getAttributes() {
return ruleClass.getAttributes();
}
/**
* Returns true if this rule has any attributes that are configurable.
*
* Note this is *not* the same as having attribute *types* that are configurable. For example,
* "deps" is configurable, in that one can write a rule that sets "deps" to a configuration
* dictionary. But if *this* rule's instance of "deps" doesn't do that, its instance
* of "deps" is not considered configurable.
*
*
In other words, this method signals which rules might have their attribute values
* influenced by the configuration.
*/
public boolean hasConfigurableAttributes() {
for (Attribute attribute : getAttributes()) {
if (AbstractAttributeMapper.isConfigurable(this, attribute.getName(), attribute.getType())) {
return true;
}
}
return false;
}
/**
* Returns true if the given attribute is configurable.
*/
public boolean isConfigurableAttribute(String attributeName) {
Attribute attribute = ruleClass.getAttributeByNameMaybe(attributeName);
return attribute != null
? AbstractAttributeMapper.isConfigurable(this, attributeName, attribute.getType())
: false;
}
/**
* Returns the attribute definition whose name is {@code attrName}, or null
* if not found. (Use get[X]Attr for the actual value.)
*
* @deprecated use {@link AbstractAttributeMapper#getAttributeDefinition} instead
*/
@Deprecated
public Attribute getAttributeDefinition(String attrName) {
return ruleClass.getAttributeByNameMaybe(attrName);
}
/**
* Returns an (unmodifiable, ordered) collection containing all the declared output files of this
* rule.
*
*
All implicit output files (declared in the {@link RuleClass}) are
* listed first, followed by any explicit files (declared via the 'outs' attribute). Additionally
* both implicit and explicit outputs will retain the relative order in which they were declared.
*
*
This ordering is useful because it is propagated through to the list of targets returned by
* getOuts() and allows targets to access their implicit outputs easily via
* {@code getOuts().get(N)} (providing that N is less than the number of implicit outputs).
*
*
The fact that the relative order of the explicit outputs is also retained is less obviously
* useful but is still well defined.
*/
public Collection getOutputFiles() {
return outputFiles;
}
/**
* Returns an (unmodifiable, ordered) map containing the list of output files for every
* output type attribute.
*/
public ListMultimap getOutputFileMap() {
return outputFileMap;
}
@Override
public Location getLocation() {
return location;
}
public ImplicitOutputsFunction getImplicitOutputsFunction() {
return implicitOutputsFunction;
}
@Override
public Rule getAssociatedRule() {
return this;
}
/**
* Returns this rule's raw attribute info, suitable for being fed into an
* {@link AttributeMap} for user-level attribute access. Don't use this method
* for direct attribute access.
*/
public AttributeContainer getAttributeContainer() {
return attributes;
}
/********************************************************************
* Attribute accessor functions.
*
* The below provide access to attribute definitions and other generic
* metadata.
*
* For access to attribute *values* (e.g. "What's the value of attribute
* X for Rule Y?"), go through {@link RuleContext#attributes}. If no
* RuleContext is available, create a localized {@link AbstractAttributeMapper}
* instance instead.
********************************************************************/
/**
* Returns the default value for the attribute {@code attrName}, which may be
* of any type, but must exist (an exception is thrown otherwise).
*/
public Object getAttrDefaultValue(String attrName) {
Object defaultValue = ruleClass.getAttributeByName(attrName).getDefaultValue(this);
// Computed defaults not expected here.
Preconditions.checkState(!(defaultValue instanceof Attribute.ComputedDefault));
return defaultValue;
}
/**
* Returns true iff the rule class has an attribute with the given name and type.
*
* Note: RuleContext also has isAttrDefined(), which takes Aspects into account. Whenever
* possible, use RuleContext.isAttrDefined() instead of this method.
*/
public boolean isAttrDefined(String attrName, Type> type) {
return ruleClass.hasAttr(attrName, type);
}
/**
* {@see #isAttributeValueExplicitlySpecified(String)}
*/
@Override
public boolean isAttributeValueExplicitlySpecified(Attribute attribute) {
return attributes.isAttributeValueExplicitlySpecified(attribute);
}
/**
* Returns true iff the value of the specified attribute is explicitly set in the BUILD file.
* This returns true also if the value explicity specified in the BUILD file is the same as the
* attribute's default value. In addition, this method return false if the rule has no attribute
* with the given name.
*/
public boolean isAttributeValueExplicitlySpecified(String attrName) {
return attributes.isAttributeValueExplicitlySpecified(attrName);
}
/**
* Returns the location of the attribute definition for this rule, if known;
* or the location of the whole rule otherwise. "attrName" need not be a
* valid attribute name for this rule.
*
*
This method ignores whether the present rule was created by a macro or not.
*/
public Location getAttributeLocationWithoutMacro(String attrName) {
return getAttributeLocation(attrName, /* useBuildLocation= */ false);
}
/**
* Returns the location of the attribute definition for this rule, if known;
* or the location of the whole rule otherwise. "attrName" need not be a
* valid attribute name for this rule.
*
*
If this rule was created by a macro, this method returns the
* location of the macro invocation in the BUILD file instead.
*/
public Location getAttributeLocation(String attrName) {
return getAttributeLocation(attrName, /* useBuildLocation= */ true);
}
private Location getAttributeLocation(String attrName, boolean useBuildLocation) {
/*
* If the rule was created by a macro, we have to deal with two locations: one in the BUILD
* file where the macro is invoked and one in the bzl file where the rule is created.
* For error reporting, we are usually more interested in the former one.
* Different methods in this class refer to different locations, though:
* - getLocation() points to the location of the macro invocation in the BUILD file (thanks to
* RuleFactory).
* - attributes.getAttributeLocation() points to the location in the bzl file.
*/
if (wasCreatedByMacro() && useBuildLocation) {
return getLocation();
}
Location attrLocation = null;
if (!attrName.equals("name")) {
attrLocation = attributes.getAttributeLocation(attrName);
}
return attrLocation != null ? attrLocation : getLocation();
}
/**
* Returns whether this rule was created by a macro.
*/
public boolean wasCreatedByMacro() {
return hasStringAttribute("generator_name") || hasStringAttribute("generator_function");
}
private boolean hasStringAttribute(String attrName) {
Object value = attributes.getAttr(attrName);
if (value != null && value instanceof String) {
return !((String) value).isEmpty();
}
return false;
}
/** Returns a new List instance containing all direct dependencies (all types). */
public Collection getLabels() throws InterruptedException {
final List labels = Lists.newArrayList();
AggregatingAttributeMapper.of(this).visitLabels(new AttributeMap.AcceptsLabelAttribute() {
@Override
public void acceptLabelAttribute(Label label, Attribute attribute) {
labels.add(label);
}
});
return labels;
}
/**
* Returns a new Collection containing all Labels that match a given Predicate, not including
* outputs.
*
* @param predicate A binary predicate that determines if a label should be included in the
* result. The predicate is evaluated with this rule and the attribute that contains the
* label. The label will be contained in the result iff (the predicate returned {@code true}
* and the labels are not outputs)
*/
public Collection getLabels(BinaryPredicate super Rule, Attribute> predicate)
throws InterruptedException {
return ImmutableSortedSet.copyOf(getTransitions(predicate).values());
}
/**
* Returns a new Multimap containing all attributes that match a given Predicate and corresponding
* labels, not including outputs.
*
* @param predicate A binary predicate that determines if a label should be included in the
* result. The predicate is evaluated with this rule and the attribute that contains the
* label. The label will be contained in the result iff (the predicate returned {@code true}
* and the labels are not outputs)
*/
public Multimap getTransitions(
final BinaryPredicate super Rule, Attribute> predicate) throws InterruptedException {
final Multimap transitions = HashMultimap.create();
// TODO(bazel-team): move this to AttributeMap, too. Just like visitLabels, which labels should
// be visited may depend on the calling context. We shouldn't implicitly decide this for
// the caller.
AggregatingAttributeMapper.of(this).visitLabels(new AttributeMap.AcceptsLabelAttribute() {
@Override
public void acceptLabelAttribute(Label label, Attribute attribute) {
if (predicate.apply(Rule.this, attribute)) {
transitions.put(attribute, label);
}
}
});
return transitions;
}
/**
* Check if this rule is valid according to the validityPredicate of its RuleClass.
*/
void checkValidityPredicate(EventHandler eventHandler) {
PredicateWithMessage predicate = getRuleClassObject().getValidityPredicate();
if (!predicate.apply(this)) {
reportError(predicate.getErrorReason(this), eventHandler);
}
}
/**
* Collects the output files (both implicit and explicit). All the implicit output files are added
* first, followed by any explicit files. Additionally both implicit and explicit output files
* will retain the relative order in which they were declared.
*/
void populateOutputFiles(EventHandler eventHandler, Package.Builder pkgBuilder)
throws LabelSyntaxException, InterruptedException {
populateOutputFilesInternal(eventHandler, pkgBuilder, /*performChecks=*/ true);
}
void populateOutputFilesUnchecked(EventHandler eventHandler, Package.Builder pkgBuilder)
throws InterruptedException {
try {
populateOutputFilesInternal(eventHandler, pkgBuilder, /*performChecks=*/ false);
} catch (LabelSyntaxException e) {
throw new IllegalStateException(e);
}
}
void populateOutputFilesInternal(
EventHandler eventHandler, Package.Builder pkgBuilder, boolean performChecks)
throws LabelSyntaxException, InterruptedException {
Preconditions.checkState(outputFiles == null);
// Order is important here: implicit before explicit
ImmutableList.Builder outputFilesBuilder = ImmutableList.builder();
ImmutableListMultimap.Builder outputFileMapBuilder =
ImmutableListMultimap.builder();
populateImplicitOutputFiles(eventHandler, pkgBuilder, outputFilesBuilder, performChecks);
populateExplicitOutputFiles(
eventHandler, outputFilesBuilder, outputFileMapBuilder, performChecks);
outputFiles = outputFilesBuilder.build();
outputFileMap = outputFileMapBuilder.build();
}
// Explicit output files are user-specified attributes of type OUTPUT.
private void populateExplicitOutputFiles(
EventHandler eventHandler,
ImmutableList.Builder outputFilesBuilder,
ImmutableListMultimap.Builder outputFileMapBuilder,
boolean performChecks)
throws LabelSyntaxException {
NonconfigurableAttributeMapper nonConfigurableAttributes =
NonconfigurableAttributeMapper.of(this);
for (Attribute attribute : ruleClass.getAttributes()) {
String name = attribute.getName();
Type> type = attribute.getType();
if (type == BuildType.OUTPUT) {
Label outputLabel = nonConfigurableAttributes.get(name, BuildType.OUTPUT);
if (outputLabel != null) {
addLabelOutput(
attribute,
outputLabel,
eventHandler,
outputFilesBuilder,
outputFileMapBuilder,
performChecks);
}
} else if (type == BuildType.OUTPUT_LIST) {
for (Label label : nonConfigurableAttributes.get(name, BuildType.OUTPUT_LIST)) {
addLabelOutput(
attribute,
label,
eventHandler,
outputFilesBuilder,
outputFileMapBuilder,
performChecks);
}
}
}
}
/**
* Implicit output files come from rule-specific patterns, and are a function of the rule's
* "name", "srcs", and other attributes.
*/
private void populateImplicitOutputFiles(
EventHandler eventHandler,
Package.Builder pkgBuilder,
ImmutableList.Builder outputFilesBuilder,
boolean performChecks)
throws InterruptedException {
try {
RawAttributeMapper attributeMap = RawAttributeMapper.of(this);
for (String out : implicitOutputsFunction.getImplicitOutputs(eventHandler, attributeMap)) {
Label label;
if (performChecks) {
try {
label = pkgBuilder.createLabel(out);
} catch (LabelSyntaxException e) {
reportError(
"illegal output file name '"
+ out
+ "' in rule "
+ getLabel()
+ " due to: "
+ e.getMessage(),
eventHandler);
continue;
}
} else {
label = Label.createUnvalidated(pkgBuilder.getPackageIdentifier(), out);
}
addOutputFile(label, eventHandler, outputFilesBuilder);
}
} catch (EvalException e) {
reportError(String.format("In rule %s: %s", getLabel(), e.print()), eventHandler);
}
}
private void addLabelOutput(
Attribute attribute,
Label label,
EventHandler eventHandler,
ImmutableList.Builder outputFilesBuilder,
ImmutableListMultimap.Builder outputFileMapBuilder,
boolean performChecks)
throws LabelSyntaxException {
if (performChecks) {
if (!label.getPackageIdentifier().equals(pkg.getPackageIdentifier())) {
throw new IllegalStateException("Label for attribute " + attribute
+ " should refer to '" + pkg.getName()
+ "' but instead refers to '" + label.getPackageFragment()
+ "' (label '" + label.getName() + "')");
}
if (label.getName().equals(".")) {
throw new LabelSyntaxException("output file name can't be equal '.'");
}
}
OutputFile outputFile = addOutputFile(label, eventHandler, outputFilesBuilder);
outputFileMapBuilder.put(attribute.getName(), outputFile);
}
private OutputFile addOutputFile(
Label label,
EventHandler eventHandler,
ImmutableList.Builder outputFilesBuilder) {
if (label.getName().equals(getName())) {
// TODO(bazel-team): for now (23 Apr 2008) this is just a warning. After
// June 1st we should make it an error.
reportWarning("target '" + getName() + "' is both a rule and a file; please choose "
+ "another name for the rule", eventHandler);
}
OutputFile outputFile = new OutputFile(pkg, label, ruleClass.getOutputFileKind(), this);
outputFilesBuilder.add(outputFile);
return outputFile;
}
void reportError(String message, EventHandler eventHandler) {
eventHandler.handle(Event.error(location, message));
this.containsErrors = true;
}
void reportWarning(String message, EventHandler eventHandler) {
eventHandler.handle(Event.warn(location, message));
}
/**
* Returns a string of the form "cc_binary rule //foo:foo"
*
* @return a string of the form "cc_binary rule //foo:foo"
*/
@Override
public String toString() {
return getRuleClass() + " rule " + getLabel();
}
/**
* Returns the effective visibility of this Rule. Visibility is computed from
* these sources in this order of preference:
* - 'visibility' attribute
* - 'default_visibility;' attribute of package() declaration
* - public.
*/
@Override
public RuleVisibility getVisibility() {
if (visibility != null) {
return visibility;
}
if (getRuleClassObject().isPublicByDefault()) {
return ConstantRuleVisibility.PUBLIC;
}
return pkg.getDefaultVisibility();
}
public boolean isVisibilitySpecified() {
return visibility != null;
}
@Override
public boolean isConfigurable() {
return true;
}
@Override
@SuppressWarnings("unchecked")
public Set getDistributions() {
if (isAttrDefined("distribs", BuildType.DISTRIBUTIONS)
&& isAttributeValueExplicitlySpecified("distribs")) {
return NonconfigurableAttributeMapper.of(this).get("distribs", BuildType.DISTRIBUTIONS);
} else {
return getPackage().getDefaultDistribs();
}
}
@Override
public License getLicense() {
if (isAttrDefined("licenses", BuildType.LICENSE)
&& isAttributeValueExplicitlySpecified("licenses")) {
return NonconfigurableAttributeMapper.of(this).get("licenses", BuildType.LICENSE);
} else {
return getPackage().getDefaultLicense();
}
}
/**
* Returns the license of the output of the binary created by this rule, or
* null if it is not specified.
*/
public License getToolOutputLicense(AttributeMap attributes) {
if (isAttrDefined("output_licenses", BuildType.LICENSE)
&& attributes.isAttributeValueExplicitlySpecified("output_licenses")) {
return attributes.get("output_licenses", BuildType.LICENSE);
} else {
return null;
}
}
private void checkForNullLabel(Label labelToCheck, Object context) {
if (labelToCheck == null) {
throw new IllegalStateException(String.format(
"null label in rule %s, %s", getLabel().toString(), context));
}
}
// Consistency check: check if this label contains any weird labels (i.e.
// null-valued, with a packageFragment that is null...). The bug that prompted
// the introduction of this code is #2210848 (NullPointerException in
// Package.checkForConflicts() ).
void checkForNullLabels() throws InterruptedException {
AggregatingAttributeMapper.of(this).visitLabels(
new AttributeMap.AcceptsLabelAttribute() {
@Override
public void acceptLabelAttribute(Label labelToCheck, Attribute attribute) {
checkForNullLabel(labelToCheck, attribute);
}
});
for (OutputFile outputFile : getOutputFiles()) {
checkForNullLabel(outputFile.getLabel(), "output file");
}
}
/**
* Returns the Set of all tags exhibited by this target. May be empty.
*/
public Set getRuleTags() {
Set ruleTags = new LinkedHashSet<>();
for (Attribute attribute : getRuleClassObject().getAttributes()) {
if (attribute.isTaggable()) {
Type> attrType = attribute.getType();
String name = attribute.getName();
// This enforces the expectation that taggable attributes are non-configurable.
Object value = NonconfigurableAttributeMapper.of(this).get(name, attrType);
Set tags = attrType.toTagSet(value, name);
ruleTags.addAll(tags);
}
}
return ruleTags;
}
/**
* Computes labels of additional dependencies that can be provided by aspects that this rule
* can require from its direct dependencies.
*/
public Collection extends Label> getAspectLabelsSuperset(DependencyFilter predicate) {
SetMultimap labels = LinkedHashMultimap.create();
for (Attribute attribute : this.getAttributes()) {
for (Aspect candidateClass : attribute.getAspects(this)) {
AspectDefinition.addAllAttributesOfAspect(Rule.this, labels, candidateClass, predicate);
}
}
return labels.values();
}
/**
* @return The repository name.
*/
public RepositoryName getRepository() {
return RepositoryName.createFromValidStrippedName(pkg.getWorkspaceName());
}
/** Returns the suffix of target kind for all rules. */
public static String targetKindSuffix() {
return " rule";
}
}