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r8 / r8 / refs/heads/main / . / src / main / java / com / android / tools / r8 / features / ClassToFeatureSplitMap.java
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// Copyright (c) 2020, the R8 project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
package com.android.tools.r8.features;
import com.android.tools.r8.FeatureSplit;
import com.android.tools.r8.ProgramResource;
import com.android.tools.r8.ProgramResourceProvider;
import com.android.tools.r8.ResourceException;
import com.android.tools.r8.graph.AppInfoWithClassHierarchy;
import com.android.tools.r8.graph.AppView;
import com.android.tools.r8.graph.DexItemFactory;
import com.android.tools.r8.graph.DexProgramClass;
import com.android.tools.r8.graph.DexReference;
import com.android.tools.r8.graph.DexType;
import com.android.tools.r8.graph.ProgramDefinition;
import com.android.tools.r8.graph.PrunedItems;
import com.android.tools.r8.graph.lens.GraphLens;
import com.android.tools.r8.synthesis.SyntheticItems;
import com.android.tools.r8.utils.InternalOptions;
import com.android.tools.r8.utils.Reporter;
import com.android.tools.r8.utils.Timing;
import com.google.common.collect.Sets;
import java.util.IdentityHashMap;
import java.util.Map;
import java.util.Set;
public class ClassToFeatureSplitMap {
private final Map<DexType, FeatureSplit> classToFeatureSplitMap;
private final Map<FeatureSplit, String> representativeStringsForFeatureSplit;
private ClassToFeatureSplitMap(
Map<DexType, FeatureSplit> classToFeatureSplitMap,
Map<FeatureSplit, String> representativeStringsForFeatureSplit) {
this.classToFeatureSplitMap = classToFeatureSplitMap;
this.representativeStringsForFeatureSplit = representativeStringsForFeatureSplit;
}
public static ClassToFeatureSplitMap createEmptyClassToFeatureSplitMap() {
return new ClassToFeatureSplitMap(new IdentityHashMap<>(), null);
}
public static ClassToFeatureSplitMap createInitialClassToFeatureSplitMap(
InternalOptions options) {
return createInitialClassToFeatureSplitMap(
options.dexItemFactory(),
options.featureSplitConfiguration,
options.reporter);
}
public static ClassToFeatureSplitMap createInitialClassToFeatureSplitMap(
DexItemFactory dexItemFactory,
FeatureSplitConfiguration featureSplitConfiguration,
Reporter reporter) {
if (featureSplitConfiguration == null) {
return createEmptyClassToFeatureSplitMap();
}
Map<DexType, FeatureSplit> classToFeatureSplitMap = new IdentityHashMap<>();
Map<FeatureSplit, String> representativeStringsForFeatureSplit = new IdentityHashMap<>();
for (FeatureSplit featureSplit : featureSplitConfiguration.getFeatureSplits()) {
String representativeType = null;
for (ProgramResourceProvider programResourceProvider :
featureSplit.getProgramResourceProviders()) {
try {
for (ProgramResource programResource : programResourceProvider.getProgramResources()) {
for (String classDescriptor : programResource.getClassDescriptors()) {
DexType type = dexItemFactory.createType(classDescriptor);
classToFeatureSplitMap.put(type, featureSplit);
if (representativeType == null || classDescriptor.compareTo(representativeType) > 0) {
representativeType = classDescriptor;
}
}
}
} catch (ResourceException e) {
throw reporter.fatalError(e.getMessage());
}
}
if (representativeType != null) {
representativeStringsForFeatureSplit.put(featureSplit, representativeType);
}
}
return new ClassToFeatureSplitMap(classToFeatureSplitMap, representativeStringsForFeatureSplit);
}
public int compareFeatureSplits(FeatureSplit featureSplitA, FeatureSplit featureSplitB) {
assert featureSplitA != null;
assert featureSplitB != null;
if (featureSplitA == featureSplitB) {
return 0;
}
// Base bigger than any other feature
if (featureSplitA.isBase()) {
return 1;
}
if (featureSplitB.isBase()) {
return -1;
}
return representativeStringsForFeatureSplit
.get(featureSplitA)
.compareTo(representativeStringsForFeatureSplit.get(featureSplitB));
}
public Map<FeatureSplit, Set<DexProgramClass>> getFeatureSplitClasses(
Set<DexProgramClass> classes, AppView<? extends AppInfoWithClassHierarchy> appView) {
return getFeatureSplitClasses(classes, appView.getSyntheticItems());
}
public Map<FeatureSplit, Set<DexProgramClass>> getFeatureSplitClasses(
Set<DexProgramClass> classes,
SyntheticItems syntheticItems) {
Map<FeatureSplit, Set<DexProgramClass>> result = new IdentityHashMap<>();
for (DexProgramClass clazz : classes) {
FeatureSplit featureSplit = getFeatureSplit(clazz, syntheticItems);
if (featureSplit != null && !featureSplit.isBase()) {
result.computeIfAbsent(featureSplit, ignore -> Sets.newIdentityHashSet()).add(clazz);
}
}
return result;
}
public FeatureSplit getFeatureSplit(
ProgramDefinition definition, AppView<? extends AppInfoWithClassHierarchy> appView) {
return getFeatureSplit(definition, appView.getSyntheticItems());
}
public FeatureSplit getFeatureSplit(
ProgramDefinition definition,
SyntheticItems syntheticItems) {
return getFeatureSplit(definition.getReference(), syntheticItems);
}
public FeatureSplit getFeatureSplit(
DexReference reference, AppView<? extends AppInfoWithClassHierarchy> appView) {
return getFeatureSplit(reference, appView.getSyntheticItems());
}
public FeatureSplit getFeatureSplit(DexReference reference, SyntheticItems syntheticItems) {
DexType type = reference.getContextType();
if (syntheticItems == null) {
// Called from AndroidApp.dumpProgramResources().
return classToFeatureSplitMap.getOrDefault(type, FeatureSplit.BASE);
}
FeatureSplit feature;
boolean isSynthetic = syntheticItems.isSyntheticClass(type);
if (isSynthetic) {
if (syntheticItems.isSyntheticOfKind(type, k -> k.ENUM_UNBOXING_SHARED_UTILITY_CLASS)) {
return FeatureSplit.BASE;
}
feature = syntheticItems.getContextualFeatureSplitOrDefault(type, FeatureSplit.BASE);
// Verify the synthetic is not in the class to feature split map or the synthetic has the same
// feature split as its context.
assert classToFeatureSplitMap.getOrDefault(type, feature) == feature;
} else {
feature = classToFeatureSplitMap.getOrDefault(type, FeatureSplit.BASE);
}
if (feature.isBase()) {
return FeatureSplit.BASE;
}
return feature;
}
// Note, this predicate may be misleading as the map does not include synthetics.
// In practice it should not be an issue as there should not be a way to have a feature shrink
// to only contain synthetic content. At a minimum the entry points of the feature must remain.
public boolean isEmpty() {
return classToFeatureSplitMap.isEmpty();
}
public boolean isInBase(ProgramDefinition definition, AppView<?> appView) {
return isInBase(definition, appView.getSyntheticItems());
}
public boolean isInBase(ProgramDefinition definition, SyntheticItems syntheticItems) {
return getFeatureSplit(definition, syntheticItems).isBase();
}
public boolean isInBaseOrSameFeatureAs(
ProgramDefinition clazz,
ProgramDefinition context,
AppView<? extends AppInfoWithClassHierarchy> appView) {
return isInBaseOrSameFeatureAs(
clazz,
context,
appView.getSyntheticItems());
}
public boolean isInBaseOrSameFeatureAs(
ProgramDefinition clazz,
ProgramDefinition context,
SyntheticItems syntheticItems) {
return isInBaseOrSameFeatureAs(clazz.getContextType(), context, syntheticItems);
}
public boolean isInBaseOrSameFeatureAs(
DexType clazz,
ProgramDefinition context,
AppView<? extends AppInfoWithClassHierarchy> appView) {
return isInBaseOrSameFeatureAs(
clazz,
context,
appView.getSyntheticItems());
}
public boolean isInBaseOrSameFeatureAs(
DexType clazz,
ProgramDefinition context,
SyntheticItems syntheticItems) {
FeatureSplit split = getFeatureSplit(clazz, syntheticItems);
return split.isBase() || split == getFeatureSplit(context, syntheticItems);
}
public boolean isInFeature(
DexProgramClass clazz,
SyntheticItems syntheticItems) {
return !isInBase(clazz, syntheticItems);
}
public boolean isInSameFeature(
ProgramDefinition definition, ProgramDefinition other, AppView<?> appView) {
return isInSameFeature(definition, other, appView.getSyntheticItems());
}
public boolean isInSameFeature(
ProgramDefinition definition, ProgramDefinition other, SyntheticItems syntheticItems) {
return getFeatureSplit(definition, syntheticItems) == getFeatureSplit(other, syntheticItems);
}
public ClassToFeatureSplitMap rewrittenWithLens(GraphLens lens, Timing timing) {
return timing.time("Rewrite ClassToFeatureSplitMap", () -> rewrittenWithLens(lens));
}
private ClassToFeatureSplitMap rewrittenWithLens(GraphLens lens) {
Map<DexType, FeatureSplit> rewrittenClassToFeatureSplitMap = new IdentityHashMap<>();
classToFeatureSplitMap.forEach(
(type, featureSplit) -> {
DexType rewrittenType = lens.lookupType(type, GraphLens.getIdentityLens());
if (rewrittenType.isIntType()) {
// The type was removed by enum unboxing.
return;
}
FeatureSplit existing = rewrittenClassToFeatureSplitMap.put(rewrittenType, featureSplit);
// If we map two classes to the same class then they must be from the same feature split.
assert existing == null || existing == featureSplit;
});
return new ClassToFeatureSplitMap(
rewrittenClassToFeatureSplitMap, representativeStringsForFeatureSplit);
}
public ClassToFeatureSplitMap withoutPrunedItems(PrunedItems prunedItems) {
Map<DexType, FeatureSplit> rewrittenClassToFeatureSplitMap = new IdentityHashMap<>();
classToFeatureSplitMap.forEach(
(type, featureSplit) -> {
if (!prunedItems.getRemovedClasses().contains(type)) {
rewrittenClassToFeatureSplitMap.put(type, featureSplit);
}
});
return new ClassToFeatureSplitMap(
rewrittenClassToFeatureSplitMap, representativeStringsForFeatureSplit);
}
// Static helpers to avoid verbose predicates.
private static ClassToFeatureSplitMap getMap(
AppView<? extends AppInfoWithClassHierarchy> appView) {
return appView.appInfo().getClassToFeatureSplitMap();
}
public static boolean isInFeature(
DexProgramClass clazz, AppView<? extends AppInfoWithClassHierarchy> appView) {
return getMap(appView).isInFeature(clazz, appView.getSyntheticItems());
}
}