src/v8/tools/dev/gm.py - cobalt - Git at Google

 #!/usr/bin/env python
 # Copyright 2017 the V8 project authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 """\
 Convenience wrapper for compiling V8 with gn/ninja and running tests.
 Sets up build output directories if they don't exist.
 Produces simulator builds for non-Intel target architectures.
 Uses Goma by default if it is detected (at output directory setup time).
 Expects to be run from the root of a V8 checkout.

 Usage:
     gm.py [<arch>].[<mode>].[<target>] [testname...]

 All arguments are optional. Most combinations should work, e.g.:
     gm.py ia32.debug x64.release d8
     gm.py x64 mjsunit/foo cctest/test-bar/*
 """
 # See HELP below for additional documentation.

 from __future__ import print_function
 import errno
 import multiprocessing
 import os
 import pty
 import re
 import subprocess
 import sys

 BUILD_OPTS_DEFAULT = ""
 BUILD_OPTS_GOMA = "-j1000 -l%d" % (multiprocessing.cpu_count() + 2)
 BUILD_TARGETS_TEST = ["d8", "cctest", "unittests"]
 BUILD_TARGETS_ALL = ["all"]

 # All arches that this script understands.
 ARCHES = ["ia32", "x64", "arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64",
           "s390", "s390x"]
 # Arches that get built/run when you don't specify any.
 DEFAULT_ARCHES = ["ia32", "x64", "arm", "arm64"]
 # Modes that this script understands.
 MODES = ["release", "debug", "optdebug"]
 # Modes that get built/run when you don't specify any.
 DEFAULT_MODES = ["release", "debug"]
 # Build targets that can be manually specified.
 TARGETS = ["d8", "cctest", "unittests", "v8_fuzzers", "mkgrokdump",
            "generate-bytecode-expectations", "inspector-test"]
 # Build targets that get built when you don't specify any (and specified tests
 # don't imply any other targets).
 DEFAULT_TARGETS = ["d8"]
 # Tests that run-tests.py would run by default that can be run with
 # BUILD_TARGETS_TESTS.
 DEFAULT_TESTS = ["cctest", "debugger", "intl", "message", "mjsunit",
                  "preparser", "unittests"]
 # These can be suffixed to any <arch>.<mode> combo, or used standalone,
 # or used as global modifiers (affecting all <arch>.<mode> combos).
 ACTIONS = {
   "all": {"targets": BUILD_TARGETS_ALL, "tests": []},
   "tests": {"targets": BUILD_TARGETS_TEST, "tests": []},
   "check": {"targets": BUILD_TARGETS_TEST, "tests": DEFAULT_TESTS},
   "checkall": {"targets": BUILD_TARGETS_ALL, "tests": ["ALL"]},
 }

 HELP = """<arch> can be any of: %(arches)s
 <mode> can be any of: %(modes)s
 <target> can be any of:
  - cctest, d8, unittests, v8_fuzzers (build respective binary)
  - all (build all binaries)
  - tests (build test binaries)
  - check (build test binaries, run most tests)
  - checkall (build all binaries, run more tests)
 """ % {"arches": " ".join(ARCHES),
        "modes": " ".join(MODES)}

 TESTSUITES_TARGETS = {"benchmarks": "d8",
               "cctest": "cctest",
               "debugger": "d8",
               "fuzzer": "v8_fuzzers",
               "inspector": "inspector-test",
               "intl": "d8",
               "message": "d8",
               "mjsunit": "d8",
               "mozilla": "d8",
               "preparser": "d8",
               "test262": "d8",
               "unittests": "unittests",
               "webkit": "d8"}

 OUTDIR = "out"

 def DetectGoma():
   home_goma = os.path.expanduser("~/goma")
   if os.path.exists(home_goma):
     return home_goma
   if os.environ.get("GOMA_DIR"):
     return os.environ.get("GOMA_DIR")
   if os.environ.get("GOMADIR"):
     return os.environ.get("GOMADIR")
   return None

 GOMADIR = DetectGoma()
 IS_GOMA_MACHINE = GOMADIR is not None

 USE_GOMA = "true" if IS_GOMA_MACHINE else "false"

 RELEASE_ARGS_TEMPLATE = """\
 is_component_build = false
 is_debug = false
 %s
 use_goma = {GOMA}
 goma_dir = \"{GOMA_DIR}\"
 v8_enable_backtrace = true
 v8_enable_disassembler = true
 v8_enable_object_print = true
 v8_enable_verify_heap = true
 """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

 DEBUG_ARGS_TEMPLATE = """\
 is_component_build = true
 is_debug = true
 symbol_level = 2
 %s
 use_goma = {GOMA}
 goma_dir = \"{GOMA_DIR}\"
 v8_enable_backtrace = true
 v8_enable_slow_dchecks = true
 v8_optimized_debug = false
 """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

 OPTDEBUG_ARGS_TEMPLATE = """\
 is_component_build = true
 is_debug = true
 symbol_level = 1
 %s
 use_goma = {GOMA}
 goma_dir = \"{GOMA_DIR}\"
 v8_enable_backtrace = true
 v8_enable_verify_heap = true
 v8_optimized_debug = true
 """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

 ARGS_TEMPLATES = {
   "release": RELEASE_ARGS_TEMPLATE,
   "debug": DEBUG_ARGS_TEMPLATE,
   "optdebug": OPTDEBUG_ARGS_TEMPLATE
 }

 def PrintHelpAndExit():
   print(__doc__)
   print(HELP)
   sys.exit(0)

 def _Call(cmd, silent=False):
   if not silent: print("# %s" % cmd)
   return subprocess.call(cmd, shell=True)

 def _CallWithOutputNoTerminal(cmd):
   return subprocess.check_output(cmd, stderr=subprocess.STDOUT, shell=True)

 def _CallWithOutput(cmd):
   print("# %s" % cmd)
   # The following trickery is required so that the 'cmd' thinks it's running
   # in a real terminal, while this script gets to intercept its output.
   master, slave = pty.openpty()
   p = subprocess.Popen(cmd, shell=True, stdin=slave, stdout=slave, stderr=slave)
   os.close(slave)
   output = []
   try:
     while True:
       try:
         data = os.read(master, 512)
       except OSError as e:
         if e.errno != errno.EIO: raise
         break # EIO means EOF on some systems
       else:
         if not data: # EOF
           break
         print(data, end="")
         sys.stdout.flush()
         output.append(data)
   finally:
     os.close(master)
     p.wait()
   return p.returncode, "".join(output)

 def _Which(cmd):
   for path in os.environ["PATH"].split(os.pathsep):
     if os.path.exists(os.path.join(path, cmd)):
       return os.path.join(path, cmd)
   return None

 def _Write(filename, content):
   print("# echo > %s << EOF\n%sEOF" % (filename, content))
   with open(filename, "w") as f:
     f.write(content)

 def _Notify(summary, body):
   if _Which('notify-send') is not None:
     _Call("notify-send '{}' '{}'".format(summary, body), silent=True)
   else:
     print("{} - {}".format(summary, body))

 def GetPath(arch, mode):
   subdir = "%s.%s" % (arch, mode)
   return os.path.join(OUTDIR, subdir)

 class Config(object):
   def __init__(self, arch, mode, targets, tests=[]):
     self.arch = arch
     self.mode = mode
     self.targets = set(targets)
     self.tests = set(tests)

   def Extend(self, targets, tests=[]):
     self.targets.update(targets)
     self.tests.update(tests)

   def GetTargetCpu(self):
     cpu = "x86"
     if "64" in self.arch or self.arch == "s390x":
       cpu = "x64"
     return "target_cpu = \"%s\"" % cpu

   def GetV8TargetCpu(self):
     if self.arch in ("arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64",
                      "s390", "s390x"):
       return "\nv8_target_cpu = \"%s\"" % self.arch
     return ""

   def GetGnArgs(self):
     template = ARGS_TEMPLATES[self.mode]
     arch_specific = self.GetTargetCpu() + self.GetV8TargetCpu()
     return template % arch_specific

   def WantsGoma(self):
     output = _CallWithOutputNoTerminal(
         "gn args --short --list=use_goma %s" % (GetPath(self.arch, self.mode)))
     return "true" in output

   def Build(self):
     path = GetPath(self.arch, self.mode)
     args_gn = os.path.join(path, "args.gn")
     if not os.path.exists(path):
       print("# mkdir -p %s" % path)
       os.makedirs(path)
     if not os.path.exists(args_gn):
       _Write(args_gn, self.GetGnArgs())
       code = _Call("gn gen %s" % path)
       if code != 0: return code
     targets = " ".join(self.targets)
     build_opts = BUILD_OPTS_GOMA if self.WantsGoma() else BUILD_OPTS_DEFAULT
     # The implementation of mksnapshot failure detection relies on
     # the "pty" module and GDB presence, so skip it on non-Linux.
     if "linux" not in sys.platform:
       return _Call("ninja -C %s %s %s" % (path, build_opts, targets))

     return_code, output = _CallWithOutput("ninja -C %s %s %s" %
                                           (path, build_opts, targets))
     if return_code != 0 and "FAILED: gen/snapshot.cc" in output:
       csa_trap = re.compile("Specify option( --csa-trap-on-node=[^ ]*)")
       match = csa_trap.search(output)
       extra_opt = match.group(1) if match else ""
       _Notify("V8 build requires your attention",
               "Detected mksnapshot failure, re-running in GDB...")
       _Call("gdb -args %(path)s/mksnapshot "
             "--startup_src %(path)s/gen/snapshot.cc "
             "--random-seed 314159265 "
             "--startup-blob %(path)s/snapshot_blob.bin"
             "%(extra)s"% {"path": path, "extra": extra_opt})
     return return_code

   def RunTests(self):
     if not self.tests: return 0
     if "ALL" in self.tests:
       tests = ""
     else:
       tests = " ".join(self.tests)
     return _Call("tools/run-tests.py --arch=%s --mode=%s %s" %
                  (self.arch, self.mode, tests))

 def GetTestBinary(argstring):
   for suite in TESTSUITES_TARGETS:
     if argstring.startswith(suite): return TESTSUITES_TARGETS[suite]
   return None

 class ArgumentParser(object):
   def __init__(self):
     self.global_targets = set()
     self.global_tests = set()
     self.global_actions = set()
     self.configs = {}

   def PopulateConfigs(self, arches, modes, targets, tests):
     for a in arches:
       for m in modes:
         path = GetPath(a, m)
         if path not in self.configs:
           self.configs[path] = Config(a, m, targets, tests)
         else:
           self.configs[path].Extend(targets, tests)

   def ProcessGlobalActions(self):
     have_configs = len(self.configs) > 0
     for action in self.global_actions:
       impact = ACTIONS[action]
       if (have_configs):
         for c in self.configs:
           self.configs[c].Extend(**impact)
       else:
         self.PopulateConfigs(DEFAULT_ARCHES, DEFAULT_MODES, **impact)

   def ParseArg(self, argstring):
     if argstring in ("-h", "--help", "help"):
       PrintHelpAndExit()
     arches = []
     modes = []
     targets = []
     actions = []
     tests = []
     # Specifying a single unit test looks like "unittests/Foo.Bar".
     if argstring.startswith("unittests/"):
       words = [argstring]
     else:
       words = argstring.split('.')
     if len(words) == 1:
       word = words[0]
       if word in ACTIONS:
         self.global_actions.add(word)
         return
       if word in TARGETS:
         self.global_targets.add(word)
         return
       maybe_target = GetTestBinary(word)
       if maybe_target is not None:
         self.global_tests.add(word)
         self.global_targets.add(maybe_target)
         return
     for word in words:
       if word in ARCHES:
         arches.append(word)
       elif word in MODES:
         modes.append(word)
       elif word in TARGETS:
         targets.append(word)
       elif word in ACTIONS:
         actions.append(word)
       else:
         print("Didn't understand: %s" % word)
         sys.exit(1)
     # Process actions.
     for action in actions:
       impact = ACTIONS[action]
       targets += impact["targets"]
       tests += impact["tests"]
     # Fill in defaults for things that weren't specified.
     arches = arches or DEFAULT_ARCHES
     modes = modes or DEFAULT_MODES
     targets = targets or DEFAULT_TARGETS
     # Produce configs.
     self.PopulateConfigs(arches, modes, targets, tests)

   def ParseArguments(self, argv):
     if len(argv) == 0:
       PrintHelpAndExit()
     for argstring in argv:
       self.ParseArg(argstring)
     self.ProcessGlobalActions()
     for c in self.configs:
       self.configs[c].Extend(self.global_targets, self.global_tests)
     return self.configs

 def Main(argv):
   parser = ArgumentParser()
   configs = parser.ParseArguments(argv[1:])
   return_code = 0
   # If we have Goma but it is not running, start it.
   if (GOMADIR is not None and
       _Call("ps -e | grep compiler_proxy > /dev/null", silent=True) != 0):
     _Call("%s/goma_ctl.py ensure_start" % GOMADIR)
   for c in configs:
     return_code += configs[c].Build()
   if return_code == 0:
     for c in configs:
       return_code += configs[c].RunTests()
   if return_code == 0:
     _Notify('Done!', 'V8 compilation finished successfully.')
   else:
     _Notify('Error!', 'V8 compilation finished with errors.')
   return return_code

 if __name__ == "__main__":
   sys.exit(Main(sys.argv))
	#!/usr/bin/env python
	# Copyright 2017 the V8 project authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	"""\
	Convenience wrapper for compiling V8 with gn/ninja and running tests.
	Sets up build output directories if they don't exist.
	Produces simulator builds for non-Intel target architectures.
	Uses Goma by default if it is detected (at output directory setup time).
	Expects to be run from the root of a V8 checkout.

	Usage:
	gm.py [<arch>].[<mode>].[<target>] [testname...]

	All arguments are optional. Most combinations should work, e.g.:
	gm.py ia32.debug x64.release d8
	gm.py x64 mjsunit/foo cctest/test-bar/*
	"""
	# See HELP below for additional documentation.

	from __future__ import print_function
	import errno
	import multiprocessing
	import os
	import pty
	import re
	import subprocess
	import sys

	BUILD_OPTS_DEFAULT = ""
	BUILD_OPTS_GOMA = "-j1000 -l%d" % (multiprocessing.cpu_count() + 2)
	BUILD_TARGETS_TEST = ["d8", "cctest", "unittests"]
	BUILD_TARGETS_ALL = ["all"]

	# All arches that this script understands.
	ARCHES = ["ia32", "x64", "arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64",
	"s390", "s390x"]
	# Arches that get built/run when you don't specify any.
	DEFAULT_ARCHES = ["ia32", "x64", "arm", "arm64"]
	# Modes that this script understands.
	MODES = ["release", "debug", "optdebug"]
	# Modes that get built/run when you don't specify any.
	DEFAULT_MODES = ["release", "debug"]
	# Build targets that can be manually specified.
	TARGETS = ["d8", "cctest", "unittests", "v8_fuzzers", "mkgrokdump",
	"generate-bytecode-expectations", "inspector-test"]
	# Build targets that get built when you don't specify any (and specified tests
	# don't imply any other targets).
	DEFAULT_TARGETS = ["d8"]
	# Tests that run-tests.py would run by default that can be run with
	# BUILD_TARGETS_TESTS.
	DEFAULT_TESTS = ["cctest", "debugger", "intl", "message", "mjsunit",
	"preparser", "unittests"]
	# These can be suffixed to any <arch>.<mode> combo, or used standalone,
	# or used as global modifiers (affecting all <arch>.<mode> combos).
	ACTIONS = {
	"all": {"targets": BUILD_TARGETS_ALL, "tests": []},
	"tests": {"targets": BUILD_TARGETS_TEST, "tests": []},
	"check": {"targets": BUILD_TARGETS_TEST, "tests": DEFAULT_TESTS},
	"checkall": {"targets": BUILD_TARGETS_ALL, "tests": ["ALL"]},
	}

	HELP = """<arch> can be any of: %(arches)s
	<mode> can be any of: %(modes)s
	<target> can be any of:
	- cctest, d8, unittests, v8_fuzzers (build respective binary)
	- all (build all binaries)
	- tests (build test binaries)
	- check (build test binaries, run most tests)
	- checkall (build all binaries, run more tests)
	""" % {"arches": " ".join(ARCHES),
	"modes": " ".join(MODES)}

	TESTSUITES_TARGETS = {"benchmarks": "d8",
	"cctest": "cctest",
	"debugger": "d8",
	"fuzzer": "v8_fuzzers",
	"inspector": "inspector-test",
	"intl": "d8",
	"message": "d8",
	"mjsunit": "d8",
	"mozilla": "d8",
	"preparser": "d8",
	"test262": "d8",
	"unittests": "unittests",
	"webkit": "d8"}

	OUTDIR = "out"

	def DetectGoma():
	home_goma = os.path.expanduser("~/goma")
	if os.path.exists(home_goma):
	return home_goma
	if os.environ.get("GOMA_DIR"):
	return os.environ.get("GOMA_DIR")
	if os.environ.get("GOMADIR"):
	return os.environ.get("GOMADIR")
	return None

	GOMADIR = DetectGoma()
	IS_GOMA_MACHINE = GOMADIR is not None

	USE_GOMA = "true" if IS_GOMA_MACHINE else "false"

	RELEASE_ARGS_TEMPLATE = """\
	is_component_build = false
	is_debug = false
	%s
	use_goma = {GOMA}
	goma_dir = \"{GOMA_DIR}\"
	v8_enable_backtrace = true
	v8_enable_disassembler = true
	v8_enable_object_print = true
	v8_enable_verify_heap = true
	""".replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

	DEBUG_ARGS_TEMPLATE = """\
	is_component_build = true
	is_debug = true
	symbol_level = 2
	%s
	use_goma = {GOMA}
	goma_dir = \"{GOMA_DIR}\"
	v8_enable_backtrace = true
	v8_enable_slow_dchecks = true
	v8_optimized_debug = false
	""".replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

	OPTDEBUG_ARGS_TEMPLATE = """\
	is_component_build = true
	is_debug = true
	symbol_level = 1
	%s
	use_goma = {GOMA}
	goma_dir = \"{GOMA_DIR}\"
	v8_enable_backtrace = true
	v8_enable_verify_heap = true
	v8_optimized_debug = true
	""".replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR))

	ARGS_TEMPLATES = {
	"release": RELEASE_ARGS_TEMPLATE,
	"debug": DEBUG_ARGS_TEMPLATE,
	"optdebug": OPTDEBUG_ARGS_TEMPLATE
	}

	def PrintHelpAndExit():
	print(__doc__)
	print(HELP)
	sys.exit(0)

	def _Call(cmd, silent=False):
	if not silent: print("# %s" % cmd)
	return subprocess.call(cmd, shell=True)

	def _CallWithOutputNoTerminal(cmd):
	return subprocess.check_output(cmd, stderr=subprocess.STDOUT, shell=True)

	def _CallWithOutput(cmd):
	print("# %s" % cmd)
	# The following trickery is required so that the 'cmd' thinks it's running
	# in a real terminal, while this script gets to intercept its output.
	master, slave = pty.openpty()
	p = subprocess.Popen(cmd, shell=True, stdin=slave, stdout=slave, stderr=slave)
	os.close(slave)
	output = []
	try:
	while True:
	try:
	data = os.read(master, 512)
	except OSError as e:
	if e.errno != errno.EIO: raise
	break # EIO means EOF on some systems
	else:
	if not data: # EOF
	break
	print(data, end="")
	sys.stdout.flush()
	output.append(data)
	finally:
	os.close(master)
	p.wait()
	return p.returncode, "".join(output)

	def _Which(cmd):
	for path in os.environ["PATH"].split(os.pathsep):
	if os.path.exists(os.path.join(path, cmd)):
	return os.path.join(path, cmd)
	return None

	def _Write(filename, content):
	print("# echo > %s << EOF\n%sEOF" % (filename, content))
	with open(filename, "w") as f:
	f.write(content)

	def _Notify(summary, body):
	if _Which('notify-send') is not None:
	_Call("notify-send '{}' '{}'".format(summary, body), silent=True)
	else:
	print("{} - {}".format(summary, body))

	def GetPath(arch, mode):
	subdir = "%s.%s" % (arch, mode)
	return os.path.join(OUTDIR, subdir)

	class Config(object):
	def __init__(self, arch, mode, targets, tests=[]):
	self.arch = arch
	self.mode = mode
	self.targets = set(targets)
	self.tests = set(tests)

	def Extend(self, targets, tests=[]):
	self.targets.update(targets)
	self.tests.update(tests)

	def GetTargetCpu(self):
	cpu = "x86"
	if "64" in self.arch or self.arch == "s390x":
	cpu = "x64"
	return "target_cpu = \"%s\"" % cpu

	def GetV8TargetCpu(self):
	if self.arch in ("arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64",
	"s390", "s390x"):
	return "\nv8_target_cpu = \"%s\"" % self.arch
	return ""

	def GetGnArgs(self):
	template = ARGS_TEMPLATES[self.mode]
	arch_specific = self.GetTargetCpu() + self.GetV8TargetCpu()
	return template % arch_specific

	def WantsGoma(self):
	output = _CallWithOutputNoTerminal(
	"gn args --short --list=use_goma %s" % (GetPath(self.arch, self.mode)))
	return "true" in output

	def Build(self):
	path = GetPath(self.arch, self.mode)
	args_gn = os.path.join(path, "args.gn")
	if not os.path.exists(path):
	print("# mkdir -p %s" % path)
	os.makedirs(path)
	if not os.path.exists(args_gn):
	_Write(args_gn, self.GetGnArgs())
	code = _Call("gn gen %s" % path)
	if code != 0: return code
	targets = " ".join(self.targets)
	build_opts = BUILD_OPTS_GOMA if self.WantsGoma() else BUILD_OPTS_DEFAULT
	# The implementation of mksnapshot failure detection relies on
	# the "pty" module and GDB presence, so skip it on non-Linux.
	if "linux" not in sys.platform:
	return _Call("ninja -C %s %s %s" % (path, build_opts, targets))

	return_code, output = _CallWithOutput("ninja -C %s %s %s" %
	(path, build_opts, targets))
	if return_code != 0 and "FAILED: gen/snapshot.cc" in output:
	csa_trap = re.compile("Specify option( --csa-trap-on-node=[^ ]*)")
	match = csa_trap.search(output)
	extra_opt = match.group(1) if match else ""
	_Notify("V8 build requires your attention",
	"Detected mksnapshot failure, re-running in GDB...")
	_Call("gdb -args %(path)s/mksnapshot "
	"--startup_src %(path)s/gen/snapshot.cc "
	"--random-seed 314159265 "
	"--startup-blob %(path)s/snapshot_blob.bin"
	"%(extra)s"% {"path": path, "extra": extra_opt})
	return return_code

	def RunTests(self):
	if not self.tests: return 0
	if "ALL" in self.tests:
	tests = ""
	else:
	tests = " ".join(self.tests)
	return _Call("tools/run-tests.py --arch=%s --mode=%s %s" %
	(self.arch, self.mode, tests))

	def GetTestBinary(argstring):
	for suite in TESTSUITES_TARGETS:
	if argstring.startswith(suite): return TESTSUITES_TARGETS[suite]
	return None

	class ArgumentParser(object):
	def __init__(self):
	self.global_targets = set()
	self.global_tests = set()
	self.global_actions = set()
	self.configs = {}

	def PopulateConfigs(self, arches, modes, targets, tests):
	for a in arches:
	for m in modes:
	path = GetPath(a, m)
	if path not in self.configs:
	self.configs[path] = Config(a, m, targets, tests)
	else:
	self.configs[path].Extend(targets, tests)

	def ProcessGlobalActions(self):
	have_configs = len(self.configs) > 0
	for action in self.global_actions:
	impact = ACTIONS[action]
	if (have_configs):
	for c in self.configs:
	self.configs[c].Extend(**impact)
	else:
	self.PopulateConfigs(DEFAULT_ARCHES, DEFAULT_MODES, **impact)

	def ParseArg(self, argstring):
	if argstring in ("-h", "--help", "help"):
	PrintHelpAndExit()
	arches = []
	modes = []
	targets = []
	actions = []
	tests = []
	# Specifying a single unit test looks like "unittests/Foo.Bar".
	if argstring.startswith("unittests/"):
	words = [argstring]
	else:
	words = argstring.split('.')
	if len(words) == 1:
	word = words[0]
	if word in ACTIONS:
	self.global_actions.add(word)
	return
	if word in TARGETS:
	self.global_targets.add(word)
	return
	maybe_target = GetTestBinary(word)
	if maybe_target is not None:
	self.global_tests.add(word)
	self.global_targets.add(maybe_target)
	return
	for word in words:
	if word in ARCHES:
	arches.append(word)
	elif word in MODES:
	modes.append(word)
	elif word in TARGETS:
	targets.append(word)
	elif word in ACTIONS:
	actions.append(word)
	else:
	print("Didn't understand: %s" % word)
	sys.exit(1)
	# Process actions.
	for action in actions:
	impact = ACTIONS[action]
	targets += impact["targets"]
	tests += impact["tests"]
	# Fill in defaults for things that weren't specified.
	arches = arches or DEFAULT_ARCHES
	modes = modes or DEFAULT_MODES
	targets = targets or DEFAULT_TARGETS
	# Produce configs.
	self.PopulateConfigs(arches, modes, targets, tests)

	def ParseArguments(self, argv):
	if len(argv) == 0:
	PrintHelpAndExit()
	for argstring in argv:
	self.ParseArg(argstring)
	self.ProcessGlobalActions()
	for c in self.configs:
	self.configs[c].Extend(self.global_targets, self.global_tests)
	return self.configs

	def Main(argv):
	parser = ArgumentParser()
	configs = parser.ParseArguments(argv[1:])
	return_code = 0
	# If we have Goma but it is not running, start it.
	if (GOMADIR is not None and
	_Call("ps -e \| grep compiler_proxy > /dev/null", silent=True) != 0):
	_Call("%s/goma_ctl.py ensure_start" % GOMADIR)
	for c in configs:
	return_code += configs[c].Build()
	if return_code == 0:
	for c in configs:
	return_code += configs[c].RunTests()
	if return_code == 0:
	_Notify('Done!', 'V8 compilation finished successfully.')
	else:
	_Notify('Error!', 'V8 compilation finished with errors.')
	return return_code

	if __name__ == "__main__":
	sys.exit(Main(sys.argv))