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[simantics/district.git] / org.simantics.maps.server / node / node-v4.8.0-win-x64 / node_modules / npm / node_modules / node-gyp / gyp / pylib / gyp / generator / cmake.py
diff --git a/org.simantics.maps.server/node/node-v4.8.0-win-x64/node_modules/npm/node_modules/node-gyp/gyp/pylib/gyp/generator/cmake.py b/org.simantics.maps.server/node/node-v4.8.0-win-x64/node_modules/npm/node_modules/node-gyp/gyp/pylib/gyp/generator/cmake.py
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+# 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.
+
+"""cmake output module
+
+This module is under development and should be considered experimental.
+
+This module produces cmake (2.8.8+) input as its output. One CMakeLists.txt is
+created for each configuration.
+
+This module's original purpose was to support editing in IDEs like KDevelop
+which use CMake for project management. It is also possible to use CMake to
+generate projects for other IDEs such as eclipse cdt and code::blocks. QtCreator
+will convert the CMakeLists.txt to a code::blocks cbp for the editor to read,
+but build using CMake. As a result QtCreator editor is unaware of compiler
+defines. The generated CMakeLists.txt can also be used to build on Linux. There
+is currently no support for building on platforms other than Linux.
+
+The generated CMakeLists.txt should properly compile all projects. However,
+there is a mismatch between gyp and cmake with regard to linking. All attempts
+are made to work around this, but CMake sometimes sees -Wl,--start-group as a
+library and incorrectly repeats it. As a result the output of this generator
+should not be relied on for building.
+
+When using with kdevelop, use version 4.4+. Previous versions of kdevelop will
+not be able to find the header file directories described in the generated
+CMakeLists.txt file.
+"""
+
+import multiprocessing
+import os
+import signal
+import string
+import subprocess
+import gyp.common
+
+generator_default_variables = {
+  'EXECUTABLE_PREFIX': '',
+  'EXECUTABLE_SUFFIX': '',
+  'STATIC_LIB_PREFIX': 'lib',
+  'STATIC_LIB_SUFFIX': '.a',
+  'SHARED_LIB_PREFIX': 'lib',
+  'SHARED_LIB_SUFFIX': '.so',
+  'SHARED_LIB_DIR': '${builddir}/lib.${TOOLSET}',
+  'LIB_DIR': '${obj}.${TOOLSET}',
+  'INTERMEDIATE_DIR': '${obj}.${TOOLSET}/${TARGET}/geni',
+  'SHARED_INTERMEDIATE_DIR': '${obj}/gen',
+  'PRODUCT_DIR': '${builddir}',
+  'RULE_INPUT_PATH': '${RULE_INPUT_PATH}',
+  'RULE_INPUT_DIRNAME': '${RULE_INPUT_DIRNAME}',
+  'RULE_INPUT_NAME': '${RULE_INPUT_NAME}',
+  'RULE_INPUT_ROOT': '${RULE_INPUT_ROOT}',
+  'RULE_INPUT_EXT': '${RULE_INPUT_EXT}',
+  'CONFIGURATION_NAME': '${configuration}',
+}
+
+FULL_PATH_VARS = ('${CMAKE_CURRENT_LIST_DIR}', '${builddir}', '${obj}')
+
+generator_supports_multiple_toolsets = True
+generator_wants_static_library_dependencies_adjusted = True
+
+COMPILABLE_EXTENSIONS = {
+  '.c': 'cc',
+  '.cc': 'cxx',
+  '.cpp': 'cxx',
+  '.cxx': 'cxx',
+  '.s': 's', # cc
+  '.S': 's', # cc
+}
+
+
+def RemovePrefix(a, prefix):
+  """Returns 'a' without 'prefix' if it starts with 'prefix'."""
+  return a[len(prefix):] if a.startswith(prefix) else a
+
+
+def CalculateVariables(default_variables, params):
+  """Calculate additional variables for use in the build (called by gyp)."""
+  default_variables.setdefault('OS', gyp.common.GetFlavor(params))
+
+
+def Compilable(filename):
+  """Return true if the file is compilable (should be in OBJS)."""
+  return any(filename.endswith(e) for e in COMPILABLE_EXTENSIONS)
+
+
+def Linkable(filename):
+  """Return true if the file is linkable (should be on the link line)."""
+  return filename.endswith('.o')
+
+
+def NormjoinPathForceCMakeSource(base_path, rel_path):
+  """Resolves rel_path against base_path and returns the result.
+
+  If rel_path is an absolute path it is returned unchanged.
+  Otherwise it is resolved against base_path and normalized.
+  If the result is a relative path, it is forced to be relative to the
+  CMakeLists.txt.
+  """
+  if os.path.isabs(rel_path):
+    return rel_path
+  if any([rel_path.startswith(var) for var in FULL_PATH_VARS]):
+    return rel_path
+  # TODO: do we need to check base_path for absolute variables as well?
+  return os.path.join('${CMAKE_CURRENT_LIST_DIR}',
+                      os.path.normpath(os.path.join(base_path, rel_path)))
+
+
+def NormjoinPath(base_path, rel_path):
+  """Resolves rel_path against base_path and returns the result.
+  TODO: what is this really used for?
+  If rel_path begins with '$' it is returned unchanged.
+  Otherwise it is resolved against base_path if relative, then normalized.
+  """
+  if rel_path.startswith('$') and not rel_path.startswith('${configuration}'):
+    return rel_path
+  return os.path.normpath(os.path.join(base_path, rel_path))
+
+
+def CMakeStringEscape(a):
+  """Escapes the string 'a' for use inside a CMake string.
+
+  This means escaping
+  '\' otherwise it may be seen as modifying the next character
+  '"' otherwise it will end the string
+  ';' otherwise the string becomes a list
+
+  The following do not need to be escaped
+  '#' when the lexer is in string state, this does not start a comment
+
+  The following are yet unknown
+  '$' generator variables (like ${obj}) must not be escaped,
+      but text $ should be escaped
+      what is wanted is to know which $ come from generator variables
+  """
+  return a.replace('\\', '\\\\').replace(';', '\\;').replace('"', '\\"')
+
+
+def SetFileProperty(output, source_name, property_name, values, sep):
+  """Given a set of source file, sets the given property on them."""
+  output.write('set_source_files_properties(')
+  output.write(source_name)
+  output.write(' PROPERTIES ')
+  output.write(property_name)
+  output.write(' "')
+  for value in values:
+    output.write(CMakeStringEscape(value))
+    output.write(sep)
+  output.write('")\n')
+
+
+def SetFilesProperty(output, variable, property_name, values, sep):
+  """Given a set of source files, sets the given property on them."""
+  output.write('set_source_files_properties(')
+  WriteVariable(output, variable)
+  output.write(' PROPERTIES ')
+  output.write(property_name)
+  output.write(' "')
+  for value in values:
+    output.write(CMakeStringEscape(value))
+    output.write(sep)
+  output.write('")\n')
+
+
+def SetTargetProperty(output, target_name, property_name, values, sep=''):
+  """Given a target, sets the given property."""
+  output.write('set_target_properties(')
+  output.write(target_name)
+  output.write(' PROPERTIES ')
+  output.write(property_name)
+  output.write(' "')
+  for value in values:
+    output.write(CMakeStringEscape(value))
+    output.write(sep)
+  output.write('")\n')
+
+
+def SetVariable(output, variable_name, value):
+  """Sets a CMake variable."""
+  output.write('set(')
+  output.write(variable_name)
+  output.write(' "')
+  output.write(CMakeStringEscape(value))
+  output.write('")\n')
+
+
+def SetVariableList(output, variable_name, values):
+  """Sets a CMake variable to a list."""
+  if not values:
+    return SetVariable(output, variable_name, "")
+  if len(values) == 1:
+    return SetVariable(output, variable_name, values[0])
+  output.write('list(APPEND ')
+  output.write(variable_name)
+  output.write('\n  "')
+  output.write('"\n  "'.join([CMakeStringEscape(value) for value in values]))
+  output.write('")\n')
+
+
+def UnsetVariable(output, variable_name):
+  """Unsets a CMake variable."""
+  output.write('unset(')
+  output.write(variable_name)
+  output.write(')\n')
+
+
+def WriteVariable(output, variable_name, prepend=None):
+  if prepend:
+    output.write(prepend)
+  output.write('${')
+  output.write(variable_name)
+  output.write('}')
+
+
+class CMakeTargetType(object):
+  def __init__(self, command, modifier, property_modifier):
+    self.command = command
+    self.modifier = modifier
+    self.property_modifier = property_modifier
+
+
+cmake_target_type_from_gyp_target_type = {
+  'executable': CMakeTargetType('add_executable', None, 'RUNTIME'),
+  'static_library': CMakeTargetType('add_library', 'STATIC', 'ARCHIVE'),
+  'shared_library': CMakeTargetType('add_library', 'SHARED', 'LIBRARY'),
+  'loadable_module': CMakeTargetType('add_library', 'MODULE', 'LIBRARY'),
+  'none': CMakeTargetType('add_custom_target', 'SOURCES', None),
+}
+
+
+def StringToCMakeTargetName(a):
+  """Converts the given string 'a' to a valid CMake target name.
+
+  All invalid characters are replaced by '_'.
+  Invalid for cmake: ' ', '/', '(', ')', '"'
+  Invalid for make: ':'
+  Invalid for unknown reasons but cause failures: '.'
+  """
+  return a.translate(string.maketrans(' /():."', '_______'))
+
+
+def WriteActions(target_name, actions, extra_sources, extra_deps,
+                 path_to_gyp, output):
+  """Write CMake for the 'actions' in the target.
+
+  Args:
+    target_name: the name of the CMake target being generated.
+    actions: the Gyp 'actions' dict for this target.
+    extra_sources: [(<cmake_src>, <src>)] to append with generated source files.
+    extra_deps: [<cmake_taget>] to append with generated targets.
+    path_to_gyp: relative path from CMakeLists.txt being generated to
+        the Gyp file in which the target being generated is defined.
+  """
+  for action in actions:
+    action_name = StringToCMakeTargetName(action['action_name'])
+    action_target_name = '%s__%s' % (target_name, action_name)
+
+    inputs = action['inputs']
+    inputs_name = action_target_name + '__input'
+    SetVariableList(output, inputs_name,
+        [NormjoinPathForceCMakeSource(path_to_gyp, dep) for dep in inputs])
+
+    outputs = action['outputs']
+    cmake_outputs = [NormjoinPathForceCMakeSource(path_to_gyp, out)
+                     for out in outputs]
+    outputs_name = action_target_name + '__output'
+    SetVariableList(output, outputs_name, cmake_outputs)
+
+    # Build up a list of outputs.
+    # Collect the output dirs we'll need.
+    dirs = set(dir for dir in (os.path.dirname(o) for o in outputs) if dir)
+
+    if int(action.get('process_outputs_as_sources', False)):
+      extra_sources.extend(zip(cmake_outputs, outputs))
+
+    # add_custom_command
+    output.write('add_custom_command(OUTPUT ')
+    WriteVariable(output, outputs_name)
+    output.write('\n')
+
+    if len(dirs) > 0:
+      for directory in dirs:
+        output.write('  COMMAND ${CMAKE_COMMAND} -E make_directory ')
+        output.write(directory)
+        output.write('\n')
+
+    output.write('  COMMAND ')
+    output.write(gyp.common.EncodePOSIXShellList(action['action']))
+    output.write('\n')
+
+    output.write('  DEPENDS ')
+    WriteVariable(output, inputs_name)
+    output.write('\n')
+
+    output.write('  WORKING_DIRECTORY ${CMAKE_CURRENT_LIST_DIR}/')
+    output.write(path_to_gyp)
+    output.write('\n')
+
+    output.write('  COMMENT ')
+    if 'message' in action:
+      output.write(action['message'])
+    else:
+      output.write(action_target_name)
+    output.write('\n')
+
+    output.write('  VERBATIM\n')
+    output.write(')\n')
+
+    # add_custom_target
+    output.write('add_custom_target(')
+    output.write(action_target_name)
+    output.write('\n  DEPENDS ')
+    WriteVariable(output, outputs_name)
+    output.write('\n  SOURCES ')
+    WriteVariable(output, inputs_name)
+    output.write('\n)\n')
+
+    extra_deps.append(action_target_name)
+
+
+def NormjoinRulePathForceCMakeSource(base_path, rel_path, rule_source):
+  if rel_path.startswith(("${RULE_INPUT_PATH}","${RULE_INPUT_DIRNAME}")):
+    if any([rule_source.startswith(var) for var in FULL_PATH_VARS]):
+      return rel_path
+  return NormjoinPathForceCMakeSource(base_path, rel_path)
+
+
+def WriteRules(target_name, rules, extra_sources, extra_deps,
+               path_to_gyp, output):
+  """Write CMake for the 'rules' in the target.
+
+  Args:
+    target_name: the name of the CMake target being generated.
+    actions: the Gyp 'actions' dict for this target.
+    extra_sources: [(<cmake_src>, <src>)] to append with generated source files.
+    extra_deps: [<cmake_taget>] to append with generated targets.
+    path_to_gyp: relative path from CMakeLists.txt being generated to
+        the Gyp file in which the target being generated is defined.
+  """
+  for rule in rules:
+    rule_name = StringToCMakeTargetName(target_name + '__' + rule['rule_name'])
+
+    inputs = rule.get('inputs', [])
+    inputs_name = rule_name + '__input'
+    SetVariableList(output, inputs_name,
+        [NormjoinPathForceCMakeSource(path_to_gyp, dep) for dep in inputs])
+    outputs = rule['outputs']
+    var_outputs = []
+
+    for count, rule_source in enumerate(rule.get('rule_sources', [])):
+      action_name = rule_name + '_' + str(count)
+
+      rule_source_dirname, rule_source_basename = os.path.split(rule_source)
+      rule_source_root, rule_source_ext = os.path.splitext(rule_source_basename)
+
+      SetVariable(output, 'RULE_INPUT_PATH', rule_source)
+      SetVariable(output, 'RULE_INPUT_DIRNAME', rule_source_dirname)
+      SetVariable(output, 'RULE_INPUT_NAME', rule_source_basename)
+      SetVariable(output, 'RULE_INPUT_ROOT', rule_source_root)
+      SetVariable(output, 'RULE_INPUT_EXT', rule_source_ext)
+
+      # Build up a list of outputs.
+      # Collect the output dirs we'll need.
+      dirs = set(dir for dir in (os.path.dirname(o) for o in outputs) if dir)
+
+      # Create variables for the output, as 'local' variable will be unset.
+      these_outputs = []
+      for output_index, out in enumerate(outputs):
+        output_name = action_name + '_' + str(output_index)
+        SetVariable(output, output_name,
+                     NormjoinRulePathForceCMakeSource(path_to_gyp, out,
+                                                      rule_source))
+        if int(rule.get('process_outputs_as_sources', False)):
+          extra_sources.append(('${' + output_name + '}', out))
+        these_outputs.append('${' + output_name + '}')
+        var_outputs.append('${' + output_name + '}')
+
+      # add_custom_command
+      output.write('add_custom_command(OUTPUT\n')
+      for out in these_outputs:
+        output.write('  ')
+        output.write(out)
+        output.write('\n')
+
+      for directory in dirs:
+        output.write('  COMMAND ${CMAKE_COMMAND} -E make_directory ')
+        output.write(directory)
+        output.write('\n')
+
+      output.write('  COMMAND ')
+      output.write(gyp.common.EncodePOSIXShellList(rule['action']))
+      output.write('\n')
+
+      output.write('  DEPENDS ')
+      WriteVariable(output, inputs_name)
+      output.write(' ')
+      output.write(NormjoinPath(path_to_gyp, rule_source))
+      output.write('\n')
+
+      # CMAKE_CURRENT_LIST_DIR is where the CMakeLists.txt lives.
+      # The cwd is the current build directory.
+      output.write('  WORKING_DIRECTORY ${CMAKE_CURRENT_LIST_DIR}/')
+      output.write(path_to_gyp)
+      output.write('\n')
+
+      output.write('  COMMENT ')
+      if 'message' in rule:
+        output.write(rule['message'])
+      else:
+        output.write(action_name)
+      output.write('\n')
+
+      output.write('  VERBATIM\n')
+      output.write(')\n')
+
+      UnsetVariable(output, 'RULE_INPUT_PATH')
+      UnsetVariable(output, 'RULE_INPUT_DIRNAME')
+      UnsetVariable(output, 'RULE_INPUT_NAME')
+      UnsetVariable(output, 'RULE_INPUT_ROOT')
+      UnsetVariable(output, 'RULE_INPUT_EXT')
+
+    # add_custom_target
+    output.write('add_custom_target(')
+    output.write(rule_name)
+    output.write(' DEPENDS\n')
+    for out in var_outputs:
+      output.write('  ')
+      output.write(out)
+      output.write('\n')
+    output.write('SOURCES ')
+    WriteVariable(output, inputs_name)
+    output.write('\n')
+    for rule_source in rule.get('rule_sources', []):
+      output.write('  ')
+      output.write(NormjoinPath(path_to_gyp, rule_source))
+      output.write('\n')
+    output.write(')\n')
+
+    extra_deps.append(rule_name)
+
+
+def WriteCopies(target_name, copies, extra_deps, path_to_gyp, output):
+  """Write CMake for the 'copies' in the target.
+
+  Args:
+    target_name: the name of the CMake target being generated.
+    actions: the Gyp 'actions' dict for this target.
+    extra_deps: [<cmake_taget>] to append with generated targets.
+    path_to_gyp: relative path from CMakeLists.txt being generated to
+        the Gyp file in which the target being generated is defined.
+  """
+  copy_name = target_name + '__copies'
+
+  # CMake gets upset with custom targets with OUTPUT which specify no output.
+  have_copies = any(copy['files'] for copy in copies)
+  if not have_copies:
+    output.write('add_custom_target(')
+    output.write(copy_name)
+    output.write(')\n')
+    extra_deps.append(copy_name)
+    return
+
+  class Copy(object):
+    def __init__(self, ext, command):
+      self.cmake_inputs = []
+      self.cmake_outputs = []
+      self.gyp_inputs = []
+      self.gyp_outputs = []
+      self.ext = ext
+      self.inputs_name = None
+      self.outputs_name = None
+      self.command = command
+
+  file_copy = Copy('', 'copy')
+  dir_copy = Copy('_dirs', 'copy_directory')
+
+  for copy in copies:
+    files = copy['files']
+    destination = copy['destination']
+    for src in files:
+      path = os.path.normpath(src)
+      basename = os.path.split(path)[1]
+      dst = os.path.join(destination, basename)
+
+      copy = file_copy if os.path.basename(src) else dir_copy
+
+      copy.cmake_inputs.append(NormjoinPathForceCMakeSource(path_to_gyp, src))
+      copy.cmake_outputs.append(NormjoinPathForceCMakeSource(path_to_gyp, dst))
+      copy.gyp_inputs.append(src)
+      copy.gyp_outputs.append(dst)
+
+  for copy in (file_copy, dir_copy):
+    if copy.cmake_inputs:
+      copy.inputs_name = copy_name + '__input' + copy.ext
+      SetVariableList(output, copy.inputs_name, copy.cmake_inputs)
+
+      copy.outputs_name = copy_name + '__output' + copy.ext
+      SetVariableList(output, copy.outputs_name, copy.cmake_outputs)
+
+  # add_custom_command
+  output.write('add_custom_command(\n')
+
+  output.write('OUTPUT')
+  for copy in (file_copy, dir_copy):
+    if copy.outputs_name:
+      WriteVariable(output, copy.outputs_name, ' ')
+  output.write('\n')
+
+  for copy in (file_copy, dir_copy):
+    for src, dst in zip(copy.gyp_inputs, copy.gyp_outputs):
+      # 'cmake -E copy src dst' will create the 'dst' directory if needed.
+      output.write('COMMAND ${CMAKE_COMMAND} -E %s ' % copy.command)
+      output.write(src)
+      output.write(' ')
+      output.write(dst)
+      output.write("\n")
+
+  output.write('DEPENDS')
+  for copy in (file_copy, dir_copy):
+    if copy.inputs_name:
+      WriteVariable(output, copy.inputs_name, ' ')
+  output.write('\n')
+
+  output.write('WORKING_DIRECTORY ${CMAKE_CURRENT_LIST_DIR}/')
+  output.write(path_to_gyp)
+  output.write('\n')
+
+  output.write('COMMENT Copying for ')
+  output.write(target_name)
+  output.write('\n')
+
+  output.write('VERBATIM\n')
+  output.write(')\n')
+
+  # add_custom_target
+  output.write('add_custom_target(')
+  output.write(copy_name)
+  output.write('\n  DEPENDS')
+  for copy in (file_copy, dir_copy):
+    if copy.outputs_name:
+      WriteVariable(output, copy.outputs_name, ' ')
+  output.write('\n  SOURCES')
+  if file_copy.inputs_name:
+    WriteVariable(output, file_copy.inputs_name, ' ')
+  output.write('\n)\n')
+
+  extra_deps.append(copy_name)
+
+
+def CreateCMakeTargetBaseName(qualified_target):
+  """This is the name we would like the target to have."""
+  _, gyp_target_name, gyp_target_toolset = (
+      gyp.common.ParseQualifiedTarget(qualified_target))
+  cmake_target_base_name = gyp_target_name
+  if gyp_target_toolset and gyp_target_toolset != 'target':
+    cmake_target_base_name += '_' + gyp_target_toolset
+  return StringToCMakeTargetName(cmake_target_base_name)
+
+
+def CreateCMakeTargetFullName(qualified_target):
+  """An unambiguous name for the target."""
+  gyp_file, gyp_target_name, gyp_target_toolset = (
+      gyp.common.ParseQualifiedTarget(qualified_target))
+  cmake_target_full_name = gyp_file + ':' + gyp_target_name
+  if gyp_target_toolset and gyp_target_toolset != 'target':
+    cmake_target_full_name += '_' + gyp_target_toolset
+  return StringToCMakeTargetName(cmake_target_full_name)
+
+
+class CMakeNamer(object):
+  """Converts Gyp target names into CMake target names.
+
+  CMake requires that target names be globally unique. One way to ensure
+  this is to fully qualify the names of the targets. Unfortunatly, this
+  ends up with all targets looking like "chrome_chrome_gyp_chrome" instead
+  of just "chrome". If this generator were only interested in building, it
+  would be possible to fully qualify all target names, then create
+  unqualified target names which depend on all qualified targets which
+  should have had that name. This is more or less what the 'make' generator
+  does with aliases. However, one goal of this generator is to create CMake
+  files for use with IDEs, and fully qualified names are not as user
+  friendly.
+
+  Since target name collision is rare, we do the above only when required.
+
+  Toolset variants are always qualified from the base, as this is required for
+  building. However, it also makes sense for an IDE, as it is possible for
+  defines to be different.
+  """
+  def __init__(self, target_list):
+    self.cmake_target_base_names_conficting = set()
+
+    cmake_target_base_names_seen = set()
+    for qualified_target in target_list:
+      cmake_target_base_name = CreateCMakeTargetBaseName(qualified_target)
+
+      if cmake_target_base_name not in cmake_target_base_names_seen:
+        cmake_target_base_names_seen.add(cmake_target_base_name)
+      else:
+        self.cmake_target_base_names_conficting.add(cmake_target_base_name)
+
+  def CreateCMakeTargetName(self, qualified_target):
+    base_name = CreateCMakeTargetBaseName(qualified_target)
+    if base_name in self.cmake_target_base_names_conficting:
+      return CreateCMakeTargetFullName(qualified_target)
+    return base_name
+
+
+def WriteTarget(namer, qualified_target, target_dicts, build_dir, config_to_use,
+                options, generator_flags, all_qualified_targets, output):
+
+  # The make generator does this always.
+  # TODO: It would be nice to be able to tell CMake all dependencies.
+  circular_libs = generator_flags.get('circular', True)
+
+  if not generator_flags.get('standalone', False):
+    output.write('\n#')
+    output.write(qualified_target)
+    output.write('\n')
+
+  gyp_file, _, _ = gyp.common.ParseQualifiedTarget(qualified_target)
+  rel_gyp_file = gyp.common.RelativePath(gyp_file, options.toplevel_dir)
+  rel_gyp_dir = os.path.dirname(rel_gyp_file)
+
+  # Relative path from build dir to top dir.
+  build_to_top = gyp.common.InvertRelativePath(build_dir, options.toplevel_dir)
+  # Relative path from build dir to gyp dir.
+  build_to_gyp = os.path.join(build_to_top, rel_gyp_dir)
+
+  path_from_cmakelists_to_gyp = build_to_gyp
+
+  spec = target_dicts.get(qualified_target, {})
+  config = spec.get('configurations', {}).get(config_to_use, {})
+
+  target_name = spec.get('target_name', '<missing target name>')
+  target_type = spec.get('type', '<missing target type>')
+  target_toolset = spec.get('toolset')
+
+  cmake_target_type = cmake_target_type_from_gyp_target_type.get(target_type)
+  if cmake_target_type is None:
+    print ('Target %s has unknown target type %s, skipping.' %
+          (        target_name,               target_type  ) )
+    return
+
+  SetVariable(output, 'TARGET', target_name)
+  SetVariable(output, 'TOOLSET', target_toolset)
+
+  cmake_target_name = namer.CreateCMakeTargetName(qualified_target)
+
+  extra_sources = []
+  extra_deps = []
+
+  # Actions must come first, since they can generate more OBJs for use below.
+  if 'actions' in spec:
+    WriteActions(cmake_target_name, spec['actions'], extra_sources, extra_deps,
+                 path_from_cmakelists_to_gyp, output)
+
+  # Rules must be early like actions.
+  if 'rules' in spec:
+    WriteRules(cmake_target_name, spec['rules'], extra_sources, extra_deps,
+               path_from_cmakelists_to_gyp, output)
+
+  # Copies
+  if 'copies' in spec:
+    WriteCopies(cmake_target_name, spec['copies'], extra_deps,
+                path_from_cmakelists_to_gyp, output)
+
+  # Target and sources
+  srcs = spec.get('sources', [])
+
+  # Gyp separates the sheep from the goats based on file extensions.
+  # A full separation is done here because of flag handing (see below).
+  s_sources = []
+  c_sources = []
+  cxx_sources = []
+  linkable_sources = []
+  other_sources = []
+  for src in srcs:
+    _, ext = os.path.splitext(src)
+    src_type = COMPILABLE_EXTENSIONS.get(ext, None)
+    src_norm_path = NormjoinPath(path_from_cmakelists_to_gyp, src);
+
+    if src_type == 's':
+      s_sources.append(src_norm_path)
+    elif src_type == 'cc':
+      c_sources.append(src_norm_path)
+    elif src_type == 'cxx':
+      cxx_sources.append(src_norm_path)
+    elif Linkable(ext):
+      linkable_sources.append(src_norm_path)
+    else:
+      other_sources.append(src_norm_path)
+
+  for extra_source in extra_sources:
+    src, real_source = extra_source
+    _, ext = os.path.splitext(real_source)
+    src_type = COMPILABLE_EXTENSIONS.get(ext, None)
+
+    if src_type == 's':
+      s_sources.append(src)
+    elif src_type == 'cc':
+      c_sources.append(src)
+    elif src_type == 'cxx':
+      cxx_sources.append(src)
+    elif Linkable(ext):
+      linkable_sources.append(src)
+    else:
+      other_sources.append(src)
+
+  s_sources_name = None
+  if s_sources:
+    s_sources_name = cmake_target_name + '__asm_srcs'
+    SetVariableList(output, s_sources_name, s_sources)
+
+  c_sources_name = None
+  if c_sources:
+    c_sources_name = cmake_target_name + '__c_srcs'
+    SetVariableList(output, c_sources_name, c_sources)
+
+  cxx_sources_name = None
+  if cxx_sources:
+    cxx_sources_name = cmake_target_name + '__cxx_srcs'
+    SetVariableList(output, cxx_sources_name, cxx_sources)
+
+  linkable_sources_name = None
+  if linkable_sources:
+    linkable_sources_name = cmake_target_name + '__linkable_srcs'
+    SetVariableList(output, linkable_sources_name, linkable_sources)
+
+  other_sources_name = None
+  if other_sources:
+    other_sources_name = cmake_target_name + '__other_srcs'
+    SetVariableList(output, other_sources_name, other_sources)
+
+  # CMake gets upset when executable targets provide no sources.
+  # http://www.cmake.org/pipermail/cmake/2010-July/038461.html
+  dummy_sources_name = None
+  has_sources = (s_sources_name or
+                 c_sources_name or
+                 cxx_sources_name or
+                 linkable_sources_name or
+                 other_sources_name)
+  if target_type == 'executable' and not has_sources:
+    dummy_sources_name = cmake_target_name + '__dummy_srcs'
+    SetVariable(output, dummy_sources_name,
+                "${obj}.${TOOLSET}/${TARGET}/genc/dummy.c")
+    output.write('if(NOT EXISTS "')
+    WriteVariable(output, dummy_sources_name)
+    output.write('")\n')
+    output.write('  file(WRITE "')
+    WriteVariable(output, dummy_sources_name)
+    output.write('" "")\n')
+    output.write("endif()\n")
+
+
+  # CMake is opposed to setting linker directories and considers the practice
+  # of setting linker directories dangerous. Instead, it favors the use of
+  # find_library and passing absolute paths to target_link_libraries.
+  # However, CMake does provide the command link_directories, which adds
+  # link directories to targets defined after it is called.
+  # As a result, link_directories must come before the target definition.
+  # CMake unfortunately has no means of removing entries from LINK_DIRECTORIES.
+  library_dirs = config.get('library_dirs')
+  if library_dirs is not None:
+    output.write('link_directories(')
+    for library_dir in library_dirs:
+      output.write(' ')
+      output.write(NormjoinPath(path_from_cmakelists_to_gyp, library_dir))
+      output.write('\n')
+    output.write(')\n')
+
+  output.write(cmake_target_type.command)
+  output.write('(')
+  output.write(cmake_target_name)
+
+  if cmake_target_type.modifier is not None:
+    output.write(' ')
+    output.write(cmake_target_type.modifier)
+
+  if s_sources_name:
+    WriteVariable(output, s_sources_name, ' ')
+  if c_sources_name:
+    WriteVariable(output, c_sources_name, ' ')
+  if cxx_sources_name:
+    WriteVariable(output, cxx_sources_name, ' ')
+  if linkable_sources_name:
+    WriteVariable(output, linkable_sources_name, ' ')
+  if other_sources_name:
+    WriteVariable(output, other_sources_name, ' ')
+  if dummy_sources_name:
+    WriteVariable(output, dummy_sources_name, ' ')
+
+  output.write(')\n')
+
+  # Let CMake know if the 'all' target should depend on this target.
+  exclude_from_all = ('TRUE' if qualified_target not in all_qualified_targets
+                             else 'FALSE')
+  SetTargetProperty(output, cmake_target_name,
+                      'EXCLUDE_FROM_ALL', exclude_from_all)
+  for extra_target_name in extra_deps:
+    SetTargetProperty(output, extra_target_name,
+                        'EXCLUDE_FROM_ALL', exclude_from_all)
+
+  # Output name and location.
+  if target_type != 'none':
+    # Link as 'C' if there are no other files
+    if not c_sources and not cxx_sources:
+      SetTargetProperty(output, cmake_target_name, 'LINKER_LANGUAGE', ['C'])
+
+    # Mark uncompiled sources as uncompiled.
+    if other_sources_name:
+      output.write('set_source_files_properties(')
+      WriteVariable(output, other_sources_name, '')
+      output.write(' PROPERTIES HEADER_FILE_ONLY "TRUE")\n')
+
+    # Mark object sources as linkable.
+    if linkable_sources_name:
+      output.write('set_source_files_properties(')
+      WriteVariable(output, other_sources_name, '')
+      output.write(' PROPERTIES EXTERNAL_OBJECT "TRUE")\n')
+
+    # Output directory
+    target_output_directory = spec.get('product_dir')
+    if target_output_directory is None:
+      if target_type in ('executable', 'loadable_module'):
+        target_output_directory = generator_default_variables['PRODUCT_DIR']
+      elif target_type == 'shared_library':
+        target_output_directory = '${builddir}/lib.${TOOLSET}'
+      elif spec.get('standalone_static_library', False):
+        target_output_directory = generator_default_variables['PRODUCT_DIR']
+      else:
+        base_path = gyp.common.RelativePath(os.path.dirname(gyp_file),
+                                            options.toplevel_dir)
+        target_output_directory = '${obj}.${TOOLSET}'
+        target_output_directory = (
+            os.path.join(target_output_directory, base_path))
+
+    cmake_target_output_directory = NormjoinPathForceCMakeSource(
+                                        path_from_cmakelists_to_gyp,
+                                        target_output_directory)
+    SetTargetProperty(output,
+        cmake_target_name,
+        cmake_target_type.property_modifier + '_OUTPUT_DIRECTORY',
+        cmake_target_output_directory)
+
+    # Output name
+    default_product_prefix = ''
+    default_product_name = target_name
+    default_product_ext = ''
+    if target_type == 'static_library':
+      static_library_prefix = generator_default_variables['STATIC_LIB_PREFIX']
+      default_product_name = RemovePrefix(default_product_name,
+                                          static_library_prefix)
+      default_product_prefix = static_library_prefix
+      default_product_ext = generator_default_variables['STATIC_LIB_SUFFIX']
+
+    elif target_type in ('loadable_module', 'shared_library'):
+      shared_library_prefix = generator_default_variables['SHARED_LIB_PREFIX']
+      default_product_name = RemovePrefix(default_product_name,
+                                          shared_library_prefix)
+      default_product_prefix = shared_library_prefix
+      default_product_ext = generator_default_variables['SHARED_LIB_SUFFIX']
+
+    elif target_type != 'executable':
+      print ('ERROR: What output file should be generated?',
+              'type', target_type, 'target', target_name)
+
+    product_prefix = spec.get('product_prefix', default_product_prefix)
+    product_name = spec.get('product_name', default_product_name)
+    product_ext = spec.get('product_extension')
+    if product_ext:
+      product_ext = '.' + product_ext
+    else:
+      product_ext = default_product_ext
+
+    SetTargetProperty(output, cmake_target_name, 'PREFIX', product_prefix)
+    SetTargetProperty(output, cmake_target_name,
+                        cmake_target_type.property_modifier + '_OUTPUT_NAME',
+                        product_name)
+    SetTargetProperty(output, cmake_target_name, 'SUFFIX', product_ext)
+
+    # Make the output of this target referenceable as a source.
+    cmake_target_output_basename = product_prefix + product_name + product_ext
+    cmake_target_output = os.path.join(cmake_target_output_directory,
+                                       cmake_target_output_basename)
+    SetFileProperty(output, cmake_target_output, 'GENERATED', ['TRUE'], '')
+
+    # Includes
+    includes = config.get('include_dirs')
+    if includes:
+      # This (target include directories) is what requires CMake 2.8.8
+      includes_name = cmake_target_name + '__include_dirs'
+      SetVariableList(output, includes_name,
+          [NormjoinPathForceCMakeSource(path_from_cmakelists_to_gyp, include)
+           for include in includes])
+      output.write('set_property(TARGET ')
+      output.write(cmake_target_name)
+      output.write(' APPEND PROPERTY INCLUDE_DIRECTORIES ')
+      WriteVariable(output, includes_name, '')
+      output.write(')\n')
+
+    # Defines
+    defines = config.get('defines')
+    if defines is not None:
+      SetTargetProperty(output,
+                          cmake_target_name,
+                          'COMPILE_DEFINITIONS',
+                          defines,
+                          ';')
+
+    # Compile Flags - http://www.cmake.org/Bug/view.php?id=6493
+    # CMake currently does not have target C and CXX flags.
+    # So, instead of doing...
+
+    # cflags_c = config.get('cflags_c')
+    # if cflags_c is not None:
+    #   SetTargetProperty(output, cmake_target_name,
+    #                       'C_COMPILE_FLAGS', cflags_c, ' ')
+
+    # cflags_cc = config.get('cflags_cc')
+    # if cflags_cc is not None:
+    #   SetTargetProperty(output, cmake_target_name,
+    #                       'CXX_COMPILE_FLAGS', cflags_cc, ' ')
+
+    # Instead we must...
+    cflags = config.get('cflags', [])
+    cflags_c = config.get('cflags_c', [])
+    cflags_cxx = config.get('cflags_cc', [])
+    if (not cflags_c or not c_sources) and (not cflags_cxx or not cxx_sources):
+      SetTargetProperty(output, cmake_target_name, 'COMPILE_FLAGS', cflags, ' ')
+
+    elif c_sources and not (s_sources or cxx_sources):
+      flags = []
+      flags.extend(cflags)
+      flags.extend(cflags_c)
+      SetTargetProperty(output, cmake_target_name, 'COMPILE_FLAGS', flags, ' ')
+
+    elif cxx_sources and not (s_sources or c_sources):
+      flags = []
+      flags.extend(cflags)
+      flags.extend(cflags_cxx)
+      SetTargetProperty(output, cmake_target_name, 'COMPILE_FLAGS', flags, ' ')
+
+    else:
+      # TODO: This is broken, one cannot generally set properties on files,
+      # as other targets may require different properties on the same files.
+      if s_sources and cflags:
+        SetFilesProperty(output, s_sources_name, 'COMPILE_FLAGS', cflags, ' ')
+
+      if c_sources and (cflags or cflags_c):
+        flags = []
+        flags.extend(cflags)
+        flags.extend(cflags_c)
+        SetFilesProperty(output, c_sources_name, 'COMPILE_FLAGS', flags, ' ')
+
+      if cxx_sources and (cflags or cflags_cxx):
+        flags = []
+        flags.extend(cflags)
+        flags.extend(cflags_cxx)
+        SetFilesProperty(output, cxx_sources_name, 'COMPILE_FLAGS', flags, ' ')
+
+    # Linker flags
+    ldflags = config.get('ldflags')
+    if ldflags is not None:
+      SetTargetProperty(output, cmake_target_name, 'LINK_FLAGS', ldflags, ' ')
+
+  # Note on Dependencies and Libraries:
+  # CMake wants to handle link order, resolving the link line up front.
+  # Gyp does not retain or enforce specifying enough information to do so.
+  # So do as other gyp generators and use --start-group and --end-group.
+  # Give CMake as little information as possible so that it doesn't mess it up.
+
+  # Dependencies
+  rawDeps = spec.get('dependencies', [])
+
+  static_deps = []
+  shared_deps = []
+  other_deps = []
+  for rawDep in rawDeps:
+    dep_cmake_name = namer.CreateCMakeTargetName(rawDep)
+    dep_spec = target_dicts.get(rawDep, {})
+    dep_target_type = dep_spec.get('type', None)
+
+    if dep_target_type == 'static_library':
+      static_deps.append(dep_cmake_name)
+    elif dep_target_type ==  'shared_library':
+      shared_deps.append(dep_cmake_name)
+    else:
+      other_deps.append(dep_cmake_name)
+
+  # ensure all external dependencies are complete before internal dependencies
+  # extra_deps currently only depend on their own deps, so otherwise run early
+  if static_deps or shared_deps or other_deps:
+    for extra_dep in extra_deps:
+      output.write('add_dependencies(')
+      output.write(extra_dep)
+      output.write('\n')
+      for deps in (static_deps, shared_deps, other_deps):
+        for dep in gyp.common.uniquer(deps):
+          output.write('  ')
+          output.write(dep)
+          output.write('\n')
+      output.write(')\n')
+
+  linkable = target_type in ('executable', 'loadable_module', 'shared_library')
+  other_deps.extend(extra_deps)
+  if other_deps or (not linkable and (static_deps or shared_deps)):
+    output.write('add_dependencies(')
+    output.write(cmake_target_name)
+    output.write('\n')
+    for dep in gyp.common.uniquer(other_deps):
+      output.write('  ')
+      output.write(dep)
+      output.write('\n')
+    if not linkable:
+      for deps in (static_deps, shared_deps):
+        for lib_dep in gyp.common.uniquer(deps):
+          output.write('  ')
+          output.write(lib_dep)
+          output.write('\n')
+    output.write(')\n')
+
+  # Libraries
+  if linkable:
+    external_libs = [lib for lib in spec.get('libraries', []) if len(lib) > 0]
+    if external_libs or static_deps or shared_deps:
+      output.write('target_link_libraries(')
+      output.write(cmake_target_name)
+      output.write('\n')
+      if static_deps:
+        write_group = circular_libs and len(static_deps) > 1
+        if write_group:
+          output.write('-Wl,--start-group\n')
+        for dep in gyp.common.uniquer(static_deps):
+          output.write('  ')
+          output.write(dep)
+          output.write('\n')
+        if write_group:
+          output.write('-Wl,--end-group\n')
+      if shared_deps:
+        for dep in gyp.common.uniquer(shared_deps):
+          output.write('  ')
+          output.write(dep)
+          output.write('\n')
+      if external_libs:
+        for lib in gyp.common.uniquer(external_libs):
+          output.write('  ')
+          output.write(lib)
+          output.write('\n')
+
+      output.write(')\n')
+
+  UnsetVariable(output, 'TOOLSET')
+  UnsetVariable(output, 'TARGET')
+
+
+def GenerateOutputForConfig(target_list, target_dicts, data,
+                            params, config_to_use):
+  options = params['options']
+  generator_flags = params['generator_flags']
+
+  # generator_dir: relative path from pwd to where make puts build files.
+  # Makes migrating from make to cmake easier, cmake doesn't put anything here.
+  # Each Gyp configuration creates a different CMakeLists.txt file
+  # to avoid incompatibilities between Gyp and CMake configurations.
+  generator_dir = os.path.relpath(options.generator_output or '.')
+
+  # output_dir: relative path from generator_dir to the build directory.
+  output_dir = generator_flags.get('output_dir', 'out')
+
+  # build_dir: relative path from source root to our output files.
+  # e.g. "out/Debug"
+  build_dir = os.path.normpath(os.path.join(generator_dir,
+                                            output_dir,
+                                            config_to_use))
+
+  toplevel_build = os.path.join(options.toplevel_dir, build_dir)
+
+  output_file = os.path.join(toplevel_build, 'CMakeLists.txt')
+  gyp.common.EnsureDirExists(output_file)
+
+  output = open(output_file, 'w')
+  output.write('cmake_minimum_required(VERSION 2.8.8 FATAL_ERROR)\n')
+  output.write('cmake_policy(VERSION 2.8.8)\n')
+
+  gyp_file, project_target, _ = gyp.common.ParseQualifiedTarget(target_list[-1])
+  output.write('project(')
+  output.write(project_target)
+  output.write(')\n')
+
+  SetVariable(output, 'configuration', config_to_use)
+
+  ar = None
+  cc = None
+  cxx = None
+
+  make_global_settings = data[gyp_file].get('make_global_settings', [])
+  build_to_top = gyp.common.InvertRelativePath(build_dir,
+                                               options.toplevel_dir)
+  for key, value in make_global_settings:
+    if key == 'AR':
+      ar = os.path.join(build_to_top, value)
+    if key == 'CC':
+      cc = os.path.join(build_to_top, value)
+    if key == 'CXX':
+      cxx = os.path.join(build_to_top, value)
+
+  ar = gyp.common.GetEnvironFallback(['AR_target', 'AR'], ar)
+  cc = gyp.common.GetEnvironFallback(['CC_target', 'CC'], cc)
+  cxx = gyp.common.GetEnvironFallback(['CXX_target', 'CXX'], cxx)
+
+  if ar:
+    SetVariable(output, 'CMAKE_AR', ar)
+  if cc:
+    SetVariable(output, 'CMAKE_C_COMPILER', cc)
+  if cxx:
+    SetVariable(output, 'CMAKE_CXX_COMPILER', cxx)
+
+  # The following appears to be as-yet undocumented.
+  # http://public.kitware.com/Bug/view.php?id=8392
+  output.write('enable_language(ASM)\n')
+  # ASM-ATT does not support .S files.
+  # output.write('enable_language(ASM-ATT)\n')
+
+  if cc:
+    SetVariable(output, 'CMAKE_ASM_COMPILER', cc)
+
+  SetVariable(output, 'builddir', '${CMAKE_CURRENT_BINARY_DIR}')
+  SetVariable(output, 'obj', '${builddir}/obj')
+  output.write('\n')
+
+  # TODO: Undocumented/unsupported (the CMake Java generator depends on it).
+  # CMake by default names the object resulting from foo.c to be foo.c.o.
+  # Gyp traditionally names the object resulting from foo.c foo.o.
+  # This should be irrelevant, but some targets extract .o files from .a
+  # and depend on the name of the extracted .o files.
+  output.write('set(CMAKE_C_OUTPUT_EXTENSION_REPLACE 1)\n')
+  output.write('set(CMAKE_CXX_OUTPUT_EXTENSION_REPLACE 1)\n')
+  output.write('\n')
+
+  # Force ninja to use rsp files. Otherwise link and ar lines can get too long,
+  # resulting in 'Argument list too long' errors.
+  output.write('set(CMAKE_NINJA_FORCE_RESPONSE_FILE 1)\n')
+  output.write('\n')
+
+  namer = CMakeNamer(target_list)
+
+  # The list of targets upon which the 'all' target should depend.
+  # CMake has it's own implicit 'all' target, one is not created explicitly.
+  all_qualified_targets = set()
+  for build_file in params['build_files']:
+    for qualified_target in gyp.common.AllTargets(target_list,
+                                                  target_dicts,
+                                                  os.path.normpath(build_file)):
+      all_qualified_targets.add(qualified_target)
+
+  for qualified_target in target_list:
+    WriteTarget(namer, qualified_target, target_dicts, build_dir, config_to_use,
+                options, generator_flags, all_qualified_targets, output)
+
+  output.close()
+
+
+def PerformBuild(data, configurations, params):
+  options = params['options']
+  generator_flags = params['generator_flags']
+
+  # generator_dir: relative path from pwd to where make puts build files.
+  # Makes migrating from make to cmake easier, cmake doesn't put anything here.
+  generator_dir = os.path.relpath(options.generator_output or '.')
+
+  # output_dir: relative path from generator_dir to the build directory.
+  output_dir = generator_flags.get('output_dir', 'out')
+
+  for config_name in configurations:
+    # build_dir: relative path from source root to our output files.
+    # e.g. "out/Debug"
+    build_dir = os.path.normpath(os.path.join(generator_dir,
+                                              output_dir,
+                                              config_name))
+    arguments = ['cmake', '-G', 'Ninja']
+    print 'Generating [%s]: %s' % (config_name, arguments)
+    subprocess.check_call(arguments, cwd=build_dir)
+
+    arguments = ['ninja', '-C', build_dir]
+    print 'Building [%s]: %s' % (config_name, arguments)
+    subprocess.check_call(arguments)
+
+
+def CallGenerateOutputForConfig(arglist):
+  # Ignore the interrupt signal so that the parent process catches it and
+  # kills all multiprocessing children.
+  signal.signal(signal.SIGINT, signal.SIG_IGN)
+
+  target_list, target_dicts, data, params, config_name = arglist
+  GenerateOutputForConfig(target_list, target_dicts, data, params, config_name)
+
+
+def GenerateOutput(target_list, target_dicts, data, params):
+  user_config = params.get('generator_flags', {}).get('config', None)
+  if user_config:
+    GenerateOutputForConfig(target_list, target_dicts, data,
+                            params, user_config)
+  else:
+    config_names = target_dicts[target_list[0]]['configurations'].keys()
+    if params['parallel']:
+      try:
+        pool = multiprocessing.Pool(len(config_names))
+        arglists = []
+        for config_name in config_names:
+          arglists.append((target_list, target_dicts, data,
+                           params, config_name))
+          pool.map(CallGenerateOutputForConfig, arglists)
+      except KeyboardInterrupt, e:
+        pool.terminate()
+        raise e
+    else:
+      for config_name in config_names:
+        GenerateOutputForConfig(target_list, target_dicts, data,
+                                params, config_name)