def generateMakefile(make, ctx, toolchains, output_path): api.log('Android makefile: ' + ctx['workspace'], 0) api.log('Target directory: ' + output_path, 1) api.warning('Build and architecture support with NDK-BUILD is done through Application.mk', 1) if not os.path.exists(output_path): os.makedirs(output_path) # convert projects groups = make.getConfigurationKeyValuesFilterByContext('group', ctx) mk_projects = [] for group in groups: group_ctx = ctx.clone({'group': group}) projects = make.getConfigurationKeyValuesFilterByContext('project', group_ctx) for project in projects: # filter out any build specific configuration keys, they will be added to Application.mk mk_projects.append(generateProject(make, group_ctx.clone({'project': project, 'build': '@Exclude'}), output_path)) # write Android makefile api.log("Output makefile 'Android.mk'", 1) f = open(output_path + '/' + 'Android.mk', 'w') outputHeader(f) f.write('LOCAL_PATH := $(call my-dir)\n\n') for project in mk_projects: outputProject(f, make, project, mk_projects, output_path) f = None # write Application makefile outputApplicationMk(make, ctx, toolchains, mk_projects, output_path)
def outputApplicationMk(make, ctx, toolchains, mk_projects, output_path): api.log("Output makefile 'Application.mk'", 1) f = open(output_path + '/' + 'Application.mk', 'w') outputHeader(f) # grab builds builds = make.getConfigurationKeyValuesFilterByContext('build', ctx) if len(builds) == 0: api.warning("No build configuration to make for this application", 1) return # output build selection f.write('# Select the build configuration. Possible values: ') first = True for build in builds: if first == False: f.write(', ') f.write('"' + build + '"') first = False f.write('.\n') f.write('BUILD = "' + builds[0] + '"\n') # output architecture selection (ugh...) supported_archs = [] for toolchain in toolchains: if toolchain['target'] == 'android': for arch in toolchain['arch']: if getArchABI(arch) != None: supported_archs.append(arch) f.write('# Select the target architecture. Possible values: ') first = True for arch in supported_archs: if first == False: f.write(', ') f.write('"' + arch + '"') first = False f.write('.\n') f.write('ARCH = "' + supported_archs[0] + '"\n') f.write('\n') # global settings. app_platform = make.get('android_app_platform', ctx) if app_platform: f.write('APP_PLATFORM := android-' + str(app_platform[0]) + '\n') # output build rules f.write('\n') for build in builds: for toolchain in toolchains: if toolchain['target'] != 'android': continue for arch in toolchain['arch']: abi = getArchABI(arch) if abi == None: api.warning('Unsupported architecture: ' + arch + '\n', 1) continue app_ctx = ctx.clone({'build': build, 'arch': arch, 'project': '@exclude'}) # in this build for this architecture, not specific to a project f.write('# Configuration for build ' + build + ' ' + arch + '\n') f.write('#------------------------------------------------\n') f.write('ifeq (${BUILD}, "' + build + '")\n') f.write(' ifeq (${ARCH}, "' + arch + '")\n\n') # app cflags app_cflags = '' defines = make.get('define', app_ctx) if defines != None: for define in defines: app_cflags += '-D' + define + ' ' cflags = make.get('cflags', app_ctx) if cflags != None: if 'use-neon' in cflags: f.write('LOCAL_ARM_NEON := true\n') gflags = convertCFlags(cflags) for v in gflags: app_cflags += v + ' ' if app_cflags != '': f.write('APP_CFLAGS := ' + app_cflags + '\n') f.write('APP_OPTIM := ' + ('debug' if 'debug' in cflags else 'release') +'\n') f.write('APP_ABI := ' + abi + '\n') if 'use-stlport' in cflags: f.write('APP_STL := stlport_static\n') f.write('\n endif\n') f.write('endif\n\n')
def outputProject(make, project, projects, output_path): project_ctx = project['ctx'] api.log("Output project '" + project['name'] + "'", 1) f = open(output_path + '/' + project['name'] + '.vcxproj', 'w') f.write('<?xml version="1.0" encoding="utf-8"?>\n') f.write('<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">\n') # configurations f.write(' <ItemGroup Label="ProjectConfigurations">\n') for cfg in project['configurations']: cfg['qualified_name'] = cfg['name'] + '|' + cfg['vsplatform'] f.write(' <ProjectConfiguration Include="' + cfg['qualified_name'] + '">\n') f.write(' <Configuration>' + cfg['name'] + '</Configuration>\n') f.write(' <Platform>' + cfg['vsplatform'] + '</Platform>\n') f.write(' </ProjectConfiguration>\n') f.write(' </ItemGroup>\n') # global properties f.write(' <PropertyGroup Label="Globals">\n') f.write(' <ProjectGuid>{' + project['guid'] + '}</ProjectGuid>\n') f.write(' <RootNamespace>' + project['name'] + '</RootNamespace>\n') f.write(' <Keyword>' + getProjectKeyword(make, project_ctx) + '</Keyword>\n') f.write(' </PropertyGroup>\n') # store a few commonly used values directly in the configuration for cfg in project['configurations']: cfg['deps'] = make.getDependencies(cfg['ctx']) cfg['links'] = make.getLinksAcrossDependencies(cfg['deps'], cfg['ctx']) cfg['type'] = make.getBestMatch('type', cfg['ctx']) cfg['cflags'] = make.get('cflags', cfg['ctx']) cfg['pflags'] = make.get('pflags', cfg['ctx']) # build the project link list across all configurations (we'll disable unused ones on a per project basis in the solution) project['all_link'] = None for cfg in project['configurations']: project['all_link'] = api.appendToList(project['all_link'], cfg['links']) if project['all_link'] != None: project['all_link'] = list(set(project['all_link'])) # cpp default properties f.write(' <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />\n') # general project properties for cfg in project['configurations']: f.write(' <PropertyGroup ' + getCondition(cfg) + ' Label="Configuration">\n') outputGeneralProjectProperty(f, make, project, cfg) f.write(' </PropertyGroup>\n') # cpp extension settings f.write(' <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />\n') f.write(' <ImportGroup Label="ExtensionSettings">\n') f.write(' </ImportGroup>\n') # default props for cfg in project['configurations']: f.write(' <ImportGroup Label="PropertySheets" ' + getCondition(cfg) + '>\n') f.write(' <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists(\'$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props\')" Label="LocalAppDataPlatform" />\n') f.write(' </ImportGroup>\n') # user macros f.write(' <PropertyGroup Label="UserMacros" />\n') # binary output for cfg in project['configurations']: f.write(' <PropertyGroup ' + getCondition(cfg) + '>\n') f.write(' <OutDir>' + getBinaryPath(make, cfg) + '</OutDir>\n') f.write(' <IntDir>' + getIntermediatePath(make, cfg) + '</IntDir>\n') target_name = make.getBestMatch('target_name', cfg['ctx']) if not target_name: target_name = getBinaryName(project['name'], cfg['type'], cfg['ctx']['target']) suffix = make.getBestMatch('bin_suffix', cfg['ctx']) if suffix: target_name += suffix target_ext = make.getBestMatch('bin_ext', cfg['ctx']) if not target_ext: target_ext = getBinaryExt(cfg['type'], cfg['ctx']['target']) f.write(' <TargetName>' + target_name + '</TargetName>\n') f.write(' <TargetExt>' + target_ext + '</TargetExt>\n') f.write(' </PropertyGroup>\n') # compiler / linker properties for cfg in project['configurations']: ctx = cfg['ctx'] suffix = make.get('bin_suffix', ctx) f.write(' <ItemDefinitionGroup ' + getCondition(cfg) + '>\n') # compiler cflags = cfg['cflags'] outDir = '$(OutDir)' if 'debug' in cfg['cflags'] else '$(IntDir)' f.write(' <ClCompile>\n') f.write(' <PrecompiledHeader>NotUsing</PrecompiledHeader>\n') f.write(' <WarningLevel>' + getWarningLevel(cflags) + '</WarningLevel>\n') f.write(' <PreprocessorDefinitions>' + getDefines(make, cfg) + '</PreprocessorDefinitions>\n') f.write(' <AdditionalIncludeDirectories>' + getAdditionalIncludes(make, cfg, output_path) + '</AdditionalIncludeDirectories>\n') f.write(' <DebugInformationFormat>' + getDebugInformation(cflags) + '</DebugInformationFormat>\n') f.write(' <ProgramDataBaseFileName>'+ outDir + getPDBName(project['name'], suffix) + '.pdb</ProgramDataBaseFileName>\n') f.write(' <Optimization>' + getOptimization(cflags) + '</Optimization>\n') f.write(' <ExceptionHandling>' + getUseExceptions(cflags) + '</ExceptionHandling>\n') f.write(' <RuntimeTypeInfo>' + getUseRTTI(cflags) + '</RuntimeTypeInfo>\n') f.write(' <FloatingPointModel>' + getFloatingPointModel(cflags) + '</FloatingPointModel>\n') if 'omit-frame-pointers' in cflags: f.write(' <OmitFramePointers>true</OmitFramePointers>\n') f.write(' <RuntimeLibrary>' + getRuntimeLibrary(make, cfg) + '</RuntimeLibrary>\n') f.write(' <MultiProcessorCompilation>' + getMultiProcessorCompilation(cflags) + '</MultiProcessorCompilation>\n') f.write(' <MinimalRebuild>' + getMinimalRebuild(cflags) + '</MinimalRebuild>\n') additionalClOptions = getAdditionalClOptions(make, cfg) if additionalClOptions != None: f.write(' <AdditionalOptions>' + additionalClOptions + ' %(AdditionalOptions)</AdditionalOptions>\n') align_dict = {'struct-member-align-1': 1, 'struct-member-align-2': 2, 'struct-member-align-4': 4, 'struct-member-align-8': 8, 'struct-member-align-16': 16} for key in align_dict.keys(): if key in cflags: f.write(' <StructMemberAlignment>' + str(align_dict[key]) + 'Bytes</StructMemberAlignment>\n') break if 'x64' not in ctx['arch'] and 'use-sse2' in cflags: f.write(' <EnableEnhancedInstructionSet>StreamingSIMDExtensions2</EnableEnhancedInstructionSet>\n') outputPrecompiledHeaderTags(f, make, cfg) f.write(' </ClCompile>\n') f.write(' <Link>\n') f.write(' <SubSystem>' + getSubSystem(make, cfg) + '</SubSystem>\n') f.write(' <AdditionalDependencies>' + getAdditionalDependencies(make, cfg, projects) + '</AdditionalDependencies>\n') f.write(' <AdditionalLibraryDirectories>' + getAdditionalLibraryDirectories(make, cfg, output_path) +'</AdditionalLibraryDirectories>\n') f.write(' <GenerateDebugInformation>' + ('True' if ('debug' in cfg['cflags'] or 'debug-info' in cfg['cflags']) else 'False') + '</GenerateDebugInformation>\n') ModuleDefFile = getModuleDefinitionFile(make, cfg); if (ModuleDefFile != None): f.write(' <ModuleDefinitionFile>' + ModuleDefFile + '</ModuleDefinitionFile>\n') additionalLinkOptions = getAdditionalLinkOptions(make, cfg) if additionalLinkOptions != None: f.write(' <AdditionalOptions>' + additionalLinkOptions + ' %(AdditionalOptions)</AdditionalOptions>\n') UACExecutionLevel = getUACExecutionLevel(make, cfg) if UACExecutionLevel != None: f.write(' <UACExecutionLevel>' + UACExecutionLevel + '</UACExecutionLevel>\n') outputAdditionalLinkTags(f, make, cfg) f.write(' </Link>\n') f.write(' <Lib>\n') additionalLibDependencies = getAdditionalLibDependencies(make, cfg) if additionalLibDependencies != None: f.write(' <AdditionalDependencies>' + additionalLibDependencies + '</AdditionalDependencies>\n') LibTargetMachine = getLibTargetMachine(make, cfg) if LibTargetMachine != None: f.write(' <TargetMachine>' + LibTargetMachine + '</TargetMachine>\n') f.write(' </Lib>\n') PreBuildEventCommand = getPreBuildEventCommand(make, cfg) PreBuildEventMessage = getPreBuildEventMessage(make, cfg) if (PreBuildEventCommand != None): f.write(' <PreBuildEvent>\n') f.write(' <Command>' + PreBuildEventCommand + '</Command>\n') if (PreBuildEventMessage != None): f.write(' <Message>' + PreBuildEventMessage + '</Message>\n') f.write(' </PreBuildEvent>\n') PreLinkEventCommand = getPreLinkEventCommand(make, cfg) PreLinkEventMessage = getPreLinkEventMessage(make, cfg) if (PreLinkEventCommand != None): f.write(' <PreLinkEvent>\n') f.write(' <Command>' + PreLinkEventCommand + '</Command>\n') if (PreLinkEventMessage != None): f.write(' <Message>' + PreLinkEventMessage + '</Message>\n') f.write(' </PreLinkEvent>\n') PostBuildEventCommand = getPostBuildEventCommand(make, cfg) PostBuildEventMessage = getPostBuildEventMessage(make, cfg) if (PostBuildEventCommand != None): f.write(' <PostBuildEvent>\n') f.write(' <Command>' + PostBuildEventCommand + '</Command>\n') if (PostBuildEventMessage != None): f.write(' <Message>' + PostBuildEventMessage + '</Message>\n') f.write(' </PostBuildEvent>\n') f.write(' </ItemDefinitionGroup>\n') # source files project['files'] = [] for cfg in project['configurations']: # grab across all configurations cfg['files'] = make.get('files', cfg['ctx']) if cfg['files']: cfg['files'] = [getSolutionFileName(file, output_path) for file in cfg['files']] project['files'].extend(cfg['files']) project['files'] = list(set(project['files'])) project['files'] = [{'name': file, 'skip_cfg': [], 'bigobj_cfg': [], 'nopch_cfg': []} for file in project['files']] if len(project['files']) == 0: api.warning("No files added to project '" + project['name'] + "' in context " + str(project_ctx), 1) # skipped configurations per file def getProjectFile(name): for file in project['files']: if file['name'] == name: return file return None for cfg in project['configurations']: skips = make.get('skip_files', cfg['ctx']) if skips: for skip in skips: file = getProjectFile(getSolutionFileName(skip, output_path)) if file: file['skip_cfg'].append(cfg) for file in project['files']: for cfg in project['configurations']: if file['name'] not in cfg['files']: file['skip_cfg'].append(cfg) # PCH creation per configuration for cfg in project['configurations']: create_pch = make.get('create_pch', cfg['ctx']) cfg['create_pch'] = api.getRelativePath(create_pch[0], output_path, 'windows') if create_pch != None else '' # big obj per file for cfg in project['configurations']: nopchs = make.get('big_obj', cfg['ctx']) if nopchs: for nopch in nopchs: file = getProjectFile(getSolutionFileName(nopch, output_path)) if file: file['bigobj_cfg'].append(cfg) for file in project['files']: for cfg in project['configurations']: if file['name'] not in cfg['files']: file['bigobj_cfg'].append(cfg) # no pch per file for cfg in project['configurations']: nopchs = make.get('no_pch', cfg['ctx']) if nopchs: for nopch in nopchs: file = getProjectFile(getSolutionFileName(nopch, output_path)) if file: file['nopch_cfg'].append(cfg) for file in project['files']: for cfg in project['configurations']: if file['name'] not in cfg['files']: file['nopch_cfg'].append(cfg) # distribute over file categories distributeProjectFiles(make, project, output_path) # output include files f.write(' <ItemGroup>\n') for file in project['include_files']: openIncludeFileClDirective(f, project, file, output_path) outputIncludeFileClDirective(f, make, project, file, output_path) closeIncludeFileClDirective(f, project, file, output_path) f.write(' </ItemGroup>\n') # output compilation units f.write(' <ItemGroup>\n') for file in project['source_files']: openCompileFileClDirective(f, project, file, output_path) outputCompileFileClDirective(f, make, project, file, output_path) outputPCHDirective(f, project, file) outputBigObjDirective(f, project, file) outputNoPchDirective(f, file) outputExcludeFileFromBuildDirective(f, file) closeCompileFileClDirective(f, project, file, output_path) f.write(' </ItemGroup>\n') # output resource compilation f.write(' <ItemGroup>\n') for file in project['resource_files']: f.write(' <ResourceCompile Include=\"' + file['name'] + '\" />\n') f.write(' </ItemGroup>\n') # output custom units f.write(' <ItemGroup>\n') for file in project['custom_files']: openCustomFileClDirective(f, project, file, output_path) outputCustomFileClDirective(f, make, project, file, output_path) outputPCHDirective(f, project, file) outputBigObjDirective(f, project, file) outputNoPchDirective(f, file) outputExcludeFileFromBuildDirective(f, file) closeCustomFileClDirective(f, project, file, output_path) f.write(' </ItemGroup>\n') # project dependencies common_links = copy.deepcopy(project['all_link']) # links common to all configurations for cfg in project['configurations']: if cfg['links'] != None: common_links = [link for link in common_links if link in cfg['links']] for cfg in project['configurations']: # links specific to this configuration if cfg['links'] != None: cfg['cfg_links'] = [link for link in cfg['links'] if link not in common_links] if common_links and len(common_links) > 0: f.write(' <ItemGroup>\n') for link in common_links: prj = getProject(projects, link) if prj != None: f.write(' <ProjectReference Include="' + prj['name'] +'.vcxproj">\n') f.write(' <Project>{' + prj['guid'] +'}</Project>\n') f.write(' </ProjectReference>\n') f.write(' </ItemGroup>\n') for cfg in project['configurations']: if 'cfg_links' in cfg and len(cfg['cfg_links']) > 0: f.write(' <ItemGroup ' + getCondition(cfg) + '>\n') for link in cfg['cfg_links']: prj = getProject(projects, link) if prj != None: f.write(' <ProjectReference Include="' + prj['name'] +'.vcxproj">\n') f.write(' <Project>{' + prj['guid'] +'}</Project>\n') f.write(' </ProjectReference>\n') f.write(' </ItemGroup>\n') # extensions f.write(' <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />\n') f.write(' <ImportGroup Label="ExtensionTargets">\n') f.write(' </ImportGroup>\n') f.write(' <ProjectExtensions>\n') outputProjectExtensionTag(f, make, project) f.write(' </ProjectExtensions>\n') # project done, next! f.write('</Project>\n')