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Side by Side Diff: src/IceTargetLoweringARM32.h

Issue 1655313002: Subzero: ARM32: lowering of vector insert and extract. (Closed) Base URL: https://chromium.googlesource.com/native_client/pnacl-subzero.git@master
Patch Set: Incorporating review feedback" Created 4 years, 10 months ago
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« src/IceInstARM32.cpp ('K') | « src/IceRegistersARM32.h ('k') | src/IceTargetLoweringARM32.cpp » ('j') | src/IceTargetLoweringARM32.cpp » ('J')
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1 //===- subzero/src/IceTargetLoweringARM32.h - ARM32 lowering ----*- C++ -*-===// 1 //===- subzero/src/IceTargetLoweringARM32.h - ARM32 lowering ----*- C++ -*-===//
2 // 2 //
3 // The Subzero Code Generator 3 // The Subzero Code Generator
4 // 4 //
5 // This file is distributed under the University of Illinois Open Source 5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details. 6 // License. See LICENSE.TXT for details.
7 // 7 //
8 //===----------------------------------------------------------------------===// 8 //===----------------------------------------------------------------------===//
9 /// 9 ///
10 /// \file 10 /// \file
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78 bool doBranchOpt(Inst *I, const CfgNode *NextNode) override; 78 bool doBranchOpt(Inst *I, const CfgNode *NextNode) override;
79 79
80 SizeT getNumRegisters() const override { return RegARM32::Reg_NUM; } 80 SizeT getNumRegisters() const override { return RegARM32::Reg_NUM; }
81 Variable *getPhysicalRegister(SizeT RegNum, Type Ty = IceType_void) override; 81 Variable *getPhysicalRegister(SizeT RegNum, Type Ty = IceType_void) override;
82 IceString getRegName(SizeT RegNum, Type Ty) const override; 82 IceString getRegName(SizeT RegNum, Type Ty) const override;
83 llvm::SmallBitVector getRegisterSet(RegSetMask Include, 83 llvm::SmallBitVector getRegisterSet(RegSetMask Include,
84 RegSetMask Exclude) const override; 84 RegSetMask Exclude) const override;
85 const llvm::SmallBitVector & 85 const llvm::SmallBitVector &
86 getRegistersForVariable(const Variable *Var) const override { 86 getRegistersForVariable(const Variable *Var) const override {
87 RegClass RC = Var->getRegClass(); 87 RegClass RC = Var->getRegClass();
88 assert(RC < RC_Target); 88 switch (RC) {
89 return TypeToRegisterSet[RC]; 89 default:
90 assert(RC < RC_Target);
91 return TypeToRegisterSet[RC];
92 case RegARM32::RCARM32_QtoS:
93 return TypeToRegisterSet[RC];
94 }
90 } 95 }
91 const llvm::SmallBitVector & 96 const llvm::SmallBitVector &
92 getAllRegistersForVariable(const Variable *Var) const override { 97 getAllRegistersForVariable(const Variable *Var) const override {
93 RegClass RC = Var->getRegClass(); 98 RegClass RC = Var->getRegClass();
94 assert(RC < RC_Target); 99 assert((RegARM32::RegClassARM32)RC < RegARM32::RCARM32_NUM);
95 return TypeToRegisterSetUnfiltered[RC]; 100 return TypeToRegisterSetUnfiltered[RC];
96 } 101 }
97 const llvm::SmallBitVector &getAliasesForRegister(SizeT Reg) const override { 102 const llvm::SmallBitVector &getAliasesForRegister(SizeT Reg) const override {
98 return RegisterAliases[Reg]; 103 return RegisterAliases[Reg];
99 } 104 }
100 bool hasFramePointer() const override { return UsesFramePointer; } 105 bool hasFramePointer() const override { return UsesFramePointer; }
101 void setHasFramePointer() override { UsesFramePointer = true; } 106 void setHasFramePointer() override { UsesFramePointer = true; }
102 SizeT getStackReg() const override { return RegARM32::Reg_sp; } 107 SizeT getStackReg() const override { return RegARM32::Reg_sp; }
103 SizeT getFrameReg() const override { return RegARM32::Reg_fp; } 108 SizeT getFrameReg() const override { return RegARM32::Reg_fp; }
104 SizeT getFrameOrStackReg() const override { 109 SizeT getFrameOrStackReg() const override {
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406 auto *Instr = Context.insert<InstARM32Mov>(Dest, Src0, Pred); 411 auto *Instr = Context.insert<InstARM32Mov>(Dest, Src0, Pred);
407 Instr->setDestRedefined(); 412 Instr->setDestRedefined();
408 if (Instr->isMultiDest()) { 413 if (Instr->isMultiDest()) {
409 // If Instr is multi-dest, then Dest must be a Variable64On32. We add a 414 // If Instr is multi-dest, then Dest must be a Variable64On32. We add a
410 // fake-def for Instr.DestHi here. 415 // fake-def for Instr.DestHi here.
411 assert(llvm::isa<Variable64On32>(Dest)); 416 assert(llvm::isa<Variable64On32>(Dest));
412 Context.insert<InstFakeDef>(Instr->getDestHi()); 417 Context.insert<InstFakeDef>(Instr->getDestHi());
413 } 418 }
414 } 419 }
415 420
421 // Generates a vmov instruction to extract the given index from a vector
422 // register.
423 void _extractelement(Variable *Dest, Variable *Src0, uint32_t Index,
424 CondARM32::Cond Pred = CondARM32::AL) {
425 Context.insert<InstARM32Extract>(Dest, Src0, Index, Pred);
426 }
427
428 // Generates a vmov instruction to insert a value into the given index of a
429 // vector register.
430 void _insertelement(Variable *Dest, Variable *Src0, uint32_t Index,
431 CondARM32::Cond Pred = CondARM32::AL) {
432 Context.insert<InstARM32Insert>(Dest, Src0, Index, Pred);
433 }
434
416 // -------------------------------------------------------------------------- 435 // --------------------------------------------------------------------------
417 // Begin bool folding machinery. 436 // Begin bool folding machinery.
418 // 437 //
419 // There are three types of boolean lowerings handled by this target: 438 // There are three types of boolean lowerings handled by this target:
420 // 439 //
421 // 1) Boolean expressions leading to a boolean Variable definition 440 // 1) Boolean expressions leading to a boolean Variable definition
422 // --------------------------------------------------------------- 441 // ---------------------------------------------------------------
423 // 442 //
424 // Whenever a i1 Variable is live out (i.e., its live range extends beyond 443 // Whenever a i1 Variable is live out (i.e., its live range extends beyond
425 // the defining basic block) we do not fold the operation. We instead 444 // the defining basic block) we do not fold the operation. We instead
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1216 private: 1235 private:
1217 ~TargetHeaderARM32() = default; 1236 ~TargetHeaderARM32() = default;
1218 1237
1219 TargetARM32Features CPUFeatures; 1238 TargetARM32Features CPUFeatures;
1220 }; 1239 };
1221 1240
1222 } // end of namespace ARM32 1241 } // end of namespace ARM32
1223 } // end of namespace Ice 1242 } // end of namespace Ice
1224 1243
1225 #endif // SUBZERO_SRC_ICETARGETLOWERINGARM32_H 1244 #endif // SUBZERO_SRC_ICETARGETLOWERINGARM32_H
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« src/IceInstARM32.cpp ('K') | « src/IceRegistersARM32.h ('k') | src/IceTargetLoweringARM32.cpp » ('j') | src/IceTargetLoweringARM32.cpp » ('J')

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