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The official Couchbase JVM Core IO Library
/*
* Copyright 2014 - Present Rafael Winterhalter
*
* 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 net.bytebuddy.utility;
import edu.umd.cs.findbugs.annotations.SuppressFBWarnings;
import net.bytebuddy.ClassFileVersion;
import net.bytebuddy.build.AccessControllerPlugin;
import net.bytebuddy.description.enumeration.EnumerationDescription;
import net.bytebuddy.description.field.FieldDescription;
import net.bytebuddy.description.method.MethodDescription;
import net.bytebuddy.description.type.TypeDescription;
import net.bytebuddy.description.type.TypeList;
import net.bytebuddy.dynamic.ClassFileLocator;
import net.bytebuddy.implementation.bytecode.StackManipulation;
import net.bytebuddy.implementation.bytecode.constant.*;
import net.bytebuddy.pool.TypePool;
import net.bytebuddy.utility.dispatcher.JavaDispatcher;
import net.bytebuddy.utility.nullability.MaybeNull;
import net.bytebuddy.jar.asm.Opcodes;
import net.bytebuddy.jar.asm.Type;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.security.PrivilegedAction;
import java.util.*;
/**
* Represents a constant-pool constant within a Java class file.
*/
public interface JavaConstant extends ConstantValue {
/**
* Returns this constant as a Java {@code java.lang.constant.ConstantDesc} if the current VM is of at least version 12.
* If the current VM is of an older version and does not support the type, an exception is thrown.
*
* @return This constant as a Java {@code java.lang.constant.ConstantDesc}.
*/
Object toDescription();
/**
* Applies the supplied visitor to this constant type with its respective callback.
*
* @param visitor The visitor to dispatch.
* @param The type of the value that is returned by the visitor.
* @return The value that is returned by the supplied visitor.
*/
T accept(Visitor visitor);
/**
* A visitor to resolve a {@link JavaConstant} based on its implementation.
*
* @param The type of the value that is returned by this visitor.
*/
interface Visitor {
/**
* Invoked on a {@link Simple} constant that represents itself. Such values are of type
* {@link Integer}, {@link Long}, {@link Float}, {@link Double} or {@link String}.
*
* @param constant The simple constant.
* @return The returned value.
*/
T onValue(Simple> constant);
/**
* Invoked on a {@link Simple} constant that represents a {@link TypeDescription}.
*
* @param constant The simple constant.
* @return The returned value.
*/
T onType(Simple constant);
/**
* Invoked on a constant that represents a {@link MethodType}.
*
* @param constant The method type constant.
* @return The returned value.
*/
T onMethodType(MethodType constant);
/**
* Invoked on a constant that represents a {@link MethodHandle}.
*
* @param constant The method handle constant.
* @return The returned value.
*/
T onMethodHandle(MethodHandle constant);
/**
* Invoked on a {@link Dynamic} constant.
*
* @param constant The dynamic constant.
* @return The returned value.
*/
T onDynamic(Dynamic constant);
/**
* A non-operational implementation of a {@link Visitor} for a {@link JavaConstant}.
*/
enum NoOp implements Visitor {
/**
* The singleton instance.
*/
INSTANCE;
/**
* {@inheritDoc}
*/
public JavaConstant onValue(Simple> constant) {
return constant;
}
/**
* {@inheritDoc}
*/
public JavaConstant onType(Simple constant) {
return constant;
}
/**
* {@inheritDoc}
*/
public JavaConstant onMethodType(MethodType constant) {
return constant;
}
/**
* {@inheritDoc}
*/
public JavaConstant onMethodHandle(MethodHandle constant) {
return constant;
}
/**
* {@inheritDoc}
*/
public JavaConstant onDynamic(Dynamic constant) {
return constant;
}
}
}
/**
* Represents a simple Java constant, either a primitive constant, a {@link String} or a {@link Class}.
*
* @param The represented type.
*/
abstract class Simple implements JavaConstant {
/**
* A dispatcher for interaction with {@code java.lang.constant.ClassDesc}.
*/
protected static final Dispatcher CONSTANT_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.ClassDesc}.
*/
protected static final Dispatcher.OfClassDesc CLASS_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.OfClassDesc.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.MethodTypeDesc}.
*/
protected static final Dispatcher.OfMethodTypeDesc METHOD_TYPE_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.OfMethodTypeDesc.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.MethodHandleDesc}.
*/
protected static final Dispatcher.OfMethodHandleDesc METHOD_HANDLE_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.OfMethodHandleDesc.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.DirectMethodHandleDesc}.
*/
protected static final Dispatcher.OfDirectMethodHandleDesc DIRECT_METHOD_HANDLE_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.OfDirectMethodHandleDesc.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.DirectMethodHandleDesc}.
*/
protected static final Dispatcher.OfDirectMethodHandleDesc.ForKind DIRECT_METHOD_HANDLE_DESC_KIND = doPrivileged(JavaDispatcher.of(Dispatcher.OfDirectMethodHandleDesc.ForKind.class));
/**
* A dispatcher for interaction with {@code java.lang.constant.DirectMethodHandleDesc}.
*/
protected static final Dispatcher.OfDynamicConstantDesc DYNAMIC_CONSTANT_DESC = doPrivileged(JavaDispatcher.of(Dispatcher.OfDynamicConstantDesc.class));
/**
* The represented constant pool value.
*/
protected final T value;
/**
* A description of the type of the constant.
*/
private final TypeDescription typeDescription;
/**
* Creates a simple Java constant.
*
* @param value The represented constant pool value.
* @param typeDescription A description of the type of the constant.
*/
protected Simple(T value, TypeDescription typeDescription) {
this.value = value;
this.typeDescription = typeDescription;
}
/**
* A proxy for {@code java.security.AccessController#doPrivileged} that is activated if available.
*
* @param action The action to execute from a privileged context.
* @param The type of the action's resolved value.
* @return The action's resolved value.
*/
@AccessControllerPlugin.Enhance
private static T doPrivileged(PrivilegedAction action) {
return action.run();
}
/**
* Resolves a loaded Java value to a Java constant representation.
*
* @param value The value to represent.
* @return An appropriate Java constant representation.
*/
public static JavaConstant ofLoaded(Object value) {
JavaConstant constant = ofLoadedOrNull(value);
if (constant == null) {
throw new IllegalArgumentException("Not a constant: " + value);
} else {
return constant;
}
}
/**
* Resolves a loaded Java value to a Java constant representation.
*
* @param value The value to represent.
* @return An appropriate Java constant representation or {@code null} if the supplied argument is not a compile-time constant.
*/
@MaybeNull
protected static JavaConstant ofLoadedOrNull(Object value) {
if (value instanceof Integer) {
return new OfTrivialValue.ForInteger((Integer) value);
} else if (value instanceof Long) {
return new OfTrivialValue.ForLong((Long) value);
} else if (value instanceof Float) {
return new OfTrivialValue.ForFloat((Float) value);
} else if (value instanceof Double) {
return new OfTrivialValue.ForDouble((Double) value);
} else if (value instanceof String) {
return new OfTrivialValue.ForString((String) value);
} else if (value instanceof Class>) {
return JavaConstant.Simple.of(TypeDescription.ForLoadedType.of((Class>) value));
} else if (JavaType.METHOD_HANDLE.isInstance(value)) {
return MethodHandle.ofLoaded(value);
} else if (JavaType.METHOD_TYPE.isInstance(value)) {
return MethodType.ofLoaded(value);
} else {
return null;
}
}
/**
* Creates a Java constant value from a {@code java.lang.constant.ConstantDesc}.
*
* @param value The {@code java.lang.constant.ConstantDesc} to represent.
* @param classLoader The class loader to use for resolving type information from the supplied value.
* @return An appropriate Java constant representation.
*/
public static JavaConstant ofDescription(Object value, @MaybeNull ClassLoader classLoader) {
return ofDescription(value, ClassFileLocator.ForClassLoader.of(classLoader));
}
/**
* Creates a Java constant value from a {@code java.lang.constant.ConstantDesc}.
*
* @param value The {@code java.lang.constant.ConstantDesc} to represent.
* @param classFileLocator The class file locator to use for resolving type information from the supplied value.
* @return An appropriate Java constant representation.
*/
public static JavaConstant ofDescription(Object value, ClassFileLocator classFileLocator) {
return ofDescription(value, TypePool.Default.WithLazyResolution.of(classFileLocator));
}
/**
* Creates a Java constant value from a {@code java.lang.constant.ConstantDesc}.
*
* @param value The {@code java.lang.constant.ConstantDesc} to represent.
* @param typePool The type pool to use for resolving type information from the supplied value.
* @return An appropriate Java constant representation.
*/
public static JavaConstant ofDescription(Object value, TypePool typePool) {
if (value instanceof Integer) {
return new JavaConstant.Simple.OfTrivialValue.ForInteger((Integer) value);
} else if (value instanceof Long) {
return new JavaConstant.Simple.OfTrivialValue.ForLong((Long) value);
} else if (value instanceof Float) {
return new JavaConstant.Simple.OfTrivialValue.ForFloat((Float) value);
} else if (value instanceof Double) {
return new JavaConstant.Simple.OfTrivialValue.ForDouble((Double) value);
} else if (value instanceof String) {
return new JavaConstant.Simple.OfTrivialValue.ForString((String) value);
} else if (CLASS_DESC.isInstance(value)) {
Type type = Type.getType(CLASS_DESC.descriptorString(value));
return JavaConstant.Simple.OfTypeDescription.of(typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve());
} else if (METHOD_TYPE_DESC.isInstance(value)) {
Object[] parameterTypes = METHOD_TYPE_DESC.parameterArray(value);
List typeDescriptions = new ArrayList(parameterTypes.length);
for (Object parameterType : parameterTypes) {
Type type = Type.getType(CLASS_DESC.descriptorString(parameterType));
typeDescriptions.add(typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve());
}
Type type = Type.getType(CLASS_DESC.descriptorString(METHOD_TYPE_DESC.returnType(value)));
return MethodType.of(typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve(), typeDescriptions);
} else if (DIRECT_METHOD_HANDLE_DESC.isInstance(value)) {
Object[] parameterTypes = METHOD_TYPE_DESC.parameterArray(METHOD_HANDLE_DESC.invocationType(value));
List typeDescriptions = new ArrayList(parameterTypes.length);
for (Object parameterType : parameterTypes) {
Type type = Type.getType(CLASS_DESC.descriptorString(parameterType));
typeDescriptions.add(typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve());
}
Type type = Type.getType(CLASS_DESC.descriptorString(METHOD_TYPE_DESC.returnType(METHOD_HANDLE_DESC.invocationType(value))));
return new MethodHandle(MethodHandle.HandleType.of(DIRECT_METHOD_HANDLE_DESC.refKind(value)),
typePool.describe(Type.getType(CLASS_DESC.descriptorString(DIRECT_METHOD_HANDLE_DESC.owner(value))).getClassName()).resolve(),
DIRECT_METHOD_HANDLE_DESC.methodName(value),
DIRECT_METHOD_HANDLE_DESC.refKind(value) == Opcodes.H_NEWINVOKESPECIAL
? TypeDescription.ForLoadedType.of(void.class)
: typePool.describe(type.getSort() == Type.ARRAY ? type.getInternalName().replace('/', '.') : type.getClassName()).resolve(),
typeDescriptions);
} else if (DYNAMIC_CONSTANT_DESC.isInstance(value)) {
Type methodType = Type.getMethodType(DIRECT_METHOD_HANDLE_DESC.lookupDescriptor(DYNAMIC_CONSTANT_DESC.bootstrapMethod(value)));
List parameterTypes = new ArrayList(methodType.getArgumentTypes().length);
for (Type type : methodType.getArgumentTypes()) {
parameterTypes.add(typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve());
}
Object[] constant = DYNAMIC_CONSTANT_DESC.bootstrapArgs(value);
List arguments = new ArrayList(constant.length);
for (Object aConstant : constant) {
arguments.add(ofDescription(aConstant, typePool));
}
Type type = Type.getType(CLASS_DESC.descriptorString(DYNAMIC_CONSTANT_DESC.constantType(value)));
return new Dynamic(DYNAMIC_CONSTANT_DESC.constantName(value),
typePool.describe(type.getSort() == Type.ARRAY
? type.getInternalName().replace('/', '.')
: type.getClassName()).resolve(),
new MethodHandle(MethodHandle.HandleType.of(DIRECT_METHOD_HANDLE_DESC.refKind(DYNAMIC_CONSTANT_DESC.bootstrapMethod(value))),
typePool.describe(Type.getType(CLASS_DESC.descriptorString(DIRECT_METHOD_HANDLE_DESC.owner(DYNAMIC_CONSTANT_DESC.bootstrapMethod(value)))).getClassName()).resolve(),
DIRECT_METHOD_HANDLE_DESC.methodName(DYNAMIC_CONSTANT_DESC.bootstrapMethod(value)),
typePool.describe(methodType.getReturnType().getSort() == Type.ARRAY
? methodType.getReturnType().getInternalName().replace('/', '.')
: methodType.getReturnType().getClassName()).resolve(),
parameterTypes),
arguments);
} else {
throw new IllegalArgumentException("Not a resolvable constant description or not expressible as a constant pool value: " + value);
}
}
/**
* Returns a Java constant representation for a {@link TypeDescription}.
*
* @param typeDescription The type to represent as a constant.
* @return An appropriate Java constant representation.
*/
public static JavaConstant of(TypeDescription typeDescription) {
if (typeDescription.isPrimitive()) {
throw new IllegalArgumentException("A primitive type cannot be represented as a type constant: " + typeDescription);
}
return new JavaConstant.Simple.OfTypeDescription(typeDescription);
}
/**
* Wraps a value representing a loaded or unloaded constant as {@link JavaConstant} instance.
*
* @param value The value to wrap.
* @return A wrapped Java constant.
*/
public static JavaConstant wrap(Object value) {
if (value instanceof JavaConstant) {
return (JavaConstant) value;
} else if (value instanceof TypeDescription) {
return of((TypeDescription) value);
} else {
return ofLoaded(value);
}
}
/**
* Wraps a list of either loaded or unloaded constant representations as {@link JavaConstant} instances.
*
* @param values The values to wrap.
* @return A list of wrapped Java constants.
*/
public static List wrap(List> values) {
List constants = new ArrayList(values.size());
for (Object value : values) {
constants.add(wrap(value));
}
return constants;
}
/**
* Returns the represented value.
*
* @return The represented value.
*/
public T getValue() {
return value;
}
/**
* {@inheritDoc}
*/
public TypeDescription getTypeDescription() {
return typeDescription;
}
@Override
public int hashCode() {
return value.hashCode();
}
@Override
public boolean equals(@MaybeNull Object object) {
if (this == object) return true;
if (object == null || getClass() != object.getClass()) return false;
return value.equals(((JavaConstant.Simple>) object).value);
}
@Override
public String toString() {
return value.toString();
}
/**
* Represents a trivial constant value that represents itself.
*
* @param The represented type.
*/
protected abstract static class OfTrivialValue extends JavaConstant.Simple {
/**
* Creates a representation of a trivial constant that represents itself.
*
* @param value The represented value.
* @param typeDescription The represented value's type.
*/
protected OfTrivialValue(S value, TypeDescription typeDescription) {
super(value, typeDescription);
}
/**
* {@inheritDoc}
*/
public Object toDescription() {
return value;
}
/**
* {@inheritDoc}
*/
public T accept(Visitor visitor) {
return visitor.onValue(this);
}
protected static class ForInteger extends OfTrivialValue {
public ForInteger(Integer value) {
super(value, TypeDescription.ForLoadedType.of(int.class));
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return IntegerConstant.forValue(value);
}
}
protected static class ForLong extends OfTrivialValue {
public ForLong(Long value) {
super(value, TypeDescription.ForLoadedType.of(long.class));
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return LongConstant.forValue(value);
}
}
protected static class ForFloat extends OfTrivialValue {
public ForFloat(Float value) {
super(value, TypeDescription.ForLoadedType.of(float.class));
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return FloatConstant.forValue(value);
}
}
protected static class ForDouble extends OfTrivialValue {
public ForDouble(Double value) {
super(value, TypeDescription.ForLoadedType.of(double.class));
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return DoubleConstant.forValue(value);
}
}
protected static class ForString extends OfTrivialValue {
public ForString(String value) {
super(value, TypeDescription.ForLoadedType.of(String.class));
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return new TextConstant(value);
}
}
}
/**
* Represents a type constant.
*/
protected static class OfTypeDescription extends JavaConstant.Simple {
/**
* Creates a type constant.
*
* @param value The represented type.
*/
protected OfTypeDescription(TypeDescription value) {
super(value, TypeDescription.ForLoadedType.of(Class.class));
}
/**
* {@inheritDoc}
*/
public Object toDescription() {
return CLASS_DESC.ofDescriptor(value.getDescriptor());
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return ClassConstant.of(value);
}
/**
* {@inheritDoc}
*/
public T accept(Visitor visitor) {
return visitor.onType(this);
}
}
/**
* A dispatcher to represent {@code java.lang.constant.ConstantDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.ConstantDesc")
protected interface Dispatcher {
/**
* Checks if the supplied instance is of the type of this dispatcher.
*
* @param instance The instance to verify.
* @return {@code true} if the instance is of the supplied type.
*/
@JavaDispatcher.Instance
boolean isInstance(Object instance);
/**
* Returns an array of the dispatcher type.
*
* @param length The length of the array.
* @return An array of the type that is represented by this dispatcher with the given length.
*/
@JavaDispatcher.Container
Object[] toArray(int length);
/**
* A dispatcher to represent {@code java.lang.constant.ClassDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.ClassDesc")
interface OfClassDesc extends Dispatcher {
/**
* Resolves a {@code java.lang.constant.ClassDesc} of a descriptor.
*
* @param descriptor The descriptor to resolve.
* @return An appropriate {@code java.lang.constant.ClassDesc}.
*/
@JavaDispatcher.IsStatic
Object ofDescriptor(String descriptor);
/**
* Returns the descriptor of the supplied class description.
*
* @param value The {@code java.lang.constant.ClassDesc} to resolve.
* @return The class's descriptor.
*/
String descriptorString(Object value);
}
/**
* A dispatcher to represent {@code java.lang.constant.MethodTypeDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.MethodTypeDesc")
interface OfMethodTypeDesc extends Dispatcher {
/**
* Resolves a {@code java.lang.constant.MethodTypeDesc} from descriptions of the return type descriptor and parameter types.
*
* @param returnType A {@code java.lang.constant.ClassDesc} representing the return type.
* @param parameterType An array of {@code java.lang.constant.ClassDesc}s representing the parameter types.
* @return An appropriate {@code java.lang.constant.MethodTypeDesc}.
*/
@JavaDispatcher.IsStatic
Object of(@JavaDispatcher.Proxied("java.lang.constant.ClassDesc") Object returnType,
@JavaDispatcher.Proxied("java.lang.constant.ClassDesc") Object[] parameterType);
/**
* Returns a {@code java.lang.constant.MethodTypeDesc} for a given descriptor.
*
* @param descriptor The method type's descriptor.
* @return A {@code java.lang.constant.MethodTypeDesc} of the supplied descriptor
*/
@JavaDispatcher.IsStatic
Object ofDescriptor(String descriptor);
/**
* Returns the return type of a {@code java.lang.constant.MethodTypeDesc}.
*
* @param value The {@code java.lang.constant.MethodTypeDesc} to resolve.
* @return A {@code java.lang.constant.ClassDesc} of the supplied {@code java.lang.constant.MethodTypeDesc}'s return type.
*/
Object returnType(Object value);
/**
* Returns the parameter types of a {@code java.lang.constant.MethodTypeDesc}.
*
* @param value The {@code java.lang.constant.MethodTypeDesc} to resolve.
* @return An array of {@code java.lang.constant.ClassDesc} of the supplied {@code java.lang.constant.MethodTypeDesc}'s parameter types.
*/
Object[] parameterArray(Object value);
}
/**
* A dispatcher to represent {@code java.lang.constant.MethodHandleDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.MethodHandleDesc")
interface OfMethodHandleDesc extends Dispatcher {
/**
* Resolves a {@code java.lang.constant.MethodHandleDesc}.
*
* @param kind The {@code java.lang.constant.DirectMethodHandleDesc$Kind} of the resolved method handle description.
* @param owner The {@code java.lang.constant.ClassDesc} of the resolved method handle description's owner type.
* @param name The name of the method handle to resolve.
* @param descriptor A descriptor of the lookup type.
* @return An {@code java.lang.constant.MethodTypeDesc} representing the invocation type.
*/
@JavaDispatcher.IsStatic
Object of(@JavaDispatcher.Proxied("java.lang.constant.DirectMethodHandleDesc$Kind") Object kind,
@JavaDispatcher.Proxied("java.lang.constant.ClassDesc") Object owner,
String name,
String descriptor);
/**
* Resolves a {@code java.lang.constant.MethodTypeDesc} representing the invocation type of
* the supplied {@code java.lang.constant.DirectMethodHandleDesc}.
*
* @param value The {@code java.lang.constant.DirectMethodHandleDesc} to resolve.
* @return An {@code java.lang.constant.MethodTypeDesc} representing the invocation type.
*/
Object invocationType(Object value);
}
/**
* A dispatcher to represent {@code java.lang.constant.DirectMethodHandleDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.DirectMethodHandleDesc")
interface OfDirectMethodHandleDesc extends Dispatcher {
/**
* Resolves the type of method handle for the supplied method handle description.
*
* @param value The {@code java.lang.constant.DirectMethodHandleDesc} to resolve.
* @return The type of the handle.
*/
int refKind(Object value);
/**
* Resolves the method name of the supplied direct method handle.
*
* @param value The {@code java.lang.constant.DirectMethodHandleDesc} to resolve.
* @return The handle's method name.
*/
String methodName(Object value);
/**
* Resolves a {@code java.lang.constant.ClassDesc} representing the owner of a direct method handle description.
*
* @param value The {@code java.lang.constant.DirectMethodHandleDesc} to resolve.
* @return A {@code java.lang.constant.ClassDesc} describing the handle's owner.
*/
Object owner(Object value);
/**
* Resolves the lookup descriptor of the supplied direct method handle description.
*
* @param value The {@code java.lang.constant.DirectMethodHandleDesc} to resolve.
* @return A descriptor of the supplied direct method handle's lookup.
*/
String lookupDescriptor(Object value);
/**
* A dispatcher to represent {@code java.lang.constant.DirectMethodHandleDesc$Kind}.
*/
@JavaDispatcher.Proxied("java.lang.constant.DirectMethodHandleDesc$Kind")
interface ForKind {
/**
* Resolves a {@code java.lang.constant.DirectMethodHandleDesc$Kind} from an identifier.
*
* @param identifier The identifier to resolve.
* @param isInterface {@code true} if the handle invokes an interface type.
* @return The identifier's {@code java.lang.constant.DirectMethodHandleDesc$Kind}.
*/
@JavaDispatcher.IsStatic
Object valueOf(int identifier, boolean isInterface);
}
}
/**
* A dispatcher to represent {@code java.lang.constant.DynamicConstantDesc}.
*/
@JavaDispatcher.Proxied("java.lang.constant.DynamicConstantDesc")
interface OfDynamicConstantDesc extends Dispatcher {
/**
* Resolves a {@code java.lang.constant.DynamicConstantDesc} for a canonical description of the constant.
*
* @param bootstrap A {@code java.lang.constant.DirectMethodHandleDesc} describing the boostrap method of the dynamic constant.
* @param constantName The constant's name.
* @param type A {@code java.lang.constant.ClassDesc} describing the constant's type.
* @param argument Descriptions of the dynamic constant's arguments.
* @return A {@code java.lang.constant.DynamicConstantDesc} for the supplied arguments.
*/
@JavaDispatcher.IsStatic
Object ofCanonical(@JavaDispatcher.Proxied("java.lang.constant.DirectMethodHandleDesc") Object bootstrap,
String constantName,
@JavaDispatcher.Proxied("java.lang.constant.ClassDesc") Object type,
@JavaDispatcher.Proxied("java.lang.constant.ConstantDesc") Object[] argument);
/**
* Resolves a {@code java.lang.constant.DynamicConstantDesc}'s arguments.
*
* @param value The {@code java.lang.constant.DynamicConstantDesc} to resolve.
* @return An array of {@code java.lang.constant.ConstantDesc} describing the arguments of the supplied dynamic constant description.
*/
Object[] bootstrapArgs(Object value);
/**
* Resolves the dynamic constant description's name.
*
* @param value The {@code java.lang.constant.DynamicConstantDesc} to resolve.
* @return The dynamic constant description's name.
*/
String constantName(Object value);
/**
* Resolves a {@code java.lang.constant.ClassDesc} for the dynamic constant's type.
*
* @param value The {@code java.lang.constant.DynamicConstantDesc} to resolve.
* @return A {@code java.lang.constant.ClassDesc} describing the constant's type.
*/
Object constantType(Object value);
/**
* Resolves a {@code java.lang.constant.DirectMethodHandleDesc} representing the dynamic constant's bootstrap method.
*
* @param value The {@code java.lang.constant.DynamicConstantDesc} to resolve.
* @return A {@code java.lang.constant.DirectMethodHandleDesc} representing the dynamic constant's bootstrap method.
*/
Object bootstrapMethod(Object value);
}
}
}
/**
* Represents a {@code java.lang.invoke.MethodType} object.
*/
class MethodType implements JavaConstant {
/**
* A dispatcher for extracting information from a {@code java.lang.invoke.MethodType} instance.
*/
private static final Dispatcher DISPATCHER = doPrivileged(JavaDispatcher.of(Dispatcher.class));
/**
* The return type of this method type.
*/
private final TypeDescription returnType;
/**
* The parameter types of this method type.
*/
private final List extends TypeDescription> parameterTypes;
/**
* Creates a method type for the given types.
*
* @param returnType The return type of the method type.
* @param parameterTypes The parameter types of the method type.
*/
protected MethodType(TypeDescription returnType, List extends TypeDescription> parameterTypes) {
this.returnType = returnType;
this.parameterTypes = parameterTypes;
}
/**
* A proxy for {@code java.security.AccessController#doPrivileged} that is activated if available.
*
* @param action The action to execute from a privileged context.
* @param The type of the action's resolved value.
* @return The action's resolved value.
*/
@AccessControllerPlugin.Enhance
private static T doPrivileged(PrivilegedAction action) {
return action.run();
}
/**
* Returns a method type representation of a loaded {@code MethodType} object.
*
* @param methodType A method type object to represent as a {@link JavaConstant}.
* @return The method type represented as a {@link MethodType}.
*/
public static MethodType ofLoaded(Object methodType) {
if (!JavaType.METHOD_TYPE.isInstance(methodType)) {
throw new IllegalArgumentException("Expected method type object: " + methodType);
}
return of(DISPATCHER.returnType(methodType), DISPATCHER.parameterArray(methodType));
}
/**
* Returns a method type description of the given return type and parameter types.
*
* @param returnType The return type to represent.
* @param parameterType The parameter types to represent.
* @return A method type of the given return type and parameter types.
*/
public static MethodType of(Class> returnType, Class>... parameterType) {
return of(TypeDescription.ForLoadedType.of(returnType), new TypeList.ForLoadedTypes(parameterType));
}
/**
* Returns a method type description of the given return type and parameter types.
*
* @param returnType The return type to represent.
* @param parameterType The parameter types to represent.
* @return A method type of the given return type and parameter types.
*/
public static MethodType of(TypeDescription returnType, TypeDescription... parameterType) {
return new MethodType(returnType, Arrays.asList(parameterType));
}
/**
* Returns a method type description of the given return type and parameter types.
*
* @param returnType The return type to represent.
* @param parameterTypes The parameter types to represent.
* @return A method type of the given return type and parameter types.
*/
public static MethodType of(TypeDescription returnType, List extends TypeDescription> parameterTypes) {
return new MethodType(returnType, parameterTypes);
}
/**
* Returns a method type description of the given method.
*
* @param method The method to extract the method type from.
* @return The method type of the given method.
*/
public static MethodType of(Method method) {
return of(new MethodDescription.ForLoadedMethod(method));
}
/**
* Returns a method type description of the given constructor.
*
* @param constructor The constructor to extract the method type from.
* @return The method type of the given constructor.
*/
public static MethodType of(Constructor> constructor) {
return of(new MethodDescription.ForLoadedConstructor(constructor));
}
/**
* Returns a method type description of the given method.
*
* @param methodDescription The method to extract the method type from.
* @return The method type of the given method.
*/
public static MethodType of(MethodDescription methodDescription) {
return new MethodType(
(methodDescription.isConstructor() ? methodDescription.getDeclaringType() : methodDescription.getReturnType()).asErasure(),
methodDescription.isStatic() || methodDescription.isConstructor()
? methodDescription.getParameters().asTypeList().asErasures()
: CompoundList.of(methodDescription.getDeclaringType().asErasure(), methodDescription.getParameters().asTypeList().asErasures()));
}
/**
* Returns a method type description of the given method's signature without considering the method's actual stack consumption
* and production.
*
* @param method The method to extract the method type from.
* @return The method type of the given method's signature.
*/
public static MethodType ofSignature(Method method) {
return ofSignature(new MethodDescription.ForLoadedMethod(method));
}
/**
* Returns a method type description of the given constructor's signature without considering the constructor's
* actual stack consumption and production.
*
* @param constructor The constructor to extract the method type from.
* @return The method type of the given method's signature.
*/
public static MethodType ofSignature(Constructor> constructor) {
return ofSignature(new MethodDescription.ForLoadedConstructor(constructor));
}
/**
* Returns a method type description of the given method's signature without considering the method's actual stack consumption
* and production.
*
* @param methodDescription The method to extract the method type from.
* @return The method type of the given method's signature.
*/
public static MethodType ofSignature(MethodDescription methodDescription) {
return new MethodType(methodDescription.getReturnType().asErasure(), methodDescription.getParameters().asTypeList().asErasures());
}
/**
* Returns a method type for a setter of the given field.
*
* @param field The field to extract a setter type for.
* @return The type of a setter for the given field.
*/
public static MethodType ofSetter(Field field) {
return ofSetter(new FieldDescription.ForLoadedField(field));
}
/**
* Returns a method type for a setter of the given field.
*
* @param fieldDescription The field to extract a setter type for.
* @return The type of a setter for the given field.
*/
@SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming declaring type for type member.")
public static MethodType ofSetter(FieldDescription fieldDescription) {
return new MethodType(TypeDescription.ForLoadedType.of(void.class), fieldDescription.isStatic()
? Collections.singletonList(fieldDescription.getType().asErasure())
: Arrays.asList(fieldDescription.getDeclaringType().asErasure(), fieldDescription.getType().asErasure()));
}
/**
* Returns a method type for a getter of the given field.
*
* @param field The field to extract a getter type for.
* @return The type of a getter for the given field.
*/
public static MethodType ofGetter(Field field) {
return ofGetter(new FieldDescription.ForLoadedField(field));
}
/**
* Returns a method type for a getter of the given field.
*
* @param fieldDescription The field to extract a getter type for.
* @return The type of a getter for the given field.
*/
@SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming declaring type for type member.")
public static MethodType ofGetter(FieldDescription fieldDescription) {
return new MethodType(fieldDescription.getType().asErasure(), fieldDescription.isStatic()
? Collections.emptyList()
: Collections.singletonList(fieldDescription.getDeclaringType().asErasure()));
}
/**
* Returns a method type for the given constant.
*
* @param instance The constant for which a constant method type should be created.
* @return A method type for the given constant.
*/
public static MethodType ofConstant(Object instance) {
return ofConstant(instance.getClass());
}
/**
* Returns a method type for the given constant type.
*
* @param type The constant type for which a constant method type should be created.
* @return A method type for the given constant type.
*/
public static MethodType ofConstant(Class> type) {
return ofConstant(TypeDescription.ForLoadedType.of(type));
}
/**
* Returns a method type for the given constant type.
*
* @param typeDescription The constant type for which a constant method type should be created.
* @return A method type for the given constant type.
*/
public static MethodType ofConstant(TypeDescription typeDescription) {
return new MethodType(typeDescription, Collections.emptyList());
}
/**
* Returns the return type of this method type.
*
* @return The return type of this method type.
*/
public TypeDescription getReturnType() {
return returnType;
}
/**
* Returns the parameter types of this method type.
*
* @return The parameter types of this method type.
*/
public TypeList getParameterTypes() {
return new TypeList.Explicit(parameterTypes);
}
/**
* Returns the method descriptor of this method type representation.
*
* @return The method descriptor of this method type representation.
*/
public String getDescriptor() {
StringBuilder stringBuilder = new StringBuilder("(");
for (TypeDescription parameterType : parameterTypes) {
stringBuilder.append(parameterType.getDescriptor());
}
return stringBuilder.append(')').append(returnType.getDescriptor()).toString();
}
/**
* {@inheritDoc}
*/
public Object toDescription() {
Object[] parameterType = JavaConstant.Simple.CLASS_DESC.toArray(parameterTypes.size());
for (int index = 0; index < parameterTypes.size(); index++) {
parameterType[index] = JavaConstant.Simple.CLASS_DESC.ofDescriptor(parameterTypes.get(index).getDescriptor());
}
return JavaConstant.Simple.METHOD_TYPE_DESC.of(JavaConstant.Simple.CLASS_DESC.ofDescriptor(returnType.getDescriptor()), parameterType);
}
/**
* {@inheritDoc}
*/
public T accept(Visitor visitor) {
return visitor.onMethodType(this);
}
/**
* {@inheritDoc}
*/
public TypeDescription getTypeDescription() {
return JavaType.METHOD_TYPE.getTypeStub();
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return new JavaConstantValue(this);
}
@Override
public int hashCode() {
int result = returnType.hashCode();
result = 31 * result + parameterTypes.hashCode();
return result;
}
@Override
public boolean equals(@MaybeNull Object other) {
if (this == other) {
return true;
}
if (!(other instanceof MethodType)) {
return false;
}
MethodType methodType = (MethodType) other;
return parameterTypes.equals(methodType.parameterTypes) && returnType.equals(methodType.returnType);
}
@Override
public String toString() {
StringBuilder stringBuilder = new StringBuilder().append('(');
boolean first = true;
for (TypeDescription typeDescription : parameterTypes) {
if (first) {
first = false;
} else {
stringBuilder.append(',');
}
stringBuilder.append(typeDescription.getSimpleName());
}
return stringBuilder.append(')').append(returnType.getSimpleName()).toString();
}
/**
* A dispatcher for extracting information from a {@code java.lang.invoke.MethodType} instance.
*/
@JavaDispatcher.Proxied("java.lang.invoke.MethodType")
protected interface Dispatcher {
/**
* Extracts the return type of the supplied method type.
*
* @param methodType An instance of {@code java.lang.invoke.MethodType}.
* @return The return type that is described by the supplied instance.
*/
Class> returnType(Object methodType);
/**
* Extracts the parameter types of the supplied method type.
*
* @param methodType An instance of {@code java.lang.invoke.MethodType}.
* @return The parameter types that are described by the supplied instance.
*/
Class>[] parameterArray(Object methodType);
}
}
/**
* Represents a {@code java.lang.invoke.MethodHandle} object. Note that constant {@code MethodHandle}s cannot
* be represented within the constant pool of a Java class and can therefore not be represented as an instance of
* this representation order.
*/
class MethodHandle implements JavaConstant {
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandleInfo}.
*/
protected static final MethodHandleInfo METHOD_HANDLE_INFO = doPrivileged(JavaDispatcher.of(MethodHandleInfo.class));
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodType}.
*/
protected static final MethodType METHOD_TYPE = doPrivileged(JavaDispatcher.of(MethodType.class));
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandles}.
*/
protected static final MethodHandles METHOD_HANDLES = doPrivileged(JavaDispatcher.of(MethodHandles.class));
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandles$Lookup}.
*/
protected static final MethodHandles.Lookup METHOD_HANDLES_LOOKUP = doPrivileged(JavaDispatcher.of(MethodHandles.Lookup.class));
/**
* The handle type that is represented by this instance.
*/
private final HandleType handleType;
/**
* The owner type that is represented by this instance.
*/
private final TypeDescription ownerType;
/**
* The name that is represented by this instance.
*/
private final String name;
/**
* The return type that is represented by this instance.
*/
private final TypeDescription returnType;
/**
* The parameter types that is represented by this instance.
*/
private final List extends TypeDescription> parameterTypes;
/**
* Creates a method handle representation.
*
* @param handleType The handle type that is represented by this instance.
* @param ownerType The owner type that is represented by this instance.
* @param name The name that is represented by this instance.
* @param returnType The return type that is represented by this instance.
* @param parameterTypes The parameter types that is represented by this instance.
*/
public MethodHandle(HandleType handleType,
TypeDescription ownerType,
String name,
TypeDescription returnType,
List extends TypeDescription> parameterTypes) {
this.handleType = handleType;
this.ownerType = ownerType;
this.name = name;
this.returnType = returnType;
this.parameterTypes = parameterTypes;
}
/**
* A proxy for {@code java.security.AccessController#doPrivileged} that is activated if available.
*
* @param action The action to execute from a privileged context.
* @param The type of the action's resolved value.
* @return The action's resolved value.
*/
@AccessControllerPlugin.Enhance
private static T doPrivileged(PrivilegedAction action) {
return action.run();
}
/**
* Creates a method handles representation of a loaded method handle which is analyzed using a public {@code MethodHandles.Lookup} object.
* A method handle can only be analyzed on virtual machines that support the corresponding API (Java 7+). For virtual machines before Java 8+,
* a method handle instance can only be analyzed by taking advantage of private APIs what might require a access context.
*
* @param methodHandle The loaded method handle to represent.
* @return A representation of the loaded method handle
*/
public static MethodHandle ofLoaded(Object methodHandle) {
return ofLoaded(methodHandle, METHOD_HANDLES.publicLookup());
}
/**
* Creates a method handles representation of a loaded method handle which is analyzed using the given lookup context.
* A method handle can only be analyzed on virtual machines that support the corresponding API (Java 7+). For virtual machines before Java 8+,
* a method handle instance can only be analyzed by taking advantage of private APIs what might require a access context.
*
* @param methodHandle The loaded method handle to represent.
* @param lookup The lookup object to use for analyzing the method handle.
* @return A representation of the loaded method handle
*/
public static MethodHandle ofLoaded(Object methodHandle, Object lookup) {
if (!JavaType.METHOD_HANDLE.isInstance(methodHandle)) {
throw new IllegalArgumentException("Expected method handle object: " + methodHandle);
} else if (!JavaType.METHOD_HANDLES_LOOKUP.isInstance(lookup)) {
throw new IllegalArgumentException("Expected method handle lookup object: " + lookup);
}
Object methodHandleInfo = ClassFileVersion.ofThisVm(ClassFileVersion.JAVA_V8).isAtMost(ClassFileVersion.JAVA_V7)
? METHOD_HANDLE_INFO.revealDirect(methodHandle)
: METHOD_HANDLES_LOOKUP.revealDirect(lookup, methodHandle);
Object methodType = METHOD_HANDLE_INFO.getMethodType(methodHandleInfo);
return new MethodHandle(HandleType.of(METHOD_HANDLE_INFO.getReferenceKind(methodHandleInfo)),
TypeDescription.ForLoadedType.of(METHOD_HANDLE_INFO.getDeclaringClass(methodHandleInfo)),
METHOD_HANDLE_INFO.getName(methodHandleInfo),
TypeDescription.ForLoadedType.of(METHOD_TYPE.returnType(methodType)),
new TypeList.ForLoadedTypes(METHOD_TYPE.parameterArray(methodType)));
}
/**
* Creates a method handle representation of the given method.
*
* @param method The method ro represent.
* @return A method handle representing the given method.
*/
public static MethodHandle of(Method method) {
return of(new MethodDescription.ForLoadedMethod(method));
}
/**
* Creates a method handle representation of the given constructor.
*
* @param constructor The constructor ro represent.
* @return A method handle representing the given constructor.
*/
public static MethodHandle of(Constructor> constructor) {
return of(new MethodDescription.ForLoadedConstructor(constructor));
}
/**
* Creates a method handle representation of the given method.
*
* @param methodDescription The method ro represent.
* @return A method handle representing the given method.
*/
public static MethodHandle of(MethodDescription.InDefinedShape methodDescription) {
return new MethodHandle(HandleType.of(methodDescription),
methodDescription.getDeclaringType().asErasure(),
methodDescription.getInternalName(),
methodDescription.getReturnType().asErasure(),
methodDescription.getParameters().asTypeList().asErasures());
}
/**
* Creates a method handle representation of the given method for an explicit special method invocation of an otherwise virtual method.
*
* @param method The method ro represent.
* @param type The type on which the method is to be invoked on as a special method invocation.
* @return A method handle representing the given method as special method invocation.
*/
public static MethodHandle ofSpecial(Method method, Class> type) {
return ofSpecial(new MethodDescription.ForLoadedMethod(method), TypeDescription.ForLoadedType.of(type));
}
/**
* Creates a method handle representation of the given method for an explicit special method invocation of an otherwise virtual method.
*
* @param methodDescription The method ro represent.
* @param typeDescription The type on which the method is to be invoked on as a special method invocation.
* @return A method handle representing the given method as special method invocation.
*/
public static MethodHandle ofSpecial(MethodDescription.InDefinedShape methodDescription, TypeDescription typeDescription) {
if (!methodDescription.isSpecializableFor(typeDescription)) {
throw new IllegalArgumentException("Cannot specialize " + methodDescription + " for " + typeDescription);
}
return new MethodHandle(HandleType.ofSpecial(methodDescription),
typeDescription,
methodDescription.getInternalName(),
methodDescription.getReturnType().asErasure(),
methodDescription.getParameters().asTypeList().asErasures());
}
/**
* Returns a method handle for a setter of the given field.
*
* @param field The field to represent.
* @return A method handle for a setter of the given field.
*/
public static MethodHandle ofGetter(Field field) {
return ofGetter(new FieldDescription.ForLoadedField(field));
}
/**
* Returns a method handle for a setter of the given field.
*
* @param fieldDescription The field to represent.
* @return A method handle for a setter of the given field.
*/
public static MethodHandle ofGetter(FieldDescription.InDefinedShape fieldDescription) {
return new MethodHandle(HandleType.ofGetter(fieldDescription),
fieldDescription.getDeclaringType().asErasure(),
fieldDescription.getInternalName(),
fieldDescription.getType().asErasure(),
Collections.emptyList());
}
/**
* Returns a method handle for a getter of the given field.
*
* @param field The field to represent.
* @return A method handle for a getter of the given field.
*/
public static MethodHandle ofSetter(Field field) {
return ofSetter(new FieldDescription.ForLoadedField(field));
}
/**
* Returns a method handle for a getter of the given field.
*
* @param fieldDescription The field to represent.
* @return A method handle for a getter of the given field.
*/
public static MethodHandle ofSetter(FieldDescription.InDefinedShape fieldDescription) {
return new MethodHandle(HandleType.ofSetter(fieldDescription),
fieldDescription.getDeclaringType().asErasure(),
fieldDescription.getInternalName(),
TypeDescription.ForLoadedType.of(void.class),
Collections.singletonList(fieldDescription.getType().asErasure()));
}
/**
* Returns the lookup type of the provided {@code java.lang.invoke.MethodHandles$Lookup} instance.
*
* @param callerClassLookup An instance of {@code java.lang.invoke.MethodHandles$Lookup}.
* @return The instance's lookup type.
*/
public static Class> lookupType(Object callerClassLookup) {
return METHOD_HANDLES_LOOKUP.lookupClass(callerClassLookup);
}
/**
* {@inheritDoc}
*/
public Object toDescription() {
return JavaConstant.Simple.METHOD_HANDLE_DESC.of(JavaConstant.Simple.DIRECT_METHOD_HANDLE_DESC_KIND.valueOf(handleType.getIdentifier(), ownerType.isInterface()),
JavaConstant.Simple.CLASS_DESC.ofDescriptor(ownerType.getDescriptor()),
name,
getDescriptor());
}
/**
* {@inheritDoc}
*/
public T accept(Visitor visitor) {
return visitor.onMethodHandle(this);
}
/**
* {@inheritDoc}
*/
public TypeDescription getTypeDescription() {
return JavaType.METHOD_HANDLE.getTypeStub();
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return new JavaConstantValue(this);
}
/**
* Returns the handle type represented by this instance.
*
* @return The handle type represented by this instance.
*/
public HandleType getHandleType() {
return handleType;
}
/**
* Returns the owner type of this instance.
*
* @return The owner type of this instance.
*/
public TypeDescription getOwnerType() {
return ownerType;
}
/**
* Returns the name represented by this instance.
*
* @return The name represented by this instance.
*/
public String getName() {
return name;
}
/**
* Returns the return type represented by this instance.
*
* @return The return type represented by this instance.
*/
public TypeDescription getReturnType() {
return returnType;
}
/**
* Returns the parameter types represented by this instance.
*
* @return The parameter types represented by this instance.
*/
public TypeList getParameterTypes() {
return new TypeList.Explicit(parameterTypes);
}
/**
* Returns the method descriptor of this method handle representation.
*
* @return The method descriptor of this method handle representation.
*/
public String getDescriptor() {
switch (handleType) {
case GET_FIELD:
case GET_STATIC_FIELD:
return returnType.getDescriptor();
case PUT_FIELD:
case PUT_STATIC_FIELD:
return parameterTypes.get(0).getDescriptor();
default:
StringBuilder stringBuilder = new StringBuilder().append('(');
for (TypeDescription parameterType : parameterTypes) {
stringBuilder.append(parameterType.getDescriptor());
}
return stringBuilder.append(')').append(returnType.getDescriptor()).toString();
}
}
@Override
public int hashCode() {
int result = handleType.hashCode();
result = 31 * result + ownerType.hashCode();
result = 31 * result + name.hashCode();
result = 31 * result + returnType.hashCode();
result = 31 * result + parameterTypes.hashCode();
return result;
}
@Override
public boolean equals(@MaybeNull Object other) {
if (this == other) {
return true;
} else if (!(other instanceof MethodHandle)) {
return false;
}
MethodHandle methodHandle = (MethodHandle) other;
return handleType == methodHandle.handleType
&& name.equals(methodHandle.name)
&& ownerType.equals(methodHandle.ownerType)
&& parameterTypes.equals(methodHandle.parameterTypes)
&& returnType.equals(methodHandle.returnType);
}
@Override
public String toString() {
StringBuilder stringBuilder = new StringBuilder()
.append(handleType.name())
.append(ownerType.isInterface() && !handleType.isField() && handleType != HandleType.INVOKE_INTERFACE
? "@interface"
: "")
.append('/')
.append(ownerType.getSimpleName())
.append("::")
.append(name)
.append('(');
boolean first = true;
for (TypeDescription typeDescription : parameterTypes) {
if (first) {
first = false;
} else {
stringBuilder.append(',');
}
stringBuilder.append(typeDescription.getSimpleName());
}
return stringBuilder.append(')').append(returnType.getSimpleName()).toString();
}
/**
* A representation of a method handle's type.
*/
public enum HandleType {
/**
* A handle representing an invokevirtual invocation.
*/
INVOKE_VIRTUAL(Opcodes.H_INVOKEVIRTUAL, false),
/**
* A handle representing an invokestatic invocation.
*/
INVOKE_STATIC(Opcodes.H_INVOKESTATIC, false),
/**
* A handle representing an invokespecial invocation for a non-constructor.
*/
INVOKE_SPECIAL(Opcodes.H_INVOKESPECIAL, false),
/**
* A handle representing an invokeinterface invocation.
*/
INVOKE_INTERFACE(Opcodes.H_INVOKEINTERFACE, false),
/**
* A handle representing an invokespecial invocation for a constructor.
*/
INVOKE_SPECIAL_CONSTRUCTOR(Opcodes.H_NEWINVOKESPECIAL, false),
/**
* A handle representing a write of a non-static field invocation.
*/
PUT_FIELD(Opcodes.H_PUTFIELD, true),
/**
* A handle representing a read of a non-static field invocation.
*/
GET_FIELD(Opcodes.H_GETFIELD, true),
/**
* A handle representing a write of a static field invocation.
*/
PUT_STATIC_FIELD(Opcodes.H_PUTSTATIC, true),
/**
* A handle representing a read of a static field invocation.
*/
GET_STATIC_FIELD(Opcodes.H_GETSTATIC, true);
/**
* The represented identifier.
*/
private final int identifier;
/**
* {@code} true if this handle type represents a field handle.
*/
private final boolean field;
/**
* Creates a new handle type.
*
* @param identifier The represented identifier.
* @param field {@code} true if this handle type represents a field handle.
*/
HandleType(int identifier, boolean field) {
this.identifier = identifier;
this.field = field;
}
/**
* Extracts a handle type for invoking the given method.
*
* @param methodDescription The method for which a handle type should be found.
* @return The handle type for the given method.
*/
protected static HandleType of(MethodDescription.InDefinedShape methodDescription) {
if (methodDescription.isTypeInitializer()) {
throw new IllegalArgumentException("Cannot create handle of type initializer " + methodDescription);
} else if (methodDescription.isStatic()) {
return INVOKE_STATIC;
} else if (methodDescription.isConstructor()) { // Private constructors must use this handle type.
return INVOKE_SPECIAL_CONSTRUCTOR;
} else if (methodDescription.isPrivate()) {
return INVOKE_SPECIAL;
} else if (methodDescription.getDeclaringType().isInterface()) {
return INVOKE_INTERFACE;
} else {
return INVOKE_VIRTUAL;
}
}
/**
* Extracts a handle type for the given identifier.
*
* @param identifier The identifier to extract a handle type for.
* @return The representing handle type.
*/
protected static HandleType of(int identifier) {
for (HandleType handleType : HandleType.values()) {
if (handleType.getIdentifier() == identifier) {
return handleType;
}
}
throw new IllegalArgumentException("Unknown handle type: " + identifier);
}
/**
* Extracts a handle type for invoking the given method via invokespecial.
*
* @param methodDescription The method for which a handle type should be found.
* @return The handle type for the given method.
*/
protected static HandleType ofSpecial(MethodDescription.InDefinedShape methodDescription) {
if (methodDescription.isStatic() || methodDescription.isAbstract()) {
throw new IllegalArgumentException("Cannot invoke " + methodDescription + " via invokespecial");
}
return methodDescription.isConstructor()
? INVOKE_SPECIAL_CONSTRUCTOR
: INVOKE_SPECIAL;
}
/**
* Extracts a handle type for a getter of the given field.
*
* @param fieldDescription The field for which to create a getter handle.
* @return The corresponding handle type.
*/
protected static HandleType ofGetter(FieldDescription.InDefinedShape fieldDescription) {
return fieldDescription.isStatic()
? GET_STATIC_FIELD
: GET_FIELD;
}
/**
* Extracts a handle type for a setter of the given field.
*
* @param fieldDescription The field for which to create a setter handle.
* @return The corresponding handle type.
*/
protected static HandleType ofSetter(FieldDescription.InDefinedShape fieldDescription) {
return fieldDescription.isStatic()
? PUT_STATIC_FIELD
: PUT_FIELD;
}
/**
* Returns the represented identifier.
*
* @return The represented identifier.
*/
public int getIdentifier() {
return identifier;
}
/**
* Returns {@code} true if this handle type represents a field handle.
*
* @return {@code} true if this handle type represents a field handle.
*/
public boolean isField() {
return field;
}
}
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandleInfo}.
*/
@JavaDispatcher.Proxied("java.lang.invoke.MethodHandleInfo")
protected interface MethodHandleInfo {
/**
* Returns the name of the method handle info.
*
* @param value The {@code java.lang.invoke.MethodHandleInfo} to resolve.
* @return The name of the method handle info.
*/
String getName(Object value);
/**
* Returns the declaring type of the method handle info.
*
* @param value The {@code java.lang.invoke.MethodHandleInfo} to resolve.
* @return The declaring type of the method handle info.
*/
Class> getDeclaringClass(Object value);
/**
* Returns the reference kind of the method handle info.
*
* @param value The {@code java.lang.invoke.MethodHandleInfo} to resolve.
* @return The reference kind of the method handle info.
*/
int getReferenceKind(Object value);
/**
* Returns the {@code java.lang.invoke.MethodType} of the method handle info.
*
* @param value The {@code java.lang.invoke.MethodHandleInfo} to resolve.
* @return The {@code java.lang.invoke.MethodType} of the method handle info.
*/
Object getMethodType(Object value);
/**
* Returns the {@code java.lang.invoke.MethodHandleInfo} of the provided method handle. This method
* was available on Java 7 but replaced by a lookup-based method in Java 8 and later.
*
* @param handle The {@code java.lang.invoke.MethodHandle} to resolve.
* @return A {@code java.lang.invoke.MethodHandleInfo} to describe the supplied method handle.
*/
@JavaDispatcher.IsConstructor
Object revealDirect(@JavaDispatcher.Proxied("java.lang.invoke.MethodHandle") Object handle);
}
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodType}.
*/
@JavaDispatcher.Proxied("java.lang.invoke.MethodType")
protected interface MethodType {
/**
* Resolves a method type's return type.
*
* @param value The {@code java.lang.invoke.MethodType} to resolve.
* @return The method type's return type.
*/
Class> returnType(Object value);
/**
* Resolves a method type's parameter type.
*
* @param value The {@code java.lang.invoke.MethodType} to resolve.
* @return The method type's parameter types.
*/
Class>[] parameterArray(Object value);
}
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandles}.
*/
@JavaDispatcher.Proxied("java.lang.invoke.MethodHandles")
protected interface MethodHandles {
/**
* Resolves the public {@code java.lang.invoke.MethodHandles$Lookup}.
*
* @return The public {@code java.lang.invoke.MethodHandles$Lookup}.
*/
@JavaDispatcher.IsStatic
Object publicLookup();
/**
* A dispatcher to interact with {@code java.lang.invoke.MethodHandles$Lookup}.
*/
@JavaDispatcher.Proxied("java.lang.invoke.MethodHandles$Lookup")
interface Lookup {
/**
* Resolves the lookup type for a given lookup instance.
*
* @param value The {@code java.lang.invoke.MethodHandles$Lookup} to resolve.
* @return The lookup's lookup class.
*/
Class> lookupClass(Object value);
/**
* Reveals the {@code java.lang.invoke.MethodHandleInfo} for the supplied method handle.
*
* @param value The {@code java.lang.invoke.MethodHandles$Lookup} to use for resolving the supplied handle
* @param handle The {@code java.lang.invoke.MethodHandle} to resolve.
* @return A {@code java.lang.invoke.MethodHandleInfo} representing the supplied method handle.
*/
Object revealDirect(Object value, @JavaDispatcher.Proxied("java.lang.invoke.MethodHandle") Object handle);
}
}
}
/**
* Represents a dynamically resolved constant pool entry of a class file. This feature is supported for class files in version 11 and newer.
*/
class Dynamic implements JavaConstant {
/**
* The default name of a dynamic constant.
*/
public static final String DEFAULT_NAME = "_";
/**
* The name of the dynamic constant.
*/
private final String name;
/**
* A description of the represented value's type.
*/
private final TypeDescription typeDescription;
/**
* A handle representation of the bootstrap method.
*/
private final MethodHandle bootstrap;
/**
* A list of the arguments to the dynamic constant.
*/
private final List arguments;
/**
* Creates a dynamic resolved constant.
*
* @param name The name of the dynamic constant.
* @param typeDescription A description of the represented value's type.
* @param bootstrap A handle representation of the bootstrap method.
* @param arguments A list of the arguments to the dynamic constant.
*/
protected Dynamic(String name, TypeDescription typeDescription, MethodHandle bootstrap, List arguments) {
this.name = name;
this.typeDescription = typeDescription;
this.bootstrap = bootstrap;
this.arguments = arguments;
}
/**
* Returns a constant {@code null} value of type {@link Object}.
*
* @return A dynamically resolved null constant.
*/
public static Dynamic ofNullConstant() {
return new Dynamic(DEFAULT_NAME,
TypeDescription.ForLoadedType.of(Object.class),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"nullConstant",
TypeDescription.ForLoadedType.of(Object.class),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(), TypeDescription.ForLoadedType.of(String.class), TypeDescription.ForLoadedType.of(Class.class))),
Collections.emptyList());
}
/**
* Returns a {@link Class} constant for a primitive type.
*
* @param type The primitive type to represent.
* @return A dynamically resolved primitive type constant.
*/
public static JavaConstant ofPrimitiveType(Class> type) {
return ofPrimitiveType(TypeDescription.ForLoadedType.of(type));
}
/**
* Returns a {@link Class} constant for a primitive type.
*
* @param typeDescription The primitive type to represent.
* @return A dynamically resolved primitive type constant.
*/
public static JavaConstant ofPrimitiveType(TypeDescription typeDescription) {
if (!typeDescription.isPrimitive()) {
throw new IllegalArgumentException("Not a primitive type: " + typeDescription);
}
return new Dynamic(typeDescription.getDescriptor(),
TypeDescription.ForLoadedType.of(Class.class),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"primitiveClass",
TypeDescription.ForLoadedType.of(Class.class),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(), TypeDescription.ForLoadedType.of(String.class), TypeDescription.ForLoadedType.of(Class.class))),
Collections.emptyList());
}
/**
* Returns a {@link Enum} value constant.
*
* @param enumeration The enumeration value to represent.
* @return A dynamically resolved enumeration constant.
*/
public static JavaConstant ofEnumeration(Enum> enumeration) {
return ofEnumeration(new EnumerationDescription.ForLoadedEnumeration(enumeration));
}
/**
* Returns a {@link Enum} value constant.
*
* @param enumerationDescription The enumeration value to represent.
* @return A dynamically resolved enumeration constant.
*/
public static JavaConstant ofEnumeration(EnumerationDescription enumerationDescription) {
return new Dynamic(enumerationDescription.getValue(),
enumerationDescription.getEnumerationType(),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"enumConstant",
TypeDescription.ForLoadedType.of(Enum.class),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(), TypeDescription.ForLoadedType.of(String.class), TypeDescription.ForLoadedType.of(Class.class))),
Collections.emptyList());
}
/**
* Returns a {@code static}, {@code final} field constant.
*
* @param field The field to represent a value of.
* @return A dynamically resolved field value constant.
*/
public static Dynamic ofField(Field field) {
return ofField(new FieldDescription.ForLoadedField(field));
}
/**
* Returns a {@code static}, {@code final} field constant.
*
* @param fieldDescription The field to represent a value of.
* @return A dynamically resolved field value constant.
*/
public static Dynamic ofField(FieldDescription.InDefinedShape fieldDescription) {
if (!fieldDescription.isStatic() || !fieldDescription.isFinal()) {
throw new IllegalArgumentException("Field must be static and final: " + fieldDescription);
}
boolean selfDeclared = fieldDescription.getType().isPrimitive()
? fieldDescription.getType().asErasure().asBoxed().equals(fieldDescription.getType().asErasure())
: fieldDescription.getDeclaringType().equals(fieldDescription.getType().asErasure());
return new Dynamic(fieldDescription.getInternalName(),
fieldDescription.getType().asErasure(),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"getStaticFinal",
TypeDescription.ForLoadedType.of(Object.class),
selfDeclared
? Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(), TypeDescription.ForLoadedType.of(String.class), TypeDescription.ForLoadedType.of(Class.class))
: Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(), TypeDescription.ForLoadedType.of(String.class), TypeDescription.ForLoadedType.of(Class.class), TypeDescription.ForLoadedType.of(Class.class))),
selfDeclared
? Collections.emptyList()
: Collections.singletonList(JavaConstant.Simple.of(fieldDescription.getDeclaringType())));
}
/**
* Represents a constant that is resolved by invoking a {@code static} factory method.
*
* @param method The method to invoke to create the represented constant value.
* @param constant The method's constant arguments.
* @return A dynamic constant that is resolved by the supplied factory method.
*/
public static Dynamic ofInvocation(Method method, Object... constant) {
return ofInvocation(method, Arrays.asList(constant));
}
/**
* Represents a constant that is resolved by invoking a {@code static} factory method.
*
* @param method The method to invoke to create the represented constant value.
* @param constants The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that is resolved by the supplied factory method.
*/
public static Dynamic ofInvocation(Method method, List> constants) {
return ofInvocation(new MethodDescription.ForLoadedMethod(method), constants);
}
/**
* Represents a constant that is resolved by invoking a constructor.
*
* @param constructor The constructor to invoke to create the represented constant value.
* @param constant The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that is resolved by the supplied constuctor.
*/
public static Dynamic ofInvocation(Constructor> constructor, Object... constant) {
return ofInvocation(constructor, Arrays.asList(constant));
}
/**
* Represents a constant that is resolved by invoking a constructor.
*
* @param constructor The constructor to invoke to create the represented constant value.
* @param constants The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that is resolved by the supplied constuctor.
*/
public static Dynamic ofInvocation(Constructor> constructor, List> constants) {
return ofInvocation(new MethodDescription.ForLoadedConstructor(constructor), constants);
}
/**
* Represents a constant that is resolved by invoking a {@code static} factory method or a constructor.
*
* @param methodDescription The method or constructor to invoke to create the represented constant value.
* @param constant The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that is resolved by the supplied factory method or constructor.
*/
public static Dynamic ofInvocation(MethodDescription.InDefinedShape methodDescription, Object... constant) {
return ofInvocation(methodDescription, Arrays.asList(constant));
}
/**
* Represents a constant that is resolved by invoking a {@code static} factory method or a constructor.
*
* @param methodDescription The method or constructor to invoke to create the represented constant value.
* @param constants The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that is resolved by the supplied factory method or constructor.
*/
public static Dynamic ofInvocation(MethodDescription.InDefinedShape methodDescription, List> constants) {
if (!methodDescription.isConstructor() && methodDescription.getReturnType().represents(void.class)) {
throw new IllegalArgumentException("Bootstrap method is no constructor or non-void static factory: " + methodDescription);
} else if (methodDescription.isVarArgs()
? methodDescription.getParameters().size() + (methodDescription.isStatic() || methodDescription.isConstructor() ? 0 : 1) > constants.size() + 1
: methodDescription.getParameters().size() + (methodDescription.isStatic() || methodDescription.isConstructor() ? 0 : 1) != constants.size()) {
throw new IllegalArgumentException("Cannot assign " + constants + " to " + methodDescription);
}
List parameters = (methodDescription.isStatic() || methodDescription.isConstructor()
? methodDescription.getParameters().asTypeList().asErasures()
: CompoundList.of(methodDescription.getDeclaringType(), methodDescription.getParameters().asTypeList().asErasures()));
Iterator iterator;
if (methodDescription.isVarArgs()) {
iterator = CompoundList.of(parameters.subList(0, parameters.size() - 1), Collections.nCopies(
constants.size() - parameters.size() + 1,
parameters.get(parameters.size() - 1).getComponentType())).iterator();
} else {
iterator = parameters.iterator();
}
List arguments = new ArrayList(constants.size() + 1);
arguments.add(MethodHandle.of(methodDescription));
for (Object constant : constants) {
JavaConstant argument = JavaConstant.Simple.wrap(constant);
if (!argument.getTypeDescription().isAssignableTo(iterator.next())) {
throw new IllegalArgumentException("Cannot assign " + constants + " to " + methodDescription);
}
arguments.add(argument);
}
return new Dynamic(DEFAULT_NAME,
methodDescription.isConstructor()
? methodDescription.getDeclaringType()
: methodDescription.getReturnType().asErasure(),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"invoke",
TypeDescription.ForLoadedType.of(Object.class),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(),
TypeDescription.ForLoadedType.of(String.class),
TypeDescription.ForLoadedType.of(Class.class),
JavaType.METHOD_HANDLE.getTypeStub(),
TypeDescription.ArrayProjection.of(TypeDescription.ForLoadedType.of(Object.class)))),
arguments);
}
/**
* Resolves a var handle constant for a field.
*
* @param field The field to represent a var handle for.
* @return A dynamic constant that represents the created var handle constant.
*/
public static JavaConstant ofVarHandle(Field field) {
return ofVarHandle(new FieldDescription.ForLoadedField(field));
}
/**
* Resolves a var handle constant for a field.
*
* @param fieldDescription The field to represent a var handle for.
* @return A dynamic constant that represents the created var handle constant.
*/
public static JavaConstant ofVarHandle(FieldDescription.InDefinedShape fieldDescription) {
return new Dynamic(fieldDescription.getInternalName(),
JavaType.VAR_HANDLE.getTypeStub(),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
fieldDescription.isStatic()
? "staticFieldVarHandle"
: "fieldVarHandle",
JavaType.VAR_HANDLE.getTypeStub(),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(),
TypeDescription.ForLoadedType.of(String.class),
TypeDescription.ForLoadedType.of(Class.class),
TypeDescription.ForLoadedType.of(Class.class),
TypeDescription.ForLoadedType.of(Class.class))),
Arrays.asList(JavaConstant.Simple.of(fieldDescription.getDeclaringType()), JavaConstant.Simple.of(fieldDescription.getType().asErasure())));
}
/**
* Resolves a var handle constant for an array.
*
* @param type The array type for which the var handle is resolved.
* @return A dynamic constant that represents the created var handle constant.
*/
public static JavaConstant ofArrayVarHandle(Class> type) {
return ofArrayVarHandle(TypeDescription.ForLoadedType.of(type));
}
/**
* Resolves a var handle constant for an array.
*
* @param typeDescription The array type for which the var handle is resolved.
* @return A dynamic constant that represents the created var handle constant.
*/
public static JavaConstant ofArrayVarHandle(TypeDescription typeDescription) {
if (!typeDescription.isArray()) {
throw new IllegalArgumentException("Not an array type: " + typeDescription);
}
return new Dynamic(DEFAULT_NAME,
JavaType.VAR_HANDLE.getTypeStub(),
new MethodHandle(MethodHandle.HandleType.INVOKE_STATIC,
JavaType.CONSTANT_BOOTSTRAPS.getTypeStub(),
"arrayVarHandle",
JavaType.VAR_HANDLE.getTypeStub(),
Arrays.asList(JavaType.METHOD_HANDLES_LOOKUP.getTypeStub(),
TypeDescription.ForLoadedType.of(String.class),
TypeDescription.ForLoadedType.of(Class.class),
TypeDescription.ForLoadedType.of(Class.class))),
Collections.singletonList(JavaConstant.Simple.of(typeDescription)));
}
/**
* Binds the supplied bootstrap method for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param method The bootstrap method to invoke.
* @param constant The arguments for the bootstrap method represented as primitive wrapper types,
* {@link String}, {@link TypeDescription} or {@link JavaConstant} values or their loaded forms.
* @return A dynamic constant that represents the bootstrapped method's result.
*/
public static Dynamic bootstrap(String name, Method method, Object... constant) {
return bootstrap(name, method, Arrays.asList(constant));
}
/**
* Binds the supplied bootstrap method for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param method The bootstrap method to invoke.
* @param constants The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that represents the bootstrapped method's result.
*/
public static Dynamic bootstrap(String name, Method method, List> constants) {
return bootstrap(name, new MethodDescription.ForLoadedMethod(method), constants);
}
/**
* Binds the supplied bootstrap constructor for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param constructor The bootstrap constructor to invoke.
* @param constant The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that represents the bootstrapped constructor's result.
*/
public static Dynamic bootstrap(String name, Constructor> constructor, Object... constant) {
return bootstrap(name, constructor, Arrays.asList(constant));
}
/**
* Binds the supplied bootstrap constructor for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param constructor The bootstrap constructor to invoke.
* @param constants The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that represents the bootstrapped constructor's result.
*/
public static Dynamic bootstrap(String name, Constructor> constructor, List> constants) {
return bootstrap(name, new MethodDescription.ForLoadedConstructor(constructor), constants);
}
/**
* Binds the supplied bootstrap method or constructor for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param bootstrapMethod The bootstrap method or constructor to invoke.
* @param constant The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that represents the bootstrapped method's or constructor's result.
*/
public static Dynamic bootstrap(String name, MethodDescription.InDefinedShape bootstrapMethod, Object... constant) {
return bootstrap(name, bootstrapMethod, Arrays.asList(constant));
}
/**
* Binds the supplied bootstrap method or constructor for the resolution of a dynamic constant.
*
* @param name The name of the bootstrap constant that is provided to the bootstrap method or constructor.
* @param bootstrap The bootstrap method or constructor to invoke.
* @param arguments The constant values passed to the bootstrap method. Values can be represented either
* as {@link TypeDescription}, as {@link JavaConstant}, as {@link String} or a primitive
* {@code int}, {@code long}, {@code float} or {@code double} represented as wrapper type.
* @return A dynamic constant that represents the bootstrapped method's or constructor's result.
*/
public static Dynamic bootstrap(String name, MethodDescription.InDefinedShape bootstrap, List> arguments) {
if (name.length() == 0 || name.contains(".")) {
throw new IllegalArgumentException("Not a valid field name: " + name);
}
List constants = new ArrayList(arguments.size());
for (Object argument : arguments) {
constants.add(JavaConstant.Simple.wrap(argument));
}
if (!bootstrap.isConstantBootstrap(TypeList.Explicit.of(constants))) {
throw new IllegalArgumentException("Not a valid bootstrap method " + bootstrap + " for " + arguments);
}
return new Dynamic(name,
bootstrap.isConstructor()
? bootstrap.getDeclaringType()
: bootstrap.getReturnType().asErasure(),
new MethodHandle(bootstrap.isConstructor() ? MethodHandle.HandleType.INVOKE_SPECIAL_CONSTRUCTOR : MethodHandle.HandleType.INVOKE_STATIC,
bootstrap.getDeclaringType(),
bootstrap.getInternalName(),
bootstrap.getReturnType().asErasure(),
bootstrap.getParameters().asTypeList().asErasures()),
constants);
}
/**
* Returns the name of the dynamic constant.
*
* @return The name of the dynamic constant.
*/
public String getName() {
return name;
}
/**
* Returns a handle representation of the bootstrap method.
*
* @return A handle representation of the bootstrap method.
*/
public MethodHandle getBootstrap() {
return bootstrap;
}
/**
* Returns a list of the arguments to the dynamic constant.
*
* @return A list of the arguments to the dynamic constant.
*/
public List getArguments() {
return arguments;
}
/**
* Resolves this {@link Dynamic} constant to resolve the returned instance to the supplied type. The type must be a subtype of the
* bootstrap method's return type. Constructors cannot be resolved to a different type.
*
* @param type The type to resolve the bootstrapped value to.
* @return This dynamic constant but resolved to the supplied type.
*/
public JavaConstant withType(Class> type) {
return withType(TypeDescription.ForLoadedType.of(type));
}
/**
* Resolves this {@link Dynamic} constant to resolve the returned instance to the supplied type. The type must be a subtype of the
* bootstrap method's return type. Constructors cannot be resolved to a different type.
*
* @param typeDescription The type to resolve the bootstrapped value to.
* @return This dynamic constant but resolved to the supplied type.
*/
public JavaConstant withType(TypeDescription typeDescription) {
if (typeDescription.represents(void.class)) {
throw new IllegalArgumentException("Constant value cannot represent void");
} else if (getBootstrap().getName().equals(MethodDescription.CONSTRUCTOR_INTERNAL_NAME)
? !getTypeDescription().isAssignableTo(typeDescription)
: (!typeDescription.asBoxed().isInHierarchyWith(getTypeDescription().asBoxed()))) {
throw new IllegalArgumentException(typeDescription + " is not compatible with bootstrapped type " + getTypeDescription());
}
return new Dynamic(getName(), typeDescription, getBootstrap(), getArguments());
}
/**
* {@inheritDoc}
*/
public Object toDescription() {
Object[] argument = JavaConstant.Simple.CONSTANT_DESC.toArray(arguments.size());
for (int index = 0; index < argument.length; index++) {
argument[index] = arguments.get(index).toDescription();
}
return JavaConstant.Simple.DYNAMIC_CONSTANT_DESC.ofCanonical(JavaConstant.Simple.METHOD_HANDLE_DESC.of(
JavaConstant.Simple.DIRECT_METHOD_HANDLE_DESC_KIND.valueOf(bootstrap.getHandleType().getIdentifier(), bootstrap.getOwnerType().isInterface()),
JavaConstant.Simple.CLASS_DESC.ofDescriptor(bootstrap.getOwnerType().getDescriptor()),
bootstrap.getName(),
bootstrap.getDescriptor()), getName(), JavaConstant.Simple.CLASS_DESC.ofDescriptor(typeDescription.getDescriptor()), argument);
}
/**
* {@inheritDoc}
*/
public T accept(Visitor visitor) {
return visitor.onDynamic(this);
}
/**
* {@inheritDoc}
*/
public TypeDescription getTypeDescription() {
return typeDescription;
}
/**
* {@inheritDoc}
*/
public StackManipulation toStackManipulation() {
return new JavaConstantValue(this);
}
@Override
public int hashCode() {
int result = name.hashCode();
result = 31 * result + typeDescription.hashCode();
result = 31 * result + bootstrap.hashCode();
result = 31 * result + arguments.hashCode();
return result;
}
@Override
public boolean equals(@MaybeNull Object object) {
if (this == object) return true;
if (object == null || getClass() != object.getClass()) return false;
Dynamic dynamic = (Dynamic) object;
if (!name.equals(dynamic.name)) return false;
if (!typeDescription.equals(dynamic.typeDescription)) return false;
if (!bootstrap.equals(dynamic.bootstrap)) return false;
return arguments.equals(dynamic.arguments);
}
@Override
public String toString() {
StringBuilder stringBuilder = new StringBuilder()
.append(bootstrap.getOwnerType().getSimpleName())
.append("::")
.append(bootstrap.getName())
.append('(')
.append(name.equals(DEFAULT_NAME) ? "" : name)
.append('/');
boolean first = true;
for (JavaConstant constant : arguments) {
if (first) {
first = false;
} else {
stringBuilder.append(',');
}
stringBuilder.append(constant.toString());
}
return stringBuilder.append(')').append(typeDescription.getSimpleName()).toString();
}
}
}
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