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// Copyright 2014 Google Inc. 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.annotations.VisibleForTesting;
import com.google.common.base.Joiner;
import com.google.common.base.Preconditions;
import com.google.common.base.Splitter;
import com.google.common.collect.ImmutableList;
import com.google.devtools.build.lib.cmdline.LabelValidator.BadLabelException;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import javax.annotation.concurrent.Immutable;
/**
* Represents a target pattern. Target patterns are a generalization of labels to include
* wildcards for finding all packages recursively beneath some root, and for finding all targets
* within a package.
*
* <p>Note that this class does not handle negative patterns ("-//foo/bar"); these must be handled
* one level up. In particular, the query language comes with built-in support for negative
* patterns.
*
* <p>In order to resolve target patterns, you need an implementation of {@link
* TargetPatternResolver}. This class is thread-safe if the corresponding instance is thread-safe.
*
* <p>See lib/blaze/commands/target-syntax.txt for details.
*/
public abstract class TargetPattern {
private static final Splitter SLASH_SPLITTER = Splitter.on('/');
private static final Joiner SLASH_JOINER = Joiner.on('/');
private static final Parser DEFAULT_PARSER = new Parser("");
private final Type type;
/**
* Returns a parser with no offset. Note that the Parser class is immutable, so this method may
* return the same instance on subsequent calls.
*/
public static Parser defaultParser() {
return DEFAULT_PARSER;
}
private static String removeSuffix(String s, String suffix) {
if (s.endsWith(suffix)) {
return s.substring(0, s.length() - suffix.length());
} else {
throw new IllegalArgumentException(s + ", " + suffix);
}
}
/**
* Normalizes the given relative path by resolving {@code //}, {@code /./} and {@code x/../}
* pieces. Note that leading {@code ".."} segments are not removed, so the returned string can
* have leading {@code ".."} segments.
*
* @throws IllegalArgumentException if the path is absolute, i.e. starts with a @{code '/'}
*/
@VisibleForTesting
static String normalize(String path) {
Preconditions.checkArgument(!path.startsWith("/"));
Iterator<String> it = SLASH_SPLITTER.split(path).iterator();
List<String> pieces = new ArrayList<>();
while (it.hasNext()) {
String piece = it.next();
if (".".equals(piece) || piece.isEmpty()) {
continue;
}
if ("..".equals(piece)) {
if (pieces.isEmpty()) {
pieces.add(piece);
continue;
}
String predecessor = pieces.remove(pieces.size() - 1);
if ("..".equals(predecessor)) {
pieces.add(piece);
pieces.add(piece);
}
continue;
}
pieces.add(piece);
}
return SLASH_JOINER.join(pieces);
}
private TargetPattern(Type type) {
// Don't allow inheritance outside this class.
this.type = type;
}
/**
* Return the type of the pattern. Examples include "below package" like "foo/..." and "single
* target" like "//x:y".
*/
public Type getType() {
return type;
}
/**
* Evaluates the current target pattern and returns the result.
*/
public abstract <T> ResolvedTargets<T> eval(TargetPatternResolver<T> resolver)
throws TargetParsingException, InterruptedException;
private static final class SingleTarget extends TargetPattern {
private final String targetName;
private SingleTarget(String targetName) {
super(Type.SINGLE_TARGET);
this.targetName = targetName;
}
@Override
public <T> ResolvedTargets<T> eval(TargetPatternResolver<T> resolver)
throws TargetParsingException, InterruptedException {
return resolver.getExplicitTarget(targetName);
}
}
private static final class InterpretPathAsTarget extends TargetPattern {
private final String path;
private InterpretPathAsTarget(String path) {
super(Type.PATH_AS_TARGET);
this.path = normalize(path);
}
@Override
public <T> ResolvedTargets<T> eval(TargetPatternResolver<T> resolver)
throws TargetParsingException, InterruptedException {
if (resolver.isPackage(path)) {
// User has specified a package name. lookout for default target.
return resolver.getExplicitTarget("//" + path);
}
List<String> pieces = SLASH_SPLITTER.splitToList(path);
// Interprets the label as a file target. This loop stops as soon as the
// first BUILD file is found (i.e. longest prefix match).
for (int i = pieces.size() - 1; i > 0; i--) {
String packageName = SLASH_JOINER.join(pieces.subList(0, i));
if (resolver.isPackage(packageName)) {
String targetName = SLASH_JOINER.join(pieces.subList(i, pieces.size()));
return resolver.getExplicitTarget("//" + packageName + ":" + targetName);
}
}
throw new TargetParsingException(
"couldn't determine target from filename '" + path + "'");
}
}
private static final class TargetsInPackage extends TargetPattern {
private final String originalPattern;
private final String pattern;
private final String suffix;
private final boolean isAbsolute;
private final boolean rulesOnly;
private final boolean checkWildcardConflict;
private TargetsInPackage(String originalPattern, String pattern, String suffix,
boolean isAbsolute, boolean rulesOnly, boolean checkWildcardConflict) {
super(Type.TARGETS_IN_PACKAGE);
this.originalPattern = originalPattern;
this.pattern = pattern;
this.suffix = suffix;
this.isAbsolute = isAbsolute;
this.rulesOnly = rulesOnly;
this.checkWildcardConflict = checkWildcardConflict;
}
@Override
public <T> ResolvedTargets<T> eval(TargetPatternResolver<T> resolver)
throws TargetParsingException, InterruptedException {
if (checkWildcardConflict) {
ResolvedTargets<T> targets = getWildcardConflict(resolver);
if (targets != null) {
return targets;
}
}
return resolver.getTargetsInPackage(originalPattern, removeSuffix(pattern, suffix),
rulesOnly);
}
/**
* There's a potential ambiguity if '//foo/bar:all' refers to an actual target. In this case, we
* use the the target but print a warning.
*
* @return the Target corresponding to the given pattern, if the pattern is absolute and there
* is such a target. Otherwise, return null.
*/
private <T> ResolvedTargets<T> getWildcardConflict(TargetPatternResolver<T> resolver)
throws InterruptedException {
if (!isAbsolute) {
return null;
}
T target = resolver.getTargetOrNull("//" + pattern);
if (target != null) {
String name = pattern.lastIndexOf(':') != -1
? pattern.substring(pattern.lastIndexOf(':') + 1)
: pattern.substring(pattern.lastIndexOf('/') + 1);
resolver.warn(String.format("The Blaze target pattern '%s' is ambiguous: '%s' is " +
"both a wildcard, and the name of an existing %s; " +
"using the latter interpretation",
"//" + pattern, ":" + name,
resolver.getTargetKind(target)));
try {
return resolver.getExplicitTarget("//" + pattern);
} catch (TargetParsingException e) {
throw new IllegalStateException(
"getTargetOrNull() returned non-null, so target should exist", e);
}
}
return null;
}
}
private static final class TargetsBelowPackage extends TargetPattern {
private final String originalPattern;
private final String pathPrefix;
private final boolean rulesOnly;
private TargetsBelowPackage(String originalPattern, String pathPrefix, boolean rulesOnly) {
super(Type.TARGETS_BELOW_PACKAGE);
this.originalPattern = originalPattern;
this.pathPrefix = pathPrefix;
this.rulesOnly = rulesOnly;
}
@Override
public <T> ResolvedTargets<T> eval(TargetPatternResolver<T> resolver)
throws TargetParsingException, InterruptedException {
return resolver.findTargetsBeneathDirectory(originalPattern, pathPrefix, rulesOnly);
}
}
@Immutable
public static final class Parser {
// TODO(bazel-team): Merge the Label functionality that requires similar constants into this
// class.
/**
* The set of target-pattern suffixes which indicate wildcards over all <em>rules</em> in a
* single package.
*/
private static final List<String> ALL_RULES_IN_SUFFIXES = ImmutableList.of(
"all");
/**
* The set of target-pattern suffixes which indicate wildcards over all <em>targets</em> in a
* single package.
*/
private static final List<String> ALL_TARGETS_IN_SUFFIXES = ImmutableList.of(
"*",
"all-targets");
private static final List<String> SUFFIXES;
static {
SUFFIXES = ImmutableList.<String>builder()
.addAll(ALL_RULES_IN_SUFFIXES)
.addAll(ALL_TARGETS_IN_SUFFIXES)
.add("/...")
.build();
}
/**
* Returns whether the given pattern is simple, i.e., not starting with '-' and using none of
* the target matching suffixes.
*/
public static boolean isSimpleTargetPattern(String pattern) {
if (pattern.startsWith("-")) {
return false;
}
for (String suffix : SUFFIXES) {
if (pattern.endsWith(":" + suffix)) {
return false;
}
}
return true;
}
/**
* Directory prefix to use when resolving relative labels (rather than absolute ones). For
* example, if the working directory is "<workspace root>/foo", then this should be "foo",
* which will make patterns such as "bar:bar" be resolved as "//foo/bar:bar". This makes the
* command line a bit more convenient to use.
*/
private final String relativeDirectory;
/**
* Creates a new parser with the given offset for relative patterns.
*/
public Parser(String relativeDirectory) {
this.relativeDirectory = relativeDirectory;
}
/**
* Parses the given pattern, and throws an exception if the pattern is invalid.
*
* @return a target pattern corresponding to the pattern parsed
* @throws TargetParsingException if the pattern is invalid
*/
public TargetPattern parse(String pattern) throws TargetParsingException {
// The structure of this method is by cases, according to the usage string
// constant (see lib/blaze/commands/target-syntax.txt).
String originalPattern = pattern;
final boolean isAbsolute = pattern.startsWith("//");
// We now absolutize non-absolute target patterns.
pattern = isAbsolute ? pattern.substring(2) : absolutize(pattern);
// Check for common errors.
if (pattern.startsWith("/")) {
throw new TargetParsingException("not a relative path or label: '" + pattern + "'");
}
if (pattern.isEmpty()) {
throw new TargetParsingException("the empty string is not a valid target");
}
// Transform "/BUILD" suffix into ":BUILD" to accept //foo/bar/BUILD
// syntax as a synonym to //foo/bar:BUILD.
if (pattern.endsWith("/BUILD")) {
pattern = pattern.substring(0, pattern.length() - 6) + ":BUILD";
}
int colonIndex = pattern.lastIndexOf(':');
String packagePart = colonIndex < 0 ? pattern : pattern.substring(0, colonIndex);
String targetPart = colonIndex < 0 ? "" : pattern.substring(colonIndex + 1);
if (packagePart.equals("...")) {
packagePart = "/..."; // special case this for easier parsing
}
if (packagePart.endsWith("/")) {
throw new TargetParsingException("The package part of '" + originalPattern
+ "' should not end in a slash");
}
if (packagePart.endsWith("/...")) {
String realPackagePart = removeSuffix(packagePart, "/...");
if (targetPart.isEmpty() || ALL_RULES_IN_SUFFIXES.contains(targetPart)) {
return new TargetsBelowPackage(originalPattern, realPackagePart, true);
} else if (ALL_TARGETS_IN_SUFFIXES.contains(targetPart)) {
return new TargetsBelowPackage(originalPattern, realPackagePart, false);
}
}
if (ALL_RULES_IN_SUFFIXES.contains(targetPart)) {
return new TargetsInPackage(
originalPattern, pattern, ":" + targetPart, isAbsolute, true, true);
}
if (ALL_TARGETS_IN_SUFFIXES.contains(targetPart)) {
return new TargetsInPackage(
originalPattern, pattern, ":" + targetPart, isAbsolute, false, true);
}
if (isAbsolute || pattern.contains(":")) {
String fullLabel = "//" + pattern;
try {
LabelValidator.validateAbsoluteLabel(fullLabel);
} catch (BadLabelException e) {
String error = "invalid target format '" + originalPattern + "': " + e.getMessage();
throw new TargetParsingException(error);
}
return new SingleTarget(fullLabel);
}
// This is a stripped-down version of interpretPathAsTarget that does no I/O. We have a basic
// relative path. e.g. "foo/bar/Wiz.java". The strictest correct check we can do here (without
// I/O) is just to ensure that there is *some* prefix that is a valid package-name. It's
// sufficient to test the first segment. This is really a rather weak check; perhaps we should
// just eliminate it.
int slashIndex = pattern.indexOf('/');
String packageName = pattern;
if (slashIndex > 0) {
packageName = pattern.substring(0, slashIndex);
}
String errorMessage = LabelValidator.validatePackageName(packageName);
if (errorMessage != null) {
throw new TargetParsingException("Bad target pattern '" + originalPattern + "': " +
errorMessage);
}
return new InterpretPathAsTarget(pattern);
}
/**
* Absolutizes the target pattern to the offset.
* Patterns starting with "/" are absolute and not modified.
*
* If the offset is "foo":
* absolutize(":bar") --> "foo:bar"
* absolutize("bar") --> "foo/bar"
* absolutize("/biz/bar") --> "biz/bar" (absolute)
* absolutize("biz:bar") --> "foo/biz:bar"
*
* @param pattern The target pattern to parse.
* @return the pattern, absolutized to the offset if approprate.
*/
private String absolutize(String pattern) {
if (relativeDirectory.isEmpty() || pattern.startsWith("/")) {
return pattern;
}
// It seems natural to use {@link PathFragment#getRelative()} here,
// but it doesn't work when the pattern starts with ":".
// "foo".getRelative(":all") would return "foo/:all", where we
// really want "foo:all".
return pattern.startsWith(":")
? relativeDirectory + pattern
: relativeDirectory + "/" + pattern;
}
}
/**
* The target pattern type (targets below package, in package, explicit target, etc.)
*/
public enum Type {
/** A path interpreted as a target, eg "foo/bar/baz" */
PATH_AS_TARGET,
/** An explicit target, eg "//foo:bar." */
SINGLE_TARGET,
/** Targets below a package, eg "foo/...". */
TARGETS_BELOW_PACKAGE,
/** Target in a package, eg "foo:all". */
TARGETS_IN_PACKAGE;
}
}
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