diff -r 947269b26dc0 -r 05224402145d emul/mini/src/main/java/java/lang/reflect/Method.java --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/emul/mini/src/main/java/java/lang/reflect/Method.java Wed Jan 23 20:39:23 2013 +0100 @@ -0,0 +1,720 @@ +/* + * Copyright (c) 1996, 2006, 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.Annotation; +import java.util.Enumeration; +import org.apidesign.bck2brwsr.core.JavaScriptBody; +import org.apidesign.bck2brwsr.emul.AnnotationImpl; +import org.apidesign.bck2brwsr.emul.MethodImpl; + +/** + * A {@code Method} provides information about, and access to, a single method + * on a class or interface. The reflected method may be a class method + * or an instance method (including an abstract method). + * + *
A {@code Method} permits widening conversions to occur when matching the
+ * actual parameters to invoke with the underlying method's formal
+ * parameters, but it throws an {@code IllegalArgumentException} if a
+ * narrowing conversion would occur.
+ *
+ * @see Member
+ * @see java.lang.Class
+ * @see java.lang.Class#getMethods()
+ * @see java.lang.Class#getMethod(String, Class[])
+ * @see java.lang.Class#getDeclaredMethods()
+ * @see java.lang.Class#getDeclaredMethod(String, Class[])
+ *
+ * @author Kenneth Russell
+ * @author Nakul Saraiya
+ */
+public final
+ class Method extends AccessibleObject implements GenericDeclaration,
+ Member {
+ private final Class> clazz;
+ private final String name;
+ private final Object data;
+ private final String sig;
+
+ // Generics infrastructure
+
+ private String getGenericSignature() {return null;}
+
+ /**
+ * Package-private constructor used by ReflectAccess to enable
+ * instantiation of these objects in Java code from the java.lang
+ * package via sun.reflect.LangReflectAccess.
+ */
+ Method(Class> declaringClass, String name, Object data, String sig)
+ {
+ this.clazz = declaringClass;
+ this.name = name;
+ this.data = data;
+ this.sig = sig;
+ }
+
+ /**
+ * Package-private routine (exposed to java.lang.Class via
+ * ReflectAccess) which returns a copy of this Method. The copy's
+ * "root" field points to this Method.
+ */
+ Method copy() {
+ return this;
+ }
+
+ /**
+ * Returns the {@code Class} object representing the class or interface
+ * that declares the method represented by this {@code Method} object.
+ */
+ public Class> getDeclaringClass() {
+ return clazz;
+ }
+
+ /**
+ * Returns the name of the method represented by this {@code Method}
+ * object, as a {@code String}.
+ */
+ public String getName() {
+ return name;
+ }
+
+ /**
+ * Returns the Java language modifiers for the method represented
+ * by this {@code Method} object, as an integer. The {@code Modifier} class should
+ * be used to decode the modifiers.
+ *
+ * @see Modifier
+ */
+ public int getModifiers() {
+ return getAccess(data);
+ }
+
+ @JavaScriptBody(args = "self", body = "return self.access;")
+ private static native int getAccess(Object self);
+
+ /**
+ * 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
+ * @since 1.5
+ */
+ public TypeVariable If the return type is a parameterized type,
+ * the {@code Type} object returned must accurately reflect
+ * the actual type parameters used in the source code.
+ *
+ * If the return type is a type variable or a parameterized type, it
+ * is created. Otherwise, it is resolved.
+ *
+ * @return a {@code Type} object that represents the formal return
+ * type of the underlying method
+ * @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 method's
+ * return type refers to a non-existent type declaration
+ * @throws MalformedParameterizedTypeException if the
+ * underlying method's return typed refers to a parameterized
+ * type that cannot be instantiated for any reason
+ * @since 1.5
+ */
+ public Type getGenericReturnType() {
+ throw new UnsupportedOperationException();
+ }
+
+
+ /**
+ * Returns an array of {@code Class} objects that represent the formal
+ * parameter types, in declaration order, of the method
+ * represented by this {@code Method} object. Returns an array of length
+ * 0 if the underlying method takes no parameters.
+ *
+ * @return the parameter types for the method this object
+ * represents
+ */
+ public Class>[] getParameterTypes() {
+ Class[] arr = new Class[MethodImpl.signatureElements(sig) - 1];
+ Enumeration 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 Types that represent the formal
+ * parameter types of the underlying method, 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 method refers to a non-existent type
+ * declaration
+ * @throws MalformedParameterizedTypeException if any of
+ * the underlying method's parameter types refer to a parameterized
+ * type that cannot be instantiated for any reason
+ * @since 1.5
+ */
+ public Type[] getGenericParameterTypes() {
+ throw new UnsupportedOperationException();
+ }
+
+
+ /**
+ * Returns an array of {@code Class} objects that represent
+ * the types of the exceptions declared to be thrown
+ * by the underlying method
+ * represented by this {@code Method} object. Returns an array of length
+ * 0 if the method declares no exceptions in its {@code throws} clause.
+ *
+ * @return the exception types declared as being thrown by the
+ * method this object represents
+ */
+ public Class>[] getExceptionTypes() {
+ throw new UnsupportedOperationException();
+ //return (Class>[]) exceptionTypes.clone();
+ }
+
+ /**
+ * Returns an array of {@code Type} objects that represent the
+ * exceptions declared to be thrown by this {@code Method} object.
+ * Returns an array of length 0 if the underlying method 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 method
+ * @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 method's
+ * {@code throws} clause refers to a non-existent type declaration
+ * @throws MalformedParameterizedTypeException if
+ * the underlying method's {@code throws} clause refers to a
+ * parameterized type that cannot be instantiated for any reason
+ * @since 1.5
+ */
+ public Type[] getGenericExceptionTypes() {
+ throw new UnsupportedOperationException();
+ }
+
+ /**
+ * Compares this {@code Method} against the specified object. Returns
+ * true if the objects are the same. Two {@code Methods} are the same if
+ * they were declared by the same class and have the same name
+ * and formal parameter types and return type.
+ */
+ public boolean equals(Object obj) {
+ if (obj != null && obj instanceof Method) {
+ Method other = (Method)obj;
+ return data == other.data;
+ }
+ return false;
+ }
+
+ /**
+ * Returns a hashcode for this {@code Method}. The hashcode is computed
+ * as the exclusive-or of the hashcodes for the underlying
+ * method's declaring class name and the method's name.
+ */
+ public int hashCode() {
+ return getDeclaringClass().getName().hashCode() ^ getName().hashCode();
+ }
+
+ /**
+ * Returns a string describing this {@code Method}. The string is
+ * formatted as the method access modifiers, if any, followed by
+ * the method return type, followed by a space, followed by the
+ * class declaring the method, followed by a period, followed by
+ * the method name, followed by a parenthesized, comma-separated
+ * list of the method's formal parameter types. If the method
+ * throws checked exceptions, the parameter list is followed by a
+ * space, followed by the word throws followed by a
+ * comma-separated list of the thrown exception types.
+ * For example:
+ * The access modifiers are placed in canonical order as
+ * specified by "The Java Language Specification". This is
+ * {@code public}, {@code protected} or {@code private} first,
+ * and then other modifiers in the following order:
+ * {@code abstract}, {@code static}, {@code final},
+ * {@code synchronized}, {@code native}, {@code strictfp}.
+ */
+ public String toString() {
+ try {
+ StringBuilder sb = new StringBuilder();
+ int mod = getModifiers() & Modifier.methodModifiers();
+ if (mod != 0) {
+ sb.append(Modifier.toString(mod)).append(' ');
+ }
+ sb.append(Field.getTypeName(getReturnType())).append(' ');
+ sb.append(Field.getTypeName(getDeclaringClass())).append('.');
+ sb.append(getName()).append('(');
+ Class>[] params = getParameterTypes(); // avoid clone
+ for (int j = 0; j < params.length; j++) {
+ sb.append(Field.getTypeName(params[j]));
+ if (j < (params.length - 1))
+ sb.append(',');
+ }
+ sb.append(')');
+ /*
+ Class>[] exceptions = exceptionTypes; // avoid clone
+ if (exceptions.length > 0) {
+ sb.append(" throws ");
+ for (int k = 0; k < exceptions.length; k++) {
+ sb.append(exceptions[k].getName());
+ if (k < (exceptions.length - 1))
+ sb.append(',');
+ }
+ }
+ */
+ return sb.toString();
+ } catch (Exception e) {
+ return "<" + e + ">";
+ }
+ }
+
+ /**
+ * Returns a string describing this {@code Method}, including
+ * type parameters. The string is formatted as the method access
+ * modifiers, if any, followed by an angle-bracketed
+ * comma-separated list of the method's type parameters, if any,
+ * followed by the method's generic return type, followed by a
+ * space, followed by the class declaring the method, followed by
+ * a period, followed by the method name, followed by a
+ * parenthesized, comma-separated list of the method's generic
+ * formal parameter types.
+ *
+ * If this method was declared to take a variable number of
+ * arguments, instead of denoting the last parameter as
+ * "Type[]", it is denoted as
+ * "Type...".
+ *
+ * A space is used to separate access modifiers from one another
+ * and from the type parameters or return type. If there are no
+ * type parameters, the type parameter list is elided; if the type
+ * parameter list is present, a space separates the list from the
+ * class name. If the method is declared to throw exceptions, the
+ * parameter list is followed by a space, followed by the word
+ * throws followed by a comma-separated list of the generic thrown
+ * exception types. If there are no type parameters, the type
+ * parameter list is elided.
+ *
+ * The access modifiers are placed in canonical order as
+ * specified by "The Java Language Specification". This is
+ * {@code public}, {@code protected} or {@code private} first,
+ * and then other modifiers in the following order:
+ * {@code abstract}, {@code static}, {@code final},
+ * {@code synchronized}, {@code native}, {@code strictfp}.
+ *
+ * @return a string describing this {@code Method},
+ * include type parameters
+ *
+ * @since 1.5
+ */
+ public String toGenericString() {
+ try {
+ StringBuilder sb = new StringBuilder();
+ int mod = getModifiers() & Modifier.methodModifiers();
+ if (mod != 0) {
+ sb.append(Modifier.toString(mod)).append(' ');
+ }
+ 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("> ");
+ }
+
+ Type genRetType = getGenericReturnType();
+ sb.append( ((genRetType instanceof Class>)?
+ Field.getTypeName((Class>)genRetType):genRetType.toString()))
+ .append(' ');
+
+ sb.append(Field.getTypeName(getDeclaringClass())).append('.');
+ sb.append(getName()).append('(');
+ Type[] params = getGenericParameterTypes();
+ for (int j = 0; j < params.length; j++) {
+ String param = (params[j] instanceof Class)?
+ Field.getTypeName((Class)params[j]):
+ (params[j].toString());
+ 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 + ">";
+ }
+ }
+
+ /**
+ * Invokes the underlying method represented by this {@code Method}
+ * object, on the specified object with the specified parameters.
+ * Individual parameters are automatically unwrapped to match
+ * primitive formal parameters, and both primitive and reference
+ * parameters are subject to method invocation conversions as
+ * necessary.
+ *
+ * If the underlying method is static, then the specified {@code obj}
+ * argument is ignored. It may be null.
+ *
+ * If the number of formal parameters required by the underlying method is
+ * 0, the supplied {@code args} array may be of length 0 or null.
+ *
+ * If the underlying method is an instance method, it is invoked
+ * using dynamic method lookup as documented in The Java Language
+ * Specification, Second Edition, section 15.12.4.4; in particular,
+ * overriding based on the runtime type of the target object will occur.
+ *
+ * If the underlying method is static, the class that declared
+ * the method is initialized if it has not already been initialized.
+ *
+ * If the method completes normally, the value it returns is
+ * returned to the caller of invoke; if the value has a primitive
+ * type, it is first appropriately wrapped in an object. However,
+ * if the value has the type of an array of a primitive type, the
+ * elements of the array are not wrapped in objects; in
+ * other words, an array of primitive type is returned. If the
+ * underlying method return type is void, the invocation returns
+ * null.
+ *
+ * @param obj the object the underlying method is invoked from
+ * @param args the arguments used for the method call
+ * @return the result of dispatching the method represented by
+ * this object on {@code obj} with parameters
+ * {@code args}
+ *
+ * @exception IllegalAccessException if this {@code Method} object
+ * is enforcing Java language access control and the underlying
+ * method is inaccessible.
+ * @exception IllegalArgumentException if the method is an
+ * instance method and the specified object argument
+ * is not an instance of the class or interface
+ * declaring the underlying method (or of a subclass
+ * or implementor thereof); if the number of actual
+ * and formal parameters differ; if an unwrapping
+ * conversion for primitive arguments fails; or if,
+ * after possible unwrapping, a parameter value
+ * cannot be converted to the corresponding formal
+ * parameter type by a method invocation conversion.
+ * @exception InvocationTargetException if the underlying method
+ * throws an exception.
+ * @exception NullPointerException if the specified object is null
+ * and the method is an instance method.
+ * @exception ExceptionInInitializerError if the initialization
+ * provoked by this method fails.
+ */
+ public Object invoke(Object obj, Object... args)
+ throws IllegalAccessException, IllegalArgumentException,
+ InvocationTargetException
+ {
+ final boolean isStatic = (getModifiers() & Modifier.STATIC) == 0;
+ if (isStatic && obj == null) {
+ throw new NullPointerException();
+ }
+ Class[] types = getParameterTypes();
+ if (types.length != args.length) {
+ throw new IllegalArgumentException("Types len " + types.length + " args: " + args.length);
+ } else {
+ args = args.clone();
+ for (int i = 0; i < types.length; i++) {
+ Class c = types[i];
+ if (c.isPrimitive()) {
+ args[i] = toPrimitive(c, args[i]);
+ }
+ }
+ }
+ Object res = invoke0(isStatic, this, obj, args);
+ if (getReturnType().isPrimitive()) {
+ res = fromPrimitive(getReturnType(), res);
+ }
+ return res;
+ }
+
+ @JavaScriptBody(args = { "st", "method", "self", "args" }, body =
+ "var p;\n"
+ + "if (st) {\n"
+ + " p = new Array(1);\n"
+ + " p[0] = self;\n"
+ + " p = p.concat(args);\n"
+ + "} else {\n"
+ + " p = args;\n"
+ + "}\n"
+ + "return method.fld_data.apply(self, p);\n"
+ )
+ private static native Object invoke0(boolean isStatic, Method m, Object self, Object[] args);
+
+ static Object fromPrimitive(Class> type, Object o) {
+ if (type == Integer.TYPE) {
+ return fromRaw(Integer.class, "valueOf__Ljava_lang_Integer_2I", o);
+ }
+ if (type == Long.TYPE) {
+ return fromRaw(Long.class, "valueOf__Ljava_lang_Long_2J", o);
+ }
+ if (type == Double.TYPE) {
+ return fromRaw(Double.class, "valueOf__Ljava_lang_Double_2D", o);
+ }
+ if (type == Float.TYPE) {
+ return fromRaw(Float.class, "valueOf__Ljava_lang_Float_2F", o);
+ }
+ if (type == Byte.TYPE) {
+ return fromRaw(Byte.class, "valueOf__Ljava_lang_Byte_2B", o);
+ }
+ if (type == Boolean.TYPE) {
+ return fromRaw(Boolean.class, "valueOf__Ljava_lang_Boolean_2Z", o);
+ }
+ if (type == Short.TYPE) {
+ return fromRaw(Short.class, "valueOf__Ljava_lang_Short_2S", o);
+ }
+ if (type == Character.TYPE) {
+ return fromRaw(Character.class, "valueOf__Ljava_lang_Character_2C", o);
+ }
+ if (type.getName().equals("void")) {
+ return null;
+ }
+ throw new IllegalStateException("Can't convert " + o);
+ }
+
+ @JavaScriptBody(args = { "cls", "m", "o" },
+ body = "return cls.cnstr(false)[m](o);"
+ )
+ private static native Integer fromRaw(Class> cls, String m, Object o);
+
+ private static Object toPrimitive(Class> type, Object o) {
+ if (type == Integer.TYPE) {
+ return toRaw("intValue__I", o);
+ }
+ if (type == Long.TYPE) {
+ return toRaw("longValue__J", o);
+ }
+ if (type == Double.TYPE) {
+ return toRaw("doubleValue__D", o);
+ }
+ if (type == Float.TYPE) {
+ return toRaw("floatValue__F", o);
+ }
+ if (type == Byte.TYPE) {
+ return toRaw("byteValue__B", o);
+ }
+ if (type == Boolean.TYPE) {
+ return toRaw("booleanValue__Z", o);
+ }
+ if (type == Short.TYPE) {
+ return toRaw("shortValue__S", o);
+ }
+ if (type == Character.TYPE) {
+ return toRaw("charValue__C", o);
+ }
+ if (type.getName().equals("void")) {
+ return o;
+ }
+ throw new IllegalStateException("Can't convert " + o);
+ }
+
+ @JavaScriptBody(args = { "m", "o" },
+ body = "return o[m](o);"
+ )
+ private static native Object toRaw(String m, Object o);
+
+ /**
+ * Returns {@code true} if this method is a bridge
+ * method; returns {@code false} otherwise.
+ *
+ * @return true if and only if this method is a bridge
+ * method as defined by the Java Language Specification.
+ * @since 1.5
+ */
+ public boolean isBridge() {
+ return (getModifiers() & Modifier.BRIDGE) != 0;
+ }
+
+ /**
+ * Returns {@code true} if this method was declared to take
+ * a variable number of arguments; returns {@code false}
+ * otherwise.
+ *
+ * @return {@code true} if an only if this method was declared to
+ * take a variable number of arguments.
+ * @since 1.5
+ */
+ public boolean isVarArgs() {
+ return (getModifiers() & Modifier.VARARGS) != 0;
+ }
+
+ /**
+ * Returns {@code true} if this method is a synthetic
+ * method; returns {@code false} otherwise.
+ *
+ * @return true if and only if this method is a synthetic
+ * method as defined by the Java Language Specification.
+ * @since 1.5
+ */
+ public boolean isSynthetic() {
+ return Modifier.isSynthetic(getModifiers());
+ }
+
+ @JavaScriptBody(args = { "ac" },
+ body =
+ "if (this.fld_data.anno) {"
+ + " return this.fld_data.anno['L' + ac.jvmName + ';'];"
+ + "} else return null;"
+ )
+ private Object getAnnotationData(Class> annotationClass) {
+ throw new UnsupportedOperationException();
+ }
+
+ /**
+ * @throws NullPointerException {@inheritDoc}
+ * @since 1.5
+ */
+ public
+ * public boolean java.lang.Object.equals(java.lang.Object)
+ *
+ *
+ *