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/*
 * Janino - An embedded Java[TM] compiler
 *
 * Copyright (c) 2001-2010 Arno Unkrig. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without modification, are permitted provided that the
 * following conditions are met:
 *
 *    1. Redistributions of source code must retain the above copyright notice, this list of conditions and the
 *       following disclaimer.
 *    2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the
 *       following disclaimer in the documentation and/or other materials provided with the distribution.
 *    3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote
 *       products derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

package com.hazelcast.shaded.org.codehaus.janino;

import java.io.Serializable;
import java.lang.reflect.Constructor;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Logger;

import com.hazelcast.shaded.org.codehaus.commons.compiler.CompileException;
import com.hazelcast.shaded.org.codehaus.commons.nullanalysis.Nullable;

/**
 * A simplified equivalent to "java.lang.reflect".
 * 

* 'JLS7' means a reference to the Java Language Specification, Java * SE 7 Edition. *

*/ public abstract class IClass implements ITypeVariableOrIClass { private static final Logger LOGGER = Logger.getLogger(IClass.class.getName()); /** * Special return value for {@link IField#getConstantValue()} indicating that the field does not have a * constant value. */ public static final Object NOT_CONSTANT = new Object() { @Override public String toString() { return "NOT_CONSTANT"; } }; /** * The {@link IClass} of the {@code null} literal. */ public static final IClass NULL = new PrimitiveIClass(""); /** * The {@link IClass} object for the type VOID. */ public static final IClass VOID = new PrimitiveIClass(Descriptor.VOID); /** * The {@link IClass} object for the primitive type BYTE. */ public static final IClass BYTE = new PrimitiveIClass(Descriptor.BYTE); /** * The {@link IClass} object for the primitive type CHAR. */ public static final IClass CHAR = new PrimitiveIClass(Descriptor.CHAR); /** * The {@link IClass} object for the primitive type DOUBLE. */ public static final IClass DOUBLE = new PrimitiveIClass(Descriptor.DOUBLE); /** * The {@link IClass} object for the primitive type FLOAT. */ public static final IClass FLOAT = new PrimitiveIClass(Descriptor.FLOAT); /** * The {@link IClass} object for the primitive type INT. */ public static final IClass INT = new PrimitiveIClass(Descriptor.INT); /** * The {@link IClass} object for the primitive type LONG. */ public static final IClass LONG = new PrimitiveIClass(Descriptor.LONG); /** * The {@link IClass} object for the primitive type SHORT. */ public static final IClass SHORT = new PrimitiveIClass(Descriptor.SHORT); /** * The {@link IClass} object for the primitive type BOOLEAN. */ public static final IClass BOOLEAN = new PrimitiveIClass(Descriptor.BOOLEAN); private static class PrimitiveIClass extends IClass { private final String fieldDescriptor; PrimitiveIClass(String fieldDescriptor) { this.fieldDescriptor = fieldDescriptor; } @Override protected ITypeVariable[] getITypeVariables2() { return new ITypeVariable[0]; } @Override @Nullable protected IClass getComponentType2() { return null; } @Override protected IClass[] getDeclaredIClasses2() { return new IClass[0]; } @Override protected IConstructor[] getDeclaredIConstructors2() { return new IConstructor[0]; } @Override protected IField[] getDeclaredIFields2() { return new IField[0]; } @Override protected IMethod[] getDeclaredIMethods2() { return new IMethod[0]; } @Override @Nullable protected IClass getDeclaringIClass2() { return null; } @Override protected String getDescriptor2() { return this.fieldDescriptor; } @Override protected IClass[] getInterfaces2() { return new IClass[0]; } @Override @Nullable protected IClass getOuterIClass2() { return null; } @Override @Nullable protected IClass getSuperclass2() { return null; } @Override public boolean isAbstract() { return false; } @Override public boolean isArray() { return false; } @Override public boolean isFinal() { return true; } @Override public boolean isEnum() { return false; } @Override public boolean isInterface() { return false; } @Override public boolean isPrimitive() { return true; } @Override public Access getAccess() { return Access.PUBLIC; } @Override public boolean isPrimitiveNumeric() { return Descriptor.isPrimitiveNumeric(this.fieldDescriptor); } } /** * @return Zero-length array if this {@link IClass} declares no type variables */ public final ITypeVariable[] getITypeVariables() throws CompileException { if (this.iTypeVariablesCache != null) return this.iTypeVariablesCache; return (this.iTypeVariablesCache = this.getITypeVariables2()); } @Nullable private ITypeVariable[] iTypeVariablesCache; /** * The uncached version of {@link #getDeclaredIConstructors()} which must be implemented by derived classes. */ protected abstract ITypeVariable[] getITypeVariables2() throws CompileException; /** * Returns all the constructors declared by the class represented by the type. If the class has a default * constructor, it is included. *

* Returns an array with zero elements for an interface, array, primitive type or {@code void}. *

*/ public final IConstructor[] getDeclaredIConstructors() { if (this.declaredIConstructorsCache != null) return this.declaredIConstructorsCache; return (this.declaredIConstructorsCache = this.getDeclaredIConstructors2()); } @Nullable private IConstructor[] declaredIConstructorsCache; /** * The uncached version of {@link #getDeclaredIConstructors()} which must be implemented by derived classes. */ protected abstract IConstructor[] getDeclaredIConstructors2(); /** * Returns the methods of the class or interface (but not inherited methods). For covariant methods, only the * method with the most derived return type is included. *

* Returns an empty array for an array, primitive type or {@code void}. *

*/ public final IMethod[] getDeclaredIMethods() { if (this.declaredIMethodsCache != null) return this.declaredIMethodsCache; return (this.declaredIMethodsCache = this.getDeclaredIMethods2()); } @Nullable private IMethod[] declaredIMethodsCache; /** * The uncached version of {@link #getDeclaredIMethods()} which must be implemented by derived classes. */ protected abstract IMethod[] getDeclaredIMethods2(); /** * Returns all methods with the given name declared in the class or interface (but not inherited methods). *

* Returns an empty array if no methods with that name are declared. *

* * @return an array of {@link IMethod}s that must not be modified */ public final IMethod[] getDeclaredIMethods(String methodName) { Map dimc = this.declaredIMethodCache; if (dimc == null) { IMethod[] dims = this.getDeclaredIMethods(); // Fill the map with "IMethod"s and "List"s. dimc = new HashMap<>(); for (IMethod dim : dims) { String mn = dim.getName(); Object o = dimc.get(mn); if (o == null) { dimc.put(mn, dim); } else if (o instanceof IMethod) { List l = new ArrayList<>(); l.add((IMethod) o); l.add(dim); dimc.put(mn, l); } else { @SuppressWarnings("unchecked") List tmp = (List) o; tmp.add(dim); } } // Convert "IMethod"s and "List"s to "IMethod[]"s. for (Map.Entry*/> me : dimc.entrySet()) { Object v = me.getValue(); if (v instanceof IMethod) { me.setValue(new IMethod[] { (IMethod) v }); } else { @SuppressWarnings("unchecked") List l = (List) v; me.setValue(l.toArray(new IMethod[l.size()])); } } this.declaredIMethodCache = dimc; } IMethod[] methods = (IMethod[]) dimc.get(methodName); return methods == null ? IClass.NO_IMETHODS : methods; } @Nullable private Map*/> declaredIMethodCache; /** * Returns all methods declared in the class or interface, its superclasses and its superinterfaces. * * @return an array of {@link IMethod}s that must not be modified */ public final IMethod[] getIMethods() throws CompileException { if (this.iMethodCache != null) return this.iMethodCache; List iMethods = new ArrayList<>(); this.getIMethods(iMethods); return (this.iMethodCache = (IMethod[]) iMethods.toArray(new IMethod[iMethods.size()])); } @Nullable private IMethod[] iMethodCache; private void getIMethods(List result) throws CompileException { IMethod[] ms = this.getDeclaredIMethods(); SCAN_DECLARED_METHODS: for (IMethod candidate : ms) { MethodDescriptor candidateDescriptor = candidate.getDescriptor(); String candidateName = candidate.getName(); // Check if a method with the same name and descriptor has been added before. for (IMethod oldMethod : result) { if ( candidateName.equals(oldMethod.getName()) && candidateDescriptor.equals(oldMethod.getDescriptor()) ) continue SCAN_DECLARED_METHODS; } result.add(candidate); } IClass sc = this.getSuperclass(); if (sc != null) sc.getIMethods(result); for (IClass ii : this.getInterfaces()) ii.getIMethods(result); } private static final IMethod[] NO_IMETHODS = new IMethod[0]; /** * @return Whether this {@link IClass} (or its superclass or the interfaces it implements) has an {@link IMethod} * with the given name and parameter types */ public final boolean hasIMethod(String methodName, IClass[] parameterTypes) throws CompileException { return this.findIMethod(methodName, parameterTypes) != null; } /** * @return The {@link IMethod} declared in this {@link IClass} (or its superclass or the interfaces it implements) * with the given name and parameter types, or {@code null} if an applicable method could not be found */ @Nullable public final IMethod findIMethod(String methodName, IClass[] parameterTypes) throws CompileException { { IMethod result = null; for (IMethod im : this.getDeclaredIMethods(methodName)) { if ( Arrays.equals(im.getParameterTypes(), parameterTypes) && (result == null || result.getReturnType().isAssignableFrom(im.getReturnType())) ) result = im; } if (result != null) return result; } { IClass superclass = this.getSuperclass(); if (superclass != null) { IMethod result = superclass.findIMethod(methodName, parameterTypes); if (result != null) return result; } } { IClass[] interfaces = this.getInterfaces(); for (IClass interfacE : interfaces) { IMethod result = interfacE.findIMethod(methodName, parameterTypes); if (result != null) return result; } } return null; } /** * @return The {@link IConstructor} declared in this {@link IClass} with the given parameter types, or {@code null} * if an applicable constructor could not be found */ @Nullable public final IConstructor findIConstructor(IClass[] parameterTypes) throws CompileException { IConstructor[] ics = this.getDeclaredIConstructors(); for (IConstructor ic : ics) { if (Arrays.equals(ic.getParameterTypes(), parameterTypes)) return ic; } return null; } /** * Returns the {@link IField}s declared in this {@link IClass} (but not inherited fields). * * @return An empty array for an array, primitive type or {@code void} */ public final IField[] getDeclaredIFields() { Collection allFields = this.getDeclaredIFieldsCache().values(); return (IField[]) allFields.toArray(new IField[allFields.size()]); } /** * @return {@code String fieldName => IField} */ private Map getDeclaredIFieldsCache() { if (this.declaredIFieldsCache != null) return this.declaredIFieldsCache; IField[] fields = this.getDeclaredIFields2(); Map m = new LinkedHashMap<>(); for (IField f : fields) m.put(f.getName(), f); return (this.declaredIFieldsCache = m); } /** * Returns the named {@link IField} declared in this {@link IClass} (does not work for inherited fields). * * @return {@code null} iff this {@link IClass} does not declare an {@link IField} with that name */ @Nullable public final IField getDeclaredIField(String name) { return (IField) this.getDeclaredIFieldsCache().get(name); } /** * Clears the cache of declared fields which this class maintains in order to minimize the invocations of {@link * #getDeclaredIFields2()}. */ protected void clearIFieldCaches() { this.declaredIFieldsCache = null; } @Nullable private Map declaredIFieldsCache; /** * Uncached version of {@link #getDeclaredIFields()}. */ protected abstract IField[] getDeclaredIFields2(); /** * @return The synthetic fields of an anonymous or local class, in the order in which they are passed to all * constructors */ public IField[] getSyntheticIFields() { return new IField[0]; } /** * Returns the classes and interfaces declared as members of the class (but not inherited classes and interfaces). *

* Returns an empty array for an array, primitive type or {@code void}. *

*/ public final IClass[] getDeclaredIClasses() throws CompileException { if (this.declaredIClassesCache != null) return this.declaredIClassesCache; return (this.declaredIClassesCache = this.getDeclaredIClasses2()); } @Nullable private IClass[] declaredIClassesCache; /** * @return The member types of this type */ protected abstract IClass[] getDeclaredIClasses2() throws CompileException; /** * @return If this class is a member class, the declaring class, otherwise {@code null} */ @Nullable public final IClass getDeclaringIClass() throws CompileException { if (!this.declaringIClassIsCached) { this.declaringIClassCache = this.getDeclaringIClass2(); this.declaringIClassIsCached = true; } return this.declaringIClassCache; } private boolean declaringIClassIsCached; @Nullable private IClass declaringIClassCache; /** * @return If this class is a member class, the declaring class, otherwise {@code null} */ @Nullable protected abstract IClass getDeclaringIClass2() throws CompileException; /** * The following types have an "outer class": *
    *
  • Anonymous classes declared in a non-static method of a class *
  • Local classes declared in a non-static method of a class *
  • Non-static member classes *
* * @return The outer class of this type, or {@code null} */ @Nullable public final IClass getOuterIClass() throws CompileException { if (this.outerIClassIsCached) return this.outerIClassCache; this.outerIClassIsCached = true; return (this.outerIClassCache = this.getOuterIClass2()); } private boolean outerIClassIsCached; @Nullable private IClass outerIClassCache; /** * @see #getOuterIClass() */ @Nullable protected abstract IClass getOuterIClass2() throws CompileException; /** * Returns the superclass of the class. *

* Returns {@code null} for class {@link Object}, interfaces, arrays, primitive types and {@code void}. *

*/ @Nullable public final IClass getSuperclass() throws CompileException { if (this.superclassIsCached) return this.superclassCache; IClass sc = this.getSuperclass2(); if (sc != null && IClass.rawTypeOf(sc).isSubclassOf(this)) { throw new CompileException( "Class circularity detected for \"" + Descriptor.toClassName(this.getDescriptor()) + "\"", null ); } this.superclassIsCached = true; return (this.superclassCache = sc); } private boolean superclassIsCached; @Nullable private IClass superclassCache; /** * @see #getSuperclass() */ @Nullable protected abstract IClass getSuperclass2() throws CompileException; /** * @return The accessibility of this type */ public abstract Access getAccess(); /** * Whether subclassing is allowed (JVMS 4.1 access_flags) * * @return {@code true} if subclassing is prohibited */ public abstract boolean isFinal(); /** * Returns the interfaces implemented by the class, respectively the superinterfaces of the interface, respectively * { {@link Cloneable}{@code ,} {@link Serializable} } for arrays. *

* Returns an empty array for primitive types and {@code void}. *

*/ public final IClass[] getInterfaces() throws CompileException { if (this.interfacesCache != null) return this.interfacesCache; IClass[] is = this.getInterfaces2(); for (IClass ii : is) { if (ii.implementsInterface(this)) { throw new CompileException( "Interface circularity detected for \"" + Descriptor.toClassName(this.getDescriptor()) + "\"", null ); } } return (this.interfacesCache = is); } @Nullable private IClass[] interfacesCache; /** * @see #getInterfaces() */ protected abstract IClass[] getInterfaces2() throws CompileException; /** * Whether the class may be instantiated (JVMS 4.1 access_flags). * * @return {@code true} if instantiation is prohibited */ public abstract boolean isAbstract(); /** * Returns the field descriptor for the type as defined by JVMS 4.3.2. This method is fast. */ public final String getDescriptor() { if (this.descriptorCache != null) return this.descriptorCache; return (this.descriptorCache = this.getDescriptor2()); } @Nullable private String descriptorCache; /** * @return The field descriptor for the type as defined by JVMS 4.3.2. */ protected abstract String getDescriptor2(); /** * Convenience method that determines the field descriptors of an array of {@link IClass}es. * * @see #getDescriptor() */ public static String[] getDescriptors(IClass[] iClasses) { String[] descriptors = new String[iClasses.length]; for (int i = 0; i < iClasses.length; ++i) descriptors[i] = iClasses[i].getDescriptor(); return descriptors; } /** * @return Whether this type represents an enum */ public abstract boolean isEnum(); /** * @return Whether this type represents an interface */ public abstract boolean isInterface(); /** * @return Whether this type represents an array */ public abstract boolean isArray(); /** * @return Whether this type represents a primitive type or {@code void} */ public abstract boolean isPrimitive(); /** * @return Whether this type represents {@code byte}, {@code short}, {@code int}, {@code long}, {@code char}, * {@code float} or {@code double} */ public abstract boolean isPrimitiveNumeric(); /** * @return The component type of the array, or {@code null} for classes, interfaces, primitive types and {@code * void} */ @Nullable public final IClass getComponentType() { if (this.componentTypeIsCached) return this.componentTypeCache; this.componentTypeCache = this.getComponentType2(); this.componentTypeIsCached = true; return this.componentTypeCache; } private boolean componentTypeIsCached; @Nullable private IClass componentTypeCache; /** * @see #getComponentType() */ @Nullable protected abstract IClass getComponentType2(); @Override public String toString() { String className = Descriptor.toClassName(this.getDescriptor()); if (className.startsWith("java.lang.") && className.indexOf('.', 10) == -1) className = className.substring(10); return className; } /** * Determines if {@code this} is assignable from that. This is true if {@code this} is identical with * that (JLS7 5.1.1), or if that is widening-primitive-convertible to {@code this} (JLS7 * 5.1.2), or if that is widening-reference-convertible to {@code this} (JLS7 5.1.5). */ public boolean isAssignableFrom(IClass that) throws CompileException { // Identity conversion, JLS7 5.1.1 if (this == that) return true; // Widening primitive conversion, JLS7 5.1.2 { String ds = that.getDescriptor() + this.getDescriptor(); if (ds.length() == 2 && IClass.PRIMITIVE_WIDENING_CONVERSIONS.contains(ds)) return true; } // Widening reference conversion, JLS7 5.1.5 { // JLS7 5.1.4.1: Target type is superclass of source class type. if (that.isSubclassOf(this)) return true; // JLS7 5.1.4.2: Source class type implements target interface type. // JLS7 5.1.4.4: Source interface type implements target interface type. if (that.implementsInterface(this)) return true; // JLS7 5.1.4.3 Convert "null" literal to any reference type. if (that == IClass.NULL && !this.isPrimitive()) return true; // JLS7 5.1.4.5: From any interface to type "Object". if (that.isInterface() && this.getDescriptor().equals(Descriptor.JAVA_LANG_OBJECT)) return true; if (that.isArray()) { // JLS7 5.1.4.6: From any array type to type "Object". if (this.getDescriptor().equals(Descriptor.JAVA_LANG_OBJECT)) return true; // JLS7 5.1.4.7: From any array type to type "Cloneable". if (this.getDescriptor().equals(Descriptor.JAVA_LANG_CLONEABLE)) return true; // JLS7 5.1.4.8: From any array type to type "java.io.Serializable". if (this.getDescriptor().equals(Descriptor.JAVA_IO_SERIALIZABLE)) return true; // JLS7 5.1.4.9: From SC[] to TC[] while SC if widening reference convertible to TC. if (this.isArray()) { IClass thisCt = this.getComponentType(); IClass thatCt = that.getComponentType(); assert thisCt != null; assert thatCt != null; if (!thisCt.isPrimitive() && thisCt.isAssignableFrom(thatCt)) return true; } } } return false; } private static final Set PRIMITIVE_WIDENING_CONVERSIONS = new HashSet<>(); static { String[] pwcs = { Descriptor.BYTE + Descriptor.SHORT, Descriptor.BYTE + Descriptor.INT, Descriptor.SHORT + Descriptor.INT, Descriptor.CHAR + Descriptor.INT, Descriptor.BYTE + Descriptor.LONG, Descriptor.SHORT + Descriptor.LONG, Descriptor.CHAR + Descriptor.LONG, Descriptor.INT + Descriptor.LONG, Descriptor.BYTE + Descriptor.FLOAT, Descriptor.SHORT + Descriptor.FLOAT, Descriptor.CHAR + Descriptor.FLOAT, Descriptor.INT + Descriptor.FLOAT, Descriptor.LONG + Descriptor.FLOAT, Descriptor.BYTE + Descriptor.DOUBLE, Descriptor.SHORT + Descriptor.DOUBLE, Descriptor.CHAR + Descriptor.DOUBLE, Descriptor.INT + Descriptor.DOUBLE, Descriptor.LONG + Descriptor.DOUBLE, Descriptor.FLOAT + Descriptor.DOUBLE, }; for (String pwc : pwcs) IClass.PRIMITIVE_WIDENING_CONVERSIONS.add(pwc); } /** * Returns {@code true} if this class is an immediate or non-immediate subclass of {@code that} class. */ public boolean isSubclassOf(IClass that) throws CompileException { for (IClass sc = this.getSuperclass(); sc != null; sc = sc.getSuperclass()) { if (sc == that) return true; } return false; } /** * If {@code this} represents a class: Return {@code true} if this class directly or indirectly implements {@code * that} interface. *

* If {@code this} represents an interface: Return {@code true} if this interface directly or indirectly extends * {@code that} interface. *

*/ public boolean implementsInterface(IClass that) throws CompileException { for (IClass c = this; c != null; c = c.getSuperclass()) { IClass[] tis = c.getInterfaces(); for (IClass ti : tis) { if (ti == that || ti.implementsInterface(that)) return true; } } return false; } /** * If name is {@code null}, finds all {@link IClass}es visible in the scope of the current * class. *

* If name is not {@code null}, finds the member {@link IClass}es that has the given name. If * the name is ambiguous (i.e. if more than one superclass, interface of enclosing type declares a type with that * name), then the size of the returned array is greater than one. *

*

* Examines superclasses, interfaces and enclosing type declarations. *

* * @return an array of {@link IClass}es in unspecified order, possibly of length zero */ IClass[] findMemberType(@Nullable String name) throws CompileException { IClass[] res = (IClass[]) this.memberTypeCache.get(name); if (res == null) { // Notice: A type may be added multiply to the result set because we are in its scope // multiply. E.g. the type is a member of a superclass AND a member of an enclosing type. Set s = new HashSet<>(); this.findMemberType(name, s); res = s.isEmpty() ? IClass.ZERO_ICLASSES : (IClass[]) s.toArray(new IClass[s.size()]); this.memberTypeCache.put(name, res); } return res; } private final Map memberTypeCache = new HashMap<>(); private static final IClass[] ZERO_ICLASSES = new IClass[0]; private void findMemberType(@Nullable String name, Collection result) throws CompileException { // Search for a type with the given name in the current class. IClass[] memberTypes = this.getDeclaredIClasses(); if (name == null) { result.addAll(Arrays.asList(memberTypes)); } else { String memberDescriptor = Descriptor.fromClassName( Descriptor.toClassName(this.getDescriptor()) + '$' + name ); for (final IClass mt : memberTypes) { if (mt.getDescriptor().equals(memberDescriptor)) { result.add(mt); return; } } } // Examine superclass. { IClass superclass = this.getSuperclass(); if (superclass != null) superclass.findMemberType(name, result); } // Examine interfaces. for (IClass i : this.getInterfaces()) i.findMemberType(name, result); // Examine enclosing type declarations. { IClass declaringIClass = this.getDeclaringIClass(); IClass outerIClass = this.getOuterIClass(); if (declaringIClass != null) { declaringIClass.findMemberType(name, result); } if (outerIClass != null && outerIClass != declaringIClass) { outerIClass.findMemberType(name, result); } } } /** * @return The annotations of this type (possibly the empty array) */ public final IAnnotation[] getIAnnotations() throws CompileException { if (this.iAnnotationsCache != null) return this.iAnnotationsCache; return (this.iAnnotationsCache = this.getIAnnotations2()); } @Nullable private IAnnotation[] iAnnotationsCache; /** * @throws CompileException */ protected IAnnotation[] getIAnnotations2() throws CompileException { return IClass.NO_ANNOTATIONS; } /** * Array of zero {@link IAnnotation}s. */ public static final IAnnotation[] NO_ANNOTATIONS = new IAnnotation[0]; /** * Base for the members of an {@link IClass}. {@link IMember} are expected to be immutable, i.e. all getter methods * return constant values. */ public interface IMember { /** * @return One of {@link Access#PRIVATE}, {@link Access#PROTECTED}, {@link Access#DEFAULT} and {@link * Access#PUBLIC}. */ Access getAccess(); /** * @return Modifiers and/or annotations of this member */ IAnnotation[] getAnnotations(); /** * @return The {@link IClass} that declares this {@link IClass.IMember} */ IClass getDeclaringIClass(); } /** * Base class for {@link IConstructor} and {@link IMethod}. */ public abstract class IInvocable implements IMember { private boolean argsNeedAdjust; /** * TODO */ public void setArgsNeedAdjust(boolean newVal) { this.argsNeedAdjust = newVal; } /** * TODO */ public boolean argsNeedAdjust() { return this.argsNeedAdjust; } /** * @return Whether this invocable is 'variable arity', i.e. its last parameter has an ellipsis ('...') after * the type */ public abstract boolean isVarargs(); // Implement IMember. @Override public IClass getDeclaringIClass() { return IClass.this; } /** * Returns the types of the parameters of this constructor or method. This method is fast. */ public final IClass[] getParameterTypes() throws CompileException { if (this.parameterTypesCache != null) return this.parameterTypesCache; return (this.parameterTypesCache = this.getParameterTypes2()); } @Nullable private IClass[] parameterTypesCache; /** * Opposed to the {@link Constructor}, there is no magic "{@code this$0}" parameter. *

* Opposed to the {@link Constructor}, {@code enum}s have no magic parameters "{@code String name}" and * "{@code int ordinal}". *

*

* However, the "synthetic parameters" ("{@code val$}locvar") are included. *

*/ public abstract IClass[] getParameterTypes2() throws CompileException; /** * Returns the method descriptor of this constructor or method. This method is fast. */ public final MethodDescriptor getDescriptor() throws CompileException { if (this.descriptorCache != null) return this.descriptorCache; return (this.descriptorCache = this.getDescriptor2()); } @Nullable private MethodDescriptor descriptorCache; /** * Uncached implementation of {@link #getDescriptor()}. */ public abstract MethodDescriptor getDescriptor2() throws CompileException; /** * Returns the types thrown by this constructor or method. This method is fast. */ public final IClass[] getThrownExceptions() throws CompileException { if (this.thrownExceptionsCache != null) return this.thrownExceptionsCache; return (this.thrownExceptionsCache = this.getThrownExceptions2()); } @Nullable private IClass[] thrownExceptionsCache; /** * @return The types thrown by this constructor or method */ public abstract IClass[] getThrownExceptions2() throws CompileException; /** * @return Whether this {@link IInvocable} is more specific then that (in the sense of JLS7 * 15.12.2.5) */ public boolean isMoreSpecificThan(IInvocable that) throws CompileException { IClass.LOGGER.entering(null, "isMoreSpecificThan", that); // a variable-length argument is always less specific than a fixed arity. final boolean thatIsVarargs; if ((thatIsVarargs = that.isVarargs()) != this.isVarargs()) { // Only one of the two is varargs. return thatIsVarargs; } else if (thatIsVarargs) { // Both are varargs. final IClass[] thisParameterTypes = this.getParameterTypes(); final IClass[] thatParameterTypes = that.getParameterTypes(); IClass[] t, u; int n, k; if (thisParameterTypes.length >= thatParameterTypes.length) { t = thisParameterTypes; u = thatParameterTypes; n = t.length; k = u.length; IClass[] s = u; // this = T | T_n // that = U | U_k // n >= k // ignore generics, for now // T0, T1, ..., Tn-1, Tn[] // U0, U1, .., Uk[] final int kMinus1 = k - 1; for (int j = 0; j < kMinus1; ++j) { // expect T[j] <: S[j] if (!s[j].isAssignableFrom(t[j])) { return false; } } final IClass sk1 = s[kMinus1].getComponentType(); assert sk1 != null; final int nMinus1 = n - 1; for (int j = kMinus1; j < nMinus1; ++j) { // expect T[j] <: S[k -1] if (!sk1.isAssignableFrom(t[j])) { return false; } } if (!sk1.isAssignableFrom(t[nMinus1])) { return false; } } else { u = thisParameterTypes; t = thatParameterTypes; n = t.length; k = u.length; IClass[] s = t; // n >= k final int kMinus1 = k - 1; for (int j = 0; j < kMinus1; ++j) { // expect U[j] <: S[j] if (!s[j].isAssignableFrom(u[j])) { return false; } } final IClass uk1 = u[kMinus1].getComponentType(); assert uk1 != null; final int nMinus1 = n - 1; for (int j = kMinus1; j < nMinus1; ++j) { // expect U[k -1] <: S[j] if (!s[j].isAssignableFrom(uk1)) { return false; } } IClass snm1ct = s[nMinus1].getComponentType(); assert snm1ct != null; if (!snm1ct.isAssignableFrom(uk1)) { return false; } } return true; } // both are fixed arity // The following case is tricky: JLS7 says that the invocation is AMBIGUOUS, but only JAVAC 1.2 issues an // error; JAVAC 1.4.1, 1.5.0 and 1.6.0 obviously ignore the declaring type and invoke "A.meth(String)". // JLS7 is not clear about this. For compatibility with JAVA 1.4.1, 1.5.0 and 1.6.0, JANINO also ignores // the declaring type. // // See also JANINO-79 and JlsTests / 15.12.2.2 // if (false) { // if (!that.getDeclaringIClass().isAssignableFrom(this.getDeclaringIClass())) { // if (IClass.DEBUG) System.out.println("falsE"); // return false; // } // } IClass[] thisParameterTypes = this.getParameterTypes(); IClass[] thatParameterTypes = that.getParameterTypes(); for (int i = 0; i < thisParameterTypes.length; ++i) { if (!thatParameterTypes[i].isAssignableFrom(thisParameterTypes[i])) { IClass.LOGGER.exiting(null, "isMoreSpecificThan", false); return false; } } boolean result = !Arrays.equals(thisParameterTypes, thatParameterTypes); IClass.LOGGER.exiting(null, "isMoreSpecificThan", result); return result; } /** * @return Whether this {@link IInvocable} is less specific then that (in the sense of JLS7 * 15.12.2.5) */ public boolean isLessSpecificThan(IInvocable that) throws CompileException { return that.isMoreSpecificThan(this); } @Override public abstract String toString(); } /** * Representation of a constructor of an {@link IClass}. */ public abstract class IConstructor extends IInvocable { @Override public MethodDescriptor getDescriptor2() throws CompileException { IClass[] parameterTypes = this.getParameterTypes(); // Iff this is an inner class, prepend the magic "this$0" constructor parameter. { IClass outerIClass = IClass.this.getOuterIClass(); if (outerIClass != null) { IClass[] tmp = new IClass[parameterTypes.length + 1]; tmp[0] = outerIClass; System.arraycopy(parameterTypes, 0, tmp, 1, parameterTypes.length); parameterTypes = tmp; } } String[] parameterFds = IClass.getDescriptors(parameterTypes); // Iff this is an enum, prepend the magic "String name" and "int ordinal" constructor parameters. if (this.getDeclaringIClass().isEnum()) { String[] tmp = new String[parameterFds.length + 2]; tmp[0] = Descriptor.JAVA_LANG_STRING; tmp[1] = Descriptor.INT; System.arraycopy(parameterFds, 0, tmp, 2, parameterFds.length); parameterFds = tmp; } return new MethodDescriptor(Descriptor.VOID, parameterFds); } @Override public String toString() { StringBuilder sb = new StringBuilder(this.getDeclaringIClass().toString()); sb.append('('); try { IClass[] parameterTypes = this.getParameterTypes(); for (int i = 0; i < parameterTypes.length; ++i) { if (i > 0) sb.append(", "); sb.append(parameterTypes[i].toString()); } } catch (CompileException ex) { sb.append(""); } sb.append(')'); return sb.toString(); } } /** * Representation of a method in an {@link IClass}. */ public abstract class IMethod extends IInvocable { /** * @return Whether this method is STATIC */ public abstract boolean isStatic(); /** * @return Whether this method is ABSTRACT */ public abstract boolean isAbstract(); /** * @return The return type of this method */ public abstract IClass getReturnType() throws CompileException; /** * @return The name of this method */ public abstract String getName(); @Override public MethodDescriptor getDescriptor2() throws CompileException { return new MethodDescriptor( this.getReturnType().getDescriptor(), IClass.getDescriptors(this.getParameterTypes()) ); } @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append(this.getAccess().toString()).append(' '); if (this.isStatic()) sb.append("static "); if (this.isAbstract()) sb.append("abstract "); try { sb.append(this.getReturnType().toString()); } catch (CompileException ex) { sb.append(""); } sb.append(' '); sb.append(this.getDeclaringIClass().toString()); sb.append('.'); sb.append(this.getName()); sb.append('('); try { IClass[] parameterTypes = this.getParameterTypes(); for (int i = 0; i < parameterTypes.length; ++i) { if (i > 0) sb.append(", "); sb.append(parameterTypes[i].toString()); } } catch (CompileException ex) { sb.append(""); } sb.append(')'); try { IClass[] tes = this.getThrownExceptions(); if (tes.length > 0) { sb.append(" throws ").append(tes[0]); for (int i = 1; i < tes.length; ++i) sb.append(", ").append(tes[i]); } } catch (CompileException ex) { sb.append(""); } return sb.toString(); } } /** * Representation of a field of this {@link IClass}. */ public abstract class IField implements IMember { // Implement IMember. @Override public abstract Access getAccess(); @Override public IClass getDeclaringIClass() { return IClass.this; } /** * @return Whether this field is STATIC */ public abstract boolean isStatic(); /** * @return The type of this field */ public abstract IClass getType() throws CompileException; /** * @return The name this field */ public abstract String getName(); /** * @return The descriptor of this field */ public String getDescriptor() throws CompileException { return IClass.rawTypeOf(this.getType()).getDescriptor(); } /** * Returns the value of the field if it is a compile-time constant value, i.e. the field is FINAL and its * initializer is a constant expression (JLS7 15.28, bullet 12). */ @Nullable public abstract Object getConstantValue() throws CompileException; @Override public String toString() { return this.getDeclaringIClass().toString() + "." + this.getName(); } } /** * Representation of a Java "annotation". */ public interface IAnnotation { /** * @return The type of the annotation */ IType getAnnotationType() throws CompileException; /** * Returns the value of the named element: *
*
{@link Boolean}
*
{@link Byte}
*
{@link Character}
*
{@link Double}
*
{@link Float}
*
{@link Integer}
*
{@link Long}
*
{@link Short}
*
* A primitive value *
*
{@link String}
*
* A string value *
*
{@link IField}
*
* An enum constant *
*
{@link IClass}
*
* A class literal *
*
{@link IAnnotation}
*
* An annotation *
*
{@link Object}{@code []}
*
* An array value *
*
*

* Notice that {@code null} is not a valid return value. *

*/ Object getElementValue(String name) throws CompileException; } /** * This class caches the declared methods in order to minimize the invocations of {@link #getDeclaredIMethods2()}. */ public void invalidateMethodCaches() { this.declaredIMethodsCache = null; this.declaredIMethodCache = null; } public static IClass rawTypeOf(IType type) { while (type instanceof IParameterizedType) type = ((IParameterizedType) type).getRawType(); assert type instanceof IClass; return (IClass) type; } // /** // * @param typeArguments Zero-length array if this {@link IClass} is not parameterized // */ // public IType // parameterize(final IType[] typeArguments) throws CompileException { // // ITypeVariable[] iTypeVariables = this.getITypeVariables(); // // if (typeArguments.length == 0 && iTypeVariables.length == 0) return this; // // if (iTypeVariables.length == 0) { // throw new CompileException("Class \"" + this.toString() + "\" cannot be parameterized", null); // } // // if (typeArguments.length == 0) { // // throw new CompileException("Class \"" + this.toString() + "\" must be parameterized", null); // return this; // } // // List key = Arrays.asList(typeArguments); // // Map /*typeArguments*/, IParameterizedType> m = this.parameterizations; // if (m == null) this.parameterizations = (m = new HashMap, IParameterizedType>()); // // { // IType result = m.get(key); // if (result != null) return result; // } // // if (iTypeVariables.length != typeArguments.length) { // throw new CompileException(( // "Number of type arguments (" // + typeArguments.length // + ") does not match number of type variables (" // + iTypeVariables.length // + ") of class \"" // + this.toString() // + "\"" // ), null); // } // // for (int i = 0; i < iTypeVariables.length; i++) { // ITypeVariable tv = iTypeVariables[i]; // IType ta = typeArguments[i]; // // for (ITypeVariableOrIClass b : tv.getBounds()) { // assert b instanceof IClass; // // if (ta instanceof IClass) { // IClass taic = (IClass) ta; // if (!(ta == b || taic.isInterface() || taic.isSubclassOf((IClass) b))) { // throw new CompileException( // "Type argument #" + (1 + i) + " (" + ta + ") is not a subclass of bound " + b, // null // ); // } // } else // if (ta instanceof IWildcardType) { // IWildcardType tawt = (IWildcardType) ta; // IClass ub = (IClass) tawt.getUpperBound(); // if (!(ub == b || ub.isSubclassOf((IClass) b))) { // throw new CompileException( // "Type argument #" + (1 + i) + " (" + ta + ") is not a subclass of " + b, // null // ); // } // IClass lb = (IClass) tawt.getLowerBound(); // if (lb != null && !"Ljava/lang/Object;".equals(((IClass) b).getDescriptor())) { // throw new CompileException( // "Type argument #" + (1 + i) + " (" + ta + ") is not a subclass of " + b, // null // ); // } // } else // if (ta instanceof ITypeVariable) { // throw new AssertionError(ta.getClass() + ": " + ta); // } else // if (ta instanceof IParameterizedType) { // throw new AssertionError(ta.getClass() + ": " + ta); // } else // { // throw new AssertionError(ta.getClass() + ": " + ta); // } // } // } // // IParameterizedType result = new IParameterizedType() { // // @Override public IType[] getActualTypeArguments() { return typeArguments; } // @Override public IType getRawType() { return IClass.this; } // // @Override public String // toString() { // return IClass.this + "<" + Arrays.toString(typeArguments) + ">"; // } // }; // // m.put(key, result); // // return result; // } // @Nullable Map /*typeArguments*/, IParameterizedType> parameterizations; }




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