Java Code Examples for com.sun.org.apache.bcel.internal.Constants#JSR
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Example 1
Source File: InstructionFactory.java From jdk1.8-source-analysis with Apache License 2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 2
Source File: InstructionFactory.java From openjdk-8 with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 3
Source File: InstructionFactory.java From openjdk-8-source with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 4
Source File: InstructionFactory.java From hottub with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 5
Source File: InstructionFactory.java From openjdk-jdk9 with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 6
Source File: InstructionFactory.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 7
Source File: InstructionFactory.java From openjdk-jdk8u with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 8
Source File: InstructionFactory.java From JDKSourceCode1.8 with MIT License | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 9
Source File: InstructionFactory.java From jdk8u60 with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 10
Source File: InstructionFactory.java From TencentKona-8 with GNU General Public License v2.0 | 5 votes |
/** Create branch instruction by given opcode, except LOOKUPSWITCH and TABLESWITCH. * For those you should use the SWITCH compound instruction. */ public static BranchInstruction createBranchInstruction(short opcode, InstructionHandle target) { switch(opcode) { case Constants.IFEQ: return new IFEQ(target); case Constants.IFNE: return new IFNE(target); case Constants.IFLT: return new IFLT(target); case Constants.IFGE: return new IFGE(target); case Constants.IFGT: return new IFGT(target); case Constants.IFLE: return new IFLE(target); case Constants.IF_ICMPEQ: return new IF_ICMPEQ(target); case Constants.IF_ICMPNE: return new IF_ICMPNE(target); case Constants.IF_ICMPLT: return new IF_ICMPLT(target); case Constants.IF_ICMPGE: return new IF_ICMPGE(target); case Constants.IF_ICMPGT: return new IF_ICMPGT(target); case Constants.IF_ICMPLE: return new IF_ICMPLE(target); case Constants.IF_ACMPEQ: return new IF_ACMPEQ(target); case Constants.IF_ACMPNE: return new IF_ACMPNE(target); case Constants.GOTO: return new GOTO(target); case Constants.JSR: return new JSR(target); case Constants.IFNULL: return new IFNULL(target); case Constants.IFNONNULL: return new IFNONNULL(target); case Constants.GOTO_W: return new GOTO_W(target); case Constants.JSR_W: return new JSR_W(target); default: throw new RuntimeException("Invalid opcode: " + opcode); } }
Example 11
Source File: MethodGen.java From openjdk-jdk8u with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 12
Source File: MethodGen.java From JDKSourceCode1.8 with MIT License | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 13
Source File: MethodGen.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 14
Source File: MethodGen.java From openjdk-jdk9 with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 15
Source File: MethodGen.java From jdk8u60 with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 16
Source File: MethodGen.java From hottub with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 17
Source File: MethodGen.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 18
Source File: MethodGen.java From TencentKona-8 with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 19
Source File: MethodGen.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }
Example 20
Source File: MethodGen.java From jdk1.8-source-analysis with Apache License 2.0 | 4 votes |
/** * Computes stack usage of an instruction list by performing control flow analysis. * * @return maximum stack depth used by method */ public static int getMaxStack(ConstantPoolGen cp, InstructionList il, CodeExceptionGen[] et) { BranchStack branchTargets = new BranchStack(); /* Initially, populate the branch stack with the exception * handlers, because these aren't (necessarily) branched to * explicitly. in each case, the stack will have depth 1, * containing the exception object. */ for (int i = 0; i < et.length; i++) { InstructionHandle handler_pc = et[i].getHandlerPC(); if (handler_pc != null) branchTargets.push(handler_pc, 1); } int stackDepth = 0, maxStackDepth = 0; InstructionHandle ih = il.getStart(); while(ih != null) { Instruction instruction = ih.getInstruction(); short opcode = instruction.getOpcode(); int delta = instruction.produceStack(cp) - instruction.consumeStack(cp); stackDepth += delta; if(stackDepth > maxStackDepth) maxStackDepth = stackDepth; // choose the next instruction based on whether current is a branch. if(instruction instanceof BranchInstruction) { BranchInstruction branch = (BranchInstruction) instruction; if(instruction instanceof Select) { // explore all of the select's targets. the default target is handled below. Select select = (Select) branch; InstructionHandle[] targets = select.getTargets(); for (int i = 0; i < targets.length; i++) branchTargets.push(targets[i], stackDepth); // nothing to fall through to. ih = null; } else if(!(branch instanceof IfInstruction)) { // if an instruction that comes back to following PC, // push next instruction, with stack depth reduced by 1. if(opcode == Constants.JSR || opcode == Constants.JSR_W) branchTargets.push(ih.getNext(), stackDepth - 1); ih = null; } // for all branches, the target of the branch is pushed on the branch stack. // conditional branches have a fall through case, selects don't, and // jsr/jsr_w return to the next instruction. branchTargets.push(branch.getTarget(), stackDepth); } else { // check for instructions that terminate the method. if(opcode == Constants.ATHROW || opcode == Constants.RET || (opcode >= Constants.IRETURN && opcode <= Constants.RETURN)) ih = null; } // normal case, go to the next instruction. if(ih != null) ih = ih.getNext(); // if we have no more instructions, see if there are any deferred branches to explore. if(ih == null) { BranchTarget bt = branchTargets.pop(); if (bt != null) { ih = bt.target; stackDepth = bt.stackDepth; } } } return maxStackDepth; }