/** A class representing a method in a generated classfile
@see ClassFile#addMethod */
-public class MethodGen implements CGConst {
+public class MethodGen extends Type.Class.Method.Body {
private final static boolean EMIT_NOPS = false;
private static final int NO_CODE = -1;
- private final Type.Class.Method method;
- private final int flags;
- private final ClassFile.AttrGen attrs;
+ public final Type.Class.Method method;
private final ClassFile.AttrGen codeAttrs;
private final Vector exnTable = new Vector();
private final Hashtable thrownExceptions = new Hashtable();
- private int maxStack = 16;
- private int maxLocals;
+ int maxStack = 16;
+ int maxLocals;
private int size;
private int capacity;
private byte[] op;
private Object[] arg;
private ConstantPool.Ent[] cparg;
-
- public void debugToString(StringBuffer sb, String constructorName) {
- // This is intentionally a local variable so it can be removed by gcclass
- final String[] OP_NAMES = new String[]{
- "nop", "aconst_null", "iconst_m1", "iconst_0", "iconst_1", "iconst_2",
- "iconst_3", "iconst_4", "iconst_5", "lconst_0", "lconst_1", "fconst_0",
- "fconst_1", "fconst_2", "dconst_0", "dconst_1", "bipush", "sipush",
- "ldc", "ldc_w", "ldc2_w", "iload", "lload", "fload",
- "dload", "aload", "iload_0", "iload_1", "iload_2", "iload_3",
- "lload_0", "lload_1", "lload_2", "lload_3", "fload_0", "fload_1",
- "fload_2", "fload_3", "dload_0", "dload_1", "dload_2", "dload_3",
- "aload_0", "aload_1", "aload_2", "aload_3", "iaload", "laload",
- "faload", "daload", "aaload", "baload", "caload", "saload",
- "istore", "lstore", "fstore", "dstore", "astore", "istore_0",
- "istore_1", "istore_2", "istore_3", "lstore_0", "lstore_1", "lstore_2",
- "lstore_3", "fstore_0", "fstore_1", "fstore_2", "fstore_3", "dstore_0",
- "dstore_1", "dstore_2", "dstore_3", "astore_0", "astore_1", "astore_2",
- "astore_3", "iastore", "lastore", "fastore", "dastore", "aastore",
- "bastore", "castore", "sastore", "pop", "pop2", "dup",
- "dup_x1", "dup_x2", "dup2", "dup2_x1", "dup2_x2", "swap",
- "iadd", "ladd", "fadd", "dadd", "isub", "lsub",
- "fsub", "dsub", "imul", "lmul", "fmul", "dmul",
- "idiv", "ldiv", "fdiv", "ddiv", "irem", "lrem",
- "frem", "drem", "ineg", "lneg", "fneg", "dneg",
- "ishl", "lshl", "ishr", "lshr", "iushr", "lushr",
- "iand", "land", "ior", "lor", "ixor", "lxor",
- "iinc", "i2l", "i2f", "i2d", "l2i", "l2f",
- "l2d", "f2i", "f2l", "f2d", "d2i", "d2l",
- "d2f", "i2b", "i2c", "i2s", "lcmp", "fcmpl",
- "fcmpg", "dcmpl", "dcmpg", "ifeq", "ifne", "iflt",
- "ifge", "ifgt", "ifle", "if_icmpeq", "if_icmpne", "if_icmplt",
- "if_icmpge", "if_icmpgt", "if_icmple", "if_acmpeq", "if_acmpne", "goto",
- "jsr", "ret", "tableswitch", "lookupswitch", "ireturn", "lreturn",
- "freturn", "dreturn", "areturn", "return", "getstatic", "putstatic",
- "getfield", "putfield", "invokevirtual", "invokespecial", "invokestatic", "invokeinterface",
- "", "new", "newarray", "anewarray", "arraylength", "athrow",
- "checkcast", "instanceof", "monitorenter", "monitorexit", "wide", "multianewarray",
- "ifnull", "ifnonnull", "goto_w", "jsr_w", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", "", "", "",
- "", "", "", ""
- };
-
- sb.append(" ").append(ClassFile.flagsToString(flags,false));
- sb.append(method.debugToString());
- if(thrownExceptions.size() > 0) {
- sb.append("throws");
- for(Enumeration e = thrownExceptions.keys();e.hasMoreElements();)
- sb.append(" ").append(((Type.Class)e.nextElement()).debugToString()).append(",");
- sb.setLength(sb.length()-1);
- sb.append(" ");
- }
- if((flags & (NATIVE|ABSTRACT))==0) {
- sb.append("{\n");
- for(int i=0;i<size();i++) {
- sb.append(" ");
- for(int j=i==0?1:i;j<10000;j*=10) sb.append(" ");
- sb.append(i).append(": ");
- sb.append(OP_NAMES[op[i]&0xff]);
- String s = null;
- if(arg[i] instanceof Type) s = ((Type)arg[i]).debugToString();
- else if(arg[i] instanceof Type.Class.Member) s = ((Type.Class.Member)arg[i]).toString();
- else if(arg[i] instanceof String) s = "\"" + s + "\"";
- else if(arg[i] != null) s = arg[i].toString();
- if(s != null) sb.append(" ").append(s);
- sb.append("\n");
- }
- sb.append(" }\n");
- } else {
- sb.append(";");
- }
+
+
+ // Constructors //////////////////////////////////////////////////////////////////////////////
+
+ MethodGen(Type.Class.Method method, int flags) {
+ method.super(flags, new ClassFile.AttrGen());
+ this.method = method;
+ codeAttrs = new ClassFile.AttrGen();
+ if (!isConcrete()) size = capacity = -1;
+ maxLocals = Math.max(method.getNumArgs() + (flags&STATIC)==0 ? 1 : 0, 4);
}
MethodGen(Type.Class c, DataInput in, ConstantPool cp) throws IOException {
- this.flags = in.readShort();
- if ((flags & ~VALID_METHOD_FLAGS) != 0) throw new ClassFile.ClassReadExn("invalid flags");
- String name = cp.getUtf8KeyByIndex(in.readShort());
- this.method = c.method(name+cp.getUtf8KeyByIndex(in.readShort()));
- this.attrs = new ClassFile.AttrGen(in,cp);
+ this(in.readShort(), cp.getUtf8KeyByIndex(in.readShort()), c, in, cp); }
+
+ private MethodGen(short flags, String name, Type.Class c, DataInput in, ConstantPool cp) throws IOException {
+ this(flags, name, c.method(name,cp.getUtf8KeyByIndex(in.readShort())), c, in, cp); }
+ private MethodGen(short flags, String name, Type.Class.Method m,
+ Type.Class c, DataInput in, ConstantPool cp) throws IOException {
+ m.super(flags, new ClassFile.AttrGen(in,cp));
+ this.method = m;
- if((flags & (NATIVE|ABSTRACT))==0) {
+ if (isConcrete()) {
byte[] codeAttr = (byte[]) attrs.get("Code");
- if(codeAttr == null) throw new ClassFile.ClassReadExn("code attr expected");
+ if (codeAttr == null) throw new ClassFile.ClassReadExn("code attr expected");
DataInputStream ci = new DataInputStream(new ByteArrayInputStream(codeAttr));
maxStack = ci.readUnsignedShort();
maxLocals = ci.readUnsignedShort();
codeAttrs = new ClassFile.AttrGen();
}
- if(attrs.contains("Exceptions")) {
+ if (attrs.contains("Exceptions")) {
DataInputStream ei = new DataInputStream(new ByteArrayInputStream((byte[]) attrs.get("Exceptions")));
int exnCount = ei.readUnsignedShort();
while(exnCount-- > 0) {
}
}
}
+
+ // Parsing //////////////////////////////////////////////////////////////////////////////
final int[] parseCode(DataInputStream in, int codeLen, ConstantPool cp) throws IOException {
int[] map = new int[codeLen];
byte op = in.readByte();
int opdata = OP_DATA[op&0xff];
//System.err.println("Processing " + Integer.toString(op&0xff,16) + " at " + pc);
- if((opdata&OP_VALID_FLAG)==0) throw new ClassFile.ClassReadExn("invalid bytecode " + (op&0xff));
+ if ((opdata&OP_VALID_FLAG)==0) throw new ClassFile.ClassReadExn("invalid bytecode " + (op&0xff));
int argLength = opdata & OP_ARG_LENGTH_MASK;
int mypc = pc;
map[mypc] = size();
pc += 1 + (argLength == 7 ? 0 : argLength);
- if(argLength == 0) { add(op); continue; }
+ if (argLength == 0) { add(op); continue; }
Object arg;
switch(op) {
case IINC:
break;
case TABLESWITCH:
case LOOKUPSWITCH:
- SI si;
- for(;(pc&3) != 0;pc++) if(in.readByte() != 0) throw new ClassFile.ClassReadExn("invalid padding");
+ Switch si;
+ for(;(pc&3) != 0;pc++) if (in.readByte() != 0) throw new ClassFile.ClassReadExn("invalid padding");
int def = in.readInt() + mypc;
pc += 4;
- if(op == LOOKUPSWITCH) {
- LSI lsi = new LSI(in.readInt());
+ if (op == LOOKUPSWITCH) {
+ Switch.Lookup lsi = new Switch.Lookup(in.readInt());
pc += 4;
for(int i=0;i<lsi.size();i++) {
lsi.setVal(i,in.readInt());
int lo = in.readInt();
int hi = in.readInt();
pc += 8;
- TSI tsi = new TSI(lo,hi);
+ Switch.Table tsi = new Switch.Table(lo,hi);
for(int i=0;i<tsi.size();i++) { tsi.setTarget(i,in.readInt() + mypc); pc += 4; }
si = tsi;
}
break;
}
case MULTIANEWARRAY:
- arg = new MultiANewArray((Type.Class)cp.getKeyByIndex(in.readUnsignedShort()),in.readUnsignedByte());
+ arg = new MultiANewArray((Type.Array)cp.getKeyByIndex(in.readUnsignedShort()),in.readUnsignedByte());
break;
case INVOKEINTERFACE: {
ConstantPool.Ent ent = cp.getByIndex(in.readUnsignedShort());
- if(ent.tag != CONSTANT_INTERFACEMETHODREF) throw new ClassFile.ClassReadExn("illegal argument to bytecode");
+ if (ent.tag != CONSTANT_INTERFACEMETHODREF) throw new ClassFile.ClassReadExn("illegal argument to bytecode");
arg = ((ConstantPool.InterfaceMethodKey)ent.key()).method;
- if(in.readByte() == 0 || in.readByte() != 0) throw new ClassFile.ClassReadExn("illegal count or 0 arg to invokeinterface");
+ if (in.readByte() == 0 || in.readByte() != 0)
+ throw new ClassFile.ClassReadExn("illegal count or 0 arg to invokeinterface");
break;
}
default:
- if((opdata&OP_CPENT_FLAG)!=0) {
- ConstantPool.Ent ent = cp.getByIndex(argLength == 2 ? in.readUnsignedShort() : argLength == 1 ? in.readUnsignedByte() : -1);
+ if ((opdata&OP_CPENT_FLAG)!=0) {
+ ConstantPool.Ent ent =
+ cp.getByIndex(argLength == 2 ? in.readUnsignedShort() : argLength == 1 ? in.readUnsignedByte() : -1);
int tag = ent.tag;
Object key = ent.key();
switch(op) {
case CONSTANT_CLASS:
break;
default:
- throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" + Integer.toString(op&0xff,16));
+ throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" +
+ Integer.toString(op&0xff,16));
}
break;
case GETSTATIC:
case PUTSTATIC:
case GETFIELD:
case PUTFIELD:
- if(tag != CONSTANT_FIELDREF) throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" + Integer.toString(op&0xff,16));
+ if (tag != CONSTANT_FIELDREF)
+ throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" +
+ Integer.toString(op&0xff,16));
break;
case INVOKEVIRTUAL:
case INVOKESPECIAL:
case INVOKESTATIC:
- if(tag != CONSTANT_METHODREF) throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" + Integer.toString(op&0xff,16));
+ if (tag != CONSTANT_METHODREF)
+ throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" +
+ Integer.toString(op&0xff,16));
break;
case NEW:
case ANEWARRAY:
case CHECKCAST:
case INSTANCEOF:
- if(tag != CONSTANT_CLASS) throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" + Integer.toString(op&0xff,16));
+ if (tag != CONSTANT_CLASS)
+ throw new ClassFile.ClassReadExn("illegal argument to bytecode 0x" +
+ Integer.toString(op&0xff,16));
break;
default:
throw new Error("should never happen");
// treat everything else (including branches for now) as plain old ints
int n;
boolean unsigned = (opdata&OP_UNSIGNED_FLAG)!=0;
- if(argLength == 1) n = unsigned ? in.readUnsignedByte() : in.readByte();
- else if(argLength == 2) n = unsigned ? in.readUnsignedShort() : in.readShort();
+ if (argLength == 1) n = unsigned ? in.readUnsignedByte() : in.readByte();
+ else if (argLength == 2) n = unsigned ? in.readUnsignedShort() : in.readShort();
else throw new Error("should never happen");
- if((opdata&OP_BRANCH_FLAG)!=0) n += mypc;
+ if ((opdata&OP_BRANCH_FLAG)!=0) n += mypc;
arg = N(n);
}
break;
}
add(op,arg);
}
- if(pc != codeLen)
+ if (pc != codeLen)
throw new ClassFile.ClassReadExn("didn't read enough code (" + pc + "/" + codeLen + " in " + method.name + ")");
for(int i=0;i<size();i++) {
switch(op[i]) {
case TABLESWITCH:
case LOOKUPSWITCH:
{
- SI si = (SI) arg[i];
+ Switch si = (Switch) arg[i];
int pos = map[si.getDefaultTarget()];
- if(pos < 0) throw new ClassFile.ClassReadExn("default target points to invalid bytecode: " + si.getDefaultTarget());
+ if (pos < 0)
+ throw new ClassFile.ClassReadExn("default target points to invalid bytecode: " + si.getDefaultTarget());
si.setDefaultTarget(pos);
for(int j=0;j<si.size();j++) {
pos = map[si.getTarget(j)];
- if(pos < 0) throw new ClassFile.ClassReadExn("target points to invalid bytecode");
+ if (pos < 0) throw new ClassFile.ClassReadExn("target points to invalid bytecode");
si.setTarget(j,pos);
}
break;
}
default:
- if(OP_BRANCH(op[i])) {
+ if (OP_BRANCH(op[i])) {
int pos = map[((Integer)arg[i]).intValue()];
- if(pos < 0) throw new ClassFile.ClassReadExn("branch points to invalid bytecode");
+ if (pos < 0) throw new ClassFile.ClassReadExn("branch points to invalid bytecode");
arg[i] = N(pos);
}
break;
return map;
}
- MethodGen(Type.Class.Method method, int flags) {
- if ((flags & ~VALID_METHOD_FLAGS) != 0) throw new IllegalArgumentException("invalid flags");
- this.method = method;
- this.flags = flags;
-
- attrs = new ClassFile.AttrGen();
- codeAttrs = new ClassFile.AttrGen();
-
- if (((flags & INTERFACE) != 0) || (flags & (ABSTRACT|NATIVE)) != 0) size = capacity = -1;
-
- maxLocals = Math.max(args.length + (flags&STATIC)==0 ? 1 : 0, 4);
- }
-
+ // Exception Table //////////////////////////////////////////////////////////////////////////////
+
class ExnTableEnt {
final int start;
final int end;
int index = in.readUnsignedShort();
this.type = index == 0 ? null : (Type.Class) cp.getKeyByIndex(index);
int max = bytecodeMap.length;
- if(startPC >= max || bytecodeMap[startPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
- if(endPC >= max || bytecodeMap[endPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
- if(handlerPC >= max || bytecodeMap[handlerPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
+ if (startPC >= max || bytecodeMap[startPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
+ if (endPC >= max || bytecodeMap[endPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
+ if (handlerPC >= max || bytecodeMap[handlerPC] < 0) throw new ClassFile.ClassReadExn("invalid startPC");
this.start = bytecodeMap[startPC];
this.end = bytecodeMap[endPC];
this.handler = bytecodeMap[handlerPC];
this.handler = handler;
this.type = type;
}
- void finish(ConstantPool cp) { if(type != null) cp.add(type); }
+ void finish(ConstantPool cp) { if (type != null) cp.add(type); }
void dump(DataOutput o, int[] pc, int endPC, ConstantPool cp) throws IOException {
o.writeShort(pc[start]);
o.writeShort(end==pc.length ? endPC : pc[end]);
}
/** Adds a exception type that can be thrown from this method
- NOTE: This isn't enforced by the JVM. This is for reference only. A method can throw exceptions not declared to be thrown
+ NOTE: This isn't enforced by the JVM. This is for reference
+ only. A method can throw exceptions not declared to be thrown
@param type The type of exception that can be thrown
*/
public final void addThrow(Type.Class type) { thrownExceptions.put(type, type); }
- private final void grow() { if(size == capacity) grow(size+1); }
+ private final void grow() { if (size == capacity) grow(size+1); }
private final void grow(int newCap) {
- if(capacity == NO_CODE) throw new IllegalStateException("method can't have code");
- if(newCap <= capacity) return;
+ if (capacity == NO_CODE) throw new IllegalStateException("method can't have code");
+ if (newCap <= capacity) return;
newCap = Math.max(newCap, capacity == 0 ? 256 : capacity*2);
byte[] op2 = new byte[newCap];
- if(capacity != 0) System.arraycopy(op, 0, op2, 0, size);
+ if (capacity != 0) System.arraycopy(op, 0, op2, 0, size);
op = op2;
Object[] arg2 = new Object[newCap];
- if(capacity != 0) System.arraycopy(arg, 0, arg2, 0, size);
+ if (capacity != 0) System.arraycopy(arg, 0, arg2, 0, size);
arg = arg2;
capacity = newCap;
}
+
+ // Accessors //////////////////////////////////////////////////////////////////////////////
+ public int getFlags() { return flags; }
+ public Hashtable getThrownExceptions() { return thrownExceptions; }
+
/** Returns the size (in instructions) of this method
@return The size of the method (in instructions)
*/
/** Add a bytecode (with no argument) to the method */
public final int add(byte op) {
int s = size;
- if(s == capacity) grow();
+ if (s == capacity) grow();
this.op[s] = op;
size++;
return s;
}
+
/** Set the bytecode at position <i>pos</i> to <i>op</i> */
public final void set(int pos, byte op) { this.op[pos] = op; }
/** Adds a bytecode, <i>op</i>, with argument <i>arg</i> to the method
@return The position of the new bytecode
*/
- public final int add(byte op, Object arg) { if(capacity == size) grow(); set(size, op, arg); return size++; }
+ public final int add(byte op, Object arg) { if (capacity == size) grow(); set(size, op, arg); return size++; }
+
/** Adds a bytecode with a boolean argument - equivalent to add(op, arg?1:0);
@return The position of the new bytecode
@see #add(byte, int)
*/
- public final int add(byte op, boolean arg) { if(capacity == size) grow(); set(size, op, arg); return size++; }
- /** Adds a bytecode with an integer argument. This is equivalent to add(op, new Integer(arg)), but optimized to prevent the allocation when possible
+ public final int add(byte op, boolean arg) { if (capacity == size) grow(); set(size, op, arg); return size++; }
+
+ /** Adds a bytecode with an integer argument. This is equivalent
+ * to add(op, new Integer(arg)), but optimized to prevent the
+ * allocation when possible
@return The position of the new bytecode
@see #add(byte, Object)
*/
- public final int add(byte op, int arg) { if(capacity == size) grow(); set(size, op, arg); return size++; }
+ public final int add(byte op, int arg) { if (capacity == size) grow(); set(size, op, arg); return size++; }
/** Gets the bytecode at position <i>pos</i>
@exception ArrayIndexOutOfBoundException if pos < 0 || pos >= size()
*/
public final Object getArg(int pos) { return arg[pos]; }
- /** Sets the argument for <i>pos</i> to <i>arg</i>. This is equivalent to set(pos, op, new Integer(arg)), but optimized to prevent the allocation when possible.
+ /** Sets the argument for <i>pos</i> to <i>arg</i>. This is
+ * equivalent to set(pos, op, new Integer(arg)), but optimized to
+ * prevent the allocation when possible.
@exception ArrayIndexOutOfBoundException if pos < 0 || pos >= size()
@see #setArg(int, Object) */
public final void setArg(int pos, int arg) { set(pos, op[pos], N(arg)); }
+
/** Sets the argument for <i>pos</i> to <i>arg</i>.
- @exception ArrayIndexOutOfBoundException if pos < 0 || pos >= size()
- */
+ @exception ArrayIndexOutOfBoundException if pos < 0 || pos >= size() */
public final void setArg(int pos, Object arg) { set(pos, op[pos], arg); }
/** Sets the bytecode and argument at <i>pos</i> to <i>op</i> and <i>arg</i> respectivly.
case 4: op = ICONST_4; break OUTER;
case 5: op = ICONST_5; break OUTER;
}
- if(n >= -128 && n <= 127) { op = BIPUSH; arg = N(n); }
- else if(n >= -32768 && n <= 32767) { op = SIPUSH; arg = N(n); }
+ if (n >= -128 && n <= 127) { op = BIPUSH; arg = N(n); }
+ else if (n >= -32768 && n <= 32767) { op = SIPUSH; arg = N(n); }
else { arg = N(n); }
break;
case ILOAD: case ISTORE: case LLOAD: case LSTORE: case FLOAD:
case FSTORE: case DLOAD: case DSTORE: case ALOAD: case ASTORE:
- if(n >= maxLocals) maxLocals = n + 1;
- if(n >= 0 && n <= 3) {
+ if (n >= maxLocals) maxLocals = n + 1;
+ if (n >= 0 && n <= 3) {
byte base = 0;
switch(op) {
case ILOAD: base = ILOAD_0; break;
return;
case LDC:
// set(int, byte, int) always handles these opts itself
- if(arg instanceof Integer) { set(pos, op, ((Integer)arg).intValue()); return; }
- if(arg instanceof Boolean) { set(pos, op, ((Boolean)arg).booleanValue()); return; }
+ if (arg instanceof Integer) { set(pos, op, ((Integer)arg).intValue()); return; }
+ if (arg instanceof Boolean) { set(pos, op, ((Boolean)arg).booleanValue()); return; }
- if(arg instanceof Long) {
+ if (arg instanceof Long) {
long l = ((Long)arg).longValue();
- if(l == 0L || l == 1L) {
+ if (l == 0L || l == 1L) {
this.op[pos] = l == 0L ? LCONST_0 : LCONST_1;
this.arg[pos] = null;
return;
}
op = LDC2_W;
- } else if(arg instanceof Double) {
+ } else if (arg instanceof Double) {
op = LDC2_W;
}
break;
}
- if((OP_DATA[op&0xff]&OP_VALID_FLAG) == 0) throw new IllegalArgumentException("unknown bytecode");
+ if ((OP_DATA[op&0xff]&OP_VALID_FLAG) == 0) throw new IllegalArgumentException("unknown bytecode");
this.op[pos] = op;
this.arg[pos] = arg;
}
- /** This class represents the arguments to the TABLESWITH and LOOKUPSWITCH bytecodes
- @see MethodGen.TSI
- @see MethodGen.LSI
- */
- public static abstract class SI {
+ /** Sets the maximum number of locals in the function to
+ <i>maxLocals</i>. NOTE: This defaults to 0 and is
+ automatically increased as necessary when *LOAD/*STORE
+ bytecodes are added. You do not need to call this function in
+ most cases */
+ public void setMaxLocals(int maxLocals) { this.maxLocals = maxLocals; }
+
+ /** Sets the maxinum size of th stack for this function to
+ * <i>maxStack</i>. This defaults to 16< */
+ public void setMaxStack(int maxStack) { this.maxStack = maxStack; }
+
+
+ // Bytecode-Specific inner classes ////////////////////////////////////////////////////////////////////////////////
+
+ public static abstract class Switch {
public final Object[] targets;
public Object defaultTarget;
- SI(int size) { targets = new Object[size]; }
+ Switch(int size) { targets = new Object[size]; }
public void setTarget(int pos, Object val) { targets[pos] = val; }
public void setTarget(int pos, int val) { targets[pos] = N(val); }
public void setDefaultTarget(int val) { setDefaultTarget(N(val)); }
public int getDefaultTarget() { return ((Integer)defaultTarget).intValue(); }
abstract int length();
- }
- /** This class represents the arguments to the TABLESWITCH bytecode */
- public static class TSI extends SI {
- public final int lo;
- public final int hi;
- public TSI(int lo, int hi) {
- super(hi-lo+1);
- this.lo = lo;
- this.hi = hi;
+ public static class Table extends Switch {
+ public final int lo;
+ public final int hi;
+ public Table(int lo, int hi) {
+ super(hi-lo+1);
+ this.lo = lo;
+ this.hi = hi;
+ }
+ public void setTargetForVal(int val, Object o) { setTarget(val-lo, o); }
+ public void setTargetForVal(int val, int n) { setTarget(val-lo, n); }
+
+ int length() { return 12 + targets.length * 4; } // 4bytes/target, hi, lo, default
}
- public void setTargetForVal(int val, Object o) { setTarget(val-lo, o); }
- public void setTargetForVal(int val, int n) { setTarget(val-lo, n); }
-
- int length() { return 12 + targets.length * 4; } // 4bytes/target, hi, lo, default
- }
- /** This class represents the arguments to the LOOKUPSWITCH bytecode */
- public static class LSI extends SI {
- public final int[] vals;
- public LSI(int size) {
- super(size);
- this.vals = new int[size];
+ public static class Lookup extends Switch {
+ public final int[] vals;
+ public Lookup(int size) {
+ super(size);
+ this.vals = new int[size];
+ }
+ public final void setVal(int pos, int val) { vals[pos] = val; }
+
+ int length() { return 8 + targets.length * 8; } // key/val per target, default, count
}
- public final void setVal(int pos, int val) { vals[pos] = val; }
-
- int length() { return 8 + targets.length * 8; } // key/val per target, default, count
}
/** This class represents the arguments to byecodes that take two integer arguments. */
}
public static class MultiANewArray {
- public Type.Class type;
+ public Type.Array type;
public int dims;
- public MultiANewArray(Type.Class type, int dims) { this.type = type; this.dims = dims; }
+ public MultiANewArray(Type.Array type, int dims) { this.type = type; this.dims = dims; }
}
public static class Wide {
Wide(byte op, int varNum) { this(op, varNum, 0); }
Wide(byte op, int varNum, int n) { this.op = op; this.varNum = varNum; this.n = n; }
}
-
- /** Sets the maximum number of locals in the function to <i>maxLocals</i>. NOTE: This defaults to 0 and is automatically increased as
- necessary when *LOAD/*STORE bytecodes are added. You do not need to call this function in most cases */
- public void setMaxLocals(int maxLocals) { this.maxLocals = maxLocals; }
- /** Sets the maxinum size of th stack for this function to <i>maxStack</i>. This defaults to 16< */
- public void setMaxStack(int maxStack) { this.maxStack = maxStack; }
+
+
+ // Emitting Bits //////////////////////////////////////////////////////////////////////////////
+
+ private Object resolveTarget(Object arg) {
+ int target;
+ if (arg instanceof PhantomTarget) {
+ target = ((PhantomTarget)arg).getTarget();
+ if (target == -1) throw new IllegalStateException("unresolved phantom target");
+ arg = N(target);
+ } else {
+ target = ((Integer)arg).intValue();
+ }
+ if (target < 0 || target >= size)
+ throw new IllegalStateException("invalid target address " + target + "/" + size);
+ return arg;
+ }
/** Computes the final bytecode for this method.
@exception IllegalStateException if the data for a method is in an inconsistent state (required arguments missing, etc)
*/
void finish(ConstantPool cp) {
cp.addUtf8(method.name);
- cp.addUtf8(method.getDescriptor());
+ cp.addUtf8(method.getTypeDescriptor());
for(Enumeration e = thrownExceptions.keys();e.hasMoreElements();)
cp.add(e.nextElement());
- if(size == NO_CODE) return;
+ if (size == NO_CODE) return;
for(int i=0;i<exnTable.size();i++)
((ExnTableEnt)exnTable.elementAt(i)).finish(cp);
// We'll set these correctly later
- if((flags & (NATIVE|ABSTRACT))==0) attrs.put("Code","");
- if(thrownExceptions.size() > 0) attrs.put("Exceptions","");
+ if ((flags & (NATIVE|ABSTRACT))==0) attrs.put("Code","");
+ if (thrownExceptions.size() > 0) attrs.put("Exceptions","");
attrs.finish(cp);
codeAttrs.finish(cp);
}
}
}
-
- private Object resolveTarget(Object arg) {
- int target;
- if(arg instanceof PhantomTarget) {
- target = ((PhantomTarget)arg).getTarget();
- if(target == -1) throw new IllegalStateException("unresolved phantom target");
- arg = N(target);
- } else {
- target = ((Integer)arg).intValue();
- }
- if(target < 0 || target >= size)
- throw new IllegalStateException("invalid target address " + target + "/" + size);
- return arg;
- }
-
+
private void generateCode(ConstantPool cp) {
try {
_generateCode(cp);
int j;
maxpc[i] = p;
- if((opdata & OP_BRANCH_FLAG)!= 0) {
+ if ((opdata & OP_BRANCH_FLAG)!= 0) {
try {
arg[i] = resolveTarget(arg[i]);
} catch(RuntimeException e) {
case GOTO:
case JSR: {
int arg = ((Integer)this.arg[i]).intValue();
- if(arg < i && p - maxpc[arg] <= 32768) p += 3;
+ if (arg < i && p - maxpc[arg] <= 32768) p += 3;
else p += 5;
continue;
}
case NOP:
- if(EMIT_NOPS) p++;
+ if (EMIT_NOPS) p++;
continue;
case LOOKUPSWITCH:
case TABLESWITCH: {
- SI si = (SI) arg[i];
+ Switch si = (Switch) arg[i];
Object[] targets = si.targets;
for(j=0;j<targets.length;j++) targets[j] = resolveTarget(targets[j]);
si.defaultTarget = resolveTarget(si.defaultTarget);
p += 1 + 3 + si.length(); // opcode itself, padding, data
- if(op == LOOKUPSWITCH) { // verify sanity of lookupswitch vals
- int[] vals = ((LSI)si).vals;
+ if (op == LOOKUPSWITCH) { // verify sanity of lookupswitch vals
+ int[] vals = ((Switch.Lookup)si).vals;
for(j=1;j<vals.length;j++)
- if(vals[j] <= vals[j-1])
+ if (vals[j] <= vals[j-1])
throw new IllegalStateException("out of order/duplicate lookupswitch values");
}
continue;
case FSTORE: case DLOAD: case DSTORE: case ALOAD: case ASTORE:
case RET: {
int arg = ((Integer)this.arg[i]).intValue();
- if(arg > 255) {
+ if (arg > 255) {
this.op[i] = WIDE;
this.arg[i] = new Wide(op, arg);
p += 4;
}
case IINC: {
Pair pair = (Pair) this.arg[i];
- if(pair.i1 > 255 || pair.i2 < -128 || pair.i2 > 127) {
+ if (pair.i1 > 255 || pair.i2 < -128 || pair.i2 > 127) {
this.op[i] = WIDE;
this.arg[i] = new Wide(IINC, pair.i1, pair.i2);
p += 6;
}
case LDC:
j = cp.getIndex(cparg[i]);
- if(j >= 256) {
+ if (j >= 256) {
this.op[i] = op = LDC_W;
p += 3;
continue;
break;
default:
}
- if((j = (opdata&OP_ARG_LENGTH_MASK)) == 7) throw new Error("shouldn't be here " + Integer.toString(op&0xff,16));
+ if ((j = (opdata&OP_ARG_LENGTH_MASK)) == 7) throw new Error("shouldn't be here " + Integer.toString(op&0xff,16));
p += 1 + j;
}
case JSR: {
int arg = ((Integer)this.arg[i]).intValue();
int diff = maxpc[arg] - maxpc[i];
- if(diff < -32768 || diff > 32767)
+ if (diff < -32768 || diff > 32767)
op[i] = op[i] == GOTO ? GOTO_W : JSR_W;
break;
}
pc[i] = p;
switch(op) {
case NOP:
- if(EMIT_NOPS) p++;
+ if (EMIT_NOPS) p++;
break;
case TABLESWITCH:
case LOOKUPSWITCH: {
- SI si = (SI) arg[i];
+ Switch si = (Switch) arg[i];
p++; // opcode itself
p = (p + 3) & ~3; // padding
p += 4; // default
- if(op == TABLESWITCH) p += 4 + 4 + si.size() * 4; // lo, hi, targets
+ if (op == TABLESWITCH) p += 4 + 4 + si.size() * 4; // lo, hi, targets
else p += 4 + si.size() * 4 * 2; // count, key, val * targets
break;
}
break;
default: {
int l = OP_DATA[op&0xff] & OP_ARG_LENGTH_MASK;
- if(l == 7) throw new Error("shouldn't be here");
+ if (l == 7) throw new Error("shouldn't be here");
p += 1 + l;
}
}
}
int codeSize = p;
- if(codeSize >= 65536) throw new ClassFile.Exn("method too large in size");
+ if (codeSize >= 65536) throw new ClassFile.Exn("method too large in size");
o.writeShort(maxStack);
o.writeShort(maxLocals);
for(i=0;i<size;i++) {
byte op = this.op[i];
int opdata = OP_DATA[op&0xff];
- if(op == NOP && !EMIT_NOPS) continue;
+ if (op == NOP && !EMIT_NOPS) continue;
o.writeByte(op);
int argLength = opdata & OP_ARG_LENGTH_MASK;
- if(argLength == 0) continue; // skip if no args
+ if (argLength == 0) continue; // skip if no args
// Write args
Object arg = this.arg[i];
switch(op) {
case IINC: {
Pair pair = (Pair) arg;
- if(pair.i1 > 255 || pair.i2 < -128 || pair.i2 > 127) throw new ClassFile.Exn("overflow of iinc arg");
+ if (pair.i1 > 255 || pair.i2 < -128 || pair.i2 > 127) throw new ClassFile.Exn("overflow of iinc arg");
o.writeByte(pair.i1);
o.writeByte(pair.i2);
break;
}
case TABLESWITCH:
case LOOKUPSWITCH: {
- SI si = (SI) arg;
+ Switch si = (Switch) arg;
int mypc = pc[i];
for(p = pc[i]+1;(p&3)!=0;p++) o.writeByte(0);
o.writeInt(pc[si.getDefaultTarget()] - mypc);
- if(op == LOOKUPSWITCH) {
- int[] vals = ((LSI)si).vals;
+ if (op == LOOKUPSWITCH) {
+ int[] vals = ((Switch.Lookup)si).vals;
o.writeInt(si.size());
for(int j=0;j<si.size();j++) {
o.writeInt(vals[j]);
o.writeInt(pc[si.getTarget(j)] - mypc);
}
} else {
- TSI tsi = (TSI) si;
+ Switch.Table tsi = (Switch.Table) si;
o.writeInt(tsi.lo);
o.writeInt(tsi.hi);
for(int j=0;j<tsi.size();j++) o.writeInt(pc[tsi.getTarget(j)] - mypc);
Wide wide = (Wide) arg;
o.writeByte(wide.op);
o.writeShort(wide.varNum);
- if(wide.op == IINC) o.writeShort(wide.n);
+ if (wide.op == IINC) o.writeShort(wide.n);
break;
}
case MULTIANEWARRAY: {
o.writeShort(cp.getIndex(cparg[i]));
int v = ((MultiANewArray) arg).dims;
- if(v >= 256) throw new ClassFile.Exn("overflow of dimensions in multianewarray");
+ if (v >= 256) throw new ClassFile.Exn("overflow of dimensions in multianewarray");
o.writeByte(v);
break;
}
o.writeByte(0);
break;
default:
- if((opdata & OP_BRANCH_FLAG) != 0) {
+ if ((opdata & OP_BRANCH_FLAG) != 0) {
int v = pc[((Integer)arg).intValue()] - pc[i];
- if(argLength == 2) {
- if(v < -32768 || v > 32767) throw new ClassFile.Exn("overflow of s2 offset");
+ if (argLength == 2) {
+ if (v < -32768 || v > 32767) throw new ClassFile.Exn("overflow of s2 offset");
o.writeShort(v);
- } else if(argLength == 4) {
+ } else if (argLength == 4) {
o.writeInt(v);
} else {
throw new Error("should never happen");
}
- } else if((opdata & OP_CPENT_FLAG) != 0) {
+ } else if ((opdata & OP_CPENT_FLAG) != 0) {
int v = cp.getIndex(cparg[i]);
- if(argLength == 1) o.writeByte(v);
- else if(argLength == 2) o.writeShort(v);
+ if (argLength == 1) o.writeByte(v);
+ else if (argLength == 2) o.writeShort(v);
else throw new Error("should never happen");
- } else if(argLength == 7) {
+ } else if (argLength == 7) {
throw new Error("should never happen - variable length instruction not explicitly handled");
} else {
int iarg = ((Integer)arg).intValue();
- if(argLength == 1) {
- if((opdata & OP_UNSIGNED_FLAG) != 0 ? iarg >= 256 : (iarg < -128 || iarg >= 128)) throw new ClassFile.Exn("overflow of s/u1 option");
+ if (argLength == 1) {
+ if ((opdata & OP_UNSIGNED_FLAG) != 0 ? iarg >= 256 : (iarg < -128 || iarg >= 128))
+ throw new ClassFile.Exn("overflow of s/u1 option");
o.writeByte(iarg);
- } else if(argLength == 2) {
- if((opdata & OP_UNSIGNED_FLAG) != 0 ? iarg >= 65536 : (iarg < -32768 || iarg >= 32768)) throw new ClassFile.Exn("overflow of s/u2 option");
+ } else if (argLength == 2) {
+ if ((opdata & OP_UNSIGNED_FLAG) != 0 ? iarg >= 65536 : (iarg < -32768 || iarg >= 32768))
+ throw new ClassFile.Exn("overflow of s/u2 option");
o.writeShort(iarg);
} else {
throw new Error("should never happen");
}
}
- //if(baos.size() - 8 != codeSize) throw new Error("we didn't output what we were supposed to");
+ //if (baos.size() - 8 != codeSize) throw new Error("we didn't output what we were supposed to");
o.writeShort(exnTable.size());
for(i=0;i<exnTable.size();i++)
}
void generateExceptions(ConstantPool cp) throws IOException {
- if(thrownExceptions.size() > 0) {
+ if (thrownExceptions.size() > 0) {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
DataOutputStream o = new DataOutputStream(baos);
o.writeShort(thrownExceptions.size());
}
void dump(DataOutput o, ConstantPool cp) throws IOException {
- if((flags & (NATIVE|ABSTRACT))==0) generateCode(cp);
+ if ((flags & (NATIVE|ABSTRACT))==0) generateCode(cp);
generateExceptions(cp);
o.writeShort(flags);
o.writeShort(cp.getUtf8Index(method.name));
- o.writeShort(cp.getUtf8Index(method.getDescriptor()));
+ o.writeShort(cp.getUtf8Index(method.getTypeDescriptor()));
attrs.dump(o,cp);
}
- /** Negates the IF* instruction, <i>op</i> (IF_ICMPGT -> IF_ICMPLE, IFNE -> IFEQ, etc)
- @exception IllegalArgumentException if <i>op</i> isn't an IF* instruction */
- public static byte negate(byte op) {
- switch(op) {
- case IFEQ: return IFNE;
- case IFNE: return IFEQ;
- case IFLT: return IFGE;
- case IFGE: return IFLT;
- case IFGT: return IFLE;
- case IFLE: return IFGT;
- case IF_ICMPEQ: return IF_ICMPNE;
- case IF_ICMPNE: return IF_ICMPEQ;
- case IF_ICMPLT: return IF_ICMPGE;
- case IF_ICMPGE: return IF_ICMPLT;
- case IF_ICMPGT: return IF_ICMPLE;
- case IF_ICMPLE: return IF_ICMPGT;
- case IF_ACMPEQ: return IF_ACMPNE;
- case IF_ACMPNE: return IF_ACMPEQ;
-
- default:
- throw new IllegalArgumentException("Can't negate " + Integer.toHexString(op));
- }
- }
-
- /** Class that represents a target that isn't currently know. The target MUST be set with setTarget() before the classfile is written.
- This class is more or less a mutable integer */
+
+ /** Class that represents a target that isn't currently know. The
+ target MUST be set with setTarget() before the classfile is
+ written. This class is more or less a mutable integer */
public static class PhantomTarget {
private int target = -1;
public void setTarget(int target) { this.target = target; }
0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01,
0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01
};
+
+ // Debugging //////////////////////////////////////////////////////////////////////////////
+
+ public void debugBodyToString(StringBuffer sb) {
+ // This is intentionally a local variable so it can be removed by gcclass
+ final String[] OP_NAMES = new String[]{
+ "nop", "aconst_null", "iconst_m1", "iconst_0", "iconst_1", "iconst_2",
+ "iconst_3", "iconst_4", "iconst_5", "lconst_0", "lconst_1", "fconst_0",
+ "fconst_1", "fconst_2", "dconst_0", "dconst_1", "bipush", "sipush",
+ "ldc", "ldc_w", "ldc2_w", "iload", "lload", "fload",
+ "dload", "aload", "iload_0", "iload_1", "iload_2", "iload_3",
+ "lload_0", "lload_1", "lload_2", "lload_3", "fload_0", "fload_1",
+ "fload_2", "fload_3", "dload_0", "dload_1", "dload_2", "dload_3",
+ "aload_0", "aload_1", "aload_2", "aload_3", "iaload", "laload",
+ "faload", "daload", "aaload", "baload", "caload", "saload",
+ "istore", "lstore", "fstore", "dstore", "astore", "istore_0",
+ "istore_1", "istore_2", "istore_3", "lstore_0", "lstore_1", "lstore_2",
+ "lstore_3", "fstore_0", "fstore_1", "fstore_2", "fstore_3", "dstore_0",
+ "dstore_1", "dstore_2", "dstore_3", "astore_0", "astore_1", "astore_2",
+ "astore_3", "iastore", "lastore", "fastore", "dastore", "aastore",
+ "bastore", "castore", "sastore", "pop", "pop2", "dup",
+ "dup_x1", "dup_x2", "dup2", "dup2_x1", "dup2_x2", "swap",
+ "iadd", "ladd", "fadd", "dadd", "isub", "lsub",
+ "fsub", "dsub", "imul", "lmul", "fmul", "dmul",
+ "idiv", "ldiv", "fdiv", "ddiv", "irem", "lrem",
+ "frem", "drem", "ineg", "lneg", "fneg", "dneg",
+ "ishl", "lshl", "ishr", "lshr", "iushr", "lushr",
+ "iand", "land", "ior", "lor", "ixor", "lxor",
+ "iinc", "i2l", "i2f", "i2d", "l2i", "l2f",
+ "l2d", "f2i", "f2l", "f2d", "d2i", "d2l",
+ "d2f", "i2b", "i2c", "i2s", "lcmp", "fcmpl",
+ "fcmpg", "dcmpl", "dcmpg", "ifeq", "ifne", "iflt",
+ "ifge", "ifgt", "ifle", "if_icmpeq", "if_icmpne", "if_icmplt",
+ "if_icmpge", "if_icmpgt", "if_icmple", "if_acmpeq", "if_acmpne", "goto",
+ "jsr", "ret", "tableswitch", "lookupswitch", "ireturn", "lreturn",
+ "freturn", "dreturn", "areturn", "return", "getstatic", "putstatic",
+ "getfield", "putfield", "invokevirtual", "invokespecial", "invokestatic", "invokeinterface",
+ "", "new", "newarray", "anewarray", "arraylength", "athrow",
+ "checkcast", "instanceof", "monitorenter", "monitorexit", "wide", "multianewarray",
+ "ifnull", "ifnonnull", "goto_w", "jsr_w", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", ""
+ };
+ for(int i=0;i<size();i++) {
+ sb.append(" ");
+ for(int j=i==0?1:i;j<10000;j*=10) sb.append(" ");
+ sb.append(i).append(": ");
+ sb.append(OP_NAMES[op[i]&0xff]);
+ String s = null;
+ if (arg[i] instanceof Type) s = ((Type)arg[i]).toString();
+ else if (arg[i] instanceof Type.Class.Member) s = ((Type.Class.Member)arg[i]).toString();
+ else if (arg[i] instanceof String) s = "\"" + arg[i] + "\"";
+ else if (arg[i] != null) s = arg[i].toString();
+ if (s != null) sb.append(" ").append(s);
+ sb.append("\n");
+ }
+ }
+
+ // Unused //////////////////////////////////////////////////////////////////////////////
+
+ /** Negates the IF* instruction, <i>op</i> (IF_ICMPGT -> IF_ICMPLE, IFNE -> IFEQ, etc)
+ @exception IllegalArgumentException if <i>op</i> isn't an IF* instruction */
+ public static byte negate(byte op) {
+ switch(op) {
+ case IFEQ: return IFNE;
+ case IFNE: return IFEQ;
+ case IFLT: return IFGE;
+ case IFGE: return IFLT;
+ case IFGT: return IFLE;
+ case IFLE: return IFGT;
+ case IF_ICMPEQ: return IF_ICMPNE;
+ case IF_ICMPNE: return IF_ICMPEQ;
+ case IF_ICMPLT: return IF_ICMPGE;
+ case IF_ICMPGE: return IF_ICMPLT;
+ case IF_ICMPGT: return IF_ICMPLE;
+ case IF_ICMPLE: return IF_ICMPGT;
+ case IF_ACMPEQ: return IF_ACMPNE;
+ case IF_ACMPNE: return IF_ACMPEQ;
+
+ default:
+ throw new IllegalArgumentException("Can't negate " + Integer.toHexString(op));
+ }
+ }
+
+
}