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/*
* Copyright 2003,2004 The Apache Software Foundation
*
* 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 com.github.drinkjava2.cglib.core;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.*;
import com.github.drinkjava2.asm.Label;
import com.github.drinkjava2.asm.Type;
@SuppressWarnings({"rawtypes","unchecked","static-access" })
public class EmitUtils {
private static final Signature CSTRUCT_NULL =
TypeUtils.parseConstructor("");
private static final Signature CSTRUCT_THROWABLE =
TypeUtils.parseConstructor("Throwable");
private static final Signature GET_NAME =
TypeUtils.parseSignature("String getName()");
private static final Signature HASH_CODE =
TypeUtils.parseSignature("int hashCode()");
private static final Signature EQUALS =
TypeUtils.parseSignature("boolean equals(Object)");
private static final Signature STRING_LENGTH =
TypeUtils.parseSignature("int length()");
private static final Signature STRING_CHAR_AT =
TypeUtils.parseSignature("char charAt(int)");
private static final Signature FOR_NAME =
TypeUtils.parseSignature("Class forName(String)");
private static final Signature DOUBLE_TO_LONG_BITS =
TypeUtils.parseSignature("long doubleToLongBits(double)");
private static final Signature FLOAT_TO_INT_BITS =
TypeUtils.parseSignature("int floatToIntBits(float)");
private static final Signature TO_STRING =
TypeUtils.parseSignature("String toString()");
private static final Signature APPEND_STRING =
TypeUtils.parseSignature("StringBuffer append(String)");
private static final Signature APPEND_INT =
TypeUtils.parseSignature("StringBuffer append(int)");
private static final Signature APPEND_DOUBLE =
TypeUtils.parseSignature("StringBuffer append(double)");
private static final Signature APPEND_FLOAT =
TypeUtils.parseSignature("StringBuffer append(float)");
private static final Signature APPEND_CHAR =
TypeUtils.parseSignature("StringBuffer append(char)");
private static final Signature APPEND_LONG =
TypeUtils.parseSignature("StringBuffer append(long)");
private static final Signature APPEND_BOOLEAN =
TypeUtils.parseSignature("StringBuffer append(boolean)");
private static final Signature LENGTH =
TypeUtils.parseSignature("int length()");
private static final Signature SET_LENGTH =
TypeUtils.parseSignature("void setLength(int)");
private static final Signature GET_DECLARED_METHOD =
TypeUtils.parseSignature("java.lang.reflect.Method getDeclaredMethod(String, Class[])");
public static final ArrayDelimiters DEFAULT_DELIMITERS = new ArrayDelimiters("{", ", ", "}");
private EmitUtils() {
}
public static void factory_method(ClassEmitter ce, Signature sig) {
CodeEmitter e = ce.begin_method(Constants.ACC_PUBLIC, sig, null);
e.new_instance_this();
e.dup();
e.load_args();
e.invoke_constructor_this(TypeUtils.parseConstructor(sig.getArgumentTypes()));
e.return_value();
e.end_method();
}
public static void null_constructor(ClassEmitter ce) {
CodeEmitter e = ce.begin_method(Constants.ACC_PUBLIC, CSTRUCT_NULL, null);
e.load_this();
e.super_invoke_constructor();
e.return_value();
e.end_method();
}
/**
* Process an array on the stack. Assumes the top item on the stack
* is an array of the specified type. For each element in the array,
* puts the element on the stack and triggers the callback.
* @param type the type of the array (type.isArray() must be true)
* @param callback the callback triggered for each element
*/
public static void process_array(CodeEmitter e, Type type, ProcessArrayCallback callback) {
Type componentType = TypeUtils.getComponentType(type);
Local array = e.make_local();
Local loopvar = e.make_local(Type.INT_TYPE);
Label loopbody = e.make_label();
Label checkloop = e.make_label();
e.store_local(array);
e.push(0);
e.store_local(loopvar);
e.goTo(checkloop);
e.mark(loopbody);
e.load_local(array);
e.load_local(loopvar);
e.array_load(componentType);
callback.processElement(componentType);
e.iinc(loopvar, 1);
e.mark(checkloop);
e.load_local(loopvar);
e.load_local(array);
e.arraylength();
e.if_icmp(e.LT, loopbody);
}
/**
* Process two arrays on the stack in parallel. Assumes the top two items on the stack
* are arrays of the specified class. The arrays must be the same length. For each pair
* of elements in the arrays, puts the pair on the stack and triggers the callback.
* @param type the type of the arrays (type.isArray() must be true)
* @param callback the callback triggered for each pair of elements
*/
public static void process_arrays(CodeEmitter e, Type type, ProcessArrayCallback callback) {
Type componentType = TypeUtils.getComponentType(type);
Local array1 = e.make_local();
Local array2 = e.make_local();
Local loopvar = e.make_local(Type.INT_TYPE);
Label loopbody = e.make_label();
Label checkloop = e.make_label();
e.store_local(array1);
e.store_local(array2);
e.push(0);
e.store_local(loopvar);
e.goTo(checkloop);
e.mark(loopbody);
e.load_local(array1);
e.load_local(loopvar);
e.array_load(componentType);
e.load_local(array2);
e.load_local(loopvar);
e.array_load(componentType);
callback.processElement(componentType);
e.iinc(loopvar, 1);
e.mark(checkloop);
e.load_local(loopvar);
e.load_local(array1);
e.arraylength();
e.if_icmp(e.LT, loopbody);
}
public static void string_switch(CodeEmitter e, String[] strings, int switchStyle, ObjectSwitchCallback callback) {
try {
switch (switchStyle) {
case Constants.SWITCH_STYLE_TRIE:
string_switch_trie(e, strings, callback);
break;
case Constants.SWITCH_STYLE_HASH:
string_switch_hash(e, strings, callback, false);
break;
case Constants.SWITCH_STYLE_HASHONLY:
string_switch_hash(e, strings, callback, true);
break;
default:
throw new IllegalArgumentException("unknown switch style " + switchStyle);
}
} catch (RuntimeException ex) {
throw ex;
} catch (Error ex) {
throw ex;
} catch (Exception ex) {
throw new CodeGenerationException(ex);
}
}
private static void string_switch_trie(final CodeEmitter e,
String[] strings,
final ObjectSwitchCallback callback) throws Exception {
final Label def = e.make_label();
final Label end = e.make_label();
final Map buckets = CollectionUtils.bucket(Arrays.asList(strings), new Transformer() {
public Object transform(Object value) {
return new Integer(((String)value).length());
}
});
e.dup();
e.invoke_virtual(Constants.TYPE_STRING, STRING_LENGTH);
e.process_switch(getSwitchKeys(buckets), new ProcessSwitchCallback() {
public void processCase(int key, Label ignore_end) throws Exception {
List bucket = (List)buckets.get(new Integer(key));
stringSwitchHelper(e, bucket, callback, def, end, 0);
}
public void processDefault() {
e.goTo(def);
}
});
e.mark(def);
e.pop();
callback.processDefault();
e.mark(end);
}
private static void stringSwitchHelper(final CodeEmitter e,
List strings,
final ObjectSwitchCallback callback,
final Label def,
final Label end,
final int index) throws Exception {
final int len = ((String)strings.get(0)).length();
final Map buckets = CollectionUtils.bucket(strings, new Transformer() {
public Object transform(Object value) {
return new Integer(((String)value).charAt(index));
}
});
e.dup();
e.push(index);
e.invoke_virtual(Constants.TYPE_STRING, STRING_CHAR_AT);
e.process_switch(getSwitchKeys(buckets), new ProcessSwitchCallback() {
public void processCase(int key, Label ignore_end) throws Exception {
List bucket = (List)buckets.get(new Integer(key));
if (index + 1 == len) {
e.pop();
callback.processCase(bucket.get(0), end);
} else {
stringSwitchHelper(e, bucket, callback, def, end, index + 1);
}
}
public void processDefault() {
e.goTo(def);
}
});
}
static int[] getSwitchKeys(Map buckets) {
int[] keys = new int[buckets.size()];
int index = 0;
for (Iterator it = buckets.keySet().iterator(); it.hasNext();) {
keys[index++] = ((Integer)it.next()).intValue();
}
Arrays.sort(keys);
return keys;
}
private static void string_switch_hash(final CodeEmitter e,
final String[] strings,
final ObjectSwitchCallback callback,
final boolean skipEquals) throws Exception {
final Map buckets = CollectionUtils.bucket(Arrays.asList(strings), new Transformer() {
public Object transform(Object value) {
return new Integer(value.hashCode());
}
});
final Label def = e.make_label();
final Label end = e.make_label();
e.dup();
e.invoke_virtual(Constants.TYPE_OBJECT, HASH_CODE);
e.process_switch(getSwitchKeys(buckets), new ProcessSwitchCallback() {
public void processCase(int key, Label ignore_end) throws Exception {
List bucket = (List)buckets.get(new Integer(key));
Label next = null;
if (skipEquals && bucket.size() == 1) {
if (skipEquals)
e.pop();
callback.processCase((String)bucket.get(0), end);
} else {
for (Iterator it = bucket.iterator(); it.hasNext();) {
String string = (String)it.next();
if (next != null) {
e.mark(next);
}
if (it.hasNext()) {
e.dup();
}
e.push(string);
e.invoke_virtual(Constants.TYPE_OBJECT, EQUALS);
if (it.hasNext()) {
e.if_jump(e.EQ, next = e.make_label());
e.pop();
} else {
e.if_jump(e.EQ, def);
}
callback.processCase(string, end);
}
}
}
public void processDefault() {
e.pop();
}
});
e.mark(def);
callback.processDefault();
e.mark(end);
}
public static void load_class_this(CodeEmitter e) {
load_class_helper(e, e.getClassEmitter().getClassType());
}
public static void load_class(CodeEmitter e, Type type) {
if (TypeUtils.isPrimitive(type)) {
if (type == Type.VOID_TYPE) {
throw new IllegalArgumentException("cannot load void type");
}
e.getstatic(TypeUtils.getBoxedType(type), "TYPE", Constants.TYPE_CLASS);
} else {
load_class_helper(e, type);
}
}
private static void load_class_helper(CodeEmitter e, final Type type) {
if (e.isStaticHook()) {
// have to fall back on non-optimized load
e.push(TypeUtils.emulateClassGetName(type));
e.invoke_static(Constants.TYPE_CLASS, FOR_NAME);
} else {
ClassEmitter ce = e.getClassEmitter();
String typeName = TypeUtils.emulateClassGetName(type);
// TODO: can end up with duplicated field names when using chained transformers; incorporate static hook # somehow
String fieldName = "CGLIB$load_class$" + TypeUtils.escapeType(typeName);
if (!ce.isFieldDeclared(fieldName)) {
ce.declare_field(Constants.PRIVATE_FINAL_STATIC, fieldName, Constants.TYPE_CLASS, null);
CodeEmitter hook = ce.getStaticHook();
hook.push(typeName);
hook.invoke_static(Constants.TYPE_CLASS, FOR_NAME);
hook.putstatic(ce.getClassType(), fieldName, Constants.TYPE_CLASS);
}
e.getfield(fieldName);
}
}
public static void push_array(CodeEmitter e, Object[] array) {
e.push(array.length);
e.newarray(Type.getType(remapComponentType(array.getClass().getComponentType())));
for (int i = 0; i < array.length; i++) {
e.dup();
e.push(i);
push_object(e, array[i]);
e.aastore();
}
}
private static Class remapComponentType(Class componentType) {
if (componentType.equals(Type.class))
return Class.class;
return componentType;
}
public static void push_object(CodeEmitter e, Object obj) {
if (obj == null) {
e.aconst_null();
} else {
Class type = obj.getClass();
if (type.isArray()) {
push_array(e, (Object[])obj);
} else if (obj instanceof String) {
e.push((String)obj);
} else if (obj instanceof Type) {
load_class(e, (Type)obj);
} else if (obj instanceof Class) {
load_class(e, Type.getType((Class)obj));
} else if (obj instanceof BigInteger) {
e.new_instance(Constants.TYPE_BIG_INTEGER);
e.dup();
e.push(obj.toString());
e.invoke_constructor(Constants.TYPE_BIG_INTEGER);
} else if (obj instanceof BigDecimal) {
e.new_instance(Constants.TYPE_BIG_DECIMAL);
e.dup();
e.push(obj.toString());
e.invoke_constructor(Constants.TYPE_BIG_DECIMAL);
} else {
throw new IllegalArgumentException("unknown type: " + obj.getClass());
}
}
}
public static void hash_code(CodeEmitter e, Type type, int multiplier, Customizer customizer) {
if (TypeUtils.isArray(type)) {
hash_array(e, type, multiplier, customizer);
} else {
e.swap(Type.INT_TYPE, type);
e.push(multiplier);
e.math(e.MUL, Type.INT_TYPE);
e.swap(type, Type.INT_TYPE);
if (TypeUtils.isPrimitive(type)) {
hash_primitive(e, type);
} else {
hash_object(e, type, customizer);
}
e.math(e.ADD, Type.INT_TYPE);
}
}
private static void hash_array(final CodeEmitter e, Type type, final int multiplier, final Customizer customizer) {
Label skip = e.make_label();
Label end = e.make_label();
e.dup();
e.ifnull(skip);
EmitUtils.process_array(e, type, new ProcessArrayCallback() {
public void processElement(Type type) {
hash_code(e, type, multiplier, customizer);
}
});
e.goTo(end);
e.mark(skip);
e.pop();
e.mark(end);
}
private static void hash_object(CodeEmitter e, Type type, Customizer customizer) {
// (f == null) ? 0 : f.hashCode();
Label skip = e.make_label();
Label end = e.make_label();
e.dup();
e.ifnull(skip);
if (customizer != null) {
customizer.customize(e, type);
}
e.invoke_virtual(Constants.TYPE_OBJECT, HASH_CODE);
e.goTo(end);
e.mark(skip);
e.pop();
e.push(0);
e.mark(end);
}
private static void hash_primitive(CodeEmitter e, Type type) {
switch (type.getSort()) {
case Type.BOOLEAN:
// f ? 0 : 1
e.push(1);
e.math(e.XOR, Type.INT_TYPE);
break;
case Type.FLOAT:
// Float.floatToIntBits(f)
e.invoke_static(Constants.TYPE_FLOAT, FLOAT_TO_INT_BITS);
break;
case Type.DOUBLE:
// Double.doubleToLongBits(f), hash_code(Long.TYPE)
e.invoke_static(Constants.TYPE_DOUBLE, DOUBLE_TO_LONG_BITS);
// fall through
case Type.LONG:
hash_long(e);
}
}
private static void hash_long(CodeEmitter e) {
// (int)(f ^ (f >>> 32))
e.dup2();
e.push(32);
e.math(e.USHR, Type.LONG_TYPE);
e.math(e.XOR, Type.LONG_TYPE);
e.cast_numeric(Type.LONG_TYPE, Type.INT_TYPE);
}
// public static void not_equals(CodeEmitter e, Type type, Label notEquals) {
// not_equals(e, type, notEquals, null);
// }
/**
* Branches to the specified label if the top two items on the stack
* are not equal. The items must both be of the specified
* class. Equality is determined by comparing primitive values
* directly and by invoking the equals
method for
* Objects. Arrays are recursively processed in the same manner.
*/
public static void not_equals(final CodeEmitter e, Type type, final Label notEquals, final Customizer customizer) {
(new ProcessArrayCallback() {
public void processElement(Type type) {
not_equals_helper(e, type, notEquals, customizer, this);
}
}).processElement(type);
}
private static void not_equals_helper(CodeEmitter e,
Type type,
Label notEquals,
Customizer customizer,
ProcessArrayCallback callback) {
if (TypeUtils.isPrimitive(type)) {
e.if_cmp(type, e.NE, notEquals);
} else {
Label end = e.make_label();
nullcmp(e, notEquals, end);
if (TypeUtils.isArray(type)) {
Label checkContents = e.make_label();
e.dup2();
e.arraylength();
e.swap();
e.arraylength();
e.if_icmp(e.EQ, checkContents);
e.pop2();
e.goTo(notEquals);
e.mark(checkContents);
EmitUtils.process_arrays(e, type, callback);
} else {
if (customizer != null) {
customizer.customize(e, type);
e.swap();
customizer.customize(e, type);
}
e.invoke_virtual(Constants.TYPE_OBJECT, EQUALS);
e.if_jump(e.EQ, notEquals);
}
e.mark(end);
}
}
/**
* If both objects on the top of the stack are non-null, does nothing.
* If one is null, or both are null, both are popped off and execution
* branches to the respective label.
* @param oneNull label to branch to if only one of the objects is null
* @param bothNull label to branch to if both of the objects are null
*/
private static void nullcmp(CodeEmitter e, Label oneNull, Label bothNull) {
e.dup2();
Label nonNull = e.make_label();
Label oneNullHelper = e.make_label();
Label end = e.make_label();
e.ifnonnull(nonNull);
e.ifnonnull(oneNullHelper);
e.pop2();
e.goTo(bothNull);
e.mark(nonNull);
e.ifnull(oneNullHelper);
e.goTo(end);
e.mark(oneNullHelper);
e.pop2();
e.goTo(oneNull);
e.mark(end);
}
/*
public static void to_string(CodeEmitter e,
Type type,
ArrayDelimiters delims,
Customizer customizer) {
e.new_instance(Constants.TYPE_STRING_BUFFER);
e.dup();
e.invoke_constructor(Constants.TYPE_STRING_BUFFER);
e.swap();
append_string(e, type, delims, customizer);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, TO_STRING);
}
*/
public static void append_string(final CodeEmitter e,
Type type,
final ArrayDelimiters delims,
final Customizer customizer) {
final ArrayDelimiters d = (delims != null) ? delims : DEFAULT_DELIMITERS;
ProcessArrayCallback callback = new ProcessArrayCallback() {
public void processElement(Type type) {
append_string_helper(e, type, d, customizer, this);
e.push(d.inside);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_STRING);
}
};
append_string_helper(e, type, d, customizer, callback);
}
private static void append_string_helper(CodeEmitter e,
Type type,
ArrayDelimiters delims,
Customizer customizer,
ProcessArrayCallback callback) {
Label skip = e.make_label();
Label end = e.make_label();
if (TypeUtils.isPrimitive(type)) {
switch (type.getSort()) {
case Type.INT:
case Type.SHORT:
case Type.BYTE:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_INT);
break;
case Type.DOUBLE:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_DOUBLE);
break;
case Type.FLOAT:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_FLOAT);
break;
case Type.LONG:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_LONG);
break;
case Type.BOOLEAN:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_BOOLEAN);
break;
case Type.CHAR:
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_CHAR);
break;
}
} else if (TypeUtils.isArray(type)) {
e.dup();
e.ifnull(skip);
e.swap();
if (delims != null && delims.before != null && !"".equals(delims.before)) {
e.push(delims.before);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_STRING);
e.swap();
}
EmitUtils.process_array(e, type, callback);
shrinkStringBuffer(e, 2);
if (delims != null && delims.after != null && !"".equals(delims.after)) {
e.push(delims.after);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_STRING);
}
} else {
e.dup();
e.ifnull(skip);
if (customizer != null) {
customizer.customize(e, type);
}
e.invoke_virtual(Constants.TYPE_OBJECT, TO_STRING);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_STRING);
}
e.goTo(end);
e.mark(skip);
e.pop();
e.push("null");
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, APPEND_STRING);
e.mark(end);
}
private static void shrinkStringBuffer(CodeEmitter e, int amt) {
e.dup();
e.dup();
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, LENGTH);
e.push(amt);
e.math(e.SUB, Type.INT_TYPE);
e.invoke_virtual(Constants.TYPE_STRING_BUFFER, SET_LENGTH);
}
public static class ArrayDelimiters {
private String before;
private String inside;
private String after;
public ArrayDelimiters(String before, String inside, String after) {
this.before = before;
this.inside = inside;
this.after = after;
}
}
public static void load_method(CodeEmitter e, MethodInfo method) {
load_class(e, method.getClassInfo().getType());
e.push(method.getSignature().getName());
push_object(e, method.getSignature().getArgumentTypes());
e.invoke_virtual(Constants.TYPE_CLASS, GET_DECLARED_METHOD);
}
private interface ParameterTyper {
Type[] getParameterTypes(MethodInfo member);
}
public static void method_switch(CodeEmitter e,
List methods,
ObjectSwitchCallback callback) {
member_switch_helper(e, methods, callback, true);
}
public static void constructor_switch(CodeEmitter e,
List constructors,
ObjectSwitchCallback callback) {
member_switch_helper(e, constructors, callback, false);
}
private static void member_switch_helper(final CodeEmitter e,
List members,
final ObjectSwitchCallback callback,
boolean useName) {
try {
final Map cache = new HashMap();
final ParameterTyper cached = new ParameterTyper() {
public Type[] getParameterTypes(MethodInfo member) {
Type[] types = (Type[])cache.get(member);
if (types == null) {
cache.put(member, types = member.getSignature().getArgumentTypes());
}
return types;
}
};
final Label def = e.make_label();
final Label end = e.make_label();
if (useName) {
e.swap();
final Map buckets = CollectionUtils.bucket(members, new Transformer() {
public Object transform(Object value) {
return ((MethodInfo)value).getSignature().getName();
}
});
String[] names = (String[])buckets.keySet().toArray(new String[buckets.size()]);
EmitUtils.string_switch(e, names, Constants.SWITCH_STYLE_HASH, new ObjectSwitchCallback() {
public void processCase(Object key, Label dontUseEnd) throws Exception {
member_helper_size(e, (List)buckets.get(key), callback, cached, def, end);
}
public void processDefault() throws Exception {
e.goTo(def);
}
});
} else {
member_helper_size(e, members, callback, cached, def, end);
}
e.mark(def);
e.pop();
callback.processDefault();
e.mark(end);
} catch (RuntimeException ex) {
throw ex;
} catch (Error ex) {
throw ex;
} catch (Exception ex) {
throw new CodeGenerationException(ex);
}
}
private static void member_helper_size(final CodeEmitter e,
List members,
final ObjectSwitchCallback callback,
final ParameterTyper typer,
final Label def,
final Label end) throws Exception {
final Map buckets = CollectionUtils.bucket(members, new Transformer() {
public Object transform(Object value) {
return new Integer(typer.getParameterTypes((MethodInfo)value).length);
}
});
e.dup();
e.arraylength();
e.process_switch(EmitUtils.getSwitchKeys(buckets), new ProcessSwitchCallback() {
public void processCase(int key, Label dontUseEnd) throws Exception {
List bucket = (List)buckets.get(new Integer(key));
member_helper_type(e, bucket, callback, typer, def, end, new BitSet());
}
public void processDefault() throws Exception {
e.goTo(def);
}
});
}
private static void member_helper_type(final CodeEmitter e,
List members,
final ObjectSwitchCallback callback,
final ParameterTyper typer,
final Label def,
final Label end,
final BitSet checked) throws Exception {
if (members.size() == 1) {
MethodInfo member = (MethodInfo)members.get(0);
Type[] types = typer.getParameterTypes(member);
// need to check classes that have not already been checked via switches
for (int i = 0; i < types.length; i++) {
if (checked == null || !checked.get(i)) {
e.dup();
e.aaload(i);
e.invoke_virtual(Constants.TYPE_CLASS, GET_NAME);
e.push(TypeUtils.emulateClassGetName(types[i]));
e.invoke_virtual(Constants.TYPE_OBJECT, EQUALS);
e.if_jump(e.EQ, def);
}
}
e.pop();
callback.processCase(member, end);
} else {
// choose the index that has the best chance of uniquely identifying member
Type[] example = typer.getParameterTypes((MethodInfo)members.get(0));
Map buckets = null;
int index = -1;
for (int i = 0; i < example.length; i++) {
final int j = i;
Map test = CollectionUtils.bucket(members, new Transformer() {
public Object transform(Object value) {
return TypeUtils.emulateClassGetName(typer.getParameterTypes((MethodInfo)value)[j]);
}
});
if (buckets == null || test.size() > buckets.size()) {
buckets = test;
index = i;
}
}
if (buckets == null || buckets.size() == 1) {
// TODO: switch by returnType
// must have two methods with same name, types, and different return types
e.goTo(def);
} else {
checked.set(index);
e.dup();
e.aaload(index);
e.invoke_virtual(Constants.TYPE_CLASS, GET_NAME);
final Map fbuckets = buckets;
String[] names = (String[])buckets.keySet().toArray(new String[buckets.size()]);
EmitUtils.string_switch(e, names, Constants.SWITCH_STYLE_HASH, new ObjectSwitchCallback() {
public void processCase(Object key, Label dontUseEnd) throws Exception {
member_helper_type(e, (List)fbuckets.get(key), callback, typer, def, end, checked);
}
public void processDefault() throws Exception {
e.goTo(def);
}
});
}
}
}
public static void wrap_throwable(Block block, Type wrapper) {
CodeEmitter e = block.getCodeEmitter();
e.catch_exception(block, Constants.TYPE_THROWABLE);
e.new_instance(wrapper);
e.dup_x1();
e.swap();
e.invoke_constructor(wrapper, CSTRUCT_THROWABLE);
e.athrow();
}
public static void add_properties(ClassEmitter ce, String[] names, Type[] types) {
for (int i = 0; i < names.length; i++) {
String fieldName = "$cglib_prop_" + names[i];
ce.declare_field(Constants.ACC_PRIVATE, fieldName, types[i], null);
EmitUtils.add_property(ce, names[i], types[i], fieldName);
}
}
public static void add_property(ClassEmitter ce, String name, Type type, String fieldName) {
String property = TypeUtils.upperFirst(name);
CodeEmitter e;
e = ce.begin_method(Constants.ACC_PUBLIC,
new Signature("get" + property,
type,
Constants.TYPES_EMPTY),
null);
e.load_this();
e.getfield(fieldName);
e.return_value();
e.end_method();
e = ce.begin_method(Constants.ACC_PUBLIC,
new Signature("set" + property,
Type.VOID_TYPE,
new Type[]{ type }),
null);
e.load_this();
e.load_arg(0);
e.putfield(fieldName);
e.return_value();
e.end_method();
}
/* generates:
} catch (RuntimeException e) {
throw e;
} catch (Error e) {
throw e;
} catch ( e) {
throw e;
} catch (Throwable e) {
throw new (e);
}
*/
public static void wrap_undeclared_throwable(CodeEmitter e, Block handler, Type[] exceptions, Type wrapper) {
Set set = (exceptions == null) ? Collections.EMPTY_SET : new HashSet(Arrays.asList(exceptions));
if (set.contains(Constants.TYPE_THROWABLE))
return;
boolean needThrow = exceptions != null;
if (!set.contains(Constants.TYPE_RUNTIME_EXCEPTION)) {
e.catch_exception(handler, Constants.TYPE_RUNTIME_EXCEPTION);
needThrow = true;
}
if (!set.contains(Constants.TYPE_ERROR)) {
e.catch_exception(handler, Constants.TYPE_ERROR);
needThrow = true;
}
if (exceptions != null) {
for (int i = 0; i < exceptions.length; i++) {
e.catch_exception(handler, exceptions[i]);
}
}
if (needThrow) {
e.athrow();
}
// e -> eo -> oeo -> ooe -> o
e.catch_exception(handler, Constants.TYPE_THROWABLE);
e.new_instance(wrapper);
e.dup_x1();
e.swap();
e.invoke_constructor(wrapper, CSTRUCT_THROWABLE);
e.athrow();
}
public static CodeEmitter begin_method(ClassEmitter e, MethodInfo method) {
return begin_method(e, method, method.getModifiers());
}
public static CodeEmitter begin_method(ClassEmitter e, MethodInfo method, int access) {
return e.begin_method(access,
method.getSignature(),
method.getExceptionTypes());
}
}