vm/compiler/codegen/CodegenFactory.cpp - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2009 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.
  */

 /*
  * This file contains target-independent codegen and support, and is
  * included by:
  *
  *        $(TARGET_ARCH)/Codegen-$(TARGET_ARCH_VARIANT).c
  *
  * which combines this common code with specific support found in the
  * applicable directories below this one.
  *
  * Prior to including this file, TGT_LIR should be #defined.
  * For example, for arm:
  *    #define TGT_LIR ArmLIR
  * and for x86:
  *    #define TGT_LIR X86LIR
  */


 /* Load a word at base + displacement.  Displacement must be word multiple */
 static TGT_LIR *loadWordDisp(CompilationUnit *cUnit, int rBase,
                              int displacement, int rDest)
 {
     return loadBaseDisp(cUnit, NULL, rBase, displacement, rDest, kWord,
                         INVALID_SREG);
 }

 static TGT_LIR *storeWordDisp(CompilationUnit *cUnit, int rBase,
                              int displacement, int rSrc)
 {
     return storeBaseDisp(cUnit, rBase, displacement, rSrc, kWord);
 }

 /*
  * Load a Dalvik register into a physical register.  Take care when
  * using this routine, as it doesn't perform any bookkeeping regarding
  * register liveness.  That is the responsibility of the caller.
  */
 static void loadValueDirect(CompilationUnit *cUnit, RegLocation rlSrc,
                             int reg1)
 {
     rlSrc = dvmCompilerUpdateLoc(cUnit, rlSrc);
     if (rlSrc.location == kLocPhysReg) {
         genRegCopy(cUnit, reg1, rlSrc.lowReg);
     } else  if (rlSrc.location == kLocRetval) {
         loadWordDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval), reg1);
     } else {
         assert(rlSrc.location == kLocDalvikFrame);
         loadWordDisp(cUnit, rFP, dvmCompilerS2VReg(cUnit, rlSrc.sRegLow) << 2,
                      reg1);
     }
 }

 /*
  * Similar to loadValueDirect, but clobbers and allocates the target
  * register.  Should be used when loading to a fixed register (for example,
  * loading arguments to an out of line call.
  */
 static void loadValueDirectFixed(CompilationUnit *cUnit, RegLocation rlSrc,
                                  int reg1)
 {
     dvmCompilerClobber(cUnit, reg1);
     dvmCompilerMarkInUse(cUnit, reg1);
     loadValueDirect(cUnit, rlSrc, reg1);
 }

 /*
  * Load a Dalvik register pair into a physical register[s].  Take care when
  * using this routine, as it doesn't perform any bookkeeping regarding
  * register liveness.  That is the responsibility of the caller.
  */
 static void loadValueDirectWide(CompilationUnit *cUnit, RegLocation rlSrc,
                                 int regLo, int regHi)
 {
     rlSrc = dvmCompilerUpdateLocWide(cUnit, rlSrc);
     if (rlSrc.location == kLocPhysReg) {
         genRegCopyWide(cUnit, regLo, regHi, rlSrc.lowReg, rlSrc.highReg);
     } else if (rlSrc.location == kLocRetval) {
         loadBaseDispWide(cUnit, NULL, rSELF,
                          offsetof(Thread, interpSave.retval),
                          regLo, regHi, INVALID_SREG);
     } else {
         assert(rlSrc.location == kLocDalvikFrame);
             loadBaseDispWide(cUnit, NULL, rFP,
                              dvmCompilerS2VReg(cUnit, rlSrc.sRegLow) << 2,
                              regLo, regHi, INVALID_SREG);
     }
 }

 /*
  * Similar to loadValueDirect, but clobbers and allocates the target
  * registers.  Should be used when loading to a fixed registers (for example,
  * loading arguments to an out of line call.
  */
 static void loadValueDirectWideFixed(CompilationUnit *cUnit, RegLocation rlSrc,
                                      int regLo, int regHi)
 {
     dvmCompilerClobber(cUnit, regLo);
     dvmCompilerClobber(cUnit, regHi);
     dvmCompilerMarkInUse(cUnit, regLo);
     dvmCompilerMarkInUse(cUnit, regHi);
     loadValueDirectWide(cUnit, rlSrc, regLo, regHi);
 }

 static RegLocation loadValue(CompilationUnit *cUnit, RegLocation rlSrc,
                              RegisterClass opKind)
 {
     rlSrc = dvmCompilerEvalLoc(cUnit, rlSrc, opKind, false);
     if (rlSrc.location == kLocDalvikFrame) {
         loadValueDirect(cUnit, rlSrc, rlSrc.lowReg);
         rlSrc.location = kLocPhysReg;
         dvmCompilerMarkLive(cUnit, rlSrc.lowReg, rlSrc.sRegLow);
     } else if (rlSrc.location == kLocRetval) {
         loadWordDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval),
                      rlSrc.lowReg);
         rlSrc.location = kLocPhysReg;
         dvmCompilerClobber(cUnit, rlSrc.lowReg);
     }
     return rlSrc;
 }

 static void storeValue(CompilationUnit *cUnit, RegLocation rlDest,
                        RegLocation rlSrc)
 {
     LIR *defStart;
     LIR *defEnd;
     assert(!rlDest.wide);
     assert(!rlSrc.wide);
     dvmCompilerKillNullCheckedLoc(cUnit, rlDest);
     rlSrc = dvmCompilerUpdateLoc(cUnit, rlSrc);
     rlDest = dvmCompilerUpdateLoc(cUnit, rlDest);
     if (rlSrc.location == kLocPhysReg) {
         if (dvmCompilerIsLive(cUnit, rlSrc.lowReg) ||
             (rlDest.location == kLocPhysReg)) {
             // Src is live or Dest has assigned reg.
             rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
             genRegCopy(cUnit, rlDest.lowReg, rlSrc.lowReg);
         } else {
             // Just re-assign the registers.  Dest gets Src's regs
             rlDest.lowReg = rlSrc.lowReg;
             dvmCompilerClobber(cUnit, rlSrc.lowReg);
         }
     } else {
         // Load Src either into promoted Dest or temps allocated for Dest
         rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
         loadValueDirect(cUnit, rlSrc, rlDest.lowReg);
     }

     // Dest is now live and dirty (until/if we flush it to home location)
     dvmCompilerMarkLive(cUnit, rlDest.lowReg, rlDest.sRegLow);
     dvmCompilerMarkDirty(cUnit, rlDest.lowReg);


     if (rlDest.location == kLocRetval) {
         storeBaseDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval),
                       rlDest.lowReg, kWord);
         dvmCompilerClobber(cUnit, rlDest.lowReg);
     } else {
         dvmCompilerResetDefLoc(cUnit, rlDest);
         if (dvmCompilerLiveOut(cUnit, rlDest.sRegLow)) {
             defStart = (LIR *)cUnit->lastLIRInsn;
             int vReg = dvmCompilerS2VReg(cUnit, rlDest.sRegLow);
             storeBaseDisp(cUnit, rFP, vReg << 2, rlDest.lowReg, kWord);
             dvmCompilerMarkClean(cUnit, rlDest.lowReg);
             defEnd = (LIR *)cUnit->lastLIRInsn;
             dvmCompilerMarkDef(cUnit, rlDest, defStart, defEnd);
         }
     }
 }

 static RegLocation loadValueWide(CompilationUnit *cUnit, RegLocation rlSrc,
                                  RegisterClass opKind)
 {
     assert(rlSrc.wide);
     rlSrc = dvmCompilerEvalLoc(cUnit, rlSrc, opKind, false);
     if (rlSrc.location == kLocDalvikFrame) {
         loadValueDirectWide(cUnit, rlSrc, rlSrc.lowReg, rlSrc.highReg);
         rlSrc.location = kLocPhysReg;
         dvmCompilerMarkLive(cUnit, rlSrc.lowReg, rlSrc.sRegLow);
         dvmCompilerMarkLive(cUnit, rlSrc.highReg,
                             dvmCompilerSRegHi(rlSrc.sRegLow));
     } else if (rlSrc.location == kLocRetval) {
         loadBaseDispWide(cUnit, NULL, rSELF,
                          offsetof(Thread, interpSave.retval),
                          rlSrc.lowReg, rlSrc.highReg, INVALID_SREG);
         rlSrc.location = kLocPhysReg;
         dvmCompilerClobber(cUnit, rlSrc.lowReg);
         dvmCompilerClobber(cUnit, rlSrc.highReg);
     }
     return rlSrc;
 }

 static void storeValueWide(CompilationUnit *cUnit, RegLocation rlDest,
                            RegLocation rlSrc)
 {
     LIR *defStart;
     LIR *defEnd;
     assert(FPREG(rlSrc.lowReg)==FPREG(rlSrc.highReg));
     assert(rlDest.wide);
     assert(rlSrc.wide);
     dvmCompilerKillNullCheckedLoc(cUnit, rlDest);
     if (rlSrc.location == kLocPhysReg) {
         if (dvmCompilerIsLive(cUnit, rlSrc.lowReg) ||
             dvmCompilerIsLive(cUnit, rlSrc.highReg) ||
             (rlDest.location == kLocPhysReg)) {
             // Src is live or Dest has assigned reg.
             rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
             genRegCopyWide(cUnit, rlDest.lowReg, rlDest.highReg,
                            rlSrc.lowReg, rlSrc.highReg);
         } else {
             // Just re-assign the registers.  Dest gets Src's regs
             rlDest.lowReg = rlSrc.lowReg;
             rlDest.highReg = rlSrc.highReg;
             dvmCompilerClobber(cUnit, rlSrc.lowReg);
             dvmCompilerClobber(cUnit, rlSrc.highReg);
         }
     } else {
         // Load Src either into promoted Dest or temps allocated for Dest
         rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
         loadValueDirectWide(cUnit, rlSrc, rlDest.lowReg,
                             rlDest.highReg);
     }

     // Dest is now live and dirty (until/if we flush it to home location)
     dvmCompilerMarkLive(cUnit, rlDest.lowReg, rlDest.sRegLow);
     dvmCompilerMarkLive(cUnit, rlDest.highReg,
                         dvmCompilerSRegHi(rlDest.sRegLow));
     dvmCompilerMarkDirty(cUnit, rlDest.lowReg);
     dvmCompilerMarkDirty(cUnit, rlDest.highReg);
     dvmCompilerMarkPair(cUnit, rlDest.lowReg, rlDest.highReg);


     if (rlDest.location == kLocRetval) {
         storeBaseDispWide(cUnit, rSELF, offsetof(Thread, interpSave.retval),
                           rlDest.lowReg, rlDest.highReg);
         dvmCompilerClobber(cUnit, rlDest.lowReg);
         dvmCompilerClobber(cUnit, rlDest.highReg);
     } else {
         dvmCompilerResetDefLocWide(cUnit, rlDest);
         if (dvmCompilerLiveOut(cUnit, rlDest.sRegLow) ||
             dvmCompilerLiveOut(cUnit, dvmCompilerSRegHi(rlDest.sRegLow))) {
             defStart = (LIR *)cUnit->lastLIRInsn;
             int vReg = dvmCompilerS2VReg(cUnit, rlDest.sRegLow);
             assert((vReg+1) == dvmCompilerS2VReg(cUnit,
                                      dvmCompilerSRegHi(rlDest.sRegLow)));
             storeBaseDispWide(cUnit, rFP, vReg << 2, rlDest.lowReg,
                               rlDest.highReg);
             dvmCompilerMarkClean(cUnit, rlDest.lowReg);
             dvmCompilerMarkClean(cUnit, rlDest.highReg);
             defEnd = (LIR *)cUnit->lastLIRInsn;
             dvmCompilerMarkDefWide(cUnit, rlDest, defStart, defEnd);
         }
     }
 }
	/*
	* Copyright (C) 2009 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.
	*/

	/*
	* This file contains target-independent codegen and support, and is
	* included by:
	*
	* $(TARGET_ARCH)/Codegen-$(TARGET_ARCH_VARIANT).c
	*
	* which combines this common code with specific support found in the
	* applicable directories below this one.
	*
	* Prior to including this file, TGT_LIR should be #defined.
	* For example, for arm:
	* #define TGT_LIR ArmLIR
	* and for x86:
	* #define TGT_LIR X86LIR
	*/


	/* Load a word at base + displacement. Displacement must be word multiple */
	static TGT_LIR loadWordDisp(CompilationUnit cUnit, int rBase,
	int displacement, int rDest)
	{
	return loadBaseDisp(cUnit, NULL, rBase, displacement, rDest, kWord,
	INVALID_SREG);
	}

	static TGT_LIR storeWordDisp(CompilationUnit cUnit, int rBase,
	int displacement, int rSrc)
	{
	return storeBaseDisp(cUnit, rBase, displacement, rSrc, kWord);
	}

	/*
	* Load a Dalvik register into a physical register. Take care when
	* using this routine, as it doesn't perform any bookkeeping regarding
	* register liveness. That is the responsibility of the caller.
	*/
	static void loadValueDirect(CompilationUnit *cUnit, RegLocation rlSrc,
	int reg1)
	{
	rlSrc = dvmCompilerUpdateLoc(cUnit, rlSrc);
	if (rlSrc.location == kLocPhysReg) {
	genRegCopy(cUnit, reg1, rlSrc.lowReg);
	} else if (rlSrc.location == kLocRetval) {
	loadWordDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval), reg1);
	} else {
	assert(rlSrc.location == kLocDalvikFrame);
	loadWordDisp(cUnit, rFP, dvmCompilerS2VReg(cUnit, rlSrc.sRegLow) << 2,
	reg1);
	}
	}

	/*
	* Similar to loadValueDirect, but clobbers and allocates the target
	* register. Should be used when loading to a fixed register (for example,
	* loading arguments to an out of line call.
	*/
	static void loadValueDirectFixed(CompilationUnit *cUnit, RegLocation rlSrc,
	int reg1)
	{
	dvmCompilerClobber(cUnit, reg1);
	dvmCompilerMarkInUse(cUnit, reg1);
	loadValueDirect(cUnit, rlSrc, reg1);
	}

	/*
	* Load a Dalvik register pair into a physical register[s]. Take care when
	* using this routine, as it doesn't perform any bookkeeping regarding
	* register liveness. That is the responsibility of the caller.
	*/
	static void loadValueDirectWide(CompilationUnit *cUnit, RegLocation rlSrc,
	int regLo, int regHi)
	{
	rlSrc = dvmCompilerUpdateLocWide(cUnit, rlSrc);
	if (rlSrc.location == kLocPhysReg) {
	genRegCopyWide(cUnit, regLo, regHi, rlSrc.lowReg, rlSrc.highReg);
	} else if (rlSrc.location == kLocRetval) {
	loadBaseDispWide(cUnit, NULL, rSELF,
	offsetof(Thread, interpSave.retval),
	regLo, regHi, INVALID_SREG);
	} else {
	assert(rlSrc.location == kLocDalvikFrame);
	loadBaseDispWide(cUnit, NULL, rFP,
	dvmCompilerS2VReg(cUnit, rlSrc.sRegLow) << 2,
	regLo, regHi, INVALID_SREG);
	}
	}

	/*
	* Similar to loadValueDirect, but clobbers and allocates the target
	* registers. Should be used when loading to a fixed registers (for example,
	* loading arguments to an out of line call.
	*/
	static void loadValueDirectWideFixed(CompilationUnit *cUnit, RegLocation rlSrc,
	int regLo, int regHi)
	{
	dvmCompilerClobber(cUnit, regLo);
	dvmCompilerClobber(cUnit, regHi);
	dvmCompilerMarkInUse(cUnit, regLo);
	dvmCompilerMarkInUse(cUnit, regHi);
	loadValueDirectWide(cUnit, rlSrc, regLo, regHi);
	}

	static RegLocation loadValue(CompilationUnit *cUnit, RegLocation rlSrc,
	RegisterClass opKind)
	{
	rlSrc = dvmCompilerEvalLoc(cUnit, rlSrc, opKind, false);
	if (rlSrc.location == kLocDalvikFrame) {
	loadValueDirect(cUnit, rlSrc, rlSrc.lowReg);
	rlSrc.location = kLocPhysReg;
	dvmCompilerMarkLive(cUnit, rlSrc.lowReg, rlSrc.sRegLow);
	} else if (rlSrc.location == kLocRetval) {
	loadWordDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval),
	rlSrc.lowReg);
	rlSrc.location = kLocPhysReg;
	dvmCompilerClobber(cUnit, rlSrc.lowReg);
	}
	return rlSrc;
	}

	static void storeValue(CompilationUnit *cUnit, RegLocation rlDest,
	RegLocation rlSrc)
	{
	LIR *defStart;
	LIR *defEnd;
	assert(!rlDest.wide);
	assert(!rlSrc.wide);
	dvmCompilerKillNullCheckedLoc(cUnit, rlDest);
	rlSrc = dvmCompilerUpdateLoc(cUnit, rlSrc);
	rlDest = dvmCompilerUpdateLoc(cUnit, rlDest);
	if (rlSrc.location == kLocPhysReg) {
	if (dvmCompilerIsLive(cUnit, rlSrc.lowReg) \|\|
	(rlDest.location == kLocPhysReg)) {
	// Src is live or Dest has assigned reg.
	rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
	genRegCopy(cUnit, rlDest.lowReg, rlSrc.lowReg);
	} else {
	// Just re-assign the registers. Dest gets Src's regs
	rlDest.lowReg = rlSrc.lowReg;
	dvmCompilerClobber(cUnit, rlSrc.lowReg);
	}
	} else {
	// Load Src either into promoted Dest or temps allocated for Dest
	rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
	loadValueDirect(cUnit, rlSrc, rlDest.lowReg);
	}

	// Dest is now live and dirty (until/if we flush it to home location)
	dvmCompilerMarkLive(cUnit, rlDest.lowReg, rlDest.sRegLow);
	dvmCompilerMarkDirty(cUnit, rlDest.lowReg);


	if (rlDest.location == kLocRetval) {
	storeBaseDisp(cUnit, rSELF, offsetof(Thread, interpSave.retval),
	rlDest.lowReg, kWord);
	dvmCompilerClobber(cUnit, rlDest.lowReg);
	} else {
	dvmCompilerResetDefLoc(cUnit, rlDest);
	if (dvmCompilerLiveOut(cUnit, rlDest.sRegLow)) {
	defStart = (LIR *)cUnit->lastLIRInsn;
	int vReg = dvmCompilerS2VReg(cUnit, rlDest.sRegLow);
	storeBaseDisp(cUnit, rFP, vReg << 2, rlDest.lowReg, kWord);
	dvmCompilerMarkClean(cUnit, rlDest.lowReg);
	defEnd = (LIR *)cUnit->lastLIRInsn;
	dvmCompilerMarkDef(cUnit, rlDest, defStart, defEnd);
	}
	}
	}

	static RegLocation loadValueWide(CompilationUnit *cUnit, RegLocation rlSrc,
	RegisterClass opKind)
	{
	assert(rlSrc.wide);
	rlSrc = dvmCompilerEvalLoc(cUnit, rlSrc, opKind, false);
	if (rlSrc.location == kLocDalvikFrame) {
	loadValueDirectWide(cUnit, rlSrc, rlSrc.lowReg, rlSrc.highReg);
	rlSrc.location = kLocPhysReg;
	dvmCompilerMarkLive(cUnit, rlSrc.lowReg, rlSrc.sRegLow);
	dvmCompilerMarkLive(cUnit, rlSrc.highReg,
	dvmCompilerSRegHi(rlSrc.sRegLow));
	} else if (rlSrc.location == kLocRetval) {
	loadBaseDispWide(cUnit, NULL, rSELF,
	offsetof(Thread, interpSave.retval),
	rlSrc.lowReg, rlSrc.highReg, INVALID_SREG);
	rlSrc.location = kLocPhysReg;
	dvmCompilerClobber(cUnit, rlSrc.lowReg);
	dvmCompilerClobber(cUnit, rlSrc.highReg);
	}
	return rlSrc;
	}

	static void storeValueWide(CompilationUnit *cUnit, RegLocation rlDest,
	RegLocation rlSrc)
	{
	LIR *defStart;
	LIR *defEnd;
	assert(FPREG(rlSrc.lowReg)==FPREG(rlSrc.highReg));
	assert(rlDest.wide);
	assert(rlSrc.wide);
	dvmCompilerKillNullCheckedLoc(cUnit, rlDest);
	if (rlSrc.location == kLocPhysReg) {
	if (dvmCompilerIsLive(cUnit, rlSrc.lowReg) \|\|
	dvmCompilerIsLive(cUnit, rlSrc.highReg) \|\|
	(rlDest.location == kLocPhysReg)) {
	// Src is live or Dest has assigned reg.
	rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
	genRegCopyWide(cUnit, rlDest.lowReg, rlDest.highReg,
	rlSrc.lowReg, rlSrc.highReg);
	} else {
	// Just re-assign the registers. Dest gets Src's regs
	rlDest.lowReg = rlSrc.lowReg;
	rlDest.highReg = rlSrc.highReg;
	dvmCompilerClobber(cUnit, rlSrc.lowReg);
	dvmCompilerClobber(cUnit, rlSrc.highReg);
	}
	} else {
	// Load Src either into promoted Dest or temps allocated for Dest
	rlDest = dvmCompilerEvalLoc(cUnit, rlDest, kAnyReg, false);
	loadValueDirectWide(cUnit, rlSrc, rlDest.lowReg,
	rlDest.highReg);
	}

	// Dest is now live and dirty (until/if we flush it to home location)
	dvmCompilerMarkLive(cUnit, rlDest.lowReg, rlDest.sRegLow);
	dvmCompilerMarkLive(cUnit, rlDest.highReg,
	dvmCompilerSRegHi(rlDest.sRegLow));
	dvmCompilerMarkDirty(cUnit, rlDest.lowReg);
	dvmCompilerMarkDirty(cUnit, rlDest.highReg);
	dvmCompilerMarkPair(cUnit, rlDest.lowReg, rlDest.highReg);


	if (rlDest.location == kLocRetval) {
	storeBaseDispWide(cUnit, rSELF, offsetof(Thread, interpSave.retval),
	rlDest.lowReg, rlDest.highReg);
	dvmCompilerClobber(cUnit, rlDest.lowReg);
	dvmCompilerClobber(cUnit, rlDest.highReg);
	} else {
	dvmCompilerResetDefLocWide(cUnit, rlDest);
	if (dvmCompilerLiveOut(cUnit, rlDest.sRegLow) \|\|
	dvmCompilerLiveOut(cUnit, dvmCompilerSRegHi(rlDest.sRegLow))) {
	defStart = (LIR *)cUnit->lastLIRInsn;
	int vReg = dvmCompilerS2VReg(cUnit, rlDest.sRegLow);
	assert((vReg+1) == dvmCompilerS2VReg(cUnit,
	dvmCompilerSRegHi(rlDest.sRegLow)));
	storeBaseDispWide(cUnit, rFP, vReg << 2, rlDest.lowReg,
	rlDest.highReg);
	dvmCompilerMarkClean(cUnit, rlDest.lowReg);
	dvmCompilerMarkClean(cUnit, rlDest.highReg);
	defEnd = (LIR *)cUnit->lastLIRInsn;
	dvmCompilerMarkDefWide(cUnit, rlDest, defStart, defEnd);
	}
	}
	}