/*
* reserved comment block
* DO NOT REMOVE OR ALTER!
*/
package com.sun.org.apache.bcel.internal.util;
/* ====================================================================
* The Apache Software License, Version 1.1
*
* Copyright (c) 2001 The Apache Software Foundation. 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. The end-user documentation included with the redistribution,
* if any, must include the following acknowledgment:
* "This product includes software developed by the
* Apache Software Foundation (http://www.apache.org/)."
* Alternately, this acknowledgment may appear in the software itself,
* if and wherever such third-party acknowledgments normally appear.
*
* 4. The names "Apache" and "Apache Software Foundation" and
* "Apache BCEL" must not be used to endorse or promote products
* derived from this software without prior written permission. For
* written permission, please contact apache@apache.org.
*
* 5. Products derived from this software may not be called "Apache",
* "Apache BCEL", nor may "Apache" appear in their name, without
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
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* 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.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
* <http://www.apache.org/>.
*/
import com.sun.org.apache.bcel.internal.classfile.*;
import java.io.*;
import java.util.BitSet;
/**
* Convert code into HTML file.
*
* @author <A HREF="mailto:markus.dahm@berlin.de">M. Dahm</A>
*
*/
final class CodeHTML implements com.sun.org.apache.bcel.internal.Constants {
private String class_name; // name of current class
private Method[] methods; // Methods to print
private PrintWriter file; // file to write to
private BitSet goto_set;
private ConstantPool constant_pool;
private ConstantHTML constant_html;
private static boolean wide=false;
CodeHTML(String dir, String class_name,
Method[] methods, ConstantPool constant_pool,
ConstantHTML constant_html) throws IOException
{
this.class_name = class_name;
this.methods = methods;
this.constant_pool = constant_pool;
this.constant_html = constant_html;
file = new PrintWriter(new FileOutputStream(dir + class_name + "_code.html"));
file.println("<HTML><BODY BGCOLOR=\"#C0C0C0\">");
for(int i=0; i < methods.length; i++)
writeMethod(methods[i], i);
file.println("</BODY></HTML>");
file.close();
}
/**
* Disassemble a stream of byte codes and return the
* string representation.
*
* @param stream data input stream
* @return String representation of byte code
*/
private final String codeToHTML(ByteSequence bytes, int method_number)
throws IOException
{
short opcode = (short)bytes.readUnsignedByte();
StringBuffer buf;
String name, signature;
int default_offset=0, low, high;
int index, class_index, vindex, constant;
int[] jump_table;
int no_pad_bytes=0, offset;
buf = new StringBuffer("<TT>" + OPCODE_NAMES[opcode] + "</TT></TD><TD>");
/* Special case: Skip (0-3) padding bytes, i.e., the
* following bytes are 4-byte-aligned
*/
if((opcode == TABLESWITCH) || (opcode == LOOKUPSWITCH)) {
int remainder = bytes.getIndex() % 4;
no_pad_bytes = (remainder == 0)? 0 : 4 - remainder;
for(int i=0; i < no_pad_bytes; i++)
bytes.readByte();
// Both cases have a field default_offset in common
default_offset = bytes.readInt();
}
switch(opcode) {
case TABLESWITCH:
low = bytes.readInt();
high = bytes.readInt();
offset = bytes.getIndex() - 12 - no_pad_bytes - 1;
default_offset += offset;
buf.append("<TABLE BORDER=1><TR>");
// Print switch indices in first row (and default)
jump_table = new int[high - low + 1];
for(int i=0; i < jump_table.length; i++) {
jump_table[i] = offset + bytes.readInt();
buf.append("<TH>" + (low + i) + "</TH>");
}
buf.append("<TH>default</TH></TR>\n<TR>");
// Print target and default indices in second row
for(int i=0; i < jump_table.length; i++)
buf.append("<TD><A HREF=\"#code" + method_number + "@" +
jump_table[i] + "\">" + jump_table[i] + "</A></TD>");
buf.append("<TD><A HREF=\"#code" + method_number + "@" +
default_offset + "\">" + default_offset + "</A></TD></TR>\n</TABLE>\n");
break;
/* Lookup switch has variable length arguments.
*/
case LOOKUPSWITCH:
int npairs = bytes.readInt();
offset = bytes.getIndex() - 8 - no_pad_bytes - 1;
jump_table = new int[npairs];
default_offset += offset;
buf.append("<TABLE BORDER=1><TR>");
// Print switch indices in first row (and default)
for(int i=0; i < npairs; i++) {
int match = bytes.readInt();
jump_table[i] = offset + bytes.readInt();
buf.append("<TH>" + match + "</TH>");
}
buf.append("<TH>default</TH></TR>\n<TR>");
// Print target and default indices in second row
for(int i=0; i < npairs; i++)
buf.append("<TD><A HREF=\"#code" + method_number + "@" +
jump_table[i] + "\">" + jump_table[i] + "</A></TD>");
buf.append("<TD><A HREF=\"#code" + method_number + "@" +
default_offset + "\">" + default_offset + "</A></TD></TR>\n</TABLE>\n");
break;
/* Two address bytes + offset from start of byte stream form the
* jump target.
*/
case GOTO: case IFEQ: case IFGE: case IFGT:
case IFLE: case IFLT:
case IFNE: case IFNONNULL: case IFNULL: case IF_ACMPEQ:
case IF_ACMPNE: case IF_ICMPEQ: case IF_ICMPGE: case IF_ICMPGT:
case IF_ICMPLE: case IF_ICMPLT: case IF_ICMPNE: case JSR:
index = (int)(bytes.getIndex() + bytes.readShort() - 1);
buf.append("<A HREF=\"#code" + method_number + "@" + index + "\">" + index + "</A>");
break;
/* Same for 32-bit wide jumps
*/
case GOTO_W: case JSR_W:
int windex = bytes.getIndex() + bytes.readInt() - 1;
buf.append("<A HREF=\"#code" + method_number + "@" + windex + "\">" +
windex + "</A>");
break;
/* Index byte references local variable (register)
*/
case ALOAD: case ASTORE: case DLOAD: case DSTORE: case FLOAD:
case FSTORE: case ILOAD: case ISTORE: case LLOAD: case LSTORE:
case RET:
if(wide) {
vindex = bytes.readShort();
wide=false; // Clear flag
}
else
vindex = bytes.readUnsignedByte();
buf.append("%" + vindex);
break;
/*
* Remember wide byte which is used to form a 16-bit address in the
* following instruction. Relies on that the method is called again with
* the following opcode.
*/
case WIDE:
wide = true;
buf.append("(wide)");
break;
/* Array of basic type.
*/
case NEWARRAY:
buf.append("<FONT COLOR=\"#00FF00\">" + TYPE_NAMES[bytes.readByte()] + "</FONT>");
break;
/* Access object/class fields.
*/
case GETFIELD: case GETSTATIC: case PUTFIELD: case PUTSTATIC:
index = bytes.readShort();
ConstantFieldref c1 = (ConstantFieldref)constant_pool.getConstant(index, CONSTANT_Fieldref);
class_index = c1.getClassIndex();
name = constant_pool.getConstantString(class_index, CONSTANT_Class);
name = Utility.compactClassName(name, false);
index = c1.getNameAndTypeIndex();
String field_name = constant_pool.constantToString(index, CONSTANT_NameAndType);
if(name.equals(class_name)) { // Local field
buf.append("<A HREF=\"" + class_name + "_methods.html#field" + field_name +
"\" TARGET=Methods>" + field_name + "</A>\n");
}
else
buf.append(constant_html.referenceConstant(class_index) + "." + field_name);
break;
/* Operands are references to classes in constant pool
*/
case CHECKCAST: case INSTANCEOF: case NEW:
index = bytes.readShort();
buf.append(constant_html.referenceConstant(index));
break;
/* Operands are references to methods in constant pool
*/
case INVOKESPECIAL: case INVOKESTATIC: case INVOKEVIRTUAL: case INVOKEINTERFACE:
int m_index = bytes.readShort();
String str;
if(opcode == INVOKEINTERFACE) { // Special treatment needed
int nargs = bytes.readUnsignedByte(); // Redundant
int reserved = bytes.readUnsignedByte(); // Reserved
ConstantInterfaceMethodref c=(ConstantInterfaceMethodref)constant_pool.getConstant(m_index, CONSTANT_InterfaceMethodref);
class_index = c.getClassIndex();
str = constant_pool.constantToString(c);
index = c.getNameAndTypeIndex();
}
else {
ConstantMethodref c = (ConstantMethodref)constant_pool.getConstant(m_index, CONSTANT_Methodref);
class_index = c.getClassIndex();
str = constant_pool.constantToString(c);
index = c.getNameAndTypeIndex();
}
name = Class2HTML.referenceClass(class_index);
str = Class2HTML.toHTML(constant_pool.constantToString(constant_pool.getConstant(index, CONSTANT_NameAndType)));
// Get signature, i.e., types
ConstantNameAndType c2 = (ConstantNameAndType)constant_pool.
getConstant(index, CONSTANT_NameAndType);
signature = constant_pool.constantToString(c2.getSignatureIndex(),
CONSTANT_Utf8);
String[] args = Utility.methodSignatureArgumentTypes(signature, false);
String type = Utility.methodSignatureReturnType(signature, false);
buf.append(name + ".<A HREF=\"" + class_name + "_cp.html#cp" + m_index +
"\" TARGET=ConstantPool>" + str + "</A>" + "(");
// List arguments
for(int i=0; i < args.length; i++) {
buf.append(Class2HTML.referenceType(args[i]));
if(i < args.length - 1)
buf.append(", ");
}
// Attach return type
buf.append("):" + Class2HTML.referenceType(type));
break;
/* Operands are references to items in constant pool
*/
case LDC_W: case LDC2_W:
index = bytes.readShort();
buf.append("<A HREF=\"" + class_name + "_cp.html#cp" + index +
"\" TARGET=\"ConstantPool\">" +
Class2HTML.toHTML(constant_pool.constantToString(index,
constant_pool.
getConstant(index).getTag()))+
"</a>");
break;
case LDC:
index = bytes.readUnsignedByte();
buf.append("<A HREF=\"" + class_name + "_cp.html#cp" + index +
"\" TARGET=\"ConstantPool\">" +
Class2HTML.toHTML(constant_pool.constantToString(index,
constant_pool.
getConstant(index).getTag()))+
"</a>");
break;
/* Array of references.
*/
case ANEWARRAY:
index = bytes.readShort();
buf.append(constant_html.referenceConstant(index));
break;
/* Multidimensional array of references.
*/
case MULTIANEWARRAY:
index = bytes.readShort();
int dimensions = bytes.readByte();
buf.append(constant_html.referenceConstant(index) + ":" + dimensions + "-dimensional");
break;
/* Increment local variable.
*/
case IINC:
if(wide) {
vindex = bytes.readShort();
constant = bytes.readShort();
wide = false;
}
else {
vindex = bytes.readUnsignedByte();
constant = bytes.readByte();
}
buf.append("%" + vindex + " " + constant);
break;
default:
if(NO_OF_OPERANDS[opcode] > 0) {
for(int i=0; i < TYPE_OF_OPERANDS[opcode].length; i++) {
switch(TYPE_OF_OPERANDS[opcode][i]) {
case T_BYTE:
buf.append(bytes.readUnsignedByte());
break;
case T_SHORT: // Either branch or index
buf.append(bytes.readShort());
break;
case T_INT:
buf.append(bytes.readInt());
break;
default: // Never reached
System.err.println("Unreachable default case reached!");
System.exit(-1);
}
buf.append("&nbsp;");
}
}
}
buf.append("</TD>");
return buf.toString();
}
/**
* Find all target addresses in code, so that they can be marked
* with &lt;A NAME = ...&gt;. Target addresses are kept in an BitSet object.
*/
private final void findGotos(ByteSequence bytes, Method method, Code code)
throws IOException
{
int index;
goto_set = new BitSet(bytes.available());
int opcode;
/* First get Code attribute from method and the exceptions handled
* (try .. catch) in this method. We only need the line number here.
*/
if(code != null) {
CodeException[] ce = code.getExceptionTable();
int len = ce.length;
for(int i=0; i < len; i++) {
goto_set.set(ce[i].getStartPC());
goto_set.set(ce[i].getEndPC());
goto_set.set(ce[i].getHandlerPC());
}
// Look for local variables and their range
Attribute[] attributes = code.getAttributes();
for(int i=0; i < attributes.length; i++) {
if(attributes[i].getTag() == ATTR_LOCAL_VARIABLE_TABLE) {
LocalVariable[] vars = ((LocalVariableTable)attributes[i]).getLocalVariableTable();
for(int j=0; j < vars.length; j++) {
int start = vars[j].getStartPC();
int end = (int)(start + vars[j].getLength());
goto_set.set(start);
goto_set.set(end);
}
break;
}
}
}
// Get target addresses from GOTO, JSR, TABLESWITCH, etc.
for(int i=0; bytes.available() > 0; i++) {
opcode = bytes.readUnsignedByte();
//System.out.println(OPCODE_NAMES[opcode]);
switch(opcode) {
case TABLESWITCH: case LOOKUPSWITCH:
//bytes.readByte(); // Skip already read byte
int remainder = bytes.getIndex() % 4;
int no_pad_bytes = (remainder == 0)? 0 : 4 - remainder;
int default_offset, offset;
for(int j=0; j < no_pad_bytes; j++)
bytes.readByte();
// Both cases have a field default_offset in common
default_offset = bytes.readInt();
if(opcode == TABLESWITCH) {
int low = bytes.readInt();
int high = bytes.readInt();
offset = bytes.getIndex() - 12 - no_pad_bytes - 1;
default_offset += offset;
goto_set.set(default_offset);
for(int j=0; j < (high - low + 1); j++) {
index = offset + bytes.readInt();
goto_set.set(index);
}
}
else { // LOOKUPSWITCH
int npairs = bytes.readInt();
offset = bytes.getIndex() - 8 - no_pad_bytes - 1;
default_offset += offset;
goto_set.set(default_offset);
for(int j=0; j < npairs; j++) {
int match = bytes.readInt();
index = offset + bytes.readInt();
goto_set.set(index);
}
}
break;
case GOTO: case IFEQ: case IFGE: case IFGT:
case IFLE: case IFLT:
case IFNE: case IFNONNULL: case IFNULL: case IF_ACMPEQ:
case IF_ACMPNE: case IF_ICMPEQ: case IF_ICMPGE: case IF_ICMPGT:
case IF_ICMPLE: case IF_ICMPLT: case IF_ICMPNE: case JSR:
//bytes.readByte(); // Skip already read byte
index = bytes.getIndex() + bytes.readShort() - 1;
goto_set.set(index);
break;
case GOTO_W: case JSR_W:
//bytes.readByte(); // Skip already read byte
index = bytes.getIndex() + bytes.readInt() - 1;
goto_set.set(index);
break;
default:
bytes.unreadByte();
codeToHTML(bytes, 0); // Ignore output
}
}
}
/**
* Write a single method with the byte code associated with it.
*/
private void writeMethod(Method method, int method_number)
throws IOException
{
// Get raw signature
String signature = method.getSignature();
// Get array of strings containing the argument types
String[] args = Utility.methodSignatureArgumentTypes(signature, false);
// Get return type string
String type = Utility.methodSignatureReturnType(signature, false);
// Get method name
String name = method.getName();
String html_name = Class2HTML.toHTML(name);
// Get method's access flags
String access = Utility.accessToString(method.getAccessFlags());
access = Utility.replace(access, " ", "&nbsp;");
// Get the method's attributes, the Code Attribute in particular
Attribute[] attributes= method.getAttributes();
file.print("<P><B><FONT COLOR=\"#FF0000\">" + access + "</FONT>&nbsp;" +
"<A NAME=method" + method_number + ">" + Class2HTML.referenceType(type) +
"</A>&nbsp<A HREF=\"" + class_name + "_methods.html#method" + method_number +
"\" TARGET=Methods>" + html_name + "</A>(");
for(int i=0; i < args.length; i++) {
file.print(Class2HTML.referenceType(args[i]));
if(i < args.length - 1)
file.print(",&nbsp;");
}
file.println(")</B></P>");
Code c=null;
byte[] code=null;
if(attributes.length > 0) {
file.print("<H4>Attributes</H4><UL>\n");
for(int i=0; i < attributes.length; i++) {
byte tag = attributes[i].getTag();
if(tag != ATTR_UNKNOWN)
file.print("<LI><A HREF=\"" + class_name + "_attributes.html#method" + method_number + "@" + i +
"\" TARGET=Attributes>" + ATTRIBUTE_NAMES[tag] + "</A></LI>\n");
else
file.print("<LI>" + attributes[i] + "</LI>");
if(tag == ATTR_CODE) {
c = (Code)attributes[i];
Attribute[] attributes2 = c.getAttributes();
code = c.getCode();
file.print("<UL>");
for(int j=0; j < attributes2.length; j++) {
tag = attributes2[j].getTag();
file.print("<LI><A HREF=\"" + class_name + "_attributes.html#" +
"method" + method_number + "@" + i + "@" + j + "\" TARGET=Attributes>" +
ATTRIBUTE_NAMES[tag] + "</A></LI>\n");
}
file.print("</UL>");
}
}
file.println("</UL>");
}
if(code != null) { // No code, an abstract method, e.g.
//System.out.println(name + "\n" + Utility.codeToString(code, constant_pool, 0, -1));
// Print the byte code
ByteSequence stream = new ByteSequence(code);
stream.mark(stream.available());
findGotos(stream, method, c);
stream.reset();
file.println("<TABLE BORDER=0><TR><TH ALIGN=LEFT>Byte<BR>offset</TH>" +
"<TH ALIGN=LEFT>Instruction</TH><TH ALIGN=LEFT>Argument</TH>");
for(int i=0; stream.available() > 0; i++) {
int offset = stream.getIndex();
String str = codeToHTML(stream, method_number);
String anchor = "";
/* Set an anchor mark if this line is targetted by a goto, jsr, etc.
* Defining an anchor for every line is very inefficient!
*/
if(goto_set.get(offset))
anchor = "<A NAME=code" + method_number + "@" + offset + "></A>";
String anchor2;
if(stream.getIndex() == code.length) // last loop
anchor2 = "<A NAME=code" + method_number + "@" + code.length + ">" + offset + "</A>";
else
anchor2 = "" + offset;
file.println("<TR VALIGN=TOP><TD>" + anchor2 + "</TD><TD>" + anchor + str + "</TR>");
}
// Mark last line, may be targetted from Attributes window
file.println("<TR><TD> </A></TD></TR>");
file.println("</TABLE>");
}
}
}