com.google.javascript.jscomp.deps.SortedDependencies Maven / Gradle / Ivy
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/*
* Copyright 2010 The Closure Compiler Authors.
*
* 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.javascript.jscomp.deps;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.Iterables;
import com.google.common.collect.LinkedHashMultimap;
import com.google.common.collect.SetMultimap;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Deque;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* A sorted list of inputs following the ES6 module ordering spec.
*
* Orders such that each input always comes after its dependencies. Circular references are
* allowed by emitting the current input in the moment before a loop would complete.
*
*
The resulting order is not the same as the user-provided order but is influenced by it since
* it may take more than one graph traversal to account for all provided inputs and the graph
* traversals start with the first user provided input and continue from there.
*
*
Also exposes other information about the inputs, like which inputs do not provide symbols.
*/
public final class SortedDependencies {
private final List userOrderedInputs = new ArrayList<>();
private final List importOrderedInputs = new ArrayList<>();
private final Set completedInputs = new HashSet<>();
private final Map nonExportingInputs = new LinkedHashMap<>();
private final Map exportingInputBySymbolName = new HashMap<>();
// Maps an input A to the inputs it depends on, ie, inputs that provide stuff that A requires.
private final SetMultimap importedInputByImportingInput =
LinkedHashMultimap.create();
public SortedDependencies(List userOrderedInputs) {
this.userOrderedInputs.addAll(userOrderedInputs);
processInputs();
}
/**
* Gets all the strong dependencies of the given roots. The inputs must be returned in a stable
* order. In other words, if A comes before B, and A does not transitively depend on B, then A
* must also come before B in the returned list.
*
* @param sorted If true, get them in topologically sorted order. If false, get them in the
* original order they were passed to the compiler.
*/
public ImmutableList getStrongDependenciesOf(List rootInputs, boolean sorted) {
Set includedInputs = new HashSet<>();
Deque worklist = new ArrayDeque<>(rootInputs);
while (!worklist.isEmpty()) {
InputT input = worklist.pop();
if (includedInputs.add(input)) {
for (String symbolName : input.getRequiredSymbols()) {
InputT importedSymbolName = exportingInputBySymbolName.get(symbolName);
if (importedSymbolName != null) {
worklist.add(importedSymbolName);
}
}
}
}
ImmutableList.Builder builder = ImmutableList.builder();
for (InputT input : (sorted ? importOrderedInputs : userOrderedInputs)) {
if (includedInputs.contains(input)) {
builder.add(input);
}
}
return builder.build();
}
/**
* Return the input that gives us the given symbol.
*
* @throws MissingProvideException An exception if there is no input for this symbol.
*/
public InputT getInputProviding(String symbolName) throws MissingProvideException {
InputT input = maybeGetInputProviding(symbolName);
if (input != null) {
return input;
}
throw new MissingProvideException(symbolName);
}
public ImmutableList getInputsWithoutProvides() {
return ImmutableList.copyOf(nonExportingInputs.values());
}
/**
* Gets all the strong dependencies of the given roots. The inputs must be returned in a stable
* order. In other words, if A comes before B, and A does not transitively depend on B, then A
* must also come before B in the returned list.
*/
public ImmutableList getSortedStrongDependenciesOf(List roots) {
return getStrongDependenciesOf(roots, true);
}
/**
* Gets all the weak dependencies of the given roots. The inputs must be returned in stable order.
* In other words, if A comes before B, and A does not * transitively depend on B, then A must
* also come before B in the returned * list.
*
* The weak dependencies are those that are only reachable via type requires from the roots.
* Note that if a root weakly requires another input, then all of its transitive dependencies
* (strong or weak) that are not strongly reachable from the roots will be included. e.g. if A
* weakly requires B, and B strongly requires C, and A is the sole root, then this will return B
* and C. However, if we add D as a root, and D strongly requires C, then this will only return B.
*
*
Root inputs will never be in the returned list as they are all considered strong.
*/
public ImmutableList getSortedWeakDependenciesOf(List rootInputs) {
Set strongInputs = new HashSet<>(getSortedStrongDependenciesOf(rootInputs));
Set weakInputs = new HashSet<>();
Deque worklist = new ArrayDeque<>(strongInputs);
while (!worklist.isEmpty()) {
InputT input = worklist.pop();
boolean isStrong = strongInputs.contains(input);
Iterable edges =
isStrong
? input.getTypeRequires()
: Iterables.concat(input.getRequiredSymbols(), input.getTypeRequires());
if (!isStrong && !weakInputs.add(input)) {
continue;
}
for (String symbolName : edges) {
InputT importedSymbolName = exportingInputBySymbolName.get(symbolName);
if (importedSymbolName != null
&& !strongInputs.contains(importedSymbolName)
&& !weakInputs.contains(importedSymbolName)) {
worklist.add(importedSymbolName);
}
}
}
ImmutableList.Builder builder = ImmutableList.builder();
for (InputT input : importOrderedInputs) {
if (weakInputs.contains(input)) {
builder.add(input);
}
}
return builder.build();
}
public List getSortedList() {
return Collections.unmodifiableList(importOrderedInputs);
}
/** Return the input that gives us the given symbol, or null. */
public InputT maybeGetInputProviding(String symbol) {
if (exportingInputBySymbolName.containsKey(symbol)) {
return exportingInputBySymbolName.get(symbol);
}
return nonExportingInputs.get(ModuleNames.fileToModuleName(symbol));
}
private void orderInput(InputT input) {
if (completedInputs.contains(input)) {
return;
}
completedInputs.add(input);
for (InputT importedInput : importedInputByImportingInput.get(input)) {
orderInput(importedInput);
}
// Emit an input after its imports have been emitted.
importOrderedInputs.add(input);
}
private void processInputs() {
// Index.
for (InputT userOrderedInput : userOrderedInputs) {
ImmutableList provides = userOrderedInput.getProvides();
String firstProvide = Iterables.getFirst(provides, null);
if (firstProvide == null
// "module$" indicates the provide is generated from the path. If this is the only thing
// the module provides and it is not an ES6 module then it is just a script and doesn't
// export anything.
|| (provides.size() == 1
&& firstProvide.startsWith("module$")
// ES6 modules should always be considered as exporting something.
&& !"es6".equals(userOrderedInput.getLoadFlags().get("module")))) {
nonExportingInputs.put(
ModuleNames.fileToModuleName(userOrderedInput.getName()), userOrderedInput);
}
for (String providedSymbolName : userOrderedInput.getProvides()) {
exportingInputBySymbolName.put(providedSymbolName, userOrderedInput);
}
}
for (InputT userOrderedInput : userOrderedInputs) {
for (String symbolName : userOrderedInput.getRequiredSymbols()) {
InputT importedInput = exportingInputBySymbolName.get(symbolName);
if (importedInput != null) {
importedInputByImportingInput.put(userOrderedInput, importedInput);
}
}
}
// Order.
// For each input, traverse in user-provided order.
for (InputT userOrderedInput : userOrderedInputs) {
// Traverse the graph starting from this input and record any
// newly-reached inputs.
orderInput(userOrderedInput);
}
// Free temporary indexes.
completedInputs.clear();
importedInputByImportingInput.clear();
}
public static class MissingProvideException extends Exception {
public MissingProvideException(String provide) {
super(provide);
}
public MissingProvideException(String provide, Exception e) {
super(provide, e);
}
}
}