#! /usr/bin/env python3
# -*- Mode: python; tab-width: 4; indent-tabs-mode: t -*-
#
# This file is part of the LibreOffice project.
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
#
import argparse
import os
import os.path
import shutil
import re
import sys
import uuid
import xml.etree.ElementTree as ET
class GbuildParserState:
def __init__(self):
self.target = None
self.ilib = None
self.include = []
self.defs = {}
self.cxxobjects = []
self.linked_libs = []
class GbuildLinkTarget:
def __init__(self, name, location, include, defs, cxxobjects, linked_libs):
(self.name, self.location, self.include, self.defs, self.cxxobjects, self.linked_libs) = (
name, location, include, defs, cxxobjects, linked_libs)
def short_name(self):
return self.name
def is_empty(self):
return not self.include and not self.defs and not self.cxxobjects and not self.linked_libs
def __str__(self):
return '%s at %s with include path: %s, defines %s, objects: %s and linked libs: %s' % (
self.short_name(), self.location, self.include, self.defs, self.cxxobjects, self.linked_libs)
class GbuildLib(GbuildLinkTarget):
def __init__(self, name, library, location, include, defs, cxxobjects, linked_libs):
GbuildLinkTarget.__init__(self, name, location, include, defs, cxxobjects, linked_libs)
self.library = library
def short_name(self):
"""Return the short name of target based on the Library_* makefile name"""
return 'Library %s' % self.name
def target_name(self):
return 'Library_%s' % self.library
def library_name(self):
return self.library
class GbuildExe(GbuildLinkTarget):
def __init__(self, name, executable, location, include, defs, cxxobjects, linked_libs):
GbuildLinkTarget.__init__(self, name, location, include, defs, cxxobjects, linked_libs)
self.executable = executable
def short_name(self):
"""Return the short name of target based on the Executable_* makefile name"""
return 'Executable %s' % self.name
def target_name(self):
return 'Executable_%s' % self.executable
class GbuildParser:
makecmdpattern = re.compile('^MAKE_COMMAND := (.*)')
srcdirpattern = re.compile('^SRCDIR = (.*)')
builddirpattern = re.compile('^BUILDDIR = (.*)')
instdirpattern = re.compile('^INSTDIR = (.*)')
binpathpattern = re.compile('^LS = (.*)ls(.exe)?')
libnamespattern = re.compile('^gb_Library_ILIBFILENAMES := (.*)')
exenamepattern = re.compile('^gb_Executable_FILENAMES_FOR_BUILD := (.*)')
rulepattern = re.compile('^(.+?):( .*)?$')
libpattern = re.compile('# [a-z]+ to execute \(from [\'`](.*)/Library_(.*)\.mk\', line [0-9]*\):')
exepattern = re.compile('# [a-z]+ to execute \(from [\'`](.*)/Executable_(.*)\.mk\', line [0-9]*\):')
includepattern = re.compile('# INCLUDE := (.*)')
defspattern = re.compile('# DEFS := (.*)')
cxxpattern = re.compile('# CXXOBJECTS := (.*)')
linkedlibspattern = re.compile('# LINKED_LIBS := (.*)')
ilibpattern = re.compile('# ILIBTARGET := (.*)')
def __init__(self):
(self.makecmd, self.srcdir, self.builddir, self.instdir, self.libs,
self.exes, self.libnames, self.exenames) = ('', '', '', '', [], [], {}, {})
def __mapping_to_dict(self, mapping):
mapping_dict = {}
for item in mapping.split(' '):
library,target = item.split(':')
mapping_dict[target] = library
return mapping_dict
def parse(self, gbuildstate):
state = GbuildParserState()
for line in gbuildstate:
if not line.startswith('#'):
makecmdmatch = GbuildParser.makecmdpattern.match(line)
if makecmdmatch:
self.makecmd = makecmdmatch.group(1)
# FIXME: Hack
if self.makecmd == 'make':
self.makecmd = '/usr/bin/make'
continue
srcdirmatch = GbuildParser.srcdirpattern.match(line)
if srcdirmatch:
self.srcdir = srcdirmatch.group(1)
continue
builddirmatch = GbuildParser.builddirpattern.match(line)
if builddirmatch:
self.builddir = builddirmatch.group(1)
continue
instdirmatch = GbuildParser.instdirpattern.match(line)
if instdirmatch:
self.instdir = instdirmatch.group(1)
continue
binpathmatch = GbuildParser.binpathpattern.match(line)
if binpathmatch:
self.binpath = binpathmatch.group(1)
continue
rulematch = self.rulepattern.match(line)
if rulematch:
state.target = os.path.basename(rulematch.group(1))
continue
libnamesmatch = GbuildParser.libnamespattern.match(line)
if libnamesmatch:
self.libnames = self.__mapping_to_dict(libnamesmatch.group(1))
continue
exenamesmatch = GbuildParser.exenamepattern.match(line)
if exenamesmatch:
self.exenames = self.__mapping_to_dict(exenamesmatch.group(1))
continue
state = GbuildParserState()
continue
libmatch = GbuildParser.libpattern.match(line)
if libmatch:
libname = self.libnames.get(state.ilib, None)
self.libs.append(
GbuildLib(libmatch.group(2), libname, libmatch.group(1),
state.include, state.defs, state.cxxobjects,
state.linked_libs))
state = GbuildParserState()
continue
exematch = GbuildParser.exepattern.match(line)
if exematch:
exename = self.exenames.get(state.target, None)
self.exes.append(
GbuildExe(exematch.group(2), exename, exematch.group(1),
state.include, state.defs, state.cxxobjects,
state.linked_libs))
state = GbuildParserState()
continue
includematch = GbuildParser.includepattern.match(line)
if includematch:
state.include = [includeswitch.strip()[2:] for includeswitch in includematch.group(1).split(' ') if
len(includeswitch) > 2]
continue
defsmatch = GbuildParser.defspattern.match(line)
if defsmatch:
alldefs = [defswitch.strip()[2:] for defswitch in defsmatch.group(1).split(' ') if len(defswitch) > 2]
for d in alldefs:
defparts = d.split('=')
if len(defparts) == 1:
defparts.append(None)
state.defs[defparts[0]] = defparts[1]
continue
cxxmatch = GbuildParser.cxxpattern.match(line)
if cxxmatch:
state.cxxobjects = [obj for obj in cxxmatch.group(1).split(' ') if len(obj) > 0]
continue
linkedlibsmatch = GbuildParser.linkedlibspattern.match(line)
if linkedlibsmatch:
state.linked_libs = linkedlibsmatch.group(1).strip().split(' ')
continue
ilibmatch = GbuildParser.ilibpattern.match(line)
if ilibmatch:
state.ilib = os.path.basename(ilibmatch.group(1))
#we could match a lot of other stuff here if needed for integration rpaths etc.
return self
class IdeIntegrationGenerator:
def __init__(self, gbuildparser):
self.gbuildparser = gbuildparser
def emit(self):
pass
class DebugIntegrationGenerator(IdeIntegrationGenerator):
def __init__(self, gbuildparser):
IdeIntegrationGenerator.__init__(self, gbuildparser)
def emit(self):
print(self.gbuildparser.srcdir)
print(self.gbuildparser.builddir)
for lib in self.gbuildparser.libs:
print(lib)
for exe in self.gbuildparser.exes:
print(exe)
class KdevelopIntegrationGenerator(IdeIntegrationGenerator):
def encode_int(self, i):
temp = '%08x' % i
return '\\x%s\\x%s\\x%s\\x%s' % (temp[0:2], temp[2:4], temp[4:6], temp[6:8])
def encode_string(self, string):
result = self.encode_int(len(string) * 2)
for c in string.encode('utf-16-be'):
if c in range(32, 126):
result += chr(c)
else:
result += '\\x%02x' % c
return result
def generate_buildsystemconfigtool(self, configid, tool, args, exe, typenr):
return KdevelopIntegrationGenerator.buildsystemconfigtooltemplate % {'configid': configid, 'tool': tool,
'args': args, 'exe': exe, 'typenr': typenr}
buildsystemconfigtooltemplate = """
[CustomBuildSystem][BuildConfig%(configid)d][Tool%(tool)s]
Arguments=%(args)s
Enabled=true
Environment=
Executable=%(exe)s
Type=%(typenr)d
"""
def generate_buildsystemconfig(self, configid, moduledir, builddir, title, buildparms=''):
result = KdevelopIntegrationGenerator.buildsystemconfigtemplate % {'configid': configid, 'builddir': builddir,
'title': title}
pathid = 0
result += self.generate_buildsystemconfigtool(configid, 'Clean', 'clean %s' % buildparms,
self.gbuildparser.makecmd, 3)
result += self.generate_buildsystemconfigtool(configid, 'Build', 'all %s' % buildparms,
self.gbuildparser.makecmd, 0)
return result
buildsystemconfigtemplate = """
[CustomBuildSystem][BuildConfig%(configid)d]
BuildDir=file://%(builddir)s
Title=%(title)s
"""
def generate_buildsystem(self, moduledir):
result = KdevelopIntegrationGenerator.buildsystemtemplate % {'defaultconfigid': 0}
result += self.generate_buildsystemconfig(0, moduledir, moduledir, 'Module Build -- Release')
result += self.generate_buildsystemconfig(1, moduledir, self.gbuildparser.builddir, 'Full Build -- Release')
result += self.generate_buildsystemconfig(2, moduledir, moduledir, 'Module Build -- Debug', 'debug=T')
result += self.generate_buildsystemconfig(3, moduledir, self.gbuildparser.builddir, 'Full Build -- Debug',
'debug=T')
return result
buildsystemtemplate = """
[CustomBuildSystem]
CurrentConfiguration=BuildConfig%(defaultconfigid)d
"""
def generate_launch(self, launchid, launchname, executablepath, args, workdir):
return KdevelopIntegrationGenerator.launchtemplate % {'launchid': launchid, 'launchname': launchname,
'executablepath': executablepath, 'args': args,
'workdir': workdir}
launchtemplate = """
[Launch][Launch Configuration %(launchid)d]
Configured Launch Modes=execute
Configured Launchers=nativeAppLauncher
Name=%(launchname)s
Type=Native Application
[Launch][Launch Configuration %(launchid)d][Data]
Arguments=%(args)s
Dependencies=@Variant(\\x00\\x00\\x00\\t\\x00\\x00\\x00\\x00\\x00)
Dependency Action=Nothing
EnvironmentGroup=default
Executable=file://%(executablepath)s
External Terminal=konsole --noclose --workdir %%workdir -e %%exe
Project Target=
Use External Terminal=false
Working Directory=file://%(workdir)s
isExecutable=true
"""
def generate_launches(self, moduledir):
launches = ','.join(['Launch Configuration %d' % i for i in range(7)])
result = KdevelopIntegrationGenerator.launchestemplate % {'launches': launches}
result += self.generate_launch(0, 'Local tests -- quick tests (unitcheck)', self.gbuildparser.makecmd,
'unitcheck', moduledir)
result += self.generate_launch(1, 'Local tests -- slow tests (unitcheck, slowcheck)', self.gbuildparser.makecmd,
'unitcheck slowcheck', moduledir)
result += self.generate_launch(2, 'Local tests -- integration tests (unitcheck, slowcheck, subsequentcheck)',
self.gbuildparser.makecmd, 'unitcheck slowcheck subsequentcheck', moduledir)
result += self.generate_launch(3, 'Global tests -- quick tests (unitcheck)', self.gbuildparser.makecmd,
'unitcheck', self.gbuildparser.builddir)
result += self.generate_launch(4, 'Global tests -- slow tests (unitcheck, slowcheck)',
self.gbuildparser.makecmd, 'unitcheck slowcheck', self.gbuildparser.builddir)
result += self.generate_launch(5, 'Global tests -- integration tests (unitcheck, slowcheck, subsequentcheck)',
self.gbuildparser.makecmd, 'unitcheck slowcheck subsequentcheck',
self.gbuildparser.builddir)
result += self.generate_launch(6, 'Run LibreOffice',
os.path.join(self.gbuildparser.instdir, 'program/soffice.bin'), '',
self.gbuildparser.instdir)
return result
launchestemplate = """
[Launch]
Launch Configurations=%(launches)s
"""
def write_modulebeef(self, moduledir, modulename):
beefdir = os.path.join(moduledir, '.kdev4')
os.mkdir(beefdir)
beeffile = open(os.path.join(beefdir, 'Module_%s.kdev4' % modulename), 'w')
beeffile.write(self.generate_buildsystem(moduledir))
beeffile.write(self.generate_launches(moduledir))
beeffile.close()
def write_modulestub(self, moduledir, modulename):
stubfile = open(os.path.join(moduledir, 'Module_%s.kdev4' % modulename), 'w')
stubfile.write(KdevelopIntegrationGenerator.modulestubtemplate % {'modulename': modulename,
'builditem': self.encode_string(
'Module_%s' % modulename)})
stubfile.close()
modulestubtemplate = """
[Buildset]
BuildItems=@Variant(\\x00\\x00\\x00\\t\\x00\\x00\\x00\\x00\\x01\\x00\\x00\\x00\\x0b\\x00\\x00\\x00\\x00\\x01%(builditem)s)
[Project]
Name=Module_%(modulename)s
Manager=KDevCustomBuildSystem
VersionControl=kdevgit
"""
def write_includepaths(self, path):
includedirfile = open(os.path.join(path, '.kdev_include_paths'), 'w')
fullpath = '%s/%s' % (self.gbuildparser.srcdir, path)
include = set()
for target in self.target_by_path[path]:
include |= set(target.include)
includedirfile.write('\n'.join(include))
includedirfile.close()
def __init__(self, gbuildparser):
IdeIntegrationGenerator.__init__(self, gbuildparser)
self.target_by_location = {}
self.target_by_path = {}
for target in set(self.gbuildparser.libs) | set(self.gbuildparser.exes):
if not target.location in self.target_by_location:
self.target_by_location[target.location] = set()
self.target_by_location[target.location] |= set([target])
for cxx in target.cxxobjects:
path = '/'.join(cxx.split('/')[:-1])
if not path in self.target_by_path:
self.target_by_path[path] = set()
self.target_by_path[path] |= set([target])
for path in self.target_by_path:
if len(self.target_by_path[path]) > 1:
print('fdo#70422: multiple target use dir %s: %s' % (
path, ', '.join([target.short_name() for target in self.target_by_path[path]])))
def emit(self):
for path in self.target_by_path:
self.write_includepaths(path)
for location in self.target_by_location:
for f in os.listdir(location):
if f.endswith('.kdev4'):
try:
os.remove(os.path.join(location, f))
except OSError:
shutil.rmtree(os.path.join(location, f))
for location in self.target_by_location:
modulename = os.path.split(location)[1]
self.write_modulestub(location, modulename)
self.write_modulebeef(location, modulename)
class XcodeIntegrationGenerator(IdeIntegrationGenerator):
def indent(self, file, level):
if level == 0:
return
for i in range(0, level):
file.write(' ')
def write_object(self, object, file, indent):
if isinstance(object, int):
file.write('%d' % object)
elif isinstance(object, str) and not re.search('[^A-Za-z0-9_]', object):
file.write('%s' % object)
elif isinstance(object, str):
file.write('"%s"' % object)
elif isinstance(object, dict):
self.write_dict(object, file, indent)
# Write a dictionary out as an "old-style (NeXT) ASCII plist"
def write_dict(self, dict, file, indent):
file.write('{')
file.write('\n')
for key in sorted(dict.keys()):
self.indent(file, indent + 1)
file.write('%s = ' % key)
self.write_object(dict[key], file, indent + 1)
file.write(';\n')
self.indent(file, indent)
file.write('}')
def write_dict_to_plist(self, dict, file):
file.write('// !$*UTF8*$!\n')
indent = 0
self.write_dict(dict, file, 0)
def get_product_type(self, modulename):
if modulename in self.gbuildparser.libs:
return 'com.apple.product-type.library.dynamic'
elif modulename in self.gbuildparser.exes:
return 'com.apple.product-type.something'
counter = 0
def generate_id(self):
XcodeIntegrationGenerator.counter = XcodeIntegrationGenerator.counter + 1
return str('X%07x' % XcodeIntegrationGenerator.counter)
def generate_build_phases(self, modulename):
result = [self.sourcesBuildPhaseId]
return result
def generate_root_object(self, modulename):
result = {'isa': 'PBXProject',
'attributes': {'LastUpgradeCheck': '0500',
'ORGANIZATIONNAME': 'LibreOffice'},
'buildConfigurationList': self.generate_id(),
'compatibilityVersion': 'Xcode 3.2',
'hasScannedForEncodings': 0,
'knownRegions': ['en'],
'mainGroup': self.mainGroupId,
'productRefGroup': self.productRefGroupId,
'projectDirPath': '',
'projectRoot': '',
'targets': self.targetId}
return result
def generate_target(self, modulename):
result = {'isa': 'PBXNativeTarget',
'buildConfigurationList': self.generate_id(),
'buildPhases': self.generate_build_phases(modulename),
'buildRules': [],
'dependencies': [],
'name': modulename,
'productName': modulename,
'productReference': self.productReferenceId,
'productType': self.get_product_type(modulename)}
return result
def generate_main_group(self, modulename):
result = {'isa': 'PBXGroup',
'children': [self.subMainGroupId, self.productGroupId],
'sourceTree': '<group>'}
return result
def generate_sub_main_children(self, modulename):
return {}
def generate_sub_main_group(self, modulename):
result = {'isa': 'PBXGroup',
'children': self.generate_sub_main_children(modulename),
'path': modulename,
'sourceTree': '<group>'}
return result
def generate_product_group(self, modulename):
result = {'isa': 'PBXGroup',
'children': [self.productReferenceId],
'name': 'Products',
'sourceTree': '<group>'}
return result
def build_source_list(self, modulename):
self.sourceList = {}
self.sourceRefList = {}
for i in self.gbuildparser.libs[modulename].cxxobjects:
ref = self.generate_id()
self.sourceList[self.generate_id()] = ref
self.sourceRefList[ref] = {'lastKnownFileType': 'sourcecode.cpp.cpp',
'path': i + '.cxx',
'sourceTree': '<group>'}
def generate_sources_build_phase(self, modulename):
result = {'isa': 'PBXSourcesBuildPhase',
'buildActionMask': 2147483647,
'files': self.sourceList.keys(),
'runOnlyForDeploymentPostprocessing': 0}
return result
def generate_project(self, modulename):
self.rootObjectId = self.generate_id()
self.mainGroupId = self.generate_id()
self.subMainGroupId = self.generate_id()
self.productReferenceId = self.generate_id()
self.productRefGroupId = self.generate_id()
self.productGroupId = self.generate_id()
self.targetId = self.generate_id()
self.build_source_list(modulename)
self.sourcesBuildPhaseId = self.generate_id()
objects = {self.rootObjectId: self.generate_root_object(modulename),
self.targetId: self.generate_target(modulename),
self.mainGroupId: self.generate_main_group(modulename),
self.subMainGroupId: self.generate_sub_main_group(modulename),
self.productGroupId: self.generate_product_group(modulename),
self.sourcesBuildPhaseId: self.generate_sources_build_phase(modulename)
}
for i in self.sourceList.keys():
ref = self.sourceList[i]
objects[i] = {'isa': 'PBXBuildFile',
'fileRef': ref}
objects[ref] = {'isa': 'PBXFileReference',
'lastKnownFileType': self.sourceRefList[ref]['lastKnownFileType'],
'path': self.sourceRefList[ref]['path']}
project = {'archiveVersion': 1,
'classes': {},
'objectVersion': 46,
'objects': objects,
'rootObject': self.rootObjectId}
return project
# For some reverse-engineered documentation on the project.pbxproj format,
# see http://www.monobjc.net/xcode-project-file-format.html .
def write_xcodeproj(self, moduledir, modulename):
xcodeprojdir = os.path.join(moduledir, '%s.xcodeproj' % modulename)
try:
os.mkdir(xcodeprojdir)
except:
pass
self.write_dict_to_plist(self.generate_project(modulename),
open(os.path.join(xcodeprojdir, 'project.pbxproj'), 'w'))
def __init__(self, gbuildparser):
IdeIntegrationGenerator.__init__(self, gbuildparser)
self.target_by_location = {}
for target in set(self.gbuildparser.libs) | set(self.gbuildparser.exes):
if not target.location in self.target_by_location:
self.target_by_location[target.location] = set()
self.target_by_location[target.location] |= set([target])
def emit(self):
for location in self.target_by_location:
modulename = os.path.split(location)[1]
self.write_xcodeproj(location, modulename)
class VisualStudioIntegrationGenerator(IdeIntegrationGenerator):
def __init__(self, gbuildparser):
IdeIntegrationGenerator.__init__(self, gbuildparser)
self.solution_directory = './'
self.configurations = {
'Build' : {
'build': self.module_make_command('%(target)s'),
'clean': self.module_make_command('%(target)s.clean'),
'rebuild': self.module_make_command('%(target)s.clean %(target)s')
},
'Unit Tests': {
'build': self.module_make_command('unitcheck'),
'clean': self.module_make_command('clean'),
'rebuild': self.module_make_command('clean unitcheck'),
},
'Integration tests': {
'build': self.module_make_command('unitcheck slowcheck subsequentcheck'),
'clean': self.module_make_command('clean'),
'rebuild': self.module_make_command('clean unitcheck slowcheck subsequentcheck')
}
}
self.target_by_location = {}
for target in set(self.gbuildparser.libs) | set(self.gbuildparser.exes):
if target.is_empty():
continue
if not target.location in self.target_by_location:
self.target_by_location[target.location] = set()
self.target_by_location[target.location] |= set([target])
def module_make_command(self, targets):
return '%(sh)s -c "PATH=\\"/bin:$PATH\\"; cd %(location)s && %(makecmd)s -rs ' + targets + '"';
class Project:
def __init__(self, guid, target, project_path):
self.guid = guid
self.target = target
self.path = project_path
def emit(self):
all_projects = []
for location in self.target_by_location:
projects = []
module = location.split('/')[-1]
module_directory = os.path.join(self.solution_directory, module)
for target in self.target_by_location[location]:
project_path = os.path.join(module_directory, '%s.vcxproj' % target.name)
project_guid = self.write_project(project_path, target)
p = VisualStudioIntegrationGenerator.Project(project_guid, target, project_path)
projects.append(p)
self.write_solution(os.path.join(module_directory, '%s.sln' % module), projects)
all_projects += projects
self.write_solution(os.path.join(self.solution_directory, 'LibreOffice.sln'), all_projects)
nmake_project_guid = '8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942'
def get_project_directory(self, target):
return os.path.join(self.solution_directory, target.location.split('/')[-1])
def get_dependency_libs(self, linked_libs, library_projects):
dependency_libs = {}
for linked_lib in linked_libs:
for library_project in library_projects:
if library_project.target.library_name() == linked_lib:
dependency_libs[library_project.guid] = library_project
return dependency_libs
def write_solution(self, solution_path, projects):
print('Solution %s:' % os.path.splitext(os.path.basename(solution_path))[0], end='')
library_projects = [project for project in projects if project.target in self.gbuildparser.libs]
with open(solution_path, 'w') as f:
f.write('Microsoft Visual Studio Solution File, Format Version 12.00\n')
for project in projects:
target = project.target
print(' %s' % target.name, end='')
module = target.location.split('/')[-1]
proj_path = os.path.relpath(project.path, os.path.abspath(os.path.dirname(solution_path)))
f.write('Project("{%s}") = "%s", "%s", "{%s}"\n' %
(VisualStudioIntegrationGenerator.nmake_project_guid,
target.short_name(), proj_path, project.guid))
libs_in_solution = self.get_dependency_libs(target.linked_libs,
library_projects)
if libs_in_solution:
f.write('\tProjectSection(ProjectDependencies) = postProject\n')
for lib_guid in libs_in_solution.keys():
f.write('\t\t{%(guid)s} = {%(guid)s}\n' % { 'guid': lib_guid})
f.write('\tEndProjectSection\n')
f.write('EndProject\n')
f.write('Global\n')
platform = 'Win32'
f.write('\tGlobalSection(SolutionConfigurationPlatforms) = preSolution\n')
for cfg in self.configurations:
f.write('\t\t%(cfg)s|%(platform)s = %(cfg)s|%(platform)s\n' % {'cfg': cfg, 'platform': platform})
f.write('\tEndGlobalSection\n')
f.write('\tGlobalSection(ProjectConfigurationPlatforms) = postSolution\n')
# Specifies project configurations for solution configuration
for project in projects:
for cfg in self.configurations:
params = {'guid': project.guid, 'sol_cfg': cfg, 'proj_cfg': cfg, 'platform': platform}
f.write('\t\t{%(guid)s}.%(sol_cfg)s|%(platform)s.ActiveCfg = %(proj_cfg)s|%(platform)s\n' % params)
# Build.0 is basically 'Build checkbox' in configuration manager
f.write('\t\t{%(guid)s}.%(sol_cfg)s|%(platform)s.Build.0 = %(proj_cfg)s|%(platform)s\n' % params)
f.write('\tEndGlobalSection\n')
f.write('EndGlobal\n')
print('')
def write_project(self, project_path, target):
# See info at http://blogs.msdn.com/b/visualstudio/archive/2010/05/14/a-guide-to-vcxproj-and-props-file-structure.aspx
os.makedirs(os.path.dirname(project_path), exist_ok = True)
project_guid = str(uuid.uuid4()).upper()
ns = 'http://schemas.microsoft.com/developer/msbuild/2003'
ET.register_namespace('', ns)
proj_node = ET.Element('{%s}Project' % ns, DefaultTargets='Build', ToolsVersion='4.0' );
proj_confs_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns, Label='ProjectConfigurations')
platform = 'Win32'
for configuration in self.configurations:
proj_conf_node = ET.SubElement(proj_confs_node,
'{%s}ProjectConfiguration' % ns,
Include='%s|%s' % (configuration, platform))
conf_node = ET.SubElement(proj_conf_node, '{%s}Configuration' % ns)
conf_node.text = configuration
platform_node = ET.SubElement(proj_conf_node, '{%s}Platform' % ns)
platform_node.text = platform
globals_node = ET.SubElement(proj_node, '{%s}PropertyGroup' % ns, Label='Globals')
proj_guid_node = ET.SubElement(globals_node, '{%s}ProjectGuid' % ns)
proj_guid_node.text = '{%s}' % project_guid
proj_keyword_node = ET.SubElement(globals_node, '{%s}Keyword' % ns)
proj_keyword_node.text = 'MakeFileProj'
proj_name_node = ET.SubElement(globals_node, '{%s}ProjectName' % ns)
proj_name_node.text = target.short_name()
ET.SubElement(proj_node, '{%s}Import' % ns, Project='$(VCTargetsPath)\Microsoft.Cpp.Default.props')
for configuration in self.configurations:
conf_node = ET.SubElement(proj_node, '{%s}PropertyGroup' % ns, Label="Configuration",
Condition="'$(Configuration)|$(Platform)'=='%s|%s'" % (configuration, platform))
# Type of project used by the MSBuild to determine build process, see Microsoft.Makefile.targets
conf_type_node = ET.SubElement(conf_node, '{%s}ConfigurationType' % ns)
conf_type_node.text = 'Makefile'
# VS2012: I need to have this otherwise the names of projects will contain text Visual Studio 2010 in the Solution Explorer
platform_toolset_node = ET.SubElement(conf_node, '{%s}PlatformToolset' % ns)
platform_toolset_node.text = 'v110'
import_node = ET.SubElement(proj_node, '{%s}Import' % ns, Project='$(VCTargetsPath)\Microsoft.Cpp.props')
ET.SubElement(proj_node, '{%s}ImportGroup' % ns, Label='ExtensionSettings')
for configuration in self.configurations:
prop_sheets_node = ET.SubElement(proj_node, '{%s}ImportGroup' % ns, Label='Configuration',
Condition="'$(Configuration)|$(Platform)'=='%s|%s'" % (configuration, platform))
import_node = ET.SubElement(prop_sheets_node, '{%s}Import' % ns,
Project='$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props',
Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')",
Label='LocalAppDataPlatform')
ET.SubElement(proj_node, '{%s}PropertyGroup' % ns, Label='UserMacros')
for cfg_name, cfg_targets in self.configurations.items():
conf_node = ET.SubElement(proj_node, '{%s}PropertyGroup' % ns,
Condition="'$(Configuration)|$(Platform)'=='%s|%s'" % (cfg_name, platform))
nmake_params = {
'sh': os.path.join(self.gbuildparser.binpath, 'dash.exe'),
'location': target.location,
'makecmd': self.gbuildparser.makecmd,
'target': target.target_name()}
nmake_build_node = ET.SubElement(conf_node, '{%s}NMakeBuildCommandLine' % ns)
nmake_build_node.text = cfg_targets['build'] % nmake_params
nmake_clean_node = ET.SubElement(conf_node, '{%s}NMakeCleanCommandLine' % ns)
nmake_clean_node.text = cfg_targets['clean'] % nmake_params
nmake_rebuild_node = ET.SubElement(conf_node, '{%s}NMakeReBuildCommandLine' % ns)
nmake_rebuild_node.text = cfg_targets['rebuild'] % nmake_params
nmake_output_node = ET.SubElement(conf_node, '{%s}NMakeOutput' % ns)
nmake_output_node.text = os.path.join(self.gbuildparser.instdir, 'program' , 'soffice.exe')
nmake_defs_node = ET.SubElement(conf_node, '{%s}NMakePreprocessorDefinitions' % ns)
nmake_defs_node.text = ';'.join(list(target.defs) + ['$(NMakePreprocessorDefinitions)'])
include_path_node = ET.SubElement(conf_node, '{%s}IncludePath' % ns)
include_path_node.text = ';'.join(target.include + ['$(IncludePath)'])
ET.SubElement(proj_node, '{%s}ItemDefinitionGroup' % ns)
cxxobjects_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns)
for cxxobject in target.cxxobjects:
cxxabspath = os.path.join(self.gbuildparser.srcdir, cxxobject)
cxxfile = cxxabspath + '.cxx'
if os.path.isfile(cxxfile):
ET.SubElement(cxxobjects_node, '{%s}ClCompile' % ns, Include=cxxfile)
else:
print('Source %s in project %s does not exist' % (cxxfile, target.name))
includes_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns)
for cxxobject in target.cxxobjects:
include_abs_path = os.path.join(self.gbuildparser.srcdir, cxxobject)
hxxfile = include_abs_path + '.hxx'
if os.path.isfile(hxxfile):
ET.SubElement(includes_node, '{%s}ClInclude' % ns, Include=hxxfile)
# Few files have corresponding .h files
hfile = include_abs_path + '.h'
if os.path.isfile(hfile):
ET.SubElement(includes_node, '{%s}ClInclude' % ns, Include=hfile)
ET.SubElement(proj_node, '{%s}Import' % ns, Project='$(VCTargetsPath)\Microsoft.Cpp.targets')
ET.SubElement(proj_node, '{%s}ImportGroup' % ns, Label='ExtensionTargets')
msbuild_tree = ET.ElementTree(proj_node)
msbuild_tree.write(project_path, encoding='unicode', xml_declaration=True)
self.write_filters(project_path + '.filters',
os.path.join(self.gbuildparser.srcdir, os.path.basename(target.location)),
[cxx_node.get('Include') for cxx_node in cxxobjects_node.findall('{%s}ClCompile' % ns) ],
[include_node.get('Include') for include_node in includes_node.findall('{%s}ClInclude' % ns) ])
return project_guid
def get_filter(self, module_dir, proj_file):
return '\\'.join(os.path.relpath(proj_file, module_dir).split('/')[:-1])
def get_subfilters(self, proj_filter):
parts = proj_filter.split('\\')
subfilters = set([proj_filter])
for i in range(1, len(parts)):
subfilters.add('\\'.join(parts[:i]))
return subfilters
def add_nodes(self, files_node, module_dir, tag, project_files):
ns = 'http://schemas.microsoft.com/developer/msbuild/2003'
filters = set()
for project_file in project_files:
file_node = ET.SubElement(files_node, tag, Include=project_file)
if os.path.commonprefix([module_dir, project_file]) == module_dir:
project_filter = self.get_filter(module_dir, project_file)
filter_node = ET.SubElement(file_node, '{%s}Filter' % ns)
filter_node.text = project_filter
filters |= self.get_subfilters(project_filter)
return filters
def write_filters(self, filters_path, module_dir, compile_files, include_files):
ns = 'http://schemas.microsoft.com/developer/msbuild/2003'
ET.register_namespace('', ns)
proj_node = ET.Element('{%s}Project' % ns, ToolsVersion='4.0' );
filters = set()
compiles_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns)
filters |= self.add_nodes(compiles_node, module_dir, '{%s}ClCompile' % ns, compile_files)
include_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns)
filters |= self.add_nodes(include_node, module_dir, '{%s}ClInclude' % ns, include_files)
filters_node = ET.SubElement(proj_node, '{%s}ItemGroup' % ns)
for proj_filter in filters:
filter_node = ET.SubElement(filters_node, '{%s}Filter' % ns, Include=proj_filter)
filter_id_node = ET.SubElement(filter_node, '{%s}UniqueIdentifier' % ns)
filter_id_node.text = '{%s}' % str(uuid.uuid4())
filters_tree = ET.ElementTree(proj_node)
filters_tree.write(filters_path, encoding='unicode', xml_declaration=True)
if __name__ == '__main__':
parser = argparse.ArgumentParser(
description='LibreOffice gbuild IDE project generator')
parser.add_argument('--ide', dest='ide', required=True,
help='the IDE to generate project files for')
parser.add_argument('--input', dest='input', required=False,
help='the input file, not normally used, for debugging this script')
args = parser.parse_args()
paths = {}
if args.input:
gbuildparser = GbuildParser().parse(open(args.input, 'r'))
else:
gbuildparser = GbuildParser().parse(sys.stdin)
#DebugIntegrationGenerator(gbuildparser).emit()
if args.ide == 'kdevelop':
KdevelopIntegrationGenerator(gbuildparser).emit()
elif args.ide == 'xcode':
XcodeIntegrationGenerator(gbuildparser).emit()
elif args.ide == 'vs2012':
VisualStudioIntegrationGenerator(gbuildparser).emit()
else:
parser.print_help()
sys.exit(1)
# Local Variables:
# indent-tabs-mode: nil
# End:
#
# vim: set noet sw=4 ts=4: