// 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.cmdline; import com.google.common.collect.ComparisonChain; import com.google.common.collect.ImmutableSet; import com.google.common.collect.Interner; import com.google.common.collect.Interners; import com.google.devtools.build.lib.cmdline.LabelValidator.BadLabelException; import com.google.devtools.build.lib.concurrent.ThreadSafety.Immutable; import com.google.devtools.build.lib.concurrent.ThreadSafety.ThreadSafe; import com.google.devtools.build.lib.skylarkinterface.SkylarkCallable; import com.google.devtools.build.lib.skylarkinterface.SkylarkModule; import com.google.devtools.build.lib.skylarkinterface.SkylarkPrintableValue; import com.google.devtools.build.lib.util.Preconditions; import com.google.devtools.build.lib.util.StringCanonicalizer; import com.google.devtools.build.lib.util.StringUtilities; import com.google.devtools.build.lib.vfs.PathFragment; import java.io.IOException; import java.io.InvalidObjectException; import java.io.ObjectInputStream; import java.io.Serializable; /** * A class to identify a BUILD target. All targets belong to exactly one package. * The name of a target is called its label. A typical label looks like this: * //dir1/dir2:target_name where 'dir1/dir2' identifies the package containing a BUILD file, * and 'target_name' identifies the target within the package. * *

Parsing is robust against bad input, for example, from the command line. */ @SkylarkModule(name = "Label", doc = "A BUILD target identifier.") @Immutable @ThreadSafe public final class Label implements Comparable

   * //foo/bar
   * //foo/bar:quux
   * {@literal @}foo//bar
   * {@literal @}foo//bar:baz
   *
* *

Treats labels in the default repository as being in the main repository instead. */ public static Label parseAbsolute(String absName) throws LabelSyntaxException { return parseAbsolute(absName, true); } /** * Factory for Labels from absolute string form. e.g. * 

   * //foo/bar
   * //foo/bar:quux
   * {@literal @}foo//bar
   * {@literal @}foo//bar:baz
   *
* * @param defaultToMain Treat labels in the default repository as being in the main * one instead. */ public static Label parseAbsolute(String absName, boolean defaultToMain) throws LabelSyntaxException { String repo = defaultToMain ? "@" : PackageIdentifier.DEFAULT_REPOSITORY; int packageStartPos = absName.indexOf("//"); if (packageStartPos > 0) { repo = absName.substring(0, packageStartPos); absName = absName.substring(packageStartPos); } try { LabelValidator.PackageAndTarget labelParts = LabelValidator.parseAbsoluteLabel(absName); PackageIdentifier pkgIdWithoutRepo = validate(labelParts.getPackageName(), labelParts.getTargetName()); PathFragment packageFragment = pkgIdWithoutRepo.getPackageFragment(); if (repo.isEmpty() && ABSOLUTE_PACKAGE_NAMES.contains(packageFragment)) { repo = "@"; } return create(PackageIdentifier.create(repo, packageFragment), labelParts.getTargetName()); } catch (BadLabelException e) { throw new LabelSyntaxException(e.getMessage()); } } /** * Alternate factory method for Labels from absolute strings. This is a convenience method for * cases when a Label needs to be initialized statically, so the declared exception is * inconvenient. * *

Do not use this when the argument is not hard-wired. */ public static Label parseAbsoluteUnchecked(String absName, boolean defaultToMain) { try { return parseAbsolute(absName, defaultToMain); } catch (LabelSyntaxException e) { throw new IllegalArgumentException(e); } } public static Label parseAbsoluteUnchecked(String absName) { return parseAbsoluteUnchecked(absName, true); } /** * Factory for Labels from separate components. * * @param packageName The name of the package. The package name does * not include {@code //}. Must be valid according to * {@link LabelValidator#validatePackageName}. * @param targetName The name of the target within the package. Must be * valid according to {@link LabelValidator#validateTargetName}. * @throws LabelSyntaxException if either of the arguments was invalid. */ public static Label create(String packageName, String targetName) throws LabelSyntaxException { return LABEL_INTERNER.intern(new Label(packageName, targetName)); } /** * Similar factory to above, but takes a package identifier to allow external repository labels * to be created. */ public static Label create(PackageIdentifier packageId, String targetName) throws LabelSyntaxException { return LABEL_INTERNER.intern(new Label(packageId, targetName)); } /** * Resolves a relative label using a workspace-relative path to the current working directory. The * method handles these cases: *

* *

Note that this method does not support any of the special syntactic constructs otherwise * supported on the command line, like ":all", "/...", and so on. * *

It would be cleaner to use the TargetPatternEvaluator for this resolution, but that is not * possible, because it is sometimes necessary to resolve a relative label before the package path * is setup; in particular, before the tools/defaults package is created. * * @throws LabelSyntaxException if the resulting label is not valid */ public static Label parseCommandLineLabel(String label, PathFragment workspaceRelativePath) throws LabelSyntaxException { Preconditions.checkArgument(!workspaceRelativePath.isAbsolute()); if (LabelValidator.isAbsolute(label)) { return parseAbsolute(label); } int index = label.indexOf(':'); if (index < 0) { index = 0; label = ":" + label; } PathFragment path = workspaceRelativePath.getRelative(label.substring(0, index)); // Use the String, String constructor, to make sure that the package name goes through the // validity check. return create(path.getPathString(), label.substring(index + 1)); } /** * Validates the given target name and returns a canonical String instance if it is valid. * Otherwise it throws a SyntaxException. */ private static String canonicalizeTargetName(String name) throws LabelSyntaxException { String error = LabelValidator.validateTargetName(name); if (error != null) { error = "invalid target name '" + StringUtilities.sanitizeControlChars(name) + "': " + error; throw new LabelSyntaxException(error); } // TODO(bazel-team): This should be an error, but we can't make it one for legacy reasons. if (name.endsWith("/.")) { name = name.substring(0, name.length() - 2); } return StringCanonicalizer.intern(name); } /** * Validates the given package name and returns a canonical {@link PackageIdentifier} instance * if it is valid. Otherwise it throws a SyntaxException. */ private static PackageIdentifier validate(String packageIdentifier, String name) throws LabelSyntaxException { String error = null; try { return PackageIdentifier.parse(packageIdentifier); } catch (LabelSyntaxException e) { error = e.getMessage(); error = "invalid package name '" + packageIdentifier + "': " + error; // This check is just for a more helpful error message // i.e. valid target name, invalid package name, colon-free label form // used => probably they meant "//foo:bar.c" not "//foo/bar.c". if (packageIdentifier.endsWith("/" + name)) { error += " (perhaps you meant \":" + name + "\"?)"; } throw new LabelSyntaxException(error); } } /** The name and repository of the package. */ private final PackageIdentifier packageIdentifier; /** The name of the target within the package. Canonical. */ private final String name; /** Precomputed hash code. */ private final int hashCode; /** * Constructor from a package name, target name. Both are checked for validity * and a SyntaxException is thrown if either is invalid. * TODO(bazel-team): move the validation to {@link PackageIdentifier}. Unfortunately, there are a * bazillion tests that use invalid package names (taking advantage of the fact that calling * Label(PathFragment, String) doesn't validate the package name). */ private Label(String packageIdentifier, String name) throws LabelSyntaxException { this(validate(packageIdentifier, name), name); } private Label(PackageIdentifier packageIdentifier, String name) throws LabelSyntaxException { Preconditions.checkNotNull(packageIdentifier); Preconditions.checkNotNull(name); this.packageIdentifier = packageIdentifier; try { this.name = canonicalizeTargetName(name); } catch (LabelSyntaxException e) { // This check is just for a more helpful error message // i.e. valid target name, invalid package name, colon-free label form // used => probably they meant "//foo:bar.c" not "//foo/bar.c". if (packageIdentifier.getPackageFragment().getPathString().endsWith("/" + name)) { throw new LabelSyntaxException(e.getMessage() + " (perhaps you meant \":" + name + "\"?)"); } throw e; } this.hashCode = hashCode(this.name, this.packageIdentifier); } /** * A specialization of Arrays.HashCode() that does not require constructing a 2-element array. */ private static final int hashCode(Object obj1, Object obj2) { int result = 31 + (obj1 == null ? 0 : obj1.hashCode()); return 31 * result + (obj2 == null ? 0 : obj2.hashCode()); } private Object writeReplace() { return new LabelSerializationProxy(getUnambiguousCanonicalForm()); } private void readObject(ObjectInputStream stream) throws InvalidObjectException { throw new InvalidObjectException("Serialization is allowed only by proxy"); } public PackageIdentifier getPackageIdentifier() { return packageIdentifier; } /** * Returns the name of the package in which this rule was declared (e.g. {@code * //file/base:fileutils_test} returns {@code file/base}). */ @SkylarkCallable(name = "package", structField = true, doc = "The package part of this label. " + "For instance:
" + "

Label(\"//pkg/foo:abc\").package == \"pkg/foo\"
") public String getPackageName() { return packageIdentifier.getPackageFragment().getPathString(); } /** * Returns the execution root for the workspace, relative to the execroot (e.g., for label * {@code @repo//pkg:b}, it will returns {@code external/repo/pkg} and for label {@code //pkg:a}, * it will returns an empty string. */ @SkylarkCallable(name = "workspace_root", structField = true, doc = "Returns the execution root for the workspace of this label, relative to the execroot. " + "For instance:
" + "
Label(\"@repo//pkg/foo:abc\").workspace_root =="
      + " \"external/repo\"
") public String getWorkspaceRoot() { return packageIdentifier.getRepository().getPathFragment().toString(); } /** * Returns the path fragment of the package in which this rule was declared (e.g. {@code * //file/base:fileutils_test} returns {@code file/base}). * *

This is not suitable for inferring a path under which files related to a rule with * this label will be under the exec root, in particular, it won't work for rules in external * repositories. */ public PathFragment getPackageFragment() { return packageIdentifier.getPackageFragment(); } public static final com.google.common.base.Function PACKAGE_FRAGMENT = new com.google.common.base.Function() { @Override public PathFragment apply(Label label) { return label.getPackageFragment(); } }; /** * Returns the label as a path fragment, using the package and the label name. */ public PathFragment toPathFragment() { return packageIdentifier.getPackageFragment().getRelative(name); } /** * Returns the name by which this rule was declared (e.g. {@code //foo/bar:baz} * returns {@code baz}). */ @SkylarkCallable(name = "name", structField = true, doc = "The name of this label within the package. " + "For instance:
" + "

Label(\"//pkg/foo:abc\").name == \"abc\"
") public String getName() { return name; } /** * Renders this label in canonical form. * *

invariant: {@code parseAbsolute(x.toString(), false).equals(x)} */ @Override public String toString() { return getCanonicalForm(); } /** * Renders this label in canonical form. * *

invariant: {@code parseAbsolute(x.getCanonicalForm(), false).equals(x)} */ public String getCanonicalForm() { return getDefaultCanonicalForm(); } public String getUnambiguousCanonicalForm() { return packageIdentifier.getRepository() + "//" + packageIdentifier.getPackageFragment() + ":" + name; } /** * Renders this label in canonical form, except with labels in the main and default * repositories conflated. */ public String getDefaultCanonicalForm() { String repository; if (packageIdentifier.getRepository().isMain()) { repository = ""; } else { repository = packageIdentifier.getRepository().getName(); } return repository + "//" + packageIdentifier.getPackageFragment() + ":" + name; } /** * Renders this label in shorthand form. * *

Labels with canonical form {@code //foo/bar:bar} have the shorthand form {@code //foo/bar}. * All other labels have identical shorthand and canonical forms. */ public String toShorthandString() { String repository; if (packageIdentifier.getRepository().isMain()) { repository = ""; } else { repository = packageIdentifier.getRepository().getName(); } return repository + (getPackageFragment().getBaseName().equals(name) ? "//" + getPackageFragment() : toString()); } /** * Returns a label in the same package as this label with the given target name. * * @throws LabelSyntaxException if {@code targetName} is not a valid target name */ public Label getLocalTargetLabel(String targetName) throws LabelSyntaxException { return create(packageIdentifier, targetName); } /** * Resolves a relative or absolute label name. If given name is absolute, then this method calls * {@link #parseAbsolute}. Otherwise, it calls {@link #getLocalTargetLabel}. * *

For example: * {@code :quux} relative to {@code //foo/bar:baz} is {@code //foo/bar:quux}; * {@code //wiz:quux} relative to {@code //foo/bar:baz} is {@code //wiz:quux}. * * @param relName the relative label name; must be non-empty. */ @SkylarkCallable(name = "relative", doc = "Resolves a label that is either absolute (starts with //) or relative to the" + " current package. If this label is in a remote repository, the argument will be resolved " + "relative to that repository. If the argument contains a repository, it will be returned " + "as-is. Reserved labels will also be returned as-is.
" + "For example:
" + "

\n"
      + "Label(\"//foo/bar:baz\").relative(\":quux\") == Label(\"//foo/bar:quux\")\n"
      + "Label(\"//foo/bar:baz\").relative(\"//wiz:quux\") == Label(\"//wiz:quux\")\n"
      + "Label(\"@repo//foo/bar:baz\").relative(\"//wiz:quux\") == Label(\"@repo//wiz:quux\")\n"
      + "Label(\"@repo//foo/bar:baz\").relative(\"//visibility:public\") == "
      + "Label(\"//visibility:public\")\n"
      + "Label(\"@repo//foo/bar:baz\").relative(\"@other//wiz:quux\") == "
      + "Label(\"@other//wiz:quux\")\n"
      + "
") public Label getRelative(String relName) throws LabelSyntaxException { if (relName.length() == 0) { throw new LabelSyntaxException("empty package-relative label"); } if (LabelValidator.isAbsolute(relName)) { return resolveRepositoryRelative(parseAbsolute(relName, false)); } else if (relName.equals(":")) { throw new LabelSyntaxException("':' is not a valid package-relative label"); } else if (relName.charAt(0) == ':') { return getLocalTargetLabel(relName.substring(1)); } else { return getLocalTargetLabel(relName); } } /** * Resolves the repository of a label in the context of another label. * *

This is necessary so that dependency edges in remote repositories do not need to explicitly * mention their repository name. Otherwise, referring to e.g. //a:b in a remote * repository would point back to the main repository, which is usually not what is intended. * *

The return value will not be in the default repository. */ public Label resolveRepositoryRelative(Label relative) { if (packageIdentifier.getRepository().isDefault() || !relative.packageIdentifier.getRepository().isDefault()) { return relative; } else { try { return create( PackageIdentifier.create( packageIdentifier.getRepository(), relative.getPackageFragment()), relative.getName()); } catch (LabelSyntaxException e) { // We are creating the new label from an existing one which is guaranteed to be valid, so // this can't happen throw new IllegalStateException(e); } } } @Override public int hashCode() { return hashCode; } /** * Two labels are equal iff both their name and their package name are equal. */ @Override public boolean equals(Object other) { if (!(other instanceof Label)) { return false; } Label otherLabel = (Label) other; // Perform the equality comparisons in order from least likely to most likely. return hashCode == otherLabel.hashCode && name.equals(otherLabel.name) && packageIdentifier.equals(otherLabel.packageIdentifier); } /** * Defines the order between labels. * *

Labels are ordered primarily by package name and secondarily by target name. Both components * are ordered lexicographically. Thus {@code //a:b/c} comes before {@code //a/b:a}, i.e. the * position of the colon is significant to the order. */ @Override public int compareTo(Label other) { return ComparisonChain.start() .compare(packageIdentifier, other.packageIdentifier) .compare(name, other.name) .result(); } /** * Returns a suitable string for the user-friendly representation of the Label. Works even if the * argument is null. */ public static String print(Label label) { return label == null ? "(unknown)" : label.toString(); } @Override public boolean isImmutable() { return true; } @Override public void write(Appendable buffer, char quotationMark) { // We don't use the Skylark Printer class here to avoid creating a circular dependency. // // TODO(bazel-team): make the representation readable Label(//foo), // and isolate the legacy functions that want the unreadable variant. try { // There is no need to escape the contents of the Label since characters that might otherwise // require escaping are disallowed. buffer.append(quotationMark); buffer.append(toString()); buffer.append(quotationMark); } catch (IOException e) { // This function will only be used with in-memory Appendables, hence we should never get here. throw new AssertionError(e); } } @Override public void print(Appendable buffer, char quotationMark) { // We don't use the Skylark Printer class here to avoid creating a circular dependency. // // TODO(bazel-team): make the representation readable Label(//foo), // and isolate the legacy functions that want the unreadable variant. try { buffer.append(toString()); } catch (IOException e) { // This function will only be used with in-memory Appendables, hence we should never get here. throw new AssertionError(e); } } }