// 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;
import static com.google.devtools.build.lib.analysis.BaseRuleClasses.RUN_UNDER;
import static com.google.devtools.build.lib.packages.Attribute.ConfigurationTransition.DATA;
import static com.google.devtools.build.lib.packages.Attribute.ConfigurationTransition.HOST;
import static com.google.devtools.build.lib.packages.Attribute.attr;
import static com.google.devtools.build.lib.packages.BuildType.LABEL;
import static com.google.devtools.build.lib.packages.BuildType.LABEL_LIST;
import static com.google.devtools.build.lib.packages.BuildType.LICENSE;
import static com.google.devtools.build.lib.syntax.SkylarkType.castMap;
import static com.google.devtools.build.lib.syntax.Type.BOOLEAN;
import static com.google.devtools.build.lib.syntax.Type.INTEGER;
import static com.google.devtools.build.lib.syntax.Type.STRING;
import static com.google.devtools.build.lib.syntax.Type.STRING_LIST;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.cache.CacheBuilder;
import com.google.common.cache.CacheLoader;
import com.google.common.cache.LoadingCache;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.analysis.ActionsProvider;
import com.google.devtools.build.lib.analysis.BaseRuleClasses;
import com.google.devtools.build.lib.analysis.DefaultProvider;
import com.google.devtools.build.lib.analysis.OutputGroupProvider;
import com.google.devtools.build.lib.analysis.TransitiveInfoCollection;
import com.google.devtools.build.lib.cmdline.Label;
import com.google.devtools.build.lib.cmdline.LabelSyntaxException;
import com.google.devtools.build.lib.cmdline.LabelValidator;
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.events.Location;
import com.google.devtools.build.lib.packages.Attribute;
import com.google.devtools.build.lib.packages.AttributeMap;
import com.google.devtools.build.lib.packages.AttributeValueSource;
import com.google.devtools.build.lib.packages.ClassObjectConstructor;
import com.google.devtools.build.lib.packages.ImplicitOutputsFunction.SkylarkImplicitOutputsFunctionWithCallback;
import com.google.devtools.build.lib.packages.ImplicitOutputsFunction.SkylarkImplicitOutputsFunctionWithMap;
import com.google.devtools.build.lib.packages.NativeClassObjectConstructor;
import com.google.devtools.build.lib.packages.Package.NameConflictException;
import com.google.devtools.build.lib.packages.PackageFactory;
import com.google.devtools.build.lib.packages.PackageFactory.PackageContext;
import com.google.devtools.build.lib.packages.PredicateWithMessage;
import com.google.devtools.build.lib.packages.RuleClass;
import com.google.devtools.build.lib.packages.RuleClass.Builder;
import com.google.devtools.build.lib.packages.RuleClass.Builder.RuleClassType;
import com.google.devtools.build.lib.packages.RuleFactory;
import com.google.devtools.build.lib.packages.RuleFactory.BuildLangTypedAttributeValuesMap;
import com.google.devtools.build.lib.packages.RuleFactory.InvalidRuleException;
import com.google.devtools.build.lib.packages.SkylarkAspect;
import com.google.devtools.build.lib.packages.SkylarkClassObject;
import com.google.devtools.build.lib.packages.SkylarkClassObjectConstructor;
import com.google.devtools.build.lib.packages.SkylarkExportable;
import com.google.devtools.build.lib.packages.TargetUtils;
import com.google.devtools.build.lib.packages.TestSize;
import com.google.devtools.build.lib.rules.SkylarkAttr.Descriptor;
import com.google.devtools.build.lib.skylarkinterface.Param;
import com.google.devtools.build.lib.skylarkinterface.SkylarkSignature;
import com.google.devtools.build.lib.syntax.BaseFunction;
import com.google.devtools.build.lib.syntax.BuiltinFunction;
import com.google.devtools.build.lib.syntax.ClassObject;
import com.google.devtools.build.lib.syntax.Environment;
import com.google.devtools.build.lib.syntax.EvalException;
import com.google.devtools.build.lib.syntax.EvalUtils;
import com.google.devtools.build.lib.syntax.FuncallExpression;
import com.google.devtools.build.lib.syntax.FunctionSignature;
import com.google.devtools.build.lib.syntax.Runtime;
import com.google.devtools.build.lib.syntax.SkylarkCallbackFunction;
import com.google.devtools.build.lib.syntax.SkylarkDict;
import com.google.devtools.build.lib.syntax.SkylarkList;
import com.google.devtools.build.lib.syntax.SkylarkNestedSet;
import com.google.devtools.build.lib.syntax.SkylarkSignatureProcessor;
import com.google.devtools.build.lib.syntax.SkylarkUtils;
import com.google.devtools.build.lib.syntax.Type;
import com.google.devtools.build.lib.syntax.Type.ConversionException;
import com.google.devtools.build.lib.util.Pair;
import com.google.devtools.build.lib.util.Preconditions;
import com.google.protobuf.TextFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.concurrent.ExecutionException;
/**
* A helper class to provide an easier API for Skylark rule definitions.
*/
public class SkylarkRuleClassFunctions {
// TODO(bazel-team): Copied from ConfiguredRuleClassProvider for the transition from built-in
// rules to skylark extensions. Using the same instance would require a large refactoring.
// If we don't want to support old built-in rules and Skylark simultaneously
// (except for transition phase) it's probably OK.
private static final LoadingCache<String, Label> labelCache =
CacheBuilder.newBuilder().build(new CacheLoader<String, Label>() {
@Override
public Label load(String from) throws Exception {
try {
return Label.parseAbsolute(from, false);
} catch (LabelSyntaxException e) {
throw new Exception(from);
}
}
});
// TODO(bazel-team): Remove the code duplication (BaseRuleClasses and this class).
/** Parent rule class for non-executable non-test Skylark rules. */
public static final RuleClass baseRule =
BaseRuleClasses.commonCoreAndSkylarkAttributes(
BaseRuleClasses.nameAttribute(
new RuleClass.Builder("$base_rule", RuleClassType.ABSTRACT, true))
.add(attr("expect_failure", STRING)))
.build();
/** Parent rule class for executable non-test Skylark rules. */
public static final RuleClass binaryBaseRule =
new RuleClass.Builder("$binary_base_rule", RuleClassType.ABSTRACT, true, baseRule)
.add(attr("args", STRING_LIST))
.add(attr("output_licenses", LICENSE))
.build();
/** Parent rule class for test Skylark rules. */
public static final RuleClass getTestBaseRule(String toolsRepository) {
return new RuleClass.Builder("$test_base_rule", RuleClassType.ABSTRACT, true, baseRule)
.add(attr("size", STRING).value("medium").taggable()
.nonconfigurable("used in loading phase rule validation logic"))
.add(attr("timeout", STRING).taggable()
.nonconfigurable("used in loading phase rule validation logic").value(
new Attribute.ComputedDefault() {
@Override
public Object getDefault(AttributeMap rule) {
TestSize size = TestSize.getTestSize(rule.get("size", Type.STRING));
if (size != null) {
String timeout = size.getDefaultTimeout().toString();
if (timeout != null) {
return timeout;
}
}
return "illegal";
}
}))
.add(attr("flaky", BOOLEAN).value(false).taggable()
.nonconfigurable("taggable - called in Rule.getRuleTags"))
.add(attr("shard_count", INTEGER).value(-1))
.add(attr("local", BOOLEAN).value(false).taggable()
.nonconfigurable("policy decision: this should be consistent across configurations"))
.add(attr("args", STRING_LIST))
// Input files for every test action
.add(attr("$test_runtime", LABEL_LIST).cfg(HOST).value(ImmutableList.of(
labelCache.getUnchecked(toolsRepository + "//tools/test:runtime"))))
// Input files for test actions collecting code coverage
.add(attr("$coverage_support", LABEL)
.cfg(HOST)
.value(labelCache.getUnchecked("//tools/defaults:coverage_support")))
// Used in the one-per-build coverage report generation action.
.add(attr("$coverage_report_generator", LABEL)
.cfg(HOST)
.value(labelCache.getUnchecked("//tools/defaults:coverage_report_generator"))
.singleArtifact())
.add(attr(":run_under", LABEL).cfg(DATA).value(RUN_UNDER))
.build();
}
@SkylarkSignature(
name = "struct",
returnType = SkylarkClassObject.class,
doc =
"Creates an immutable struct using the keyword arguments as attributes. It is used to "
+ "group multiple values together. Example:<br>"
+ "<pre class=\"language-python\">s = struct(x = 2, y = 3)\n"
+ "return s.x + getattr(s, \"y\") # returns 5</pre>",
extraKeywords = @Param(name = "kwargs", doc = "the struct attributes."),
useLocation = true
)
private static final ClassObjectConstructor struct = NativeClassObjectConstructor.STRUCT;
@SkylarkSignature(
name = "DefaultInfo",
returnType = ClassObjectConstructor.class,
doc =
"A provider that is provided by every rule, even if it is not returned explicitly. "
+ "A <code>DefaultInfo</code> accepts the following parameters:"
+ "<ul>"
+ "<li><code>files</code></li>"
+ "<li><code>runfiles</code></li>"
+ "<li><code>data_runfiles</code></li>"
+ "<li><code>default_runfiles</code></li>"
+ "</ul>"
+ "Each instance of the default provider contains the following standard "
+ "fields: "
+ "<ul>"
+ "<li><code>files</code></li>"
+ "<li><code>files_to_run</code></li>"
+ "<li><code>data_runfiles</code></li>"
+ "<li><code>default_runfiles</code></li>"
+ "</ul>"
)
private static final ClassObjectConstructor defaultInfo = DefaultProvider.SKYLARK_CONSTRUCTOR;
@SkylarkSignature(
name = "OutputGroupInfo",
returnType = ClassObjectConstructor.class,
doc =
"Provides information about output groups the rule provides.<br>"
+ "Instantiate this provider with <br>"
+ "<pre class=language-python>"
+ "OutputGroupInfo(group1 = <files>, group2 = <files>...)</pre>"
+ "See <a href=\"../rules.html#output-groups\">Output Groups</a> for more information"
)
private static final ClassObjectConstructor outputGroupInfo =
OutputGroupProvider.SKYLARK_CONSTRUCTOR;
// TODO(bazel-team): Move to a "testing" namespace module. Normally we'd pass an objectType
// to @SkylarkSignature to do this, but that doesn't work here because we're exposing an already-
// configured BaseFunction, rather than defining a new BuiltinFunction. This should wait for
// better support from the Skylark/Java interface, or perhaps support for first-class modules.
@SkylarkSignature(name = "Actions", returnType = SkylarkClassObjectConstructor.class, doc =
"<i>(Note: This is a provider type. Don't instantiate it yourself; use it to retrieve a "
+ "provider object from a <a href=\"Target.html\">Target</a>.)</i>"
+ "<br/><br/>"
+ "Provides access to the <a href=\"Action.html\">actions</a> generated by a rule. There "
+ "is one field, <code>by_file</code>, which is a dictionary from an output of the rule "
+ "to its corresponding generating action. "
+ "<br/><br/>"
+ "This is designed for testing rules, and should not be accessed outside of test logic. "
+ "This provider is only available for targets generated by rules that have "
+ "<a href=\"globals.html#rule._skylark_testable\">_skylark_testable</a> set to "
+ "<code>True</code>."
)
private static final ClassObjectConstructor actions = ActionsProvider.SKYLARK_CONSTRUCTOR;
@SkylarkSignature(
name = "provider",
returnType = ClassObjectConstructor.class,
doc =
"Creates a declared provider 'constructor'. The return value of this "
+ "function can be used to create \"struct-like\" values. Example:<br>"
+ "<pre class=\"language-python\">data = provider()\n"
+ "d = data(x = 2, y = 3)\n"
+ "print(d.x + d.y) # prints 5</pre>",
useLocation = true
)
private static final BuiltinFunction provider =
new BuiltinFunction("provider") {
public ClassObjectConstructor invoke(Location location) {
return new SkylarkClassObjectConstructor(
"<no name>", // name is set on export.
location);
}
};
// TODO(bazel-team): implement attribute copy and other rule properties
@SkylarkSignature(
name = "rule",
doc =
"Creates a new rule. Store it in a global value, so that it can be loaded and called "
+ "from BUILD files.",
returnType = BaseFunction.class,
parameters = {
@Param(
name = "implementation",
type = BaseFunction.class,
doc =
"the function implementing this rule, must have exactly one parameter: "
+ "<a href=\"ctx.html\">ctx</a>. The function is called during the analysis "
+ "phase for each instance of the rule. It can access the attributes "
+ "provided by the user. It must create actions to generate all the declared "
+ "outputs."
),
@Param(
name = "test",
type = Boolean.class,
defaultValue = "False",
doc =
"Whether this rule is a test rule. "
+ "If True, the rule must end with <code>_test</code> (otherwise it must "
+ "not), and there must be an action that generates "
+ "<code>ctx.outputs.executable</code>."
),
@Param(
name = "attrs",
type = SkylarkDict.class,
noneable = true,
defaultValue = "None",
doc =
"dictionary to declare all the attributes of the rule. It maps from an attribute "
+ "name to an attribute object (see <a href=\"attr.html\">attr</a> module). "
+ "Attributes starting with <code>_</code> are private, and can be used to "
+ "add an implicit dependency on a label. The attribute <code>name</code> is "
+ "implicitly added and must not be specified. Attributes "
+ "<code>visibility</code>, <code>deprecation</code>, <code>tags</code>, "
+ "<code>testonly</code>, and <code>features</code> are implicitly added and "
+ "cannot be overriden."
),
// TODO(bazel-team): need to give the types of these builtin attributes
@Param(
name = "outputs",
type = SkylarkDict.class,
callbackEnabled = true,
noneable = true,
defaultValue = "None",
doc =
"outputs of this rule. "
+ "It is a dictionary mapping from string to a template name. "
+ "For example: <code>{\"ext\": \"%{name}.ext\"}</code>. <br>"
+ "The dictionary key becomes an attribute in <code>ctx.outputs</code>. "
+ "Similar to computed dependency rule attributes, you can also specify the "
+ "name of a function that returns the dictionary. This function can access "
+ "all rule attributes that are listed as parameters in its function "
+ "signature. For example, <code>outputs = _my_func</code> with "
+ "<code>def _my_func(srcs, deps):</code> has access to the attributes "
+ "'srcs' and 'deps' (if defined)."
),
@Param(
name = "executable",
type = Boolean.class,
defaultValue = "False",
doc =
"whether this rule is marked as executable or not. If True, "
+ "there must be an action that generates "
+ "<code>ctx.outputs.executable</code>."
),
@Param(
name = "output_to_genfiles",
type = Boolean.class,
defaultValue = "False",
doc =
"If true, the files will be generated in the genfiles directory instead of the "
+ "bin directory. Unless you need it for compatibility with existing rules "
+ "(e.g. when generating header files for C++), do not set this flag."
),
@Param(
name = "fragments",
type = SkylarkList.class,
generic1 = String.class,
defaultValue = "[]",
doc =
"List of names of configuration fragments that the rule requires "
+ "in target configuration."
),
@Param(
name = "host_fragments",
type = SkylarkList.class,
generic1 = String.class,
defaultValue = "[]",
doc =
"List of names of configuration fragments that the rule requires "
+ "in host configuration."
),
@Param(
name = "_skylark_testable",
type = Boolean.class,
defaultValue = "False",
doc =
"<i>(Experimental)</i><br/><br/>"
+ "If true, this rule will expose its actions for inspection by rules that "
+ "depend on it via an <a href=\"globals.html#Actions\">Actions</a> "
+ "provider. The provider is also available to the rule itself by calling "
+ "<a href=\"ctx.html#created_actions\">ctx.created_actions()</a>."
+ "<br/><br/>"
+ "This should only be used for testing the analysis-time behavior of "
+ "Skylark rules. This flag may be removed in the future."
)
},
useAst = true,
useEnvironment = true
)
private static final BuiltinFunction rule =
new BuiltinFunction("rule") {
@SuppressWarnings({"rawtypes", "unchecked"}) // castMap produces
// an Attribute.Builder instead of a Attribute.Builder<?> but it's OK.
public BaseFunction invoke(
BaseFunction implementation,
Boolean test,
Object attrs,
Object implicitOutputs,
Boolean executable,
Boolean outputToGenfiles,
SkylarkList fragments,
SkylarkList hostFragments,
Boolean skylarkTestable,
FuncallExpression ast,
Environment funcallEnv)
throws EvalException, ConversionException {
funcallEnv.checkLoadingOrWorkspacePhase("rule", ast.getLocation());
RuleClassType type = test ? RuleClassType.TEST : RuleClassType.NORMAL;
RuleClass parent =
test
? getTestBaseRule(SkylarkUtils.getToolsRepository(funcallEnv))
: (executable ? binaryBaseRule : baseRule);
// We'll set the name later, pass the empty string for now.
RuleClass.Builder builder = new RuleClass.Builder("", type, true, parent);
ImmutableList<Pair<String, SkylarkAttr.Descriptor>> attributes =
attrObjectToAttributesList(attrs, ast);
if (skylarkTestable) {
builder.setSkylarkTestable();
}
if (executable || test) {
addAttribute(
ast.getLocation(),
builder,
attr("$is_executable", BOOLEAN)
.value(true)
.nonconfigurable("Called from RunCommand.isExecutable, which takes a Target")
.build());
builder.setOutputsDefaultExecutable();
}
if (implicitOutputs != Runtime.NONE) {
if (implicitOutputs instanceof BaseFunction) {
BaseFunction func = (BaseFunction) implicitOutputs;
SkylarkCallbackFunction callback = new SkylarkCallbackFunction(func, ast, funcallEnv);
builder.setImplicitOutputsFunction(
new SkylarkImplicitOutputsFunctionWithCallback(callback, ast.getLocation()));
} else {
builder.setImplicitOutputsFunction(
new SkylarkImplicitOutputsFunctionWithMap(
ImmutableMap.copyOf(
castMap(
implicitOutputs,
String.class,
String.class,
"implicit outputs of the rule class"))));
}
}
if (outputToGenfiles) {
builder.setOutputToGenfiles();
}
builder.requiresConfigurationFragmentsBySkylarkModuleName(
fragments.getContents(String.class, "fragments"));
builder.requiresHostConfigurationFragmentsBySkylarkModuleName(
hostFragments.getContents(String.class, "host_fragments"));
builder.setConfiguredTargetFunction(implementation);
builder.setRuleDefinitionEnvironment(funcallEnv);
return new RuleFunction(builder, type, attributes, ast.getLocation());
}
};
protected static ImmutableList<Pair<String, Descriptor>> attrObjectToAttributesList(
Object attrs, FuncallExpression ast) throws EvalException {
ImmutableList.Builder<Pair<String, Descriptor>> attributes = ImmutableList.builder();
if (attrs != Runtime.NONE) {
for (Map.Entry<String, Descriptor> attr :
castMap(attrs, String.class, Descriptor.class, "attrs").entrySet()) {
Descriptor attrDescriptor = attr.getValue();
AttributeValueSource source = attrDescriptor.getValueSource();
String attrName = source.convertToNativeName(attr.getKey(), ast.getLocation());
attributes.add(Pair.of(attrName, attrDescriptor));
}
}
return attributes.build();
}
private static void addAttribute(
Location location, RuleClass.Builder builder, Attribute attribute) throws EvalException {
try {
builder.addOrOverrideAttribute(attribute);
} catch (IllegalArgumentException ex) {
throw new EvalException(location, ex);
}
}
@SkylarkSignature(name = "aspect", doc =
"Creates a new aspect. The result of this function must be stored in a global value. "
+ "Please see the <a href=\"../aspects.md\">introduction to Aspects</a> for more "
+ "details.",
returnType = SkylarkAspect.class,
parameters = {
@Param(name = "implementation", type = BaseFunction.class,
doc = "the function implementing this aspect. Must have two parameters: "
+ "<a href=\"Target.html\">Target</a> (the target to which the aspect is "
+ "applied) and <a href=\"ctx.html\">ctx</a>. Attributes of the target are "
+ "available via ctx.rule field. The function is called during the analysis "
+ "phase for each application of an aspect to a target."
),
@Param(name = "attr_aspects", type = SkylarkList.class, generic1 = String.class,
defaultValue = "[]",
doc = "List of attribute names. The aspect propagates along dependencies specified "
+ "by attributes of a target with this name. The list can also contain a single "
+ "string '*': in that case aspect propagates along all dependencies of a target."
),
@Param(name = "attrs", type = SkylarkDict.class, noneable = true, defaultValue = "None",
doc = "dictionary to declare all the attributes of the aspect. "
+ "It maps from an attribute name to an attribute object "
+ "(see <a href=\"attr.html\">attr</a> module). "
+ "Aspect attributes are available to implementation function as fields of ctx "
+ "parameter. Implicit attributes starting with <code>_</code> must have default "
+ "values, and have type <code>label</code> or <code>label_list</code>. "
+ "Explicit attributes must have type <code>string</code>, and must use the "
+ "<code>values</code> restriction. If explicit attributes are present, the "
+ "aspect can only be used with rules that have attributes of the same name and "
+ "type, with valid values."
),
@Param(name = "required_aspect_providers",
type = SkylarkList.class,
defaultValue = "[]",
// todo(dslomov): Document once it works.
doc = "<not available>"
),
@Param(name = "provides",
type = SkylarkList.class,
defaultValue = "[]",
// todo(dslomov): Document once it works.
doc = "<not available>"
),
@Param(
name = "fragments",
type = SkylarkList.class,
generic1 = String.class,
defaultValue = "[]",
doc =
"List of names of configuration fragments that the aspect requires "
+ "in target configuration."
),
@Param(
name = "host_fragments",
type = SkylarkList.class,
generic1 = String.class,
defaultValue = "[]",
doc =
"List of names of configuration fragments that the aspect requires "
+ "in host configuration."
)
},
useEnvironment = true,
useAst = true
)
private static final BuiltinFunction aspect =
new BuiltinFunction("aspect") {
public SkylarkAspect invoke(
BaseFunction implementation,
SkylarkList attributeAspects,
Object attrs,
SkylarkList requiredAspectProvidersArg,
SkylarkList providesArg,
SkylarkList fragments,
SkylarkList hostFragments,
FuncallExpression ast,
Environment funcallEnv)
throws EvalException {
ImmutableList.Builder<String> attrAspects = ImmutableList.builder();
for (Object attributeAspect : attributeAspects) {
String attrName = STRING.convert(attributeAspect, "attr_aspects");
if (attrName.equals("*") && attributeAspects.size() != 1) {
throw new EvalException(
ast.getLocation(),
"'*' must be the only string in 'attr_aspects' list"
);
}
if (!attrName.startsWith("_")) {
attrAspects.add(attrName);
} else {
// Implicit attribute names mean either implicit or late-bound attributes
// (``$attr`` or ``:attr``). Depend on both.
attrAspects.add(
AttributeValueSource.COMPUTED_DEFAULT.convertToNativeName(attrName, location));
attrAspects.add(
AttributeValueSource.LATE_BOUND.convertToNativeName(attrName, location));
}
}
ImmutableList<Pair<String, SkylarkAttr.Descriptor>> descriptors =
attrObjectToAttributesList(attrs, ast);
ImmutableList.Builder<Attribute> attributes = ImmutableList.builder();
ImmutableSet.Builder<String> requiredParams = ImmutableSet.builder();
for (Pair<String, Descriptor> nameDescriptorPair : descriptors) {
String nativeName = nameDescriptorPair.first;
boolean hasDefault = nameDescriptorPair.second.hasDefault();
Attribute attribute = nameDescriptorPair.second.build(nameDescriptorPair.first);
if (attribute.getType() == Type.STRING
&& ((String) attribute.getDefaultValue(null)).isEmpty()) {
hasDefault = false; // isValueSet() is always true for attr.string.
}
if (!Attribute.isImplicit(nativeName)) {
if (!attribute.checkAllowedValues() || attribute.getType() != Type.STRING) {
throw new EvalException(
ast.getLocation(),
String.format(
"Aspect parameter attribute '%s' must have type 'string' and use the "
+ "'values' restriction.",
nativeName));
}
if (!hasDefault) {
requiredParams.add(nativeName);
} else {
PredicateWithMessage<Object> allowed = attribute.getAllowedValues();
Object defaultVal = attribute.getDefaultValue(null);
if (!allowed.apply(defaultVal)) {
throw new EvalException(
ast.getLocation(),
String.format(
"Aspect parameter attribute '%s' has a bad default value: %s",
nativeName,
allowed.getErrorReason(defaultVal)));
}
}
} else if (!hasDefault) { // Implicit attribute
String skylarkName = "_" + nativeName.substring(1);
throw new EvalException(
ast.getLocation(),
String.format("Aspect attribute '%s' has no default value.", skylarkName));
}
attributes.add(attribute);
}
for (Object o : providesArg) {
if (!SkylarkAttr.isProvider(o)) {
throw new EvalException(ast.getLocation(),
String.format("Illegal argument: element in 'provides' is of unexpected type. "
+ "Should be list of providers, but got %s. ",
EvalUtils.getDataTypeName(o, true)));
}
}
return new SkylarkAspect(
implementation,
attrAspects.build(),
attributes.build(),
SkylarkAttr.buildProviderPredicate(requiredAspectProvidersArg,
"required_aspect_providers", ast.getLocation()
),
SkylarkAttr.getSkylarkProviderIdentifiers(providesArg, ast.getLocation()),
requiredParams.build(),
ImmutableSet.copyOf(fragments.getContents(String.class, "fragments")),
ImmutableSet.copyOf(hostFragments.getContents(String.class, "host_fragments")),
funcallEnv);
}
};
/** The implementation for the magic function "rule" that creates Skylark rule classes */
public static final class RuleFunction extends BaseFunction implements SkylarkExportable {
private RuleClass.Builder builder;
private RuleClass ruleClass;
private final RuleClassType type;
private ImmutableList<Pair<String, SkylarkAttr.Descriptor>> attributes;
private final Location definitionLocation;
private Label skylarkLabel;
public RuleFunction(Builder builder, RuleClassType type,
ImmutableList<Pair<String, SkylarkAttr.Descriptor>> attributes,
Location definitionLocation) {
super("rule", FunctionSignature.KWARGS);
this.builder = builder;
this.type = type;
this.attributes = attributes;
this.definitionLocation = definitionLocation;
}
@Override
@SuppressWarnings("unchecked") // the magic hidden $pkg_context variable is guaranteed
// to be a PackageContext
public Object call(Object[] args, FuncallExpression ast, Environment env)
throws EvalException, InterruptedException, ConversionException {
env.checkLoadingPhase(getName(), ast.getLocation());
if (ruleClass == null) {
throw new EvalException(ast.getLocation(),
"Invalid rule class hasn't been exported by a Skylark file");
}
for (Attribute attribute : ruleClass.getAttributes()) {
// TODO(dslomov): If a Skylark parameter extractor is specified for this aspect, its
// attributes may not be required.
for (Map.Entry<String, ImmutableSet<String>> attrRequirements :
attribute.getRequiredAspectParameters().entrySet()) {
for (String required : attrRequirements.getValue()) {
if (!ruleClass.hasAttr(required, Type.STRING)) {
throw new EvalException(definitionLocation, String.format(
"Aspect %s requires rule %s to specify attribute '%s' with type string.",
attrRequirements.getKey(),
ruleClass.getName(),
required));
}
}
}
}
BuildLangTypedAttributeValuesMap attributeValues =
new BuildLangTypedAttributeValuesMap((Map<String, Object>) args[0]);
try {
PackageContext pkgContext = (PackageContext) env.lookup(PackageFactory.PKG_CONTEXT);
if (pkgContext == null) {
throw new EvalException(ast.getLocation(),
"Cannot instantiate a rule when loading a .bzl file. Rules can only be called from "
+ "a BUILD file (possibly via a macro).");
}
return RuleFactory.createAndAddRule(
pkgContext,
ruleClass,
attributeValues,
ast,
env,
pkgContext.getAttributeContainerFactory().apply(ruleClass));
} catch (InvalidRuleException | NameConflictException e) {
throw new EvalException(ast.getLocation(), e.getMessage());
}
}
/**
* Export a RuleFunction from a Skylark file with a given name.
*/
public void export(Label skylarkLabel, String ruleClassName) throws EvalException {
Preconditions.checkState(ruleClass == null && builder != null);
this.skylarkLabel = skylarkLabel;
if (type == RuleClassType.TEST != TargetUtils.isTestRuleName(ruleClassName)) {
throw new EvalException(definitionLocation, "Invalid rule class name '" + ruleClassName
+ "', test rule class names must end with '_test' and other rule classes must not");
}
for (Pair<String, SkylarkAttr.Descriptor> attribute : attributes) {
SkylarkAttr.Descriptor descriptor = attribute.getSecond();
addAttribute(definitionLocation, builder,
descriptor.build(attribute.getFirst()));
}
this.ruleClass = builder.build(ruleClassName);
this.builder = null;
this.attributes = null;
}
@VisibleForTesting
public RuleClass getRuleClass() {
Preconditions.checkState(ruleClass != null && builder == null);
return ruleClass;
}
@Override
public boolean isExported() {
return skylarkLabel != null;
}
}
/**
* All classes of values that need special processing after they are exported from an extension
* file.
*
* <p>Order in list is significant: all {@link SkylarkAspect}s need to be exported before {@link
* RuleFunction}s etc.
*/
private static final ImmutableList<Class<? extends SkylarkExportable>> EXPORTABLES =
ImmutableList.of(
SkylarkClassObjectConstructor.class, SkylarkAspect.class, RuleFunction.class);
@SkylarkSignature(
name = "Label",
doc =
"Creates a Label referring to a BUILD target. Use "
+ "this function only when you want to give a default value for the label attributes. "
+ "The argument must refer to an absolute label. "
+ "Example: <br><pre class=language-python>Label(\"//tools:default\")</pre>",
returnType = Label.class,
objectType = Label.class,
parameters = {
@Param(name = "label_string", type = String.class, doc = "the label string."),
@Param(
name = "relative_to_caller_repository",
type = Boolean.class,
defaultValue = "False",
named = true,
positional = false,
doc =
"whether the label should be resolved relative to the label of the file this "
+ "function is called from."
)
},
useLocation = true,
useEnvironment = true
)
private static final BuiltinFunction label =
new BuiltinFunction("Label") {
@SuppressWarnings({"unchecked", "unused"})
public Label invoke(
String labelString, Boolean relativeToCallerRepository, Location loc, Environment env)
throws EvalException {
Label parentLabel = null;
if (relativeToCallerRepository) {
parentLabel = env.getCallerLabel();
} else {
parentLabel = env.getGlobals().getTransitiveLabel();
}
try {
if (parentLabel != null) {
LabelValidator.parseAbsoluteLabel(labelString);
labelString = parentLabel.getRelative(labelString).getUnambiguousCanonicalForm();
}
return labelCache.get(labelString);
} catch (LabelValidator.BadLabelException | LabelSyntaxException | ExecutionException e) {
throw new EvalException(loc, "Illegal absolute label syntax: " + labelString);
}
}
};
// We want the Label ctor to show up under the Label documentation, but to be a "global
// function." Thus, we create a global Label object here, which just points to the Skylark
// function above.
@SkylarkSignature(name = "Label",
documented = false)
private static final BuiltinFunction globalLabel = label;
@SkylarkSignature(
name = "FileType",
doc =
"Deprecated. Creates a file filter from a list of strings. For example, to match "
+ "files ending with .cc or .cpp, use: "
+ "<pre class=language-python>FileType([\".cc\", \".cpp\"])</pre>",
returnType = SkylarkFileType.class,
objectType = SkylarkFileType.class,
parameters = {
@Param(
name = "types",
type = SkylarkList.class,
generic1 = String.class,
defaultValue = "[]",
doc = "a list of the accepted file extensions."
)
}
)
private static final BuiltinFunction fileType =
new BuiltinFunction("FileType") {
public SkylarkFileType invoke(SkylarkList types) throws EvalException {
return SkylarkFileType.of(types.getContents(String.class, "types"));
}
};
// We want the FileType ctor to show up under the FileType documentation, but to be a "global
// function." Thus, we create a global FileType object here, which just points to the Skylark
// function above.
@SkylarkSignature(name = "FileType",
documented = false)
private static final BuiltinFunction globalFileType = fileType;
@SkylarkSignature(
name = "to_proto",
doc =
"Creates a text message from the struct parameter. This method only works if all "
+ "struct elements (recursively) are strings, ints, booleans, other structs or a "
+ "list of these types. Quotes and new lines in strings are escaped. "
+ "Keys are iterated in the sorted order. "
+ "Examples:<br><pre class=language-python>"
+ "struct(key=123).to_proto()\n# key: 123\n\n"
+ "struct(key=True).to_proto()\n# key: true\n\n"
+ "struct(key=[1, 2, 3]).to_proto()\n# key: 1\n# key: 2\n# key: 3\n\n"
+ "struct(key='text').to_proto()\n# key: \"text\"\n\n"
+ "struct(key=struct(inner_key='text')).to_proto()\n"
+ "# key {\n# inner_key: \"text\"\n# }\n\n"
+ "struct(key=[struct(inner_key=1), struct(inner_key=2)]).to_proto()\n"
+ "# key {\n# inner_key: 1\n# }\n# key {\n# inner_key: 2\n# }\n\n"
+ "struct(key=struct(inner_key=struct(inner_inner_key='text'))).to_proto()\n"
+ "# key {\n# inner_key {\n# inner_inner_key: \"text\"\n# }\n# }\n</pre>",
objectType = SkylarkClassObject.class,
returnType = String.class,
parameters = {
// TODO(bazel-team): shouldn't we accept any ClassObject?
@Param(name = "self", type = SkylarkClassObject.class, doc = "this struct.")
},
useLocation = true
)
private static final BuiltinFunction toProto =
new BuiltinFunction("to_proto") {
public String invoke(SkylarkClassObject self, Location loc) throws EvalException {
StringBuilder sb = new StringBuilder();
printProtoTextMessage(self, sb, 0, loc);
return sb.toString();
}
private void printProtoTextMessage(
ClassObject object, StringBuilder sb, int indent, Location loc) throws EvalException {
// For determinism sort the keys alphabetically
List<String> keys = new ArrayList<>(object.getKeys());
Collections.sort(keys);
for (String key : keys) {
printProtoTextMessage(key, object.getValue(key), sb, indent, loc);
}
}
private void printProtoTextMessage(
String key, Object value, StringBuilder sb, int indent, Location loc, String container)
throws EvalException {
if (value instanceof ClassObject) {
print(sb, key + " {", indent);
printProtoTextMessage((ClassObject) value, sb, indent + 1, loc);
print(sb, "}", indent);
} else if (value instanceof String) {
print(
sb,
key + ": \"" + escapeDoubleQuotesAndBackslashesAndNewlines((String) value) + "\"",
indent);
} else if (value instanceof Integer) {
print(sb, key + ": " + value, indent);
} else if (value instanceof Boolean) {
// We're relying on the fact that Java converts Booleans to Strings in the same way
// as the protocol buffers do.
print(sb, key + ": " + value, indent);
} else {
throw new EvalException(
loc,
"Invalid text format, expected a struct, a string, a bool, or an int but got a "
+ EvalUtils.getDataTypeName(value)
+ " for "
+ container
+ " '"
+ key
+ "'");
}
}
private void printProtoTextMessage(
String key, Object value, StringBuilder sb, int indent, Location loc)
throws EvalException {
if (value instanceof SkylarkList) {
for (Object item : ((SkylarkList) value)) {
// TODO(bazel-team): There should be some constraint on the fields of the structs
// in the same list but we ignore that for now.
printProtoTextMessage(key, item, sb, indent, loc, "list element in struct field");
}
} else {
printProtoTextMessage(key, value, sb, indent, loc, "struct field");
}
}
private void print(StringBuilder sb, String text, int indent) {
for (int i = 0; i < indent; i++) {
sb.append(" ");
}
sb.append(text);
sb.append("\n");
}
};
/**
* Escapes the given string for use in proto/JSON string.
*
* <p>This escapes double quotes, backslashes, and newlines.
*/
private static String escapeDoubleQuotesAndBackslashesAndNewlines(String string) {
return TextFormat.escapeDoubleQuotesAndBackslashes(string).replace("\n", "\\n");
}
@SkylarkSignature(
name = "to_json",
doc =
"Creates a JSON string from the struct parameter. This method only works if all "
+ "struct elements (recursively) are strings, ints, booleans, other structs or a "
+ "list of these types. Quotes and new lines in strings are escaped. "
+ "Examples:<br><pre class=language-python>"
+ "struct(key=123).to_json()\n# {\"key\":123}\n\n"
+ "struct(key=True).to_json()\n# {\"key\":true}\n\n"
+ "struct(key=[1, 2, 3]).to_json()\n# {\"key\":[1,2,3]}\n\n"
+ "struct(key='text').to_json()\n# {\"key\":\"text\"}\n\n"
+ "struct(key=struct(inner_key='text')).to_json()\n"
+ "# {\"key\":{\"inner_key\":\"text\"}}\n\n"
+ "struct(key=[struct(inner_key=1), struct(inner_key=2)]).to_json()\n"
+ "# {\"key\":[{\"inner_key\":1},{\"inner_key\":2}]}\n\n"
+ "struct(key=struct(inner_key=struct(inner_inner_key='text'))).to_json()\n"
+ "# {\"key\":{\"inner_key\":{\"inner_inner_key\":\"text\"}}}\n</pre>",
objectType = SkylarkClassObject.class,
returnType = String.class,
parameters = {
// TODO(bazel-team): shouldn't we accept any ClassObject?
@Param(name = "self", type = SkylarkClassObject.class, doc = "this struct.")
},
useLocation = true
)
private static final BuiltinFunction toJson =
new BuiltinFunction("to_json") {
public String invoke(SkylarkClassObject self, Location loc) throws EvalException {
StringBuilder sb = new StringBuilder();
printJson(self, sb, loc, "struct field", null);
return sb.toString();
}
private void printJson(
Object value, StringBuilder sb, Location loc, String container, String key)
throws EvalException {
if (value == Runtime.NONE) {
sb.append("null");
} else if (value instanceof ClassObject) {
sb.append("{");
String join = "";
for (String subKey : ((ClassObject) value).getKeys()) {
sb.append(join);
join = ",";
sb.append("\"");
sb.append(subKey);
sb.append("\":");
printJson(((ClassObject) value).getValue(subKey), sb, loc, "struct field", subKey);
}
sb.append("}");
} else if (value instanceof List) {
sb.append("[");
String join = "";
for (Object item : ((List) value)) {
sb.append(join);
join = ",";
printJson(item, sb, loc, "list element in struct field", key);
}
sb.append("]");
} else if (value instanceof String) {
sb.append("\"");
sb.append(jsonEscapeString((String) value));
sb.append("\"");
} else if (value instanceof Integer || value instanceof Boolean) {
sb.append(value);
} else {
String errorMessage =
"Invalid text format, expected a struct, a string, a bool, or an int "
+ "but got a "
+ EvalUtils.getDataTypeName(value)
+ " for "
+ container;
if (key != null) {
errorMessage += " '" + key + "'";
}
throw new EvalException(loc, errorMessage);
}
}
private String jsonEscapeString(String string) {
return escapeDoubleQuotesAndBackslashesAndNewlines(string)
.replace("\r", "\\r")
.replace("\t", "\\t");
}
};
@SkylarkSignature(name = "output_group",
documented = false, // TODO(dslomov): document.
objectType = TransitiveInfoCollection.class,
returnType = SkylarkNestedSet.class,
parameters = {
@Param(name = "self", type = TransitiveInfoCollection.class, doc =
"this target"
),
@Param(name = "group_name", type = String.class, doc =
"Output group name"
)
}
)
private static final BuiltinFunction output_group = new BuiltinFunction("output_group") {
public SkylarkNestedSet invoke(TransitiveInfoCollection self, String group) {
OutputGroupProvider provider = OutputGroupProvider.get(self);
NestedSet<Artifact> result = provider != null
? provider.getOutputGroup(group)
: NestedSetBuilder.<Artifact>emptySet(Order.STABLE_ORDER);
return SkylarkNestedSet.of(Artifact.class, result);
}
};
static {
SkylarkSignatureProcessor.configureSkylarkFunctions(SkylarkRuleClassFunctions.class);
}
}