| // Copyright (c) 2019, 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.shaking; |
| |
| import static com.android.tools.r8.graph.GraphLense.rewriteReferenceKeys; |
| |
| import com.android.tools.r8.graph.AppInfoWithSubtyping; |
| import com.android.tools.r8.graph.DexApplication; |
| import com.android.tools.r8.graph.DexCallSite; |
| import com.android.tools.r8.graph.DexClass; |
| import com.android.tools.r8.graph.DexEncodedMethod; |
| import com.android.tools.r8.graph.DexField; |
| import com.android.tools.r8.graph.DexMethod; |
| 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.DexTypeList; |
| import com.android.tools.r8.graph.DirectMappedDexApplication; |
| import com.android.tools.r8.graph.GraphLense; |
| import com.android.tools.r8.graph.PresortedComparable; |
| import com.android.tools.r8.ir.code.Invoke.Type; |
| import com.android.tools.r8.utils.CollectionUtils; |
| import com.google.common.collect.ImmutableList; |
| import com.google.common.collect.ImmutableSet; |
| import com.google.common.collect.ImmutableSortedSet; |
| import com.google.common.collect.Iterables; |
| import com.google.common.collect.Sets; |
| import it.unimi.dsi.fastutil.ints.Int2ReferenceMap; |
| import it.unimi.dsi.fastutil.objects.Object2BooleanMap; |
| import it.unimi.dsi.fastutil.objects.Reference2IntMap; |
| import java.util.ArrayDeque; |
| import java.util.Collection; |
| import java.util.Collections; |
| import java.util.Deque; |
| import java.util.IdentityHashMap; |
| import java.util.Map; |
| import java.util.Objects; |
| import java.util.Set; |
| import java.util.SortedMap; |
| import java.util.SortedSet; |
| import java.util.TreeMap; |
| import java.util.function.Function; |
| import java.util.function.Predicate; |
| import java.util.stream.Collectors; |
| |
| /** Encapsulates liveness and reachability information for an application. */ |
| public class AppInfoWithLiveness extends AppInfoWithSubtyping { |
| |
| /** |
| * Set of types that are mentioned in the program. We at least need an empty abstract classitem |
| * for these. |
| */ |
| public final SortedSet<DexType> liveTypes; |
| /** Set of annotation types that are instantiated. */ |
| final SortedSet<DexType> instantiatedAnnotationTypes; |
| /** |
| * Set of service types (from META-INF/services/) that may have been instantiated reflectively via |
| * ServiceLoader.load() or ServiceLoader.loadInstalled(). |
| */ |
| public final SortedSet<DexType> instantiatedAppServices; |
| /** Set of types that are actually instantiated. These cannot be abstract. */ |
| final SortedSet<DexType> instantiatedTypes; |
| /** Cache for {@link #isInstantiatedDirectlyOrIndirectly(DexType)}. */ |
| private final IdentityHashMap<DexType, Boolean> indirectlyInstantiatedTypes = |
| new IdentityHashMap<>(); |
| /** |
| * Set of methods that are the immediate target of an invoke. They might not actually be live but |
| * are required so that invokes can find the method. If such a method is not live (i.e. not |
| * contained in {@link #liveMethods}, it may be marked as abstract and its implementation may be |
| * removed. |
| */ |
| final SortedSet<DexMethod> targetedMethods; |
| /** |
| * Set of program methods that are used as the bootstrap method for an invoke-dynamic instruction. |
| */ |
| public final SortedSet<DexMethod> bootstrapMethods; |
| /** Set of methods that are the immediate target of an invoke-dynamic. */ |
| public final SortedSet<DexMethod> methodsTargetedByInvokeDynamic; |
| /** Set of virtual methods that are the immediate target of an invoke-direct. */ |
| final SortedSet<DexMethod> virtualMethodsTargetedByInvokeDirect; |
| /** |
| * Set of methods that belong to live classes and can be reached by invokes. These need to be |
| * kept. |
| */ |
| public final SortedSet<DexMethod> liveMethods; |
| /** |
| * Set of all fields which may be touched by a get operation. This is actual field definitions. |
| * The set does not include kept fields nor library fields, since these are read by definition. |
| */ |
| private final SortedSet<DexField> fieldsRead; |
| /** |
| * Set of all fields which may be touched by a put operation. This is actual field definitions. |
| * The set does not include kept fields nor library fields, since these are written by definition. |
| */ |
| private SortedSet<DexField> fieldsWritten; |
| /** |
| * Set of all static fields that are only written inside the <clinit>() method of their enclosing |
| * class. |
| */ |
| private SortedSet<DexField> staticFieldsWrittenOnlyInEnclosingStaticInitializer; |
| /** Set of all field ids used in instance field reads, along with access context. */ |
| public final SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldReads; |
| /** Set of all field ids used in instance field writes, along with access context. */ |
| public final SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldWrites; |
| /** Set of all field ids used in static field reads, along with access context. */ |
| public final SortedMap<DexField, Set<DexEncodedMethod>> staticFieldReads; |
| /** Set of all field ids used in static field writes, along with access context. */ |
| public final SortedMap<DexField, Set<DexEncodedMethod>> staticFieldWrites; |
| /** Set of all methods referenced in virtual invokes, along with calling context. */ |
| public final SortedMap<DexMethod, Set<DexEncodedMethod>> virtualInvokes; |
| /** Set of all methods referenced in interface invokes, along with calling context. */ |
| public final SortedMap<DexMethod, Set<DexEncodedMethod>> interfaceInvokes; |
| /** Set of all methods referenced in super invokes, along with calling context. */ |
| public final SortedMap<DexMethod, Set<DexEncodedMethod>> superInvokes; |
| /** Set of all methods referenced in direct invokes, along with calling context. */ |
| public final SortedMap<DexMethod, Set<DexEncodedMethod>> directInvokes; |
| /** Set of all methods referenced in static invokes, along with calling context. */ |
| public final SortedMap<DexMethod, Set<DexEncodedMethod>> staticInvokes; |
| /** |
| * Set of live call sites in the code. Note that if desugaring has taken place call site objects |
| * will have been removed from the code. |
| */ |
| public final Set<DexCallSite> callSites; |
| /** |
| * Set of method signatures used in invoke-super instructions that either cannot be resolved or |
| * resolve to a private method (leading to an IllegalAccessError). |
| */ |
| public final SortedSet<DexMethod> brokenSuperInvokes; |
| /** Set of all items that have to be kept independent of whether they are used. */ |
| final Set<DexReference> pinnedItems; |
| /** All items with assumemayhavesideeffects rule. */ |
| public final Map<DexReference, ProguardMemberRule> mayHaveSideEffects; |
| /** All items with assumenosideeffects rule. */ |
| public final Map<DexReference, ProguardMemberRule> noSideEffects; |
| /** All items with assumevalues rule. */ |
| public final Map<DexReference, ProguardMemberRule> assumedValues; |
| /** All methods that should be inlined if possible due to a configuration directive. */ |
| public final Set<DexMethod> alwaysInline; |
| /** All methods that *must* be inlined due to a configuration directive (testing only). */ |
| public final Set<DexMethod> forceInline; |
| /** All methods that *must* never be inlined due to a configuration directive (testing only). */ |
| public final Set<DexMethod> neverInline; |
| /** All methods that may not have any parameters with a constant value removed. */ |
| public final Set<DexMethod> keepConstantArguments; |
| /** All methods that may not have any unused arguments removed. */ |
| public final Set<DexMethod> keepUnusedArguments; |
| /** All types that *must* never be inlined due to a configuration directive (testing only). */ |
| public final Set<DexType> neverClassInline; |
| /** All types that *must* never be merged due to a configuration directive (testing only). */ |
| public final Set<DexType> neverMerge; |
| /** |
| * All methods and fields whose value *must* never be propagated due to a configuration directive. |
| * (testing only). |
| */ |
| private final Set<DexReference> neverPropagateValue; |
| /** |
| * All items with -identifiernamestring rule. Bound boolean value indicates the rule is explicitly |
| * specified by users (<code>true</code>) or not, i.e., implicitly added by R8 (<code>false</code> |
| * ). |
| */ |
| public final Object2BooleanMap<DexReference> identifierNameStrings; |
| /** A set of types that have been removed by the {@link TreePruner}. */ |
| final Set<DexType> prunedTypes; |
| /** A map from switchmap class types to their corresponding switchmaps. */ |
| final Map<DexField, Int2ReferenceMap<DexField>> switchMaps; |
| /** A map from enum types to their ordinal values. */ |
| final Map<DexType, Reference2IntMap<DexField>> ordinalsMaps; |
| |
| final ImmutableSortedSet<DexType> instantiatedLambdas; |
| |
| // TODO(zerny): Clean up the constructors so we have just one. |
| private AppInfoWithLiveness( |
| DexApplication application, |
| SortedSet<DexType> liveTypes, |
| SortedSet<DexType> instantiatedAnnotationTypes, |
| SortedSet<DexType> instantiatedAppServices, |
| SortedSet<DexType> instantiatedTypes, |
| SortedSet<DexMethod> targetedMethods, |
| SortedSet<DexMethod> bootstrapMethods, |
| SortedSet<DexMethod> methodsTargetedByInvokeDynamic, |
| SortedSet<DexMethod> virtualMethodsTargetedByInvokeDirect, |
| SortedSet<DexMethod> liveMethods, |
| SortedSet<DexField> fieldsRead, |
| SortedSet<DexField> fieldsWritten, |
| SortedSet<DexField> staticFieldsWrittenOnlyInEnclosingStaticInitializer, |
| SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldReads, |
| SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldWrites, |
| SortedMap<DexField, Set<DexEncodedMethod>> staticFieldReads, |
| SortedMap<DexField, Set<DexEncodedMethod>> staticFieldWrites, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> virtualInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> interfaceInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> superInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> directInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> staticInvokes, |
| Set<DexCallSite> callSites, |
| SortedSet<DexMethod> brokenSuperInvokes, |
| Set<DexReference> pinnedItems, |
| Map<DexReference, ProguardMemberRule> mayHaveSideEffects, |
| Map<DexReference, ProguardMemberRule> noSideEffects, |
| Map<DexReference, ProguardMemberRule> assumedValues, |
| Set<DexMethod> alwaysInline, |
| Set<DexMethod> forceInline, |
| Set<DexMethod> neverInline, |
| Set<DexMethod> keepConstantArguments, |
| Set<DexMethod> keepUnusedArguments, |
| Set<DexType> neverClassInline, |
| Set<DexType> neverMerge, |
| Set<DexReference> neverPropagateValue, |
| Object2BooleanMap<DexReference> identifierNameStrings, |
| Set<DexType> prunedTypes, |
| Map<DexField, Int2ReferenceMap<DexField>> switchMaps, |
| Map<DexType, Reference2IntMap<DexField>> ordinalsMaps, |
| ImmutableSortedSet<DexType> instantiatedLambdas) { |
| super(application); |
| this.liveTypes = liveTypes; |
| this.instantiatedAnnotationTypes = instantiatedAnnotationTypes; |
| this.instantiatedAppServices = instantiatedAppServices; |
| this.instantiatedTypes = instantiatedTypes; |
| this.targetedMethods = targetedMethods; |
| this.bootstrapMethods = bootstrapMethods; |
| this.methodsTargetedByInvokeDynamic = methodsTargetedByInvokeDynamic; |
| this.virtualMethodsTargetedByInvokeDirect = virtualMethodsTargetedByInvokeDirect; |
| this.liveMethods = liveMethods; |
| this.instanceFieldReads = instanceFieldReads; |
| this.instanceFieldWrites = instanceFieldWrites; |
| this.staticFieldReads = staticFieldReads; |
| this.staticFieldWrites = staticFieldWrites; |
| this.fieldsRead = fieldsRead; |
| this.fieldsWritten = fieldsWritten; |
| this.staticFieldsWrittenOnlyInEnclosingStaticInitializer = |
| staticFieldsWrittenOnlyInEnclosingStaticInitializer; |
| this.pinnedItems = pinnedItems; |
| this.mayHaveSideEffects = mayHaveSideEffects; |
| this.noSideEffects = noSideEffects; |
| this.assumedValues = assumedValues; |
| this.virtualInvokes = virtualInvokes; |
| this.interfaceInvokes = interfaceInvokes; |
| this.superInvokes = superInvokes; |
| this.directInvokes = directInvokes; |
| this.staticInvokes = staticInvokes; |
| this.callSites = callSites; |
| this.brokenSuperInvokes = brokenSuperInvokes; |
| this.alwaysInline = alwaysInline; |
| this.forceInline = forceInline; |
| this.neverInline = neverInline; |
| this.keepConstantArguments = keepConstantArguments; |
| this.keepUnusedArguments = keepUnusedArguments; |
| this.neverClassInline = neverClassInline; |
| this.neverMerge = neverMerge; |
| this.neverPropagateValue = neverPropagateValue; |
| this.identifierNameStrings = identifierNameStrings; |
| this.prunedTypes = prunedTypes; |
| this.switchMaps = switchMaps; |
| this.ordinalsMaps = ordinalsMaps; |
| this.instantiatedLambdas = instantiatedLambdas; |
| assert Sets.intersection(instanceFieldReads.keySet(), staticFieldReads.keySet()).isEmpty(); |
| assert Sets.intersection(instanceFieldWrites.keySet(), staticFieldWrites.keySet()).isEmpty(); |
| } |
| |
| public AppInfoWithLiveness( |
| AppInfoWithSubtyping appInfoWithSubtyping, |
| SortedSet<DexType> liveTypes, |
| SortedSet<DexType> instantiatedAnnotationTypes, |
| SortedSet<DexType> instantiatedAppServices, |
| SortedSet<DexType> instantiatedTypes, |
| SortedSet<DexMethod> targetedMethods, |
| SortedSet<DexMethod> bootstrapMethods, |
| SortedSet<DexMethod> methodsTargetedByInvokeDynamic, |
| SortedSet<DexMethod> virtualMethodsTargetedByInvokeDirect, |
| SortedSet<DexMethod> liveMethods, |
| SortedSet<DexField> fieldsRead, |
| SortedSet<DexField> fieldsWritten, |
| SortedSet<DexField> staticFieldsWrittenOnlyInEnclosingStaticInitializer, |
| SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldReads, |
| SortedMap<DexField, Set<DexEncodedMethod>> instanceFieldWrites, |
| SortedMap<DexField, Set<DexEncodedMethod>> staticFieldReads, |
| SortedMap<DexField, Set<DexEncodedMethod>> staticFieldWrites, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> virtualInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> interfaceInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> superInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> directInvokes, |
| SortedMap<DexMethod, Set<DexEncodedMethod>> staticInvokes, |
| Set<DexCallSite> callSites, |
| SortedSet<DexMethod> brokenSuperInvokes, |
| Set<DexReference> pinnedItems, |
| Map<DexReference, ProguardMemberRule> mayHaveSideEffects, |
| Map<DexReference, ProguardMemberRule> noSideEffects, |
| Map<DexReference, ProguardMemberRule> assumedValues, |
| Set<DexMethod> alwaysInline, |
| Set<DexMethod> forceInline, |
| Set<DexMethod> neverInline, |
| Set<DexMethod> keepConstantArguments, |
| Set<DexMethod> keepUnusedArguments, |
| Set<DexType> neverClassInline, |
| Set<DexType> neverMerge, |
| Set<DexReference> neverPropagateValue, |
| Object2BooleanMap<DexReference> identifierNameStrings, |
| Set<DexType> prunedTypes, |
| Map<DexField, Int2ReferenceMap<DexField>> switchMaps, |
| Map<DexType, Reference2IntMap<DexField>> ordinalsMaps, |
| ImmutableSortedSet<DexType> instantiatedLambdas) { |
| super(appInfoWithSubtyping); |
| this.liveTypes = liveTypes; |
| this.instantiatedAnnotationTypes = instantiatedAnnotationTypes; |
| this.instantiatedAppServices = instantiatedAppServices; |
| this.instantiatedTypes = instantiatedTypes; |
| this.targetedMethods = targetedMethods; |
| this.bootstrapMethods = bootstrapMethods; |
| this.methodsTargetedByInvokeDynamic = methodsTargetedByInvokeDynamic; |
| this.virtualMethodsTargetedByInvokeDirect = virtualMethodsTargetedByInvokeDirect; |
| this.liveMethods = liveMethods; |
| this.instanceFieldReads = instanceFieldReads; |
| this.instanceFieldWrites = instanceFieldWrites; |
| this.staticFieldReads = staticFieldReads; |
| this.staticFieldWrites = staticFieldWrites; |
| this.fieldsRead = fieldsRead; |
| this.fieldsWritten = fieldsWritten; |
| this.staticFieldsWrittenOnlyInEnclosingStaticInitializer = |
| staticFieldsWrittenOnlyInEnclosingStaticInitializer; |
| this.pinnedItems = pinnedItems; |
| this.mayHaveSideEffects = mayHaveSideEffects; |
| this.noSideEffects = noSideEffects; |
| this.assumedValues = assumedValues; |
| this.virtualInvokes = virtualInvokes; |
| this.interfaceInvokes = interfaceInvokes; |
| this.superInvokes = superInvokes; |
| this.directInvokes = directInvokes; |
| this.staticInvokes = staticInvokes; |
| this.callSites = callSites; |
| this.brokenSuperInvokes = brokenSuperInvokes; |
| this.alwaysInline = alwaysInline; |
| this.forceInline = forceInline; |
| this.neverInline = neverInline; |
| this.keepConstantArguments = keepConstantArguments; |
| this.keepUnusedArguments = keepUnusedArguments; |
| this.neverClassInline = neverClassInline; |
| this.neverMerge = neverMerge; |
| this.neverPropagateValue = neverPropagateValue; |
| this.identifierNameStrings = identifierNameStrings; |
| this.prunedTypes = prunedTypes; |
| this.switchMaps = switchMaps; |
| this.ordinalsMaps = ordinalsMaps; |
| this.instantiatedLambdas = instantiatedLambdas; |
| assert Sets.intersection(instanceFieldReads.keySet(), staticFieldReads.keySet()).isEmpty(); |
| assert Sets.intersection(instanceFieldWrites.keySet(), staticFieldWrites.keySet()).isEmpty(); |
| } |
| |
| private AppInfoWithLiveness(AppInfoWithLiveness previous) { |
| this(previous, previous.app(), null); |
| } |
| |
| private AppInfoWithLiveness( |
| AppInfoWithLiveness previous, |
| DexApplication application, |
| Collection<DexType> removedClasses) { |
| this( |
| application, |
| previous.liveTypes, |
| previous.instantiatedAnnotationTypes, |
| previous.instantiatedAppServices, |
| previous.instantiatedTypes, |
| previous.targetedMethods, |
| previous.bootstrapMethods, |
| previous.methodsTargetedByInvokeDynamic, |
| previous.virtualMethodsTargetedByInvokeDirect, |
| previous.liveMethods, |
| previous.fieldsRead, |
| previous.fieldsWritten, |
| previous.staticFieldsWrittenOnlyInEnclosingStaticInitializer, |
| previous.instanceFieldReads, |
| previous.instanceFieldWrites, |
| previous.staticFieldReads, |
| previous.staticFieldWrites, |
| previous.virtualInvokes, |
| previous.interfaceInvokes, |
| previous.superInvokes, |
| previous.directInvokes, |
| previous.staticInvokes, |
| previous.callSites, |
| previous.brokenSuperInvokes, |
| previous.pinnedItems, |
| previous.mayHaveSideEffects, |
| previous.noSideEffects, |
| previous.assumedValues, |
| previous.alwaysInline, |
| previous.forceInline, |
| previous.neverInline, |
| previous.keepConstantArguments, |
| previous.keepUnusedArguments, |
| previous.neverClassInline, |
| previous.neverMerge, |
| previous.neverPropagateValue, |
| previous.identifierNameStrings, |
| removedClasses == null |
| ? previous.prunedTypes |
| : CollectionUtils.mergeSets(previous.prunedTypes, removedClasses), |
| previous.switchMaps, |
| previous.ordinalsMaps, |
| previous.instantiatedLambdas); |
| copyMetadataFromPrevious(previous); |
| assert removedClasses == null || assertNoItemRemoved(previous.pinnedItems, removedClasses); |
| assert Sets.intersection(instanceFieldReads.keySet(), staticFieldReads.keySet()).isEmpty(); |
| assert Sets.intersection(instanceFieldWrites.keySet(), staticFieldWrites.keySet()).isEmpty(); |
| } |
| |
| private AppInfoWithLiveness( |
| AppInfoWithLiveness previous, DirectMappedDexApplication application, GraphLense lense) { |
| super(application); |
| this.liveTypes = rewriteItems(previous.liveTypes, lense::lookupType); |
| this.instantiatedAnnotationTypes = |
| rewriteItems(previous.instantiatedAnnotationTypes, lense::lookupType); |
| this.instantiatedAppServices = |
| rewriteItems(previous.instantiatedAppServices, lense::lookupType); |
| this.instantiatedTypes = rewriteItems(previous.instantiatedTypes, lense::lookupType); |
| this.instantiatedLambdas = rewriteItems(previous.instantiatedLambdas, lense::lookupType); |
| this.targetedMethods = lense.rewriteMethodsConservatively(previous.targetedMethods); |
| this.bootstrapMethods = lense.rewriteMethodsConservatively(previous.bootstrapMethods); |
| this.methodsTargetedByInvokeDynamic = |
| lense.rewriteMethodsConservatively(previous.methodsTargetedByInvokeDynamic); |
| this.virtualMethodsTargetedByInvokeDirect = |
| lense.rewriteMethodsConservatively(previous.virtualMethodsTargetedByInvokeDirect); |
| this.liveMethods = lense.rewriteMethodsConservatively(previous.liveMethods); |
| this.instanceFieldReads = |
| rewriteKeysWhileMergingValues(previous.instanceFieldReads, lense::lookupField); |
| this.instanceFieldWrites = |
| rewriteKeysWhileMergingValues(previous.instanceFieldWrites, lense::lookupField); |
| this.staticFieldReads = |
| rewriteKeysWhileMergingValues(previous.staticFieldReads, lense::lookupField); |
| this.staticFieldWrites = |
| rewriteKeysWhileMergingValues(previous.staticFieldWrites, lense::lookupField); |
| this.fieldsRead = rewriteItems(previous.fieldsRead, lense::lookupField); |
| this.fieldsWritten = rewriteItems(previous.fieldsWritten, lense::lookupField); |
| this.staticFieldsWrittenOnlyInEnclosingStaticInitializer = |
| rewriteItems( |
| previous.staticFieldsWrittenOnlyInEnclosingStaticInitializer, lense::lookupField); |
| this.pinnedItems = lense.rewriteReferencesConservatively(previous.pinnedItems); |
| this.virtualInvokes = |
| rewriteKeysConservativelyWhileMergingValues( |
| previous.virtualInvokes, lense::lookupMethodInAllContexts); |
| this.interfaceInvokes = |
| rewriteKeysConservativelyWhileMergingValues( |
| previous.interfaceInvokes, lense::lookupMethodInAllContexts); |
| this.superInvokes = |
| rewriteKeysConservativelyWhileMergingValues( |
| previous.superInvokes, lense::lookupMethodInAllContexts); |
| this.directInvokes = |
| rewriteKeysConservativelyWhileMergingValues( |
| previous.directInvokes, lense::lookupMethodInAllContexts); |
| this.staticInvokes = |
| rewriteKeysConservativelyWhileMergingValues( |
| previous.staticInvokes, lense::lookupMethodInAllContexts); |
| // TODO(sgjesse): Rewrite call sites as well? Right now they are only used by minification |
| // after second tree shaking. |
| this.callSites = previous.callSites; |
| this.brokenSuperInvokes = lense.rewriteMethodsConservatively(previous.brokenSuperInvokes); |
| // Don't rewrite pruned types - the removed types are identified by their original name. |
| this.prunedTypes = previous.prunedTypes; |
| this.mayHaveSideEffects = |
| rewriteReferenceKeys(previous.mayHaveSideEffects, lense::lookupReference); |
| this.noSideEffects = rewriteReferenceKeys(previous.noSideEffects, lense::lookupReference); |
| this.assumedValues = rewriteReferenceKeys(previous.assumedValues, lense::lookupReference); |
| assert lense.assertDefinitionsNotModified( |
| previous.alwaysInline.stream() |
| .map(this::definitionFor) |
| .filter(Objects::nonNull) |
| .collect(Collectors.toList())); |
| this.alwaysInline = lense.rewriteMethodsWithRenamedSignature(previous.alwaysInline); |
| this.forceInline = lense.rewriteMethodsWithRenamedSignature(previous.forceInline); |
| this.neverInline = lense.rewriteMethodsWithRenamedSignature(previous.neverInline); |
| this.keepConstantArguments = |
| lense.rewriteMethodsWithRenamedSignature(previous.keepConstantArguments); |
| this.keepUnusedArguments = |
| lense.rewriteMethodsWithRenamedSignature(previous.keepUnusedArguments); |
| assert lense.assertDefinitionsNotModified( |
| previous.neverMerge.stream() |
| .map(this::definitionFor) |
| .filter(Objects::nonNull) |
| .collect(Collectors.toList())); |
| this.neverClassInline = rewriteItems(previous.neverClassInline, lense::lookupType); |
| this.neverMerge = rewriteItems(previous.neverMerge, lense::lookupType); |
| this.neverPropagateValue = lense.rewriteReferencesConservatively(previous.neverPropagateValue); |
| this.identifierNameStrings = |
| lense.rewriteReferencesConservatively(previous.identifierNameStrings); |
| // Switchmap classes should never be affected by renaming. |
| assert lense.assertDefinitionsNotModified( |
| previous.switchMaps.keySet().stream() |
| .map(this::definitionFor) |
| .filter(Objects::nonNull) |
| .collect(Collectors.toList())); |
| this.switchMaps = rewriteReferenceKeys(previous.switchMaps, lense::lookupField); |
| this.ordinalsMaps = rewriteReferenceKeys(previous.ordinalsMaps, lense::lookupType); |
| // Sanity check sets after rewriting. |
| assert Sets.intersection(instanceFieldReads.keySet(), staticFieldReads.keySet()).isEmpty(); |
| assert Sets.intersection(instanceFieldWrites.keySet(), staticFieldWrites.keySet()).isEmpty(); |
| } |
| |
| public AppInfoWithLiveness( |
| AppInfoWithLiveness previous, |
| Map<DexField, Int2ReferenceMap<DexField>> switchMaps, |
| Map<DexType, Reference2IntMap<DexField>> ordinalsMaps) { |
| super(previous); |
| this.liveTypes = previous.liveTypes; |
| this.instantiatedAnnotationTypes = previous.instantiatedAnnotationTypes; |
| this.instantiatedAppServices = previous.instantiatedAppServices; |
| this.instantiatedTypes = previous.instantiatedTypes; |
| this.instantiatedLambdas = previous.instantiatedLambdas; |
| this.targetedMethods = previous.targetedMethods; |
| this.bootstrapMethods = previous.bootstrapMethods; |
| this.methodsTargetedByInvokeDynamic = previous.methodsTargetedByInvokeDynamic; |
| this.virtualMethodsTargetedByInvokeDirect = previous.virtualMethodsTargetedByInvokeDirect; |
| this.liveMethods = previous.liveMethods; |
| this.instanceFieldReads = previous.instanceFieldReads; |
| this.instanceFieldWrites = previous.instanceFieldWrites; |
| this.staticFieldReads = previous.staticFieldReads; |
| this.staticFieldWrites = previous.staticFieldWrites; |
| this.fieldsRead = previous.fieldsRead; |
| this.fieldsWritten = previous.fieldsWritten; |
| this.staticFieldsWrittenOnlyInEnclosingStaticInitializer = |
| previous.staticFieldsWrittenOnlyInEnclosingStaticInitializer; |
| this.pinnedItems = previous.pinnedItems; |
| this.mayHaveSideEffects = previous.mayHaveSideEffects; |
| this.noSideEffects = previous.noSideEffects; |
| this.assumedValues = previous.assumedValues; |
| this.virtualInvokes = previous.virtualInvokes; |
| this.interfaceInvokes = previous.interfaceInvokes; |
| this.superInvokes = previous.superInvokes; |
| this.directInvokes = previous.directInvokes; |
| this.staticInvokes = previous.staticInvokes; |
| this.callSites = previous.callSites; |
| this.brokenSuperInvokes = previous.brokenSuperInvokes; |
| this.alwaysInline = previous.alwaysInline; |
| this.forceInline = previous.forceInline; |
| this.neverInline = previous.neverInline; |
| this.keepConstantArguments = previous.keepConstantArguments; |
| this.keepUnusedArguments = previous.keepUnusedArguments; |
| this.neverClassInline = previous.neverClassInline; |
| this.neverMerge = previous.neverMerge; |
| this.neverPropagateValue = previous.neverPropagateValue; |
| this.identifierNameStrings = previous.identifierNameStrings; |
| this.prunedTypes = previous.prunedTypes; |
| this.switchMaps = switchMaps; |
| this.ordinalsMaps = ordinalsMaps; |
| previous.markObsolete(); |
| } |
| |
| public Collection<DexClass> computeReachableInterfaces(Set<DexCallSite> desugaredCallSites) { |
| Set<DexClass> interfaces = Sets.newIdentityHashSet(); |
| Set<DexType> seen = Sets.newIdentityHashSet(); |
| Deque<DexType> worklist = new ArrayDeque<>(); |
| for (DexProgramClass clazz : classes()) { |
| worklist.add(clazz.type); |
| } |
| // TODO(b/129458850): Remove this once desugared classes are made part of the program classes. |
| for (DexCallSite callSite : desugaredCallSites) { |
| for (DexEncodedMethod method : lookupLambdaImplementedMethods(callSite)) { |
| worklist.add(method.method.holder); |
| } |
| } |
| for (DexCallSite callSite : callSites) { |
| for (DexEncodedMethod method : lookupLambdaImplementedMethods(callSite)) { |
| worklist.add(method.method.holder); |
| } |
| } |
| while (!worklist.isEmpty()) { |
| DexType type = worklist.pop(); |
| if (!seen.add(type)) { |
| continue; |
| } |
| DexClass definition = definitionFor(type); |
| if (definition == null) { |
| continue; |
| } |
| if (definition.isInterface()) { |
| interfaces.add(definition); |
| } |
| if (definition.superType != null) { |
| worklist.add(definition.superType); |
| } |
| Collections.addAll(worklist, definition.interfaces.values); |
| } |
| return interfaces; |
| } |
| |
| public AppInfoWithLiveness withoutStaticFieldsWrites(Set<DexField> noLongerWrittenFields) { |
| assert checkIfObsolete(); |
| if (noLongerWrittenFields.isEmpty()) { |
| return this; |
| } |
| AppInfoWithLiveness result = new AppInfoWithLiveness(this); |
| Predicate<DexField> isFieldWritten = field -> !noLongerWrittenFields.contains(field); |
| result.fieldsWritten = filter(fieldsWritten, isFieldWritten); |
| result.staticFieldsWrittenOnlyInEnclosingStaticInitializer = |
| filter(staticFieldsWrittenOnlyInEnclosingStaticInitializer, isFieldWritten); |
| return result; |
| } |
| |
| private <T extends PresortedComparable<T>> SortedSet<T> filter( |
| Set<T> items, Predicate<T> predicate) { |
| return ImmutableSortedSet.copyOf( |
| PresortedComparable::slowCompareTo, |
| items.stream().filter(predicate).collect(Collectors.toList())); |
| } |
| |
| public Reference2IntMap<DexField> getOrdinalsMapFor(DexType enumClass) { |
| assert checkIfObsolete(); |
| return ordinalsMaps.get(enumClass); |
| } |
| |
| public Int2ReferenceMap<DexField> getSwitchMapFor(DexField field) { |
| assert checkIfObsolete(); |
| return switchMaps.get(field); |
| } |
| |
| private boolean assertNoItemRemoved(Collection<DexReference> items, Collection<DexType> types) { |
| Set<DexType> typeSet = ImmutableSet.copyOf(types); |
| for (DexReference item : items) { |
| DexType typeToCheck; |
| if (item.isDexType()) { |
| typeToCheck = item.asDexType(); |
| } else if (item.isDexMethod()) { |
| typeToCheck = item.asDexMethod().holder; |
| } else { |
| assert item.isDexField(); |
| typeToCheck = item.asDexField().holder; |
| } |
| assert !typeSet.contains(typeToCheck); |
| } |
| return true; |
| } |
| |
| public boolean isInstantiatedDirectly(DexType type) { |
| assert checkIfObsolete(); |
| assert type.isClassType(); |
| return type.isD8R8SynthesizedClassType() |
| || instantiatedTypes.contains(type) |
| || instantiatedLambdas.contains(type) |
| || instantiatedAnnotationTypes.contains(type); |
| } |
| |
| public boolean isInstantiatedIndirectly(DexType type) { |
| assert checkIfObsolete(); |
| assert type.isClassType(); |
| synchronized (indirectlyInstantiatedTypes) { |
| if (indirectlyInstantiatedTypes.containsKey(type)) { |
| return indirectlyInstantiatedTypes.get(type).booleanValue(); |
| } |
| for (DexType directSubtype : allImmediateSubtypes(type)) { |
| if (isInstantiatedDirectlyOrIndirectly(directSubtype)) { |
| indirectlyInstantiatedTypes.put(type, Boolean.TRUE); |
| return true; |
| } |
| } |
| indirectlyInstantiatedTypes.put(type, Boolean.FALSE); |
| return false; |
| } |
| } |
| |
| public boolean isInstantiatedDirectlyOrIndirectly(DexType type) { |
| assert checkIfObsolete(); |
| assert type.isClassType(); |
| return isInstantiatedDirectly(type) || isInstantiatedIndirectly(type); |
| } |
| |
| public boolean isFieldRead(DexField field) { |
| assert checkIfObsolete(); |
| return fieldsRead.contains(field) |
| || isPinned(field) |
| // Fields in the class that is synthesized by D8/R8 would be used soon. |
| || field.holder.isD8R8SynthesizedClassType() |
| // For library classes we don't know whether a field is read. |
| || isLibraryOrClasspathField(field); |
| } |
| |
| public boolean isFieldWritten(DexField field) { |
| assert checkIfObsolete(); |
| return fieldsWritten.contains(field) |
| || isPinned(field) |
| // Fields in the class that is synthesized by D8/R8 would be used soon. |
| || field.holder.isD8R8SynthesizedClassType() |
| // For library classes we don't know whether a field is rewritten. |
| || isLibraryOrClasspathField(field); |
| } |
| |
| public boolean isStaticFieldWrittenOnlyInEnclosingStaticInitializer(DexField field) { |
| assert checkIfObsolete(); |
| assert isFieldWritten(field); |
| return staticFieldsWrittenOnlyInEnclosingStaticInitializer.contains(field); |
| } |
| |
| public boolean mayPropagateValueFor(DexReference reference) { |
| assert checkIfObsolete(); |
| return !isPinned(reference) && !neverPropagateValue.contains(reference); |
| } |
| |
| private boolean isLibraryOrClasspathField(DexField field) { |
| DexClass holder = definitionFor(field.holder); |
| return holder == null || holder.isLibraryClass() || holder.isClasspathClass(); |
| } |
| |
| private static <T extends PresortedComparable<T>> ImmutableSortedSet<T> rewriteItems( |
| Set<T> original, Function<T, T> rewrite) { |
| ImmutableSortedSet.Builder<T> builder = |
| new ImmutableSortedSet.Builder<>(PresortedComparable::slowCompare); |
| for (T item : original) { |
| builder.add(rewrite.apply(item)); |
| } |
| return builder.build(); |
| } |
| |
| private static <T extends PresortedComparable<T>, S> |
| SortedMap<T, Set<S>> rewriteKeysWhileMergingValues( |
| Map<T, Set<S>> original, Function<T, T> rewrite) { |
| SortedMap<T, Set<S>> result = new TreeMap<>(PresortedComparable::slowCompare); |
| for (T item : original.keySet()) { |
| T rewrittenKey = rewrite.apply(item); |
| result |
| .computeIfAbsent(rewrittenKey, k -> Sets.newIdentityHashSet()) |
| .addAll(original.get(item)); |
| } |
| return Collections.unmodifiableSortedMap(result); |
| } |
| |
| private static <T extends PresortedComparable<T>, S> |
| SortedMap<T, Set<S>> rewriteKeysConservativelyWhileMergingValues( |
| Map<T, Set<S>> original, Function<T, Set<T>> rewrite) { |
| SortedMap<T, Set<S>> result = new TreeMap<>(PresortedComparable::slowCompare); |
| for (T item : original.keySet()) { |
| Set<T> rewrittenKeys = rewrite.apply(item); |
| for (T rewrittenKey : rewrittenKeys) { |
| result |
| .computeIfAbsent(rewrittenKey, k -> Sets.newIdentityHashSet()) |
| .addAll(original.get(item)); |
| } |
| } |
| return Collections.unmodifiableSortedMap(result); |
| } |
| |
| @Override |
| protected boolean hasAnyInstantiatedLambdas(DexType type) { |
| assert checkIfObsolete(); |
| return instantiatedLambdas.contains(type); |
| } |
| |
| @Override |
| public boolean hasLiveness() { |
| assert checkIfObsolete(); |
| return true; |
| } |
| |
| @Override |
| public AppInfoWithLiveness withLiveness() { |
| assert checkIfObsolete(); |
| return this; |
| } |
| |
| public boolean isPinned(DexReference reference) { |
| assert checkIfObsolete(); |
| return pinnedItems.contains(reference); |
| } |
| |
| public Iterable<DexReference> getPinnedItems() { |
| assert checkIfObsolete(); |
| return pinnedItems; |
| } |
| |
| /** |
| * Returns a copy of this AppInfoWithLiveness where the set of classes is pruned using the given |
| * DexApplication object. |
| */ |
| public AppInfoWithLiveness prunedCopyFrom( |
| DexApplication application, Collection<DexType> removedClasses) { |
| assert checkIfObsolete(); |
| return new AppInfoWithLiveness(this, application, removedClasses); |
| } |
| |
| public AppInfoWithLiveness rewrittenWithLense( |
| DirectMappedDexApplication application, GraphLense lense) { |
| assert checkIfObsolete(); |
| return new AppInfoWithLiveness(this, application, lense); |
| } |
| |
| /** |
| * Returns true if the given type was part of the original program but has been removed during |
| * tree shaking. |
| */ |
| public boolean wasPruned(DexType type) { |
| assert checkIfObsolete(); |
| return prunedTypes.contains(type); |
| } |
| |
| public Set<DexType> getPrunedTypes() { |
| assert checkIfObsolete(); |
| return prunedTypes; |
| } |
| |
| public DexEncodedMethod lookupSingleTarget( |
| Type type, DexMethod target, DexType invocationContext) { |
| assert checkIfObsolete(); |
| DexType holder = target.holder; |
| if (!holder.isClassType()) { |
| return null; |
| } |
| switch (type) { |
| case VIRTUAL: |
| return lookupSingleVirtualTarget(target); |
| case INTERFACE: |
| return lookupSingleInterfaceTarget(target); |
| case DIRECT: |
| return lookupDirectTarget(target); |
| case STATIC: |
| return lookupStaticTarget(target); |
| case SUPER: |
| return lookupSuperTarget(target, invocationContext); |
| default: |
| return null; |
| } |
| } |
| |
| /** For mapping invoke virtual instruction to single target method. */ |
| public DexEncodedMethod lookupSingleVirtualTarget(DexMethod method) { |
| assert checkIfObsolete(); |
| return lookupSingleVirtualTarget(method, method.holder); |
| } |
| |
| public DexEncodedMethod lookupSingleVirtualTarget(DexMethod method, DexType refinedReceiverType) { |
| assert checkIfObsolete(); |
| // This implements the logic from |
| // https://docs.oracle.com/javase/specs/jvms/se9/html/jvms-6.html#jvms-6.5.invokevirtual |
| assert method != null; |
| assert isSubtype(refinedReceiverType, method.holder); |
| if (method.holder.isArrayType()) { |
| // For javac output this will only be clone(), but in general the methods from Object can |
| // be invoked with an array type holder. |
| return null; |
| } |
| DexClass holder = definitionFor(method.holder); |
| if (holder == null || holder.isNotProgramClass() || holder.isInterface()) { |
| return null; |
| } |
| boolean refinedReceiverIsStrictSubType = refinedReceiverType != method.holder; |
| DexClass refinedHolder = |
| refinedReceiverIsStrictSubType ? definitionFor(refinedReceiverType) : holder; |
| assert refinedHolder != null; |
| assert refinedHolder.isProgramClass(); |
| if (method.isSingleVirtualMethodCached(refinedReceiverType)) { |
| return method.getSingleVirtualMethodCache(refinedReceiverType); |
| } |
| // For kept types we cannot ensure a single target. |
| if (pinnedItems.contains(method.holder)) { |
| method.setSingleVirtualMethodCache(refinedReceiverType, null); |
| return null; |
| } |
| // First get the target for the holder type. |
| ResolutionResult topMethod = resolveMethod(method.holder, method); |
| // We might hit none or multiple targets. Both make this fail at runtime. |
| if (!topMethod.hasSingleTarget() || !topMethod.asSingleTarget().isVirtualMethod()) { |
| method.setSingleVirtualMethodCache(refinedReceiverType, null); |
| return null; |
| } |
| // Now, resolve the target with the refined receiver type. |
| if (refinedReceiverIsStrictSubType) { |
| topMethod = resolveMethod(refinedReceiverType, method); |
| } |
| DexEncodedMethod topSingleTarget = topMethod.asSingleTarget(); |
| DexClass topHolder = definitionFor(topSingleTarget.method.holder); |
| // We need to know whether the top method is from an interface, as that would allow it to be |
| // shadowed by a default method from an interface further down. |
| boolean topIsFromInterface = topHolder.isInterface(); |
| // Now look at all subtypes and search for overrides. |
| DexEncodedMethod result = |
| findSingleTargetFromSubtypes( |
| refinedReceiverType, |
| method, |
| topSingleTarget, |
| !refinedHolder.accessFlags.isAbstract(), |
| topIsFromInterface); |
| // Map the failure case of SENTINEL to null. |
| result = result == DexEncodedMethod.SENTINEL ? null : result; |
| method.setSingleVirtualMethodCache(refinedReceiverType, result); |
| return result; |
| } |
| |
| /** |
| * Computes which methods overriding <code>method</code> are visible for the subtypes of type. |
| * |
| * <p><code>candidate</code> is the definition further up the hierarchy that is visible from the |
| * subtypes. If <code>candidateIsReachable</code> is true, the provided candidate is already a |
| * target for a type further up the chain, so anything found in subtypes is a conflict. If it is |
| * false, the target exists but is not reachable from a live type. |
| * |
| * <p>Returns <code>null</code> if the given type has no subtypes or all subtypes are abstract. |
| * Returns {@link DexEncodedMethod#SENTINEL} if multiple live overrides were found. Returns the |
| * single virtual target otherwise. |
| */ |
| private DexEncodedMethod findSingleTargetFromSubtypes( |
| DexType type, |
| DexMethod method, |
| DexEncodedMethod candidate, |
| boolean candidateIsReachable, |
| boolean checkForInterfaceConflicts) { |
| // If the candidate is reachable, we already have a previous result. |
| DexEncodedMethod result = candidateIsReachable ? candidate : null; |
| if (pinnedItems.contains(type)) { |
| // For kept types we do not know all subtypes, so abort. |
| return DexEncodedMethod.SENTINEL; |
| } |
| for (DexType subtype : allExtendsSubtypes(type)) { |
| DexClass clazz = definitionFor(subtype); |
| DexEncodedMethod target = clazz.lookupVirtualMethod(method); |
| if (target != null && !target.isPrivateMethod()) { |
| // We found a method on this class. If this class is not abstract it is a runtime |
| // reachable override and hence a conflict. |
| if (!clazz.accessFlags.isAbstract()) { |
| if (result != null && result != target) { |
| // We found a new target on this subtype that does not match the previous one. Fail. |
| return DexEncodedMethod.SENTINEL; |
| } |
| // Add the first or matching target. |
| result = target; |
| } |
| } |
| if (checkForInterfaceConflicts) { |
| // We have to check whether there are any default methods in implemented interfaces. |
| if (interfacesMayHaveDefaultFor(clazz.interfaces, method)) { |
| return DexEncodedMethod.SENTINEL; |
| } |
| } |
| DexEncodedMethod newCandidate = target == null ? candidate : target; |
| // If we have a new target and did not fail, it is not an override of a reachable method. |
| // Whether the target is actually reachable depends on whether this class is abstract. |
| // If we did not find a new target, the candidate is reachable if it was before, or if this |
| // class is not abstract. |
| boolean newCandidateIsReachable = |
| !clazz.accessFlags.isAbstract() || ((target == null) && candidateIsReachable); |
| DexEncodedMethod subtypeTarget = |
| findSingleTargetFromSubtypes( |
| subtype, method, newCandidate, newCandidateIsReachable, checkForInterfaceConflicts); |
| if (subtypeTarget != null) { |
| // We found a target in the subclasses. If we already have a different result, fail. |
| if (result != null && result != subtypeTarget) { |
| return DexEncodedMethod.SENTINEL; |
| } |
| // Remember this new result. |
| result = subtypeTarget; |
| } |
| } |
| return result; |
| } |
| |
| /** |
| * Checks whether any interface in the given list or their super interfaces implement a default |
| * method. |
| * |
| * <p>This method is conservative for unknown interfaces and interfaces from the library. |
| */ |
| private boolean interfacesMayHaveDefaultFor(DexTypeList ifaces, DexMethod method) { |
| for (DexType iface : ifaces.values) { |
| DexClass clazz = definitionFor(iface); |
| if (clazz == null || clazz.isNotProgramClass()) { |
| return true; |
| } |
| DexEncodedMethod candidate = clazz.lookupMethod(method); |
| if (candidate != null && !candidate.accessFlags.isAbstract()) { |
| return true; |
| } |
| if (interfacesMayHaveDefaultFor(clazz.interfaces, method)) { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| public DexEncodedMethod lookupSingleInterfaceTarget(DexMethod method) { |
| assert checkIfObsolete(); |
| return lookupSingleInterfaceTarget(method, method.holder); |
| } |
| |
| public DexEncodedMethod lookupSingleInterfaceTarget( |
| DexMethod method, DexType refinedReceiverType) { |
| assert checkIfObsolete(); |
| if (instantiatedLambdas.contains(method.holder)) { |
| return null; |
| } |
| DexClass holder = definitionFor(method.holder); |
| if ((holder == null) || holder.isNotProgramClass() || !holder.accessFlags.isInterface()) { |
| return null; |
| } |
| // First check that there is a target for this invoke-interface to hit. If there is none, |
| // this will fail at runtime. |
| ResolutionResult topTarget = resolveMethodOnInterface(method.holder, method); |
| if (topTarget.asResultOfResolve() == null) { |
| return null; |
| } |
| // For kept types we cannot ensure a single target. |
| if (pinnedItems.contains(method.holder)) { |
| return null; |
| } |
| DexEncodedMethod result = null; |
| // The loop will ignore abstract classes that are not kept as they should not be a target |
| // at runtime. |
| Iterable<DexType> subTypesToExplore = |
| refinedReceiverType == method.holder |
| ? subtypes(method.holder) |
| : Iterables.concat( |
| ImmutableList.of(refinedReceiverType), subtypes(refinedReceiverType)); |
| for (DexType type : subTypesToExplore) { |
| if (instantiatedLambdas.contains(type)) { |
| return null; |
| } |
| if (pinnedItems.contains(type)) { |
| // For kept classes we cannot ensure a single target. |
| return null; |
| } |
| DexClass clazz = definitionFor(type); |
| if (clazz.isInterface()) { |
| // Default methods are looked up when looking at a specific subtype that does not |
| // override them, so we ignore interface methods here. Otherwise, we would look up |
| // default methods that are factually never used. |
| } else if (!clazz.accessFlags.isAbstract()) { |
| ResolutionResult resolutionResult = resolveMethodOnClass(type, method); |
| if (resolutionResult.hasSingleTarget()) { |
| if ((result != null) && (result != resolutionResult.asSingleTarget())) { |
| return null; |
| } else { |
| result = resolutionResult.asSingleTarget(); |
| } |
| } else { |
| // This will fail at runtime. |
| return null; |
| } |
| } |
| } |
| return result == null || !result.isVirtualMethod() ? null : result; |
| } |
| |
| public AppInfoWithLiveness addSwitchMaps(Map<DexField, Int2ReferenceMap<DexField>> switchMaps) { |
| assert checkIfObsolete(); |
| assert this.switchMaps.isEmpty(); |
| return new AppInfoWithLiveness(this, switchMaps, ordinalsMaps); |
| } |
| |
| public AppInfoWithLiveness addEnumOrdinalMaps( |
| Map<DexType, Reference2IntMap<DexField>> ordinalsMaps) { |
| assert checkIfObsolete(); |
| assert this.ordinalsMaps.isEmpty(); |
| return new AppInfoWithLiveness(this, switchMaps, ordinalsMaps); |
| } |
| } |