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common/src/main/asm/org/objectweb/asm/Frame.java

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/***
* ASM: a very small and fast Java bytecode manipulation framework Copyright (c) 2000-2011 INRIA,
* France Telecom 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. Neither the name of the copyright holders nor the names of its contributors may be used to
* endorse or promote products derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, 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.
*/
package org.objectweb.asm;
/**
* Information about the input and output stack map frames of a basic block.
*
* @author Eric Bruneton
*/
final class Frame {
/*
* Frames are computed in a two steps process: during the visit of each instruction, the state
* of the frame at the end of current basic block is updated by simulating the action of the
* instruction on the previous state of this so called "output frame". In visitMaxs, a fix point
* algorithm is used to compute the "input frame" of each basic block, i.e. the stack map frame
* at the beginning of the basic block, starting from the input frame of the first basic block
* (which is computed from the method descriptor), and by using the previously computed output
* frames to compute the input state of the other blocks.
*
* All output and input frames are stored as arrays of integers. Reference and array types are
* represented by an index into a type table (which is not the same as the constant pool of the
* class, in order to avoid adding unnecessary constants in the pool - not all computed frames
* will end up being stored in the stack map table). This allows very fast type comparisons.
*
* Output stack map frames are computed relatively to the input frame of the basic block, which
* is not yet known when output frames are computed. It is therefore necessary to be able to
* represent abstract types such as "the type at position x in the input frame locals" or "the
* type at position x from the top of the input frame stack" or even "the type at position x in
* the input frame, with y more (or less) array dimensions". This explains the rather
* complicated type format used in output frames.
*
* This format is the following: DIM KIND VALUE (4, 4 and 24 bits). DIM is a signed number of
* array dimensions (from -8 to 7). KIND is either BASE, LOCAL or STACK. BASE is used for types
* that are not relative to the input frame. LOCAL is used for types that are relative to the
* input local variable types. STACK is used for types that are relative to the input stack
* types. VALUE depends on KIND. For LOCAL types, it is an index in the input local variable
* types. For STACK types, it is a position relatively to the top of input frame stack. For BASE
* types, it is either one of the constants defined in FrameVisitor, or for OBJECT and
* UNINITIALIZED types, a tag and an index in the type table.
*
* Output frames can contain types of any kind and with a positive or negative dimension (and
* even unassigned types, represented by 0 - which does not correspond to any valid type value).
* Input frames can only contain BASE types of positive or null dimension. In all cases the type
* table contains only internal type names (array type descriptors are forbidden - dimensions
* must be represented through the DIM field).
*
* The LONG and DOUBLE types are always represented by using two slots (LONG + TOP or DOUBLE +
* TOP), for local variable types as well as in the operand stack. This is necessary to be able
* to simulate DUPx_y instructions, whose effect would be dependent on the actual type values if
* types were always represented by a single slot in the stack (and this is not possible, since
* actual type values are not always known - cf LOCAL and STACK type kinds).
*/
/**
* Mask to get the dimension of a frame type. This dimension is a signed integer between -8 and
* 7.
*/
static final int DIM = 0xF0000000;
/**
* Constant to be added to a type to get a type with one more dimension.
*/
static final int ARRAY_OF = 0x10000000;
/**
* Constant to be added to a type to get a type with one less dimension.
*/
static final int ELEMENT_OF = 0xF0000000;
/**
* Mask to get the kind of a frame type.
*
* @see #BASE
* @see #LOCAL
* @see #STACK
*/
static final int KIND = 0xF000000;
/**
* Flag used for LOCAL and STACK types. Indicates that if this type happens to be a long or
* double type (during the computations of input frames), then it must be set to TOP because the
* second word of this value has been reused to store other data in the basic block. Hence the
* first word no longer stores a valid long or double value.
*/
static final int TOP_IF_LONG_OR_DOUBLE = 0x800000;
/**
* Mask to get the value of a frame type.
*/
static final int VALUE = 0x7FFFFF;
/**
* Mask to get the kind of base types.
*/
static final int BASE_KIND = 0xFF00000;
/**
* Mask to get the value of base types.
*/
static final int BASE_VALUE = 0xFFFFF;
/**
* Kind of the types that are not relative to an input stack map frame.
*/
static final int BASE = 0x1000000;
/**
* Base kind of the base reference types. The BASE_VALUE of such types is an index into the type
* table.
*/
static final int OBJECT = BASE | 0x700000;
/**
* Base kind of the uninitialized base types. The BASE_VALUE of such types in an index into the
* type table (the Item at that index contains both an instruction offset and an internal class
* name).
*/
static final int UNINITIALIZED = BASE | 0x800000;
/**
* Kind of the types that are relative to the local variable types of an input stack map frame.
* The value of such types is a local variable index.
*/
private static final int LOCAL = 0x2000000;
/**
* Kind of the the types that are relative to the stack of an input stack map frame. The value
* of such types is a position relatively to the top of this stack.
*/
private static final int STACK = 0x3000000;
/**
* The TOP type. This is a BASE type.
*/
static final int TOP = BASE | 0;
/**
* The BOOLEAN type. This is a BASE type mainly used for array types.
*/
static final int BOOLEAN = BASE | 9;
/**
* The BYTE type. This is a BASE type mainly used for array types.
*/
static final int BYTE = BASE | 10;
/**
* The CHAR type. This is a BASE type mainly used for array types.
*/
static final int CHAR = BASE | 11;
/**
* The SHORT type. This is a BASE type mainly used for array types.
*/
static final int SHORT = BASE | 12;
/**
* The INTEGER type. This is a BASE type.
*/
static final int INTEGER = BASE | 1;
/**
* The FLOAT type. This is a BASE type.
*/
static final int FLOAT = BASE | 2;
/**
* The DOUBLE type. This is a BASE type.
*/
static final int DOUBLE = BASE | 3;
/**
* The LONG type. This is a BASE type.
*/
static final int LONG = BASE | 4;
/**
* The NULL type. This is a BASE type.
*/
static final int NULL = BASE | 5;
/**
* The UNINITIALIZED_THIS type. This is a BASE type.
*/
static final int UNINITIALIZED_THIS = BASE | 6;
/**
* The stack size variation corresponding to each JVM instruction. This stack variation is equal
* to the size of the values produced by an instruction, minus the size of the values consumed
* by this instruction.
*/
static final int[] SIZE;
/**
* Computes the stack size variation corresponding to each JVM instruction.
*/
static {
int i;
int[] b = new int[202];
String s = "EFFFFFFFFGGFFFGGFFFEEFGFGFEEEEEEEEEEEEEEEEEEEEDEDEDDDDD"
+ "CDCDEEEEEEEEEEEEEEEEEEEEBABABBBBDCFFFGGGEDCDCDCDCDCDCDCDCD"
+ "CDCEEEEDDDDDDDCDCDCEFEFDDEEFFDEDEEEBDDBBDDDDDDCCCCCCCCEFED"
+ "DDCDCDEEEEEEEEEEFEEEEEEDDEEDDEE";
for (i = 0; i < b.length; ++i) {
b[i] = s.charAt(i) - 'E';
}
SIZE = b;
// code to generate the above string
//
// int NA = 0; // not applicable (unused opcode or variable size opcode)
//
// b = new int[] {
// 0, //NOP, // visitInsn
// 1, //ACONST_NULL, // -
// 1, //ICONST_M1, // -
// 1, //ICONST_0, // -
// 1, //ICONST_1, // -
// 1, //ICONST_2, // -
// 1, //ICONST_3, // -
// 1, //ICONST_4, // -
// 1, //ICONST_5, // -
// 2, //LCONST_0, // -
// 2, //LCONST_1, // -
// 1, //FCONST_0, // -
// 1, //FCONST_1, // -
// 1, //FCONST_2, // -
// 2, //DCONST_0, // -
// 2, //DCONST_1, // -
// 1, //BIPUSH, // visitIntInsn
// 1, //SIPUSH, // -
// 1, //LDC, // visitLdcInsn
// NA, //LDC_W, // -
// NA, //LDC2_W, // -
// 1, //ILOAD, // visitVarInsn
// 2, //LLOAD, // -
// 1, //FLOAD, // -
// 2, //DLOAD, // -
// 1, //ALOAD, // -
// NA, //ILOAD_0, // -
// NA, //ILOAD_1, // -
// NA, //ILOAD_2, // -
// NA, //ILOAD_3, // -
// NA, //LLOAD_0, // -
// NA, //LLOAD_1, // -
// NA, //LLOAD_2, // -
// NA, //LLOAD_3, // -
// NA, //FLOAD_0, // -
// NA, //FLOAD_1, // -
// NA, //FLOAD_2, // -
// NA, //FLOAD_3, // -
// NA, //DLOAD_0, // -
// NA, //DLOAD_1, // -
// NA, //DLOAD_2, // -
// NA, //DLOAD_3, // -
// NA, //ALOAD_0, // -
// NA, //ALOAD_1, // -
// NA, //ALOAD_2, // -
// NA, //ALOAD_3, // -
// -1, //IALOAD, // visitInsn
// 0, //LALOAD, // -
// -1, //FALOAD, // -
// 0, //DALOAD, // -
// -1, //AALOAD, // -
// -1, //BALOAD, // -
// -1, //CALOAD, // -
// -1, //SALOAD, // -
// -1, //ISTORE, // visitVarInsn
// -2, //LSTORE, // -
// -1, //FSTORE, // -
// -2, //DSTORE, // -
// -1, //ASTORE, // -
// NA, //ISTORE_0, // -
// NA, //ISTORE_1, // -
// NA, //ISTORE_2, // -
// NA, //ISTORE_3, // -
// NA, //LSTORE_0, // -
// NA, //LSTORE_1, // -
// NA, //LSTORE_2, // -
// NA, //LSTORE_3, // -
// NA, //FSTORE_0, // -
// NA, //FSTORE_1, // -
// NA, //FSTORE_2, // -
// NA, //FSTORE_3, // -
// NA, //DSTORE_0, // -
// NA, //DSTORE_1, // -
// NA, //DSTORE_2, // -
// NA, //DSTORE_3, // -
// NA, //ASTORE_0, // -
// NA, //ASTORE_1, // -
// NA, //ASTORE_2, // -
// NA, //ASTORE_3, // -
// -3, //IASTORE, // visitInsn
// -4, //LASTORE, // -
// -3, //FASTORE, // -
// -4, //DASTORE, // -
// -3, //AASTORE, // -
// -3, //BASTORE, // -
// -3, //CASTORE, // -
// -3, //SASTORE, // -
// -1, //POP, // -
// -2, //POP2, // -
// 1, //DUP, // -
// 1, //DUP_X1, // -
// 1, //DUP_X2, // -
// 2, //DUP2, // -
// 2, //DUP2_X1, // -
// 2, //DUP2_X2, // -
// 0, //SWAP, // -
// -1, //IADD, // -
// -2, //LADD, // -
// -1, //FADD, // -
// -2, //DADD, // -
// -1, //ISUB, // -
// -2, //LSUB, // -
// -1, //FSUB, // -
// -2, //DSUB, // -
// -1, //IMUL, // -
// -2, //LMUL, // -
// -1, //FMUL, // -
// -2, //DMUL, // -
// -1, //IDIV, // -
// -2, //LDIV, // -
// -1, //FDIV, // -
// -2, //DDIV, // -
// -1, //IREM, // -
// -2, //LREM, // -
// -1, //FREM, // -
// -2, //DREM, // -
// 0, //INEG, // -
// 0, //LNEG, // -
// 0, //FNEG, // -
// 0, //DNEG, // -
// -1, //ISHL, // -
// -1, //LSHL, // -
// -1, //ISHR, // -
// -1, //LSHR, // -
// -1, //IUSHR, // -
// -1, //LUSHR, // -
// -1, //IAND, // -
// -2, //LAND, // -
// -1, //IOR, // -
// -2, //LOR, // -
// -1, //IXOR, // -
// -2, //LXOR, // -
// 0, //IINC, // visitIincInsn
// 1, //I2L, // visitInsn
// 0, //I2F, // -
// 1, //I2D, // -
// -1, //L2I, // -
// -1, //L2F, // -
// 0, //L2D, // -
// 0, //F2I, // -
// 1, //F2L, // -
// 1, //F2D, // -
// -1, //D2I, // -
// 0, //D2L, // -
// -1, //D2F, // -
// 0, //I2B, // -
// 0, //I2C, // -
// 0, //I2S, // -
// -3, //LCMP, // -
// -1, //FCMPL, // -
// -1, //FCMPG, // -
// -3, //DCMPL, // -
// -3, //DCMPG, // -
// -1, //IFEQ, // visitJumpInsn
// -1, //IFNE, // -
// -1, //IFLT, // -
// -1, //IFGE, // -
// -1, //IFGT, // -
// -1, //IFLE, // -
// -2, //IF_ICMPEQ, // -
// -2, //IF_ICMPNE, // -
// -2, //IF_ICMPLT, // -
// -2, //IF_ICMPGE, // -
// -2, //IF_ICMPGT, // -
// -2, //IF_ICMPLE, // -
// -2, //IF_ACMPEQ, // -
// -2, //IF_ACMPNE, // -
// 0, //GOTO, // -
// 1, //JSR, // -
// 0, //RET, // visitVarInsn
// -1, //TABLESWITCH, // visiTableSwitchInsn
// -1, //LOOKUPSWITCH, // visitLookupSwitch
// -1, //IRETURN, // visitInsn
// -2, //LRETURN, // -
// -1, //FRETURN, // -
// -2, //DRETURN, // -
// -1, //ARETURN, // -
// 0, //RETURN, // -
// NA, //GETSTATIC, // visitFieldInsn
// NA, //PUTSTATIC, // -
// NA, //GETFIELD, // -
// NA, //PUTFIELD, // -
// NA, //INVOKEVIRTUAL, // visitMethodInsn
// NA, //INVOKESPECIAL, // -
// NA, //INVOKESTATIC, // -
// NA, //INVOKEINTERFACE, // -
// NA, //INVOKEDYNAMIC, // visitInvokeDynamicInsn
// 1, //NEW, // visitTypeInsn
// 0, //NEWARRAY, // visitIntInsn
// 0, //ANEWARRAY, // visitTypeInsn
// 0, //ARRAYLENGTH, // visitInsn
// NA, //ATHROW, // -
// 0, //CHECKCAST, // visitTypeInsn
// 0, //INSTANCEOF, // -
// -1, //MONITORENTER, // visitInsn
// -1, //MONITOREXIT, // -
// NA, //WIDE, // NOT VISITED
// NA, //MULTIANEWARRAY, // visitMultiANewArrayInsn
// -1, //IFNULL, // visitJumpInsn
// -1, //IFNONNULL, // -
// NA, //GOTO_W, // -
// NA, //JSR_W, // -
// };
// for (i = 0; i < b.length; ++i) {
// System.err.print((char)('E' + b[i]));
// }
// System.err.println();
}
/**
* The label (i.e. basic block) to which these input and output stack map frames correspond.
*/
Label owner;
/**
* The input stack map frame locals.
*/
int[] inputLocals;
/**
* The input stack map frame stack.
*/
int[] inputStack;
/**
* The output stack map frame locals.
*/
private int[] outputLocals;
/**
* The output stack map frame stack.
*/
private int[] outputStack;
/**
* Relative size of the output stack. The exact semantics of this field depends on the algorithm
* that is used.
*
* When only the maximum stack size is computed, this field is the size of the output stack
* relatively to the top of the input stack.
*
* When the stack map frames are completely computed, this field is the actual number of types
* in {@link #outputStack}.
*/
private int outputStackTop;
/**
* Number of types that are initialized in the basic block.
*
* @see #initializations
*/
private int initializationCount;
/**
* The types that are initialized in the basic block. A constructor invocation on an
* UNINITIALIZED or UNINITIALIZED_THIS type must replace <i>every occurence</i> of this type in
* the local variables and in the operand stack. This cannot be done during the first phase of
* the algorithm since, during this phase, the local variables and the operand stack are not
* completely computed. It is therefore necessary to store the types on which constructors are
* invoked in the basic block, in order to do this replacement during the second phase of the
* algorithm, where the frames are fully computed. Note that this array can contain types that
* are relative to input locals or to the input stack (see below for the description of the
* algorithm).
*/
private int[] initializations;
/**
* Returns the output frame local variable type at the given index.
*
* @param local the index of the local that must be returned.
* @return the output frame local variable type at the given index.
*/
private int get(final int local) {
if (outputLocals == null || local >= outputLocals.length) {
// this local has never been assigned in this basic block,
// so it is still equal to its value in the input frame
return LOCAL | local;
} else {
int type = outputLocals[local];
if (type == 0) {
// this local has never been assigned in this basic block,
// so it is still equal to its value in the input frame
type = outputLocals[local] = LOCAL | local;
}
return type;
}
}
/**
* Sets the output frame local variable type at the given index.
*
* @param local the index of the local that must be set.
* @param type the value of the local that must be set.
*/
private void set(final int local, final int type) {
// creates and/or resizes the output local variables array if necessary
if (outputLocals == null) {
outputLocals = new int[10];
}
int n = outputLocals.length;
if (local >= n) {
int[] t = new int[Math.max(local + 1, 2 * n)];
System.arraycopy(outputLocals, 0, t, 0, n);
outputLocals = t;
}
// sets the local variable
outputLocals[local] = type;
}
/**
* Pushes a new type onto the output frame stack.
*
* @param type the type that must be pushed.
*/
private void push(final int type) {
// creates and/or resizes the output stack array if necessary
if (outputStack == null) {
outputStack = new int[10];
}
int n = outputStack.length;
if (outputStackTop >= n) {
int[] t = new int[Math.max(outputStackTop + 1, 2 * n)];
System.arraycopy(outputStack, 0, t, 0, n);
outputStack = t;
}
// pushes the type on the output stack
outputStack[outputStackTop++] = type;
// updates the maximun height reached by the output stack, if needed
int top = owner.inputStackTop + outputStackTop;
if (top > owner.outputStackMax) {
owner.outputStackMax = top;
}
}
/**
* Pushes a new type onto the output frame stack.
*
* @param cw the ClassWriter to which this label belongs.
* @param desc the descriptor of the type to be pushed. Can also be a method descriptor (in this
* case this method pushes its return type onto the output frame stack).
*/
private void push(final ClassWriter cw, final String desc) {
int type = type(cw, desc);
if (type != 0) {
push(type);
if (type == LONG || type == DOUBLE) {
push(TOP);
}
}
}
/**
* Returns the int encoding of the given type.
*
* @param cw the ClassWriter to which this label belongs.
* @param desc a type descriptor.
* @return the int encoding of the given type.
*/
private static int type(final ClassWriter cw, final String desc) {
String t;
int index = desc.charAt(0) == '(' ? desc.indexOf(')') + 1 : 0;
switch (desc.charAt(index)) {
case 'V':
return 0;
case 'Z':
case 'C':
case 'B':
case 'S':
case 'I':
return INTEGER;
case 'F':
return FLOAT;
case 'J':
return LONG;
case 'D':
return DOUBLE;
case 'L':
// stores the internal name, not the descriptor!
t = desc.substring(index + 1, desc.length() - 1);
return OBJECT | cw.addType(t);
// case '[':
default:
// extracts the dimensions and the element type
int data;
int dims = index + 1;
while (desc.charAt(dims) == '[') {
++dims;
}
switch (desc.charAt(dims)) {
case 'Z':
data = BOOLEAN;
break;
case 'C':
data = CHAR;
break;
case 'B':
data = BYTE;
break;
case 'S':
data = SHORT;
break;
case 'I':
data = INTEGER;
break;
case 'F':
data = FLOAT;
break;
case 'J':
data = LONG;
break;
case 'D':
data = DOUBLE;
break;
// case 'L':
default:
// stores the internal name, not the descriptor
t = desc.substring(dims + 1, desc.length() - 1);
data = OBJECT | cw.addType(t);
}
return (dims - index) << 28 | data;
}
}
/**
* Pops a type from the output frame stack and returns its value.
*
* @return the type that has been popped from the output frame stack.
*/
private int pop() {
if (outputStackTop > 0) {
return outputStack[--outputStackTop];
} else {
// if the output frame stack is empty, pops from the input stack
return STACK | -(--owner.inputStackTop);
}
}
/**
* Pops the given number of types from the output frame stack.
*
* @param elements the number of types that must be popped.
*/
private void pop(final int elements) {
if (outputStackTop >= elements) {
outputStackTop -= elements;
} else {
// if the number of elements to be popped is greater than the number
// of elements in the output stack, clear it, and pops the remaining
// elements from the input stack.
owner.inputStackTop -= elements - outputStackTop;
outputStackTop = 0;
}
}
/**
* Pops a type from the output frame stack.
*
* @param desc the descriptor of the type to be popped. Can also be a method descriptor (in this
* case this method pops the types corresponding to the method arguments).
*/
private void pop(final String desc) {
char c = desc.charAt(0);
if (c == '(') {
pop((Type.getArgumentsAndReturnSizes(desc) >> 2) - 1);
} else if (c == 'J' || c == 'D') {
pop(2);
} else {
pop(1);
}
}
/**
* Adds a new type to the list of types on which a constructor is invoked in the basic block.
*
* @param var a type on a which a constructor is invoked.
*/
private void init(final int var) {
// creates and/or resizes the initializations array if necessary
if (initializations == null) {
initializations = new int[2];
}
int n = initializations.length;
if (initializationCount >= n) {
int[] t = new int[Math.max(initializationCount + 1, 2 * n)];
System.arraycopy(initializations, 0, t, 0, n);
initializations = t;
}
// stores the type to be initialized
initializations[initializationCount++] = var;
}
/**
* Replaces the given type with the appropriate type if it is one of the types on which a
* constructor is invoked in the basic block.
*
* @param cw the ClassWriter to which this label belongs.
* @param t a type
* @return t or, if t is one of the types on which a constructor is invoked in the basic block,
* the type corresponding to this constructor.
*/
private int init(final ClassWriter cw, final int t) {
int s;
if (t == UNINITIALIZED_THIS) {
s = OBJECT | cw.addType(cw.thisName);
} else if ((t & (DIM | BASE_KIND)) == UNINITIALIZED) {
String type = cw.typeTable[t & BASE_VALUE].strVal1;
s = OBJECT | cw.addType(type);
} else {
return t;
}
for (int j = 0; j < initializationCount; ++j) {
int u = initializations[j];
int dim = u & DIM;
int kind = u & KIND;
if (kind == LOCAL) {
u = dim + inputLocals[u & VALUE];
} else if (kind == STACK) {
u = dim + inputStack[inputStack.length - (u & VALUE)];
}
if (t == u) {
return s;
}
}
return t;
}
/**
* Initializes the input frame of the first basic block from the method descriptor.
*
* @param cw the ClassWriter to which this label belongs.
* @param access the access flags of the method to which this label belongs.
* @param args the formal parameter types of this method.
* @param maxLocals the maximum number of local variables of this method.
*/
void initInputFrame(final ClassWriter cw, final int access, final Type[] args,
final int maxLocals) {
inputLocals = new int[maxLocals];
inputStack = new int[0];
int i = 0;
if ((access & Opcodes.ACC_STATIC) == 0) {
if ((access & MethodWriter.ACC_CONSTRUCTOR) == 0) {
inputLocals[i++] = OBJECT | cw.addType(cw.thisName);
} else {
inputLocals[i++] = UNINITIALIZED_THIS;
}
}
for (int j = 0; j < args.length; ++j) {
int t = type(cw, args[j].getDescriptor());
inputLocals[i++] = t;
if (t == LONG || t == DOUBLE) {
inputLocals[i++] = TOP;
}
}
while (i < maxLocals) {
inputLocals[i++] = TOP;
}
}
/**
* Simulates the action of the given instruction on the output stack frame.
*
* @param opcode the opcode of the instruction.
* @param arg the operand of the instruction, if any.
* @param cw the class writer to which this label belongs.
* @param item the operand of the instructions, if any.
*/
void execute(final int opcode, final int arg, final ClassWriter cw, final Item item) {
int t1, t2, t3, t4;
switch (opcode) {
case Opcodes.NOP:
case Opcodes.INEG:
case Opcodes.LNEG:
case Opcodes.FNEG:
case Opcodes.DNEG:
case Opcodes.I2B:
case Opcodes.I2C:
case Opcodes.I2S:
case Opcodes.GOTO:
case Opcodes.RETURN:
break;
case Opcodes.ACONST_NULL:
push(NULL);
break;
case Opcodes.ICONST_M1:
case Opcodes.ICONST_0:
case Opcodes.ICONST_1:
case Opcodes.ICONST_2:
case Opcodes.ICONST_3:
case Opcodes.ICONST_4:
case Opcodes.ICONST_5:
case Opcodes.BIPUSH:
case Opcodes.SIPUSH:
case Opcodes.ILOAD:
push(INTEGER);
break;
case Opcodes.LCONST_0:
case Opcodes.LCONST_1:
case Opcodes.LLOAD:
push(LONG);
push(TOP);
break;
case Opcodes.FCONST_0:
case Opcodes.FCONST_1:
case Opcodes.FCONST_2:
case Opcodes.FLOAD:
push(FLOAT);
break;
case Opcodes.DCONST_0:
case Opcodes.DCONST_1:
case Opcodes.DLOAD:
push(DOUBLE);
push(TOP);
break;
case Opcodes.LDC:
switch (item.type) {
case ClassWriter.INT:
push(INTEGER);
break;
case ClassWriter.LONG:
push(LONG);
push(TOP);
break;
case ClassWriter.FLOAT:
push(FLOAT);
break;
case ClassWriter.DOUBLE:
push(DOUBLE);
push(TOP);
break;
case ClassWriter.CLASS:
push(OBJECT | cw.addType("java/lang/Class"));
break;
case ClassWriter.STR:
push(OBJECT | cw.addType("java/lang/String"));
break;
case ClassWriter.MTYPE:
push(OBJECT | cw.addType("java/lang/invoke/MethodType"));
break;
// case ClassWriter.HANDLE_BASE + [1..9]:
default:
push(OBJECT | cw.addType("java/lang/invoke/MethodHandle"));
}
break;
case Opcodes.ALOAD:
push(get(arg));
break;
case Opcodes.IALOAD:
case Opcodes.BALOAD:
case Opcodes.CALOAD:
case Opcodes.SALOAD:
pop(2);
push(INTEGER);
break;
case Opcodes.LALOAD:
case Opcodes.D2L:
pop(2);
push(LONG);
push(TOP);
break;
case Opcodes.FALOAD:
pop(2);
push(FLOAT);
break;
case Opcodes.DALOAD:
case Opcodes.L2D:
pop(2);
push(DOUBLE);
push(TOP);
break;
case Opcodes.AALOAD:
pop(1);
t1 = pop();
push(ELEMENT_OF + t1);
break;
case Opcodes.ISTORE:
case Opcodes.FSTORE:
case Opcodes.ASTORE:
t1 = pop();
set(arg, t1);
if (arg > 0) {
t2 = get(arg - 1);
// if t2 is of kind STACK or LOCAL we cannot know its size!
if (t2 == LONG || t2 == DOUBLE) {
set(arg - 1, TOP);
} else if ((t2 & KIND) != BASE) {
set(arg - 1, t2 | TOP_IF_LONG_OR_DOUBLE);
}
}
break;
case Opcodes.LSTORE:
case Opcodes.DSTORE:
pop(1);
t1 = pop();
set(arg, t1);
set(arg + 1, TOP);
if (arg > 0) {
t2 = get(arg - 1);
// if t2 is of kind STACK or LOCAL we cannot know its size!
if (t2 == LONG || t2 == DOUBLE) {
set(arg - 1, TOP);
} else if ((t2 & KIND) != BASE) {
set(arg - 1, t2 | TOP_IF_LONG_OR_DOUBLE);
}
}
break;
case Opcodes.IASTORE:
case Opcodes.BASTORE:
case Opcodes.CASTORE:
case Opcodes.SASTORE:
case Opcodes.FASTORE:
case Opcodes.AASTORE:
pop(3);
break;
case Opcodes.LASTORE:
case Opcodes.DASTORE:
pop(4);
break;
case Opcodes.POP:
case Opcodes.IFEQ:
case Opcodes.IFNE:
case Opcodes.IFLT:
case Opcodes.IFGE:
case Opcodes.IFGT:
case Opcodes.IFLE:
case Opcodes.IRETURN:
case Opcodes.FRETURN:
case Opcodes.ARETURN:
case Opcodes.TABLESWITCH:
case Opcodes.LOOKUPSWITCH:
case Opcodes.ATHROW:
case Opcodes.MONITORENTER:
case Opcodes.MONITOREXIT:
case Opcodes.IFNULL:
case Opcodes.IFNONNULL:
pop(1);
break;
case Opcodes.POP2:
case Opcodes.IF_ICMPEQ:
case Opcodes.IF_ICMPNE:
case Opcodes.IF_ICMPLT:
case Opcodes.IF_ICMPGE:
case Opcodes.IF_ICMPGT:
case Opcodes.IF_ICMPLE:
case Opcodes.IF_ACMPEQ:
case Opcodes.IF_ACMPNE:
case Opcodes.LRETURN:
case Opcodes.DRETURN:
pop(2);
break;
case Opcodes.DUP:
t1 = pop();
push(t1);
push(t1);
break;
case Opcodes.DUP_X1:
t1 = pop();
t2 = pop();
push(t1);
push(t2);
push(t1);
break;
case Opcodes.DUP_X2:
t1 = pop();
t2 = pop();
t3 = pop();
push(t1);
push(t3);
push(t2);
push(t1);
break;
case Opcodes.DUP2:
t1 = pop();
t2 = pop();
push(t2);
push(t1);
push(t2);
push(t1);
break;
case Opcodes.DUP2_X1:
t1 = pop();
t2 = pop();
t3 = pop();
push(t2);
push(t1);
push(t3);
push(t2);
push(t1);
break;
case Opcodes.DUP2_X2:
t1 = pop();
t2 = pop();
t3 = pop();
t4 = pop();
push(t2);
push(t1);
push(t4);
push(t3);
push(t2);
push(t1);
break;
case Opcodes.SWAP:
t1 = pop();
t2 = pop();
push(t1);
push(t2);
break;
case Opcodes.IADD:
case Opcodes.ISUB:
case Opcodes.IMUL:
case Opcodes.IDIV:
case Opcodes.IREM:
case Opcodes.IAND:
case Opcodes.IOR:
case Opcodes.IXOR:
case Opcodes.ISHL:
case Opcodes.ISHR:
case Opcodes.IUSHR:
case Opcodes.L2I:
case Opcodes.D2I:
case Opcodes.FCMPL:
case Opcodes.FCMPG:
pop(2);
push(INTEGER);
break;
case Opcodes.LADD:
case Opcodes.LSUB:
case Opcodes.LMUL:
case Opcodes.LDIV:
case Opcodes.LREM:
case Opcodes.LAND:
case Opcodes.LOR:
case Opcodes.LXOR:
pop(4);
push(LONG);
push(TOP);
break;
case Opcodes.FADD:
case Opcodes.FSUB:
case Opcodes.FMUL:
case Opcodes.FDIV:
case Opcodes.FREM:
case Opcodes.L2F:
case Opcodes.D2F:
pop(2);
push(FLOAT);
break;
case Opcodes.DADD:
case Opcodes.DSUB:
case Opcodes.DMUL:
case Opcodes.DDIV:
case Opcodes.DREM:
pop(4);
push(DOUBLE);
push(TOP);
break;
case Opcodes.LSHL:
case Opcodes.LSHR:
case Opcodes.LUSHR:
pop(3);
push(LONG);
push(TOP);
break;
case Opcodes.IINC:
set(arg, INTEGER);
break;
case Opcodes.I2L:
case Opcodes.F2L:
pop(1);
push(LONG);
push(TOP);
break;
case Opcodes.I2F:
pop(1);
push(FLOAT);
break;
case Opcodes.I2D:
case Opcodes.F2D:
pop(1);
push(DOUBLE);
push(TOP);
break;
case Opcodes.F2I:
case Opcodes.ARRAYLENGTH:
case Opcodes.INSTANCEOF:
pop(1);
push(INTEGER);
break;
case Opcodes.LCMP:
case Opcodes.DCMPL:
case Opcodes.DCMPG:
pop(4);
push(INTEGER);
break;
case Opcodes.JSR:
case Opcodes.RET:
throw new RuntimeException("JSR/RET are not supported with computeFrames option");
case Opcodes.GETSTATIC:
push(cw, item.strVal3);
break;
case Opcodes.PUTSTATIC:
pop(item.strVal3);
break;
case Opcodes.GETFIELD:
pop(1);
push(cw, item.strVal3);
break;
case Opcodes.PUTFIELD:
pop(item.strVal3);
pop();
break;
case Opcodes.INVOKEVIRTUAL:
case Opcodes.INVOKESPECIAL:
case Opcodes.INVOKESTATIC:
case Opcodes.INVOKEINTERFACE:
pop(item.strVal3);
if (opcode != Opcodes.INVOKESTATIC) {
t1 = pop();
if (opcode == Opcodes.INVOKESPECIAL && item.strVal2.charAt(0) == '<') {
init(t1);
}
}
push(cw, item.strVal3);
break;
case Opcodes.INVOKEDYNAMIC:
pop(item.strVal2);
push(cw, item.strVal2);
break;
case Opcodes.NEW:
push(UNINITIALIZED | cw.addUninitializedType(item.strVal1, arg));
break;
case Opcodes.NEWARRAY:
pop();
switch (arg) {
case Opcodes.T_BOOLEAN:
push(ARRAY_OF | BOOLEAN);
break;
case Opcodes.T_CHAR:
push(ARRAY_OF | CHAR);
break;
case Opcodes.T_BYTE:
push(ARRAY_OF | BYTE);
break;
case Opcodes.T_SHORT:
push(ARRAY_OF | SHORT);
break;
case Opcodes.T_INT:
push(ARRAY_OF | INTEGER);
break;
case Opcodes.T_FLOAT:
push(ARRAY_OF | FLOAT);
break;
case Opcodes.T_DOUBLE:
push(ARRAY_OF | DOUBLE);
break;
// case Opcodes.T_LONG:
default:
push(ARRAY_OF | LONG);
break;
}
break;
case Opcodes.ANEWARRAY:
String s = item.strVal1;
pop();
if (s.charAt(0) == '[') {
push(cw, '[' + s);
} else {
push(ARRAY_OF | OBJECT | cw.addType(s));
}
break;
case Opcodes.CHECKCAST:
s = item.strVal1;
pop();
if (s.charAt(0) == '[') {
push(cw, s);
} else {
push(OBJECT | cw.addType(s));
}
break;
// case Opcodes.MULTIANEWARRAY:
default:
pop(arg);
push(cw, item.strVal1);
break;
}
}
/**
* Merges the input frame of the given basic block with the input and output frames of this
* basic block. Returns <tt>true</tt> if the input frame of the given label has been changed by
* this operation.
*
* @param cw the ClassWriter to which this label belongs.
* @param frame the basic block whose input frame must be updated.
* @param edge the kind of the {@link Edge} between this label and 'label'. See
* {@link Edge#info}.
* @return <tt>true</tt> if the input frame of the given label has been changed by this
* operation.
*/
boolean merge(final ClassWriter cw, final Frame frame, final int edge) {
boolean changed = false;
int i, s, dim, kind, t;
int nLocal = inputLocals.length;
int nStack = inputStack.length;
if (frame.inputLocals == null) {
frame.inputLocals = new int[nLocal];
changed = true;
}
for (i = 0; i < nLocal; ++i) {
if (outputLocals != null && i < outputLocals.length) {
s = outputLocals[i];
if (s == 0) {
t = inputLocals[i];
} else {
dim = s & DIM;
kind = s & KIND;
if (kind == BASE) {
t = s;
} else {
if (kind == LOCAL) {
t = dim + inputLocals[s & VALUE];
} else {
t = dim + inputStack[nStack - (s & VALUE)];
}
if ((s & TOP_IF_LONG_OR_DOUBLE) != 0 && (t == LONG || t == DOUBLE)) {
t = TOP;
}
}
}
} else {
t = inputLocals[i];
}
if (initializations != null) {
t = init(cw, t);
}
changed |= merge(cw, t, frame.inputLocals, i);
}
if (edge > 0) {
for (i = 0; i < nLocal; ++i) {
t = inputLocals[i];
changed |= merge(cw, t, frame.inputLocals, i);
}
if (frame.inputStack == null) {
frame.inputStack = new int[1];
changed = true;
}
changed |= merge(cw, edge, frame.inputStack, 0);
return changed;
}
int nInputStack = inputStack.length + owner.inputStackTop;
if (frame.inputStack == null) {
frame.inputStack = new int[nInputStack + outputStackTop];
changed = true;
}
for (i = 0; i < nInputStack; ++i) {
t = inputStack[i];
if (initializations != null) {
t = init(cw, t);
}
changed |= merge(cw, t, frame.inputStack, i);
}
for (i = 0; i < outputStackTop; ++i) {
s = outputStack[i];
dim = s & DIM;
kind = s & KIND;
if (kind == BASE) {
t = s;
} else {
if (kind == LOCAL) {
t = dim + inputLocals[s & VALUE];
} else {
t = dim + inputStack[nStack - (s & VALUE)];
}
if ((s & TOP_IF_LONG_OR_DOUBLE) != 0 && (t == LONG || t == DOUBLE)) {
t = TOP;
}
}
if (initializations != null) {
t = init(cw, t);
}
changed |= merge(cw, t, frame.inputStack, nInputStack + i);
}
return changed;
}
/**
* Merges the type at the given index in the given type array with the given type. Returns
* <tt>true</tt> if the type array has been modified by this operation.
*
* @param cw the ClassWriter to which this label belongs.
* @param t the type with which the type array element must be merged.
* @param types an array of types.
* @param index the index of the type that must be merged in 'types'.
* @return <tt>true</tt> if the type array has been modified by this operation.
*/
private static boolean merge(final ClassWriter cw, int t, final int[] types, final int index) {
int u = types[index];
if (u == t) {
// if the types are equal, merge(u,t)=u, so there is no change
return false;
}
if ((t & ~DIM) == NULL) {
if (u == NULL) {
return false;
}
t = NULL;
}
if (u == 0) {
// if types[index] has never been assigned, merge(u,t)=t
types[index] = t;
return true;
}
int v;
if ((u & BASE_KIND) == OBJECT || (u & DIM) != 0) {
// if u is a reference type of any dimension
if (t == NULL) {
// if t is the NULL type, merge(u,t)=u, so there is no change
return false;
} else if ((t & (DIM | BASE_KIND)) == (u & (DIM | BASE_KIND))) {
if ((u & BASE_KIND) == OBJECT) {
// if t is also a reference type, and if u and t have the
// same dimension merge(u,t) = dim(t) | common parent of the
// element types of u and t
v = (t & DIM) | OBJECT | cw.getMergedType(t & BASE_VALUE, u & BASE_VALUE);
} else {
// if u and t are array types, but not with the same element
// type, merge(u,t)=java/lang/Object
v = OBJECT | cw.addType("java/lang/Object");
}
} else if ((t & BASE_KIND) == OBJECT || (t & DIM) != 0) {
// if t is any other reference or array type,
// merge(u,t)=java/lang/Object
v = OBJECT | cw.addType("java/lang/Object");
} else {
// if t is any other type, merge(u,t)=TOP
v = TOP;
}
} else if (u == NULL) {
// if u is the NULL type, merge(u,t)=t,
// or TOP if t is not a reference type
v = (t & BASE_KIND) == OBJECT || (t & DIM) != 0 ? t : TOP;
} else {
// if u is any other type, merge(u,t)=TOP whatever t
v = TOP;
}
if (u != v) {
types[index] = v;
return true;
}
return false;
}
}
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