From 95d110920e4ce9ded59934a432327a5343b1069d Mon Sep 17 00:00:00 2001 From: Dan Gohman Date: Mon, 7 Jul 2008 21:00:17 +0000 Subject: [PATCH] Refactor the tablegen DAGISelEmitter code for outputing calls to getTargetNode and SelectNodeTo to reduce duplication, and to make some of the getTargetNode code available to SelectNodeTo. Use SelectNodeTo instead of getTargetNode in several new interesting cases, as it mutates nodes in place instead of creating new ones. This triggers some scheduling behavior differences due to nodes being presented to the scheduler in a different order. Some of the arbitrary scheduling decisions it makes are now arbitrarily made differently. This is visible in CodeGen/PowerPC/LargeAbsoluteAddr.ll, where a trivial scheduling difference led to a trivial register allocation difference. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@53203 91177308-0d34-0410-b5e6-96231b3b80d8 --- test/CodeGen/PowerPC/LargeAbsoluteAddr.ll | 4 +- utils/TableGen/DAGISelEmitter.cpp | 447 +++++++++++----------- 2 files changed, 229 insertions(+), 222 deletions(-) diff --git a/test/CodeGen/PowerPC/LargeAbsoluteAddr.ll b/test/CodeGen/PowerPC/LargeAbsoluteAddr.ll index 17053796bc7..f3ded0e801e 100644 --- a/test/CodeGen/PowerPC/LargeAbsoluteAddr.ll +++ b/test/CodeGen/PowerPC/LargeAbsoluteAddr.ll @@ -1,7 +1,7 @@ ; RUN: llvm-as < %s | llc -march=ppc32 -mtriple=powerpc-apple-darwin | \ -; RUN: grep {stw r3, 32751} +; RUN: grep {stw r2, 32751} ; RUN: llvm-as < %s | llc -march=ppc64 -mtriple=powerpc-apple-darwin | \ -; RUN: grep {stw r3, 32751} +; RUN: grep {stw r2, 32751} ; RUN: llvm-as < %s | llc -march=ppc64 -mtriple=powerpc-apple-darwin | \ ; RUN: grep {std r2, 9024} diff --git a/utils/TableGen/DAGISelEmitter.cpp b/utils/TableGen/DAGISelEmitter.cpp index c6cac7d16a8..bdb7fcf35ad 100644 --- a/utils/TableGen/DAGISelEmitter.cpp +++ b/utils/TableGen/DAGISelEmitter.cpp @@ -18,6 +18,7 @@ #include "llvm/Support/MathExtras.h" #include "llvm/Support/Streams.h" #include +#include using namespace llvm; //===----------------------------------------------------------------------===// @@ -1033,230 +1034,236 @@ public: } unsigned ResNo = TmpNo++; - if (!isRoot || InputHasChain || NodeHasChain || NodeHasOutFlag || - NodeHasOptInFlag || HasImpResults) { - std::string Code; - std::string Code2; - std::string NodeName; - if (!isRoot) { - NodeName = "Tmp" + utostr(ResNo); - Code2 = "SDOperand " + NodeName + "("; - } else { - NodeName = "ResNode"; - if (!ResNodeDecled) { - Code2 = "SDNode *" + NodeName + " = "; - ResNodeDecled = true; - } else - Code2 = NodeName + " = "; - } - Code += "CurDAG->getTargetNode(Opc" + utostr(OpcNo); - unsigned OpsNo = OpcNo; - emitOpcode(II.Namespace + "::" + II.TheDef->getName()); - - // Output order: results, chain, flags - // Result types. - if (NumResults > 0 && N->getTypeNum(0) != MVT::isVoid) { - Code += ", VT" + utostr(VTNo); - emitVT(getEnumName(N->getTypeNum(0))); - } - // Add types for implicit results in physical registers, scheduler will - // care of adding copyfromreg nodes. - for (unsigned i = 0; i < NumDstRegs; i++) { - Record *RR = DstRegs[i]; - if (RR->isSubClassOf("Register")) { - MVT::SimpleValueType RVT = getRegisterValueType(RR, CGT); - Code += ", " + getEnumName(RVT); - } - } - if (NodeHasChain) - Code += ", MVT::Other"; - if (NodeHasOutFlag) - Code += ", MVT::Flag"; - - // Inputs. - if (IsVariadic) { - for (unsigned i = 0, e = AllOps.size(); i != e; ++i) - emitCode("Ops" + utostr(OpsNo) + ".push_back(" + AllOps[i] + ");"); - AllOps.clear(); - - // Figure out whether any operands at the end of the op list are not - // part of the variable section. - std::string EndAdjust; - if (NodeHasInFlag || HasImpInputs) - EndAdjust = "-1"; // Always has one flag. - else if (NodeHasOptInFlag) - EndAdjust = "-(HasInFlag?1:0)"; // May have a flag. - - emitCode("for (unsigned i = NumInputRootOps + " + utostr(NodeHasChain) + - ", e = N.getNumOperands()" + EndAdjust + "; i != e; ++i) {"); - - emitCode(" AddToISelQueue(N.getOperand(i));"); - emitCode(" Ops" + utostr(OpsNo) + ".push_back(N.getOperand(i));"); - emitCode("}"); - } - - // Generate MemOperandSDNodes nodes for each memory accesses covered by - // this pattern. - if (II.isSimpleLoad | II.mayLoad | II.mayStore) { - std::vector::const_iterator mi, mie; - for (mi = LSI.begin(), mie = LSI.end(); mi != mie; ++mi) { - emitCode("SDOperand LSI_" + *mi + " = " - "CurDAG->getMemOperand(cast(" + - *mi + ")->getMemOperand());"); - if (IsVariadic) - emitCode("Ops" + utostr(OpsNo) + ".push_back(LSI_" + *mi + ");"); - else - AllOps.push_back("LSI_" + *mi); - } - } - - if (NodeHasChain) { - if (IsVariadic) - emitCode("Ops" + utostr(OpsNo) + ".push_back(" + ChainName + ");"); - else - AllOps.push_back(ChainName); - } - - if (IsVariadic) { - if (NodeHasInFlag || HasImpInputs) - emitCode("Ops" + utostr(OpsNo) + ".push_back(InFlag);"); - else if (NodeHasOptInFlag) { - emitCode("if (HasInFlag)"); - emitCode(" Ops" + utostr(OpsNo) + ".push_back(InFlag);"); - } - Code += ", &Ops" + utostr(OpsNo) + "[0], Ops" + utostr(OpsNo) + - ".size()"; - } else if (NodeHasInFlag || NodeHasOptInFlag || HasImpInputs) - AllOps.push_back("InFlag"); - - unsigned NumOps = AllOps.size(); - if (NumOps) { - if (!NodeHasOptInFlag && NumOps < 4) { - for (unsigned i = 0; i != NumOps; ++i) - Code += ", " + AllOps[i]; - } else { - std::string OpsCode = "SDOperand Ops" + utostr(OpsNo) + "[] = { "; - for (unsigned i = 0; i != NumOps; ++i) { - OpsCode += AllOps[i]; - if (i != NumOps-1) - OpsCode += ", "; - } - emitCode(OpsCode + " };"); - Code += ", Ops" + utostr(OpsNo) + ", "; - if (NodeHasOptInFlag) { - Code += "HasInFlag ? "; - Code += utostr(NumOps) + " : " + utostr(NumOps-1); - } else - Code += utostr(NumOps); - } - } - - if (!isRoot) - Code += "), 0"; - emitCode(Code2 + Code + ");"); - - if (NodeHasChain) { - // Remember which op produces the chain. - if (!isRoot) - emitCode(ChainName + " = SDOperand(" + NodeName + - ".Val, " + utostr(NumResults+NumDstRegs) + ");"); - else - emitCode(ChainName + " = SDOperand(" + NodeName + - ", " + utostr(NumResults+NumDstRegs) + ");"); - } - - if (!isRoot) { - NodeOps.push_back("Tmp" + utostr(ResNo)); - return NodeOps; - } - - bool NeedReplace = false; - if (NodeHasOutFlag) { - if (!InFlagDecled) { - emitCode("SDOperand InFlag(ResNode, " + - utostr(NumResults+NumDstRegs+(unsigned)NodeHasChain) + ");"); - InFlagDecled = true; - } else - emitCode("InFlag = SDOperand(ResNode, " + - utostr(NumResults+NumDstRegs+(unsigned)NodeHasChain) + ");"); - } - - if (FoldedChains.size() > 0) { - std::string Code; - for (unsigned j = 0, e = FoldedChains.size(); j < e; j++) - emitCode("ReplaceUses(SDOperand(" + - FoldedChains[j].first + ".Val, " + - utostr(FoldedChains[j].second) + "), SDOperand(ResNode, " + - utostr(NumResults+NumDstRegs) + "));"); - NeedReplace = true; - } - - if (NodeHasOutFlag) { - if (FoldedFlag.first != "") { - emitCode("ReplaceUses(SDOperand(" + FoldedFlag.first + ".Val, " + - utostr(FoldedFlag.second) + "), InFlag);"); - } else { - assert(NodeHasProperty(Pattern, SDNPOutFlag, CGP)); - emitCode("ReplaceUses(SDOperand(N.Val, " + - utostr(NumPatResults + (unsigned)InputHasChain) - +"), InFlag);"); - } - NeedReplace = true; - } - - if (NeedReplace && InputHasChain) - emitCode("ReplaceUses(SDOperand(N.Val, " + - utostr(NumPatResults) + "), SDOperand(" + ChainName - + ".Val, " + ChainName + ".ResNo" + "));"); - - // User does not expect the instruction would produce a chain! - if ((!InputHasChain && NodeHasChain) && NodeHasOutFlag) { - ; - } else if (InputHasChain && !NodeHasChain) { - // One of the inner node produces a chain. - if (NodeHasOutFlag) - emitCode("ReplaceUses(SDOperand(N.Val, " + utostr(NumPatResults+1) + - "), SDOperand(ResNode, N.ResNo-1));"); - emitCode("ReplaceUses(SDOperand(N.Val, " + utostr(NumPatResults) + - "), " + ChainName + ");"); - } - - emitCode("return ResNode;"); + unsigned OpsNo = OpcNo; + std::string CodePrefix; + bool ChainAssignmentNeeded = NodeHasChain && !isRoot; + std::deque After; + std::string NodeName; + if (!isRoot) { + NodeName = "Tmp" + utostr(ResNo); + CodePrefix = "SDOperand " + NodeName + "("; } else { - std::string Code = "return CurDAG->SelectNodeTo(N.Val, Opc" + - utostr(OpcNo); - if (N->getTypeNum(0) != MVT::isVoid) - Code += ", VT" + utostr(VTNo); - if (NodeHasOutFlag) - Code += ", MVT::Flag"; - - if (NodeHasInFlag || NodeHasOptInFlag || HasImpInputs) - AllOps.push_back("InFlag"); - - unsigned NumOps = AllOps.size(); - if (NumOps) { - if (!NodeHasOptInFlag && NumOps < 4) { - for (unsigned i = 0; i != NumOps; ++i) - Code += ", " + AllOps[i]; - } else { - std::string OpsCode = "SDOperand Ops" + utostr(OpcNo) + "[] = { "; - for (unsigned i = 0; i != NumOps; ++i) { - OpsCode += AllOps[i]; - if (i != NumOps-1) - OpsCode += ", "; - } - emitCode(OpsCode + " };"); - Code += ", Ops" + utostr(OpcNo) + ", "; - Code += utostr(NumOps); - } - } - emitCode(Code + ");"); - emitOpcode(II.Namespace + "::" + II.TheDef->getName()); - if (N->getTypeNum(0) != MVT::isVoid) - emitVT(getEnumName(N->getTypeNum(0))); + NodeName = "ResNode"; + if (!ResNodeDecled) { + CodePrefix = "SDNode *" + NodeName + " = "; + ResNodeDecled = true; + } else + CodePrefix = NodeName + " = "; } + std::string Code = "Opc" + utostr(OpcNo); + + emitOpcode(II.Namespace + "::" + II.TheDef->getName()); + + // Output order: results, chain, flags + // Result types. + if (NumResults > 0 && N->getTypeNum(0) != MVT::isVoid) { + Code += ", VT" + utostr(VTNo); + emitVT(getEnumName(N->getTypeNum(0))); + } + // Add types for implicit results in physical registers, scheduler will + // care of adding copyfromreg nodes. + for (unsigned i = 0; i < NumDstRegs; i++) { + Record *RR = DstRegs[i]; + if (RR->isSubClassOf("Register")) { + MVT::SimpleValueType RVT = getRegisterValueType(RR, CGT); + Code += ", " + getEnumName(RVT); + } + } + if (NodeHasChain) + Code += ", MVT::Other"; + if (NodeHasOutFlag) + Code += ", MVT::Flag"; + + // Inputs. + if (IsVariadic) { + for (unsigned i = 0, e = AllOps.size(); i != e; ++i) + emitCode("Ops" + utostr(OpsNo) + ".push_back(" + AllOps[i] + ");"); + AllOps.clear(); + + // Figure out whether any operands at the end of the op list are not + // part of the variable section. + std::string EndAdjust; + if (NodeHasInFlag || HasImpInputs) + EndAdjust = "-1"; // Always has one flag. + else if (NodeHasOptInFlag) + EndAdjust = "-(HasInFlag?1:0)"; // May have a flag. + + emitCode("for (unsigned i = NumInputRootOps + " + utostr(NodeHasChain) + + ", e = N.getNumOperands()" + EndAdjust + "; i != e; ++i) {"); + + emitCode(" AddToISelQueue(N.getOperand(i));"); + emitCode(" Ops" + utostr(OpsNo) + ".push_back(N.getOperand(i));"); + emitCode("}"); + } + + // Generate MemOperandSDNodes nodes for each memory accesses covered by + // this pattern. + if (II.isSimpleLoad | II.mayLoad | II.mayStore) { + std::vector::const_iterator mi, mie; + for (mi = LSI.begin(), mie = LSI.end(); mi != mie; ++mi) { + emitCode("SDOperand LSI_" + *mi + " = " + "CurDAG->getMemOperand(cast(" + + *mi + ")->getMemOperand());"); + if (IsVariadic) + emitCode("Ops" + utostr(OpsNo) + ".push_back(LSI_" + *mi + ");"); + else + AllOps.push_back("LSI_" + *mi); + } + } + + if (NodeHasChain) { + if (IsVariadic) + emitCode("Ops" + utostr(OpsNo) + ".push_back(" + ChainName + ");"); + else + AllOps.push_back(ChainName); + } + + if (IsVariadic) { + if (NodeHasInFlag || HasImpInputs) + emitCode("Ops" + utostr(OpsNo) + ".push_back(InFlag);"); + else if (NodeHasOptInFlag) { + emitCode("if (HasInFlag)"); + emitCode(" Ops" + utostr(OpsNo) + ".push_back(InFlag);"); + } + Code += ", &Ops" + utostr(OpsNo) + "[0], Ops" + utostr(OpsNo) + + ".size()"; + } else if (NodeHasInFlag || NodeHasOptInFlag || HasImpInputs) + AllOps.push_back("InFlag"); + + unsigned NumOps = AllOps.size(); + if (NumOps) { + if (!NodeHasOptInFlag && NumOps < 4) { + for (unsigned i = 0; i != NumOps; ++i) + Code += ", " + AllOps[i]; + } else { + std::string OpsCode = "SDOperand Ops" + utostr(OpsNo) + "[] = { "; + for (unsigned i = 0; i != NumOps; ++i) { + OpsCode += AllOps[i]; + if (i != NumOps-1) + OpsCode += ", "; + } + emitCode(OpsCode + " };"); + Code += ", Ops" + utostr(OpsNo) + ", "; + if (NodeHasOptInFlag) { + Code += "HasInFlag ? "; + Code += utostr(NumOps) + " : " + utostr(NumOps-1); + } else + Code += utostr(NumOps); + } + } + + if (!isRoot) + Code += "), 0"; + + bool NeedReplace = false; + if (!isRoot) { + NodeOps.push_back("Tmp" + utostr(ResNo)); + } else { + + if (NodeHasOutFlag) { + if (!InFlagDecled) { + After.push_back("SDOperand InFlag(ResNode, " + + utostr(NumResults+NumDstRegs+(unsigned)NodeHasChain) + + ");"); + InFlagDecled = true; + } else + After.push_back("InFlag = SDOperand(ResNode, " + + utostr(NumResults+NumDstRegs+(unsigned)NodeHasChain) + + ");"); + } + + if (FoldedChains.size() > 0) { + std::string Code; + for (unsigned j = 0, e = FoldedChains.size(); j < e; j++) + After.push_back("ReplaceUses(SDOperand(" + + FoldedChains[j].first + ".Val, " + + utostr(FoldedChains[j].second) + + "), SDOperand(ResNode, " + + utostr(NumResults+NumDstRegs) + "));"); + NeedReplace = true; + } + + if (NodeHasOutFlag) { + if (FoldedFlag.first != "") { + After.push_back("ReplaceUses(SDOperand(" + FoldedFlag.first + + ".Val, " + + utostr(FoldedFlag.second) + "), InFlag);"); + } else { + assert(NodeHasProperty(Pattern, SDNPOutFlag, CGP)); + After.push_back("ReplaceUses(SDOperand(N.Val, " + + utostr(NumPatResults + (unsigned)InputHasChain) + +"), InFlag);"); + } + NeedReplace = true; + } + + if (NeedReplace && InputHasChain) { + After.push_back("ReplaceUses(SDOperand(N.Val, " + + utostr(NumPatResults) + "), SDOperand(" + ChainName + + ".Val, " + ChainName + ".ResNo" + "));"); + ChainAssignmentNeeded |= NodeHasChain; + } + + // User does not expect the instruction would produce a chain! + if ((!InputHasChain && NodeHasChain) && NodeHasOutFlag) { + ; + } else if (InputHasChain && !NodeHasChain) { + // One of the inner node produces a chain. + if (NodeHasOutFlag) + After.push_back("ReplaceUses(SDOperand(N.Val, " + + utostr(NumPatResults+1) + + "), SDOperand(ResNode, N.ResNo-1));"); + After.push_back("ReplaceUses(SDOperand(N.Val, " + + utostr(NumPatResults) + "), " + ChainName + ");"); + NeedReplace = true; + } + } + + if (ChainAssignmentNeeded) { + // Remember which op produces the chain. + std::string ChainAssign; + if (!isRoot) + ChainAssign = ChainName + " = SDOperand(" + NodeName + + ".Val, " + utostr(NumResults+NumDstRegs) + ");"; + else + ChainAssign = ChainName + " = SDOperand(" + NodeName + + ", " + utostr(NumResults+NumDstRegs) + ");"; + + After.push_front(ChainAssign); + } + + // Use getTargetNode or SelectNodeTo? The safe choice is getTargetNode, + // but SelectNodeTo can be faster. + // + // SelectNodeTo is not safe in a non-root context, or if there is any + // replacement of results needed. + // + // SelectNodeTo is not profitable if it would require a dynamically + // allocated operand list in a situation where getTargetNode would be + // able to reuse a co-allocated operand list (as in a unary, binary or + // ternary SDNode, for example). + // + if (!isRoot || NeedReplace || + (!IsVariadic && AllOps.size() < 4 && + Pattern->getNumChildren() + InputHasChain + NodeHasInFlag < + AllOps.size())) { + Code = "CurDAG->getTargetNode(" + Code; + } else { + Code = "CurDAG->SelectNodeTo(N.Val, " + Code; + } + if (isRoot) { + if (After.empty()) + CodePrefix = "return "; + else + After.push_back("return ResNode;"); + } + + emitCode(CodePrefix + Code + ");"); + for (unsigned i = 0, e = After.size(); i != e; ++i) + emitCode(After[i]); + return NodeOps; } else if (Op->isSubClassOf("SDNodeXForm")) { assert(N->getNumChildren() == 1 && "node xform should have one child!");