#!/usr/bin/python def c_compiler_rule(b, name, description, compiler, flags): command = "%s -MMD -MF $out.d %s -c -o $out $in" % (compiler, flags) b.rule(name, command, description + " $out", depfile="$out.d") version_major = 0; version_minor = 2; version_patch = 0; from optparse import OptionParser import os import string from subprocess import * import sys srcdir = os.path.dirname(sys.argv[0]) sys.path.insert(0, os.path.join(srcdir, 'build')) import metabuild p = OptionParser() p.add_option('--with-llvm-config', metavar='PATH', help='use given llvm-config script') p.add_option('--with-cxx-compiler', metavar='PATH', help='use given C++ compiler') p.add_option('--prefix', metavar='PATH', help='install to given prefix') p.add_option('--libexecdir', metavar='PATH', help='install *.bc to given dir') p.add_option('--includedir', metavar='PATH', help='install include files to given dir') p.add_option('--pkgconfigdir', metavar='PATH', help='install clc.pc to given dir') p.add_option('-g', metavar='GENERATOR', default='make', help='use given generator (default: make)') p.add_option('--enable-runtime-subnormal', action="store_true", default=False, help='Allow runtimes to choose subnormal support') (options, args) = p.parse_args() llvm_config_exe = options.with_llvm_config or "llvm-config" prefix = options.prefix if not prefix: prefix = '/usr/local' libexecdir = options.libexecdir if not libexecdir: libexecdir = os.path.join(prefix, 'lib/clc') includedir = options.includedir if not includedir: includedir = os.path.join(prefix, 'include') pkgconfigdir = options.pkgconfigdir if not pkgconfigdir: pkgconfigdir = os.path.join(prefix, 'share/pkgconfig') def llvm_config(args): try: proc = Popen([llvm_config_exe] + args, stdout=PIPE) return proc.communicate()[0].rstrip().replace('\n', ' ') except OSError: print "Error executing llvm-config." print "Please ensure that llvm-config is in your $PATH, or use --with-llvm-config." sys.exit(1) llvm_version = string.split(string.replace(llvm_config(['--version']), 'svn', ''), '.') llvm_int_version = int(llvm_version[0]) * 100 + int(llvm_version[1]) * 10 llvm_string_version = 'LLVM' + llvm_version[0] + '.' + llvm_version[1] if llvm_int_version < 400: print "libclc requires LLVM >= 4.0" sys.exit(1) llvm_system_libs = llvm_config(['--system-libs']) llvm_bindir = llvm_config(['--bindir']) llvm_core_libs = llvm_config(['--libs', 'core', 'bitreader', 'bitwriter']) + ' ' + \ llvm_system_libs + ' ' + \ llvm_config(['--ldflags']) llvm_cxxflags = llvm_config(['--cxxflags']) + ' -fno-exceptions -fno-rtti' llvm_libdir = llvm_config(['--libdir']) llvm_clang = os.path.join(llvm_bindir, 'clang') llvm_link = os.path.join(llvm_bindir, 'llvm-link') llvm_opt = os.path.join(llvm_bindir, 'opt') cxx_compiler = options.with_cxx_compiler if not cxx_compiler: cxx_compiler = os.path.join(llvm_bindir, 'clang++') available_targets = { 'r600--' : { 'devices' : [{'gpu' : 'cedar', 'aliases' : ['palm', 'sumo', 'sumo2', 'redwood', 'juniper']}, {'gpu' : 'cypress', 'aliases' : ['hemlock'] }, {'gpu' : 'barts', 'aliases' : ['turks', 'caicos'] }, {'gpu' : 'cayman', 'aliases' : ['aruba']} ]}, 'amdgcn--': { 'devices' : [{'gpu' : 'tahiti', 'aliases' : ['pitcairn', 'verde', 'oland', 'hainan', 'bonaire', 'kabini', 'kaveri', 'hawaii','mullins','tonga','carrizo','iceland','fiji','stoney','polaris10','polaris11']} ]}, 'amdgcn--amdhsa': { 'devices' : [{'gpu' : '', 'aliases' : ['bonaire', 'hawaii', 'kabini', 'kaveri', 'mullins', 'carrizo', 'stoney', 'fiji', 'iceland', 'tonga','polaris10','polaris11']} ]}, 'nvptx--' : { 'devices' : [{'gpu' : '', 'aliases' : []} ]}, 'nvptx64--' : { 'devices' : [{'gpu' : '', 'aliases' : []} ]}, 'nvptx--nvidiacl' : { 'devices' : [{'gpu' : '', 'aliases' : []} ]}, 'nvptx64--nvidiacl' : { 'devices' : [{'gpu' : '', 'aliases' : []} ]}, } available_targets['amdgcn-mesa-mesa3d'] = available_targets['amdgcn--'] default_targets = ['nvptx--nvidiacl', 'nvptx64--nvidiacl', 'r600--', 'amdgcn--', 'amdgcn--amdhsa', 'amdgcn-mesa-mesa3d'] targets = args if not targets: targets = default_targets b = metabuild.from_name(options.g) b.rule("LLVM_AS", "%s -o $out $in" % os.path.join(llvm_bindir, "llvm-as"), 'LLVM-AS $out') b.rule("LLVM_LINK", command = llvm_link + " -o $out $in", description = 'LLVM-LINK $out') b.rule("OPT", command = llvm_opt + " -O3 -o $out $in", description = 'OPT $out') c_compiler_rule(b, "LLVM_TOOL_CXX", 'CXX', cxx_compiler, llvm_cxxflags) b.rule("LLVM_TOOL_LINK", cxx_compiler + " -o $out $in %s" % llvm_core_libs + " -Wl,-rpath %s" % llvm_libdir, 'LINK $out') prepare_builtins = os.path.join('utils', 'prepare-builtins') b.build(os.path.join('utils', 'prepare-builtins.o'), "LLVM_TOOL_CXX", os.path.join(srcdir, 'utils', 'prepare-builtins.cpp')) b.build(prepare_builtins, "LLVM_TOOL_LINK", os.path.join('utils', 'prepare-builtins.o')) b.rule("PREPARE_BUILTINS", "%s -o $out $in" % prepare_builtins, 'PREPARE-BUILTINS $out') b.rule("PYTHON_GEN", "python < $in > $out", "PYTHON_GEN $out") b.build('generic/lib/convert.cl', "PYTHON_GEN", ['generic/lib/gen_convert.py']) manifest_deps = set([sys.argv[0], os.path.join(srcdir, 'build', 'metabuild.py'), os.path.join(srcdir, 'build', 'ninja_syntax.py')]) install_files_bc = [] install_deps = [] # Create rules for subnormal helper objects for src in ['subnormal_disable.ll', 'subnormal_use_default.ll']: obj_name = src[:-2] + 'bc' obj = os.path.join('generic--', 'lib', obj_name) src_file = os.path.join('generic', 'lib', src) b.build(obj, 'LLVM_AS', src_file) b.default(obj) install_files_bc.append((obj, obj)) install_deps.append(obj) # Create libclc.pc clc = open('libclc.pc', 'w') clc.write('includedir=%(inc)s\nlibexecdir=%(lib)s\n\nName: libclc\nDescription: Library requirements of the OpenCL C programming language\nVersion: %(maj)s.%(min)s.%(pat)s\nCflags: -I${includedir}\nLibs: -L${libexecdir}' % {'inc': includedir, 'lib': libexecdir, 'maj': version_major, 'min': version_minor, 'pat': version_patch}) clc.close() for target in targets: (t_arch, t_vendor, t_os) = target.split('-') archs = [t_arch] if t_arch == 'nvptx' or t_arch == 'nvptx64': archs.append('ptx') archs.append('generic') subdirs = [] for arch in archs: subdirs.append("%s-%s-%s" % (arch, t_vendor, t_os)) subdirs.append("%s-%s" % (arch, t_os)) if t_os == 'mesa3d': subdirs.append('amdgcn-amdhsa') subdirs.append(arch) if arch == 'amdgcn' or arch == 'r600': subdirs.append('amdgpu') incdirs = filter(os.path.isdir, [os.path.join(srcdir, subdir, 'include') for subdir in subdirs]) libdirs = filter(lambda d: os.path.isfile(os.path.join(d, 'SOURCES')), [os.path.join(srcdir, subdir, 'lib') for subdir in subdirs]) clang_cl_includes = ' '.join(["-I%s" % incdir for incdir in incdirs]) for device in available_targets[target]['devices']: # The rule for building a .bc file for the specified architecture using clang. clang_bc_flags = "-target %s -I`dirname $in` %s " \ "-fno-builtin " \ "-D__CLC_INTERNAL " \ "-emit-llvm" % (target, clang_cl_includes) if device['gpu'] != '': clang_bc_flags += ' -mcpu=' + device['gpu'] clang_bc_rule = "CLANG_CL_BC_" + target + "_" + device['gpu'] c_compiler_rule(b, clang_bc_rule, "LLVM-CC", llvm_clang, clang_bc_flags) objects = [] sources_seen = set() compats_seen = set() if device['gpu'] == '': full_target_name = target obj_suffix = '' else: full_target_name = device['gpu'] + '-' + target obj_suffix = '.' + device['gpu'] for libdir in libdirs: subdir_list_file = os.path.join(libdir, 'SOURCES') manifest_deps.add(subdir_list_file) override_list_file = os.path.join(libdir, 'OVERRIDES') compat_list_file = os.path.join(libdir, 'SOURCES_' + llvm_string_version) # Build compat list if os.path.exists(compat_list_file): for compat in open(compat_list_file).readlines(): compat = compat.rstrip() compats_seen.add(compat) # Add target overrides if os.path.exists(override_list_file): for override in open(override_list_file).readlines(): override = override.rstrip() sources_seen.add(override) for src in open(subdir_list_file).readlines(): src = src.rstrip() if src not in sources_seen: sources_seen.add(src) obj = os.path.join(target, 'lib', src + obj_suffix + '.bc') objects.append(obj) src_path = libdir if src in compats_seen: src_path = os.path.join(libdir, llvm_string_version) src_file = os.path.join(src_path, src) ext = os.path.splitext(src)[1] if ext == '.ll': b.build(obj, 'LLVM_AS', src_file) else: b.build(obj, clang_bc_rule, src_file) obj = os.path.join('generic--', 'lib', 'subnormal_use_default.bc') if not options.enable_runtime_subnormal: objects.append(obj) builtins_link_bc = os.path.join(target, 'lib', 'builtins.link' + obj_suffix + '.bc') builtins_opt_bc = os.path.join(target, 'lib', 'builtins.opt' + obj_suffix + '.bc') builtins_bc = os.path.join('built_libs', full_target_name + '.bc') b.build(builtins_link_bc, "LLVM_LINK", objects) b.build(builtins_opt_bc, "OPT", builtins_link_bc) b.build(builtins_bc, "PREPARE_BUILTINS", builtins_opt_bc, prepare_builtins) install_files_bc.append((builtins_bc, builtins_bc)) install_deps.append(builtins_bc) for alias in device['aliases']: # Ninja cannot have multiple rules with same name so append suffix ruleName = "CREATE_ALIAS_{0}_for_{1}".format(alias, device['gpu']) b.rule(ruleName, "ln -fs %s $out" % os.path.basename(builtins_bc) ,"CREATE-ALIAS $out") alias_file = os.path.join('built_libs', alias + '-' + target + '.bc') b.build(alias_file, ruleName, builtins_bc) install_files_bc.append((alias_file, alias_file)) install_deps.append(alias_file) b.default(builtins_bc) install_cmd = ' && '.join(['mkdir -p ${DESTDIR}/%(dst)s && cp -r %(src)s ${DESTDIR}/%(dst)s' % {'src': file, 'dst': libexecdir} for (file, dest) in install_files_bc]) install_cmd = ' && '.join(['%(old)s && mkdir -p ${DESTDIR}/%(dst)s && cp -r %(srcdir)s/generic/include/clc ${DESTDIR}/%(dst)s' % {'old': install_cmd, 'dst': includedir, 'srcdir': srcdir}]) install_cmd = ' && '.join(['%(old)s && mkdir -p ${DESTDIR}/%(dst)s && cp -r libclc.pc ${DESTDIR}/%(dst)s' % {'old': install_cmd, 'dst': pkgconfigdir}]) b.rule('install', command = install_cmd, description = 'INSTALL') b.build('install', 'install', install_deps) b.rule("configure", command = ' '.join(sys.argv), description = 'CONFIGURE', generator = True) b.build(b.output_filename(), 'configure', list(manifest_deps)) b.finish()