pylib/gyp/MSVSUtil.py - platform/external/chromium_org/tools/gyp - Git at Google

 # Copyright (c) 2013 Google Inc. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Utility functions shared amongst the Windows generators."""

 import copy
 import os


 _TARGET_TYPE_EXT = {
   'executable': '.exe',
   'loadable_module': '.dll',
   'shared_library': '.dll',
 }


 def _GetLargePdbShimCcPath():
   """Returns the path of the large_pdb_shim.cc file."""
   this_dir = os.path.abspath(os.path.dirname(__file__))
   src_dir = os.path.abspath(os.path.join(this_dir, '..', '..'))
   win_data_dir = os.path.join(src_dir, 'data', 'win')
   large_pdb_shim_cc = os.path.join(win_data_dir, 'large-pdb-shim.cc')
   return large_pdb_shim_cc


 def _DeepCopySomeKeys(in_dict, keys):
   """Performs a partial deep-copy on |in_dict|, only copying the keys in |keys|.

   Arguments:
     in_dict: The dictionary to copy.
     keys: The keys to be copied. If a key is in this list and doesn't exist in
         |in_dict| this is not an error.
   Returns:
     The partially deep-copied dictionary.
   """
   d = {}
   for key in keys:
     if key not in in_dict:
       continue
     d[key] = copy.deepcopy(in_dict[key])
   return d


 def _SuffixName(name, suffix):
   """Add a suffix to the end of a target.

   Arguments:
     name: name of the target (foo#target)
     suffix: the suffix to be added
   Returns:
     Target name with suffix added (foo_suffix#target)
   """
   parts = name.rsplit('#', 1)
   parts[0] = '%s_%s' % (parts[0], suffix)
   return '#'.join(parts)


 def _ShardName(name, number):
   """Add a shard number to the end of a target.

   Arguments:
     name: name of the target (foo#target)
     number: shard number
   Returns:
     Target name with shard added (foo_1#target)
   """
   return _SuffixName(name, str(number))


 def ShardTargets(target_list, target_dicts):
   """Shard some targets apart to work around the linkers limits.

   Arguments:
     target_list: List of target pairs: 'base/base.gyp:base'.
     target_dicts: Dict of target properties keyed on target pair.
   Returns:
     Tuple of the new sharded versions of the inputs.
   """
   # Gather the targets to shard, and how many pieces.
   targets_to_shard = {}
   for t in target_dicts:
     shards = int(target_dicts[t].get('msvs_shard', 0))
     if shards:
       targets_to_shard[t] = shards
   # Shard target_list.
   new_target_list = []
   for t in target_list:
     if t in targets_to_shard:
       for i in range(targets_to_shard[t]):
         new_target_list.append(_ShardName(t, i))
     else:
       new_target_list.append(t)
   # Shard target_dict.
   new_target_dicts = {}
   for t in target_dicts:
     if t in targets_to_shard:
       for i in range(targets_to_shard[t]):
         name = _ShardName(t, i)
         new_target_dicts[name] = copy.copy(target_dicts[t])
         new_target_dicts[name]['target_name'] = _ShardName(
              new_target_dicts[name]['target_name'], i)
         sources = new_target_dicts[name].get('sources', [])
         new_sources = []
         for pos in range(i, len(sources), targets_to_shard[t]):
           new_sources.append(sources[pos])
         new_target_dicts[name]['sources'] = new_sources
     else:
       new_target_dicts[t] = target_dicts[t]
   # Shard dependencies.
   for t in new_target_dicts:
     for deptype in ('dependencies', 'dependencies_original'):
       dependencies = copy.copy(new_target_dicts[t].get(deptype, []))
       new_dependencies = []
       for d in dependencies:
         if d in targets_to_shard:
           for i in range(targets_to_shard[d]):
             new_dependencies.append(_ShardName(d, i))
         else:
           new_dependencies.append(d)
       new_target_dicts[t][deptype] = new_dependencies

   return (new_target_list, new_target_dicts)


 def _GetPdbPath(target_dict, config_name, vars):
   """Returns the path to the PDB file that will be generated by a given
   configuration.

   The lookup proceeds as follows:
     - Look for an explicit path in the VCLinkerTool configuration block.
     - Look for an 'msvs_large_pdb_path' variable.
     - Use '<(PRODUCT_DIR)/<(product_name).(exe|dll).pdb' if 'product_name' is
       specified.
     - Use '<(PRODUCT_DIR)/<(target_name).(exe|dll).pdb'.

   Arguments:
     target_dict: The target dictionary to be searched.
     config_name: The name of the configuration of interest.
     vars: A dictionary of common GYP variables with generator-specific values.
   Returns:
     The path of the corresponding PDB file.
   """
   config = target_dict['configurations'][config_name]
   msvs = config.setdefault('msvs_settings', {})

   linker = msvs.get('VCLinkerTool', {})

   pdb_path = linker.get('ProgramDatabaseFile')
   if pdb_path:
     return pdb_path

   variables = target_dict.get('variables', {})
   pdb_path = variables.get('msvs_large_pdb_path', None)
   if pdb_path:
     return pdb_path


   pdb_base = target_dict.get('product_name', target_dict['target_name'])
   pdb_base = '%s%s.pdb' % (pdb_base, _TARGET_TYPE_EXT[target_dict['type']])
   pdb_path = vars['PRODUCT_DIR'] + '/' + pdb_base

   return pdb_path


 def InsertLargePdbShims(target_list, target_dicts, vars):
   """Insert a shim target that forces the linker to use 4KB pagesize PDBs.

   This is a workaround for targets with PDBs greater than 1GB in size, the
   limit for the 1KB pagesize PDBs created by the linker by default.

   Arguments:
     target_list: List of target pairs: 'base/base.gyp:base'.
     target_dicts: Dict of target properties keyed on target pair.
     vars: A dictionary of common GYP variables with generator-specific values.
   Returns:
     Tuple of the shimmed version of the inputs.
   """
   # Determine which targets need shimming.
   targets_to_shim = []
   for t in target_dicts:
     target_dict = target_dicts[t]

     # We only want to shim targets that have msvs_large_pdb enabled.
     if not int(target_dict.get('msvs_large_pdb', 0)):
       continue
     # This is intended for executable, shared_library and loadable_module
     # targets where every configuration is set up to produce a PDB output.
     # If any of these conditions is not true then the shim logic will fail
     # below.
     targets_to_shim.append(t)

   large_pdb_shim_cc = _GetLargePdbShimCcPath()

   for t in targets_to_shim:
     target_dict = target_dicts[t]
     target_name = target_dict.get('target_name')

     base_dict = _DeepCopySomeKeys(target_dict,
           ['configurations', 'default_configuration', 'toolset'])

     # This is the dict for copying the source file (part of the GYP tree)
     # to the intermediate directory of the project. This is necessary because
     # we can't always build a relative path to the shim source file (on Windows
     # GYP and the project may be on different drives), and Ninja hates absolute
     # paths (it ends up generating the .obj and .obj.d alongside the source
     # file, polluting GYPs tree).
     copy_suffix = 'large_pdb_copy'
     copy_target_name = target_name + '_' + copy_suffix
     full_copy_target_name = _SuffixName(t, copy_suffix)
     shim_cc_basename = os.path.basename(large_pdb_shim_cc)
     shim_cc_dir = vars['SHARED_INTERMEDIATE_DIR'] + '/' + copy_target_name
     shim_cc_path = shim_cc_dir + '/' + shim_cc_basename
     copy_dict = copy.deepcopy(base_dict)
     copy_dict['target_name'] = copy_target_name
     copy_dict['type'] = 'none'
     copy_dict['sources'] = [ large_pdb_shim_cc ]
     copy_dict['copies'] = [{
       'destination': shim_cc_dir,
       'files': [ large_pdb_shim_cc ]
     }]

     # This is the dict for the PDB generating shim target. It depends on the
     # copy target.
     shim_suffix = 'large_pdb_shim'
     shim_target_name = target_name + '_' + shim_suffix
     full_shim_target_name = _SuffixName(t, shim_suffix)
     shim_dict = copy.deepcopy(base_dict)
     shim_dict['target_name'] = shim_target_name
     shim_dict['type'] = 'static_library'
     shim_dict['sources'] = [ shim_cc_path ]
     shim_dict['dependencies'] = [ full_copy_target_name ]

     # Set up the shim to output its PDB to the same location as the final linker
     # target.
     for config_name, config in shim_dict.get('configurations').iteritems():
       pdb_path = _GetPdbPath(target_dict, config_name, vars)

       # A few keys that we don't want to propagate.
       for key in ['msvs_precompiled_header', 'msvs_precompiled_source', 'test']:
         config.pop(key, None)

       msvs = config.setdefault('msvs_settings', {})

       # Update the compiler directives in the shim target.
       compiler = msvs.setdefault('VCCLCompilerTool', {})
       compiler['DebugInformationFormat'] = '3'
       compiler['ProgramDataBaseFileName'] = pdb_path

       # Set the explicit PDB path in the appropriate configuration of the
       # original target.
       config = target_dict['configurations'][config_name]
       msvs = config.setdefault('msvs_settings', {})
       linker = msvs.setdefault('VCLinkerTool', {})
       linker['GenerateDebugInformation'] = 'true'
       linker['ProgramDatabaseFile'] = pdb_path

     # Add the new targets. They must go to the beginning of the list so that
     # the dependency generation works as expected in ninja.
     target_list.insert(0, full_copy_target_name)
     target_list.insert(0, full_shim_target_name)
     target_dicts[full_copy_target_name] = copy_dict
     target_dicts[full_shim_target_name] = shim_dict

     # Update the original target to depend on the shim target.
     target_dict.setdefault('dependencies', []).append(full_shim_target_name)

   return (target_list, target_dicts)
	# Copyright (c) 2013 Google Inc. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Utility functions shared amongst the Windows generators."""

	import copy
	import os


	_TARGET_TYPE_EXT = {
	'executable': '.exe',
	'loadable_module': '.dll',
	'shared_library': '.dll',
	}


	def _GetLargePdbShimCcPath():
	"""Returns the path of the large_pdb_shim.cc file."""
	this_dir = os.path.abspath(os.path.dirname(__file__))
	src_dir = os.path.abspath(os.path.join(this_dir, '..', '..'))
	win_data_dir = os.path.join(src_dir, 'data', 'win')
	large_pdb_shim_cc = os.path.join(win_data_dir, 'large-pdb-shim.cc')
	return large_pdb_shim_cc


	def _DeepCopySomeKeys(in_dict, keys):
	"""Performs a partial deep-copy on \|in_dict\|, only copying the keys in \|keys\|.

	Arguments:
	in_dict: The dictionary to copy.
	keys: The keys to be copied. If a key is in this list and doesn't exist in
	\|in_dict\| this is not an error.
	Returns:
	The partially deep-copied dictionary.
	"""
	d = {}
	for key in keys:
	if key not in in_dict:
	continue
	d[key] = copy.deepcopy(in_dict[key])
	return d


	def _SuffixName(name, suffix):
	"""Add a suffix to the end of a target.

	Arguments:
	name: name of the target (foo#target)
	suffix: the suffix to be added
	Returns:
	Target name with suffix added (foo_suffix#target)
	"""
	parts = name.rsplit('#', 1)
	parts[0] = '%s_%s' % (parts[0], suffix)
	return '#'.join(parts)


	def _ShardName(name, number):
	"""Add a shard number to the end of a target.

	Arguments:
	name: name of the target (foo#target)
	number: shard number
	Returns:
	Target name with shard added (foo_1#target)
	"""
	return _SuffixName(name, str(number))


	def ShardTargets(target_list, target_dicts):
	"""Shard some targets apart to work around the linkers limits.

	Arguments:
	target_list: List of target pairs: 'base/base.gyp:base'.
	target_dicts: Dict of target properties keyed on target pair.
	Returns:
	Tuple of the new sharded versions of the inputs.
	"""
	# Gather the targets to shard, and how many pieces.
	targets_to_shard = {}
	for t in target_dicts:
	shards = int(target_dicts[t].get('msvs_shard', 0))
	if shards:
	targets_to_shard[t] = shards
	# Shard target_list.
	new_target_list = []
	for t in target_list:
	if t in targets_to_shard:
	for i in range(targets_to_shard[t]):
	new_target_list.append(_ShardName(t, i))
	else:
	new_target_list.append(t)
	# Shard target_dict.
	new_target_dicts = {}
	for t in target_dicts:
	if t in targets_to_shard:
	for i in range(targets_to_shard[t]):
	name = _ShardName(t, i)
	new_target_dicts[name] = copy.copy(target_dicts[t])
	new_target_dicts[name]['target_name'] = _ShardName(
	new_target_dicts[name]['target_name'], i)
	sources = new_target_dicts[name].get('sources', [])
	new_sources = []
	for pos in range(i, len(sources), targets_to_shard[t]):
	new_sources.append(sources[pos])
	new_target_dicts[name]['sources'] = new_sources
	else:
	new_target_dicts[t] = target_dicts[t]
	# Shard dependencies.
	for t in new_target_dicts:
	for deptype in ('dependencies', 'dependencies_original'):
	dependencies = copy.copy(new_target_dicts[t].get(deptype, []))
	new_dependencies = []
	for d in dependencies:
	if d in targets_to_shard:
	for i in range(targets_to_shard[d]):
	new_dependencies.append(_ShardName(d, i))
	else:
	new_dependencies.append(d)
	new_target_dicts[t][deptype] = new_dependencies

	return (new_target_list, new_target_dicts)


	def _GetPdbPath(target_dict, config_name, vars):
	"""Returns the path to the PDB file that will be generated by a given
	configuration.

	The lookup proceeds as follows:
	- Look for an explicit path in the VCLinkerTool configuration block.
	- Look for an 'msvs_large_pdb_path' variable.
	- Use '<(PRODUCT_DIR)/<(product_name).(exe\|dll).pdb' if 'product_name' is
	specified.
	- Use '<(PRODUCT_DIR)/<(target_name).(exe\|dll).pdb'.

	Arguments:
	target_dict: The target dictionary to be searched.
	config_name: The name of the configuration of interest.
	vars: A dictionary of common GYP variables with generator-specific values.
	Returns:
	The path of the corresponding PDB file.
	"""
	config = target_dict['configurations'][config_name]
	msvs = config.setdefault('msvs_settings', {})

	linker = msvs.get('VCLinkerTool', {})

	pdb_path = linker.get('ProgramDatabaseFile')
	if pdb_path:
	return pdb_path

	variables = target_dict.get('variables', {})
	pdb_path = variables.get('msvs_large_pdb_path', None)
	if pdb_path:
	return pdb_path


	pdb_base = target_dict.get('product_name', target_dict['target_name'])
	pdb_base = '%s%s.pdb' % (pdb_base, _TARGET_TYPE_EXT[target_dict['type']])
	pdb_path = vars['PRODUCT_DIR'] + '/' + pdb_base

	return pdb_path


	def InsertLargePdbShims(target_list, target_dicts, vars):
	"""Insert a shim target that forces the linker to use 4KB pagesize PDBs.

	This is a workaround for targets with PDBs greater than 1GB in size, the
	limit for the 1KB pagesize PDBs created by the linker by default.

	Arguments:
	target_list: List of target pairs: 'base/base.gyp:base'.
	target_dicts: Dict of target properties keyed on target pair.
	vars: A dictionary of common GYP variables with generator-specific values.
	Returns:
	Tuple of the shimmed version of the inputs.
	"""
	# Determine which targets need shimming.
	targets_to_shim = []
	for t in target_dicts:
	target_dict = target_dicts[t]

	# We only want to shim targets that have msvs_large_pdb enabled.
	if not int(target_dict.get('msvs_large_pdb', 0)):
	continue
	# This is intended for executable, shared_library and loadable_module
	# targets where every configuration is set up to produce a PDB output.
	# If any of these conditions is not true then the shim logic will fail
	# below.
	targets_to_shim.append(t)

	large_pdb_shim_cc = _GetLargePdbShimCcPath()

	for t in targets_to_shim:
	target_dict = target_dicts[t]
	target_name = target_dict.get('target_name')

	base_dict = _DeepCopySomeKeys(target_dict,
	['configurations', 'default_configuration', 'toolset'])

	# This is the dict for copying the source file (part of the GYP tree)
	# to the intermediate directory of the project. This is necessary because
	# we can't always build a relative path to the shim source file (on Windows
	# GYP and the project may be on different drives), and Ninja hates absolute
	# paths (it ends up generating the .obj and .obj.d alongside the source
	# file, polluting GYPs tree).
	copy_suffix = 'large_pdb_copy'
	copy_target_name = target_name + '_' + copy_suffix
	full_copy_target_name = _SuffixName(t, copy_suffix)
	shim_cc_basename = os.path.basename(large_pdb_shim_cc)
	shim_cc_dir = vars['SHARED_INTERMEDIATE_DIR'] + '/' + copy_target_name
	shim_cc_path = shim_cc_dir + '/' + shim_cc_basename
	copy_dict = copy.deepcopy(base_dict)
	copy_dict['target_name'] = copy_target_name
	copy_dict['type'] = 'none'
	copy_dict['sources'] = [ large_pdb_shim_cc ]
	copy_dict['copies'] = [{
	'destination': shim_cc_dir,
	'files': [ large_pdb_shim_cc ]
	}]

	# This is the dict for the PDB generating shim target. It depends on the
	# copy target.
	shim_suffix = 'large_pdb_shim'
	shim_target_name = target_name + '_' + shim_suffix
	full_shim_target_name = _SuffixName(t, shim_suffix)
	shim_dict = copy.deepcopy(base_dict)
	shim_dict['target_name'] = shim_target_name
	shim_dict['type'] = 'static_library'
	shim_dict['sources'] = [ shim_cc_path ]
	shim_dict['dependencies'] = [ full_copy_target_name ]

	# Set up the shim to output its PDB to the same location as the final linker
	# target.
	for config_name, config in shim_dict.get('configurations').iteritems():
	pdb_path = _GetPdbPath(target_dict, config_name, vars)

	# A few keys that we don't want to propagate.
	for key in ['msvs_precompiled_header', 'msvs_precompiled_source', 'test']:
	config.pop(key, None)

	msvs = config.setdefault('msvs_settings', {})

	# Update the compiler directives in the shim target.
	compiler = msvs.setdefault('VCCLCompilerTool', {})
	compiler['DebugInformationFormat'] = '3'
	compiler['ProgramDataBaseFileName'] = pdb_path

	# Set the explicit PDB path in the appropriate configuration of the
	# original target.
	config = target_dict['configurations'][config_name]
	msvs = config.setdefault('msvs_settings', {})
	linker = msvs.setdefault('VCLinkerTool', {})
	linker['GenerateDebugInformation'] = 'true'
	linker['ProgramDatabaseFile'] = pdb_path

	# Add the new targets. They must go to the beginning of the list so that
	# the dependency generation works as expected in ninja.
	target_list.insert(0, full_copy_target_name)
	target_list.insert(0, full_shim_target_name)
	target_dicts[full_copy_target_name] = copy_dict
	target_dicts[full_shim_target_name] = shim_dict

	# Update the original target to depend on the shim target.
	target_dict.setdefault('dependencies', []).append(full_shim_target_name)

	return (target_list, target_dicts)