From: Shengchen Kan Date: Thu, 6 Apr 2023 11:16:46 +0000 (+0800) Subject: [X86][mem-fold] Refine the code in X86FoldTablesEmitter.cpp, NFCI X-Git-Tag: upstream/17.0.6~12433 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=eda14ebf6a43d9ada6a2be3d1b06b8b6036eb774;p=platform%2Fupstream%2Fllvm.git [X86][mem-fold] Refine the code in X86FoldTablesEmitter.cpp, NFCI 1. Simplify code by using conditional operator 2. Add comments for "kz" and "store" cases 3. Rename variables to match flags --- diff --git a/llvm/utils/TableGen/X86FoldTablesEmitter.cpp b/llvm/utils/TableGen/X86FoldTablesEmitter.cpp index 40a8315..b116675 100644 --- a/llvm/utils/TableGen/X86FoldTablesEmitter.cpp +++ b/llvm/utils/TableGen/X86FoldTablesEmitter.cpp @@ -72,10 +72,10 @@ class X86FoldTablesEmitter { const CodeGenInstruction *MemInst; public: - bool CannotUnfold = false; - bool CannotFold = false; - bool IsLoad = false; - bool IsStore = false; + bool NoReverse = false; + bool NoForward = false; + bool FoldLoad = false; + bool FoldStore = false; Align Alignment; X86FoldTableEntry() = default; @@ -89,13 +89,13 @@ class X86FoldTablesEmitter { OS << "X86::" << MemInst->TheDef->getName() << ", "; std::string Attrs; - if (IsLoad) + if (FoldLoad) Attrs += "TB_FOLDED_LOAD|"; - if (IsStore) + if (FoldStore) Attrs += "TB_FOLDED_STORE|"; - if (CannotUnfold) + if (NoReverse) Attrs += "TB_NO_REVERSE|"; - if (CannotFold) + if (NoForward) Attrs += "TB_NO_FORWARD|"; if (Alignment != Align(1)) Attrs += "TB_ALIGN_" + std::to_string(Alignment.value()) + "|"; @@ -154,8 +154,8 @@ private: // Generates X86FoldTableEntry with the given instructions and fill it with // the appropriate flags - then adds it to Table. void addEntryWithFlags(FoldTable &Table, const CodeGenInstruction *RegInstr, - const CodeGenInstruction *MemInstr, const uint16_t S, - const unsigned int FoldedInd, bool isManual); + const CodeGenInstruction *MemInstr, uint16_t S, + unsigned FoldedIdx, bool isManual); // Print the given table as a static const C++ array of type // X86MemoryFoldTableEntry. @@ -375,8 +375,7 @@ public: void X86FoldTablesEmitter::addEntryWithFlags(FoldTable &Table, const CodeGenInstruction *RegInstr, const CodeGenInstruction *MemInstr, - const uint16_t S, - const unsigned int FoldedInd, + uint16_t S, unsigned FoldedIdx, bool isManual) { X86FoldTableEntry Result = X86FoldTableEntry(RegInstr, MemInstr); @@ -384,10 +383,10 @@ void X86FoldTablesEmitter::addEntryWithFlags(FoldTable &Table, Record *MemRec = MemInstr->TheDef; if (isManual) { - Result.CannotUnfold = (S & TB_NO_REVERSE) != 0; - Result.CannotFold = (S & TB_NO_FORWARD) != 0; - Result.IsLoad = (S & TB_FOLDED_LOAD) != 0; - Result.IsStore = (S & TB_FOLDED_STORE) != 0; + Result.NoReverse = S & TB_NO_REVERSE; + Result.NoForward = S & TB_NO_FORWARD; + Result.FoldLoad = S & TB_FOLDED_LOAD; + Result.FoldStore = S & TB_FOLDED_STORE; Result.Alignment = Align(1ULL << ((S & TB_ALIGN_MASK) >> TB_ALIGN_SHIFT)); Table[RegInstr] = Result; return; @@ -403,13 +402,13 @@ void X86FoldTablesEmitter::addEntryWithFlags(FoldTable &Table, // If the instruction reads from the folded operand, it well appear as in // input in both forms. if (MemInOpsNum == RegInOpsNum) - Result.IsLoad = true; + Result.FoldLoad = true; else - Result.IsStore = true; + Result.FoldStore = true; } - Record *RegOpRec = RegInstr->Operands[FoldedInd].Rec; - Record *MemOpRec = MemInstr->Operands[FoldedInd].Rec; + Record *RegOpRec = RegInstr->Operands[FoldedIdx].Rec; + Record *MemOpRec = MemInstr->Operands[FoldedIdx].Rec; // Unfolding code generates a load/store instruction according to the size of // the register in the register form instruction. @@ -420,21 +419,20 @@ void X86FoldTablesEmitter::addEntryWithFlags(FoldTable &Table, // than the memory operand size, the unfolded load will load more memory and // potentially cause a memory fault. if (getRegOperandSize(RegOpRec) > getMemOperandSize(MemOpRec)) - Result.CannotUnfold = true; + Result.NoReverse = true; // Check no-kz version's isMoveReg StringRef RegInstName = RegRec->getName(); - Record *BaseDef = nullptr; - if (RegInstName.endswith("rkz") && - (BaseDef = Records.getDef(RegInstName.drop_back(2)))) { - Result.CannotUnfold = - Target.getInstruction(BaseDef).isMoveReg ? true : Result.CannotUnfold; - } else if (RegInstName.endswith("rk") && - (BaseDef = Records.getDef(RegInstName.drop_back(1)))) { - Result.CannotUnfold = - Target.getInstruction(BaseDef).isMoveReg ? true : Result.CannotUnfold; - } else if (RegInstr->isMoveReg && Result.IsStore) - Result.CannotUnfold = true; + unsigned DropLen = + RegInstName.endswith("rkz") ? 2 : (RegInstName.endswith("rk") ? 1 : 0); + Record *BaseDef = + DropLen ? Records.getDef(RegInstName.drop_back(DropLen)) : nullptr; + bool IsMoveReg = + BaseDef ? Target.getInstruction(BaseDef).isMoveReg : RegInstr->isMoveReg; + // A masked load can not be unfolded to a full load, otherwise it would access + // unexpected memory. A simple store can not be unfolded. + if (IsMoveReg && (BaseDef || Result.FoldStore)) + Result.NoReverse = true; uint8_t Enc = byteFromBitsInit(RegRec->getValueAsBitsInit("OpEncBits")); if (isExplicitAlign(RegInstr)) { @@ -452,7 +450,7 @@ void X86FoldTablesEmitter::addEntryWithFlags(FoldTable &Table, // intrinsic or folding a plain load. If it is from a expand load intrinsic, // Unfolding to plain load would read more elements and could trigger a fault. if (RegRec->getName().contains("EXPAND")) - Result.CannotUnfold = true; + Result.NoReverse = true; Table[RegInstr] = Result; }