x86_64: TargetReg update for x86
Also includes changes in common code. Elimination of use of TargetReg
with one parameter and direct access to special target registers.
Change-Id: Ied2c1f87d4d1e4345248afe74bca40487a46a371
Signed-off-by: Serguei Katkov <serguei.i.katkov@intel.com>
Signed-off-by: Chao-ying Fu <chao-ying.fu@intel.com>
diff --git a/compiler/dex/quick/arm64/codegen_arm64.h b/compiler/dex/quick/arm64/codegen_arm64.h
index 7db6ab6..8692c6c 100644
--- a/compiler/dex/quick/arm64/codegen_arm64.h
+++ b/compiler/dex/quick/arm64/codegen_arm64.h
@@ -110,6 +110,10 @@
RegStorage reg = TargetReg(symbolic_reg);
return (reg.Is64Bit() ? reg : As64BitReg(reg));
}
+ RegStorage TargetPtrReg(SpecialTargetRegister symbolic_reg) OVERRIDE {
+ RegStorage reg = TargetReg(symbolic_reg);
+ return (reg.Is64Bit() ? reg : As64BitReg(reg));
+ }
RegStorage GetArgMappingToPhysicalReg(int arg_num);
RegLocation GetReturnAlt();
RegLocation GetReturnWideAlt();
diff --git a/compiler/dex/quick/codegen_util.cc b/compiler/dex/quick/codegen_util.cc
index 5ba0d3f..5870d22 100644
--- a/compiler/dex/quick/codegen_util.cc
+++ b/compiler/dex/quick/codegen_util.cc
@@ -1184,8 +1184,8 @@
// resolve these invokes to the same method, so we don't care which one we record here.
data_target->operands[2] = type;
}
- // TODO: This is actually a pointer, not a reference.
- LIR* load_pc_rel = OpPcRelLoad(TargetRefReg(symbolic_reg), data_target);
+ // Loads a code pointer. Code from oat file can be mapped anywhere.
+ LIR* load_pc_rel = OpPcRelLoad(TargetPtrReg(symbolic_reg), data_target);
AppendLIR(load_pc_rel);
DCHECK_NE(cu_->instruction_set, kMips) << reinterpret_cast<void*>(data_target);
}
@@ -1201,6 +1201,7 @@
// resolve these invokes to the same method, so we don't care which one we record here.
data_target->operands[2] = type;
}
+ // Loads an ArtMethod pointer, which is a reference as it lives in the heap.
LIR* load_pc_rel = OpPcRelLoad(TargetRefReg(symbolic_reg), data_target);
AppendLIR(load_pc_rel);
DCHECK_NE(cu_->instruction_set, kMips) << reinterpret_cast<void*>(data_target);
@@ -1212,6 +1213,7 @@
if (data_target == nullptr) {
data_target = AddWordData(&class_literal_list_, type_idx);
}
+ // Loads a Class pointer, which is a reference as it lives in the heap.
LIR* load_pc_rel = OpPcRelLoad(TargetRefReg(symbolic_reg), data_target);
AppendLIR(load_pc_rel);
}
diff --git a/compiler/dex/quick/gen_common.cc b/compiler/dex/quick/gen_common.cc
index fe90562..dafefea 100644
--- a/compiler/dex/quick/gen_common.cc
+++ b/compiler/dex/quick/gen_common.cc
@@ -368,7 +368,7 @@
if (!use_direct_type_ptr) {
mir_to_lir->LoadClassType(type_idx, kArg0);
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pAllocArrayResolved);
- mir_to_lir->CallRuntimeHelperRegMethodRegLocation(func_offset, mir_to_lir->TargetReg(kArg0),
+ mir_to_lir->CallRuntimeHelperRegMethodRegLocation(func_offset, mir_to_lir->TargetReg(kArg0, false),
rl_src, true);
} else {
// Use the direct pointer.
@@ -431,8 +431,8 @@
} else {
GenFilledNewArrayCall<4>(this, cu_, elems, type_idx);
}
- FreeTemp(TargetReg(kArg2));
- FreeTemp(TargetReg(kArg1));
+ FreeTemp(TargetReg(kArg2, false));
+ FreeTemp(TargetReg(kArg1, false));
/*
* NOTE: the implicit target for Instruction::FILLED_NEW_ARRAY is the
* return region. Because AllocFromCode placed the new array
@@ -440,7 +440,8 @@
* added, it may be necessary to additionally copy all return
* values to a home location in thread-local storage
*/
- LockTemp(TargetReg(kRet0));
+ RegStorage ref_reg = TargetRefReg(kRet0);
+ LockTemp(ref_reg);
// TODO: use the correct component size, currently all supported types
// share array alignment with ints (see comment at head of function)
@@ -460,7 +461,7 @@
RegLocation loc = UpdateLoc(info->args[i]);
if (loc.location == kLocPhysReg) {
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- Store32Disp(TargetReg(kSp), SRegOffset(loc.s_reg_low), loc.reg);
+ Store32Disp(TargetPtrReg(kSp), SRegOffset(loc.s_reg_low), loc.reg);
}
}
/*
@@ -480,7 +481,7 @@
break;
case kX86:
case kX86_64:
- FreeTemp(TargetReg(kRet0));
+ FreeTemp(ref_reg);
r_val = AllocTemp();
break;
case kMips:
@@ -490,9 +491,9 @@
}
// Set up source pointer
RegLocation rl_first = info->args[0];
- OpRegRegImm(kOpAdd, r_src, TargetReg(kSp), SRegOffset(rl_first.s_reg_low));
+ OpRegRegImm(kOpAdd, r_src, TargetPtrReg(kSp), SRegOffset(rl_first.s_reg_low));
// Set up the target pointer
- OpRegRegImm(kOpAdd, r_dst, TargetReg(kRet0),
+ OpRegRegImm(kOpAdd, r_dst, ref_reg,
mirror::Array::DataOffset(component_size).Int32Value());
// Set up the loop counter (known to be > 0)
LoadConstant(r_idx, elems - 1);
@@ -510,14 +511,14 @@
OpDecAndBranch(kCondGe, r_idx, target);
if (cu_->instruction_set == kX86 || cu_->instruction_set == kX86_64) {
// Restore the target pointer
- OpRegRegImm(kOpAdd, TargetReg(kRet0), r_dst,
+ OpRegRegImm(kOpAdd, ref_reg, r_dst,
-mirror::Array::DataOffset(component_size).Int32Value());
}
} else if (!info->is_range) {
// TUNING: interleave
for (int i = 0; i < elems; i++) {
RegLocation rl_arg = LoadValue(info->args[i], kCoreReg);
- Store32Disp(TargetReg(kRet0),
+ Store32Disp(ref_reg,
mirror::Array::DataOffset(component_size).Int32Value() + i * 4, rl_arg.reg);
// If the LoadValue caused a temp to be allocated, free it
if (IsTemp(rl_arg.reg)) {
@@ -552,7 +553,7 @@
storage_index_, true);
}
// Copy helper's result into r_base, a no-op on all but MIPS.
- m2l_->OpRegCopy(r_base_, m2l_->TargetReg(kRet0));
+ m2l_->OpRegCopy(r_base_, m2l_->TargetRefReg(kRet0));
m2l_->OpUnconditionalBranch(cont_);
}
@@ -617,7 +618,7 @@
// The slow path is invoked if the r_base is NULL or the class pointed
// to by it is not initialized.
LIR* unresolved_branch = OpCmpImmBranch(kCondEq, r_base, 0, NULL);
- RegStorage r_tmp = TargetReg(kArg2);
+ RegStorage r_tmp = TargetReg(kArg2, false);
LockTemp(r_tmp);
LIR* uninit_branch = OpCmpMemImmBranch(kCondLt, r_tmp, r_base,
mirror::Class::StatusOffset().Int32Value(),
@@ -693,10 +694,10 @@
// May do runtime call so everything to home locations.
FlushAllRegs();
// Using fixed register to sync with possible call to runtime support.
- RegStorage r_method = TargetReg(kArg1);
+ RegStorage r_method = TargetRefReg(kArg1);
LockTemp(r_method);
LoadCurrMethodDirect(r_method);
- r_base = TargetReg(kArg0);
+ r_base = TargetRefReg(kArg0);
LockTemp(r_base);
LoadRefDisp(r_method, mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(), r_base,
kNotVolatile);
@@ -710,7 +711,7 @@
// The slow path is invoked if the r_base is NULL or the class pointed
// to by it is not initialized.
LIR* unresolved_branch = OpCmpImmBranch(kCondEq, r_base, 0, NULL);
- RegStorage r_tmp = TargetReg(kArg2);
+ RegStorage r_tmp = TargetReg(kArg2, false);
LockTemp(r_tmp);
LIR* uninit_branch = OpCmpMemImmBranch(kCondLt, r_tmp, r_base,
mirror::Class::StatusOffset().Int32Value(),
@@ -954,7 +955,7 @@
m2l_->CallRuntimeHelperImmReg(QUICK_ENTRYPOINT_OFFSET(4, pInitializeType), type_idx_,
rl_method_.reg, true);
}
- m2l_->OpRegCopy(rl_result_.reg, m2l_->TargetReg(kRet0));
+ m2l_->OpRegCopy(rl_result_.reg, m2l_->TargetRefReg(kRet0));
m2l_->OpUnconditionalBranch(cont_);
}
@@ -1071,10 +1072,10 @@
mir_to_lir->LoadClassType(type_idx, kArg0);
if (!is_type_initialized) {
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pAllocObjectResolved);
- mir_to_lir->CallRuntimeHelperRegMethod(func_offset, mir_to_lir->TargetReg(kArg0), true);
+ mir_to_lir->CallRuntimeHelperRegMethod(func_offset, mir_to_lir->TargetRefReg(kArg0), true);
} else {
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pAllocObjectInitialized);
- mir_to_lir->CallRuntimeHelperRegMethod(func_offset, mir_to_lir->TargetReg(kArg0), true);
+ mir_to_lir->CallRuntimeHelperRegMethod(func_offset, mir_to_lir->TargetRefReg(kArg0), true);
}
} else {
// Use the direct pointer.
@@ -1122,9 +1123,6 @@
}
}
-#define IsSameReg(r1, r2) \
- (GetRegInfo(r1)->Master()->GetReg().GetReg() == GetRegInfo(r2)->Master()->GetReg().GetReg())
-
// For final classes there are no sub-classes to check and so we can answer the instance-of
// question with simple comparisons.
void Mir2Lir::GenInstanceofFinal(bool use_declaring_class, uint32_t type_idx, RegLocation rl_dest,
@@ -1209,15 +1207,15 @@
CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(4, pInitializeTypeAndVerifyAccess),
type_idx, true);
}
- OpRegCopy(class_reg, TargetReg(kRet0)); // Align usage with fast path
- LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
+ OpRegCopy(class_reg, TargetRefReg(kRet0)); // Align usage with fast path
+ LoadValueDirectFixed(rl_src, TargetRefReg(kArg0)); // kArg0 <= ref
} else if (use_declaring_class) {
- LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
+ LoadValueDirectFixed(rl_src, TargetRefReg(kArg0)); // kArg0 <= ref
LoadRefDisp(method_reg, mirror::ArtMethod::DeclaringClassOffset().Int32Value(),
class_reg, kNotVolatile);
} else {
// Load dex cache entry into class_reg (kArg2)
- LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
+ LoadValueDirectFixed(rl_src, TargetRefReg(kArg0)); // kArg0 <= ref
LoadRefDisp(method_reg, mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
class_reg, kNotVolatile);
int32_t offset_of_type = ClassArray::OffsetOfElement(type_idx).Int32Value();
@@ -1233,7 +1231,7 @@
CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(4, pInitializeType), type_idx, true);
}
OpRegCopy(TargetRefReg(kArg2), TargetRefReg(kRet0)); // Align usage with fast path
- LoadValueDirectFixed(rl_src, TargetReg(kArg0)); /* reload Ref */
+ LoadValueDirectFixed(rl_src, TargetRefReg(kArg0)); /* reload Ref */
// Rejoin code paths
LIR* hop_target = NewLIR0(kPseudoTargetLabel);
hop_branch->target = hop_target;
@@ -1245,7 +1243,7 @@
// On MIPS rArg0 != rl_result, place false in result if branch is taken.
LoadConstant(rl_result.reg, 0);
}
- LIR* branch1 = OpCmpImmBranch(kCondEq, TargetReg(kArg0), 0, NULL);
+ LIR* branch1 = OpCmpImmBranch(kCondEq, TargetRefReg(kArg0), 0, NULL);
/* load object->klass_ */
DCHECK_EQ(mirror::Object::ClassOffset().Int32Value(), 0);
@@ -1256,14 +1254,14 @@
if (type_known_final) {
// rl_result == ref == null == 0.
if (cu_->instruction_set == kThumb2) {
- OpRegReg(kOpCmp, TargetReg(kArg1), TargetReg(kArg2)); // Same?
+ OpRegReg(kOpCmp, TargetRefReg(kArg1), TargetRefReg(kArg2)); // Same?
LIR* it = OpIT(kCondEq, "E"); // if-convert the test
LoadConstant(rl_result.reg, 1); // .eq case - load true
LoadConstant(rl_result.reg, 0); // .ne case - load false
OpEndIT(it);
} else {
LoadConstant(rl_result.reg, 0); // ne case - load false
- branchover = OpCmpBranch(kCondNe, TargetReg(kArg1), TargetReg(kArg2), NULL);
+ branchover = OpCmpBranch(kCondNe, TargetRefReg(kArg1), TargetRefReg(kArg2), NULL);
LoadConstant(rl_result.reg, 1); // eq case - load true
}
} else {
@@ -1274,11 +1272,11 @@
LIR* it = nullptr;
if (!type_known_abstract) {
/* Uses conditional nullification */
- OpRegReg(kOpCmp, TargetReg(kArg1), TargetReg(kArg2)); // Same?
+ OpRegReg(kOpCmp, TargetRefReg(kArg1), TargetRefReg(kArg2)); // Same?
it = OpIT(kCondEq, "EE"); // if-convert the test
- LoadConstant(TargetReg(kArg0), 1); // .eq case - load true
+ LoadConstant(TargetReg(kArg0, false), 1); // .eq case - load true
}
- OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .ne case - arg0 <= class
+ OpRegCopy(TargetRefReg(kArg0), TargetRefReg(kArg2)); // .ne case - arg0 <= class
OpReg(kOpBlx, r_tgt); // .ne case: helper(class, ref->class)
if (it != nullptr) {
OpEndIT(it);
@@ -1288,12 +1286,12 @@
if (!type_known_abstract) {
/* Uses branchovers */
LoadConstant(rl_result.reg, 1); // assume true
- branchover = OpCmpBranch(kCondEq, TargetReg(kArg1), TargetReg(kArg2), NULL);
+ branchover = OpCmpBranch(kCondEq, TargetRefReg(kArg1), TargetRefReg(kArg2), NULL);
}
RegStorage r_tgt = cu_->target64 ?
LoadHelper(QUICK_ENTRYPOINT_OFFSET(8, pInstanceofNonTrivial)) :
LoadHelper(QUICK_ENTRYPOINT_OFFSET(4, pInstanceofNonTrivial));
- OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .ne case - arg0 <= class
+ OpRegCopy(TargetRefReg(kArg0), TargetRefReg(kArg2)); // .ne case - arg0 <= class
OpReg(kOpBlx, r_tgt); // .ne case: helper(class, ref->class)
FreeTemp(r_tgt);
}
@@ -1424,15 +1422,15 @@
GenerateTargetLabel();
if (load_) {
- m2l_->LoadRefDisp(m2l_->TargetReg(kArg0), mirror::Object::ClassOffset().Int32Value(),
- m2l_->TargetReg(kArg1), kNotVolatile);
+ m2l_->LoadRefDisp(m2l_->TargetRefReg(kArg0), mirror::Object::ClassOffset().Int32Value(),
+ m2l_->TargetRefReg(kArg1), kNotVolatile);
}
if (m2l_->cu_->target64) {
- m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pCheckCast), m2l_->TargetReg(kArg2),
- m2l_->TargetReg(kArg1), true);
+ m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pCheckCast), m2l_->TargetRefReg(kArg2),
+ m2l_->TargetRefReg(kArg1), true);
} else {
- m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pCheckCast), m2l_->TargetReg(kArg2),
- m2l_->TargetReg(kArg1), true);
+ m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pCheckCast), m2l_->TargetRefReg(kArg2),
+ m2l_->TargetRefReg(kArg1), true);
}
m2l_->OpUnconditionalBranch(cont_);
@@ -1444,7 +1442,7 @@
if (type_known_abstract) {
// Easier case, run slow path if target is non-null (slow path will load from target)
- LIR* branch = OpCmpImmBranch(kCondNe, TargetReg(kArg0), 0, nullptr);
+ LIR* branch = OpCmpImmBranch(kCondNe, TargetRefReg(kArg0), 0, nullptr);
LIR* cont = NewLIR0(kPseudoTargetLabel);
AddSlowPath(new (arena_) SlowPath(this, branch, cont, true));
} else {
@@ -1453,7 +1451,7 @@
// slow path if the classes are not equal.
/* Null is OK - continue */
- LIR* branch1 = OpCmpImmBranch(kCondEq, TargetReg(kArg0), 0, nullptr);
+ LIR* branch1 = OpCmpImmBranch(kCondEq, TargetRefReg(kArg0), 0, nullptr);
/* load object->klass_ */
DCHECK_EQ(mirror::Object::ClassOffset().Int32Value(), 0);
LoadRefDisp(TargetRefReg(kArg0), mirror::Object::ClassOffset().Int32Value(),
@@ -1675,13 +1673,13 @@
// If we haven't already generated the code use the callout function.
if (!done) {
FlushAllRegs(); /* Send everything to home location */
- LoadValueDirectFixed(rl_src2, TargetReg(kArg1));
+ LoadValueDirectFixed(rl_src2, TargetReg(kArg1, false));
RegStorage r_tgt = cu_->target64 ?
CallHelperSetup(QUICK_ENTRYPOINT_OFFSET(8, pIdivmod)) :
CallHelperSetup(QUICK_ENTRYPOINT_OFFSET(4, pIdivmod));
- LoadValueDirectFixed(rl_src1, TargetReg(kArg0));
+ LoadValueDirectFixed(rl_src1, TargetReg(kArg0, false));
if (check_zero) {
- GenDivZeroCheck(TargetReg(kArg1));
+ GenDivZeroCheck(TargetReg(kArg1, false));
}
// NOTE: callout here is not a safepoint.
if (cu_->target64) {
@@ -1945,13 +1943,13 @@
if (!done) {
FlushAllRegs(); /* Everything to home location. */
- LoadValueDirectFixed(rl_src, TargetReg(kArg0));
- Clobber(TargetReg(kArg0));
+ LoadValueDirectFixed(rl_src, TargetReg(kArg0, false));
+ Clobber(TargetReg(kArg0, false));
if (cu_->target64) {
- CallRuntimeHelperRegImm(QUICK_ENTRYPOINT_OFFSET(8, pIdivmod), TargetReg(kArg0), lit,
+ CallRuntimeHelperRegImm(QUICK_ENTRYPOINT_OFFSET(8, pIdivmod), TargetReg(kArg0, false), lit,
false);
} else {
- CallRuntimeHelperRegImm(QUICK_ENTRYPOINT_OFFSET(4, pIdivmod), TargetReg(kArg0), lit,
+ CallRuntimeHelperRegImm(QUICK_ENTRYPOINT_OFFSET(4, pIdivmod), TargetReg(kArg0, false), lit,
false);
}
if (is_div)
@@ -1985,7 +1983,7 @@
bool call_out = false;
bool check_zero = false;
ThreadOffset<pointer_size> func_offset(-1);
- int ret_reg = mir_to_lir->TargetReg(kRet0).GetReg();
+ int ret_reg = mir_to_lir->TargetReg(kRet0, false).GetReg();
switch (opcode) {
case Instruction::NOT_LONG:
@@ -2033,7 +2031,7 @@
return;
} else {
call_out = true;
- ret_reg = mir_to_lir->TargetReg(kRet0).GetReg();
+ ret_reg = mir_to_lir->TargetReg(kRet0, false).GetReg();
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pLmul);
}
break;
@@ -2045,7 +2043,7 @@
}
call_out = true;
check_zero = true;
- ret_reg = mir_to_lir->TargetReg(kRet0).GetReg();
+ ret_reg = mir_to_lir->TargetReg(kRet0, false).GetReg();
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pLdiv);
break;
case Instruction::REM_LONG:
@@ -2058,8 +2056,8 @@
check_zero = true;
func_offset = QUICK_ENTRYPOINT_OFFSET(pointer_size, pLmod);
/* NOTE - for Arm, result is in kArg2/kArg3 instead of kRet0/kRet1 */
- ret_reg = (cu->instruction_set == kThumb2) ? mir_to_lir->TargetReg(kArg2).GetReg() :
- mir_to_lir->TargetReg(kRet0).GetReg();
+ ret_reg = (cu->instruction_set == kThumb2) ? mir_to_lir->TargetReg(kArg2, false).GetReg() :
+ mir_to_lir->TargetReg(kRet0, false).GetReg();
break;
case Instruction::AND_LONG_2ADDR:
case Instruction::AND_LONG:
@@ -2102,14 +2100,11 @@
} else {
mir_to_lir->FlushAllRegs(); /* Send everything to home location */
if (check_zero) {
- RegStorage r_tmp1 = RegStorage::MakeRegPair(mir_to_lir->TargetReg(kArg0),
- mir_to_lir->TargetReg(kArg1));
- RegStorage r_tmp2 = RegStorage::MakeRegPair(mir_to_lir->TargetReg(kArg2),
- mir_to_lir->TargetReg(kArg3));
+ RegStorage r_tmp1 = mir_to_lir->TargetReg(kArg0, kArg1);
+ RegStorage r_tmp2 = mir_to_lir->TargetReg(kArg2, kArg3);
mir_to_lir->LoadValueDirectWideFixed(rl_src2, r_tmp2);
RegStorage r_tgt = mir_to_lir->CallHelperSetup(func_offset);
- mir_to_lir->GenDivZeroCheckWide(RegStorage::MakeRegPair(mir_to_lir->TargetReg(kArg2),
- mir_to_lir->TargetReg(kArg3)));
+ mir_to_lir->GenDivZeroCheckWide(mir_to_lir->TargetReg(kArg2, kArg3));
mir_to_lir->LoadValueDirectWideFixed(rl_src1, r_tmp1);
// NOTE: callout here is not a safepoint
mir_to_lir->CallHelper(r_tgt, func_offset, false /* not safepoint */);
@@ -2117,7 +2112,7 @@
mir_to_lir->CallRuntimeHelperRegLocationRegLocation(func_offset, rl_src1, rl_src2, false);
}
// Adjust return regs in to handle case of rem returning kArg2/kArg3
- if (ret_reg == mir_to_lir->TargetReg(kRet0).GetReg())
+ if (ret_reg == mir_to_lir->TargetReg(kRet0, false).GetReg())
rl_result = mir_to_lir->GetReturnWide(kCoreReg);
else
rl_result = mir_to_lir->GetReturnWideAlt();
diff --git a/compiler/dex/quick/gen_invoke.cc b/compiler/dex/quick/gen_invoke.cc
index c75e681..5631721 100644
--- a/compiler/dex/quick/gen_invoke.cc
+++ b/compiler/dex/quick/gen_invoke.cc
@@ -132,7 +132,7 @@
template <size_t pointer_size>
void Mir2Lir::CallRuntimeHelperImm(ThreadOffset<pointer_size> helper_offset, int arg0, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -142,7 +142,7 @@
void Mir2Lir::CallRuntimeHelperReg(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- OpRegCopy(TargetReg(kArg0), arg0);
+ OpRegCopy(TargetReg(kArg0, arg0.Is64Bit()), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -153,14 +153,13 @@
RegLocation arg0, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
if (arg0.wide == 0) {
- LoadValueDirectFixed(arg0, TargetReg(arg0.fp ? kFArg0 : kArg0));
+ LoadValueDirectFixed(arg0, TargetReg(arg0.fp ? kFArg0 : kArg0, arg0));
} else {
RegStorage r_tmp;
if (cu_->target64) {
- r_tmp = RegStorage::Solo64(TargetReg(kArg0).GetReg());
+ r_tmp = TargetReg(kArg0, true);
} else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(arg0.fp ? kFArg0 : kArg0),
- TargetReg(arg0.fp ? kFArg1 : kArg1));
+ r_tmp = TargetReg(arg0.fp ? kFArg0 : kArg0, arg0.fp ? kFArg1 : kArg1);
}
LoadValueDirectWideFixed(arg0, r_tmp);
}
@@ -173,8 +172,8 @@
void Mir2Lir::CallRuntimeHelperImmImm(ThreadOffset<pointer_size> helper_offset, int arg0, int arg1,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- LoadConstant(TargetReg(kArg0), arg0);
- LoadConstant(TargetReg(kArg1), arg1);
+ LoadConstant(TargetReg(kArg0, false), arg0);
+ LoadConstant(TargetReg(kArg1, false), arg1);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -193,14 +192,14 @@
} else {
if (cu_->instruction_set == kMips) {
// skip kArg1 for stack alignment.
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg2), TargetReg(kArg3));
+ r_tmp = TargetReg(kArg2, kArg3);
} else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg1), TargetReg(kArg2));
+ r_tmp = TargetReg(kArg1, kArg2);
}
}
LoadValueDirectWideFixed(arg1, r_tmp);
}
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -213,7 +212,7 @@
RegStorage r_tgt = CallHelperSetup(helper_offset);
DCHECK(!arg0.wide);
LoadValueDirectFixed(arg0, TargetReg(kArg0, arg0));
- LoadConstant(TargetReg(kArg1), arg1);
+ LoadConstant(TargetReg(kArg1, false), arg1);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -225,7 +224,7 @@
RegStorage arg1, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
OpRegCopy(TargetReg(kArg1, arg1.Is64Bit()), arg1);
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -235,8 +234,8 @@
void Mir2Lir::CallRuntimeHelperRegImm(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
int arg1, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- OpRegCopy(TargetReg(kArg0), arg0);
- LoadConstant(TargetReg(kArg1), arg1);
+ OpRegCopy(TargetReg(kArg0, arg0.Is64Bit()), arg0);
+ LoadConstant(TargetReg(kArg1, false), arg1);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -246,8 +245,8 @@
void Mir2Lir::CallRuntimeHelperImmMethod(ThreadOffset<pointer_size> helper_offset, int arg0,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- LoadCurrMethodDirect(TargetReg(kArg1));
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadCurrMethodDirect(TargetRefReg(kArg1));
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -257,7 +256,7 @@
void Mir2Lir::CallRuntimeHelperRegMethod(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- DCHECK(!IsSameReg(TargetReg(kArg1), arg0));
+ DCHECK(!IsSameReg(TargetReg(kArg1, arg0.Is64Bit()), arg0));
if (TargetReg(kArg0, arg0.Is64Bit()).NotExactlyEquals(arg0)) {
OpRegCopy(TargetReg(kArg0, arg0.Is64Bit()), arg0);
}
@@ -272,7 +271,7 @@
RegStorage arg0, RegLocation arg2,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- DCHECK(!IsSameReg(TargetReg(kArg1), arg0));
+ DCHECK(!IsSameReg(TargetReg(kArg1, arg0.Is64Bit()), arg0));
if (TargetReg(kArg0, arg0.Is64Bit()).NotExactlyEquals(arg0)) {
OpRegCopy(TargetReg(kArg0, arg0.Is64Bit()), arg0);
}
@@ -289,7 +288,7 @@
RegLocation arg0, RegLocation arg1,
bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- if (cu_->instruction_set == kArm64) {
+ if (cu_->instruction_set == kArm64 || cu_->instruction_set == kX86_64) {
RegStorage arg0_reg = TargetReg((arg0.fp) ? kFArg0 : kArg0, arg0);
RegStorage arg1_reg;
@@ -311,78 +310,47 @@
LoadValueDirectWideFixed(arg1, arg1_reg);
}
} else {
+ DCHECK(!cu_->target64);
if (arg0.wide == 0) {
- LoadValueDirectFixed(arg0, arg0.fp ? TargetReg(kFArg0) : TargetReg(kArg0));
+ LoadValueDirectFixed(arg0, arg0.fp ? TargetReg(kFArg0, false) : TargetReg(kArg0, false));
if (arg1.wide == 0) {
if (cu_->instruction_set == kMips) {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg1));
- } else if (cu_->instruction_set == kArm64) {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg1) : TargetReg(kArg1));
- } else if (cu_->instruction_set == kX86_64) {
- if (arg0.fp) {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg1) : TargetReg(kArg0));
- } else {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg0) : TargetReg(kArg1));
- }
+ LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2, false) : TargetReg(kArg1, false));
} else {
- LoadValueDirectFixed(arg1, TargetReg(kArg1));
+ LoadValueDirectFixed(arg1, TargetReg(kArg1, false));
}
} else {
if (cu_->instruction_set == kMips) {
RegStorage r_tmp;
if (arg1.fp) {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kFArg2), TargetReg(kFArg3));
+ r_tmp = TargetReg(kFArg2, kFArg3);
} else {
// skip kArg1 for stack alignment.
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg2), TargetReg(kArg3));
+ r_tmp = TargetReg(kArg2, kArg3);
}
LoadValueDirectWideFixed(arg1, r_tmp);
} else {
RegStorage r_tmp;
- if (cu_->target64) {
- r_tmp = RegStorage::Solo64(TargetReg(kArg1).GetReg());
- } else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg1), TargetReg(kArg2));
- }
+ r_tmp = TargetReg(kArg1, kArg2);
LoadValueDirectWideFixed(arg1, r_tmp);
}
}
} else {
RegStorage r_tmp;
if (arg0.fp) {
- if (cu_->target64) {
- r_tmp = RegStorage::FloatSolo64(TargetReg(kFArg0).GetReg());
- } else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kFArg0), TargetReg(kFArg1));
- }
+ r_tmp = TargetReg(kFArg0, kFArg1);
} else {
- if (cu_->target64) {
- r_tmp = RegStorage::Solo64(TargetReg(kArg0).GetReg());
- } else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg0), TargetReg(kArg1));
- }
+ r_tmp = TargetReg(kArg0, kArg1);
}
LoadValueDirectWideFixed(arg0, r_tmp);
if (arg1.wide == 0) {
- if (cu_->target64) {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg1) : TargetReg(kArg1));
- } else {
- LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg2));
- }
+ LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2, false) : TargetReg(kArg2, false));
} else {
RegStorage r_tmp;
if (arg1.fp) {
- if (cu_->target64) {
- r_tmp = RegStorage::FloatSolo64(TargetReg(kFArg1).GetReg());
- } else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kFArg2), TargetReg(kFArg3));
- }
+ r_tmp = TargetReg(kFArg2, kFArg3);
} else {
- if (cu_->target64) {
- r_tmp = RegStorage::Solo64(TargetReg(kArg1).GetReg());
- } else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg2), TargetReg(kArg3));
- }
+ r_tmp = TargetReg(kArg2, kArg3);
}
LoadValueDirectWideFixed(arg1, r_tmp);
}
@@ -395,8 +363,8 @@
RegLocation arg1, bool safepoint_pc)
void Mir2Lir::CopyToArgumentRegs(RegStorage arg0, RegStorage arg1) {
- if (IsSameReg(arg1, TargetReg(kArg0))) {
- if (IsSameReg(arg0, TargetReg(kArg1))) {
+ if (IsSameReg(arg1, TargetReg(kArg0, arg1.Is64Bit()))) {
+ if (IsSameReg(arg0, TargetReg(kArg1, arg0.Is64Bit()))) {
// Swap kArg0 and kArg1 with kArg2 as temp.
OpRegCopy(TargetReg(kArg2, arg1.Is64Bit()), arg1);
OpRegCopy(TargetReg(kArg0, arg0.Is64Bit()), arg0);
@@ -427,7 +395,7 @@
RegStorage arg1, int arg2, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
CopyToArgumentRegs(arg0, arg1);
- LoadConstant(TargetReg(kArg2), arg2);
+ LoadConstant(TargetReg(kArg2, false), arg2);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -439,8 +407,8 @@
int arg0, RegLocation arg2, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
LoadValueDirectFixed(arg2, TargetReg(kArg2, arg2));
- LoadCurrMethodDirect(TargetReg(kArg1));
- LoadConstant(TargetReg(kArg0, arg0), arg0);
+ LoadCurrMethodDirect(TargetRefReg(kArg1));
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -451,9 +419,9 @@
void Mir2Lir::CallRuntimeHelperImmMethodImm(ThreadOffset<pointer_size> helper_offset, int arg0,
int arg2, bool safepoint_pc) {
RegStorage r_tgt = CallHelperSetup(helper_offset);
- LoadCurrMethodDirect(TargetReg(kArg1));
- LoadConstant(TargetReg(kArg2), arg2);
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadCurrMethodDirect(TargetRefReg(kArg1));
+ LoadConstant(TargetReg(kArg2, false), arg2);
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -474,11 +442,11 @@
if (cu_->target64) {
r_tmp = TargetReg(kArg2, true);
} else {
- r_tmp = RegStorage::MakeRegPair(TargetReg(kArg2), TargetReg(kArg3));
+ r_tmp = TargetReg(kArg2, kArg3);
}
LoadValueDirectWideFixed(arg2, r_tmp);
}
- LoadConstant(TargetReg(kArg0), arg0);
+ LoadConstant(TargetReg(kArg0, false), arg0);
ClobberCallerSave();
CallHelper<pointer_size>(r_tgt, helper_offset, safepoint_pc);
}
@@ -522,7 +490,7 @@
StoreValue(rl_method, rl_src);
// If Method* has been promoted, explicitly flush
if (rl_method.location == kLocPhysReg) {
- StoreRefDisp(TargetReg(kSp), 0, rl_src.reg, kNotVolatile);
+ StoreRefDisp(TargetPtrReg(kSp), 0, rl_src.reg, kNotVolatile);
}
if (cu_->num_ins == 0) {
@@ -585,15 +553,15 @@
}
}
if (need_flush) {
- Store32Disp(TargetReg(kSp), SRegOffset(start_vreg + i), reg);
+ Store32Disp(TargetPtrReg(kSp), SRegOffset(start_vreg + i), reg);
}
} else {
// If arriving in frame & promoted
if (v_map->core_location == kLocPhysReg) {
- Load32Disp(TargetReg(kSp), SRegOffset(start_vreg + i), RegStorage::Solo32(v_map->core_reg));
+ Load32Disp(TargetPtrReg(kSp), SRegOffset(start_vreg + i), RegStorage::Solo32(v_map->core_reg));
}
if (v_map->fp_location == kLocPhysReg) {
- Load32Disp(TargetReg(kSp), SRegOffset(start_vreg + i), RegStorage::Solo32(v_map->fp_reg));
+ Load32Disp(TargetPtrReg(kSp), SRegOffset(start_vreg + i), RegStorage::Solo32(v_map->fp_reg));
}
}
}
@@ -614,13 +582,13 @@
case 0: // Get the current Method* [sets kArg0]
if (direct_code != static_cast<uintptr_t>(-1)) {
if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
- cg->LoadConstant(cg->TargetReg(kInvokeTgt), direct_code);
+ cg->LoadConstant(cg->TargetPtrReg(kInvokeTgt), direct_code);
}
} else if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
cg->LoadCodeAddress(target_method, type, kInvokeTgt);
}
if (direct_method != static_cast<uintptr_t>(-1)) {
- cg->LoadConstant(cg->TargetReg(kArg0), direct_method);
+ cg->LoadConstant(cg->TargetRefReg(kArg0), direct_method);
} else {
cg->LoadMethodAddress(target_method, type, kArg0);
}
@@ -643,7 +611,7 @@
// Set up direct code if known.
if (direct_code != 0) {
if (direct_code != static_cast<uintptr_t>(-1)) {
- cg->LoadConstant(cg->TargetReg(kInvokeTgt), direct_code);
+ cg->LoadConstant(cg->TargetPtrReg(kInvokeTgt), direct_code);
} else if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
CHECK_LT(target_method.dex_method_index, target_method.dex_file->NumMethodIds());
cg->LoadCodeAddress(target_method, type, kInvokeTgt);
@@ -662,7 +630,7 @@
if (direct_code == 0) {
cg->LoadWordDisp(arg0_ref,
mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt));
+ cg->TargetPtrReg(kInvokeTgt));
}
break;
}
@@ -700,17 +668,17 @@
cg->GenNullCheck(cg->TargetRefReg(kArg1), info->opt_flags);
// get this->klass_ [use kArg1, set kInvokeTgt]
cg->LoadRefDisp(cg->TargetRefReg(kArg1), mirror::Object::ClassOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt),
+ cg->TargetPtrReg(kInvokeTgt),
kNotVolatile);
cg->MarkPossibleNullPointerException(info->opt_flags);
break;
case 2: // Get this->klass_->vtable [usr kInvokeTgt, set kInvokeTgt]
- cg->LoadRefDisp(cg->TargetReg(kInvokeTgt), mirror::Class::VTableOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt),
+ cg->LoadRefDisp(cg->TargetPtrReg(kInvokeTgt), mirror::Class::VTableOffset().Int32Value(),
+ cg->TargetPtrReg(kInvokeTgt),
kNotVolatile);
break;
case 3: // Get target method [use kInvokeTgt, set kArg0]
- cg->LoadRefDisp(cg->TargetReg(kInvokeTgt),
+ cg->LoadRefDisp(cg->TargetPtrReg(kInvokeTgt),
ObjArray::OffsetOfElement(method_idx).Int32Value(),
cg->TargetRefReg(kArg0),
kNotVolatile);
@@ -719,7 +687,7 @@
if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
cg->LoadWordDisp(cg->TargetRefReg(kArg0),
mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt));
+ cg->TargetPtrReg(kInvokeTgt));
break;
}
// Intentional fallthrough for X86
@@ -744,9 +712,9 @@
switch (state) {
case 0: // Set target method index in case of conflict [set kHiddenArg, kHiddenFpArg (x86)]
CHECK_LT(target_method.dex_method_index, target_method.dex_file->NumMethodIds());
- cg->LoadConstant(cg->TargetReg(kHiddenArg), target_method.dex_method_index);
+ cg->LoadConstant(cg->TargetReg(kHiddenArg, false), target_method.dex_method_index);
if (cu->instruction_set == kX86) {
- cg->OpRegCopy(cg->TargetReg(kHiddenFpArg), cg->TargetReg(kHiddenArg));
+ cg->OpRegCopy(cg->TargetReg(kHiddenFpArg, false), cg->TargetReg(kHiddenArg, false));
}
break;
case 1: { // Get "this" [set kArg1]
@@ -758,19 +726,19 @@
cg->GenNullCheck(cg->TargetRefReg(kArg1), info->opt_flags);
// Get this->klass_ [use kArg1, set kInvokeTgt]
cg->LoadRefDisp(cg->TargetRefReg(kArg1), mirror::Object::ClassOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt),
+ cg->TargetPtrReg(kInvokeTgt),
kNotVolatile);
cg->MarkPossibleNullPointerException(info->opt_flags);
break;
case 3: // Get this->klass_->imtable [use kInvokeTgt, set kInvokeTgt]
// NOTE: native pointer.
- cg->LoadRefDisp(cg->TargetReg(kInvokeTgt), mirror::Class::ImTableOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt),
+ cg->LoadRefDisp(cg->TargetPtrReg(kInvokeTgt), mirror::Class::ImTableOffset().Int32Value(),
+ cg->TargetPtrReg(kInvokeTgt),
kNotVolatile);
break;
case 4: // Get target method [use kInvokeTgt, set kArg0]
// NOTE: native pointer.
- cg->LoadRefDisp(cg->TargetReg(kInvokeTgt),
+ cg->LoadRefDisp(cg->TargetPtrReg(kInvokeTgt),
ObjArray::OffsetOfElement(method_idx % ClassLinker::kImtSize).Int32Value(),
cg->TargetRefReg(kArg0),
kNotVolatile);
@@ -779,7 +747,7 @@
if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
cg->LoadWordDisp(cg->TargetRefReg(kArg0),
mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
- cg->TargetReg(kInvokeTgt));
+ cg->TargetPtrReg(kInvokeTgt));
break;
}
// Intentional fallthrough for X86
@@ -801,11 +769,11 @@
if (state == 0) {
if (cu->instruction_set != kX86 && cu->instruction_set != kX86_64) {
// Load trampoline target
- cg->LoadWordDisp(cg->TargetReg(kSelf), trampoline.Int32Value(), cg->TargetReg(kInvokeTgt));
+ cg->LoadWordDisp(cg->TargetPtrReg(kSelf), trampoline.Int32Value(), cg->TargetPtrReg(kInvokeTgt));
}
// Load kArg0 with method index
CHECK_EQ(cu->dex_file, target_method.dex_file);
- cg->LoadConstant(cg->TargetReg(kArg0), target_method.dex_method_index);
+ cg->LoadConstant(cg->TargetReg(kArg0, false), target_method.dex_method_index);
return 1;
}
return -1;
@@ -884,7 +852,7 @@
uint32_t vtable_idx, uintptr_t direct_code,
uintptr_t direct_method, InvokeType type, bool skip_this) {
int last_arg_reg = 3 - 1;
- int arg_regs[3] = {TargetReg(kArg1).GetReg(), TargetReg(kArg2).GetReg(), TargetReg(kArg3).GetReg()};
+ int arg_regs[3] = {TargetReg(kArg1, false).GetReg(), TargetReg(kArg2, false).GetReg(), TargetReg(kArg3, false).GetReg()};
int next_reg = 0;
int next_arg = 0;
@@ -959,17 +927,17 @@
}
} else {
// kArg2 & rArg3 can safely be used here
- reg = TargetReg(kArg3);
+ reg = TargetReg(kArg3, false);
{
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- Load32Disp(TargetReg(kSp), SRegOffset(rl_arg.s_reg_low) + 4, reg);
+ Load32Disp(TargetPtrReg(kSp), SRegOffset(rl_arg.s_reg_low) + 4, reg);
}
call_state = next_call_insn(cu_, info, call_state, target_method,
vtable_idx, direct_code, direct_method, type);
}
{
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- Store32Disp(TargetReg(kSp), (next_use + 1) * 4, reg);
+ Store32Disp(TargetPtrReg(kSp), (next_use + 1) * 4, reg);
}
call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
direct_code, direct_method, type);
@@ -983,8 +951,7 @@
if (rl_arg.location == kLocPhysReg) {
arg_reg = rl_arg.reg;
} else {
- arg_reg = rl_arg.wide ? RegStorage::MakeRegPair(TargetReg(kArg2), TargetReg(kArg3)) :
- TargetReg(kArg2);
+ arg_reg = rl_arg.wide ? TargetReg(kArg2, kArg3) : TargetReg(kArg2, false);
if (rl_arg.wide) {
LoadValueDirectWideFixed(rl_arg, arg_reg);
} else {
@@ -997,10 +964,10 @@
{
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
if (rl_arg.wide) {
- StoreBaseDisp(TargetReg(kSp), outs_offset, arg_reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), outs_offset, arg_reg, k64, kNotVolatile);
next_use += 2;
} else {
- Store32Disp(TargetReg(kSp), outs_offset, arg_reg);
+ Store32Disp(TargetPtrReg(kSp), outs_offset, arg_reg);
next_use++;
}
}
@@ -1015,13 +982,13 @@
if (pcrLabel) {
if (cu_->compiler_driver->GetCompilerOptions().GetExplicitNullChecks()) {
- *pcrLabel = GenExplicitNullCheck(TargetReg(kArg1), info->opt_flags);
+ *pcrLabel = GenExplicitNullCheck(TargetRefReg(kArg1), info->opt_flags);
} else {
*pcrLabel = nullptr;
// In lieu of generating a check for kArg1 being null, we need to
// perform a load when doing implicit checks.
RegStorage tmp = AllocTemp();
- Load32Disp(TargetReg(kArg1), 0, tmp);
+ Load32Disp(TargetRefReg(kArg1), 0, tmp);
MarkPossibleNullPointerException(info->opt_flags);
FreeTemp(tmp);
}
@@ -1067,14 +1034,14 @@
loc = UpdateLocWide(loc);
if ((next_arg >= 2) && (loc.location == kLocPhysReg)) {
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(loc.s_reg_low), loc.reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), SRegOffset(loc.s_reg_low), loc.reg, k64, kNotVolatile);
}
next_arg += 2;
} else {
loc = UpdateLoc(loc);
if ((next_arg >= 3) && (loc.location == kLocPhysReg)) {
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- Store32Disp(TargetReg(kSp), SRegOffset(loc.s_reg_low), loc.reg);
+ Store32Disp(TargetPtrReg(kSp), SRegOffset(loc.s_reg_low), loc.reg);
}
next_arg++;
}
@@ -1095,23 +1062,23 @@
// Use vldm/vstm pair using kArg3 as a temp
call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
direct_code, direct_method, type);
- OpRegRegImm(kOpAdd, TargetReg(kArg3), TargetReg(kSp), start_offset);
+ OpRegRegImm(kOpAdd, TargetRefReg(kArg3), TargetPtrReg(kSp), start_offset);
LIR* ld = nullptr;
{
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- ld = OpVldm(TargetReg(kArg3), regs_left_to_pass_via_stack);
+ ld = OpVldm(TargetRefReg(kArg3), regs_left_to_pass_via_stack);
}
// TUNING: loosen barrier
ld->u.m.def_mask = &kEncodeAll;
call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
direct_code, direct_method, type);
- OpRegRegImm(kOpAdd, TargetReg(kArg3), TargetReg(kSp), 4 /* Method* */ + (3 * 4));
+ OpRegRegImm(kOpAdd, TargetRefReg(kArg3), TargetPtrReg(kSp), 4 /* Method* */ + (3 * 4));
call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
direct_code, direct_method, type);
LIR* st = nullptr;
{
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- st = OpVstm(TargetReg(kArg3), regs_left_to_pass_via_stack);
+ st = OpVstm(TargetRefReg(kArg3), regs_left_to_pass_via_stack);
}
st->u.m.def_mask = &kEncodeAll;
call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
@@ -1160,23 +1127,23 @@
bool dest_is_8b_aligned = (current_dest_offset & 0x7) == 0;
if (src_is_16b_aligned) {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovA128FP);
+ ld1 = OpMovRegMem(temp, TargetPtrReg(kSp), current_src_offset, kMovA128FP);
} else if (src_is_8b_aligned) {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovLo128FP);
- ld2 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset + (bytes_to_move >> 1),
+ ld1 = OpMovRegMem(temp, TargetPtrReg(kSp), current_src_offset, kMovLo128FP);
+ ld2 = OpMovRegMem(temp, TargetPtrReg(kSp), current_src_offset + (bytes_to_move >> 1),
kMovHi128FP);
} else {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovU128FP);
+ ld1 = OpMovRegMem(temp, TargetPtrReg(kSp), current_src_offset, kMovU128FP);
}
if (dest_is_16b_aligned) {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovA128FP);
+ st1 = OpMovMemReg(TargetPtrReg(kSp), current_dest_offset, temp, kMovA128FP);
} else if (dest_is_8b_aligned) {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovLo128FP);
- st2 = OpMovMemReg(TargetReg(kSp), current_dest_offset + (bytes_to_move >> 1),
+ st1 = OpMovMemReg(TargetPtrReg(kSp), current_dest_offset, temp, kMovLo128FP);
+ st2 = OpMovMemReg(TargetPtrReg(kSp), current_dest_offset + (bytes_to_move >> 1),
temp, kMovHi128FP);
} else {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovU128FP);
+ st1 = OpMovMemReg(TargetPtrReg(kSp), current_dest_offset, temp, kMovU128FP);
}
// TODO If we could keep track of aliasing information for memory accesses that are wider
@@ -1210,11 +1177,11 @@
// Instead of allocating a new temp, simply reuse one of the registers being used
// for argument passing.
- RegStorage temp = TargetReg(kArg3);
+ RegStorage temp = TargetReg(kArg3, false);
// Now load the argument VR and store to the outs.
- Load32Disp(TargetReg(kSp), current_src_offset, temp);
- Store32Disp(TargetReg(kSp), current_dest_offset, temp);
+ Load32Disp(TargetPtrReg(kSp), current_src_offset, temp);
+ Store32Disp(TargetPtrReg(kSp), current_dest_offset, temp);
}
current_src_offset += bytes_to_move;
@@ -1223,14 +1190,14 @@
}
} else {
// Generate memcpy
- OpRegRegImm(kOpAdd, TargetReg(kArg0), TargetReg(kSp), outs_offset);
- OpRegRegImm(kOpAdd, TargetReg(kArg1), TargetReg(kSp), start_offset);
+ OpRegRegImm(kOpAdd, TargetRefReg(kArg0), TargetPtrReg(kSp), outs_offset);
+ OpRegRegImm(kOpAdd, TargetRefReg(kArg1), TargetPtrReg(kSp), start_offset);
if (cu_->target64) {
- CallRuntimeHelperRegRegImm(QUICK_ENTRYPOINT_OFFSET(8, pMemcpy), TargetReg(kArg0),
- TargetReg(kArg1), (info->num_arg_words - 3) * 4, false);
+ CallRuntimeHelperRegRegImm(QUICK_ENTRYPOINT_OFFSET(8, pMemcpy), TargetRefReg(kArg0),
+ TargetRefReg(kArg1), (info->num_arg_words - 3) * 4, false);
} else {
- CallRuntimeHelperRegRegImm(QUICK_ENTRYPOINT_OFFSET(4, pMemcpy), TargetReg(kArg0),
- TargetReg(kArg1), (info->num_arg_words - 3) * 4, false);
+ CallRuntimeHelperRegRegImm(QUICK_ENTRYPOINT_OFFSET(4, pMemcpy), TargetRefReg(kArg0),
+ TargetRefReg(kArg1), (info->num_arg_words - 3) * 4, false);
}
}
@@ -1242,13 +1209,13 @@
direct_code, direct_method, type);
if (pcrLabel) {
if (cu_->compiler_driver->GetCompilerOptions().GetExplicitNullChecks()) {
- *pcrLabel = GenExplicitNullCheck(TargetReg(kArg1), info->opt_flags);
+ *pcrLabel = GenExplicitNullCheck(TargetRefReg(kArg1), info->opt_flags);
} else {
*pcrLabel = nullptr;
// In lieu of generating a check for kArg1 being null, we need to
// perform a load when doing implicit checks.
RegStorage tmp = AllocTemp();
- Load32Disp(TargetReg(kArg1), 0, tmp);
+ Load32Disp(TargetRefReg(kArg1), 0, tmp);
MarkPossibleNullPointerException(info->opt_flags);
FreeTemp(tmp);
}
@@ -1565,9 +1532,9 @@
ClobberCallerSave();
LockCallTemps(); // Using fixed registers
- RegStorage reg_ptr = TargetReg(kArg0);
- RegStorage reg_char = TargetReg(kArg1);
- RegStorage reg_start = TargetReg(kArg2);
+ RegStorage reg_ptr = TargetRefReg(kArg0);
+ RegStorage reg_char = TargetReg(kArg1, false);
+ RegStorage reg_start = TargetReg(kArg2, false);
LoadValueDirectFixed(rl_obj, reg_ptr);
LoadValueDirectFixed(rl_char, reg_char);
@@ -1609,8 +1576,8 @@
}
ClobberCallerSave();
LockCallTemps(); // Using fixed registers
- RegStorage reg_this = TargetReg(kArg0);
- RegStorage reg_cmp = TargetReg(kArg1);
+ RegStorage reg_this = TargetRefReg(kArg0);
+ RegStorage reg_cmp = TargetRefReg(kArg1);
RegLocation rl_this = info->args[0];
RegLocation rl_cmp = info->args[1];
@@ -1657,11 +1624,11 @@
case kThumb2:
// Fall-through.
case kMips:
- Load32Disp(TargetReg(kSelf), Thread::PeerOffset<4>().Int32Value(), rl_result.reg);
+ Load32Disp(TargetPtrReg(kSelf), Thread::PeerOffset<4>().Int32Value(), rl_result.reg);
break;
case kArm64:
- Load32Disp(TargetReg(kSelf), Thread::PeerOffset<8>().Int32Value(), rl_result.reg);
+ Load32Disp(TargetPtrReg(kSelf), Thread::PeerOffset<8>().Int32Value(), rl_result.reg);
break;
case kX86:
@@ -1695,7 +1662,7 @@
RegLocation rl_object = LoadValue(rl_src_obj, kRefReg);
RegLocation rl_offset = LoadValue(rl_src_offset, kCoreReg);
- RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
+ RegLocation rl_result = EvalLoc(rl_dest, rl_dest.ref ? kRefReg : kCoreReg, true);
if (is_long) {
if (cu_->instruction_set == kX86 || cu_->instruction_set == kX86_64) {
LoadBaseIndexedDisp(rl_object.reg, rl_offset.reg, 0, 0, rl_result.reg, k64);
@@ -1875,7 +1842,7 @@
}
LIR* call_inst;
if (cu_->instruction_set != kX86 && cu_->instruction_set != kX86_64) {
- call_inst = OpReg(kOpBlx, TargetReg(kInvokeTgt));
+ call_inst = OpReg(kOpBlx, TargetPtrReg(kInvokeTgt));
} else {
if (fast_path) {
if (method_info.DirectCode() == static_cast<uintptr_t>(-1)) {
@@ -1883,7 +1850,7 @@
call_inst =
reinterpret_cast<X86Mir2Lir*>(this)->CallWithLinkerFixup(target_method, info->type);
} else {
- call_inst = OpMem(kOpBlx, TargetReg(kArg0),
+ call_inst = OpMem(kOpBlx, TargetRefReg(kArg0),
mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value());
}
} else {
diff --git a/compiler/dex/quick/gen_loadstore.cc b/compiler/dex/quick/gen_loadstore.cc
index 1cddeb9..e5798fd 100644
--- a/compiler/dex/quick/gen_loadstore.cc
+++ b/compiler/dex/quick/gen_loadstore.cc
@@ -66,7 +66,7 @@
} else {
// Lives in the frame, need to store.
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), temp_reg, k32, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), temp_reg, k32, kNotVolatile);
}
if (!zero_reg.Valid()) {
FreeTemp(temp_reg);
@@ -93,9 +93,9 @@
(rl_src.location == kLocCompilerTemp));
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
if (rl_src.ref) {
- LoadRefDisp(TargetReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest, kNotVolatile);
+ LoadRefDisp(TargetPtrReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest, kNotVolatile);
} else {
- Load32Disp(TargetReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest);
+ Load32Disp(TargetPtrReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest);
}
}
}
@@ -126,7 +126,7 @@
DCHECK((rl_src.location == kLocDalvikFrame) ||
(rl_src.location == kLocCompilerTemp));
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- LoadBaseDisp(TargetReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest, k64, kNotVolatile);
+ LoadBaseDisp(TargetPtrReg(kSp), SRegOffset(rl_src.s_reg_low), r_dest, k64, kNotVolatile);
}
}
@@ -215,9 +215,9 @@
def_start = last_lir_insn_;
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
if (rl_dest.ref) {
- StoreRefDisp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, kNotVolatile);
+ StoreRefDisp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, kNotVolatile);
} else {
- Store32Disp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg);
+ Store32Disp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg);
}
MarkClean(rl_dest);
def_end = last_lir_insn_;
@@ -305,7 +305,7 @@
DCHECK_EQ((mir_graph_->SRegToVReg(rl_dest.s_reg_low)+1),
mir_graph_->SRegToVReg(GetSRegHi(rl_dest.s_reg_low)));
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, k64, kNotVolatile);
MarkClean(rl_dest);
def_end = last_lir_insn_;
MarkDefWide(rl_dest, def_start, def_end);
@@ -333,7 +333,7 @@
if (IsDirty(rl_dest.reg) && LiveOut(rl_dest.s_reg_low)) {
LIR *def_start = last_lir_insn_;
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- Store32Disp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg);
+ Store32Disp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg);
MarkClean(rl_dest);
LIR *def_end = last_lir_insn_;
if (!rl_dest.ref) {
@@ -369,7 +369,7 @@
DCHECK_EQ((mir_graph_->SRegToVReg(rl_dest.s_reg_low)+1),
mir_graph_->SRegToVReg(GetSRegHi(rl_dest.s_reg_low)));
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), SRegOffset(rl_dest.s_reg_low), rl_dest.reg, k64, kNotVolatile);
MarkClean(rl_dest);
LIR *def_end = last_lir_insn_;
MarkDefWide(rl_dest, def_start, def_end);
diff --git a/compiler/dex/quick/mir_to_lir.cc b/compiler/dex/quick/mir_to_lir.cc
index 237288e..caadc0a 100644
--- a/compiler/dex/quick/mir_to_lir.cc
+++ b/compiler/dex/quick/mir_to_lir.cc
@@ -92,7 +92,7 @@
if (!reg_arg.Valid()) {
RegStorage new_reg =
wide ? AllocTypedTempWide(false, reg_class) : AllocTypedTemp(false, reg_class);
- LoadBaseDisp(TargetReg(kSp), offset, new_reg, wide ? k64 : k32, kNotVolatile);
+ LoadBaseDisp(TargetPtrReg(kSp), offset, new_reg, wide ? k64 : k32, kNotVolatile);
return new_reg;
} else {
// Check if we need to copy the arg to a different reg_class.
@@ -120,7 +120,7 @@
// If the low part is not in a reg, we allocate a pair. Otherwise, we just load to high reg.
if (!reg_arg_low.Valid()) {
RegStorage new_regs = AllocTypedTempWide(false, reg_class);
- LoadBaseDisp(TargetReg(kSp), offset, new_regs, k64, kNotVolatile);
+ LoadBaseDisp(TargetPtrReg(kSp), offset, new_regs, k64, kNotVolatile);
return new_regs; // The reg_class is OK, we can return.
} else {
// Assume that no ABI allows splitting a wide fp reg between a narrow fp reg and memory,
@@ -128,7 +128,7 @@
DCHECK(!reg_arg_low.IsFloat());
reg_arg_high = AllocTemp();
int offset_high = offset + sizeof(uint32_t);
- Load32Disp(TargetReg(kSp), offset_high, reg_arg_high);
+ Load32Disp(TargetPtrReg(kSp), offset_high, reg_arg_high);
// Continue below to check the reg_class.
}
}
@@ -140,7 +140,7 @@
// conceivably break this assumption but Android supports only little-endian architectures.
DCHECK(!wide);
reg_arg_low = AllocTypedTemp(false, reg_class);
- Load32Disp(TargetReg(kSp), offset, reg_arg_low);
+ Load32Disp(TargetPtrReg(kSp), offset, reg_arg_low);
return reg_arg_low; // The reg_class is OK, we can return.
}
@@ -185,7 +185,7 @@
if (reg.Valid()) {
OpRegCopy(rl_dest.reg, reg);
} else {
- Load32Disp(TargetReg(kSp), offset, rl_dest.reg);
+ Load32Disp(TargetPtrReg(kSp), offset, rl_dest.reg);
}
} else {
if (cu_->target64) {
@@ -193,7 +193,7 @@
if (reg.Valid()) {
OpRegCopy(rl_dest.reg, reg);
} else {
- LoadBaseDisp(TargetReg(kSp), offset, rl_dest.reg, k64, kNotVolatile);
+ LoadBaseDisp(TargetPtrReg(kSp), offset, rl_dest.reg, k64, kNotVolatile);
}
return;
}
@@ -206,12 +206,12 @@
} else if (reg_arg_low.Valid() && !reg_arg_high.Valid()) {
OpRegCopy(rl_dest.reg, reg_arg_low);
int offset_high = offset + sizeof(uint32_t);
- Load32Disp(TargetReg(kSp), offset_high, rl_dest.reg.GetHigh());
+ Load32Disp(TargetPtrReg(kSp), offset_high, rl_dest.reg.GetHigh());
} else if (!reg_arg_low.Valid() && reg_arg_high.Valid()) {
OpRegCopy(rl_dest.reg.GetHigh(), reg_arg_high);
- Load32Disp(TargetReg(kSp), offset, rl_dest.reg.GetLow());
+ Load32Disp(TargetPtrReg(kSp), offset, rl_dest.reg.GetLow());
} else {
- LoadBaseDisp(TargetReg(kSp), offset, rl_dest.reg, k64, kNotVolatile);
+ LoadBaseDisp(TargetPtrReg(kSp), offset, rl_dest.reg, k64, kNotVolatile);
}
}
}
diff --git a/compiler/dex/quick/mir_to_lir.h b/compiler/dex/quick/mir_to_lir.h
index 8ebd64a..47844cb 100644
--- a/compiler/dex/quick/mir_to_lir.h
+++ b/compiler/dex/quick/mir_to_lir.h
@@ -1202,6 +1202,16 @@
}
/**
+ * @brief Portable way of getting special register pair from the backend.
+ * @param reg Enumeration describing the purpose of the first register.
+ * @param reg Enumeration describing the purpose of the second register.
+ * @return Return the #RegStorage corresponding to the given purpose @p reg.
+ */
+ virtual RegStorage TargetReg(SpecialTargetRegister reg1, SpecialTargetRegister reg2) {
+ return RegStorage::MakeRegPair(TargetReg(reg1, false), TargetReg(reg2, false));
+ }
+
+ /**
* @brief Portable way of getting a special register for storing a reference.
* @see TargetReg()
*/
@@ -1209,6 +1219,14 @@
return TargetReg(reg);
}
+ /**
+ * @brief Portable way of getting a special register for storing a pointer.
+ * @see TargetReg()
+ */
+ virtual RegStorage TargetPtrReg(SpecialTargetRegister reg) {
+ return TargetReg(reg);
+ }
+
// Get a reg storage corresponding to the wide & ref flags of the reg location.
virtual RegStorage TargetReg(SpecialTargetRegister reg, RegLocation loc) {
if (loc.ref) {
diff --git a/compiler/dex/quick/ralloc_util.cc b/compiler/dex/quick/ralloc_util.cc
index 6bedae8..13bd443 100644
--- a/compiler/dex/quick/ralloc_util.cc
+++ b/compiler/dex/quick/ralloc_util.cc
@@ -757,7 +757,7 @@
}
int v_reg = mir_graph_->SRegToVReg(info1->SReg());
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), VRegOffset(v_reg), reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), VRegOffset(v_reg), reg, k64, kNotVolatile);
}
} else {
RegisterInfo* info = GetRegInfo(reg);
@@ -765,7 +765,7 @@
info->SetIsDirty(false);
int v_reg = mir_graph_->SRegToVReg(info->SReg());
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), VRegOffset(v_reg), reg, k64, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), VRegOffset(v_reg), reg, k64, kNotVolatile);
}
}
}
@@ -777,7 +777,7 @@
info->SetIsDirty(false);
int v_reg = mir_graph_->SRegToVReg(info->SReg());
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), VRegOffset(v_reg), reg, kWord, kNotVolatile);
+ StoreBaseDisp(TargetPtrReg(kSp), VRegOffset(v_reg), reg, kWord, kNotVolatile);
}
}
@@ -1313,7 +1313,7 @@
RegLocation *curr = &mir_graph_->reg_location_[i];
int p_map_idx = SRegToPMap(curr->s_reg_low);
int reg_num = curr->fp ? promotion_map_[p_map_idx].fp_reg : promotion_map_[p_map_idx].core_reg;
- bool wide = curr->wide || (cu_->target64 && curr->ref && cu_->instruction_set != kX86_64);
+ bool wide = curr->wide || (cu_->target64 && curr->ref);
RegStorage reg = RegStorage::InvalidReg();
if (curr->fp && promotion_map_[p_map_idx].fp_location == kLocPhysReg) {
if (wide && cu_->instruction_set == kThumb2) {
diff --git a/compiler/dex/quick/x86/call_x86.cc b/compiler/dex/quick/x86/call_x86.cc
index bfbfa0e..6ca220c 100644
--- a/compiler/dex/quick/x86/call_x86.cc
+++ b/compiler/dex/quick/x86/call_x86.cc
@@ -158,29 +158,33 @@
// Making a call - use explicit registers
FlushAllRegs(); /* Everything to home location */
- LoadValueDirectFixed(rl_src, rs_rX86_ARG0);
+ RegStorage array_ptr = TargetRefReg(kArg0);
+ RegStorage payload = TargetPtrReg(kArg1);
+ RegStorage method_start = TargetPtrReg(kArg2);
+
+ LoadValueDirectFixed(rl_src, array_ptr);
// Materialize a pointer to the fill data image
if (base_of_code_ != nullptr) {
// We can use the saved value.
RegLocation rl_method = mir_graph_->GetRegLocation(base_of_code_->s_reg_low);
if (rl_method.wide) {
- LoadValueDirectWide(rl_method, rs_rX86_ARG2);
+ LoadValueDirectWide(rl_method, method_start);
} else {
- LoadValueDirect(rl_method, rs_rX86_ARG2);
+ LoadValueDirect(rl_method, method_start);
}
store_method_addr_used_ = true;
} else {
// TODO(64) force to be 64-bit
- NewLIR1(kX86StartOfMethod, rs_rX86_ARG2.GetReg());
+ NewLIR1(kX86StartOfMethod, method_start.GetReg());
}
- NewLIR2(kX86PcRelAdr, rs_rX86_ARG1.GetReg(), WrapPointer(tab_rec));
- NewLIR2(cu_->target64 ? kX86Add64RR : kX86Add32RR, rs_rX86_ARG1.GetReg(), rs_rX86_ARG2.GetReg());
+ NewLIR2(kX86PcRelAdr, payload.GetReg(), WrapPointer(tab_rec));
+ OpRegReg(kOpAdd, payload, method_start);
if (cu_->target64) {
- CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pHandleFillArrayData), rs_rX86_ARG0,
- rs_rX86_ARG1, true);
+ CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pHandleFillArrayData), array_ptr,
+ payload, true);
} else {
- CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pHandleFillArrayData), rs_rX86_ARG0,
- rs_rX86_ARG1, true);
+ CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pHandleFillArrayData), array_ptr,
+ payload, true);
}
}
@@ -291,11 +295,12 @@
FlushIns(ArgLocs, rl_method);
if (base_of_code_ != nullptr) {
+ RegStorage method_start = TargetPtrReg(kArg0);
// We have been asked to save the address of the method start for later use.
- setup_method_address_[0] = NewLIR1(kX86StartOfMethod, rs_rX86_ARG0.GetReg());
+ setup_method_address_[0] = NewLIR1(kX86StartOfMethod, method_start.GetReg());
int displacement = SRegOffset(base_of_code_->s_reg_low);
// Native pointer - must be natural word size.
- setup_method_address_[1] = StoreBaseDisp(rs_rX86_SP, displacement, rs_rX86_ARG0,
+ setup_method_address_[1] = StoreBaseDisp(rs_rX86_SP, displacement, method_start,
cu_->target64 ? k64 : k32, kNotVolatile);
}
diff --git a/compiler/dex/quick/x86/codegen_x86.h b/compiler/dex/quick/x86/codegen_x86.h
index afb6184..646da7f 100644
--- a/compiler/dex/quick/x86/codegen_x86.h
+++ b/compiler/dex/quick/x86/codegen_x86.h
@@ -34,9 +34,11 @@
class InToRegStorageX86_64Mapper : public InToRegStorageMapper {
public:
- InToRegStorageX86_64Mapper() : cur_core_reg_(0), cur_fp_reg_(0) {}
+ explicit InToRegStorageX86_64Mapper(Mir2Lir* ml) : ml_(ml), cur_core_reg_(0), cur_fp_reg_(0) {}
virtual ~InToRegStorageX86_64Mapper() {}
virtual RegStorage GetNextReg(bool is_double_or_float, bool is_wide);
+ protected:
+ Mir2Lir* ml_;
private:
int cur_core_reg_;
int cur_fp_reg_;
@@ -85,7 +87,22 @@
void MarkGCCard(RegStorage val_reg, RegStorage tgt_addr_reg);
// Required for target - register utilities.
- RegStorage TargetReg(SpecialTargetRegister reg);
+ RegStorage TargetReg(SpecialTargetRegister reg) OVERRIDE;
+ RegStorage TargetReg32(SpecialTargetRegister reg);
+ RegStorage TargetReg(SpecialTargetRegister symbolic_reg, bool is_wide) OVERRIDE {
+ RegStorage reg = TargetReg32(symbolic_reg);
+ if (is_wide) {
+ return (reg.Is64Bit()) ? reg : As64BitReg(reg);
+ } else {
+ return (reg.Is32Bit()) ? reg : As32BitReg(reg);
+ }
+ }
+ RegStorage TargetRefReg(SpecialTargetRegister symbolic_reg) OVERRIDE {
+ return TargetReg(symbolic_reg, cu_->target64);
+ }
+ RegStorage TargetPtrReg(SpecialTargetRegister symbolic_reg) OVERRIDE {
+ return TargetReg(symbolic_reg, cu_->target64);
+ }
RegStorage GetArgMappingToPhysicalReg(int arg_num);
RegStorage GetCoreArgMappingToPhysicalReg(int core_arg_num);
RegLocation GetReturnAlt();
@@ -388,6 +405,43 @@
std::vector<uint8_t>* ReturnCallFrameInformation();
protected:
+ // Casting of RegStorage
+ RegStorage As32BitReg(RegStorage reg) {
+ DCHECK(!reg.IsPair());
+ if ((kFailOnSizeError || kReportSizeError) && !reg.Is64Bit()) {
+ if (kFailOnSizeError) {
+ LOG(FATAL) << "Expected 64b register " << reg.GetReg();
+ } else {
+ LOG(WARNING) << "Expected 64b register " << reg.GetReg();
+ return reg;
+ }
+ }
+ RegStorage ret_val = RegStorage(RegStorage::k32BitSolo,
+ reg.GetRawBits() & RegStorage::kRegTypeMask);
+ DCHECK_EQ(GetRegInfo(reg)->FindMatchingView(RegisterInfo::k32SoloStorageMask)
+ ->GetReg().GetReg(),
+ ret_val.GetReg());
+ return ret_val;
+ }
+
+ RegStorage As64BitReg(RegStorage reg) {
+ DCHECK(!reg.IsPair());
+ if ((kFailOnSizeError || kReportSizeError) && !reg.Is32Bit()) {
+ if (kFailOnSizeError) {
+ LOG(FATAL) << "Expected 32b register " << reg.GetReg();
+ } else {
+ LOG(WARNING) << "Expected 32b register " << reg.GetReg();
+ return reg;
+ }
+ }
+ RegStorage ret_val = RegStorage(RegStorage::k64BitSolo,
+ reg.GetRawBits() & RegStorage::kRegTypeMask);
+ DCHECK_EQ(GetRegInfo(reg)->FindMatchingView(RegisterInfo::k64SoloStorageMask)
+ ->GetReg().GetReg(),
+ ret_val.GetReg());
+ return ret_val;
+ }
+
size_t ComputeSize(const X86EncodingMap* entry, int32_t raw_reg, int32_t raw_index,
int32_t raw_base, int32_t displacement);
void CheckValidByteRegister(const X86EncodingMap* entry, int32_t raw_reg);
diff --git a/compiler/dex/quick/x86/fp_x86.cc b/compiler/dex/quick/x86/fp_x86.cc
index 7454475..4414d7c 100644
--- a/compiler/dex/quick/x86/fp_x86.cc
+++ b/compiler/dex/quick/x86/fp_x86.cc
@@ -145,12 +145,12 @@
} else {
// It must have been register promoted if it is not a temp but is still in physical
// register. Since we need it to be in memory to convert, we place it there now.
- StoreBaseDisp(TargetReg(kSp), src_v_reg_offset, rl_src.reg, k64, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, src_v_reg_offset, rl_src.reg, k64, kNotVolatile);
}
}
// Push the source virtual register onto the x87 stack.
- LIR *fild64 = NewLIR2NoDest(kX86Fild64M, TargetReg(kSp).GetReg(),
+ LIR *fild64 = NewLIR2NoDest(kX86Fild64M, rs_rX86_SP.GetReg(),
src_v_reg_offset + LOWORD_OFFSET);
AnnotateDalvikRegAccess(fild64, (src_v_reg_offset + LOWORD_OFFSET) >> 2,
true /* is_load */, true /* is64bit */);
@@ -158,7 +158,7 @@
// Now pop off x87 stack and store it in the destination VR's stack location.
int opcode = is_double ? kX86Fstp64M : kX86Fstp32M;
int displacement = is_double ? dest_v_reg_offset + LOWORD_OFFSET : dest_v_reg_offset;
- LIR *fstp = NewLIR2NoDest(opcode, TargetReg(kSp).GetReg(), displacement);
+ LIR *fstp = NewLIR2NoDest(opcode, rs_rX86_SP.GetReg(), displacement);
AnnotateDalvikRegAccess(fstp, displacement >> 2, false /* is_load */, is_double);
/*
@@ -179,11 +179,11 @@
*/
rl_result = EvalLoc(rl_dest, kFPReg, true);
if (is_double) {
- LoadBaseDisp(TargetReg(kSp), dest_v_reg_offset, rl_result.reg, k64, kNotVolatile);
+ LoadBaseDisp(rs_rX86_SP, dest_v_reg_offset, rl_result.reg, k64, kNotVolatile);
StoreFinalValueWide(rl_dest, rl_result);
} else {
- Load32Disp(TargetReg(kSp), dest_v_reg_offset, rl_result.reg);
+ Load32Disp(rs_rX86_SP, dest_v_reg_offset, rl_result.reg);
StoreFinalValue(rl_dest, rl_result);
}
@@ -364,7 +364,7 @@
} else {
// It must have been register promoted if it is not a temp but is still in physical
// register. Since we need it to be in memory to convert, we place it there now.
- StoreBaseDisp(TargetReg(kSp), src1_v_reg_offset, rl_src1.reg, is_double ? k64 : k32,
+ StoreBaseDisp(rs_rX86_SP, src1_v_reg_offset, rl_src1.reg, is_double ? k64 : k32,
kNotVolatile);
}
}
@@ -375,7 +375,7 @@
FlushSpecificReg(reg_info);
ResetDef(rl_src2.reg);
} else {
- StoreBaseDisp(TargetReg(kSp), src2_v_reg_offset, rl_src2.reg, is_double ? k64 : k32,
+ StoreBaseDisp(rs_rX86_SP, src2_v_reg_offset, rl_src2.reg, is_double ? k64 : k32,
kNotVolatile);
}
}
@@ -383,12 +383,12 @@
int fld_opcode = is_double ? kX86Fld64M : kX86Fld32M;
// Push the source virtual registers onto the x87 stack.
- LIR *fld_2 = NewLIR2NoDest(fld_opcode, TargetReg(kSp).GetReg(),
+ LIR *fld_2 = NewLIR2NoDest(fld_opcode, rs_rX86_SP.GetReg(),
src2_v_reg_offset + LOWORD_OFFSET);
AnnotateDalvikRegAccess(fld_2, (src2_v_reg_offset + LOWORD_OFFSET) >> 2,
true /* is_load */, is_double /* is64bit */);
- LIR *fld_1 = NewLIR2NoDest(fld_opcode, TargetReg(kSp).GetReg(),
+ LIR *fld_1 = NewLIR2NoDest(fld_opcode, rs_rX86_SP.GetReg(),
src1_v_reg_offset + LOWORD_OFFSET);
AnnotateDalvikRegAccess(fld_1, (src1_v_reg_offset + LOWORD_OFFSET) >> 2,
true /* is_load */, is_double /* is64bit */);
@@ -417,7 +417,7 @@
// Now store result in the destination VR's stack location.
int displacement = dest_v_reg_offset + LOWORD_OFFSET;
int opcode = is_double ? kX86Fst64M : kX86Fst32M;
- LIR *fst = NewLIR2NoDest(opcode, TargetReg(kSp).GetReg(), displacement);
+ LIR *fst = NewLIR2NoDest(opcode, rs_rX86_SP.GetReg(), displacement);
AnnotateDalvikRegAccess(fst, displacement >> 2, false /* is_load */, is_double /* is64bit */);
// Pop ST(1) and ST(0).
@@ -436,10 +436,10 @@
if (rl_result.location == kLocPhysReg) {
rl_result = EvalLoc(rl_dest, kFPReg, true);
if (is_double) {
- LoadBaseDisp(TargetReg(kSp), dest_v_reg_offset, rl_result.reg, k64, kNotVolatile);
+ LoadBaseDisp(rs_rX86_SP, dest_v_reg_offset, rl_result.reg, k64, kNotVolatile);
StoreFinalValueWide(rl_dest, rl_result);
} else {
- Load32Disp(TargetReg(kSp), dest_v_reg_offset, rl_result.reg);
+ Load32Disp(rs_rX86_SP, dest_v_reg_offset, rl_result.reg);
StoreFinalValue(rl_dest, rl_result);
}
}
@@ -627,7 +627,7 @@
// Operate directly into memory.
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- LIR *lir = NewLIR3(kX86And32MI, TargetReg(kSp).GetReg(), displacement, 0x7fffffff);
+ LIR *lir = NewLIR3(kX86And32MI, rs_rX86_SP.GetReg(), displacement, 0x7fffffff);
AnnotateDalvikRegAccess(lir, displacement >> 2, false /*is_load */, false /* is_64bit */);
AnnotateDalvikRegAccess(lir, displacement >> 2, true /* is_load */, false /* is_64bit*/);
return true;
@@ -682,7 +682,7 @@
// Operate directly into memory.
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- LIR *lir = NewLIR3(kX86And32MI, TargetReg(kSp).GetReg(), displacement + HIWORD_OFFSET, 0x7fffffff);
+ LIR *lir = NewLIR3(kX86And32MI, rs_rX86_SP.GetReg(), displacement + HIWORD_OFFSET, 0x7fffffff);
AnnotateDalvikRegAccess(lir, (displacement + HIWORD_OFFSET) >> 2, true /* is_load */, true /* is_64bit*/);
AnnotateDalvikRegAccess(lir, (displacement + HIWORD_OFFSET) >> 2, false /*is_load */, true /* is_64bit */);
return true;
diff --git a/compiler/dex/quick/x86/int_x86.cc b/compiler/dex/quick/x86/int_x86.cc
index 14a18e5..7a4ea26 100644
--- a/compiler/dex/quick/x86/int_x86.cc
+++ b/compiler/dex/quick/x86/int_x86.cc
@@ -93,7 +93,7 @@
}
LIR* X86Mir2Lir::OpCmpBranch(ConditionCode cond, RegStorage src1, RegStorage src2, LIR* target) {
- NewLIR2(kX86Cmp32RR, src1.GetReg(), src2.GetReg());
+ NewLIR2(src1.Is64Bit() ? kX86Cmp64RR : kX86Cmp32RR, src1.GetReg(), src2.GetReg());
X86ConditionCode cc = X86ConditionEncoding(cond);
LIR* branch = NewLIR2(kX86Jcc8, 0 /* lir operand for Jcc offset */ ,
cc);
@@ -105,9 +105,13 @@
int check_value, LIR* target) {
if ((check_value == 0) && (cond == kCondEq || cond == kCondNe)) {
// TODO: when check_value == 0 and reg is rCX, use the jcxz/nz opcode
- NewLIR2(kX86Test32RR, reg.GetReg(), reg.GetReg());
+ NewLIR2(reg.Is64Bit() ? kX86Test64RR: kX86Test32RR, reg.GetReg(), reg.GetReg());
} else {
- NewLIR2(IS_SIMM8(check_value) ? kX86Cmp32RI8 : kX86Cmp32RI, reg.GetReg(), check_value);
+ if (reg.Is64Bit()) {
+ NewLIR2(IS_SIMM8(check_value) ? kX86Cmp64RI8 : kX86Cmp64RI, reg.GetReg(), check_value);
+ } else {
+ NewLIR2(IS_SIMM8(check_value) ? kX86Cmp32RI8 : kX86Cmp32RI, reg.GetReg(), check_value);
+ }
}
X86ConditionCode cc = X86ConditionEncoding(cond);
LIR* branch = NewLIR2(kX86Jcc8, 0 /* lir operand for Jcc offset */ , cc);
@@ -241,7 +245,7 @@
// FIXME: depending on how you use registers you could get a false != mismatch when dealing
// with different views of the same underlying physical resource (i.e. solo32 vs. solo64).
const bool result_reg_same_as_src =
- (rl_src.location == kLocPhysReg && rl_src.reg.GetReg() == rl_result.reg.GetReg());
+ (rl_src.location == kLocPhysReg && rl_src.reg.GetRegNum() == rl_result.reg.GetRegNum());
const bool true_zero_case = (true_val == 0 && false_val != 0 && !result_reg_same_as_src);
const bool false_zero_case = (false_val == 0 && true_val != 0 && !result_reg_same_as_src);
const bool catch_all_case = !(true_zero_case || false_zero_case);
@@ -846,14 +850,14 @@
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
const size_t push_offset = (push_si ? 4u : 0u) + (push_di ? 4u : 0u);
if (!obj_in_si && !obj_in_di) {
- LoadWordDisp(TargetReg(kSp), SRegOffset(rl_src_obj.s_reg_low) + push_offset, rs_obj);
+ LoadWordDisp(rs_rX86_SP, SRegOffset(rl_src_obj.s_reg_low) + push_offset, rs_obj);
// Dalvik register annotation in LoadBaseIndexedDisp() used wrong offset. Fix it.
DCHECK(!DECODE_ALIAS_INFO_WIDE(last_lir_insn_->flags.alias_info));
int reg_id = DECODE_ALIAS_INFO_REG(last_lir_insn_->flags.alias_info) - push_offset / 4u;
AnnotateDalvikRegAccess(last_lir_insn_, reg_id, true, false);
}
if (!off_in_si && !off_in_di) {
- LoadWordDisp(TargetReg(kSp), SRegOffset(rl_src_offset.s_reg_low) + push_offset, rs_off);
+ LoadWordDisp(rs_rX86_SP, SRegOffset(rl_src_offset.s_reg_low) + push_offset, rs_off);
// Dalvik register annotation in LoadBaseIndexedDisp() used wrong offset. Fix it.
DCHECK(!DECODE_ALIAS_INFO_WIDE(last_lir_insn_->flags.alias_info));
int reg_id = DECODE_ALIAS_INFO_REG(last_lir_insn_->flags.alias_info) - push_offset / 4u;
@@ -1008,23 +1012,23 @@
RegStorage new_index = index_;
// Move index out of kArg1, either directly to kArg0, or to kArg2.
// TODO: clean-up to check not a number but with type
- if (index_.GetRegNum() == m2l_->TargetReg(kArg1).GetRegNum()) {
- if (array_base_.GetRegNum() == m2l_->TargetReg(kArg0).GetRegNum()) {
- m2l_->OpRegCopy(m2l_->TargetReg(kArg2), index_);
- new_index = m2l_->TargetReg(kArg2);
+ if (index_ == m2l_->TargetReg(kArg1, false)) {
+ if (array_base_ == m2l_->TargetRefReg(kArg0)) {
+ m2l_->OpRegCopy(m2l_->TargetReg(kArg2, false), index_);
+ new_index = m2l_->TargetReg(kArg2, false);
} else {
- m2l_->OpRegCopy(m2l_->TargetReg(kArg0), index_);
- new_index = m2l_->TargetReg(kArg0);
+ m2l_->OpRegCopy(m2l_->TargetReg(kArg0, false), index_);
+ new_index = m2l_->TargetReg(kArg0, false);
}
}
// Load array length to kArg1.
- m2l_->OpRegMem(kOpMov, m2l_->TargetReg(kArg1), array_base_, len_offset_);
+ m2l_->OpRegMem(kOpMov, m2l_->TargetReg(kArg1, false), array_base_, len_offset_);
if (cu_->target64) {
m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pThrowArrayBounds),
- new_index, m2l_->TargetReg(kArg1), true);
+ new_index, m2l_->TargetReg(kArg1, false), true);
} else {
m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pThrowArrayBounds),
- new_index, m2l_->TargetReg(kArg1), true);
+ new_index, m2l_->TargetReg(kArg1, false), true);
}
}
@@ -1057,14 +1061,14 @@
GenerateTargetLabel(kPseudoThrowTarget);
// Load array length to kArg1.
- m2l_->OpRegMem(kOpMov, m2l_->TargetReg(kArg1), array_base_, len_offset_);
- m2l_->LoadConstant(m2l_->TargetReg(kArg0), index_);
+ m2l_->OpRegMem(kOpMov, m2l_->TargetReg(kArg1, false), array_base_, len_offset_);
+ m2l_->LoadConstant(m2l_->TargetReg(kArg0, false), index_);
if (cu_->target64) {
m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(8, pThrowArrayBounds),
- m2l_->TargetReg(kArg0), m2l_->TargetReg(kArg1), true);
+ m2l_->TargetReg(kArg0, false), m2l_->TargetReg(kArg1, false), true);
} else {
m2l_->CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(4, pThrowArrayBounds),
- m2l_->TargetReg(kArg0), m2l_->TargetReg(kArg1), true);
+ m2l_->TargetReg(kArg0, false), m2l_->TargetReg(kArg1, false), true);
}
}
@@ -1406,7 +1410,7 @@
// RHS is in memory.
DCHECK((rl_src.location == kLocDalvikFrame) ||
(rl_src.location == kLocCompilerTemp));
- int r_base = TargetReg(kSp).GetReg();
+ int r_base = rs_rX86_SP.GetReg();
int displacement = SRegOffset(rl_src.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
@@ -1440,7 +1444,7 @@
// Operate directly into memory.
X86OpCode x86op = GetOpcode(op, rl_dest, rl_src, false);
- int r_base = TargetReg(kSp).GetReg();
+ int r_base = rs_rX86_SP.GetReg();
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
@@ -2122,7 +2126,7 @@
if ((rl_dest.location == kLocDalvikFrame) ||
(rl_dest.location == kLocCompilerTemp)) {
- int r_base = TargetReg(kSp).GetReg();
+ int r_base = rs_rX86_SP.GetReg();
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
@@ -2153,7 +2157,7 @@
// Can we just do this into memory?
if ((rl_dest.location == kLocDalvikFrame) ||
(rl_dest.location == kLocCompilerTemp)) {
- int r_base = TargetReg(kSp).GetReg();
+ int r_base = rs_rX86_SP.GetReg();
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
@@ -2271,7 +2275,8 @@
RegStorage result_reg = rl_result.reg;
// For 32-bit, SETcc only works with EAX..EDX.
- if (result_reg == object.reg || !IsByteRegister(result_reg)) {
+ RegStorage object_32reg = object.reg.Is64Bit() ? As32BitReg(object.reg) : object.reg;
+ if (result_reg == object_32reg || !IsByteRegister(result_reg)) {
result_reg = AllocateByteRegister();
}
@@ -2337,8 +2342,10 @@
FlushAllRegs();
// May generate a call - use explicit registers.
LockCallTemps();
- LoadCurrMethodDirect(TargetReg(kArg1)); // kArg1 gets current Method*.
- RegStorage class_reg = TargetReg(kArg2); // kArg2 will hold the Class*.
+ RegStorage method_reg = TargetRefReg(kArg1); // kArg1 gets current Method*.
+ LoadCurrMethodDirect(method_reg);
+ RegStorage class_reg = TargetRefReg(kArg2); // kArg2 will hold the Class*.
+ RegStorage ref_reg = TargetRefReg(kArg0); // kArg2 will hold the ref.
// Reference must end up in kArg0.
if (needs_access_check) {
// Check we have access to type_idx and if not throw IllegalAccessError,
@@ -2350,16 +2357,16 @@
CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(4, pInitializeTypeAndVerifyAccess),
type_idx, true);
}
- OpRegCopy(class_reg, TargetReg(kRet0));
- LoadValueDirectFixed(rl_src, TargetReg(kArg0));
+ OpRegCopy(class_reg, TargetRefReg(kRet0));
+ LoadValueDirectFixed(rl_src, ref_reg);
} else if (use_declaring_class) {
- LoadValueDirectFixed(rl_src, TargetReg(kArg0));
- LoadRefDisp(TargetReg(kArg1), mirror::ArtMethod::DeclaringClassOffset().Int32Value(),
+ LoadValueDirectFixed(rl_src, ref_reg);
+ LoadRefDisp(method_reg, mirror::ArtMethod::DeclaringClassOffset().Int32Value(),
class_reg, kNotVolatile);
} else {
// Load dex cache entry into class_reg (kArg2).
- LoadValueDirectFixed(rl_src, TargetReg(kArg0));
- LoadRefDisp(TargetReg(kArg1), mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
+ LoadValueDirectFixed(rl_src, ref_reg);
+ LoadRefDisp(method_reg, mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
class_reg, kNotVolatile);
int32_t offset_of_type =
mirror::Array::DataOffset(sizeof(mirror::HeapReference<mirror::Class*>)).Int32Value() +
@@ -2374,8 +2381,8 @@
} else {
CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(4, pInitializeType), type_idx, true);
}
- OpRegCopy(TargetReg(kArg2), TargetReg(kRet0)); // Align usage with fast path.
- LoadValueDirectFixed(rl_src, TargetReg(kArg0)); /* Reload Ref. */
+ OpRegCopy(class_reg, TargetRefReg(kRet0)); // Align usage with fast path.
+ LoadValueDirectFixed(rl_src, ref_reg); /* Reload Ref. */
// Rejoin code paths
LIR* hop_target = NewLIR0(kPseudoTargetLabel);
hop_branch->target = hop_target;
@@ -2386,33 +2393,34 @@
// On x86-64 kArg0 is not EAX, so we have to copy ref from kArg0 to EAX.
if (cu_->target64) {
- OpRegCopy(rl_result.reg, TargetReg(kArg0));
+ OpRegCopy(rl_result.reg, ref_reg);
}
// For 32-bit, SETcc only works with EAX..EDX.
DCHECK_LT(rl_result.reg.GetRegNum(), 4);
// Is the class NULL?
- LIR* branch1 = OpCmpImmBranch(kCondEq, TargetReg(kArg0), 0, NULL);
+ LIR* branch1 = OpCmpImmBranch(kCondEq, ref_reg, 0, NULL);
+ RegStorage ref_class_reg = TargetRefReg(kArg1); // kArg2 will hold the Class*.
/* Load object->klass_. */
DCHECK_EQ(mirror::Object::ClassOffset().Int32Value(), 0);
- LoadRefDisp(TargetReg(kArg0), mirror::Object::ClassOffset().Int32Value(), TargetReg(kArg1),
+ LoadRefDisp(ref_reg, mirror::Object::ClassOffset().Int32Value(), ref_class_reg,
kNotVolatile);
/* kArg0 is ref, kArg1 is ref->klass_, kArg2 is class. */
LIR* branchover = nullptr;
if (type_known_final) {
// Ensure top 3 bytes of result are 0.
LoadConstant(rl_result.reg, 0);
- OpRegReg(kOpCmp, TargetReg(kArg1), TargetReg(kArg2));
+ OpRegReg(kOpCmp, ref_class_reg, class_reg);
// Set the low byte of the result to 0 or 1 from the compare condition code.
NewLIR2(kX86Set8R, rl_result.reg.GetReg(), kX86CondEq);
} else {
if (!type_known_abstract) {
LoadConstant(rl_result.reg, 1); // Assume result succeeds.
- branchover = OpCmpBranch(kCondEq, TargetReg(kArg1), TargetReg(kArg2), NULL);
+ branchover = OpCmpBranch(kCondEq, ref_class_reg, class_reg, NULL);
}
- OpRegCopy(TargetReg(kArg0), TargetReg(kArg2));
+ OpRegCopy(TargetRefReg(kArg0), class_reg);
if (cu_->target64) {
OpThreadMem(kOpBlx, QUICK_ENTRYPOINT_OFFSET(8, pInstanceofNonTrivial));
} else {
@@ -2552,7 +2560,7 @@
} else {
if (shift_op) {
// X86 doesn't require masking and must use ECX.
- RegStorage t_reg = TargetReg(kCount); // rCX
+ RegStorage t_reg = TargetReg(kCount, false); // rCX
LoadValueDirectFixed(rl_rhs, t_reg);
if (is_two_addr) {
// Can we do this directly into memory?
@@ -2740,7 +2748,7 @@
}
// X86 doesn't require masking and must use ECX.
- RegStorage t_reg = TargetReg(kCount); // rCX
+ RegStorage t_reg = TargetReg(kCount, false); // rCX
LoadValueDirectFixed(rl_shift, t_reg);
if (is_two_addr) {
// Can we do this directly into memory?
diff --git a/compiler/dex/quick/x86/target_x86.cc b/compiler/dex/quick/x86/target_x86.cc
index 730a271..f80e200 100644
--- a/compiler/dex/quick/x86/target_x86.cc
+++ b/compiler/dex/quick/x86/target_x86.cc
@@ -154,8 +154,7 @@
}
RegLocation X86Mir2Lir::LocCReturnRef() {
- // FIXME: return x86_loc_c_return_wide for x86_64 when wide refs supported.
- return x86_loc_c_return;
+ return cu_->target64 ? x86_64_loc_c_return_ref : x86_loc_c_return_ref;
}
RegLocation X86Mir2Lir::LocCReturnWide() {
@@ -170,8 +169,8 @@
return x86_loc_c_return_double;
}
-// Return a target-dependent special register.
-RegStorage X86Mir2Lir::TargetReg(SpecialTargetRegister reg) {
+// Return a target-dependent special register for 32-bit.
+RegStorage X86Mir2Lir::TargetReg32(SpecialTargetRegister reg) {
RegStorage res_reg = RegStorage::InvalidReg();
switch (reg) {
case kSelf: res_reg = RegStorage::InvalidReg(); break;
@@ -204,6 +203,11 @@
return res_reg;
}
+RegStorage X86Mir2Lir::TargetReg(SpecialTargetRegister reg) {
+ LOG(FATAL) << "Do not use this function!!!";
+ return RegStorage::InvalidReg();
+}
+
/*
* Decode the register id.
*/
@@ -832,7 +836,7 @@
(rl_dest.location == kLocCompilerTemp)) {
int32_t val_lo = Low32Bits(value);
int32_t val_hi = High32Bits(value);
- int r_base = TargetReg(kSp).GetReg();
+ int r_base = rs_rX86_SP.GetReg();
int displacement = SRegOffset(rl_dest.s_reg_low);
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
@@ -887,7 +891,7 @@
uintptr_t target_method_id_ptr = reinterpret_cast<uintptr_t>(&target_method_id);
// Generate the move instruction with the unique pointer and save index, dex_file, and type.
- LIR *move = RawLIR(current_dalvik_offset_, kX86Mov32RI, TargetReg(symbolic_reg).GetReg(),
+ LIR *move = RawLIR(current_dalvik_offset_, kX86Mov32RI, TargetReg(symbolic_reg, false).GetReg(),
static_cast<int>(target_method_id_ptr), target_method_idx,
WrapPointer(const_cast<DexFile*>(target_dex_file)), type);
AppendLIR(move);
@@ -904,7 +908,7 @@
uintptr_t ptr = reinterpret_cast<uintptr_t>(&id);
// Generate the move instruction with the unique pointer and save index and type.
- LIR *move = RawLIR(current_dalvik_offset_, kX86Mov32RI, TargetReg(symbolic_reg).GetReg(),
+ LIR *move = RawLIR(current_dalvik_offset_, kX86Mov32RI, TargetReg(symbolic_reg, false).GetReg(),
static_cast<int>(ptr), type_idx);
AppendLIR(move);
class_type_address_insns_.Insert(move);
@@ -1746,29 +1750,22 @@
// ------------ ABI support: mapping of args to physical registers -------------
RegStorage X86Mir2Lir::InToRegStorageX86_64Mapper::GetNextReg(bool is_double_or_float, bool is_wide) {
- const RegStorage coreArgMappingToPhysicalReg[] = {rs_rX86_ARG1, rs_rX86_ARG2, rs_rX86_ARG3, rs_rX86_ARG4, rs_rX86_ARG5};
- const int coreArgMappingToPhysicalRegSize = sizeof(coreArgMappingToPhysicalReg) / sizeof(RegStorage);
- const RegStorage fpArgMappingToPhysicalReg[] = {rs_rX86_FARG0, rs_rX86_FARG1, rs_rX86_FARG2, rs_rX86_FARG3,
- rs_rX86_FARG4, rs_rX86_FARG5, rs_rX86_FARG6, rs_rX86_FARG7};
- const int fpArgMappingToPhysicalRegSize = sizeof(fpArgMappingToPhysicalReg) / sizeof(RegStorage);
+ const SpecialTargetRegister coreArgMappingToPhysicalReg[] = {kArg1, kArg2, kArg3, kArg4, kArg5};
+ const int coreArgMappingToPhysicalRegSize = sizeof(coreArgMappingToPhysicalReg) / sizeof(SpecialTargetRegister);
+ const SpecialTargetRegister fpArgMappingToPhysicalReg[] = {kFArg0, kFArg1, kFArg2, kFArg3,
+ kFArg4, kFArg5, kFArg6, kFArg7};
+ const int fpArgMappingToPhysicalRegSize = sizeof(fpArgMappingToPhysicalReg) / sizeof(SpecialTargetRegister);
- RegStorage result = RegStorage::InvalidReg();
if (is_double_or_float) {
if (cur_fp_reg_ < fpArgMappingToPhysicalRegSize) {
- result = fpArgMappingToPhysicalReg[cur_fp_reg_++];
- if (result.Valid()) {
- result = is_wide ? RegStorage::FloatSolo64(result.GetReg()) : RegStorage::FloatSolo32(result.GetReg());
- }
+ return ml_->TargetReg(fpArgMappingToPhysicalReg[cur_fp_reg_++], is_wide);
}
} else {
if (cur_core_reg_ < coreArgMappingToPhysicalRegSize) {
- result = coreArgMappingToPhysicalReg[cur_core_reg_++];
- if (result.Valid()) {
- result = is_wide ? RegStorage::Solo64(result.GetReg()) : RegStorage::Solo32(result.GetReg());
- }
+ return ml_->TargetReg(coreArgMappingToPhysicalReg[cur_core_reg_++], is_wide);
}
}
- return result;
+ return RegStorage::InvalidReg();
}
RegStorage X86Mir2Lir::InToRegStorageMapping::Get(int in_position) {
@@ -1806,7 +1803,7 @@
int start_vreg = cu_->num_dalvik_registers - cu_->num_ins;
RegLocation* arg_locs = &mir_graph_->reg_location_[start_vreg];
- InToRegStorageX86_64Mapper mapper;
+ InToRegStorageX86_64Mapper mapper(this);
in_to_reg_storage_mapping_.Initialize(arg_locs, cu_->num_ins, &mapper);
}
return in_to_reg_storage_mapping_.Get(arg_num);
@@ -1847,13 +1844,13 @@
RegLocation rl_src = rl_method;
rl_src.location = kLocPhysReg;
- rl_src.reg = TargetReg(kArg0);
+ rl_src.reg = TargetRefReg(kArg0);
rl_src.home = false;
MarkLive(rl_src);
StoreValue(rl_method, rl_src);
// If Method* has been promoted, explicitly flush
if (rl_method.location == kLocPhysReg) {
- StoreRefDisp(TargetReg(kSp), 0, TargetReg(kArg0), kNotVolatile);
+ StoreRefDisp(rs_rX86_SP, 0, As32BitReg(TargetRefReg(kArg0)), kNotVolatile);
}
if (cu_->num_ins == 0) {
@@ -1890,9 +1887,9 @@
} else {
// Needs flush.
if (t_loc->ref) {
- StoreRefDisp(TargetReg(kSp), SRegOffset(start_vreg + i), reg, kNotVolatile);
+ StoreRefDisp(rs_rX86_SP, SRegOffset(start_vreg + i), reg, kNotVolatile);
} else {
- StoreBaseDisp(TargetReg(kSp), SRegOffset(start_vreg + i), reg, t_loc->wide ? k64 : k32,
+ StoreBaseDisp(rs_rX86_SP, SRegOffset(start_vreg + i), reg, t_loc->wide ? k64 : k32,
kNotVolatile);
}
}
@@ -1900,9 +1897,9 @@
// If arriving in frame & promoted.
if (t_loc->location == kLocPhysReg) {
if (t_loc->ref) {
- LoadRefDisp(TargetReg(kSp), SRegOffset(start_vreg + i), t_loc->reg, kNotVolatile);
+ LoadRefDisp(rs_rX86_SP, SRegOffset(start_vreg + i), t_loc->reg, kNotVolatile);
} else {
- LoadBaseDisp(TargetReg(kSp), SRegOffset(start_vreg + i), t_loc->reg,
+ LoadBaseDisp(rs_rX86_SP, SRegOffset(start_vreg + i), t_loc->reg,
t_loc->wide ? k64 : k32, kNotVolatile);
}
}
@@ -1974,7 +1971,7 @@
const int start_index = skip_this ? 1 : 0;
- InToRegStorageX86_64Mapper mapper;
+ InToRegStorageX86_64Mapper mapper(this);
InToRegStorageMapping in_to_reg_storage_mapping;
in_to_reg_storage_mapping.Initialize(info->args, info->num_arg_words, &mapper);
const int last_mapped_in = in_to_reg_storage_mapping.GetMaxMappedIn();
@@ -1993,14 +1990,14 @@
loc = UpdateLocWide(loc);
if (loc.location == kLocPhysReg) {
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(loc.s_reg_low), loc.reg, k64, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, SRegOffset(loc.s_reg_low), loc.reg, k64, kNotVolatile);
}
next_arg += 2;
} else {
loc = UpdateLoc(loc);
if (loc.location == kLocPhysReg) {
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
- StoreBaseDisp(TargetReg(kSp), SRegOffset(loc.s_reg_low), loc.reg, k32, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, SRegOffset(loc.s_reg_low), loc.reg, k32, kNotVolatile);
}
next_arg++;
}
@@ -2057,23 +2054,23 @@
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
if (src_is_16b_aligned) {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovA128FP);
+ ld1 = OpMovRegMem(temp, rs_rX86_SP, current_src_offset, kMovA128FP);
} else if (src_is_8b_aligned) {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovLo128FP);
- ld2 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset + (bytes_to_move >> 1),
+ ld1 = OpMovRegMem(temp, rs_rX86_SP, current_src_offset, kMovLo128FP);
+ ld2 = OpMovRegMem(temp, rs_rX86_SP, current_src_offset + (bytes_to_move >> 1),
kMovHi128FP);
} else {
- ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovU128FP);
+ ld1 = OpMovRegMem(temp, rs_rX86_SP, current_src_offset, kMovU128FP);
}
if (dest_is_16b_aligned) {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovA128FP);
+ st1 = OpMovMemReg(rs_rX86_SP, current_dest_offset, temp, kMovA128FP);
} else if (dest_is_8b_aligned) {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovLo128FP);
- st2 = OpMovMemReg(TargetReg(kSp), current_dest_offset + (bytes_to_move >> 1),
+ st1 = OpMovMemReg(rs_rX86_SP, current_dest_offset, temp, kMovLo128FP);
+ st2 = OpMovMemReg(rs_rX86_SP, current_dest_offset + (bytes_to_move >> 1),
temp, kMovHi128FP);
} else {
- st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovU128FP);
+ st1 = OpMovMemReg(rs_rX86_SP, current_dest_offset, temp, kMovU128FP);
}
// TODO If we could keep track of aliasing information for memory accesses that are wider
@@ -2107,11 +2104,11 @@
// Instead of allocating a new temp, simply reuse one of the registers being used
// for argument passing.
- RegStorage temp = TargetReg(kArg3);
+ RegStorage temp = TargetReg(kArg3, false);
// Now load the argument VR and store to the outs.
- Load32Disp(TargetReg(kSp), current_src_offset, temp);
- Store32Disp(TargetReg(kSp), current_dest_offset, temp);
+ Load32Disp(rs_rX86_SP, current_src_offset, temp);
+ Store32Disp(rs_rX86_SP, current_dest_offset, temp);
}
current_src_offset += bytes_to_move;
@@ -2123,8 +2120,8 @@
// Now handle rest not registers if they are
if (in_to_reg_storage_mapping.IsThereStackMapped()) {
- RegStorage regSingle = TargetReg(kArg2);
- RegStorage regWide = RegStorage::Solo64(TargetReg(kArg3).GetReg());
+ RegStorage regSingle = TargetReg(kArg2, false);
+ RegStorage regWide = TargetReg(kArg3, true);
for (int i = start_index;
i < last_mapped_in + size_of_the_last_mapped + regs_left_to_pass_via_stack; i++) {
RegLocation rl_arg = info->args[i];
@@ -2137,17 +2134,17 @@
ScopedMemRefType mem_ref_type(this, ResourceMask::kDalvikReg);
if (rl_arg.wide) {
if (rl_arg.location == kLocPhysReg) {
- StoreBaseDisp(TargetReg(kSp), out_offset, rl_arg.reg, k64, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, out_offset, rl_arg.reg, k64, kNotVolatile);
} else {
LoadValueDirectWideFixed(rl_arg, regWide);
- StoreBaseDisp(TargetReg(kSp), out_offset, regWide, k64, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, out_offset, regWide, k64, kNotVolatile);
}
} else {
if (rl_arg.location == kLocPhysReg) {
- StoreBaseDisp(TargetReg(kSp), out_offset, rl_arg.reg, k32, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, out_offset, rl_arg.reg, k32, kNotVolatile);
} else {
LoadValueDirectFixed(rl_arg, regSingle);
- StoreBaseDisp(TargetReg(kSp), out_offset, regSingle, k32, kNotVolatile);
+ StoreBaseDisp(rs_rX86_SP, out_offset, regSingle, k32, kNotVolatile);
}
}
}
@@ -2183,13 +2180,13 @@
direct_code, direct_method, type);
if (pcrLabel) {
if (cu_->compiler_driver->GetCompilerOptions().GetExplicitNullChecks()) {
- *pcrLabel = GenExplicitNullCheck(TargetReg(kArg1), info->opt_flags);
+ *pcrLabel = GenExplicitNullCheck(TargetRefReg(kArg1), info->opt_flags);
} else {
*pcrLabel = nullptr;
// In lieu of generating a check for kArg1 being null, we need to
// perform a load when doing implicit checks.
RegStorage tmp = AllocTemp();
- Load32Disp(TargetReg(kArg1), 0, tmp);
+ Load32Disp(TargetRefReg(kArg1), 0, tmp);
MarkPossibleNullPointerException(info->opt_flags);
FreeTemp(tmp);
}
diff --git a/compiler/dex/quick/x86/x86_lir.h b/compiler/dex/quick/x86/x86_lir.h
index 7ff4f72..a52e842 100644
--- a/compiler/dex/quick/x86/x86_lir.h
+++ b/compiler/dex/quick/x86/x86_lir.h
@@ -353,6 +353,12 @@
const RegLocation x86_loc_c_return_wide
{kLocPhysReg, 1, 0, 0, 0, 0, 0, 0, 1,
RegStorage(RegStorage::k64BitPair, rAX, rDX), INVALID_SREG, INVALID_SREG};
+const RegLocation x86_loc_c_return_ref
+ {kLocPhysReg, 0, 0, 0, 0, 0, 1, 0, 1,
+ RegStorage(RegStorage::k32BitSolo, rAX), INVALID_SREG, INVALID_SREG};
+const RegLocation x86_64_loc_c_return_ref
+ {kLocPhysReg, 0, 0, 0, 0, 0, 1, 0, 1,
+ RegStorage(RegStorage::k64BitSolo, rAX), INVALID_SREG, INVALID_SREG};
const RegLocation x86_64_loc_c_return_wide
{kLocPhysReg, 1, 0, 0, 0, 0, 0, 0, 1,
RegStorage(RegStorage::k64BitSolo, rAX), INVALID_SREG, INVALID_SREG};