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android / platform / art / 2dd0e2c / . / src / compiler / bb_opt.cc
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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "bb_opt.h"
#include "dataflow.h"
namespace art {
uint16_t BBOpt::GetValueNumber(MIR* mir)
{
uint16_t res = NO_VALUE;
uint16_t opcode = mir->dalvikInsn.opcode;
switch (opcode) {
case Instruction::NOP:
case Instruction::RETURN_VOID:
case Instruction::RETURN:
case Instruction::RETURN_OBJECT:
case Instruction::RETURN_WIDE:
case Instruction::MONITOR_ENTER:
case Instruction::MONITOR_EXIT:
case Instruction::GOTO:
case Instruction::GOTO_16:
case Instruction::GOTO_32:
case Instruction::CHECK_CAST:
case Instruction::THROW:
case Instruction::FILL_ARRAY_DATA:
case Instruction::FILLED_NEW_ARRAY:
case Instruction::FILLED_NEW_ARRAY_RANGE:
case Instruction::PACKED_SWITCH:
case Instruction::SPARSE_SWITCH:
case Instruction::IF_EQ:
case Instruction::IF_NE:
case Instruction::IF_LT:
case Instruction::IF_GE:
case Instruction::IF_GT:
case Instruction::IF_LE:
case Instruction::IF_EQZ:
case Instruction::IF_NEZ:
case Instruction::IF_LTZ:
case Instruction::IF_GEZ:
case Instruction::IF_GTZ:
case Instruction::IF_LEZ:
case Instruction::INVOKE_STATIC_RANGE:
case Instruction::INVOKE_STATIC:
case Instruction::INVOKE_DIRECT:
case Instruction::INVOKE_DIRECT_RANGE:
case Instruction::INVOKE_VIRTUAL:
case Instruction::INVOKE_VIRTUAL_RANGE:
case Instruction::INVOKE_SUPER:
case Instruction::INVOKE_SUPER_RANGE:
case Instruction::INVOKE_INTERFACE:
case Instruction::INVOKE_INTERFACE_RANGE:
case kMirOpFusedCmplFloat:
case kMirOpFusedCmpgFloat:
case kMirOpFusedCmplDouble:
case kMirOpFusedCmpgDouble:
case kMirOpFusedCmpLong:
// Nothing defined - take no action.
break;
case Instruction::MOVE_EXCEPTION:
case Instruction::MOVE_RESULT:
case Instruction::MOVE_RESULT_OBJECT:
case Instruction::INSTANCE_OF:
case Instruction::NEW_INSTANCE:
case Instruction::CONST_STRING:
case Instruction::CONST_STRING_JUMBO:
case Instruction::CONST_CLASS:
case Instruction::NEW_ARRAY: {
// 1 result, treat as unique each time, use result s_reg - will be unique.
uint16_t res = GetOperandValue(mir->ssa_rep->defs[0]);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::MOVE_RESULT_WIDE: {
// 1 wide result, treat as unique each time, use result s_reg - will be unique.
uint16_t res = GetOperandValueWide(mir->ssa_rep->defs[0]);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case kMirOpPhi:
/*
* Because we'll only see phi nodes at the beginning of an extended basic block,
* we can ignore them. Revisit if we shift to global value numbering.
*/
break;
case Instruction::MOVE:
case Instruction::MOVE_OBJECT:
case Instruction::MOVE_16:
case Instruction::MOVE_OBJECT_16:
case Instruction::MOVE_FROM16:
case Instruction::MOVE_OBJECT_FROM16:
case kMirOpCopy: {
// Just copy value number of source to value number of resulit.
uint16_t res = GetOperandValue(mir->ssa_rep->uses[0]);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::MOVE_WIDE:
case Instruction::MOVE_WIDE_16:
case Instruction::MOVE_WIDE_FROM16: {
// Just copy value number of source to value number of result.
uint16_t res = GetOperandValueWide(mir->ssa_rep->uses[0]);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CONST:
case Instruction::CONST_4:
case Instruction::CONST_16: {
uint16_t res = LookupValue(Instruction::CONST, Low16Bits(mir->dalvikInsn.vB),
High16Bits(mir->dalvikInsn.vB >> 16), 0);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CONST_HIGH16: {
uint16_t res = LookupValue(Instruction::CONST, 0, mir->dalvikInsn.vB, 0);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CONST_WIDE_16:
case Instruction::CONST_WIDE_32: {
uint16_t low_res = LookupValue(Instruction::CONST, Low16Bits(mir->dalvikInsn.vB),
High16Bits(mir->dalvikInsn.vB >> 16), 1);
uint16_t high_res;
if (mir->dalvikInsn.vB & 0x80000000) {
high_res = LookupValue(Instruction::CONST, 0xffff, 0xffff, 2);
} else {
high_res = LookupValue(Instruction::CONST, 0, 0, 2);
}
uint16_t res = LookupValue(Instruction::CONST, low_res, high_res, 3);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CONST_WIDE: {
uint32_t low_word = Low32Bits(mir->dalvikInsn.vB_wide);
uint32_t high_word = High32Bits(mir->dalvikInsn.vB_wide);
uint16_t low_res = LookupValue(Instruction::CONST, Low16Bits(low_word),
High16Bits(low_word), 1);
uint16_t high_res = LookupValue(Instruction::CONST, Low16Bits(high_word),
High16Bits(high_word), 2);
uint16_t res = LookupValue(Instruction::CONST, low_res, high_res, 3);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CONST_WIDE_HIGH16: {
uint16_t low_res = LookupValue(Instruction::CONST, 0, 0, 1);
uint16_t high_res = LookupValue(Instruction::CONST, 0, Low16Bits(mir->dalvikInsn.vB), 2);
uint16_t res = LookupValue(Instruction::CONST, low_res, high_res, 3);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::ARRAY_LENGTH:
case Instruction::NEG_INT:
case Instruction::NOT_INT:
case Instruction::NEG_FLOAT:
case Instruction::INT_TO_BYTE:
case Instruction::INT_TO_SHORT:
case Instruction::INT_TO_CHAR:
case Instruction::INT_TO_FLOAT:
case Instruction::FLOAT_TO_INT: {
// res = op + 1 operand
uint16_t operand1 = GetOperandValue(mir->ssa_rep->uses[0]);
uint16_t res = LookupValue(opcode, operand1, NO_VALUE, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::LONG_TO_FLOAT:
case Instruction::LONG_TO_INT:
case Instruction::DOUBLE_TO_FLOAT:
case Instruction::DOUBLE_TO_INT: {
// res = op + 1 wide operand
uint16_t operand1 = GetOperandValue(mir->ssa_rep->uses[0]);
uint16_t res = LookupValue(opcode, operand1, NO_VALUE, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::DOUBLE_TO_LONG:
case Instruction::LONG_TO_DOUBLE:
case Instruction::NEG_LONG:
case Instruction::NOT_LONG:
case Instruction::NEG_DOUBLE: {
// wide res = op + 1 wide operand
uint16_t operand1 = GetOperandValueWide(mir->ssa_rep->uses[0]);
uint16_t res = LookupValue(opcode, operand1, NO_VALUE, NO_VALUE);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::FLOAT_TO_DOUBLE:
case Instruction::FLOAT_TO_LONG:
case Instruction::INT_TO_DOUBLE:
case Instruction::INT_TO_LONG: {
// wide res = op + 1 operand
uint16_t operand1 = GetOperandValueWide(mir->ssa_rep->uses[0]);
uint16_t res = LookupValue(opcode, operand1, NO_VALUE, NO_VALUE);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CMPL_DOUBLE:
case Instruction::CMPG_DOUBLE:
case Instruction::CMP_LONG: {
// res = op + 2 wide operands
uint16_t operand1 = GetOperandValueWide(mir->ssa_rep->uses[0]);
uint16_t operand2 = GetOperandValueWide(mir->ssa_rep->uses[2]);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::CMPG_FLOAT:
case Instruction::CMPL_FLOAT:
case Instruction::ADD_INT:
case Instruction::ADD_INT_2ADDR:
case Instruction::MUL_INT:
case Instruction::MUL_INT_2ADDR:
case Instruction::AND_INT:
case Instruction::AND_INT_2ADDR:
case Instruction::OR_INT:
case Instruction::OR_INT_2ADDR:
case Instruction::XOR_INT:
case Instruction::XOR_INT_2ADDR:
case Instruction::SUB_INT:
case Instruction::SUB_INT_2ADDR:
case Instruction::DIV_INT:
case Instruction::DIV_INT_2ADDR:
case Instruction::REM_INT:
case Instruction::REM_INT_2ADDR:
case Instruction::SHL_INT:
case Instruction::SHL_INT_2ADDR:
case Instruction::SHR_INT:
case Instruction::SHR_INT_2ADDR:
case Instruction::USHR_INT:
case Instruction::USHR_INT_2ADDR: {
// res = op + 2 operands
uint16_t operand1 = GetOperandValue(mir->ssa_rep->uses[0]);
uint16_t operand2 = GetOperandValue(mir->ssa_rep->uses[1]);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::ADD_LONG:
case Instruction::SUB_LONG:
case Instruction::MUL_LONG:
case Instruction::DIV_LONG:
case Instruction::REM_LONG:
case Instruction::AND_LONG:
case Instruction::OR_LONG:
case Instruction::XOR_LONG:
case Instruction::ADD_LONG_2ADDR:
case Instruction::SUB_LONG_2ADDR:
case Instruction::MUL_LONG_2ADDR:
case Instruction::DIV_LONG_2ADDR:
case Instruction::REM_LONG_2ADDR:
case Instruction::AND_LONG_2ADDR:
case Instruction::OR_LONG_2ADDR:
case Instruction::XOR_LONG_2ADDR:
case Instruction::ADD_DOUBLE:
case Instruction::SUB_DOUBLE:
case Instruction::MUL_DOUBLE:
case Instruction::DIV_DOUBLE:
case Instruction::REM_DOUBLE:
case Instruction::ADD_DOUBLE_2ADDR:
case Instruction::SUB_DOUBLE_2ADDR:
case Instruction::MUL_DOUBLE_2ADDR:
case Instruction::DIV_DOUBLE_2ADDR:
case Instruction::REM_DOUBLE_2ADDR: {
// wide res = op + 2 wide operands
uint16_t operand1 = GetOperandValueWide(mir->ssa_rep->uses[0]);
uint16_t operand2 = GetOperandValueWide(mir->ssa_rep->uses[2]);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::SHL_LONG:
case Instruction::SHR_LONG:
case Instruction::USHR_LONG:
case Instruction::SHL_LONG_2ADDR:
case Instruction::SHR_LONG_2ADDR:
case Instruction::USHR_LONG_2ADDR: {
// wide res = op + 1 wide operand + 1 operand
uint16_t operand1 = GetOperandValueWide(mir->ssa_rep->uses[0]);
uint16_t operand2 = GetOperandValueWide(mir->ssa_rep->uses[2]);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::ADD_FLOAT:
case Instruction::SUB_FLOAT:
case Instruction::MUL_FLOAT:
case Instruction::DIV_FLOAT:
case Instruction::REM_FLOAT:
case Instruction::ADD_FLOAT_2ADDR:
case Instruction::SUB_FLOAT_2ADDR:
case Instruction::MUL_FLOAT_2ADDR:
case Instruction::DIV_FLOAT_2ADDR:
case Instruction::REM_FLOAT_2ADDR: {
// res = op + 2 operands
uint16_t operand1 = GetOperandValue(mir->ssa_rep->uses[0]);
uint16_t operand2 = GetOperandValue(mir->ssa_rep->uses[1]);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::RSUB_INT:
case Instruction::ADD_INT_LIT16:
case Instruction::MUL_INT_LIT16:
case Instruction::DIV_INT_LIT16:
case Instruction::REM_INT_LIT16:
case Instruction::AND_INT_LIT16:
case Instruction::OR_INT_LIT16:
case Instruction::XOR_INT_LIT16:
case Instruction::ADD_INT_LIT8:
case Instruction::RSUB_INT_LIT8:
case Instruction::MUL_INT_LIT8:
case Instruction::DIV_INT_LIT8:
case Instruction::REM_INT_LIT8:
case Instruction::AND_INT_LIT8:
case Instruction::OR_INT_LIT8:
case Instruction::XOR_INT_LIT8:
case Instruction::SHL_INT_LIT8:
case Instruction::SHR_INT_LIT8:
case Instruction::USHR_INT_LIT8: {
// Same as res = op + 2 operands, except use vB as operand 2
uint16_t operand1 = GetOperandValue(mir->ssa_rep->uses[0]);
uint16_t operand2 = LookupValue(Instruction::CONST, mir->dalvikInsn.vB, 0, 0);
uint16_t res = LookupValue(opcode, operand1, operand2, NO_VALUE);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
break;
case Instruction::AGET_WIDE:
case Instruction::AGET:
case Instruction::AGET_OBJECT:
case Instruction::AGET_BOOLEAN:
case Instruction::AGET_BYTE:
case Instruction::AGET_CHAR:
case Instruction::AGET_SHORT: {
uint16_t array = GetOperandValue(mir->ssa_rep->uses[0]);
if (null_checked_.find(array) != null_checked_.end()) {
if (cu_->verbose) {
LOG(INFO) << "Removing null check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_NULL_CHECK;
} else {
null_checked_.insert(array);
}
uint16_t index = GetOperandValue(mir->ssa_rep->uses[1]);
if (ValueExists(ARRAY_REF, array, index, NO_VALUE)) {
if (cu_->verbose) {
LOG(INFO) << "Removing range check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_RANGE_CHECK;
}
mir->meta.throw_insn->optimization_flags |= mir->optimization_flags;
// Use side effect to note range check completed.
(void)LookupValue(ARRAY_REF, array, index, NO_VALUE);
// Establish value number for loaded register. Note use of memory version.
uint16_t memory_version = GetMemoryVersion(array, NO_VALUE);
uint16_t res = LookupValue(ARRAY_REF, array, index, memory_version);
if (opcode == Instruction::AGET_WIDE) {
SetOperandValueWide(mir->ssa_rep->defs[0], res);
} else {
SetOperandValue(mir->ssa_rep->defs[0], res);
}
}
break;
case Instruction::APUT_WIDE:
case Instruction::APUT:
case Instruction::APUT_OBJECT:
case Instruction::APUT_SHORT:
case Instruction::APUT_CHAR:
case Instruction::APUT_BYTE:
case Instruction::APUT_BOOLEAN: {
int array_idx = (opcode == Instruction::APUT_WIDE) ? 2 : 1;
int index_idx = array_idx + 1;
uint16_t array = GetOperandValue(mir->ssa_rep->uses[array_idx]);
if (null_checked_.find(array) != null_checked_.end()) {
if (cu_->verbose) {
LOG(INFO) << "Removing range check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_NULL_CHECK;
} else {
null_checked_.insert(array);
}
uint16_t index = GetOperandValue(mir->ssa_rep->uses[index_idx]);
if (ValueExists(ARRAY_REF, array, index, NO_VALUE)) {
if (cu_->verbose) {
LOG(INFO) << "Removing range check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_RANGE_CHECK;
}
mir->meta.throw_insn->optimization_flags |= mir->optimization_flags;
// Use side effect to note range check completed.
(void)LookupValue(ARRAY_REF, array, index, NO_VALUE);
// Rev the memory version
AdvanceMemoryVersion(array, NO_VALUE);
}
break;
case Instruction::IGET_OBJECT:
case Instruction::IGET_WIDE:
case Instruction::IGET:
case Instruction::IGET_CHAR:
case Instruction::IGET_SHORT:
case Instruction::IGET_BOOLEAN:
case Instruction::IGET_BYTE: {
uint16_t base = GetOperandValue(mir->ssa_rep->uses[0]);
if (null_checked_.find(base) != null_checked_.end()) {
if (cu_->verbose) {
LOG(INFO) << "Removing null check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_NULL_CHECK;
} else {
null_checked_.insert(base);
}
mir->meta.throw_insn->optimization_flags |= mir->optimization_flags;
uint16_t field_ref = mir->dalvikInsn.vC;
uint16_t memory_version = GetMemoryVersion(base, field_ref);
if (opcode == Instruction::IGET_WIDE) {
uint16_t res = LookupValue(Instruction::IGET_WIDE, base, field_ref, memory_version);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
} else {
uint16_t res = LookupValue(Instruction::IGET, base, field_ref, memory_version);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
}
break;
case Instruction::IPUT_WIDE:
case Instruction::IPUT_OBJECT:
case Instruction::IPUT:
case Instruction::IPUT_BOOLEAN:
case Instruction::IPUT_BYTE:
case Instruction::IPUT_CHAR:
case Instruction::IPUT_SHORT: {
int base_reg = (opcode == Instruction::IPUT_WIDE) ? 2 : 1;
uint16_t base = GetOperandValue(mir->ssa_rep->uses[base_reg]);
if (null_checked_.find(base) != null_checked_.end()) {
if (cu_->verbose) {
LOG(INFO) << "Removing null check for 0x" << std::hex << mir->offset;
}
mir->optimization_flags |= MIR_IGNORE_NULL_CHECK;
} else {
null_checked_.insert(base);
}
mir->meta.throw_insn->optimization_flags |= mir->optimization_flags;
uint16_t field_ref = mir->dalvikInsn.vC;
AdvanceMemoryVersion(base, field_ref);
}
break;
case Instruction::SGET_OBJECT:
case Instruction::SGET:
case Instruction::SGET_BOOLEAN:
case Instruction::SGET_BYTE:
case Instruction::SGET_CHAR:
case Instruction::SGET_SHORT:
case Instruction::SGET_WIDE: {
uint16_t field_ref = mir->dalvikInsn.vB;
uint16_t memory_version = GetMemoryVersion(NO_VALUE, field_ref);
if (opcode == Instruction::SGET_WIDE) {
uint16_t res = LookupValue(Instruction::SGET_WIDE, NO_VALUE, field_ref, memory_version);
SetOperandValueWide(mir->ssa_rep->defs[0], res);
} else {
uint16_t res = LookupValue(Instruction::SGET, NO_VALUE, field_ref, memory_version);
SetOperandValue(mir->ssa_rep->defs[0], res);
}
}
break;
case Instruction::SPUT_OBJECT:
case Instruction::SPUT:
case Instruction::SPUT_BOOLEAN:
case Instruction::SPUT_BYTE:
case Instruction::SPUT_CHAR:
case Instruction::SPUT_SHORT:
case Instruction::SPUT_WIDE: {
uint16_t field_ref = mir->dalvikInsn.vB;
AdvanceMemoryVersion(NO_VALUE, field_ref);
}
break;
}
return res;
}
} // namespace art