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bazel / bazel / 2c493e8a2132d54f4b2fb8046f6bcef11e92cd22 / . / src / main / java / com / google / devtools / build / lib / rules / cpp / CcCompilationHelper.java
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// Copyright 2014 The Bazel Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package com.google.devtools.build.lib.rules.cpp;
import static java.util.stream.Collectors.toCollection;
import com.google.common.base.Function;
import com.google.common.base.Optional;
import com.google.common.base.Preconditions;
import com.google.common.base.Predicates;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.actions.Artifact.SpecialArtifact;
import com.google.devtools.build.lib.analysis.AnalysisEnvironment;
import com.google.devtools.build.lib.analysis.AnalysisUtils;
import com.google.devtools.build.lib.analysis.LanguageDependentFragment;
import com.google.devtools.build.lib.analysis.OutputGroupInfo;
import com.google.devtools.build.lib.analysis.RuleContext;
import com.google.devtools.build.lib.analysis.TransitiveInfoCollection;
import com.google.devtools.build.lib.analysis.TransitiveInfoProviderMap;
import com.google.devtools.build.lib.analysis.TransitiveInfoProviderMapBuilder;
import com.google.devtools.build.lib.analysis.actions.SymlinkAction;
import com.google.devtools.build.lib.analysis.config.BuildConfiguration;
import com.google.devtools.build.lib.analysis.config.PerLabelOptions;
import com.google.devtools.build.lib.analysis.configuredtargets.RuleConfiguredTarget.Mode;
import com.google.devtools.build.lib.analysis.test.InstrumentedFilesCollector;
import com.google.devtools.build.lib.cmdline.Label;
import com.google.devtools.build.lib.collect.nestedset.NestedSet;
import com.google.devtools.build.lib.collect.nestedset.NestedSetBuilder;
import com.google.devtools.build.lib.collect.nestedset.Order;
import com.google.devtools.build.lib.concurrent.ThreadSafety.Immutable;
import com.google.devtools.build.lib.packages.BuildType;
import com.google.devtools.build.lib.packages.RuleClass.ConfiguredTargetFactory.RuleErrorException;
import com.google.devtools.build.lib.rules.cpp.CcCommon.CoptsFilter;
import com.google.devtools.build.lib.rules.cpp.CcToolchainFeatures.FeatureConfiguration;
import com.google.devtools.build.lib.rules.cpp.CcToolchainVariables.VariablesExtension;
import com.google.devtools.build.lib.rules.cpp.CppConfiguration.HeadersCheckingMode;
import com.google.devtools.build.lib.skylarkinterface.SkylarkCallable;
import com.google.devtools.build.lib.skylarkinterface.SkylarkModule;
import com.google.devtools.build.lib.skylarkinterface.SkylarkModuleCategory;
import com.google.devtools.build.lib.syntax.SkylarkNestedSet;
import com.google.devtools.build.lib.syntax.Type;
import com.google.devtools.build.lib.util.FileTypeSet;
import com.google.devtools.build.lib.util.Pair;
import com.google.devtools.build.lib.vfs.FileSystemUtils;
import com.google.devtools.build.lib.vfs.PathFragment;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.stream.Collectors;
import javax.annotation.Nullable;
/**
* A class to create C/C++ compile actions in a way that is consistent with cc_library. Rules that
* generate source files and emulate cc_library on top of that should use this class instead of the
* lower-level APIs in CppHelper and CppCompileActionBuilder.
*
* <p>Rules that want to use this class are required to have implicit dependencies on the toolchain,
* the STL, the lipo context, and so on. Optionally, they can also have copts, and malloc
* attributes, but note that these require explicit calls to the corresponding setter methods.
*/
public final class CcCompilationHelper {
/** Similar to {@code OutputGroupInfo.HIDDEN_TOP_LEVEL}, but specific to header token files. */
public static final String HIDDEN_HEADER_TOKENS =
OutputGroupInfo.HIDDEN_OUTPUT_GROUP_PREFIX
+ "hidden_header_tokens"
+ OutputGroupInfo.INTERNAL_SUFFIX;
/**
* A group of source file types and action names for builds controlled by CcCompilationHelper.
* Determines what file types CcCompilationHelper considers sources and what action configs are
* configured in the CROSSTOOL.
*/
public enum SourceCategory {
CC(
FileTypeSet.of(
CppFileTypes.CPP_SOURCE,
CppFileTypes.CPP_HEADER,
CppFileTypes.C_SOURCE,
CppFileTypes.ASSEMBLER,
CppFileTypes.ASSEMBLER_WITH_C_PREPROCESSOR,
CppFileTypes.CLIF_INPUT_PROTO)),
CC_AND_OBJC(
FileTypeSet.of(
CppFileTypes.CPP_SOURCE,
CppFileTypes.CPP_HEADER,
CppFileTypes.OBJC_SOURCE,
CppFileTypes.OBJCPP_SOURCE,
CppFileTypes.C_SOURCE,
CppFileTypes.ASSEMBLER,
CppFileTypes.ASSEMBLER_WITH_C_PREPROCESSOR));
private final FileTypeSet sourceTypeSet;
private SourceCategory(FileTypeSet sourceTypeSet) {
this.sourceTypeSet = sourceTypeSet;
}
/** Returns the set of file types that are valid for this category. */
public FileTypeSet getSourceTypes() {
return sourceTypeSet;
}
}
/** Function for extracting module maps from CppCompilationDependencies. */
private static final Function<TransitiveInfoCollection, CppModuleMap> CPP_DEPS_TO_MODULES =
dep -> {
CcCompilationInfo ccCompilationInfo = dep.get(CcCompilationInfo.PROVIDER);
CcCompilationContext ccCompilationContext = null;
if (ccCompilationInfo != null) {
ccCompilationContext = ccCompilationInfo.getCcCompilationContext();
}
return ccCompilationContext == null ? null : ccCompilationContext.getCppModuleMap();
};
/**
* Contains the providers as well as the {@code CcCompilationOutputs} and the {@code
* CcCompilationContext}.
*/
@SkylarkModule(
name = "compilation_info",
documented = false,
category = SkylarkModuleCategory.BUILTIN,
doc = "Helper class containing CC compilation providers."
)
// TODO(plf): Rename so that it's not confused with CcCompilationContext and also consider
// merging
// this class with {@code CcCompilationOutputs}.
public static final class CompilationInfo {
private final TransitiveInfoProviderMap providers;
private final Map<String, NestedSet<Artifact>> outputGroups;
private final CcCompilationOutputs compilationOutputs;
private CompilationInfo(
TransitiveInfoProviderMap providers,
Map<String, NestedSet<Artifact>> outputGroups,
CcCompilationOutputs compilationOutputs) {
this.providers = providers;
this.outputGroups = outputGroups;
this.compilationOutputs = compilationOutputs;
}
public TransitiveInfoProviderMap getProviders() {
return providers;
}
public Map<String, NestedSet<Artifact>> getOutputGroups() {
return outputGroups;
}
@SkylarkCallable(name = "cc_output_groups", documented = false)
public Map<String, SkylarkNestedSet> getSkylarkOutputGroups() {
Map<String, SkylarkNestedSet> skylarkOutputGroups = new TreeMap<>();
for (Map.Entry<String, NestedSet<Artifact>> entry : outputGroups.entrySet()) {
skylarkOutputGroups.put(
entry.getKey(), SkylarkNestedSet.of(Artifact.class, entry.getValue()));
}
return skylarkOutputGroups;
}
@SkylarkCallable(name = "cc_compilation_outputs", documented = false)
public CcCompilationOutputs getCcCompilationOutputs() {
return compilationOutputs;
}
@SkylarkCallable(name = "cc_compilation_info", documented = false)
public CcCompilationInfo getCcCompilationInfo() {
return (CcCompilationInfo) providers.getProvider(CcCompilationInfo.PROVIDER.getKey());
}
public CcCompilationContext getCcCompilationContext() {
return ((CcCompilationInfo) providers.getProvider(CcCompilationInfo.PROVIDER.getKey()))
.getCcCompilationContext();
}
}
private final RuleContext ruleContext;
private final CppSemantics semantics;
private final BuildConfiguration configuration;
private final CppConfiguration cppConfiguration;
private final List<Artifact> publicHeaders = new ArrayList<>();
private final List<Artifact> nonModuleMapHeaders = new ArrayList<>();
private final List<Artifact> publicTextualHeaders = new ArrayList<>();
private final List<Artifact> privateHeaders = new ArrayList<>();
private final List<Artifact> additionalInputs = new ArrayList<>();
private final List<Artifact> compilationMandatoryInputs = new ArrayList<>();
private final List<Artifact> additionalIncludeScanningRoots = new ArrayList<>();
private final List<PathFragment> additionalExportedHeaders = new ArrayList<>();
private final List<CppModuleMap> additionalCppModuleMaps = new ArrayList<>();
private final Set<CppSource> compilationUnitSources = new LinkedHashSet<>();
private final List<Artifact> objectFiles = new ArrayList<>();
private final List<Artifact> picObjectFiles = new ArrayList<>();
private ImmutableList<String> copts = ImmutableList.of();
private CoptsFilter coptsFilter = CoptsFilter.alwaysPasses();
private final Set<String> defines = new LinkedHashSet<>();
private final List<TransitiveInfoCollection> deps = new ArrayList<>();
private final List<CcCompilationContext> depCcCompilationContexts = new ArrayList<>();
private final List<PathFragment> looseIncludeDirs = new ArrayList<>();
private final List<PathFragment> systemIncludeDirs = new ArrayList<>();
private final List<PathFragment> includeDirs = new ArrayList<>();
private HeadersCheckingMode headersCheckingMode = HeadersCheckingMode.LOOSE;
private boolean fake;
private boolean checkDepsGenerateCpp = true;
private boolean emitCompileProviders;
private final SourceCategory sourceCategory;
private final List<VariablesExtension> variablesExtensions = new ArrayList<>();
@Nullable private CppModuleMap cppModuleMap;
private boolean propagateModuleMapToCompileAction = true;
private final FeatureConfiguration featureConfiguration;
private final CcToolchainProvider ccToolchain;
private final FdoSupportProvider fdoSupport;
private boolean useDeps = true;
private boolean generateModuleMap = true;
private String purpose = null;
private boolean generateNoPicAction;
private boolean generatePicAction;
// TODO(plf): Pull out of class.
private CcCompilationContext ccCompilationContext;
/**
* Creates a CcCompilationHelper.
*
* @param ruleContext the RuleContext for the rule being built
* @param semantics CppSemantics for the build
* @param featureConfiguration activated features and action configs for the build
* @param sourceCatagory the candidate source types for the build
* @param ccToolchain the C++ toolchain provider for the build
* @param fdoSupport the C++ FDO optimization support provider for the build
*/
public CcCompilationHelper(
RuleContext ruleContext,
CppSemantics semantics,
FeatureConfiguration featureConfiguration,
SourceCategory sourceCatagory,
CcToolchainProvider ccToolchain,
FdoSupportProvider fdoSupport) {
this(
ruleContext,
semantics,
featureConfiguration,
sourceCatagory,
ccToolchain,
fdoSupport,
ruleContext.getConfiguration());
}
/**
* Creates a CcCompilationHelper that outputs artifacts in a given configuration.
*
* @param ruleContext the RuleContext for the rule being built
* @param semantics CppSemantics for the build
* @param featureConfiguration activated features and action configs for the build
* @param sourceCatagory the candidate source types for the build
* @param ccToolchain the C++ toolchain provider for the build
* @param fdoSupport the C++ FDO optimization support provider for the build
* @param configuration the configuration that gives the directory of output artifacts
*/
public CcCompilationHelper(
RuleContext ruleContext,
CppSemantics semantics,
FeatureConfiguration featureConfiguration,
SourceCategory sourceCatagory,
CcToolchainProvider ccToolchain,
FdoSupportProvider fdoSupport,
BuildConfiguration configuration) {
this.ruleContext = Preconditions.checkNotNull(ruleContext);
this.semantics = Preconditions.checkNotNull(semantics);
this.featureConfiguration = Preconditions.checkNotNull(featureConfiguration);
this.sourceCategory = Preconditions.checkNotNull(sourceCatagory);
this.ccToolchain = Preconditions.checkNotNull(ccToolchain);
this.fdoSupport = Preconditions.checkNotNull(fdoSupport);
this.configuration = Preconditions.checkNotNull(configuration);
this.cppConfiguration =
Preconditions.checkNotNull(ruleContext.getFragment(CppConfiguration.class));
setGenerateNoPicAction(
!CppHelper.usePicForDynamicLibraries(ruleContext, ccToolchain)
|| !CppHelper.usePicForBinaries(ruleContext, ccToolchain));
setGeneratePicAction(
CppHelper.usePicForDynamicLibraries(ruleContext, ccToolchain)
|| CppHelper.usePicForBinaries(ruleContext, ccToolchain));
}
/**
* Creates a CcCompilationHelper for cpp source files.
*
* @param ruleContext the RuleContext for the rule being built
* @param semantics CppSemantics for the build
* @param featureConfiguration activated features and action configs for the build
* @param ccToolchain the C++ toolchain provider for the build
* @param fdoSupport the C++ FDO optimization support provider for the build
*/
public CcCompilationHelper(
RuleContext ruleContext,
CppSemantics semantics,
FeatureConfiguration featureConfiguration,
CcToolchainProvider ccToolchain,
FdoSupportProvider fdoSupport) {
this(ruleContext, semantics, featureConfiguration, SourceCategory.CC, ccToolchain, fdoSupport);
}
/** Sets fields that overlap for cc_library and cc_binary rules. */
public CcCompilationHelper fromCommon(CcCommon common, ImmutableList<String> additionalCopts) {
Preconditions.checkNotNull(additionalCopts);
setCopts(Iterables.concat(common.getCopts(), additionalCopts));
addDefines(common.getDefines());
addDeps(ruleContext.getPrerequisites("deps", Mode.TARGET));
addLooseIncludeDirs(common.getLooseIncludeDirs());
addSystemIncludeDirs(common.getSystemIncludeDirs());
setCoptsFilter(common.getCoptsFilter());
setHeadersCheckingMode(semantics.determineHeadersCheckingMode(ruleContext));
return this;
}
/**
* Adds {@code headers} as public header files. These files will be made visible to dependent
* rules. They may be parsed/preprocessed or compiled into a header module depending on the
* configuration.
*/
public CcCompilationHelper addPublicHeaders(Collection<Artifact> headers) {
for (Artifact header : headers) {
addHeader(header, ruleContext.getLabel());
}
return this;
}
/**
* Adds {@code headers} as public header files. These files will be made visible to dependent
* rules. They may be parsed/preprocessed or compiled into a header module depending on the
* configuration.
*/
public CcCompilationHelper addPublicHeaders(Artifact... headers) {
addPublicHeaders(Arrays.asList(headers));
return this;
}
/**
* Adds {@code headers} as public header files. These files will be made visible to dependent
* rules. They may be parsed/preprocessed or compiled into a header module depending on the
* configuration.
*/
public CcCompilationHelper addPublicHeaders(Iterable<Pair<Artifact, Label>> headers) {
for (Pair<Artifact, Label> header : headers) {
addHeader(header.first, header.second);
}
return this;
}
/**
* Add the corresponding files as public header files, i.e., these files will not be compiled, but
* are made visible as includes to dependent rules in module maps.
*/
public CcCompilationHelper addAdditionalExportedHeaders(
Iterable<PathFragment> additionalExportedHeaders) {
Iterables.addAll(this.additionalExportedHeaders, additionalExportedHeaders);
return this;
}
/**
* Add the corresponding files as public textual header files. These files will not be compiled
* into a target's header module, but will be made visible as textual includes to dependent rules.
*/
public CcCompilationHelper addPublicTextualHeaders(Iterable<Artifact> textualHeaders) {
Iterables.addAll(this.publicTextualHeaders, textualHeaders);
for (Artifact header : textualHeaders) {
this.additionalExportedHeaders.add(header.getExecPath());
}
return this;
}
/**
* Add the corresponding files as source files. These may also be header files, in which case they
* will not be compiled, but also not made visible as includes to dependent rules. The given build
* variables will be added to those used for compiling this source.
*/
public CcCompilationHelper addSources(Collection<Artifact> sources) {
for (Artifact source : sources) {
addSource(source, ruleContext.getLabel());
}
return this;
}
/**
* Add the corresponding files as source files. These may also be header files, in which case they
* will not be compiled, but also not made visible as includes to dependent rules.
*/
public CcCompilationHelper addSources(Iterable<Pair<Artifact, Label>> sources) {
for (Pair<Artifact, Label> source : sources) {
addSource(source.first, source.second);
}
return this;
}
/**
* Add the corresponding files as source files. These may also be header files, in which case they
* will not be compiled, but also not made visible as includes to dependent rules.
*/
public CcCompilationHelper addSources(Artifact... sources) {
return addSources(Arrays.asList(sources));
}
/** Add the corresponding files as non-header, non-source input files. */
public CcCompilationHelper addAdditionalInputs(Collection<Artifact> inputs) {
Iterables.addAll(additionalInputs, inputs);
return this;
}
/**
* Adds a header to {@code publicHeaders} and in case header processing is switched on for the
* file type also to compilationUnitSources.
*/
private void addHeader(Artifact header, Label label) {
// We assume TreeArtifacts passed in are directories containing proper headers.
boolean isHeader =
CppFileTypes.CPP_HEADER.matches(header.getExecPath()) || header.isTreeArtifact();
boolean isTextualInclude = CppFileTypes.CPP_TEXTUAL_INCLUDE.matches(header.getExecPath());
publicHeaders.add(header);
if (isTextualInclude || !isHeader || !shouldProcessHeaders()) {
return;
}
compilationUnitSources.add(CppSource.create(header, label, CppSource.Type.HEADER));
}
/** Adds a header to {@code publicHeaders}, but not to this target's module map. */
public CcCompilationHelper addNonModuleMapHeader(Artifact header) {
Preconditions.checkNotNull(header);
nonModuleMapHeaders.add(header);
return this;
}
/**
* Adds a source to {@code compilationUnitSources} if it is a compiled file type (including
* parsed/preprocessed header) and to {@code privateHeaders} if it is a header.
*/
private void addSource(Artifact source, Label label) {
Preconditions.checkNotNull(featureConfiguration);
boolean isHeader = CppFileTypes.CPP_HEADER.matches(source.getExecPath());
boolean isTextualInclude = CppFileTypes.CPP_TEXTUAL_INCLUDE.matches(source.getExecPath());
// We assume TreeArtifacts passed in are directories containing proper sources for compilation.
boolean isCompiledSource =
sourceCategory.getSourceTypes().matches(source.getExecPathString())
|| source.isTreeArtifact();
if (isHeader || isTextualInclude) {
privateHeaders.add(source);
}
if (isTextualInclude || !isCompiledSource || (isHeader && !shouldProcessHeaders())) {
return;
}
boolean isClifInputProto = CppFileTypes.CLIF_INPUT_PROTO.matches(source.getExecPathString());
CppSource.Type type;
if (isHeader) {
type = CppSource.Type.HEADER;
} else if (isClifInputProto) {
type = CppSource.Type.CLIF_INPUT_PROTO;
} else {
type = CppSource.Type.SOURCE;
}
compilationUnitSources.add(CppSource.create(source, label, type));
}
private boolean shouldProcessHeaders() {
// If parse_headers_verifies_modules is switched on, we verify that headers are
// self-contained by building the module instead.
return !cppConfiguration.getParseHeadersVerifiesModules()
&& (featureConfiguration.isEnabled(CppRuleClasses.PREPROCESS_HEADERS)
|| featureConfiguration.isEnabled(CppRuleClasses.PARSE_HEADERS));
}
/**
* Returns the compilation unit sources. That includes all compiled source files as well as
* headers that will be parsed or preprocessed. Each source file contains the label it arises from
* in the build graph as well as {@code FeatureConfiguration} that should be used during its
* compilation.
*/
public ImmutableSet<CppSource> getCompilationUnitSources() {
return ImmutableSet.copyOf(this.compilationUnitSources);
}
/**
* Add the corresponding files as linker inputs for no-PIC links. If the corresponding files are
* compiled with PIC, the final link may or may not fail. Note that the final link may not happen
* here, if {@code --start_end_lib} is enabled, but instead at any binary that transitively
* depends on the current rule.
*/
public CcCompilationHelper addObjectFiles(Iterable<Artifact> objectFiles) {
for (Artifact objectFile : objectFiles) {
Preconditions.checkArgument(Link.OBJECT_FILETYPES.matches(objectFile.getFilename()));
}
Iterables.addAll(this.objectFiles, objectFiles);
return this;
}
/**
* Add the corresponding files as linker inputs for PIC links. If the corresponding files are not
* compiled with PIC, the final link may or may not fail. Note that the final link may not happen
* here, if {@code --start_end_lib} is enabled, but instead at any binary that transitively
* depends on the current rule.
*/
public CcCompilationHelper addPicObjectFiles(Iterable<Artifact> picObjectFiles) {
for (Artifact objectFile : objectFiles) {
Preconditions.checkArgument(Link.OBJECT_FILETYPES.matches(objectFile.getFilename()));
}
Iterables.addAll(this.picObjectFiles, picObjectFiles);
return this;
}
public CcCompilationHelper setCopts(Iterable<String> copts) {
this.copts = ImmutableList.copyOf(copts);
return this;
}
/** Sets a pattern that is used to filter copts; set to {@code null} for no filtering. */
private void setCoptsFilter(CoptsFilter coptsFilter) {
this.coptsFilter = Preconditions.checkNotNull(coptsFilter);
}
/** Adds the given defines to the compiler command line. */
public CcCompilationHelper addDefines(Iterable<String> defines) {
Iterables.addAll(this.defines, defines);
return this;
}
/**
* Adds the given targets as dependencies - this can include explicit dependencies on other rules
* (like from a "deps" attribute) and also implicit dependencies on runtime libraries.
*/
public CcCompilationHelper addDeps(Iterable<? extends TransitiveInfoCollection> deps) {
for (TransitiveInfoCollection dep : deps) {
this.deps.add(dep);
}
return this;
}
public CcCompilationHelper addDepCcCompilationContext(CcCompilationContext ccCompilationContext) {
this.depCcCompilationContexts.add(Preconditions.checkNotNull(ccCompilationContext));
return this;
}
/**
* Adds the given precompiled files to this helper. Shared and static libraries are added as
* compilation prerequisites, and object files are added as pic or no-PIC object files
* respectively.
*/
public CcCompilationHelper addPrecompiledFiles(PrecompiledFiles precompiledFiles) {
addObjectFiles(precompiledFiles.getObjectFiles(false));
addPicObjectFiles(precompiledFiles.getObjectFiles(true));
return this;
}
/**
* Adds the given directories to the loose include directories that are only allowed to be
* referenced when headers checking is {@link HeadersCheckingMode#LOOSE} or {@link
* HeadersCheckingMode#WARN}.
*/
private void addLooseIncludeDirs(Iterable<PathFragment> looseIncludeDirs) {
Iterables.addAll(this.looseIncludeDirs, looseIncludeDirs);
}
/**
* Adds the given directories to the system include directories (they are passed with {@code
* "-isystem"} to the compiler); these are also passed to dependent rules.
*/
public CcCompilationHelper addSystemIncludeDirs(Iterable<PathFragment> systemIncludeDirs) {
Iterables.addAll(this.systemIncludeDirs, systemIncludeDirs);
return this;
}
/**
* Adds the given directories to the include directories (they are passed with {@code "-I"} to the
* compiler); these are also passed to dependent rules.
*/
public CcCompilationHelper addIncludeDirs(Iterable<PathFragment> includeDirs) {
Iterables.addAll(this.includeDirs, includeDirs);
return this;
}
/** Adds a variableExtension to template the crosstool. */
public CcCompilationHelper addVariableExtension(VariablesExtension variableExtension) {
Preconditions.checkNotNull(variableExtension);
this.variablesExtensions.add(variableExtension);
return this;
}
/** Sets a module map artifact for this build. */
public CcCompilationHelper setCppModuleMap(CppModuleMap cppModuleMap) {
Preconditions.checkNotNull(cppModuleMap);
this.cppModuleMap = cppModuleMap;
return this;
}
/** Signals that this target's module map should not be an input to c++ compile actions. */
public CcCompilationHelper setPropagateModuleMapToCompileAction(boolean propagatesModuleMap) {
this.propagateModuleMapToCompileAction = propagatesModuleMap;
return this;
}
/** Sets the given headers checking mode. The default is {@link HeadersCheckingMode#LOOSE}. */
public CcCompilationHelper setHeadersCheckingMode(HeadersCheckingMode headersCheckingMode) {
this.headersCheckingMode = Preconditions.checkNotNull(headersCheckingMode);
return this;
}
/**
* Marks the resulting code as fake, i.e., the code will not actually be compiled or linked, but
* instead, the compile command is written to a file and added to the runfiles. This is currently
* used for non-compilation tests. Unfortunately, the design is problematic, so please don't add
* any further uses.
*/
public CcCompilationHelper setFake(boolean fake) {
this.fake = fake;
return this;
}
/**
* Disables checking that the deps actually are C++ rules. By default, the {@link #compile} method
* uses {@link LanguageDependentFragment.Checker#depSupportsLanguage} to check that all deps
* provide C++ providers.
*/
public CcCompilationHelper setCheckDepsGenerateCpp(boolean checkDepsGenerateCpp) {
this.checkDepsGenerateCpp = checkDepsGenerateCpp;
return this;
}
/**
* Enables the output of the {@code files_to_compile} and {@code compilation_prerequisites} output
* groups.
*/
// TODO(bazel-team): We probably need to adjust this for the multi-language rules.
public CcCompilationHelper enableCompileProviders() {
this.emitCompileProviders = true;
return this;
}
/**
* Causes actions generated from this CcCompilationHelper not to use build semantics (includes,
* headers, srcs) from dependencies.
*/
public CcCompilationHelper doNotUseDeps() {
this.useDeps = false;
return this;
}
/** Whether to generate no-PIC actions. */
public CcCompilationHelper setGenerateNoPicAction(boolean generateNoPicAction) {
this.generateNoPicAction = generateNoPicAction;
return this;
}
/** Whether to generate PIC actions. */
public CcCompilationHelper setGeneratePicAction(boolean generatePicAction) {
this.generatePicAction = generatePicAction;
return this;
}
/** Adds mandatory inputs for the compilation action. */
public CcCompilationHelper addCompilationMandatoryInputs(
Collection<Artifact> compilationMandatoryInputs) {
this.compilationMandatoryInputs.addAll(compilationMandatoryInputs);
return this;
}
/** Adds additional includes to be scanned. */
// TODO(plf): This is only needed for CLIF. Investigate whether this is strictly necessary or
// there is a way to avoid include scanning for CLIF rules.
public CcCompilationHelper addAditionalIncludeScanningRoots(
Collection<Artifact> additionalIncludeScanningRoots) {
this.additionalIncludeScanningRoots.addAll(additionalIncludeScanningRoots);
return this;
}
/**
* Create the C++ compile actions, and the corresponding compilation related providers.
*
* @throws RuleErrorException
*/
public CompilationInfo compile() throws RuleErrorException {
if (checkDepsGenerateCpp) {
for (LanguageDependentFragment dep :
AnalysisUtils.getProviders(deps, LanguageDependentFragment.class)) {
LanguageDependentFragment.Checker.depSupportsLanguage(
ruleContext, dep, CppRuleClasses.LANGUAGE, "deps");
}
}
ccCompilationContext = initializeCcCompilationContext();
boolean compileHeaderModules = featureConfiguration.isEnabled(CppRuleClasses.HEADER_MODULES);
Preconditions.checkState(
!compileHeaderModules || ccCompilationContext.getCppModuleMap() != null,
"All cc rules must support module maps.");
// Create compile actions (both PIC and no-PIC).
CcCompilationOutputs ccOutputs = createCcCompileActions();
if (!objectFiles.isEmpty() || !picObjectFiles.isEmpty()) {
// Merge the pre-compiled object files into the compiler outputs.
ccOutputs =
new CcCompilationOutputs.Builder()
.merge(ccOutputs)
.addObjectFiles(objectFiles)
.addPicObjectFiles(picObjectFiles)
.build();
}
DwoArtifactsCollector dwoArtifacts =
DwoArtifactsCollector.transitiveCollector(
ccOutputs,
deps,
/*generateDwo=*/ false,
/*ltoBackendArtifactsUsePic=*/ false,
/*ltoBackendArtifacts=*/ ImmutableList.of());
// Be very careful when adding new providers here - it can potentially affect a lot of rules.
// We should consider merging most of these providers into a single provider.
TransitiveInfoProviderMapBuilder providers =
new TransitiveInfoProviderMapBuilder()
.add(
new CppDebugFileProvider(
dwoArtifacts.getDwoArtifacts(), dwoArtifacts.getPicDwoArtifacts()),
collectTransitiveLipoInfo(ccOutputs));
CcCompilationInfo.Builder ccCompilationInfoBuilder = CcCompilationInfo.Builder.create();
ccCompilationInfoBuilder.setCcCompilationContext(ccCompilationContext);
providers.put(ccCompilationInfoBuilder.build());
Map<String, NestedSet<Artifact>> outputGroups = new TreeMap<>();
outputGroups.put(OutputGroupInfo.TEMP_FILES, getTemps(ccOutputs));
if (emitCompileProviders) {
boolean isLipoCollector = cppConfiguration.isLipoContextCollector();
boolean processHeadersInDependencies = cppConfiguration.processHeadersInDependencies();
boolean usePic = CppHelper.usePicForDynamicLibraries(ruleContext, ccToolchain);
outputGroups.put(
OutputGroupInfo.FILES_TO_COMPILE,
ccOutputs.getFilesToCompile(isLipoCollector, processHeadersInDependencies, usePic));
outputGroups.put(
OutputGroupInfo.COMPILATION_PREREQUISITES,
CcCommon.collectCompilationPrerequisites(ruleContext, ccCompilationContext));
}
return new CompilationInfo(providers.build(), outputGroups, ccOutputs);
}
@Immutable
private static class PublicHeaders {
private final ImmutableList<Artifact> headers;
private final ImmutableList<Artifact> moduleMapHeaders;
private final @Nullable PathFragment virtualIncludePath;
private PublicHeaders(
ImmutableList<Artifact> headers,
ImmutableList<Artifact> moduleMapHeaders,
PathFragment virtualIncludePath) {
this.headers = headers;
this.moduleMapHeaders = moduleMapHeaders;
this.virtualIncludePath = virtualIncludePath;
}
private ImmutableList<Artifact> getHeaders() {
return headers;
}
private ImmutableList<Artifact> getModuleMapHeaders() {
return moduleMapHeaders;
}
@Nullable
private PathFragment getVirtualIncludePath() {
return virtualIncludePath;
}
}
private PublicHeaders computePublicHeaders() {
if (!ruleContext.attributes().has("strip_include_prefix", Type.STRING)
|| !ruleContext.attributes().has("include_prefix", Type.STRING)) {
return new PublicHeaders(
ImmutableList.copyOf(Iterables.concat(publicHeaders, nonModuleMapHeaders)),
ImmutableList.copyOf(publicHeaders),
null);
}
PathFragment prefix = null;
if (ruleContext.attributes().isAttributeValueExplicitlySpecified("include_prefix")) {
String prefixAttr = ruleContext.attributes().get("include_prefix", Type.STRING);
prefix = PathFragment.create(prefixAttr);
if (PathFragment.containsUplevelReferences(prefixAttr)) {
ruleContext.attributeError("include_prefix", "should not contain uplevel references");
}
if (prefix.isAbsolute()) {
ruleContext.attributeError("include_prefix", "should be a relative path");
}
}
PathFragment stripPrefix;
if (ruleContext.attributes().isAttributeValueExplicitlySpecified("strip_include_prefix")) {
String stripPrefixAttr = ruleContext.attributes().get("strip_include_prefix", Type.STRING);
if (PathFragment.containsUplevelReferences(stripPrefixAttr)) {
ruleContext.attributeError("strip_include_prefix", "should not contain uplevel references");
}
stripPrefix = PathFragment.create(stripPrefixAttr);
if (stripPrefix.isAbsolute()) {
stripPrefix =
ruleContext
.getLabel()
.getPackageIdentifier()
.getRepository()
.getSourceRoot()
.getRelative(stripPrefix.toRelative());
} else {
stripPrefix = ruleContext.getPackageDirectory().getRelative(stripPrefix);
}
} else if (prefix != null) {
stripPrefix = ruleContext.getPackageDirectory();
} else {
stripPrefix = null;
}
if (stripPrefix == null && prefix == null) {
// Simple case, no magic needed
return new PublicHeaders(
ImmutableList.copyOf(Iterables.concat(publicHeaders, nonModuleMapHeaders)),
ImmutableList.copyOf(publicHeaders),
null);
}
if (ruleContext.hasErrors()) {
return new PublicHeaders(ImmutableList.<Artifact>of(), ImmutableList.<Artifact>of(), null);
}
ImmutableList.Builder<Artifact> moduleHeadersBuilder = ImmutableList.builder();
for (Artifact originalHeader : publicHeaders) {
if (!originalHeader.getRootRelativePath().startsWith(stripPrefix)) {
ruleContext.ruleError(
String.format(
"header '%s' is not under the specified strip prefix '%s'",
originalHeader.getExecPathString(), stripPrefix.getPathString()));
continue;
}
PathFragment includePath = originalHeader.getRootRelativePath().relativeTo(stripPrefix);
if (prefix != null) {
includePath = prefix.getRelative(includePath);
}
if (!originalHeader.getExecPath().equals(includePath)) {
Artifact virtualHeader =
ruleContext.getUniqueDirectoryArtifact(
"_virtual_includes", includePath, ruleContext.getBinOrGenfilesDirectory());
ruleContext.registerAction(
new SymlinkAction(
ruleContext.getActionOwner(),
originalHeader,
virtualHeader,
"Symlinking virtual headers for " + ruleContext.getLabel()));
moduleHeadersBuilder.add(virtualHeader);
} else {
moduleHeadersBuilder.add(originalHeader);
}
}
ImmutableList<Artifact> moduleMapHeaders = moduleHeadersBuilder.build();
ImmutableList<Artifact> virtualHeaders =
ImmutableList.<Artifact>builder()
.addAll(moduleMapHeaders)
.addAll(nonModuleMapHeaders)
.build();
return new PublicHeaders(
virtualHeaders,
moduleMapHeaders,
ruleContext
.getBinOrGenfilesDirectory()
.getExecPath()
.getRelative(ruleContext.getUniqueDirectory("_virtual_includes")));
}
/**
* Create {@code CcCompilationContext} for cc compile action from generated inputs.
*
* <p>TODO(plf): Try to pull out CcCompilationContext building out of this class.
*/
public CcCompilationContext initializeCcCompilationContext() {
CcCompilationContext.Builder ccCompilationContextBuilder =
new CcCompilationContext.Builder(ruleContext);
// Setup the include path; local include directories come before those inherited from deps or
// from the toolchain; in case of aliasing (same include file found on different entries),
// prefer the local include rather than the inherited one.
// Add in the roots for well-formed include names for source files and
// generated files. It is important that the execRoot (EMPTY_FRAGMENT) comes
// before the genfilesFragment to preferably pick up source files. Otherwise
// we might pick up stale generated files.
PathFragment repositoryPath =
ruleContext.getLabel().getPackageIdentifier().getRepository().getPathUnderExecRoot();
ccCompilationContextBuilder.addQuoteIncludeDir(repositoryPath);
ccCompilationContextBuilder.addQuoteIncludeDir(
ruleContext.getConfiguration().getGenfilesFragment().getRelative(repositoryPath));
for (PathFragment systemIncludeDir : systemIncludeDirs) {
ccCompilationContextBuilder.addSystemIncludeDir(systemIncludeDir);
}
for (PathFragment includeDir : includeDirs) {
ccCompilationContextBuilder.addIncludeDir(includeDir);
}
PublicHeaders publicHeaders = computePublicHeaders();
if (publicHeaders.getVirtualIncludePath() != null) {
ccCompilationContextBuilder.addIncludeDir(publicHeaders.getVirtualIncludePath());
}
if (useDeps) {
ccCompilationContextBuilder.mergeDependentCcCompilationContexts(
CcCompilationInfo.getCcCompilationContexts(deps));
ccCompilationContextBuilder.mergeDependentCcCompilationContexts(depCcCompilationContexts);
}
CppHelper.mergeToolchainDependentCcCompilationContext(
ruleContext, ccToolchain, ccCompilationContextBuilder);
// But defines come after those inherited from deps.
ccCompilationContextBuilder.addDefines(defines);
// There are no ordering constraints for declared include dirs/srcs, or the pregrepped headers.
ccCompilationContextBuilder.addDeclaredIncludeSrcs(publicHeaders.getHeaders());
ccCompilationContextBuilder.addDeclaredIncludeSrcs(publicTextualHeaders);
ccCompilationContextBuilder.addDeclaredIncludeSrcs(privateHeaders);
ccCompilationContextBuilder.addDeclaredIncludeSrcs(additionalInputs);
ccCompilationContextBuilder.addNonCodeInputs(additionalInputs);
ccCompilationContextBuilder.addModularHdrs(publicHeaders.getHeaders());
ccCompilationContextBuilder.addModularHdrs(privateHeaders);
ccCompilationContextBuilder.addTextualHdrs(publicTextualHeaders);
ccCompilationContextBuilder.addPregreppedHeaders(
CppHelper.createExtractInclusions(ruleContext, semantics, publicHeaders.getHeaders()));
ccCompilationContextBuilder.addPregreppedHeaders(
CppHelper.createExtractInclusions(ruleContext, semantics, publicTextualHeaders));
ccCompilationContextBuilder.addPregreppedHeaders(
CppHelper.createExtractInclusions(ruleContext, semantics, privateHeaders));
// Add this package's dir to declaredIncludeDirs, & this rule's headers to declaredIncludeSrcs
// Note: no include dir for STRICT mode.
if (headersCheckingMode == HeadersCheckingMode.WARN) {
ccCompilationContextBuilder.addDeclaredIncludeWarnDir(
ruleContext.getLabel().getPackageFragment());
for (PathFragment looseIncludeDir : looseIncludeDirs) {
ccCompilationContextBuilder.addDeclaredIncludeWarnDir(looseIncludeDir);
}
} else if (headersCheckingMode == HeadersCheckingMode.LOOSE) {
ccCompilationContextBuilder.addDeclaredIncludeDir(
ruleContext.getLabel().getPackageFragment());
for (PathFragment looseIncludeDir : looseIncludeDirs) {
ccCompilationContextBuilder.addDeclaredIncludeDir(looseIncludeDir);
}
}
if (featureConfiguration.isEnabled(CppRuleClasses.MODULE_MAPS)) {
if (cppModuleMap == null) {
cppModuleMap = CppHelper.createDefaultCppModuleMap(ruleContext, /*suffix=*/ "");
}
ccCompilationContextBuilder.setPropagateCppModuleMapAsActionInput(
propagateModuleMapToCompileAction);
ccCompilationContextBuilder.setCppModuleMap(cppModuleMap);
// There are different modes for module compilation:
// 1. We create the module map and compile the module so that libraries depending on us can
// use the resulting module artifacts in their compilation (compiled is true).
// 2. We create the module map so that libraries depending on us will include the headers
// textually (compiled is false).
boolean compiled =
featureConfiguration.isEnabled(CppRuleClasses.HEADER_MODULES)
|| featureConfiguration.isEnabled(CppRuleClasses.COMPILE_ALL_MODULES);
Iterable<CppModuleMap> dependentModuleMaps = collectModuleMaps();
if (generateModuleMap) {
Optional<Artifact> umbrellaHeader = cppModuleMap.getUmbrellaHeader();
if (umbrellaHeader.isPresent()) {
ruleContext.registerAction(
createUmbrellaHeaderAction(umbrellaHeader.get(), publicHeaders));
}
ruleContext.registerAction(
createModuleMapAction(cppModuleMap, publicHeaders, dependentModuleMaps, compiled));
}
if (getGeneratesPicHeaderModule()) {
ccCompilationContextBuilder.setPicHeaderModule(
getPicHeaderModule(cppModuleMap.getArtifact()));
}
if (getGeneratesNoPicHeaderModule()) {
ccCompilationContextBuilder.setHeaderModule(getHeaderModule(cppModuleMap.getArtifact()));
}
if (!compiled
&& featureConfiguration.isEnabled(CppRuleClasses.PARSE_HEADERS)
&& featureConfiguration.isEnabled(CppRuleClasses.USE_HEADER_MODULES)
&& cppConfiguration.getParseHeadersVerifiesModules()) {
// Here, we are creating a compiled module to verify that headers are self-contained and
// modules ready, but we don't use the corresponding module map or compiled file anywhere
// else.
CppModuleMap verificationMap =
CppHelper.createDefaultCppModuleMap(ruleContext, /*suffix=*/ ".verify");
ruleContext.registerAction(
createModuleMapAction(
verificationMap, publicHeaders, dependentModuleMaps, /*compiledModule=*/ true));
ccCompilationContextBuilder.setVerificationModuleMap(verificationMap);
}
}
ccCompilationContextBuilder.setPurpose(purpose);
semantics.setupCcCompilationContext(ruleContext, ccCompilationContextBuilder);
return ccCompilationContextBuilder.build();
}
/**
* Collects all preprocessed header files (*.h.processed) from dependencies and the current rule.
*/
public static NestedSet<Artifact> collectHeaderTokens(
RuleContext ruleContext, CcCompilationOutputs ccCompilationOutputs) {
NestedSetBuilder<Artifact> headerTokens = NestedSetBuilder.stableOrder();
for (OutputGroupInfo dep :
ruleContext.getPrerequisites("deps", Mode.TARGET, OutputGroupInfo.SKYLARK_CONSTRUCTOR)) {
headerTokens.addTransitive(dep.getOutputGroup(CcCompilationHelper.HIDDEN_HEADER_TOKENS));
}
if (ruleContext.getFragment(CppConfiguration.class).processHeadersInDependencies()) {
headerTokens.addAll(ccCompilationOutputs.getHeaderTokenFiles());
}
return headerTokens.build();
}
public void registerAdditionalModuleMap(CppModuleMap cppModuleMap) {
this.additionalCppModuleMaps.add(Preconditions.checkNotNull(cppModuleMap));
}
/** Don't generate a module map for this target if a custom module map is provided. */
public CcCompilationHelper doNotGenerateModuleMap() {
generateModuleMap = false;
return this;
}
/**
* Sets the purpose for the {@code CcCompilationContext}.
*
* @see CcCompilationContext.Builder#setPurpose
* @param purpose must be a string which is suitable for use as a filename. A single rule may have
* many middlemen with distinct purposes.
*/
public CcCompilationHelper setPurpose(@Nullable String purpose) {
this.purpose = purpose;
return this;
}
private UmbrellaHeaderAction createUmbrellaHeaderAction(
Artifact umbrellaHeader, PublicHeaders publicHeaders) {
return new UmbrellaHeaderAction(
ruleContext.getActionOwner(),
umbrellaHeader,
featureConfiguration.isEnabled(CppRuleClasses.ONLY_DOTH_HEADERS_IN_MODULE_MAPS)
? Iterables.filter(publicHeaders.getModuleMapHeaders(), CppFileTypes.MODULE_MAP_HEADER)
: publicHeaders.getModuleMapHeaders(),
additionalExportedHeaders);
}
private CppModuleMapAction createModuleMapAction(
CppModuleMap moduleMap,
PublicHeaders publicHeaders,
Iterable<CppModuleMap> dependentModuleMaps,
boolean compiledModule) {
return new CppModuleMapAction(
ruleContext.getActionOwner(),
moduleMap,
featureConfiguration.isEnabled(CppRuleClasses.EXCLUDE_PRIVATE_HEADERS_IN_MODULE_MAPS)
? ImmutableList.<Artifact>of()
: privateHeaders,
featureConfiguration.isEnabled(CppRuleClasses.ONLY_DOTH_HEADERS_IN_MODULE_MAPS)
? Iterables.filter(publicHeaders.getModuleMapHeaders(), CppFileTypes.MODULE_MAP_HEADER)
: publicHeaders.getModuleMapHeaders(),
dependentModuleMaps,
additionalExportedHeaders,
compiledModule,
featureConfiguration.isEnabled(CppRuleClasses.MODULE_MAP_HOME_CWD),
featureConfiguration.isEnabled(CppRuleClasses.GENERATE_SUBMODULES),
!featureConfiguration.isEnabled(CppRuleClasses.MODULE_MAP_WITHOUT_EXTERN_MODULE));
}
private Iterable<CppModuleMap> collectModuleMaps() {
// Cpp module maps may be null for some rules. We filter the nulls out at the end.
List<CppModuleMap> result =
deps.stream().map(CPP_DEPS_TO_MODULES).collect(toCollection(ArrayList::new));
if (ruleContext.getRule().getAttributeDefinition(":stl") != null) {
CcCompilationInfo stl =
ruleContext.getPrerequisite(":stl", Mode.TARGET, CcCompilationInfo.PROVIDER);
if (stl != null) {
result.add(stl.getCcCompilationContext().getCppModuleMap());
}
}
if (ccToolchain != null) {
result.add(ccToolchain.getCcCompilationContext().getCppModuleMap());
}
for (CppModuleMap additionalCppModuleMap : additionalCppModuleMaps) {
result.add(additionalCppModuleMap);
}
return Iterables.filter(result, Predicates.<CppModuleMap>notNull());
}
private TransitiveLipoInfoProvider collectTransitiveLipoInfo(CcCompilationOutputs outputs) {
if (fdoSupport.getFdoSupport().getFdoRoot() == null) {
return TransitiveLipoInfoProvider.EMPTY;
}
NestedSetBuilder<IncludeScannable> scannableBuilder = NestedSetBuilder.stableOrder();
// TODO(bazel-team): Only fetch the STL prerequisite in one place.
TransitiveInfoCollection stl = ruleContext.getPrerequisite(":stl", Mode.TARGET);
if (stl != null) {
TransitiveLipoInfoProvider provider = stl.getProvider(TransitiveLipoInfoProvider.class);
if (provider != null) {
scannableBuilder.addTransitive(provider.getTransitiveIncludeScannables());
}
}
for (TransitiveLipoInfoProvider dep :
AnalysisUtils.getProviders(deps, TransitiveLipoInfoProvider.class)) {
scannableBuilder.addTransitive(dep.getTransitiveIncludeScannables());
}
for (IncludeScannable scannable : outputs.getLipoScannables()) {
Preconditions.checkState(scannable.getIncludeScannerSources().size() == 1);
scannableBuilder.add(scannable);
}
return new TransitiveLipoInfoProvider(scannableBuilder.build());
}
private NestedSet<Artifact> getTemps(CcCompilationOutputs compilationOutputs) {
return cppConfiguration.isLipoContextCollector()
? NestedSetBuilder.<Artifact>emptySet(Order.STABLE_ORDER)
: compilationOutputs.getTemps();
}
/** @return whether this target needs to generate a pic header module. */
private boolean getGeneratesPicHeaderModule() {
return shouldProvideHeaderModules() && !fake && generatePicAction;
}
/** @return whether this target needs to generate a no-PIC header module. */
private boolean getGeneratesNoPicHeaderModule() {
return shouldProvideHeaderModules() && !fake && generateNoPicAction;
}
/** @return whether we want to provide header modules for the current target. */
private boolean shouldProvideHeaderModules() {
return featureConfiguration.isEnabled(CppRuleClasses.HEADER_MODULES)
&& !cppConfiguration.isLipoContextCollector();
}
/** @return the no-PIC header module artifact for the current target. */
private Artifact getHeaderModule(Artifact moduleMapArtifact) {
PathFragment objectDir = CppHelper.getObjDirectory(ruleContext.getLabel());
PathFragment outputName =
objectDir.getRelative(
cppConfiguration.shortenObjFilePath()
? moduleMapArtifact.getRootRelativePath().getBaseName()
: moduleMapArtifact.getRootRelativePath().getPathString());
return ruleContext.getRelatedArtifact(outputName, ".pcm");
}
/** @return the pic header module artifact for the current target. */
private Artifact getPicHeaderModule(Artifact moduleMapArtifact) {
PathFragment objectDir = CppHelper.getObjDirectory(ruleContext.getLabel());
PathFragment outputName =
objectDir.getRelative(
cppConfiguration.shortenObjFilePath()
? moduleMapArtifact.getRootRelativePath().getBaseName()
: moduleMapArtifact.getRootRelativePath().getPathString());
return ruleContext.getRelatedArtifact(outputName, ".pic.pcm");
}
/**
* Calculate the output names for object file paths from a set of source files.
*
* <p>The object file path is constructed in the following format:
* <bazel-bin>/<target_package_path>/_objs/<target_name>/<output_name>.<obj_extension>
* When there's no two source files having the same basename:
* <output_name> = <prefixDir>/<source_file_base_name>
* otherwise:
* <output_name> = <prefixDir>/N/<source_file_base_name>,
* N = the file’s order among the source files with the same basename, starts with 0
*
* <p>Examples: 1. Output names for ["lib1/foo.cc", "lib2/bar.cc"] are ["foo", "bar"]
* 2. Output names for ["foo.cc", "bar.cc", "foo.cpp", "lib/foo.cc"]
* are ["0/foo", "bar", "1/foo", "2/foo"]
*/
private ImmutableMap<Artifact, String> calculateOutputNameMap(
NestedSet<Artifact> sourceArtifacts, String prefixDir) {
ImmutableMap.Builder<Artifact, String> builder = ImmutableMap.builder();
HashMap<String, Integer> count = new LinkedHashMap<>();
HashMap<String, Integer> number = new LinkedHashMap<>();
for (Artifact source : sourceArtifacts) {
String outputName =
FileSystemUtils.removeExtension(source.getRootRelativePath()).getBaseName();
count.put(outputName.toLowerCase(),
count.getOrDefault(outputName.toLowerCase(), 0) + 1);
}
for (Artifact source : sourceArtifacts) {
String outputName =
FileSystemUtils.removeExtension(source.getRootRelativePath()).getBaseName();
if (count.getOrDefault(outputName.toLowerCase(), 0) > 1) {
int num = number.getOrDefault(outputName.toLowerCase(), 0);
number.put(outputName.toLowerCase(), num + 1);
outputName = num + "/" + outputName;
}
// If prefixDir is set, prepend it to the outputName
if (prefixDir != null) {
outputName = prefixDir + "/" + outputName;
}
builder.put(source, outputName);
}
return builder.build();
}
/**
* Calculate outputNameMap for different source types separately. Returns a merged outputNameMap
* for all artifacts.
*/
private ImmutableMap<Artifact, String> calculateOutputNameMapByType(
Set<CppSource> sources, String prefixDir) {
ImmutableMap.Builder<Artifact, String> builder = ImmutableMap.builder();
builder.putAll(
calculateOutputNameMap(
getSourceArtifactsByType(sources, CppSource.Type.SOURCE), prefixDir));
builder.putAll(
calculateOutputNameMap(
getSourceArtifactsByType(sources, CppSource.Type.HEADER), prefixDir));
// TODO(plf): Removing CLIF logic
builder.putAll(
calculateOutputNameMap(
getSourceArtifactsByType(sources, CppSource.Type.CLIF_INPUT_PROTO), prefixDir));
return builder.build();
}
private NestedSet<Artifact> getSourceArtifactsByType(
Set<CppSource> sources, CppSource.Type type) {
NestedSetBuilder<Artifact> result = NestedSetBuilder.stableOrder();
result.addAll(sources
.stream()
.filter(source -> source.getType().equals(type))
.map(CppSource::getSource)
.collect(Collectors.toList()));
return result.build();
}
/**
* Constructs the C++ compiler actions. It generally creates one action for every specified source
* file. It takes into account LIPO, fake-ness, coverage, and PIC, in addition to using the
* settings specified on the current object. This method should only be called once.
*/
private CcCompilationOutputs createCcCompileActions() throws RuleErrorException {
CcCompilationOutputs.Builder result = new CcCompilationOutputs.Builder();
Preconditions.checkNotNull(ccCompilationContext);
AnalysisEnvironment env = ruleContext.getAnalysisEnvironment();
if (shouldProvideHeaderModules()) {
Label moduleMapLabel =
Label.parseAbsoluteUnchecked(ccCompilationContext.getCppModuleMap().getName());
Collection<Artifact> modules =
createModuleAction(result, ccCompilationContext.getCppModuleMap());
if (featureConfiguration.isEnabled(CppRuleClasses.HEADER_MODULE_CODEGEN)) {
for (Artifact module : modules) {
// TODO(djasper): Investigate whether we need to use a label separate from that of the
// module map. It is used for per-file-copts.
createModuleCodegenAction(result, moduleMapLabel, module);
}
}
} else if (ccCompilationContext.getVerificationModuleMap() != null) {
Collection<Artifact> modules =
createModuleAction(result, ccCompilationContext.getVerificationModuleMap());
for (Artifact module : modules) {
result.addHeaderTokenFile(module);
}
}
ImmutableMap<Artifact, String> outputNameMap = null;
if (cppConfiguration.shortenObjFilePath()) {
String outputNamePrefixDir = null;
// purpose is only used by objc rules, it ends with either "_non_objc_arc" or "_objc_arc".
// Here we use it to distinguish arc and non-arc compilation.
if (purpose != null) {
outputNamePrefixDir = purpose.endsWith("_non_objc_arc") ? "non_arc" : "arc";
}
outputNameMap = calculateOutputNameMapByType(compilationUnitSources, outputNamePrefixDir);
}
for (CppSource source : compilationUnitSources) {
Artifact sourceArtifact = source.getSource();
Label sourceLabel = source.getLabel();
CppCompileActionBuilder builder = initializeCompileAction(sourceArtifact);
builder
.setSemantics(semantics)
.addMandatoryInputs(compilationMandatoryInputs)
.addAdditionalIncludeScanningRoots(additionalIncludeScanningRoots);
boolean bitcodeOutput =
featureConfiguration.isEnabled(CppRuleClasses.THIN_LTO)
&& CppFileTypes.LTO_SOURCE.matches(sourceArtifact.getFilename());
String outputName = cppConfiguration.shortenObjFilePath()
? outputNameMap.get(sourceArtifact)
: FileSystemUtils.removeExtension(sourceArtifact.getRootRelativePath()).getPathString();
if (!sourceArtifact.isTreeArtifact()) {
switch (source.getType()) {
case HEADER:
createHeaderAction(
sourceLabel, outputName, result, env, builder, isGenerateDotdFile(sourceArtifact));
break;
default:
createSourceAction(
sourceLabel,
outputName,
result,
env,
sourceArtifact,
builder,
// TODO(plf): Continue removing CLIF logic from C++. Follow up changes would include
// refactoring CppSource.Type and ArtifactCategory to be classes instead of enums
// that could be instantiated with arbitrary values.
source.getType() == CppSource.Type.CLIF_INPUT_PROTO
? ArtifactCategory.CLIF_OUTPUT_PROTO
: ArtifactCategory.OBJECT_FILE,
ccCompilationContext.getCppModuleMap(),
/* addObject= */ true,
isCodeCoverageEnabled(),
// The source action does not generate dwo when it has bitcode
// output (since it isn't generating a native object with debug
// info). In that case the LtoBackendAction will generate the dwo.
ccToolchain.shouldCreatePerObjectDebugInfo(featureConfiguration) && !bitcodeOutput,
isGenerateDotdFile(sourceArtifact));
break;
}
} else {
switch (source.getType()) {
case HEADER:
Artifact headerTokenFile =
createCompileActionTemplate(
env,
source,
outputName,
builder,
ImmutableList.of(
ArtifactCategory.GENERATED_HEADER, ArtifactCategory.PROCESSED_HEADER),
false);
result.addHeaderTokenFile(headerTokenFile);
break;
case SOURCE:
Artifact objectFile =
createCompileActionTemplate(
env,
source,
outputName,
builder,
ImmutableList.of(ArtifactCategory.OBJECT_FILE),
false);
result.addObjectFile(objectFile);
if (generatePicAction) {
Artifact picObjectFile =
createCompileActionTemplate(
env,
source,
outputName,
builder,
ImmutableList.of(ArtifactCategory.PIC_OBJECT_FILE),
true);
result.addPicObjectFile(picObjectFile);
}
break;
default:
throw new IllegalStateException(
"Encountered invalid source types when creating CppCompileActionTemplates");
}
}
}
return result.build();
}
private Artifact createCompileActionTemplate(
AnalysisEnvironment env,
CppSource source,
String outputName,
CppCompileActionBuilder builder,
Iterable<ArtifactCategory> outputCategories,
boolean usePic) {
SpecialArtifact sourceArtifact = (SpecialArtifact) source.getSource();
SpecialArtifact outputFiles =
CppHelper.getCompileOutputTreeArtifact(ruleContext, sourceArtifact, outputName, usePic);
// TODO(rduan): Dotd file output is not supported yet.
builder.setOutputs(outputFiles, /* dotdFile= */ null);
builder.setVariables(
setupCompileBuildVariables(
builder,
/* sourceLabel= */ null,
/* outputName= */ null,
usePic,
/* ccRelativeName= */ null,
/* autoFdoImportPath= */ null,
ccCompilationContext.getCppModuleMap(),
/* gcnoFile= */ null,
/* dwoFile= */ null,
/* ltoIndexingFile= */ null,
/* additionalBuildVariables= */ ImmutableMap.of()));
semantics.finalizeCompileActionBuilder(ruleContext, builder);
// Make sure this builder doesn't reference ruleContext outside of analysis phase.
CppCompileActionTemplate actionTemplate =
new CppCompileActionTemplate(
sourceArtifact,
outputFiles,
builder,
ccToolchain,
outputCategories,
ruleContext.getActionOwner());
env.registerAction(actionTemplate);
return outputFiles;
}
/**
* Return flags that were specified on the Blaze command line. Take the filetype of sourceFilename
* into account.
*/
public static ImmutableList<String> getCoptsFromOptions(
CppConfiguration config, String sourceFilename) {
ImmutableList.Builder<String> flagsBuilder = ImmutableList.builder();
flagsBuilder.addAll(config.getCopts());
if (CppFileTypes.C_SOURCE.matches(sourceFilename)) {
flagsBuilder.addAll(config.getCOptions());
}
if (CppFileTypes.CPP_SOURCE.matches(sourceFilename)
|| CppFileTypes.CPP_HEADER.matches(sourceFilename)
|| CppFileTypes.CPP_MODULE_MAP.matches(sourceFilename)
|| CppFileTypes.CLIF_INPUT_PROTO.matches(sourceFilename)) {
flagsBuilder.addAll(config.getCxxopts());
}
return flagsBuilder.build();
}
private CcToolchainVariables setupCompileBuildVariables(
CppCompileActionBuilder builder,
Label sourceLabel,
String outputName,
boolean usePic,
PathFragment ccRelativeName,
PathFragment autoFdoImportPath,
CppModuleMap cppModuleMap,
Artifact gcnoFile,
Artifact dwoFile,
Artifact ltoIndexingFile,
ImmutableMap<String, String> additionalBuildVariables) {
Artifact sourceFile = builder.getSourceFile();
ImmutableList.Builder<String> userCompileFlags = ImmutableList.builder();
userCompileFlags.addAll(getCoptsFromOptions(cppConfiguration, sourceFile.getExecPathString()));
userCompileFlags.addAll(copts);
if (sourceFile != null && sourceLabel != null) {
userCompileFlags.addAll(collectPerFileCopts(sourceFile, sourceLabel));
}
String dotdFileExecPath = null;
if (isGenerateDotdFile(builder.getSourceFile())) {
Preconditions.checkNotNull(builder.getDotdFile());
dotdFileExecPath = builder.getDotdFile().getSafeExecPath().getPathString();
}
ImmutableMap.Builder<String, String> allAdditionalBuildVariables = ImmutableMap.builder();
allAdditionalBuildVariables.putAll(additionalBuildVariables);
if (ccRelativeName != null) {
allAdditionalBuildVariables.putAll(
fdoSupport
.getFdoSupport()
.configureCompilation(
builder,
ruleContext,
ccRelativeName,
autoFdoImportPath,
PathFragment.create(outputName),
usePic,
featureConfiguration,
fdoSupport));
}
return CompileBuildVariables.setupVariablesOrReportRuleError(
ruleContext,
featureConfiguration,
ccToolchain,
sourceFile,
builder.getOutputFile(),
gcnoFile,
dwoFile,
ltoIndexingFile,
ImmutableList.of(),
userCompileFlags.build(),
cppModuleMap,
usePic,
builder.getRealOutputFilePath(),
CppHelper.getFdoBuildStamp(ruleContext, fdoSupport.getFdoSupport()),
dotdFileExecPath,
ImmutableList.copyOf(variablesExtensions),
allAdditionalBuildVariables.build(),
ccCompilationContext.getDirectModuleMaps(),
ccCompilationContext.getIncludeDirs(),
ccCompilationContext.getQuoteIncludeDirs(),
ccCompilationContext.getSystemIncludeDirs(),
ccCompilationContext.getDefines());
}
/**
* Returns a {@code CppCompileActionBuilder} with the common fields for a C++ compile action being
* initialized.
*/
private CppCompileActionBuilder initializeCompileAction(Artifact sourceArtifact) {
CppCompileActionBuilder builder = createCompileActionBuilder(sourceArtifact);
builder.setFeatureConfiguration(featureConfiguration);
return builder;
}
/**
* Creates a basic cpp compile action builder for source file. Configures options, crosstool
* inputs, output and dotd file names, {@code CcCompilationContext} and copts.
*/
private CppCompileActionBuilder createCompileActionBuilder(Artifact source) {
CppCompileActionBuilder builder =
new CppCompileActionBuilder(ruleContext, ccToolchain, configuration);
builder.setSourceFile(source);
builder.setCcCompilationContext(ccCompilationContext);
builder.setCoptsFilter(coptsFilter);
return builder;
}
private void createModuleCodegenAction(
CcCompilationOutputs.Builder result, Label sourceLabel, Artifact module)
throws RuleErrorException {
if (fake) {
// We can't currently foresee a situation where we'd want nocompile tests for module codegen.
// If we find one, support needs to be added here.
return;
}
String outputName =
cppConfiguration.shortenObjFilePath()
? module.getRootRelativePath().getBaseName()
: module.getRootRelativePath().getPathString();
// TODO(djasper): Make this less hacky after refactoring how the PIC/noPIC actions are created.
boolean pic = module.getFilename().contains(".pic.");
CppCompileActionBuilder builder = initializeCompileAction(module);
builder.setSemantics(semantics);
builder.setPicMode(pic);
builder.setOutputs(
ruleContext, ArtifactCategory.OBJECT_FILE, outputName, isGenerateDotdFile(module));
PathFragment ccRelativeName = module.getRootRelativePath();
String gcnoFileName =
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.COVERAGE_DATA_FILE, outputName);
// TODO(djasper): This is now duplicated. Refactor the various create..Action functions.
Artifact gcnoFile =
isCodeCoverageEnabled() && !CppHelper.isLipoOptimization(cppConfiguration, ccToolchain)
? CppHelper.getCompileOutputArtifact(ruleContext, gcnoFileName, configuration)
: null;
boolean generateDwo = ccToolchain.shouldCreatePerObjectDebugInfo(featureConfiguration);
Artifact dwoFile = generateDwo ? getDwoFile(builder.getOutputFile()) : null;
// TODO(tejohnson): Add support for ThinLTO if needed.
boolean bitcodeOutput =
featureConfiguration.isEnabled(CppRuleClasses.THIN_LTO)
&& CppFileTypes.LTO_SOURCE.matches(module.getFilename());
Preconditions.checkState(!bitcodeOutput);
builder.setVariables(
setupCompileBuildVariables(
builder,
sourceLabel,
outputName,
/* usePic= */ pic,
ccRelativeName,
module.getExecPath(),
ccCompilationContext.getCppModuleMap(),
gcnoFile,
dwoFile,
/* ltoIndexingFile= */ null,
/* additionalBuildVariables= */ ImmutableMap.of()));
builder.setGcnoFile(gcnoFile);
builder.setDwoFile(dwoFile);
semantics.finalizeCompileActionBuilder(ruleContext, builder);
CppCompileAction compileAction = builder.buildOrThrowRuleError(ruleContext);
AnalysisEnvironment env = ruleContext.getAnalysisEnvironment();
env.registerAction(compileAction);
Artifact objectFile = compileAction.getOutputFile();
if (pic) {
result.addPicObjectFile(objectFile);
} else {
result.addObjectFile(objectFile);
}
}
/** Returns true if Dotd file should be generated. */
private boolean isGenerateDotdFile(Artifact sourceArtifact) {
return CppFileTypes.headerDiscoveryRequired(sourceArtifact)
&& !featureConfiguration.isEnabled(CppRuleClasses.PARSE_SHOWINCLUDES);
}
private void createHeaderAction(
Label sourceLabel,
String outputName,
CcCompilationOutputs.Builder result,
AnalysisEnvironment env,
CppCompileActionBuilder builder,
boolean generateDotd)
throws RuleErrorException {
String outputNameBase =
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.GENERATED_HEADER, outputName);
builder
.setOutputs(ruleContext, ArtifactCategory.PROCESSED_HEADER, outputNameBase, generateDotd)
// If we generate pic actions, we prefer the header actions to use the pic artifacts.
.setPicMode(generatePicAction);
builder.setVariables(
setupCompileBuildVariables(
builder,
sourceLabel,
/* outputName= */ null,
generatePicAction,
/* ccRelativeName= */ null,
/* autoFdoImportPath= */ null,
ccCompilationContext.getCppModuleMap(),
/* gcnoFile= */ null,
/* dwoFile= */ null,
/* ltoIndexingFile= */ null,
/* additionalBuildVariables= */ ImmutableMap.of()));
semantics.finalizeCompileActionBuilder(ruleContext, builder);
CppCompileAction compileAction = builder.buildOrThrowRuleError(ruleContext);
env.registerAction(compileAction);
Artifact tokenFile = compileAction.getOutputFile();
result.addHeaderTokenFile(tokenFile);
}
private Collection<Artifact> createModuleAction(
CcCompilationOutputs.Builder result, CppModuleMap cppModuleMap) throws RuleErrorException {
AnalysisEnvironment env = ruleContext.getAnalysisEnvironment();
Artifact moduleMapArtifact = cppModuleMap.getArtifact();
CppCompileActionBuilder builder = initializeCompileAction(moduleMapArtifact);
builder.setSemantics(semantics);
// A header module compile action is just like a normal compile action, but:
// - the compiled source file is the module map
// - it creates a header module (.pcm file).
return createSourceAction(
Label.parseAbsoluteUnchecked(cppModuleMap.getName()),
// The header module(.pcm) is generated at most one file per target,
// so it's safe to remove module map's package path from its output name.
cppConfiguration.shortenObjFilePath()
? FileSystemUtils.removeExtension(moduleMapArtifact.getRootRelativePath())
.getBaseName()
: FileSystemUtils.removeExtension(moduleMapArtifact.getRootRelativePath())
.getPathString(),
result,
env,
moduleMapArtifact,
builder,
ArtifactCategory.CPP_MODULE,
cppModuleMap,
/* addObject= */ false,
/* enableCoverage= */ false,
/* generateDwo= */ false,
isGenerateDotdFile(moduleMapArtifact));
}
private Collection<Artifact> createSourceAction(
Label sourceLabel,
String outputName,
CcCompilationOutputs.Builder result,
AnalysisEnvironment env,
Artifact sourceArtifact,
CppCompileActionBuilder builder,
ArtifactCategory outputCategory,
CppModuleMap cppModuleMap,
boolean addObject,
boolean enableCoverage,
boolean generateDwo,
boolean generateDotd)
throws RuleErrorException {
ImmutableList.Builder<Artifact> directOutputs = new ImmutableList.Builder<>();
PathFragment ccRelativeName = sourceArtifact.getRootRelativePath();
if (CppHelper.isLipoOptimization(cppConfiguration, ccToolchain)) {
// TODO(bazel-team): we shouldn't be needing this, merging ccCompilationContext with the
// binary
// is a superset of necessary information.
LipoContextProvider lipoProvider =
Preconditions.checkNotNull(CppHelper.getLipoContextProvider(ruleContext), outputName);
builder.setCcCompilationContext(
CcCompilationContext.mergeForLipo(
lipoProvider.getLipoCcCompilationContext(), ccCompilationContext));
}
Preconditions.checkState(generatePicAction || generateNoPicAction);
if (fake) {
boolean usePic = !generateNoPicAction;
createFakeSourceAction(
sourceLabel,
outputName,
result,
env,
builder,
outputCategory,
addObject,
ccRelativeName,
sourceArtifact.getExecPath(),
usePic,
generateDotd);
} else {
boolean bitcodeOutput =
featureConfiguration.isEnabled(CppRuleClasses.THIN_LTO)
&& CppFileTypes.LTO_SOURCE.matches(sourceArtifact.getFilename());
// Create PIC compile actions (same as no-PIC, but use -fPIC and
// generate .pic.o, .pic.d, .pic.gcno instead of .o, .d, .gcno.)
if (generatePicAction) {
String picOutputBase =
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.PIC_FILE, outputName);
CppCompileActionBuilder picBuilder =
copyAsPicBuilder(builder, picOutputBase, outputCategory, generateDotd);
String gcnoFileName =
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.COVERAGE_DATA_FILE, picOutputBase);
Artifact gcnoFile =
enableCoverage
? CppHelper.getCompileOutputArtifact(ruleContext, gcnoFileName, configuration)
: null;
Artifact dwoFile = generateDwo ? getDwoFile(picBuilder.getOutputFile()) : null;
Artifact ltoIndexingFile =
bitcodeOutput ? getLtoIndexingFile(picBuilder.getOutputFile()) : null;
picBuilder.setVariables(
setupCompileBuildVariables(
picBuilder,
sourceLabel,
outputName,
/* usePic= */ true,
ccRelativeName,
sourceArtifact.getExecPath(),
ccCompilationContext.getCppModuleMap(),
gcnoFile,
dwoFile,
ltoIndexingFile,
/* additionalBuildVariables= */ ImmutableMap.of()));
result.addTemps(
createTempsActions(
sourceArtifact,
sourceLabel,
outputName,
picBuilder,
/* usePic= */ true,
/* generateDotd= */ generateDotd,
ccRelativeName));
picBuilder.setGcnoFile(gcnoFile);
picBuilder.setDwoFile(dwoFile);
picBuilder.setLtoIndexingFile(ltoIndexingFile);
semantics.finalizeCompileActionBuilder(ruleContext, picBuilder);
CppCompileAction picAction = picBuilder.buildOrThrowRuleError(ruleContext);
env.registerAction(picAction);
directOutputs.add(picAction.getOutputFile());
if (addObject) {
result.addPicObjectFile(picAction.getOutputFile());
if (bitcodeOutput) {
result.addLtoBitcodeFile(picAction.getOutputFile(), ltoIndexingFile);
}
}
if (dwoFile != null) {
// Host targets don't produce .dwo files.
result.addPicDwoFile(dwoFile);
}
if (cppConfiguration.isLipoContextCollector() && !generateNoPicAction) {
result.addLipoScannable(picAction);
}
}
if (generateNoPicAction) {
Artifact noPicOutputFile =
CppHelper.getCompileOutputArtifact(
ruleContext,
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, outputCategory, outputName),
configuration);
builder.setOutputs(ruleContext, outputCategory, outputName, generateDotd);
String gcnoFileName =
CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.COVERAGE_DATA_FILE, outputName);
// Create no-PIC compile actions
Artifact gcnoFile =
!CppHelper.isLipoOptimization(cppConfiguration, ccToolchain) && enableCoverage
? CppHelper.getCompileOutputArtifact(ruleContext, gcnoFileName, configuration)
: null;
Artifact noPicDwoFile = generateDwo ? getDwoFile(noPicOutputFile) : null;
Artifact ltoIndexingFile =
bitcodeOutput ? getLtoIndexingFile(builder.getOutputFile()) : null;
builder.setVariables(
setupCompileBuildVariables(
builder,
sourceLabel,
outputName,
/* usePic= */ false,
ccRelativeName,
sourceArtifact.getExecPath(),
cppModuleMap,
gcnoFile,
noPicDwoFile,
ltoIndexingFile,
/* additionalBuildVariables= */ ImmutableMap.of()));
result.addTemps(
createTempsActions(
sourceArtifact,
sourceLabel,
outputName,
builder,
/* usePic= */ false,
generateDotd,
ccRelativeName));
builder.setGcnoFile(gcnoFile);
builder.setDwoFile(noPicDwoFile);
builder.setLtoIndexingFile(ltoIndexingFile);
semantics.finalizeCompileActionBuilder(ruleContext, builder);
CppCompileAction compileAction = builder.buildOrThrowRuleError(ruleContext);
env.registerAction(compileAction);
Artifact objectFile = compileAction.getOutputFile();
directOutputs.add(objectFile);
if (addObject) {
result.addObjectFile(objectFile);
if (bitcodeOutput) {
result.addLtoBitcodeFile(objectFile, ltoIndexingFile);
}
}
if (noPicDwoFile != null) {
// Host targets don't produce .dwo files.
result.addDwoFile(noPicDwoFile);
}
if (cppConfiguration.isLipoContextCollector()) {
result.addLipoScannable(compileAction);
}
}
}
return directOutputs.build();
}
/**
* Creates cpp PIC compile action builder from the given builder by adding necessary copt and
* changing output and dotd file names.
*/
private CppCompileActionBuilder copyAsPicBuilder(
CppCompileActionBuilder builder,
String outputName,
ArtifactCategory outputCategory,
boolean generateDotd)
throws RuleErrorException {
CppCompileActionBuilder picBuilder = new CppCompileActionBuilder(builder);
picBuilder.setPicMode(true).setOutputs(ruleContext, outputCategory, outputName, generateDotd);
return picBuilder;
}
String getOutputNameBaseWith(String base, boolean usePic) throws RuleErrorException {
return usePic
? CppHelper.getArtifactNameForCategory(
ruleContext, ccToolchain, ArtifactCategory.PIC_FILE, base)
: base;
}
private void createFakeSourceAction(
Label sourceLabel,
String outputName,
CcCompilationOutputs.Builder result,
AnalysisEnvironment env,
CppCompileActionBuilder builder,
ArtifactCategory outputCategory,
boolean addObject,
PathFragment ccRelativeName,
PathFragment execPath,
boolean usePic,
boolean generateDotd)
throws RuleErrorException {
String outputNameBase = getOutputNameBaseWith(outputName, usePic);
String tempOutputName =
ruleContext
.getConfiguration()
.getBinFragment()
.getRelative(CppHelper.getObjDirectory(ruleContext.getLabel()))
.getRelative(
CppHelper.getArtifactNameForCategory(
ruleContext,
ccToolchain,
outputCategory,
getOutputNameBaseWith(outputName + ".temp", usePic)))
.getPathString();
builder
.setPicMode(usePic)
.setOutputs(ruleContext, outputCategory, outputNameBase, generateDotd)
.setTempOutputFile(PathFragment.create(tempOutputName));
builder.setVariables(
setupCompileBuildVariables(
builder,
sourceLabel,
outputName,
usePic,
ccRelativeName,
execPath,
ccCompilationContext.getCppModuleMap(),
/* gcnoFile= */ null,
/* dwoFile= */ null,
/* ltoIndexingFile= */ null,
/* additionalBuildVariables= */ ImmutableMap.of()));
semantics.finalizeCompileActionBuilder(ruleContext, builder);
CppCompileAction action = builder.buildOrThrowRuleError(ruleContext);
env.registerAction(action);
if (addObject) {
if (usePic) {
result.addPicObjectFile(action.getOutputFile());
} else {
result.addObjectFile(action.getOutputFile());
}
}
}
/** Returns true iff code coverage is enabled for the given target. */
private boolean isCodeCoverageEnabled() {
if (configuration.isCodeCoverageEnabled()) {
// If rule is matched by the instrumentation filter, enable instrumentation
if (InstrumentedFilesCollector.shouldIncludeLocalSources(ruleContext)) {
return true;
}
// At this point the rule itself is not matched by the instrumentation filter. However, we
// might still want to instrument C++ rules if one of the targets listed in "deps" is
// instrumented and, therefore, can supply header files that we would want to collect code
// coverage for. For example, think about cc_test rule that tests functionality defined in a
// header file that is supplied by the cc_library.
//
// Note that we only check direct prerequisites and not the transitive closure. This is done
// for two reasons:
// a) It is a good practice to declare libraries which you directly rely on. Including headers
// from a library hidden deep inside the transitive closure makes build dependencies less
// readable and can lead to unexpected breakage.
// b) Traversing the transitive closure for each C++ compile action would require more complex
// implementation (with caching results of this method) to avoid O(N^2) slowdown.
if (ruleContext.getRule().isAttrDefined("deps", BuildType.LABEL_LIST)) {
for (TransitiveInfoCollection dep : ruleContext.getPrerequisites("deps", Mode.TARGET)) {
CcCompilationInfo ccCompilationInfo = dep.get(CcCompilationInfo.PROVIDER);
if (ccCompilationInfo != null
&& ccCompilationInfo.getCcCompilationContext() != null
&& InstrumentedFilesCollector.shouldIncludeLocalSources(configuration, dep)) {
return true;
}
}
}
}
return false;
}
private ImmutableList<String> collectPerFileCopts(Artifact sourceFile, Label sourceLabel) {
return cppConfiguration
.getPerFileCopts()
.stream()
.filter(
perLabelOptions ->
(sourceLabel != null && perLabelOptions.isIncluded(sourceLabel))
|| perLabelOptions.isIncluded(sourceFile))
.map(PerLabelOptions::getOptions)
.flatMap(options -> options.stream())
.collect(ImmutableList.toImmutableList());
}
private Artifact getDwoFile(Artifact outputFile) {
return ruleContext.getRelatedArtifact(outputFile.getRootRelativePath(), ".dwo");
}
private Artifact getLtoIndexingFile(Artifact outputFile) {
String ext = Iterables.getOnlyElement(CppFileTypes.LTO_INDEXING_OBJECT_FILE.getExtensions());
return ruleContext.getRelatedArtifact(outputFile.getRootRelativePath(), ext);
}
/** Create the actions for "--save_temps". */
private ImmutableList<Artifact> createTempsActions(
Artifact source,
Label sourceLabel,
String outputName,
CppCompileActionBuilder builder,
boolean usePic,
boolean generateDotd,
PathFragment ccRelativeName)
throws RuleErrorException {
if (!cppConfiguration.getSaveTemps()) {
return ImmutableList.of();
}
String path = source.getFilename();
boolean isCFile = CppFileTypes.C_SOURCE.matches(path);
boolean isCppFile = CppFileTypes.CPP_SOURCE.matches(path);
if (!isCFile && !isCppFile) {
return ImmutableList.of();
}
ArtifactCategory category =
isCFile ? ArtifactCategory.PREPROCESSED_C_SOURCE : ArtifactCategory.PREPROCESSED_CPP_SOURCE;
String outputArtifactNameBase = getOutputNameBaseWith(outputName, usePic);
CppCompileActionBuilder dBuilder = new CppCompileActionBuilder(builder);
dBuilder.setOutputs(ruleContext, category, outputArtifactNameBase, generateDotd);
dBuilder.setVariables(
setupCompileBuildVariables(
dBuilder,
sourceLabel,
outputName,
usePic,
ccRelativeName,
source.getExecPath(),
ccCompilationContext.getCppModuleMap(),
/* gcnoFile= */ null,
/* dwoFile= */ null,
/* ltoIndexingFile= */ null,
ImmutableMap.of(
CompileBuildVariables.OUTPUT_PREPROCESS_FILE.getVariableName(),
dBuilder.getRealOutputFilePath().getSafePathString())));
semantics.finalizeCompileActionBuilder(ruleContext, dBuilder);
CppCompileAction dAction = dBuilder.buildOrThrowRuleError(ruleContext);
ruleContext.registerAction(dAction);
CppCompileActionBuilder sdBuilder = new CppCompileActionBuilder(builder);
sdBuilder.setOutputs(
ruleContext, ArtifactCategory.GENERATED_ASSEMBLY, outputArtifactNameBase, generateDotd);
sdBuilder.setVariables(
setupCompileBuildVariables(
sdBuilder,
sourceLabel,
outputName,
usePic,
ccRelativeName,
source.getExecPath(),
ccCompilationContext.getCppModuleMap(),
/* gcnoFile= */ null,
/* dwoFile= */ null,
/* ltoIndexingFile= */ null,
ImmutableMap.of(
CompileBuildVariables.OUTPUT_ASSEMBLY_FILE.getVariableName(),
sdBuilder.getRealOutputFilePath().getSafePathString())));
semantics.finalizeCompileActionBuilder(ruleContext, sdBuilder);
CppCompileAction sdAction = sdBuilder.buildOrThrowRuleError(ruleContext);
ruleContext.registerAction(sdAction);
return ImmutableList.of(dAction.getOutputFile(), sdAction.getOutputFile());
}
}