src/tools/make_cmake.py - cef - Git at Google

 # Copyright (c) 2014 The Chromium Embedded Framework Authors. All rights
 # reserved. Use of this source code is governed by a BSD-style license that
 # can be found in the LICENSE file.

 from __future__ import absolute_import
 import os
 from file_util import *
 import sys

 # script directory.
 script_dir = os.path.dirname(__file__)

 # CEF root directory.
 cef_dir = os.path.abspath(os.path.join(script_dir, os.pardir))


 def get_files_for_variable(cmake_path, variables, variable):
   """ Returns the path values associated with |variable| and relative to the
         |cmake_path| directory. """
   if not variable in variables:
     raise Exception('Variable %s does not exist' % variable)

   # Cmake file directory.
   cmake_dirname = os.path.dirname(cmake_path) + '/'

   # Return path values relative to the cmake file directory.
   # Example 1:
   #   cmake file   = "/path/to/libcef_dll/CMakeLists.txt"
   #   include path = "/path/to/libcef_dll/wrapper/cef_browser_info_map.h"
   #   return path  = "wrapper/cef_browser_info_map.h"
   # Example 2:
   #   cmake file   = "/path/to/libcef_dll/CMakeLists.txt"
   #   include path = "/path/to/include/internal/cef_export.h"
   #   return path  = "../include/internal/cef_export.h"
   new_paths = []
   paths = variables[variable]
   for path in paths:
     abspath = os.path.join(cef_dir, path)
     newpath = normalize_path(os.path.relpath(abspath, cmake_dirname))
     new_paths.append(newpath)
   return new_paths


 def format_cmake_set(name, values):
   result = 'set(%s\n' % name
   for value in values:
     result += '  %s\n' % value
   return result + '  )\n'


 def format_cmake_group(cmake_path, name, files, platform_sep, append_macro):
   platforms = {}
   common = []

   # Folder will be the cmake parent directory name combined with the path to
   # first file in the files list.
   # Example 1:
   #   cmake file   = "/path/to/libcef_dll/CMakeLists.txt"
   #   include path = "wrapper/cef_browser_info_map.h"
   #   folder       = "libcef_dll\\\\wrapper"
   # Example 2:
   #   cmake file   = "/path/to/libcef_dll/CMakeLists.txt"
   #   include path = "../include/internal/cef_export.h"
   #   folder       = "include\\\\internal"
   folder = os.path.basename(os.path.dirname(cmake_path))
   folder = os.path.dirname(os.path.normpath(os.path.join(folder, files[0])))
   folder = normalize_path(folder).replace('/', '\\\\\\\\')

   # Group the files by platform.
   for file in files:
     parts = file.split(platform_sep)
     file = parts[0]
     if len(parts) > 1:
       # Add the file under the platform.
       platform = parts[1]
       if not platform in platforms:
         platforms[platform] = []
       platforms[platform].append(file)
     else:
       common.append(file)

   result = ''
   if len(common) > 0:
     result += format_cmake_set(name, common)

   if len(platforms) > 0:
     keys = sorted(platforms.keys())
     for key in keys:
       result += format_cmake_set(name + '_' + key, platforms[key])
     result += '%s(%s)\n' % (append_macro, name)

   result += 'source_group(%s FILES ${%s})\n\n' % (folder, name)
   return result


 def format_cmake_library(name, group_names):
   result = 'add_library(%s\n' % name
   for group in group_names:
     result += '  ${%s}\n' % group
   return result + '  )\n\n'


 def process_cmake_template_segment(segment, segment_ct, cmake_path, variables):
   prefix = None
   library = None
   set = None
   includes = []
   suffix = '_SRCS'  # Appended to each group name before the platform name.
   platform_sep = ':'  # Used to separate value from platform name.
   append_macro = 'APPEND_PLATFORM_SOURCES'  # CMake macro name.

   # Extract values from |segment|. Example |segment| contents:
   #  'prefix': 'cefsimple',
   #  'includes': [
   #    'cefsimple_sources_common',
   #    'cefsimple_sources_win:WINDOWS',
   #    'cefsimple_sources_mac:MACOSX',
   #    'cefsimple_sources_linux:LINUX',
   #  ],
   values = eval('{' + segment + '}', {'__builtins__': None}, None)
   if 'prefix' in values:
     prefix = values['prefix']
   else:
     raise Exception('Missing prefix value in segment %d' % segment_ct)

   if 'library' in values:
     library = values['library']

   if 'set' in values:
     set = values['set']

   if 'append_macro' in values:
     append_macro = values['append_macro']

   if 'includes' in values and len(values['includes']) > 0:
     for include in values['includes']:
       parts = include.strip().split(platform_sep)
       files = get_files_for_variable(cmake_path, variables, parts[0])
       if len(parts) == 2:
         # Append the platform to each file path.
         files = [file + platform_sep + parts[1] for file in files]
       includes.extend(files)
   else:
     raise Exception('Missing includes value in segment %d' % segment_ct)

   # Sort the file paths alphabetically.
   includes.sort()

   # Group files by path.
   # For example, '../include/base/foo.h' and '../include/base/bar.h' will be
   # grouped as 'PREFIX_INCLUDE_BASE'.
   groups = {}
   for include in includes:
     paths = include.split('/')
     label = prefix
     for path in paths[0:-1]:
       if path == '..':
         continue
       label += '_' + path
     label = label.replace('.', '_').upper()
     if not label in groups:
       groups[label] = []
     groups[label].append(include)

   # Create the output results.
   result = ''

   keys = sorted(groups.keys())
   for key in keys:
     # Add a group of files that share the same path.
     result += format_cmake_group(cmake_path, key + suffix, groups[key], \
                                  platform_sep, append_macro)

   if not library is None:
     # Add the library declaration if requested.
     result += format_cmake_library(library, [key + suffix for key in keys])

   if not set is None:
     # Add the set declaration if requested.
     result += format_cmake_set(set, \
                                ['${' + key + suffix + '}' for key in keys])

   return result.strip()


 def process_cmake_template(input, output, variables, quiet=False):
   """ Reads the |input| template, parses variable substitution sections and
         writes |output|. """
   if not quiet:
     sys.stdout.write('Processing "%s" to "%s"...\n' % (input, output))

   if not os.path.exists(input):
     raise Exception('File %s does not exist' % input)

   cmake_path = normalize_path(os.path.abspath(input))
   template = read_file(cmake_path)

   delim_start = '{{'
   delim_end = '}}'

   # Process the template file, replacing segments delimited by |delim_start|
   # and |delim_end|.
   result = ''
   end = 0
   segment_ct = 0
   while True:
     start = template.find(delim_start, end)
     if start == -1:
       break
     result += template[end:start]
     end = template.find(delim_end, start + len(delim_start))
     if end == -1:
       break
     segment = template[start + len(delim_start):end]
     segment_ct = segment_ct + 1
     result += process_cmake_template_segment(segment, segment_ct, \
                                              cmake_path, variables)
     end += len(delim_end)
   result += template[end:]

   # Only write the output file if the contents have changed.
   changed = True
   if os.path.exists(output):
     existing = read_file(output)
     changed = result != existing
   if changed:
     write_file(output, result)


 def read_gypi_variables(source):
   """ Read the |source| gypi file and extract the variables section. """
   path = os.path.join(cef_dir, source + '.gypi')
   if not os.path.exists(path):
     raise Exception('File %s does not exist' % path)
   contents = eval_file(path)
   if not 'variables' in contents:
     raise Exception('File %s does not have a variables section' % path)
   return contents['variables']


 # File entry point.
 if __name__ == "__main__":
   # Verify that the correct number of command-line arguments are provided.
   if len(sys.argv) != 3:
     sys.stderr.write('Usage: ' + sys.argv[0] + ' <infile> <outfile>')
     sys.exit()

   # Read the gypi files and combine into a single dictionary.
   variables1 = read_gypi_variables('cef_paths')
   variables2 = read_gypi_variables('cef_paths2')
   variables = dict(variables1.items() + variables2.items())

   # Process the cmake template.
   process_cmake_template(sys.argv[1], sys.argv[2], variables)
	# Copyright (c) 2014 The Chromium Embedded Framework Authors. All rights
	# reserved. Use of this source code is governed by a BSD-style license that
	# can be found in the LICENSE file.

	from __future__ import absolute_import
	import os
	from file_util import *
	import sys

	# script directory.
	script_dir = os.path.dirname(__file__)

	# CEF root directory.
	cef_dir = os.path.abspath(os.path.join(script_dir, os.pardir))


	def get_files_for_variable(cmake_path, variables, variable):
	""" Returns the path values associated with \|variable\| and relative to the
	\|cmake_path\| directory. """
	if not variable in variables:
	raise Exception('Variable %s does not exist' % variable)

	# Cmake file directory.
	cmake_dirname = os.path.dirname(cmake_path) + '/'

	# Return path values relative to the cmake file directory.
	# Example 1:
	# cmake file = "/path/to/libcef_dll/CMakeLists.txt"
	# include path = "/path/to/libcef_dll/wrapper/cef_browser_info_map.h"
	# return path = "wrapper/cef_browser_info_map.h"
	# Example 2:
	# cmake file = "/path/to/libcef_dll/CMakeLists.txt"
	# include path = "/path/to/include/internal/cef_export.h"
	# return path = "../include/internal/cef_export.h"
	new_paths = []
	paths = variables[variable]
	for path in paths:
	abspath = os.path.join(cef_dir, path)
	newpath = normalize_path(os.path.relpath(abspath, cmake_dirname))
	new_paths.append(newpath)
	return new_paths


	def format_cmake_set(name, values):
	result = 'set(%s\n' % name
	for value in values:
	result += ' %s\n' % value
	return result + ' )\n'


	def format_cmake_group(cmake_path, name, files, platform_sep, append_macro):
	platforms = {}
	common = []

	# Folder will be the cmake parent directory name combined with the path to
	# first file in the files list.
	# Example 1:
	# cmake file = "/path/to/libcef_dll/CMakeLists.txt"
	# include path = "wrapper/cef_browser_info_map.h"
	# folder = "libcef_dll\\\\wrapper"
	# Example 2:
	# cmake file = "/path/to/libcef_dll/CMakeLists.txt"
	# include path = "../include/internal/cef_export.h"
	# folder = "include\\\\internal"
	folder = os.path.basename(os.path.dirname(cmake_path))
	folder = os.path.dirname(os.path.normpath(os.path.join(folder, files[0])))
	folder = normalize_path(folder).replace('/', '\\\\\\\\')

	# Group the files by platform.
	for file in files:
	parts = file.split(platform_sep)
	file = parts[0]
	if len(parts) > 1:
	# Add the file under the platform.
	platform = parts[1]
	if not platform in platforms:
	platforms[platform] = []
	platforms[platform].append(file)
	else:
	common.append(file)

	result = ''
	if len(common) > 0:
	result += format_cmake_set(name, common)

	if len(platforms) > 0:
	keys = sorted(platforms.keys())
	for key in keys:
	result += format_cmake_set(name + '_' + key, platforms[key])
	result += '%s(%s)\n' % (append_macro, name)

	result += 'source_group(%s FILES ${%s})\n\n' % (folder, name)
	return result


	def format_cmake_library(name, group_names):
	result = 'add_library(%s\n' % name
	for group in group_names:
	result += ' ${%s}\n' % group
	return result + ' )\n\n'


	def process_cmake_template_segment(segment, segment_ct, cmake_path, variables):
	prefix = None
	library = None
	set = None
	includes = []
	suffix = '_SRCS' # Appended to each group name before the platform name.
	platform_sep = ':' # Used to separate value from platform name.
	append_macro = 'APPEND_PLATFORM_SOURCES' # CMake macro name.

	# Extract values from \|segment\|. Example \|segment\| contents:
	# 'prefix': 'cefsimple',
	# 'includes': [
	# 'cefsimple_sources_common',
	# 'cefsimple_sources_win:WINDOWS',
	# 'cefsimple_sources_mac:MACOSX',
	# 'cefsimple_sources_linux:LINUX',
	# ],
	values = eval('{' + segment + '}', {'__builtins__': None}, None)
	if 'prefix' in values:
	prefix = values['prefix']
	else:
	raise Exception('Missing prefix value in segment %d' % segment_ct)

	if 'library' in values:
	library = values['library']

	if 'set' in values:
	set = values['set']

	if 'append_macro' in values:
	append_macro = values['append_macro']

	if 'includes' in values and len(values['includes']) > 0:
	for include in values['includes']:
	parts = include.strip().split(platform_sep)
	files = get_files_for_variable(cmake_path, variables, parts[0])
	if len(parts) == 2:
	# Append the platform to each file path.
	files = [file + platform_sep + parts[1] for file in files]
	includes.extend(files)
	else:
	raise Exception('Missing includes value in segment %d' % segment_ct)

	# Sort the file paths alphabetically.
	includes.sort()

	# Group files by path.
	# For example, '../include/base/foo.h' and '../include/base/bar.h' will be
	# grouped as 'PREFIX_INCLUDE_BASE'.
	groups = {}
	for include in includes:
	paths = include.split('/')
	label = prefix
	for path in paths[0:-1]:
	if path == '..':
	continue
	label += '_' + path
	label = label.replace('.', '_').upper()
	if not label in groups:
	groups[label] = []
	groups[label].append(include)

	# Create the output results.
	result = ''

	keys = sorted(groups.keys())
	for key in keys:
	# Add a group of files that share the same path.
	result += format_cmake_group(cmake_path, key + suffix, groups[key], \
	platform_sep, append_macro)

	if not library is None:
	# Add the library declaration if requested.
	result += format_cmake_library(library, [key + suffix for key in keys])

	if not set is None:
	# Add the set declaration if requested.
	result += format_cmake_set(set, \
	['${' + key + suffix + '}' for key in keys])

	return result.strip()


	def process_cmake_template(input, output, variables, quiet=False):
	""" Reads the \|input\| template, parses variable substitution sections and
	writes \|output\|. """
	if not quiet:
	sys.stdout.write('Processing "%s" to "%s"...\n' % (input, output))

	if not os.path.exists(input):
	raise Exception('File %s does not exist' % input)

	cmake_path = normalize_path(os.path.abspath(input))
	template = read_file(cmake_path)

	delim_start = '{{'
	delim_end = '}}'

	# Process the template file, replacing segments delimited by \|delim_start\|
	# and \|delim_end\|.
	result = ''
	end = 0
	segment_ct = 0
	while True:
	start = template.find(delim_start, end)
	if start == -1:
	break
	result += template[end:start]
	end = template.find(delim_end, start + len(delim_start))
	if end == -1:
	break
	segment = template[start + len(delim_start):end]
	segment_ct = segment_ct + 1
	result += process_cmake_template_segment(segment, segment_ct, \
	cmake_path, variables)
	end += len(delim_end)
	result += template[end:]

	# Only write the output file if the contents have changed.
	changed = True
	if os.path.exists(output):
	existing = read_file(output)
	changed = result != existing
	if changed:
	write_file(output, result)


	def read_gypi_variables(source):
	""" Read the \|source\| gypi file and extract the variables section. """
	path = os.path.join(cef_dir, source + '.gypi')
	if not os.path.exists(path):
	raise Exception('File %s does not exist' % path)
	contents = eval_file(path)
	if not 'variables' in contents:
	raise Exception('File %s does not have a variables section' % path)
	return contents['variables']


	# File entry point.
	if __name__ == "__main__":
	# Verify that the correct number of command-line arguments are provided.
	if len(sys.argv) != 3:
	sys.stderr.write('Usage: ' + sys.argv[0] + ' <infile> <outfile>')
	sys.exit()

	# Read the gypi files and combine into a single dictionary.
	variables1 = read_gypi_variables('cef_paths')
	variables2 = read_gypi_variables('cef_paths2')
	variables = dict(variables1.items() + variables2.items())

	# Process the cmake template.
	process_cmake_template(sys.argv[1], sys.argv[2], variables)