb'] else: outputs = [outname_rel] elem = NinjaBuildElement(outputs, 'cs_COMPILER', rel_srcs) elem.add_dep(deps) elem.add_item('ARGS', commands) self.check_outputs(elem) elem.write(outfile) def generate_single_java_compile(self, src, target, compiler, outfile): args = [] args += compiler.get_buildtype_args(self.environment.coredata.buildtype) args += compiler.get_output_args(self.get_target_private_dir(target)) rel_src = src.rel_to_builddir(self.build_to_src) plain_class_path = src.fname[:-4] + 'class' rel_obj = os.path.join(self.get_target_private_dir_abs(target), plain_class_path) element = NinjaBuildElement(rel_obj, compiler.get_language() + '_COMPILER', rel_src) element.add_item('ARGS', args) element.write(outfile) self.check_outputs(element) return plain_class_path def generate_java_link(self, outfile): rule = 'rule java_LINKER\n' command = ' command = jar $ARGS\n' description = ' description = Creating jar $out.\n' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write('\n') def generate_fastvapi_compile(self, target, valac, outfile): fastvapis = {} for s in target.get_sources(): if not s.endswith('.vala'): continue vapibase = os.path.basename(s.fname)[:-4] + 'vapi' rel_vapi = os.path.join(self.get_target_private_dir_abs(target), vapibase) args = ['--fast-vapi=' + rel_vapi] rel_s = s.rel_to_builddir(self.build_to_src) element = NinjaBuildElement(rel_vapi, valac.get_language() + '_COMPILER', rel_s) element.add_item('ARGS', args) element.write(outfile) self.check_outputs(element) fastvapis[s] = (vapibase, rel_vapi) return fastvapis def split_vala_sources(self, sources): src = [] vapi_src = [] for s in sources: if s.endswith('.vapi'): vapi_src.append(s) else: src.append(s) return (src, vapi_src) def generate_vala_compile(self, target, outfile): """Vala is compiled into C. Set up all necessary build steps here.""" valac = self.environment.coredata.compilers['vala'] fast_vapis = self.generate_fastvapi_compile(target, valac, outfile) generated_c = [] (src, vapi_src) = self.split_vala_sources(target.get_sources()) vapi_src = [x.rel_to_builddir(self.build_to_src) for x in vapi_src] extra_dep_files = [] for s in src: if not s.endswith('.vala'): continue args = ['-d', self.get_target_private_dir_abs(target)] sc = os.path.basename(s.fname)[:-4] + 'c' args += ['-C'] vapi_order_deps = [] for (sourcefile, vapi_info) in fast_vapis.items(): if sourcefile == s: continue (vapibase, rel_vapi) = vapi_info args += ['--use-fast-vapi=' + rel_vapi] vapi_order_deps.append(rel_vapi) relsc = os.path.join(self.get_target_private_dir_abs(target), sc) rel_s = s.rel_to_builddir(self.build_to_src) args += ['--deps', relsc + '.d'] if self.environment.coredata.werror: args += valac.get_werror_args() for d in target.external_deps: if isinstance(d, dependencies.PkgConfigDependency): if d.name == 'glib-2.0' and d.version_requirement is not None \ and d.version_requirement.startswith(('>=', '==')): args += ['--target-glib', d.version_requirement[2:]] args += ['--pkg', d.name] args += vapi_src extra_args = [] for a in target.extra_args.get('vala', []): if isinstance(a, File): relname = a.rel_to_builddir(self.build_to_src) extra_dep_files.append(relname) extra_args.append(relname) else: extra_args.append(a) args += extra_args generated_c += [relsc] element = NinjaBuildElement(relsc, valac.get_language() + '_COMPILER', rel_s) element.add_item('ARGS', args) element.add_orderdep(vapi_order_deps) element.add_dep(extra_dep_files) element.write(outfile) self.check_outputs(element) return generated_c def generate_rust_target(self, target, outfile): rustc = self.environment.coredata.compilers['rust'] relsrc = [] for i in target.get_sources(): if not rustc.can_compile(i): raise InvalidArguments('Rust target %s contains a non-rust source file.' % target.get_basename()) relsrc.append(i.rel_to_builddir(self.build_to_src)) target_name = os.path.join(target.subdir, target.get_filename()) args = ['--crate-type'] if isinstance(target, build.Executable): cratetype = 'bin' elif isinstance(target, build.SharedLibrary): cratetype = 'rlib' elif isinstance(target, build.StaticLibrary): cratetype = 'rlib' else: raise InvalidArguments('Unknown target type for rustc.') args.append(cratetype) args += rustc.get_buildtype_args(self.environment.coredata.buildtype) depfile = target.name + '.d' args += ['--out-dir', target.subdir] args += ['--emit', 'dep-info', '--emit', 'link'] orderdeps = [os.path.join(t.subdir, t.get_filename()) for t in target.link_targets] linkdirs = {} for d in target.link_targets: linkdirs[d.subdir] = True for d in linkdirs.keys(): if d == '': d = '.' args += ['-L', d] element = NinjaBuildElement(target_name, 'rust_COMPILER', relsrc) if len(orderdeps) > 0: element.add_orderdep(orderdeps) element.add_item('ARGS', args) element.add_item('targetdep', depfile) element.add_item('cratetype', cratetype) element.write(outfile) self.check_outputs(element) def generate_static_link_rules(self, is_cross, outfile): if self.build.has_language('java'): if not is_cross: self.generate_java_link(outfile) if is_cross: if self.environment.cross_info.need_cross_compiler(): static_linker = self.build.static_cross_linker else: static_linker = self.build.static_linker crstr = '_CROSS' else: static_linker = self.build.static_linker crstr = '' if static_linker is None: return rule = 'rule STATIC%s_LINKER\n' % crstr if mesonlib.is_windows(): command_templ = ''' command = %s @$out.rsp rspfile = $out.rsp rspfile_content = $LINK_ARGS %s $in ''' else: command_templ = ' command = %s $LINK_ARGS %s $in\n' command = command_templ %\ (' '.join(static_linker.get_exelist()), ' '.join(static_linker.get_output_args('$out'))) description = ' description = Static linking library $out\n\n' outfile.write(rule) outfile.write(command) outfile.write(description) def generate_dynamic_link_rules(self, outfile): ctypes = [(self.build.compilers, False)] if self.environment.is_cross_build(): if self.environment.cross_info.need_cross_compiler(): ctypes.append((self.build.cross_compilers, True)) else: # Native compiler masquerades as the cross compiler. ctypes.append((self.build.compilers, True)) else: ctypes.append((self.build.cross_compilers, True)) for (complist, is_cross) in ctypes: for compiler in complist: langname = compiler.get_language() if langname == 'java' or langname == 'vala' or\ langname == 'rust' or langname == 'cs': continue crstr = '' cross_args = [] if is_cross: crstr = '_CROSS' try: cross_args = self.environment.cross_info.config['properties'][langname + '_link_args'] except KeyError: pass rule = 'rule %s%s_LINKER\n' % (langname, crstr) if mesonlib.is_windows(): command_template = ''' command = %s @$out.rsp rspfile = $out.rsp rspfile_content = %s $ARGS %s $in $LINK_ARGS $aliasing ''' else: command_template = ' command = %s %s $ARGS %s $in $LINK_ARGS $aliasing\n' command = command_template % \ (' '.join(compiler.get_linker_exelist()),\ ' '.join(cross_args),\ ' '.join(compiler.get_linker_output_args('$out'))) description = ' description = Linking target $out' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write('\n') scriptdir = self.environment.get_script_dir() outfile.write('\n') symrule = 'rule SHSYM\n' symcmd = ' command = "%s" "%s" %s %s $CROSS\n' % (ninja_quote(sys.executable), ninja_quote(os.path.join(scriptdir, 'symbolextractor.py')), '$in', '$out') synstat = ' restat = 1\n' syndesc = ' description = Generating symbol file $out.\n' outfile.write(symrule) outfile.write(symcmd) outfile.write(synstat) outfile.write(syndesc) outfile.write('\n') def generate_java_compile_rule(self, compiler, outfile): rule = 'rule %s_COMPILER\n' % compiler.get_language() invoc = ' '.join([ninja_quote(i) for i in compiler.get_exelist()]) command = ' command = %s $ARGS $in\n' % invoc description = ' description = Compiling Java object $in.\n' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write('\n') def generate_cs_compile_rule(self, compiler, outfile): rule = 'rule %s_COMPILER\n' % compiler.get_language() invoc = ' '.join([ninja_quote(i) for i in compiler.get_exelist()]) command = ' command = %s $ARGS $in\n' % invoc description = ' description = Compiling cs target $out.\n' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write('\n') def generate_vala_compile_rules(self, compiler, outfile): rule = 'rule %s_COMPILER\n' % compiler.get_language() invoc = ' '.join([ninja_quote(i) for i in compiler.get_exelist()]) command = ' command = %s $ARGS $in\n' % invoc description = ' description = Compiling Vala source $in.\n' restat = ' restat = 1\n' # ValaC does this always to take advantage of it. depfile = ' depfile = $out.d\n' depstyle = ' deps = gcc\n' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write(restat) outfile.write(depfile) outfile.write(depstyle) outfile.write('\n') def generate_rust_compile_rules(self, compiler, outfile): rule = 'rule %s_COMPILER\n' % compiler.get_language() invoc = ' '.join([ninja_quote(i) for i in compiler.get_exelist()]) command = ' command = %s $ARGS $in\n' % invoc description = ' description = Compiling Rust source $in.\n' depfile = ' depfile = $targetdep\n' depstyle = ' deps = gcc\n' outfile.write(rule) outfile.write(command) outfile.write(description) outfile.write(depfile) outfile.write(depstyle) outfile.write('\n') def generate_fortran_dep_hack(self, outfile): if mesonlib.is_windows(): cmd = 'cmd /C ""' else: cmd = 'true' template = '''# Workaround for these issues: # https://groups.google.com/forum/#!topic/ninja-build/j-2RfBIOd_8 # https://gcc.gnu.org/bugzilla/show_bug.cgi?id=47485 rule FORTRAN_DEP_HACK command = %s description = Dep hack restat = 1 ''' outfile.write(template % cmd) def generate_compile_rule_for(self, langname, compiler, qstr, is_cross, outfile): if langname == 'java': if not is_cross: self.generate_java_compile_rule(compiler, outfile) return if langname == 'cs': if not is_cross: self.generate_cs_compile_rule(compiler, outfile) return if langname == 'vala': if not is_cross: self.generate_vala_compile_rules(compiler, outfile) return if langname == 'rust': if not is_cross: self.generate_rust_compile_rules(compiler, outfile) return if langname == 'fortran': self.generate_fortran_dep_hack(outfile) if is_cross: crstr = '_CROSS' else: crstr = '' rule = 'rule %s%s_COMPILER\n' % (langname, crstr) depargs = compiler.get_dependency_gen_args('$out', '$DEPFILE') quoted_depargs = [] for d in depargs: if d != '$out' and d != '$in': d = qstr % d quoted_depargs.append(d) cross_args = [] if is_cross: try: cross_args = self.environment.cross_info.config['properties'][langname + '_args'] except KeyError: pass if mesonlib.is_windows(): command_template = ''' command = %s @$out.rsp rspfile = $out.rsp rspfile_content = %s $ARGS %s %s %s $in ''' else: command_template = ' command = %s %s $ARGS %s %s %s $in\n' command = command_template % \ (' '.join(compiler.get_exelist()),\ ' '.join(cross_args), ' '.join(quoted_depargs),\ ' '.join(compiler.get_output_args('$out')),\ ' '.join(compiler.get_compile_only_args())) description = ' description = Compiling %s object $out\n' % langname if compiler.get_id() == 'msvc': deps = ' deps = msvc\n' else: deps = ' deps = gcc\n' deps += ' depfile = $DEPFILE\n' outfile.write(rule) outfile.write(command) outfile.write(deps) outfile.write(description) outfile.write('\n') def generate_pch_rule_for(self, langname, compiler, qstr, is_cross, outfile): if langname != 'c' and langname != 'cpp': return if is_cross: crstr = '_CROSS' else: crstr = '' rule = 'rule %s%s_PCH\n' % (langname, crstr) depargs = compiler.get_dependency_gen_args('$out', '$DEPFILE') cross_args = [] if is_cross: try: cross_args = self.environment.cross_info.config['properties'][langname + '_args'] except KeyError: pass quoted_depargs = [] for d in depargs: if d != '$out' and d != '$in': d = qstr % d quoted_depargs.append(d) if compiler.get_id() == 'msvc': output = '' else: output = ' '.join(compiler.get_output_args('$out')) command = " command = %s %s $ARGS %s %s %s $in\n" % \ (' '.join(compiler.get_exelist()),\ ' '.join(cross_args),\ ' '.join(quoted_depargs),\ output,\ ' '.join(compiler.get_compile_only_args())) description = ' description = Precompiling header %s\n' % '$in' if compiler.get_id() == 'msvc': deps = ' deps = msvc\n' else: deps = ' deps = gcc\n' deps += ' depfile = $DEPFILE\n' outfile.write(rule) outfile.write(command) outfile.write(deps) outfile.write(description) outfile.write('\n') def generate_compile_rules(self, outfile): qstr = quote_char + "%s" + quote_char for compiler in self.build.compilers: langname = compiler.get_language() self.generate_compile_rule_for(langname, compiler, qstr, False, outfile) self.generate_pch_rule_for(langname, compiler, qstr, False, outfile) if self.environment.is_cross_build(): # In case we are going a target-only build, make the native compilers # masquerade as cross compilers. if self.environment.cross_info.need_cross_compiler(): cclist = self.build.cross_compilers else: cclist = self.build.compilers for compiler in cclist: langname = compiler.get_language() self.generate_compile_rule_for(langname, compiler, qstr, True, outfile) self.generate_pch_rule_for(langname, compiler, qstr, True, outfile) outfile.write('\n') def replace_outputs(self, args, private_dir, output_list): newargs = [] regex = re.compile('@OUTPUT(\d+)@') for arg in args: m = regex.search(arg) while m is not None: index = int(m.group(1)) src = '@OUTPUT%d@' % index arg = arg.replace(src, os.path.join(private_dir, output_list[index])) m = regex.search(arg) newargs.append(arg) return newargs def generate_custom_generator_rules(self, target, outfile): for genlist in target.get_generated_sources(): if isinstance(genlist, build.CustomTarget): continue # Customtarget has already written its output rules generator = genlist.get_generator() exe = generator.get_exe() if self.environment.is_cross_build() and \ isinstance(exe, build.BuildTarget) and exe.is_cross: if 'exe_wrapper' not in self.environment.cross_info: s = 'Can not use target %s as a generator because it is cross-built\n' s += 'and no exe wrapper is defined. You might want to set it to native instead.' s = s % exe.name raise MesonException(s) infilelist = genlist.get_infilelist() outfilelist = genlist.get_outfilelist() if isinstance(exe, build.BuildTarget): exe_arr = [os.path.join(self.environment.get_build_dir(), self.get_target_filename(exe))] else: exe_arr = exe.get_command() base_args = generator.get_arglist() extra_dependencies = [os.path.join(self.build_to_src, i) for i in genlist.extra_depends] for i in range(len(infilelist)): if len(generator.outputs) == 1: sole_output = os.path.join(self.get_target_private_dir_abs(target), outfilelist[i]) else: sole_output = '' curfile = infilelist[i] infilename = os.path.join(self.build_to_src, curfile) outfiles = genlist.get_outputs_for(curfile) outfiles = [os.path.join(self.get_target_private_dir_abs(target), of) for of in outfiles] args = [x.replace("@INPUT@", infilename).replace('@OUTPUT@', sole_output)\ for x in base_args] args = self.replace_outputs(args, self.get_target_private_dir_abs(target), outfilelist) relout = self.get_target_private_dir(target) args = [x.replace("@SOURCE_DIR@", self.build_to_src).replace("@BUILD_DIR@", relout) for x in args] cmdlist = exe_arr + args elem = NinjaBuildElement(outfiles, 'CUSTOM_COMMAND', infilename) if len(extra_dependencies) > 0: elem.add_dep(extra_dependencies) elem.add_item('DESC', 'Generating $out') if isinstance(exe, build.BuildTarget): elem.add_dep(self.get_target_filename(exe)) elem.add_item('COMMAND', cmdlist) elem.write(outfile) self.check_outputs(elem) def scan_fortran_module_outputs(self, target): compiler = None for c in self.build.compilers: if c.get_language() == 'fortran': compiler = c break if compiler is None: self.fortran_deps[target.get_basename()] = {} return modre = re.compile(r"\s*module\s+(\w+)", re.IGNORECASE) module_files = {} for s in target.get_sources(): # FIXME, does not work for generated Fortran sources, # but those are really rare. I hope. if not compiler.can_compile(s): continue for line in open(os.path.join(self.environment.get_source_dir(), s.subdir, s.fname)): modmatch = modre.match(line) if modmatch is not None: modname = modmatch.group(1) if modname.lower() == 'procedure': # MODULE PROCEDURE construct continue if modname in module_files: raise InvalidArguments('Namespace collision: module %s defined in two files %s and %s.' % (modname, module_files[modname], s)) module_files[modname] = s self.fortran_deps[target.get_basename()] = module_files def get_fortran_deps(self, compiler, src, target): mod_files = [] usere = re.compile(r"\s*use\s+(\w+)", re.IGNORECASE) dirname = self.get_target_private_dir_abs(target) tdeps= self.fortran_deps[target.get_basename()] for line in open(src): usematch = usere.match(line) if usematch is not None: usename = usematch.group(1) if usename not in tdeps: # The module is not provided by any source file. This is due to # a) missing file/typo/etc # b) using a module provided by the compiler, such as OpenMP # There's no easy way to tell which is which (that I know of) # so just ignore this and go on. Ideally we would print a # warning message to the user but this is a common occurrance, # which would lead to lots of distracting noise. continue mod_source_file = tdeps[usename] # Check if a source uses a module it exports itself. # Potential bug if multiple targets have a file with # the same name. if mod_source_file.fname == os.path.split(src)[1]: continue mod_name = compiler.module_name_to_filename(usematch.group(1)) mod_files.append(os.path.join(dirname, mod_name)) return mod_files def generate_single_compile(self, target, outfile, src, is_generated=False, header_deps=[], order_deps=[]): if(isinstance(src, str) and src.endswith('.h')): raise RuntimeError('Fug') if isinstance(src, RawFilename) and src.fname.endswith('.h'): raise RuntimeError('Fug') extra_orderdeps = [] compiler = self.get_compiler_for_source(src) commands = self.generate_basic_compiler_args(target, compiler) commands += compiler.get_include_args(self.get_target_private_dir(target)) curdir = target.get_subdir() tmppath = os.path.normpath(os.path.join(self.build_to_src, curdir)) commands += compiler.get_include_args(tmppath) if curdir == '': curdir = '.' commands += compiler.get_include_args(curdir) for d in target.external_deps: if d.need_threads(): commands += compiler.thread_flags() break if isinstance(src, RawFilename): rel_src = src.fname elif is_generated: if '/' in src: rel_src = src else: rel_src = os.path.join(self.get_target_private_dir_abs(target), src) abs_src = os.path.join(self.environment.get_source_dir(), rel_src) else: if isinstance(src, File): rel_src = src.rel_to_builddir(self.build_to_src) else: raise build.InvalidArguments('Invalid source type.') abs_src = os.path.join(self.environment.get_build_dir(), rel_src) if isinstance(src, RawFilename): src_filename = src.fname elif isinstance(src, File): src_filename = src.fname elif os.path.isabs(src): src_filename = os.path.basename(src) else: src_filename = src obj_basename = src_filename.replace('/', '_').replace('\\', '_') rel_obj = os.path.join(self.get_target_private_dir(target), obj_basename) rel_obj += '.' + self.environment.get_object_suffix() dep_file = rel_obj + '.' + compiler.get_depfile_suffix() if self.environment.coredata.use_pch: pchlist = target.get_pch(compiler.language) else: pchlist = [] if len(pchlist) == 0: pch_dep = [] else: arr = [] i = os.path.join(self.get_target_private_dir_abs(target), compiler.get_pch_name(pchlist[0])) arr.append(i) pch_dep = arr for i in target.get_include_dirs(): basedir = i.get_curdir() for d in i.get_incdirs(): expdir = os.path.join(basedir, d) srctreedir = os.path.join(self.build_to_src, expdir) bargs = compiler.get_include_args(expdir) sargs = compiler.get_include_args(srctreedir) commands += bargs commands += sargs for d in i.get_extra_build_dirs(): commands += compiler.get_include_args(d) custom_target_include_dirs = [] for i in target.generated: if isinstance(i, build.CustomTarget): idir = self.get_target_dir(i) if idir not in custom_target_include_dirs: custom_target_include_dirs.append(idir) for i in custom_target_include_dirs: commands+= compiler.get_include_args(i) if self.environment.coredata.use_pch: commands += self.get_pch_include_args(compiler, target) crstr = '' if target.is_cross: crstr = '_CROSS' compiler_name = '%s%s_COMPILER' % (compiler.get_language(), crstr) extra_deps = [] if compiler.get_language() == 'fortran': extra_deps += self.get_fortran_deps(compiler, abs_src, target) # Dependency hack. Remove once multiple outputs in Ninja is fixed: # https://groups.google.com/forum/#!topic/ninja-build/j-2RfBIOd_8 for modname, srcfile in self.fortran_deps[target.get_basename()].items(): modfile = os.path.join(self.get_target_private_dir(target), compiler.module_name_to_filename(modname)) if srcfile == src: depelem = NinjaBuildElement(modfile, 'FORTRAN_DEP_HACK', rel_obj) depelem.write(outfile) self.check_outputs(depelem) commands += compiler.get_module_outdir_args(self.get_target_private_dir_abs(target)) element = NinjaBuildElement(rel_obj, compiler_name, rel_src) for d in header_deps: if isinstance(d, RawFilename): d = d.fname elif not '/' in d: d = os.path.join(self.get_target_private_dir_abs(target), d) element.add_dep(d) for d in extra_deps: element.add_dep(d) for d in order_deps: if isinstance(d, RawFilename): d = d.fname elif not '/' in d : d = os.path.join(self.get_target_private_dir_abs(target), d) element.add_orderdep(d) element.add_orderdep(pch_dep) element.add_orderdep(extra_orderdeps) for i in self.get_fortran_orderdeps(target, compiler): element.add_orderdep(i) element.add_item('DEPFILE', dep_file) element.add_item('ARGS', commands) element.write(outfile) self.check_outputs(element) return rel_obj # Fortran is a bit weird (again). When you link against a library, just compiling a source file # requires the mod files that are output when single files are built. To do this right we would need to # scan all inputs and write out explicit deps for each file. That is stoo slow and too much effort so # instead just have an ordered dependendy on the library. This ensures all required mod files are created. # The real deps are then detected via dep file generation from the compiler. This breaks on compilers that # produce incorrect dep files but such is life. def get_fortran_orderdeps(self, target, compiler): if compiler.language != 'fortran': return [] return [os.path.join(self.get_target_dir(lt), lt.get_filename()) for lt in target.link_targets] def generate_msvc_pch_command(self, target, compiler, pch): if len(pch) != 2: raise RuntimeError('MSVC requires one header and one source to produce precompiled headers.') header = pch[0] source = pch[1] pchname = compiler.get_pch_name(header) dst = os.path.join(self.get_target_private_dir_abs(target), pchname) commands = [] commands += self.generate_basic_compiler_args(target, compiler) just_name = os.path.split(header)[1] (objname, pch_args) = compiler.gen_pch_args(just_name, source, dst) commands += pch_args dep = dst + '.' + compiler.get_depfile_suffix() return (commands, dep, dst, [objname]) def generate_gcc_pch_command(self, target, compiler, pch): commands = [] commands += self.generate_basic_compiler_args(target, compiler) dst = os.path.join(self.get_target_private_dir_abs(target), os.path.split(pch)[-1] + '.' + compiler.get_pch_suffix()) dep = dst + '.' + compiler.get_depfile_suffix() return (commands, dep, dst, []) # Gcc does not create an object file during pch generation. def generate_pch(self, target, outfile): cstr = '' pch_objects = [] if target.is_cross: cstr = '_CROSS' for lang in ['c', 'cpp']: pch = target.get_pch(lang) if len(pch) == 0: continue if '/' not in pch[0] or '/' not in pch[-1]: raise build.InvalidArguments('Precompiled header of "%s" must not be in the same directory as source, please put it in a subdirectory.' % target.get_basename()) compiler = self.get_compiler_for_lang(lang) if compiler.id == 'msvc': src = os.path.join(self.build_to_src, target.get_source_subdir(), pch[-1]) (commands, dep, dst, objs) = self.generate_msvc_pch_command(target, compiler, pch) extradep = os.path.join(self.build_to_src, target.get_source_subdir(), pch[0]) else: src = os.path.join(self.build_to_src, target.get_source_subdir(), pch[0]) (commands, dep, dst, objs) = self.generate_gcc_pch_command(target, compiler, pch[0]) extradep = None pch_objects += objs rulename = compiler.get_language() + cstr + '_PCH' elem = NinjaBuildElement(dst, rulename, src) if extradep is not None: elem.add_dep(extradep) elem.add_item('ARGS', commands) elem.add_item('DEPFILE', dep) elem.write(outfile) self.check_outputs(elem) return pch_objects def generate_shsym(self, outfile, target): target_name = self.get_target_filename(target) targetdir = self.get_target_private_dir_abs(target) symname = os.path.join(targetdir, target_name + '.symbols') elem = NinjaBuildElement(symname, 'SHSYM', target_name) if self.environment.is_cross_build() and self.environment.cross_info.need_cross_compiler(): elem.add_item('CROSS', '--cross-host=' + self.environment.cross_info.config['host_machine']['system']) elem.write(outfile) self.check_outputs(elem) def generate_link(self, target, outfile, outname, obj_list, linker, extra_args=[]): if isinstance(target, build.StaticLibrary): linker_base = 'STATIC' else: linker_base = linker.get_language() # Fixme. if isinstance(target, build.SharedLibrary): self.generate_shsym(outfile, target) crstr = '' if target.is_cross: crstr = '_CROSS' linker_rule = linker_base + crstr + '_LINKER' abspath = os.path.join(self.environment.get_build_dir(), target.subdir) commands = [] commands += linker.get_linker_always_args() commands += linker.get_buildtype_linker_args(self.environment.coredata.buildtype) commands += linker.get_option_link_args(self.environment.coredata.compiler_options) if not(isinstance(target, build.StaticLibrary)): commands += self.environment.coredata.external_link_args[linker.get_language()] if isinstance(target, build.Executable): commands += linker.get_std_exe_link_args() elif isinstance(target, build.SharedLibrary): commands += linker.get_std_shared_lib_link_args() commands += linker.get_pic_args() if hasattr(target, 'soversion'): soversion = target.soversion else: soversion = None commands += linker.get_soname_args(target.name, abspath, soversion) elif isinstance(target, build.StaticLibrary): commands += linker.get_std_link_args() else: raise RuntimeError('Unknown build target type.') # Link arguments of static libraries are not put in the command line of # the library. They are instead appended to the command line where # the static library is used. if linker_base == 'STATIC': dependencies = [] else: dependencies = target.get_dependencies() commands += self.build_target_link_arguments(linker, dependencies) for d in target.external_deps: if d.need_threads(): commands += linker.thread_link_flags() commands += target.link_args # External deps must be last because target link libraries may depend on them. if not(isinstance(target, build.StaticLibrary)): for dep in target.get_external_deps(): commands += dep.get_link_args() for d in target.get_dependencies(): if isinstance(d, build.StaticLibrary): for dep in d.get_external_deps(): commands += dep.get_link_args() commands += linker.build_rpath_args(self.environment.get_build_dir(),\ self.determine_rpath_dirs(target), target.install_rpath) if self.environment.coredata.coverage: commands += linker.get_coverage_link_args() commands += extra_args dep_targets = [self.get_dependency_filename(t) for t in dependencies] dep_targets += [os.path.join(self.environment.source_dir, target.subdir, t) for t in target.link_depends] elem = NinjaBuildElement(outname, linker_rule, obj_list) elem.add_dep(dep_targets) elem.add_item('LINK_ARGS', commands) self.check_outputs(elem) return elem def determine_rpath_dirs(self, target): link_deps = target.get_all_link_deps() result = [] for ld in link_deps: prospective = self.get_target_dir(ld) if not prospective in result: result.append(prospective) return result def get_dependency_filename(self, t): if isinstance(t, build.SharedLibrary): return os.path.join(self.get_target_private_dir_abs(t), self.get_target_filename(t) + '.symbols') return self.get_target_filename(t) def generate_shlib_aliases(self, target, outdir): basename = target.get_filename() aliases = target.get_aliaslist() if not mesonlib.is_windows(): for alias in aliases: aliasfile = os.path.join(self.environment.get_build_dir(), outdir, alias) try: os.remove(aliasfile) except Exception: pass os.symlink(basename, aliasfile) else: mlog.debug("Library versioning disabled because host does not support symlinks.") def generate_gcov_clean(self, outfile): gcno_elem = NinjaBuildElement('clean-gcno', 'CUSTOM_COMMAND', 'PHONY') script_root = self.environment.get_script_dir() clean_script = os.path.join(script_root, 'delwithsuffix.py') gcno_elem.add_item('COMMAND', [sys.executable, clean_script, '.', 'gcno']) gcno_elem.add_item('description', 'Deleting gcno files') gcno_elem.write(outfile) self.check_outputs(gcno_elem, gcno_elem) gcda_elem = NinjaBuildElement('clean-gcda', 'CUSTOM_COMMAND', 'PHONY') script_root = self.environment.get_script_dir() clean_script = os.path.join(script_root, 'delwithsuffix.py') gcda_elem.add_item('COMMAND', [sys.executable, clean_script, '.', 'gcda']) gcda_elem.add_item('description', 'Deleting gcda files') gcda_elem.write(outfile) self.check_outputs(gcda_elem) def is_compilable_file(self, filename): if filename.endswith('.cpp') or\ filename.endswith('.c') or\ filename.endswith('.cxx') or\ filename.endswith('.cc') or\ filename.endswith('.C'): return True return False def process_dep_gens(self, outfile, target): src_deps = [] other_deps = [] for rule in self.dep_rules.values(): srcs = target.get_original_kwargs().get(rule.src_keyword, []) if isinstance(srcs, str): srcs = [srcs] for src in srcs: plainname = os.path.split(src)[1] basename = plainname.split('.')[0] outname = rule.name_templ.replace('@BASENAME@', basename).replace('@PLAINNAME@', plainname) outfilename = os.path.join(self.get_target_private_dir_abs(target), outname) infilename = os.path.join(self.build_to_src, target.get_source_subdir(), src) elem = NinjaBuildElement(outfilename, rule.name, infilename) elem.write(outfile) self.check_outputs(elem) if self.is_compilable_file(outfilename): src_deps.append(outfilename) else: other_deps.append(outfilename) return (src_deps, other_deps) def generate_ending(self, outfile): targetlist = [self.get_target_filename(t) for t in self.build.get_targets().values()\ if not isinstance(t, build.RunTarget)] elem = NinjaBuildElement('all', 'phony', targetlist) elem.write(outfile) self.check_outputs(elem) default = 'default all\n\n' outfile.write(default) ninja_command = environment.detect_ninja() if ninja_command is None: raise MesonException('Could not detect ninja command') elem = NinjaBuildElement('clean', 'CUSTOM_COMMAND', 'PHONY') elem.add_item('COMMAND', [ninja_command, '-t', 'clean']) elem.add_item('description', 'Cleaning') if self.environment.coredata.coverage: self.generate_gcov_clean(outfile) elem.add_dep('clean-gcda') elem.add_dep('clean-gcno') elem.write(outfile) self.check_outputs(elem) deps = [os.path.join(self.build_to_src, df) \ for df in self.interpreter.get_build_def_files()] if self.environment.is_cross_build(): deps.append(os.path.join(self.build_to_src, self.environment.coredata.cross_file)) deps.append('meson-private/coredata.dat') if os.path.exists(os.path.join(self.environment.get_source_dir(), 'meson_options.txt')): deps.append(os.path.join(self.build_to_src, 'meson_options.txt')) for sp in self.build.subprojects.keys(): fname = os.path.join(self.environment.get_source_dir(), sp, 'meson_options.txt') if os.path.isfile(fname): deps.append(os.path.join(self.build_to_src, sp, 'meson_options.txt')) elem = NinjaBuildElement('build.ninja', 'REGENERATE_BUILD', deps) elem.add_item('pool', 'console') elem.write(outfile) elem = NinjaBuildElement(deps, 'phony', '') elem.write(outfile) self.check_outputs(elem)