def run_compiler(self, env, mode, cmd, assumed_family, abs_path = None):
try:
return VerifyCompiler(env, mode, cmd, assumed_family, abs_path), None
except Exception as e:
util.con_out(util.ConsoleHeader, 'Compiler {0} for {1} failed: '.format(cmd, mode),
util.ConsoleRed, str(e), util.ConsoleNormal)
return None, e
def update(self):
for entry in self.graph.create:
if entry.type == nodetypes.Mkdir:
util.con_out(util.ConsoleBlue, '[create] ', util.ConsoleGreen,
entry.format(), util.ConsoleNormal)
# The path might already exist because we mkdir -p and don't bother
# ordering.
if not os.path.exists(entry.path):
os.makedirs(entry.path)
else:
raise Exception('Unknown entry type: {0}'.format(entry.type))
if not len(self.leafs):
return True
tm = TaskMasterParent(self.cx, self, self.leafs, self.max_parallel)
success = tm.run()
self.commit()
if success and len(self.commands) != self.num_completed_tasks:
util.con_err(
util.ConsoleRed,
'Build marked as completed, but some commands were not executed?!\n',
'Commands:', util.ConsoleNormal)
for task in self.commands:
if not task:
continue
util.con_err(util.ConsoleBlue, ' -> ', util.ConsoleRed,
'{0}'.format(task.entry.format()),
util.ConsoleNormal)
return success
def check_upgrade(self):
try:
query = "select val from vars where key = 'db_version'"
cursor = self.cn.execute(query)
row = cursor.fetchone()
if not row:
raise Exception('Database seems to be misconfigured - cannot read version')
version = int(row[0])
except:
version = 1
latest_version = 4
if version == latest_version:
return
if version > latest_version:
raise Exception('Your database version is too new!')
util.con_out(
util.ConsoleHeader,
'Note: upgrading database from version {0} to {1}'.format(version, latest_version),
util.ConsoleNormal
)
if version == 1:
version = self.upgrade_to_v2()
if version == 2:
version = self.upgrade_to_v3()
if version == 3:
version = self.upgrade_to_v4()
def drop_folder(self, entry):
assert entry.type in [
nodetypes.Mkdir, nodetypes.Output, nodetypes.SharedOutput
]
assert not os.path.isabs(entry.path)
if os.path.exists(entry.path):
util.con_out(util.ConsoleHeader, 'Removing old folder: ',
util.ConsoleBlue, '{0}'.format(entry.path),
util.ConsoleNormal)
try:
os.rmdir(entry.path)
except OSError as exn:
if exn.errno != errno.ENOENT:
util.con_err(util.ConsoleRed, 'Could not remove folder: ',
util.ConsoleBlue, '{0}'.format(entry.path),
util.ConsoleNormal, '\n', util.ConsoleRed,
'{0}'.format(exn), util.ConsoleNormal)
raise
cursor = self.cn.execute("select count(*) from nodes where folder = ?",
(entry.id, ))
amount = cursor.fetchone()[0]
if amount > 0:
util.con_err(
util.ConsoleRed, 'Folder id ', util.ConsoleBlue,
'{0} '.format(entry.id), util.ConsoleRed,
'is about to be deleted, but is still in use as a folder!',
util.ConsoleNormal)
raise Exception('folder still in use!')
# If the node transitioned to an entry, don't delete its node.
if entry.type == nodetypes.Mkdir:
self.drop_entry(entry)
def drop_folder(self, entry):
assert entry.type in [nodetypes.Mkdir, nodetypes.Output, nodetypes.SharedOutput]
assert not os.path.isabs(entry.path)
if os.path.exists(entry.path):
util.con_out(
util.ConsoleHeader, 'Removing old folder: ',
util.ConsoleBlue, '{0}'.format(entry.path),
util.ConsoleNormal)
try:
os.rmdir(entry.path)
except OSError as exn:
if exn.errno != errno.ENOENT:
util.con_err(util.ConsoleRed, 'Could not remove folder: ',
util.ConsoleBlue, '{0}'.format(entry.path),
util.ConsoleNormal, '\n',
util.ConsoleRed, '{0}'.format(exn),
util.ConsoleNormal)
raise
cursor = self.cn.execute("select count(*) from nodes where folder = ?", (entry.id,))
amount = cursor.fetchone()[0]
if amount > 0:
util.con_err(util.ConsoleRed, 'Folder id ',
util.ConsoleBlue, '{0} '.format(entry.id),
util.ConsoleRed, 'is about to be deleted, but is still in use as a folder!',
util.ConsoleNormal)
raise Exception('folder still in use!')
# If the node transitioned to an entry, don't delete its node.
if entry.type == nodetypes.Mkdir:
self.drop_entry(entry)
def spewResult(self, message):
if message['ok']:
color = util.ConsoleGreen
else:
color = util.ConsoleRed
util.con_out(
util.ConsoleBlue,
'[{0}]'.format(message['pid']),
util.ConsoleNormal,
' ',
color,
message['cmdline'],
util.ConsoleNormal
)
sys.stdout.flush()
if len(message['stdout']):
util.WriteEncodedText(sys.stdout, message['stdout'])
if message['stdout'][-1] != '\n':
sys.stdout.write('\n')
sys.stdout.flush()
if len(message['stderr']):
util.WriteEncodedText(sys.stderr, message['stderr'])
if message['stderr'][-1] != '\n':
sys.stderr.write('\n')
sys.stderr.flush()
def verify_native(self):
self.write_source(False)
argv = self.build_link_argv()
util.con_out(
util.ConsoleHeader,
'Checking {0} compiler (vendor test {1})... '.format(
self.mode_, self.family_), util.ConsoleBlue,
'{0}'.format(argv), util.ConsoleNormal)
p = util.CreateProcess(argv, env=self.env_, no_raise=False)
if util.WaitForProcess(p) != 0:
raise Exception('Compiler failed with return code {0}'.format(
p.returncode))
inclusion_pattern = None
if self.family_ == 'msvc':
inclusion_pattern = msvc_utils.DetectInclusionPattern(p.stdoutText)
lines = self.test_executable()
return {
'vendor': lines[0],
'arch': lines[2],
'inclusion_pattern': inclusion_pattern,
}
def check_upgrade(self):
try:
query = "select val from vars where key = 'db_version'"
cursor = self.cn.execute(query)
row = cursor.fetchone()
if not row:
raise Exception(
'Database seems to be misconfigured - cannot read version')
version = int(row[0])
except:
version = 1
latest_version = 3
if version == latest_version:
return
if version > latest_version:
raise Exception('Your database version is too new!')
util.con_out(
util.ConsoleHeader,
'Note: upgrading database from version {0} to {1}'.format(
version, latest_version), util.ConsoleNormal)
if version == 1:
version = self.upgrade_to_v2()
if version == 2:
version = self.upgrade_to_v3()
def reconfigure(self):
# See if we need to reconfigure.
files = []
reconfigure_needed = False
self.db.query_scripts(lambda row, path, stamp: files.append(
(path, stamp)))
for path, stamp in files:
if not os.path.exists(path) or os.path.getmtime(path) > stamp:
reconfigure_needed = True
break
if not reconfigure_needed:
return True
util.con_out(util.ConsoleHeader, 'Reparsing build scripts.',
util.ConsoleNormal)
# The database should be upgraded here, so we should always have an
# API version set.
api_version = Version(self.db.query_var('api_version'))
assert api_version is not None
if api_version >= '2.2':
from ambuild2.frontend.v2_2.context_manager import ContextManager
elif api_version >= '2.1':
from ambuild2.frontend.v2_1.context_manager import ContextManager
elif api_version >= '2.0':
from ambuild2.frontend.v2_0.context_manager import ContextManager
# Backwards compatibility: for an automatic reconfigure on an older build,
# just assume the source path is the cwd. If the AMBuildScript suddenly
# has decided to depend on originalCwd, then the user may have to manually
# run configure.py again, until we remove configure.py entirely.
if 'originalCwd' in self.vars:
originalCwd = self.vars['originalCwd']
else:
originalCwd = self.vars['sourcePath']
cm = ContextManager(sourcePath=self.vars['sourcePath'],
buildPath=self.vars['buildPath'],
originalCwd=originalCwd,
options=self.vars['options'],
args=self.vars['args'])
cm.db = self.db
cm.refactoring = self.options.refactor
try:
cm.generate('ambuild2')
except:
traceback.print_exc()
util.con_err(util.ConsoleRed, 'Failed to reparse build scripts.',
util.ConsoleNormal)
return False
# We flush the node cache after this, since database.py expects to get
# never-before-seen items at the start. We could change this and make
# nodes individually import, which might be cleaner.
self.db.flush_caches()
return True
def TryVerifyCompiler(env, mode, cmd, assumed_family):
try:
return VerifyCompiler(env, mode, cmd, assumed_family)
except Exception as e:
util.con_out(util.ConsoleHeader,
'Compiler {0} for {1} failed: '.format(cmd, mode),
util.ConsoleRed, str(e), util.ConsoleNormal)
return None
def startWorker(self):
args = (self.cx.vars, )
child = self.cx.procman.spawn(TaskWorker, args)
self.workers_.append(child)
util.con_out(util.ConsoleHeader,
'Spawned {0} (pid: {1})'.format('worker', child.proc.pid),
util.ConsoleNormal)
def build_internal(self):
if self.options.show_graph:
self.db.printGraph()
return True
if self.options.show_changed:
dmg_list = damage.ComputeDamageGraph(self.db, only_changed=True)
for entry in dmg_list:
if not entry.isFile():
continue
print(entry.format())
return True
dmg_graph = damage.ComputeDamageGraph(self.db)
if not dmg_graph:
return False
# If we get here, we have to compute damage.
if self.options.show_damage:
dmg_graph.printGraph()
return True
dmg_graph.filter_commands()
if self.options.show_commands:
dmg_graph.printGraph()
return True
builder = Builder(self, dmg_graph)
if self.options.show_steps:
builder.printSteps()
return True
status, message = builder.update()
if status == TaskMaster.BUILD_FAILED:
if message is None:
util.con_err(util.ConsoleHeader, 'Build failed.',
util.ConsoleNormal)
else:
util.con_err(util.ConsoleHeader,
'Build failed: {}'.format(message),
util.ConsoleNormal)
return False
if status == TaskMaster.BUILD_INTERRUPTED:
util.con_err(util.ConsoleHeader, 'Build cancelled.',
util.ConsoleNormal)
return False
if status == TaskMaster.BUILD_NO_CHANGES:
util.con_out(util.ConsoleHeader, 'Build succeeded, no changes.',
util.ConsoleNormal)
return True
assert status == TaskMaster.BUILD_SUCCEEDED
util.con_out(util.ConsoleHeader, 'Build succeeded.',
util.ConsoleNormal)
return True
def postGenerate(self):
self.cleanup()
self.db.commit()
self.db.vacuum()
if self.is_bootstrap:
self.saveVars()
self.db.close()
if self.had_symlink_fallback:
util.con_out(util.ConsoleHeader,
'Note: filesystem does not support symlinks. Files will be copied instead.',
util.ConsoleNormal)
def TryVerifyCompiler(env, mode, cmd, assumed_family):
try:
return VerifyCompiler(env, mode, cmd, assumed_family)
except Exception as e:
util.con_out(
util.ConsoleHeader,
'Compiler {0} for {1} failed: '.format(cmd, mode),
util.ConsoleRed,
e.message,
util.ConsoleNormal
)
return None
def postGenerate(self):
self.cleanup()
self.db.commit()
self.db.vacuum()
if self.is_bootstrap:
self.saveVars()
self.db.close()
if self.had_symlink_fallback:
util.con_out(util.ConsoleHeader,
'Note: filesystem does not support symlinks. Files will be copied instead.',
util.ConsoleNormal)
def processResults(self, message):
if not message['ok']:
self.errors_.append(message)
self.terminateBuild()
return
self.spewResult(message)
task_id = message['task_id']
updates = message['updates']
if not self.builder.updateGraph(task_id, updates, message):
util.con_out(util.ConsoleRed, 'Failed to update node!',
util.ConsoleNormal)
self.terminateBuild()
def run_compiler(self, mode, cmd, assumed_family, env = None, abs_path = None):
self.rules_config_['family'] = assumed_family
props = self.rp_.parse(self.rules_config_)
flags = props.get('CFLAGS', [])
flags += shlex.split(os.environ.get('CFLAGS', ''))
if mode == 'CXX':
flags.extend(shlex.split(os.environ.get('CXXFLAGS', '')))
try:
return self.verify_compiler(flags, mode, cmd, assumed_family, env, abs_path), None
except Exception as e:
util.con_out(util.ConsoleHeader, 'Compiler {0} for {1} failed: '.format(cmd, mode),
util.ConsoleRed, str(e), util.ConsoleNormal)
return None, e
def reconfigure(self):
# See if we need to reconfigure.
files = []
reconfigure_needed = False
self.db.query_scripts(lambda row,path,stamp: files.append((path, stamp)))
for path, stamp in files:
if not os.path.exists(path) or os.path.getmtime(path) > stamp:
reconfigure_needed = True
break
if not reconfigure_needed:
return True
util.con_out(
util.ConsoleHeader,
'Reparsing build scripts.',
util.ConsoleNormal
)
# The database should be upgraded here, so we should always have an
# API version set.
api_version = self.db.query_var('api_version')
assert api_version is not None
if api_version == '2.0':
from ambuild2.frontend.v2_0.amb2.gen import Generator
elif api_version == '2.1':
from ambuild2.frontend.v2_1.amb2 import Generator
gen = Generator.FromVars(self.vars, self.db, self.options.refactor)
try:
gen.generate()
except:
traceback.print_exc()
util.con_err(
util.ConsoleRed,
'Failed to reparse build scripts.',
util.ConsoleNormal
)
return False
# We flush the node cache after this, since database.py expects to get
# never-before-seen items at the start. We could change this and make
# nodes individually import, which might be cleaner.
self.db.flush_caches()
return True
def build_internal(self):
if self.options.show_graph:
self.db.printGraph()
return True
if self.options.show_changed:
dmg_list = damage.ComputeDamageGraph(self.db, only_changed=True)
for entry in dmg_list:
if not entry.isFile():
continue
print(entry.format())
return True
dmg_graph = damage.ComputeDamageGraph(self.db)
if not dmg_graph:
return False
# If we get here, we have to compute damage.
if self.options.show_damage:
dmg_graph.printGraph()
return True
dmg_graph.filter_commands()
if self.options.show_commands:
dmg_graph.printGraph()
return True
builder = Builder(self, dmg_graph)
if self.options.show_steps:
builder.printSteps()
return True
if not builder.update():
util.con_err(
util.ConsoleHeader,
'Build failed.',
util.ConsoleNormal
)
return False
util.con_out(
util.ConsoleHeader,
'Build succeeded.',
util.ConsoleNormal
)
return True
def build_internal(self):
if self.options.show_graph:
self.db.printGraph()
return True
if self.options.show_changed:
dmg_list = damage.ComputeDamageGraph(self.db, only_changed=True)
for entry in dmg_list:
if not entry.isFile():
continue
print(entry.format())
return True
dmg_graph = damage.ComputeDamageGraph(self.db)
if not dmg_graph:
return False
# If we get here, we have to compute damage.
if self.options.show_damage:
dmg_graph.printGraph()
return True
dmg_graph.filter_commands()
if self.options.show_commands:
dmg_graph.printGraph()
return True
builder = Builder(self, dmg_graph)
if self.options.show_steps:
builder.printSteps()
return True
if not builder.update():
util.con_err(
util.ConsoleHeader,
'Build failed.',
util.ConsoleNormal
)
return False
util.con_out(
util.ConsoleHeader,
'Build succeeded.',
util.ConsoleNormal
)
return True
def processResults(self, message):
if not message['ok']:
self.errors_.append(message)
self.terminateBuild()
return
self.spewResult(message)
task_id = message['task_id']
updates = message['updates']
if not self.builder.updateGraph(task_id, updates, message):
util.con_out(
util.ConsoleRed,
'Failed to update node!',
util.ConsoleNormal
)
self.terminateBuild()
def reconfigure(self):
# See if we need to reconfigure.
files = []
reconfigure_needed = False
self.db.query_scripts(lambda row, path, stamp: files.append(
(path, stamp)))
for path, stamp in files:
if not os.path.exists(path) or os.path.getmtime(path) > stamp:
reconfigure_needed = True
break
if not reconfigure_needed:
return True
util.con_out(util.ConsoleHeader, 'Reparsing build scripts.',
util.ConsoleNormal)
# The database should be upgraded here, so we should always have an
# API version set.
api_version = self.db.query_var('api_version')
assert api_version is not None
if api_version == '2.0':
from ambuild2.frontend.v2_0.amb2.gen import Generator
elif api_version == '2.1':
from ambuild2.frontend.v2_1.amb2 import Generator
gen = Generator.FromVars(self.vars, self.db, self.options.refactor)
try:
gen.generate()
except:
traceback.print_exc()
util.con_err(util.ConsoleRed, 'Failed to reparse build scripts.',
util.ConsoleNormal)
return False
# We flush the node cache after this, since database.py expects to get
# never-before-seen items at the start. We could change this and make
# nodes individually import, which might be cleaner.
self.db.flush_caches()
return True
def recvTaskComplete(self, worker, message):
task = self.pending_[worker.pid]
message['pid'] = worker.pid
if not message['ok']:
self.errors_.append((worker, task, message))
self.terminateBuild(TaskMaster.BUILD_FAILED)
return
self.spewResult(worker, task, message)
del self.pending_[worker.pid]
if message['task_id'] != task.id:
raise Exception(
'Worker {} returned wrong task id (got {}, expected {})'.
format(worker.pid, task_id, task.id))
updates = message['updates']
if not self.builder.updateGraph(task.id, updates, message):
util.con_out(util.ConsoleRed, 'Failed to update node!',
util.ConsoleNormal)
self.terminateBuild(TaskMaster.BUILD_FAILED)
# Enqueue any tasks that can be run if this was their last outstanding
# dependency.
for outgoing in task.outgoing:
outgoing.incoming.remove(task)
if len(outgoing.incoming) == 0:
self.task_graph.append(outgoing)
if not len(self.task_graph) and not len(self.pending_):
# There are no tasks remaining.
self.status_ = TaskMaster.BUILD_SUCCEEDED
# Add this process to the idle set.
self.idle_.add(worker)
# If more stuff was queued, and we have idle processes, use them.
while len(self.task_graph) and len(self.idle_):
worker = self.idle_.pop()
self.issue_next_task(worker)
def spewResult(self, worker, message):
if message['ok']:
color = util.ConsoleGreen
else:
color = util.ConsoleRed
util.con_out(util.ConsoleBlue, '[{0}]'.format(message['pid']),
util.ConsoleNormal, ' ', color, message['cmdline'],
util.ConsoleNormal)
sys.stdout.flush()
if len(message['stdout']):
util.WriteEncodedText(sys.stdout, message['stdout'])
if message['stdout'][-1] != '\n':
sys.stdout.write('\n')
sys.stdout.flush()
if len(message['stderr']):
util.WriteEncodedText(sys.stderr, message['stderr'])
if message['stderr'][-1] != '\n':
sys.stderr.write('\n')
sys.stderr.flush()
def DetectEmscripten(env, var):
cmd = env[var]
argv = cmd.split()
if 'CFLAGS' in env:
argv += env.get('CFLAGS', '').split()
if var == 'CC':
suffix = '.c'
elif var == 'CXX':
argv += env.get('CXXFLAGS', '').split()
suffix = '.cpp'
# Run emcc -dM -E on a blank file to get preprocessor definitions.
with tempfile.NamedTemporaryFile(suffix = suffix, delete = True) as fp:
argv = cmd.split() + ['-dM', '-E', fp.name]
output = subprocess.check_output(args = argv)
output = output.replace('\r', '')
lines = output.split('\n')
# Map the definitions into a dictionary.
defs = {}
for line in lines:
m = re.match('#define\s+([A-Za-z_][A-Za-z0-9_]*)\s*(.*)', line)
if m is None:
continue
macro = m.group(1)
value = m.group(2)
defs[macro] = value
if '__EMSCRIPTEN__' not in defs:
return None
version = '{0}.{1}'.format(defs['__EMSCRIPTEN_major__'], defs['__EMSCRIPTEN_minor__'])
v = vendors.Emscripten(cmd, version)
util.con_out(
util.ConsoleHeader,
'found {0} version {1}'.format('Emscripten', version),
util.ConsoleNormal
)
return v
def DetectEmscripten(env, var):
cmd = env[var]
argv = cmd.split()
if 'CFLAGS' in env:
argv += env.get('CFLAGS', '').split()
if var == 'CC':
suffix = '.c'
elif var == 'CXX':
argv += env.get('CXXFLAGS', '').split()
suffix = '.cpp'
# Run emcc -dM -E on a blank file to get preprocessor definitions.
with tempfile.NamedTemporaryFile(suffix=suffix, delete=True) as fp:
argv = cmd.split() + ['-dM', '-E', fp.name]
output = subprocess.check_output(args=argv)
output = output.replace('\r', '')
lines = output.split('\n')
# Map the definitions into a dictionary.
defs = {}
for line in lines:
m = re.match('#define\s+([A-Za-z_][A-Za-z0-9_]*)\s*(.*)', line)
if m is None:
continue
macro = m.group(1)
value = m.group(2)
defs[macro] = value
if '__EMSCRIPTEN__' not in defs:
return None
version = '{0}.{1}'.format(defs['__EMSCRIPTEN_major__'],
defs['__EMSCRIPTEN_minor__'])
v = vendors.Emscripten(cmd, version)
util.con_out(util.ConsoleHeader,
'found {0} version {1}'.format('Emscripten',
version), util.ConsoleNormal)
return v
def verify_compiler(self, flags, mode, cmd, assumed_family, env, abs_path):
base_argv = shlex.split(cmd)
base_argv.extend(flags)
argv = base_argv[:]
if abs_path is not None:
argv[0] = abs_path
verifier = Verifier(family = assumed_family,
env = env,
argv = argv,
mode = mode,
cross_compile = self.cross_compile_)
info = verifier.verify()
vendor, version = info['vendor'].split(' ')
if vendor == 'gcc':
v = GCC(version)
elif vendor == 'emscripten':
v = Emscripten(version)
elif vendor == 'apple-clang':
v = Clang(version, 'apple')
elif vendor == 'clang':
v = Clang(version)
elif vendor == 'msvc':
v = MSVC(version)
else:
raise Exception('Unknown vendor {0}'.format(vendor))
if info['inclusion_pattern'] is not None:
v.extra_props['inclusion_pattern'] = info['inclusion_pattern']
util.con_out(util.ConsoleHeader,
'found {0} version {1}, {2}'.format(vendor, version,
info['arch']), util.ConsoleNormal)
return CommandAndVendor(base_argv, v, info['arch'])
def verify_cross_compile(self):
self.write_source(True)
argv = self.build_pp_argv()
util.con_out(
util.ConsoleHeader,
'Checking {0} compiler (vendor test {1})... '.format(
self.mode_, self.family_), util.ConsoleBlue,
'{0}'.format(argv), util.ConsoleNormal)
p = util.CreateProcess(argv, env=self.env_, no_raise=False)
if util.WaitForProcess(p) != 0:
raise Exception('compiler failed with return code {0}'.format(
p.returncode))
lines = self.parse_pp(p.stdoutText)
self.verify_lines(lines)
# Execute one more time to test linkage.
self.write_source(False)
argv = self.build_link_argv()
p = util.CreateProcess(argv, env=self.env_, no_raise=False)
if util.WaitForProcess(p) != 0:
raise Exception('compiler failed with return code {}: {}'.format(
p.returncode, argv))
inclusion_pattern = None
if self.family_ == 'msvc':
inclusion_pattern = msvc_utils.DetectInclusionPattern(p.stdoutText)
return {
'vendor': lines[0],
'arch': lines[2],
'inclusion_pattern': inclusion_pattern,
}
def VerifyCompiler(env, mode, cmd, vendor):
args = cmd.split()
if 'CFLAGS' in env:
args.extend(env['CFLAGS'].split())
if mode == 'CXX' and 'CXXFLAGS' in env:
args.extend(env['CXXFLAGS'].split())
if mode == 'CXX':
filename = 'test.cpp'
else:
filename = 'test.c'
file = open(filename, 'w')
file.write("""
#include <stdio.h>
#include <stdlib.h>
int main()
{
#if defined __ICC
printf("icc %d\\n", __ICC);
#elif defined __clang__
# if defined(__clang_major__) && defined(__clang_minor__)
# if defined(__apple_build_version__)
printf("apple-clang %d.%d\\n", __clang_major__, __clang_minor__);
# else
printf("clang %d.%d\\n", __clang_major__, __clang_minor__);
# endif
# else
printf("clang 1.%d\\n", __GNUC_MINOR__);
# endif
#elif defined __GNUC__
printf("gcc %d.%d\\n", __GNUC__, __GNUC_MINOR__);
#elif defined _MSC_VER
printf("msvc %d\\n", _MSC_VER);
#elif defined __TenDRA__
printf("tendra 0\\n");
#elif defined __SUNPRO_C
printf("sun %x\\n", __SUNPRO_C);
#elif defined __SUNPRO_CC
printf("sun %x\\n", __SUNPRO_CC);
#else
#error "Unrecognized compiler!"
#endif
#if defined __cplusplus
printf("CXX\\n");
#else
printf("CC\\n");
#endif
exit(0);
}
""")
file.close()
if mode == 'CC':
executable = 'test' + util.ExecutableSuffix
elif mode == 'CXX':
executable = 'testp' + util.ExecutableSuffix
# Make sure the exe is gone.
if os.path.exists(executable):
os.unlink(executable)
# Until we can better detect vendors, don't do this.
# if vendor == 'gcc' and mode == 'CXX':
# args.extend(['-fno-exceptions', '-fno-rtti'])
args.extend([filename, '-o', executable])
# For MSVC, we need to detect the inclusion pattern for foreign-language
# systems.
if vendor == 'msvc':
args += ['-nologo', '-showIncludes']
util.con_out(
util.ConsoleHeader,
'Checking {0} compiler (vendor test {1})... '.format(mode, vendor),
util.ConsoleBlue,
'{0}'.format(args),
util.ConsoleNormal
)
p = util.CreateProcess(args)
if p == None:
print('not found')
return False
if util.WaitForProcess(p) != 0:
print('failed with return code {0}'.format(p.returncode))
return False
inclusion_pattern = None
if vendor == 'msvc':
inclusion_pattern = DetectMicrosoftInclusionPattern(p.stdoutText)
exe = util.MakePath('.', executable)
p = util.CreateProcess([executable], executable = exe)
if p == None:
print('failed to create executable with {0}'.format(cmd))
return False
if util.WaitForProcess(p) != 0:
print('executable failed with return code {0}'.format(p.returncode))
return False
lines = p.stdoutText.splitlines()
if len(lines) != 2:
print('invalid executable output')
return False
if lines[1] != mode:
print('requested {0} compiler, found {1}'.format(mode, lines[1]))
return False
vendor, version = lines[0].split(' ')
if vendor == 'gcc':
v = vendors.GCC(cmd, version)
elif vendor == 'apple-clang':
v = vendors.Clang('apple-clang', cmd, version)
elif vendor == 'clang':
v = vendors.Clang('clang', cmd, version)
elif vendor == 'msvc':
v = vendors.MSVC(cmd, version)
elif vendor == 'sun':
v = vendors.SunPro(cmd, version)
else:
print('Unknown vendor {0}'.format(vendor))
return False
if inclusion_pattern is not None:
v.extra_props['inclusion_pattern'] = inclusion_pattern
util.con_out(
util.ConsoleHeader,
'found {0} version {1}'.format(vendor, version),
util.ConsoleNormal
)
return v
def receiveSpawned(self, message):
util.con_out(
util.ConsoleHeader,
'Spawned {0} (pid: {1})'.format(message['type'], message['pid']),
util.ConsoleNormal
)
def receiveSpawned(self, message):
util.con_out(
util.ConsoleHeader,
'Spawned {0} (pid: {1})'.format(message['type'], message['pid']),
util.ConsoleNormal)
def VerifyCompiler(env, mode, cmd, vendor):
args = cmd.split()
if 'CFLAGS' in env:
args.extend(env['CFLAGS'].split())
if mode == 'CXX' and 'CXXFLAGS' in env:
args.extend(env['CXXFLAGS'].split())
if mode == 'CXX':
filename = 'test.cpp'
else:
filename = 'test.c'
file = open(filename, 'w')
file.write("""
#include <stdio.h>
#include <stdlib.h>
int main()
{
#if defined __ICC
printf("icc %d\\n", __ICC);
#elif defined __clang__
# if defined(__clang_major__) && defined(__clang_minor__)
# if defined(__apple_build_version__)
printf("apple-clang %d.%d\\n", __clang_major__, __clang_minor__);
# else
printf("clang %d.%d\\n", __clang_major__, __clang_minor__);
# endif
# else
printf("clang 1.%d\\n", __GNUC_MINOR__);
# endif
#elif defined __GNUC__
printf("gcc %d.%d\\n", __GNUC__, __GNUC_MINOR__);
#elif defined _MSC_VER
printf("msvc %d\\n", _MSC_VER);
#elif defined __TenDRA__
printf("tendra 0\\n");
#elif defined __SUNPRO_C
printf("sun %x\\n", __SUNPRO_C);
#elif defined __SUNPRO_CC
printf("sun %x\\n", __SUNPRO_CC);
#else
#error "Unrecognized compiler!"
#endif
#if defined __cplusplus
printf("CXX\\n");
#else
printf("CC\\n");
#endif
exit(0);
}
""")
file.close()
if mode == 'CC':
executable = 'test' + util.ExecutableSuffix
elif mode == 'CXX':
executable = 'testp' + util.ExecutableSuffix
# Make sure the exe is gone.
if os.path.exists(executable):
os.unlink(executable)
# Until we can better detect vendors, don't do this.
# if vendor == 'gcc' and mode == 'CXX':
# args.extend(['-fno-exceptions', '-fno-rtti'])
args.extend([filename, '-o', executable])
# For MSVC, we need to detect the inclusion pattern for foreign-language
# systems.
if vendor == 'msvc':
args += ['-nologo', '-showIncludes']
util.con_out(
util.ConsoleHeader,
'Checking {0} compiler (vendor test {1})... '.format(mode, vendor),
util.ConsoleBlue, '{0}'.format(args), util.ConsoleNormal)
p = util.CreateProcess(args)
if p == None:
print('not found')
return False
if util.WaitForProcess(p) != 0:
print('failed with return code {0}'.format(p.returncode))
return False
inclusion_pattern = None
if vendor == 'msvc':
inclusion_pattern = DetectMicrosoftInclusionPattern(p.stdoutText)
exe = util.MakePath('.', executable)
p = util.CreateProcess([executable], executable=exe)
if p == None:
print('failed to create executable with {0}'.format(cmd))
return False
if util.WaitForProcess(p) != 0:
print('executable failed with return code {0}'.format(p.returncode))
return False
lines = p.stdoutText.splitlines()
if len(lines) != 2:
print('invalid executable output')
return False
if lines[1] != mode:
print('requested {0} compiler, found {1}'.format(mode, lines[1]))
return False
vendor, version = lines[0].split(' ')
if vendor == 'gcc':
v = vendors.GCC(cmd, version)
elif vendor == 'apple-clang':
v = vendors.Clang('apple-clang', cmd, version)
elif vendor == 'clang':
v = vendors.Clang('clang', cmd, version)
elif vendor == 'msvc':
v = vendors.MSVC(cmd, version)
elif vendor == 'sun':
v = vendors.SunPro(cmd, version)
else:
print('Unknown vendor {0}'.format(vendor))
return False
if inclusion_pattern is not None:
v.extra_props['inclusion_pattern'] = inclusion_pattern
util.con_out(util.ConsoleHeader,
'found {0} version {1}'.format(vendor,
version), util.ConsoleNormal)
return v
def VerifyCompiler(env, mode, cmd, assumed_family):
base_argv = cmd.split()
if 'CFLAGS' in env:
base_argv.extend(env['CFLAGS'].split())
if mode == 'CXX' and 'CXXFLAGS' in env:
base_argv.extend(env['CXXFLAGS'].split())
argv = base_argv[:]
if mode == 'CXX':
filename = 'test.cpp'
else:
filename = 'test.c'
file = open(filename, 'w')
file.write("""
#include <stdio.h>
#include <stdlib.h>
int main()
{
#if defined __ICC
printf("icc %d\\n", __ICC);
#elif defined(__EMSCRIPTEN__)
printf("emscripten %d.%d\\n", __clang_major__, __clang_minor__);
#elif defined __clang__
# if defined(__clang_major__) && defined(__clang_minor__)
# if defined(__apple_build_version__)
printf("apple-clang %d.%d\\n", __clang_major__, __clang_minor__);
# else
printf("clang %d.%d\\n", __clang_major__, __clang_minor__);
# endif
# else
printf("clang 1.%d\\n", __GNUC_MINOR__);
# endif
#elif defined __GNUC__
printf("gcc %d.%d\\n", __GNUC__, __GNUC_MINOR__);
#elif defined _MSC_VER
printf("msvc %d\\n", _MSC_VER);
#elif defined __TenDRA__
printf("tendra 0\\n");
#elif defined __SUNPRO_C
printf("sun %x\\n", __SUNPRO_C);
#elif defined __SUNPRO_CC
printf("sun %x\\n", __SUNPRO_CC);
#else
#error "Unrecognized compiler!"
#endif
#if defined __cplusplus
printf("CXX\\n");
#else
printf("CC\\n");
#endif
exit(0);
}
""")
file.close()
executable = 'test'
if mode == 'CXX':
executable += 'p'
if assumed_family == 'emscripten':
executable += '.js'
else:
executable += util.ExecutableSuffix
# Make sure the exe is gone.
if os.path.exists(executable):
os.unlink(executable)
argv.extend([filename, '-o', executable])
# For MSVC, we need to detect the inclusion pattern for foreign-language
# systems.
if assumed_family == 'msvc':
argv += ['-nologo', '-showIncludes']
util.con_out(
util.ConsoleHeader,
'Checking {0} compiler (vendor test {1})... '.format(
mode, assumed_family), util.ConsoleBlue, '{0}'.format(argv),
util.ConsoleNormal)
p = util.CreateProcess(argv)
if p == None:
raise Exception('compiler not found')
if util.WaitForProcess(p) != 0:
raise Exception('compiler failed with return code {0}'.format(
p.returncode))
inclusion_pattern = None
if assumed_family == 'msvc':
inclusion_pattern = MSVC.DetectInclusionPattern(p.stdoutText)
executable_argv = [executable]
if assumed_family == 'emscripten':
exe = 'node'
executable_argv[0:0] = [exe]
else:
exe = util.MakePath('.', executable)
p = util.CreateProcess(executable_argv, executable=exe)
if p == None:
raise Exception('failed to create executable with {0}'.format(cmd))
if util.WaitForProcess(p) != 0:
raise Exception('executable failed with return code {0}'.format(
p.returncode))
lines = p.stdoutText.splitlines()
if len(lines) != 2:
raise Exception('invalid executable output')
if lines[1] != mode:
raise Exception('requested {0} compiler, found {1}'.format(
mode, lines[1]))
vendor, version = lines[0].split(' ')
if vendor == 'gcc':
v = GCC(version)
elif vendor == 'emscripten':
v = Emscripten(version)
elif vendor == 'apple-clang':
v = Clang(version, 'apple')
elif vendor == 'clang':
v = Clang(version)
elif vendor == 'msvc':
v = MSVC(version)
elif vendor == 'sun':
v = SunPro(version)
else:
raise Exception('Unknown vendor {0}'.format(vendor))
if inclusion_pattern is not None:
v.extra_props['inclusion_pattern'] = inclusion_pattern
util.con_out(util.ConsoleHeader,
'found {0} version {1}'.format(vendor,
version), util.ConsoleNormal)
return CommandAndVendor(base_argv, v)
