/*****************************************************************************
* Licensed to the Apache Software Foundation (ASF) under one *
* or more contributor license agreements. See the NOTICE file *
* distributed with this work for additional information *
* regarding copyright ownership. The ASF licenses this file *
* to you 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. *
* *
* *
* This file is part of the BeanShell Java Scripting distribution. *
* Documentation and updates may be found at http://www.beanshell.org/ *
* Patrick Niemeyer (pat@pat.net) *
* Author of Learning Java, O'Reilly & Associates *
* *
*****************************************************************************/
package bsh;
import java.lang.reflect.
Array;
class
BSHType extends
SimpleNode
implements
BshClassManager.
Listener
{
/**
baseType is used during evaluation of full type and retained for the
case where we are an array type.
In the case where we are not an array this will be the same as type.
*/
private
Class baseType;
/**
If we are an array type this will be non zero and indicate the
dimensionality of the array. e.g. 2 for String[][];
*/
private int
arrayDims;
/**
Internal cache of the type. Cleared on classloader change.
*/
private
Class type;
String descriptor;
BSHType(int
id) {
super(
id);
}
/**
Used by the grammar to indicate dimensions of array types
during parsing.
*/
public void
addArrayDimension() {
arrayDims++;
}
SimpleNode getTypeNode() {
return (
SimpleNode)
jjtGetChild(0);
}
/**
Returns a class descriptor for this type.
If the type is an ambiguous name (object type) evaluation is
attempted through the namespace in order to resolve imports.
If it is not found and the name is non-compound we assume the default
package for the name.
*/
public
String getTypeDescriptor(
CallStack callstack,
Interpreter interpreter,
String defaultPackage )
{
// return cached type if available
if (
descriptor != null )
return
descriptor;
String descriptor;
// first node will either be PrimitiveType or AmbiguousName
SimpleNode node =
getTypeNode();
if (
node instanceof
BSHPrimitiveType )
descriptor =
getTypeDescriptor( ((
BSHPrimitiveType)
node).
type );
else
{
String clasName = ((
BSHAmbiguousName)
node).
text;
BshClassManager bcm =
interpreter.
getClassManager();
// Note: incorrect here - we are using the hack in bsh class
// manager that allows lookup by base name. We need to eliminate
// this limitation by working through imports. See notes in class
// manager.
String definingClass =
bcm.
getClassBeingDefined(
clasName );
Class clas = null;
if (
definingClass == null )
{
try {
clas = ((
BSHAmbiguousName)
node).
toClass(
callstack,
interpreter );
} catch (
EvalError e ) {
//throw new InterpreterError("unable to resolve type: "+e);
// ignore and try default package
//System.out.println("BSHType: "+node+" class not found");
}
} else
clasName =
definingClass;
if (
clas != null )
{
//System.out.println("found clas: "+clas);
descriptor =
getTypeDescriptor(
clas );
}else
{
if (
defaultPackage == null ||
Name.
isCompound(
clasName ) )
descriptor = "L" +
clasName.
replace('.','/') + ";";
else
descriptor =
"L"+
defaultPackage.
replace('.','/')+"/"+
clasName + ";";
}
}
for(int
i=0;
i<
arrayDims;
i++)
descriptor = "["+
descriptor;
this.
descriptor =
descriptor;
//System.out.println("BSHType: returning descriptor: "+descriptor);
return
descriptor;
}
public
Class getType(
CallStack callstack,
Interpreter interpreter )
throws
EvalError
{
// return cached type if available
if (
type != null )
return
type;
// first node will either be PrimitiveType or AmbiguousName
SimpleNode node =
getTypeNode();
if (
node instanceof
BSHPrimitiveType )
baseType = ((
BSHPrimitiveType)
node).
getType();
else
baseType = ((
BSHAmbiguousName)
node).
toClass(
callstack,
interpreter );
if (
arrayDims > 0 ) {
try {
// Get the type by constructing a prototype array with
// arbitrary (zero) length in each dimension.
int[]
dims = new int[
arrayDims]; // int array default zeros
Object obj =
Array.
newInstance(
baseType,
dims);
type =
obj.
getClass();
} catch(
Exception e) {
throw new
EvalError("Couldn't construct array type",
this,
callstack );
}
} else
type =
baseType;
// hack... sticking to first interpreter that resolves this
// see comments on type instance variable
interpreter.
getClassManager().
addListener(this);
return
type;
}
/**
baseType is used during evaluation of full type and retained for the
case where we are an array type.
In the case where we are not an array this will be the same as type.
*/
public
Class getBaseType() {
return
baseType;
}
/**
If we are an array type this will be non zero and indicate the
dimensionality of the array. e.g. 2 for String[][];
*/
public int
getArrayDims() {
return
arrayDims;
}
public void
classLoaderChanged() {
type = null;
baseType = null;
}
public static
String getTypeDescriptor(
Class clas )
{
if (
clas ==
Boolean.
TYPE ) return "Z";
if (
clas ==
Character.
TYPE ) return "C";
if (
clas ==
Byte.
TYPE ) return "B";
if (
clas ==
Short.
TYPE ) return "S";
if (
clas ==
Integer.
TYPE ) return "I";
if (
clas ==
Long.
TYPE ) return "J";
if (
clas ==
Float.
TYPE ) return "F";
if (
clas ==
Double.
TYPE ) return "D";
if (
clas ==
Void.
TYPE ) return "V";
// Is getName() ok? test with 1.1
String name =
clas.
getName().
replace('.','/');
if (
name.
startsWith("[") ||
name.
endsWith(";") )
return
name;
else
return "L"+
name.
replace('.','/') +";";
}
}