compiler/dex/quick/mir_to_lir-inl.h - platform/art - Git at Google

 /*
  * Copyright (C) 2013 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.
  */

 #ifndef ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_
 #define ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_

 #include "mir_to_lir.h"

 #include "dex/compiler_internals.h"

 namespace art {

 /* Mark a temp register as dead.  Does not affect allocation state. */
 inline void Mir2Lir::ClobberBody(RegisterInfo* p) {
   if (p->is_temp) {
     DCHECK(!(p->live && p->dirty))  << "Live & dirty temp in clobber";
     p->live = false;
     p->s_reg = INVALID_SREG;
     p->def_start = NULL;
     p->def_end = NULL;
     if (p->pair) {
       p->pair = false;
       Clobber(p->partner);
     }
   }
 }

 inline LIR* Mir2Lir::RawLIR(int dalvik_offset, int opcode, int op0,
                             int op1, int op2, int op3, int op4, LIR* target) {
   LIR* insn = static_cast<LIR*>(arena_->NewMem(sizeof(LIR), true, ArenaAllocator::kAllocLIR));
   insn->dalvik_offset = dalvik_offset;
   insn->opcode = opcode;
   insn->operands[0] = op0;
   insn->operands[1] = op1;
   insn->operands[2] = op2;
   insn->operands[3] = op3;
   insn->operands[4] = op4;
   insn->target = target;
   SetupResourceMasks(insn);
   if ((opcode == kPseudoTargetLabel) || (opcode == kPseudoSafepointPC) ||
       (opcode == kPseudoExportedPC)) {
     // Always make labels scheduling barriers
     insn->use_mask = insn->def_mask = ENCODE_ALL;
   }
   return insn;
 }

 /*
  * The following are building blocks to construct low-level IRs with 0 - 4
  * operands.
  */
 inline LIR* Mir2Lir::NewLIR0(int opcode) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & NO_OPERAND))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode);
   AppendLIR(insn);
   return insn;
 }

 inline LIR* Mir2Lir::NewLIR1(int opcode, int dest) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & IS_UNARY_OP))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest);
   AppendLIR(insn);
   return insn;
 }

 inline LIR* Mir2Lir::NewLIR2(int opcode, int dest, int src1) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & IS_BINARY_OP))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1);
   AppendLIR(insn);
   return insn;
 }

 inline LIR* Mir2Lir::NewLIR3(int opcode, int dest, int src1, int src2) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & IS_TERTIARY_OP))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2);
   AppendLIR(insn);
   return insn;
 }

 inline LIR* Mir2Lir::NewLIR4(int opcode, int dest, int src1, int src2, int info) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & IS_QUAD_OP))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2, info);
   AppendLIR(insn);
   return insn;
 }

 inline LIR* Mir2Lir::NewLIR5(int opcode, int dest, int src1, int src2, int info1,
                              int info2) {
   DCHECK(is_pseudo_opcode(opcode) || (GetTargetInstFlags(opcode) & IS_QUIN_OP))
       << GetTargetInstName(opcode) << " " << opcode << " "
       << PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
       << current_dalvik_offset_;
   LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2, info1, info2);
   AppendLIR(insn);
   return insn;
 }

 /*
  * Mark the corresponding bit(s).
  */
 inline void Mir2Lir::SetupRegMask(uint64_t* mask, int reg) {
   *mask |= GetRegMaskCommon(reg);
 }

 /*
  * Set up the proper fields in the resource mask
  */
 inline void Mir2Lir::SetupResourceMasks(LIR* lir) {
   int opcode = lir->opcode;

   if (opcode <= 0) {
     lir->use_mask = lir->def_mask = 0;
     return;
   }

   uint64_t flags = GetTargetInstFlags(opcode);

   if (flags & NEEDS_FIXUP) {
     lir->flags.pcRelFixup = true;
   }

   /* Get the starting size of the instruction's template */
   lir->flags.size = GetInsnSize(lir);

   /* Set up the mask for resources that are updated */
   if (flags & (IS_LOAD | IS_STORE)) {
     /* Default to heap - will catch specialized classes later */
     SetMemRefType(lir, flags & IS_LOAD, kHeapRef);
   }

   /*
    * Conservatively assume the branch here will call out a function that in
    * turn will trash everything.
    */
   if (flags & IS_BRANCH) {
     lir->def_mask = lir->use_mask = ENCODE_ALL;
     return;
   }

   if (flags & REG_DEF0) {
     SetupRegMask(&lir->def_mask, lir->operands[0]);
   }

   if (flags & REG_DEF1) {
     SetupRegMask(&lir->def_mask, lir->operands[1]);
   }


   if (flags & SETS_CCODES) {
     lir->def_mask |= ENCODE_CCODE;
   }

   if (flags & (REG_USE0 | REG_USE1 | REG_USE2 | REG_USE3)) {
     int i;

     for (i = 0; i < 4; i++) {
       if (flags & (1 << (kRegUse0 + i))) {
         SetupRegMask(&lir->use_mask, lir->operands[i]);
       }
     }
   }

   if (flags & USES_CCODES) {
     lir->use_mask |= ENCODE_CCODE;
   }

   // Handle target-specific actions
   SetupTargetResourceMasks(lir);
 }

 }  // namespace art

 #endif  // ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_
	/*
	* Copyright (C) 2013 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.
	*/

	#ifndef ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_
	#define ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_

	#include "mir_to_lir.h"

	#include "dex/compiler_internals.h"

	namespace art {

	/* Mark a temp register as dead. Does not affect allocation state. */
	inline void Mir2Lir::ClobberBody(RegisterInfo* p) {
	if (p->is_temp) {
	DCHECK(!(p->live && p->dirty)) << "Live & dirty temp in clobber";
	p->live = false;
	p->s_reg = INVALID_SREG;
	p->def_start = NULL;
	p->def_end = NULL;
	if (p->pair) {
	p->pair = false;
	Clobber(p->partner);
	}
	}
	}

	inline LIR* Mir2Lir::RawLIR(int dalvik_offset, int opcode, int op0,
	int op1, int op2, int op3, int op4, LIR* target) {
	LIR* insn = static_cast<LIR*>(arena_->NewMem(sizeof(LIR), true, ArenaAllocator::kAllocLIR));
	insn->dalvik_offset = dalvik_offset;
	insn->opcode = opcode;
	insn->operands[0] = op0;
	insn->operands[1] = op1;
	insn->operands[2] = op2;
	insn->operands[3] = op3;
	insn->operands[4] = op4;
	insn->target = target;
	SetupResourceMasks(insn);
	if ((opcode == kPseudoTargetLabel) \|\| (opcode == kPseudoSafepointPC) \|\|
	(opcode == kPseudoExportedPC)) {
	// Always make labels scheduling barriers
	insn->use_mask = insn->def_mask = ENCODE_ALL;
	}
	return insn;
	}

	/*
	* The following are building blocks to construct low-level IRs with 0 - 4
	* operands.
	*/
	inline LIR* Mir2Lir::NewLIR0(int opcode) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & NO_OPERAND))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode);
	AppendLIR(insn);
	return insn;
	}

	inline LIR* Mir2Lir::NewLIR1(int opcode, int dest) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & IS_UNARY_OP))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest);
	AppendLIR(insn);
	return insn;
	}

	inline LIR* Mir2Lir::NewLIR2(int opcode, int dest, int src1) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & IS_BINARY_OP))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1);
	AppendLIR(insn);
	return insn;
	}

	inline LIR* Mir2Lir::NewLIR3(int opcode, int dest, int src1, int src2) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & IS_TERTIARY_OP))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2);
	AppendLIR(insn);
	return insn;
	}

	inline LIR* Mir2Lir::NewLIR4(int opcode, int dest, int src1, int src2, int info) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & IS_QUAD_OP))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2, info);
	AppendLIR(insn);
	return insn;
	}

	inline LIR* Mir2Lir::NewLIR5(int opcode, int dest, int src1, int src2, int info1,
	int info2) {
	DCHECK(is_pseudo_opcode(opcode) \|\| (GetTargetInstFlags(opcode) & IS_QUIN_OP))
	<< GetTargetInstName(opcode) << " " << opcode << " "
	<< PrettyMethod(cu_->method_idx, *cu_->dex_file) << " "
	<< current_dalvik_offset_;
	LIR* insn = RawLIR(current_dalvik_offset_, opcode, dest, src1, src2, info1, info2);
	AppendLIR(insn);
	return insn;
	}

	/*
	* Mark the corresponding bit(s).
	*/
	inline void Mir2Lir::SetupRegMask(uint64_t* mask, int reg) {
	*mask \|= GetRegMaskCommon(reg);
	}

	/*
	* Set up the proper fields in the resource mask
	*/
	inline void Mir2Lir::SetupResourceMasks(LIR* lir) {
	int opcode = lir->opcode;

	if (opcode <= 0) {
	lir->use_mask = lir->def_mask = 0;
	return;
	}

	uint64_t flags = GetTargetInstFlags(opcode);

	if (flags & NEEDS_FIXUP) {
	lir->flags.pcRelFixup = true;
	}

	/* Get the starting size of the instruction's template */
	lir->flags.size = GetInsnSize(lir);

	/* Set up the mask for resources that are updated */
	if (flags & (IS_LOAD \| IS_STORE)) {
	/* Default to heap - will catch specialized classes later */
	SetMemRefType(lir, flags & IS_LOAD, kHeapRef);
	}

	/*
	* Conservatively assume the branch here will call out a function that in
	* turn will trash everything.
	*/
	if (flags & IS_BRANCH) {
	lir->def_mask = lir->use_mask = ENCODE_ALL;
	return;
	}

	if (flags & REG_DEF0) {
	SetupRegMask(&lir->def_mask, lir->operands[0]);
	}

	if (flags & REG_DEF1) {
	SetupRegMask(&lir->def_mask, lir->operands[1]);
	}


	if (flags & SETS_CCODES) {
	lir->def_mask \|= ENCODE_CCODE;
	}

	if (flags & (REG_USE0 \| REG_USE1 \| REG_USE2 \| REG_USE3)) {
	int i;

	for (i = 0; i < 4; i++) {
	if (flags & (1 << (kRegUse0 + i))) {
	SetupRegMask(&lir->use_mask, lir->operands[i]);
	}
	}
	}

	if (flags & USES_CCODES) {
	lir->use_mask \|= ENCODE_CCODE;
	}

	// Handle target-specific actions
	SetupTargetResourceMasks(lir);
	}

	} // namespace art

	#endif // ART_COMPILER_DEX_QUICK_MIR_TO_LIR_INL_H_