/* * Copyright (c) 2012, 2013, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package java.lang.reflect; import java.lang.annotation.*; import java.util.Map; import java.util.Objects; import sun.reflect.annotation.AnnotationParser; import sun.reflect.annotation.AnnotationSupport; import sun.reflect.annotation.TypeAnnotationParser; import sun.reflect.annotation.TypeAnnotation; import sun.reflect.generics.repository.ConstructorRepository; /** * A shared superclass for the common functionality of {@link Method} * and {@link Constructor}. * * @since 1.8 */ public abstract class Executable extends AccessibleObject implements Member, GenericDeclaration { /* * Only grant package-visibility to the constructor. */ Executable() {} /** * Accessor method to allow code sharing */ abstract byte[] getAnnotationBytes(); /** * Accessor method to allow code sharing */ abstract Executable getRoot(); /** * Does the Executable have generic information. */ abstract boolean hasGenericInformation(); abstract ConstructorRepository getGenericInfo(); boolean equalParamTypes(Class>[] params1, Class>[] params2) { /* Avoid unnecessary cloning */ if (params1.length == params2.length) { for (int i = 0; i < params1.length; i++) { if (params1[i] != params2[i]) return false; } return true; } return false; } Annotation[][] parseParameterAnnotations(byte[] parameterAnnotations) { return AnnotationParser.parseParameterAnnotations( parameterAnnotations, sun.misc.SharedSecrets.getJavaLangAccess(). getConstantPool(getDeclaringClass()), getDeclaringClass()); } void separateWithCommas(Class>[] types, StringBuilder sb) { for (int j = 0; j < types.length; j++) { sb.append(types[j].getTypeName()); if (j < (types.length - 1)) sb.append(","); } } void printModifiersIfNonzero(StringBuilder sb, int mask, boolean isDefault) { int mod = getModifiers() & mask; if (mod != 0 && !isDefault) { sb.append(Modifier.toString(mod)).append(' '); } else { int access_mod = mod & Modifier.ACCESS_MODIFIERS; if (access_mod != 0) sb.append(Modifier.toString(access_mod)).append(' '); if (isDefault) sb.append("default "); mod = (mod & ~Modifier.ACCESS_MODIFIERS); if (mod != 0) sb.append(Modifier.toString(mod)).append(' '); } } String sharedToString(int modifierMask, boolean isDefault, Class>[] parameterTypes, Class>[] exceptionTypes) { try { StringBuilder sb = new StringBuilder(); printModifiersIfNonzero(sb, modifierMask, isDefault); specificToStringHeader(sb); sb.append('('); separateWithCommas(parameterTypes, sb); sb.append(')'); if (exceptionTypes.length > 0) { sb.append(" throws "); separateWithCommas(exceptionTypes, sb); } return sb.toString(); } catch (Exception e) { return "<" + e + ">"; } } /** * Generate toString header information specific to a method or * constructor. */ abstract void specificToStringHeader(StringBuilder sb); String sharedToGenericString(int modifierMask, boolean isDefault) { try { StringBuilder sb = new StringBuilder(); printModifiersIfNonzero(sb, modifierMask, isDefault); TypeVariable>[] typeparms = getTypeParameters(); if (typeparms.length > 0) { boolean first = true; sb.append('<'); for(TypeVariable> typeparm: typeparms) { if (!first) sb.append(','); // Class objects can't occur here; no need to test // and call Class.getName(). sb.append(typeparm.toString()); first = false; } sb.append("> "); } specificToGenericStringHeader(sb); sb.append('('); Type[] params = getGenericParameterTypes(); for (int j = 0; j < params.length; j++) { String param = params[j].getTypeName(); if (isVarArgs() && (j == params.length - 1)) // replace T[] with T... param = param.replaceFirst("\\[\\]$", "..."); sb.append(param); if (j < (params.length - 1)) sb.append(','); } sb.append(')'); Type[] exceptions = getGenericExceptionTypes(); if (exceptions.length > 0) { sb.append(" throws "); for (int k = 0; k < exceptions.length; k++) { sb.append((exceptions[k] instanceof Class)? ((Class)exceptions[k]).getName(): exceptions[k].toString()); if (k < (exceptions.length - 1)) sb.append(','); } } return sb.toString(); } catch (Exception e) { return "<" + e + ">"; } } /** * Generate toGenericString header information specific to a * method or constructor. */ abstract void specificToGenericStringHeader(StringBuilder sb); /** * Returns the {@code Class} object representing the class or interface * that declares the executable represented by this object. */ public abstract Class> getDeclaringClass(); /** * Returns the name of the executable represented by this object. */ public abstract String getName(); /** * Returns the Java language {@linkplain Modifier modifiers} for * the executable represented by this object. */ public abstract int getModifiers(); /** * Returns an array of {@code TypeVariable} objects that represent the * type variables declared by the generic declaration represented by this * {@code GenericDeclaration} object, in declaration order. Returns an * array of length 0 if the underlying generic declaration declares no type * variables. * * @return an array of {@code TypeVariable} objects that represent * the type variables declared by this generic declaration * @throws GenericSignatureFormatError if the generic * signature of this generic declaration does not conform to * the format specified in * The Java™ Virtual Machine Specification */ public abstract TypeVariable>[] getTypeParameters(); /** * Returns an array of {@code Class} objects that represent the formal * parameter types, in declaration order, of the executable * represented by this object. Returns an array of length * 0 if the underlying executable takes no parameters. * * @return the parameter types for the executable this object * represents */ public abstract Class>[] getParameterTypes(); /** * Returns the number of formal parameters (whether explicitly * declared or implicitly declared or neither) for the executable * represented by this object. * * @return The number of formal parameters for the executable this * object represents */ public int getParameterCount() { throw new AbstractMethodError(); } /** * Returns an array of {@code Type} objects that represent the formal * parameter types, in declaration order, of the executable represented by * this object. Returns an array of length 0 if the * underlying executable takes no parameters. * *
If a formal parameter type is a parameterized type, * the {@code Type} object returned for it must accurately reflect * the actual type parameters used in the source code. * *
If a formal parameter type is a type variable or a parameterized * type, it is created. Otherwise, it is resolved. * * @return an array of {@code Type}s that represent the formal * parameter types of the underlying executable, in declaration order * @throws GenericSignatureFormatError * if the generic method signature does not conform to the format * specified in * The Java™ Virtual Machine Specification * @throws TypeNotPresentException if any of the parameter * types of the underlying executable refers to a non-existent type * declaration * @throws MalformedParameterizedTypeException if any of * the underlying executable's parameter types refer to a parameterized * type that cannot be instantiated for any reason */ public Type[] getGenericParameterTypes() { if (hasGenericInformation()) return getGenericInfo().getParameterTypes(); else return getParameterTypes(); } /** * Behaves like {@code getGenericParameterTypes}, but returns type * information for all parameters, including synthetic parameters. */ Type[] getAllGenericParameterTypes() { final boolean genericInfo = hasGenericInformation(); // Easy case: we don't have generic parameter information. In // this case, we just return the result of // getParameterTypes(). if (!genericInfo) { return getParameterTypes(); } else { final boolean realParamData = hasRealParameterData(); final Type[] genericParamTypes = getGenericParameterTypes(); final Type[] nonGenericParamTypes = getParameterTypes(); final Type[] out = new Type[nonGenericParamTypes.length]; final Parameter[] params = getParameters(); int fromidx = 0; // If we have real parameter data, then we use the // synthetic and mandate flags to our advantage. if (realParamData) { for (int i = 0; i < out.length; i++) { final Parameter param = params[i]; if (param.isSynthetic() || param.isImplicit()) { // If we hit a synthetic or mandated parameter, // use the non generic parameter info. out[i] = nonGenericParamTypes[i]; } else { // Otherwise, use the generic parameter info. out[i] = genericParamTypes[fromidx]; fromidx++; } } } else { // Otherwise, use the non-generic parameter data. // Without method parameter reflection data, we have // no way to figure out which parameters are // synthetic/mandated, thus, no way to match up the // indexes. return genericParamTypes.length == nonGenericParamTypes.length ? genericParamTypes : nonGenericParamTypes; } return out; } } /** * Returns an array of {@code Parameter} objects that represent * all the parameters to the underlying executable represented by * this object. Returns an array of length 0 if the executable * has no parameters. * *
The parameters of the underlying executable do not necessarily * have unique names, or names that are legal identifiers in the * Java programming language (JLS 3.8). * * @throws MalformedParametersException if the class file contains * a MethodParameters attribute that is improperly formatted. * @return an array of {@code Parameter} objects representing all * the parameters to the executable this object represents. */ public Parameter[] getParameters() { // TODO: This may eventually need to be guarded by security // mechanisms similar to those in Field, Method, etc. // // Need to copy the cached array to prevent users from messing // with it. Since parameters are immutable, we can // shallow-copy. return privateGetParameters().clone(); } private Parameter[] synthesizeAllParams() { final int realparams = getParameterCount(); final Parameter[] out = new Parameter[realparams]; for (int i = 0; i < realparams; i++) // TODO: is there a way to synthetically derive the // modifiers? Probably not in the general case, since // we'd have no way of knowing about them, but there // may be specific cases. out[i] = new Parameter("arg" + i, 0, this, i); return out; } private void verifyParameters(final Parameter[] parameters) { final int mask = Modifier.FINAL | Modifier.SYNTHETIC | Modifier.MANDATED; if (getParameterTypes().length != parameters.length) throw new MalformedParametersException("Wrong number of parameters in MethodParameters attribute"); for (Parameter parameter : parameters) { final String name = parameter.getRealName(); final int mods = parameter.getModifiers(); if (name != null) { if (name.isEmpty() || name.indexOf('.') != -1 || name.indexOf(';') != -1 || name.indexOf('[') != -1 || name.indexOf('/') != -1) { throw new MalformedParametersException("Invalid parameter name \"" + name + "\""); } } if (mods != (mods & mask)) { throw new MalformedParametersException("Invalid parameter modifiers"); } } } private Parameter[] privateGetParameters() { // Use tmp to avoid multiple writes to a volatile. Parameter[] tmp = parameters; if (tmp == null) { // Otherwise, go to the JVM to get them try { tmp = getParameters0(); } catch(IllegalArgumentException e) { // Rethrow ClassFormatErrors throw new MalformedParametersException("Invalid constant pool index"); } // If we get back nothing, then synthesize parameters if (tmp == null) { hasRealParameterData = false; tmp = synthesizeAllParams(); } else { hasRealParameterData = true; verifyParameters(tmp); } parameters = tmp; } return tmp; } boolean hasRealParameterData() { // If this somehow gets called before parameters gets // initialized, force it into existence. if (parameters == null) { privateGetParameters(); } return hasRealParameterData; } private transient volatile boolean hasRealParameterData; private transient volatile Parameter[] parameters; private native Parameter[] getParameters0(); native byte[] getTypeAnnotationBytes0(); // Needed by reflectaccess byte[] getTypeAnnotationBytes() { return getTypeAnnotationBytes0(); } /** * Returns an array of {@code Class} objects that represent the * types of exceptions declared to be thrown by the underlying * executable represented by this object. Returns an array of * length 0 if the executable declares no exceptions in its {@code * throws} clause. * * @return the exception types declared as being thrown by the * executable this object represents */ public abstract Class>[] getExceptionTypes(); /** * Returns an array of {@code Type} objects that represent the * exceptions declared to be thrown by this executable object. * Returns an array of length 0 if the underlying executable declares * no exceptions in its {@code throws} clause. * *
If an exception type is a type variable or a parameterized
* type, it is created. Otherwise, it is resolved.
*
* @return an array of Types that represent the exception types
* thrown by the underlying executable
* @throws GenericSignatureFormatError
* if the generic method signature does not conform to the format
* specified in
* The Java™ Virtual Machine Specification
* @throws TypeNotPresentException if the underlying executable's
* {@code throws} clause refers to a non-existent type declaration
* @throws MalformedParameterizedTypeException if
* the underlying executable's {@code throws} clause refers to a
* parameterized type that cannot be instantiated for any reason
*/
public Type[] getGenericExceptionTypes() {
Type[] result;
if (hasGenericInformation() &&
((result = getGenericInfo().getExceptionTypes()).length > 0))
return result;
else
return getExceptionTypes();
}
/**
* Returns a string describing this {@code Executable}, including
* any type parameters.
* @return a string describing this {@code Executable}, including
* any type parameters
*/
public abstract String toGenericString();
/**
* Returns {@code true} if this executable was declared to take a
* variable number of arguments; returns {@code false} otherwise.
*
* @return {@code true} if an only if this executable was declared
* to take a variable number of arguments.
*/
public boolean isVarArgs() {
return (getModifiers() & Modifier.VARARGS) != 0;
}
/**
* Returns {@code true} if this executable is a synthetic
* construct; returns {@code false} otherwise.
*
* @return true if and only if this executable is a synthetic
* construct as defined by
* The Java™ Language Specification.
* @jls 13.1 The Form of a Binary
*/
public boolean isSynthetic() {
return Modifier.isSynthetic(getModifiers());
}
/**
* Returns an array of arrays of {@code Annotation}s that
* represent the annotations on the formal parameters, in
* declaration order, of the {@code Executable} represented by
* this object. Synthetic and mandated parameters (see
* explanation below), such as the outer "this" parameter to an
* inner class constructor will be represented in the returned
* array. If the executable has no parameters (meaning no formal,
* no synthetic, and no mandated parameters), a zero-length array
* will be returned. If the {@code Executable} has one or more
* parameters, a nested array of length zero is returned for each
* parameter with no annotations. The annotation objects contained
* in the returned arrays are serializable. The caller of this
* method is free to modify the returned arrays; it will have no
* effect on the arrays returned to other callers.
*
* A compiler may add extra parameters that are implicitly
* declared in source ("mandated"), as well as parameters that
* are neither implicitly nor explicitly declared in source
* ("synthetic") to the parameter list for a method. See {@link
* java.lang.reflect.Parameter} for more information.
*
* @see java.lang.reflect.Parameter
* @see java.lang.reflect.Parameter#getAnnotations
* @return an array of arrays that represent the annotations on
* the formal and implicit parameters, in declaration order, of
* the executable represented by this object
*/
public abstract Annotation[][] getParameterAnnotations();
Annotation[][] sharedGetParameterAnnotations(Class>[] parameterTypes,
byte[] parameterAnnotations) {
int numParameters = parameterTypes.length;
if (parameterAnnotations == null)
return new Annotation[numParameters][0];
Annotation[][] result = parseParameterAnnotations(parameterAnnotations);
if (result.length != numParameters)
handleParameterNumberMismatch(result.length, numParameters);
return result;
}
abstract void handleParameterNumberMismatch(int resultLength, int numParameters);
/**
* {@inheritDoc}
* @throws NullPointerException {@inheritDoc}
*/
public