Esempio n. 1
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 /**
  * Create a GlobValue wrapping {@code matches}. {@code matches} must have order {@link
  * Order#STABLE_ORDER}.
  */
 public GlobValue(NestedSet<PathFragment> matches) {
   this.matches = Preconditions.checkNotNull(matches);
   Preconditions.checkState(
       matches.getOrder() == Order.STABLE_ORDER,
       "Only STABLE_ORDER is supported, but got %s",
       matches.getOrder());
 }
Esempio n. 2
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 // The precondition ensures generic type safety
 @SuppressWarnings("unchecked")
 public <T> NestedSet<T> getSet(Class<T> type) {
   // Empty sets don't need have to have a type since they don't have items
   if (set.isEmpty()) {
     return (NestedSet<T>) set;
   }
   Preconditions.checkArgument(
       contentType.canBeCastTo(type),
       String.format(
           "Expected a set of '%s' but got a set of '%s'",
           EvalUtils.getDataTypeNameFromClass(type), contentType));
   return (NestedSet<T>) set;
 }
Esempio n. 3
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  private void writeObject(ObjectOutputStream out) throws IOException {
    // It helps to flatten the transitiveSuccessfulPkgs nested set as it has lots of duplicates.
    Set<PackageIdentifier> successfulPkgs = transitiveSuccessfulPkgs.toSet();
    out.writeInt(successfulPkgs.size());
    for (PackageIdentifier pkg : successfulPkgs) {
      out.writeObject(pkg);
    }

    out.writeObject(transitiveUnsuccessfulPkgs);
    // Deliberately do not write out transitiveTargets. There is a lot of those and they drive
    // serialization costs through the roof, both in terms of space and of time.
    // TODO(bazel-team): Deal with this properly once we have efficient serialization of NestedSets.
    out.writeObject(transitiveRootCauses);
    out.writeObject(errorLoadingTarget);
    out.writeObject(transitiveConfigFragments);
  }
Esempio n. 4
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  @Override
  public ConfiguredTarget create(RuleContext ruleContext)
      throws RuleErrorException, InterruptedException {
    TransitiveInfoCollection lipoContextCollector =
        ruleContext.getPrerequisite(":lipo_context_collector", Mode.DONT_CHECK);
    if (lipoContextCollector != null
        && lipoContextCollector.getProvider(LipoContextProvider.class) == null) {
      ruleContext.ruleError("--lipo_context must point to a cc_binary or a cc_test rule");
      return null;
    }

    CppConfiguration cppConfiguration =
        Preconditions.checkNotNull(ruleContext.getFragment(CppConfiguration.class));
    Path fdoZip =
        ruleContext.getConfiguration().getCompilationMode() == CompilationMode.OPT
            ? cppConfiguration.getFdoZip()
            : null;
    SkyKey fdoKey =
        FdoSupportValue.key(
            cppConfiguration.getLipoMode(), fdoZip, cppConfiguration.getFdoInstrument());

    SkyFunction.Environment skyframeEnv = ruleContext.getAnalysisEnvironment().getSkyframeEnv();
    FdoSupportValue fdoSupport;
    try {
      fdoSupport =
          (FdoSupportValue)
              skyframeEnv.getValueOrThrow(fdoKey, FdoException.class, IOException.class);
    } catch (FdoException | IOException e) {
      ruleContext.ruleError("cannot initialize FDO: " + e.getMessage());
      return null;
    }

    if (skyframeEnv.valuesMissing()) {
      return null;
    }

    final Label label = ruleContext.getLabel();
    final NestedSet<Artifact> crosstool =
        ruleContext
            .getPrerequisite("all_files", Mode.HOST)
            .getProvider(FileProvider.class)
            .getFilesToBuild();
    final NestedSet<Artifact> crosstoolMiddleman = getFiles(ruleContext, "all_files");
    final NestedSet<Artifact> compile = getFiles(ruleContext, "compiler_files");
    final NestedSet<Artifact> strip = getFiles(ruleContext, "strip_files");
    final NestedSet<Artifact> objcopy = getFiles(ruleContext, "objcopy_files");
    final NestedSet<Artifact> link = getFiles(ruleContext, "linker_files");
    final NestedSet<Artifact> dwp = getFiles(ruleContext, "dwp_files");
    final NestedSet<Artifact> libcLink = inputsForLibc(ruleContext);
    String purposePrefix = Actions.escapeLabel(label) + "_";
    String runtimeSolibDirBase = "_solib_" + "_" + Actions.escapeLabel(label);
    final PathFragment runtimeSolibDir =
        ruleContext.getConfiguration().getBinFragment().getRelative(runtimeSolibDirBase);

    // Static runtime inputs.
    TransitiveInfoCollection staticRuntimeLibDep =
        selectDep(ruleContext, "static_runtime_libs", cppConfiguration.getStaticRuntimeLibsLabel());
    final NestedSet<Artifact> staticRuntimeLinkInputs;
    final Artifact staticRuntimeLinkMiddleman;
    if (cppConfiguration.supportsEmbeddedRuntimes()) {
      staticRuntimeLinkInputs =
          staticRuntimeLibDep.getProvider(FileProvider.class).getFilesToBuild();
    } else {
      staticRuntimeLinkInputs = NestedSetBuilder.emptySet(Order.STABLE_ORDER);
    }

    if (!staticRuntimeLinkInputs.isEmpty()) {
      NestedSet<Artifact> staticRuntimeLinkMiddlemanSet =
          CompilationHelper.getAggregatingMiddleman(
              ruleContext, purposePrefix + "static_runtime_link", staticRuntimeLibDep);
      staticRuntimeLinkMiddleman =
          staticRuntimeLinkMiddlemanSet.isEmpty()
              ? null
              : Iterables.getOnlyElement(staticRuntimeLinkMiddlemanSet);
    } else {
      staticRuntimeLinkMiddleman = null;
    }

    Preconditions.checkState(
        (staticRuntimeLinkMiddleman == null) == staticRuntimeLinkInputs.isEmpty());

    // Dynamic runtime inputs.
    TransitiveInfoCollection dynamicRuntimeLibDep =
        selectDep(
            ruleContext, "dynamic_runtime_libs", cppConfiguration.getDynamicRuntimeLibsLabel());
    final NestedSet<Artifact> dynamicRuntimeLinkInputs;
    final Artifact dynamicRuntimeLinkMiddleman;
    if (cppConfiguration.supportsEmbeddedRuntimes()) {
      NestedSetBuilder<Artifact> dynamicRuntimeLinkInputsBuilder = NestedSetBuilder.stableOrder();
      for (Artifact artifact :
          dynamicRuntimeLibDep.getProvider(FileProvider.class).getFilesToBuild()) {
        if (CppHelper.SHARED_LIBRARY_FILETYPES.matches(artifact.getFilename())) {
          dynamicRuntimeLinkInputsBuilder.add(
              SolibSymlinkAction.getCppRuntimeSymlink(
                  ruleContext, artifact, runtimeSolibDirBase, ruleContext.getConfiguration()));
        } else {
          dynamicRuntimeLinkInputsBuilder.add(artifact);
        }
      }
      dynamicRuntimeLinkInputs = dynamicRuntimeLinkInputsBuilder.build();
    } else {
      dynamicRuntimeLinkInputs = NestedSetBuilder.emptySet(Order.STABLE_ORDER);
    }

    if (!dynamicRuntimeLinkInputs.isEmpty()) {
      List<Artifact> dynamicRuntimeLinkMiddlemanSet =
          CppHelper.getAggregatingMiddlemanForCppRuntimes(
              ruleContext,
              purposePrefix + "dynamic_runtime_link",
              dynamicRuntimeLibDep,
              runtimeSolibDirBase,
              ruleContext.getConfiguration());
      dynamicRuntimeLinkMiddleman =
          dynamicRuntimeLinkMiddlemanSet.isEmpty()
              ? null
              : Iterables.getOnlyElement(dynamicRuntimeLinkMiddlemanSet);
    } else {
      dynamicRuntimeLinkMiddleman = null;
    }

    Preconditions.checkState(
        (dynamicRuntimeLinkMiddleman == null) == dynamicRuntimeLinkInputs.isEmpty());

    CppCompilationContext.Builder contextBuilder = new CppCompilationContext.Builder(ruleContext);
    CppModuleMap moduleMap = createCrosstoolModuleMap(ruleContext);
    if (moduleMap != null) {
      contextBuilder.setCppModuleMap(moduleMap);
    }
    final CppCompilationContext context = contextBuilder.build();
    boolean supportsParamFiles = ruleContext.attributes().get("supports_param_files", BOOLEAN);
    boolean supportsHeaderParsing =
        ruleContext.attributes().get("supports_header_parsing", BOOLEAN);

    NestedSetBuilder<Pair<String, String>> coverageEnvironment = NestedSetBuilder.compileOrder();

    coverageEnvironment.add(
        Pair.of("COVERAGE_GCOV_PATH", cppConfiguration.getGcovExecutable().getPathString()));
    if (cppConfiguration.getFdoInstrument() != null) {
      coverageEnvironment.add(
          Pair.of("FDO_DIR", cppConfiguration.getFdoInstrument().getPathString()));
    }

    CcToolchainProvider provider =
        new CcToolchainProvider(
            cppConfiguration,
            crosstool,
            fullInputsForCrosstool(ruleContext, crosstoolMiddleman),
            compile,
            strip,
            objcopy,
            fullInputsForLink(ruleContext, link),
            dwp,
            libcLink,
            staticRuntimeLinkInputs,
            staticRuntimeLinkMiddleman,
            dynamicRuntimeLinkInputs,
            dynamicRuntimeLinkMiddleman,
            runtimeSolibDir,
            context,
            supportsParamFiles,
            supportsHeaderParsing,
            getBuildVariables(ruleContext),
            getBuiltinIncludes(ruleContext),
            coverageEnvironment.build());
    RuleConfiguredTargetBuilder builder =
        new RuleConfiguredTargetBuilder(ruleContext)
            .add(CcToolchainProvider.class, provider)
            .add(FdoSupportProvider.class, new FdoSupportProvider(fdoSupport.getFdoSupport()))
            .setFilesToBuild(new NestedSetBuilder<Artifact>(Order.STABLE_ORDER).build())
            .add(RunfilesProvider.class, RunfilesProvider.simple(Runfiles.EMPTY));

    // If output_license is specified on the cc_toolchain rule, override the transitive licenses
    // with that one. This is necessary because cc_toolchain is used in the target configuration,
    // but it is sort-of-kind-of a tool, but various parts of it are linked into the output...
    // ...so we trust the judgment of the author of the cc_toolchain rule to figure out what
    // licenses should be propagated to C++ targets.
    License outputLicense = ruleContext.getRule().getToolOutputLicense(ruleContext.attributes());
    if (outputLicense != null && outputLicense != License.NO_LICENSE) {
      final NestedSet<TargetLicense> license =
          NestedSetBuilder.create(
              Order.STABLE_ORDER, new TargetLicense(ruleContext.getLabel(), outputLicense));
      LicensesProvider licensesProvider =
          new LicensesProvider() {
            @Override
            public NestedSet<TargetLicense> getTransitiveLicenses() {
              return license;
            }
          };

      builder.add(LicensesProvider.class, licensesProvider);
    }

    return builder.build();
  }
Esempio n. 5
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 public Order getOrder() {
   return set.getOrder();
 }
Esempio n. 6
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 public boolean isEmpty() {
   return set.isEmpty();
 }
Esempio n. 7
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 public Collection<Object> toCollection() {
   // Do not remove <Object>: workaround for Java 7 type inference.
   return ImmutableList.<Object>copyOf(set.toCollection());
 }
Esempio n. 8
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 // For some reason this cast is unsafe in Java
 @SuppressWarnings("unchecked")
 @Override
 public Iterator<Object> iterator() {
   return (Iterator<Object>) set.iterator();
 }
Esempio n. 9
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 public Set<?> expandedSet() {
   return set.toSet();
 }
Esempio n. 10
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 @Override
 public int hashCode() {
   return matches.shallowHashCode();
 }