From 541e68ea57276dbdc564ec0368f66da7f701976a Mon Sep 17 00:00:00 2001 From: Craig Topper Date: Tue, 10 Mar 2015 03:25:04 +0000 Subject: [PATCH] Remove extra indentation of entire function body. NFC. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@231745 91177308-0d34-0410-b5e6-96231b3b80d8 --- utils/TableGen/CodeGenDAGPatterns.cpp | 290 +++++++++++++------------- 1 file changed, 145 insertions(+), 145 deletions(-) diff --git a/utils/TableGen/CodeGenDAGPatterns.cpp b/utils/TableGen/CodeGenDAGPatterns.cpp index 2ebcd80147c..e5c6613edfd 100644 --- a/utils/TableGen/CodeGenDAGPatterns.cpp +++ b/utils/TableGen/CodeGenDAGPatterns.cpp @@ -2922,160 +2922,160 @@ static bool checkOperandClass(CGIOperandList::OperandInfo &OI, const DAGInstruction &CodeGenDAGPatterns::parseInstructionPattern( CodeGenInstruction &CGI, ListInit *Pat, DAGInstMap &DAGInsts) { - assert(!DAGInsts.count(CGI.TheDef) && "Instruction already parsed!"); + assert(!DAGInsts.count(CGI.TheDef) && "Instruction already parsed!"); - // Parse the instruction. - TreePattern *I = new TreePattern(CGI.TheDef, Pat, true, *this); - // Inline pattern fragments into it. - I->InlinePatternFragments(); + // Parse the instruction. + TreePattern *I = new TreePattern(CGI.TheDef, Pat, true, *this); + // Inline pattern fragments into it. + I->InlinePatternFragments(); - // Infer as many types as possible. If we cannot infer all of them, we can - // never do anything with this instruction pattern: report it to the user. - if (!I->InferAllTypes()) - I->error("Could not infer all types in pattern!"); + // Infer as many types as possible. If we cannot infer all of them, we can + // never do anything with this instruction pattern: report it to the user. + if (!I->InferAllTypes()) + I->error("Could not infer all types in pattern!"); - // InstInputs - Keep track of all of the inputs of the instruction, along - // with the record they are declared as. - std::map InstInputs; + // InstInputs - Keep track of all of the inputs of the instruction, along + // with the record they are declared as. + std::map InstInputs; - // InstResults - Keep track of all the virtual registers that are 'set' - // in the instruction, including what reg class they are. - std::map InstResults; + // InstResults - Keep track of all the virtual registers that are 'set' + // in the instruction, including what reg class they are. + std::map InstResults; - std::vector InstImpResults; + std::vector InstImpResults; - // Verify that the top-level forms in the instruction are of void type, and - // fill in the InstResults map. - for (unsigned j = 0, e = I->getNumTrees(); j != e; ++j) { - TreePatternNode *Pat = I->getTree(j); - if (Pat->getNumTypes() != 0) - I->error("Top-level forms in instruction pattern should have" - " void types"); + // Verify that the top-level forms in the instruction are of void type, and + // fill in the InstResults map. + for (unsigned j = 0, e = I->getNumTrees(); j != e; ++j) { + TreePatternNode *Pat = I->getTree(j); + if (Pat->getNumTypes() != 0) + I->error("Top-level forms in instruction pattern should have" + " void types"); - // Find inputs and outputs, and verify the structure of the uses/defs. - FindPatternInputsAndOutputs(I, Pat, InstInputs, InstResults, - InstImpResults); - } - - // Now that we have inputs and outputs of the pattern, inspect the operands - // list for the instruction. This determines the order that operands are - // added to the machine instruction the node corresponds to. - unsigned NumResults = InstResults.size(); - - // Parse the operands list from the (ops) list, validating it. - assert(I->getArgList().empty() && "Args list should still be empty here!"); - - // Check that all of the results occur first in the list. - std::vector Results; - TreePatternNode *Res0Node = nullptr; - for (unsigned i = 0; i != NumResults; ++i) { - if (i == CGI.Operands.size()) - I->error("'" + InstResults.begin()->first + - "' set but does not appear in operand list!"); - const std::string &OpName = CGI.Operands[i].Name; - - // Check that it exists in InstResults. - TreePatternNode *RNode = InstResults[OpName]; - if (!RNode) - I->error("Operand $" + OpName + " does not exist in operand list!"); - - if (i == 0) - Res0Node = RNode; - Record *R = cast(RNode->getLeafValue())->getDef(); - if (!R) - I->error("Operand $" + OpName + " should be a set destination: all " - "outputs must occur before inputs in operand list!"); - - if (!checkOperandClass(CGI.Operands[i], R)) - I->error("Operand $" + OpName + " class mismatch!"); - - // Remember the return type. - Results.push_back(CGI.Operands[i].Rec); - - // Okay, this one checks out. - InstResults.erase(OpName); - } - - // Loop over the inputs next. Make a copy of InstInputs so we can destroy - // the copy while we're checking the inputs. - std::map InstInputsCheck(InstInputs); - - std::vector ResultNodeOperands; - std::vector Operands; - for (unsigned i = NumResults, e = CGI.Operands.size(); i != e; ++i) { - CGIOperandList::OperandInfo &Op = CGI.Operands[i]; - const std::string &OpName = Op.Name; - if (OpName.empty()) - I->error("Operand #" + utostr(i) + " in operands list has no name!"); - - if (!InstInputsCheck.count(OpName)) { - // If this is an operand with a DefaultOps set filled in, we can ignore - // this. When we codegen it, we will do so as always executed. - if (Op.Rec->isSubClassOf("OperandWithDefaultOps")) { - // Does it have a non-empty DefaultOps field? If so, ignore this - // operand. - if (!getDefaultOperand(Op.Rec).DefaultOps.empty()) - continue; - } - I->error("Operand $" + OpName + - " does not appear in the instruction pattern"); - } - TreePatternNode *InVal = InstInputsCheck[OpName]; - InstInputsCheck.erase(OpName); // It occurred, remove from map. - - if (InVal->isLeaf() && isa(InVal->getLeafValue())) { - Record *InRec = static_cast(InVal->getLeafValue())->getDef(); - if (!checkOperandClass(Op, InRec)) - I->error("Operand $" + OpName + "'s register class disagrees" - " between the operand and pattern"); - } - Operands.push_back(Op.Rec); - - // Construct the result for the dest-pattern operand list. - TreePatternNode *OpNode = InVal->clone(); - - // No predicate is useful on the result. - OpNode->clearPredicateFns(); - - // Promote the xform function to be an explicit node if set. - if (Record *Xform = OpNode->getTransformFn()) { - OpNode->setTransformFn(nullptr); - std::vector Children; - Children.push_back(OpNode); - OpNode = new TreePatternNode(Xform, Children, OpNode->getNumTypes()); - } - - ResultNodeOperands.push_back(OpNode); - } - - if (!InstInputsCheck.empty()) - I->error("Input operand $" + InstInputsCheck.begin()->first + - " occurs in pattern but not in operands list!"); - - TreePatternNode *ResultPattern = - new TreePatternNode(I->getRecord(), ResultNodeOperands, - GetNumNodeResults(I->getRecord(), *this)); - // Copy fully inferred output node type to instruction result pattern. - for (unsigned i = 0; i != NumResults; ++i) - ResultPattern->setType(i, Res0Node->getExtType(i)); - - // Create and insert the instruction. - // FIXME: InstImpResults should not be part of DAGInstruction. - DAGInstruction TheInst(I, Results, Operands, InstImpResults); - DAGInsts.insert(std::make_pair(I->getRecord(), TheInst)); - - // Use a temporary tree pattern to infer all types and make sure that the - // constructed result is correct. This depends on the instruction already - // being inserted into the DAGInsts map. - TreePattern Temp(I->getRecord(), ResultPattern, false, *this); - Temp.InferAllTypes(&I->getNamedNodesMap()); - - DAGInstruction &TheInsertedInst = DAGInsts.find(I->getRecord())->second; - TheInsertedInst.setResultPattern(Temp.getOnlyTree()); - - return TheInsertedInst; + // Find inputs and outputs, and verify the structure of the uses/defs. + FindPatternInputsAndOutputs(I, Pat, InstInputs, InstResults, + InstImpResults); } + // Now that we have inputs and outputs of the pattern, inspect the operands + // list for the instruction. This determines the order that operands are + // added to the machine instruction the node corresponds to. + unsigned NumResults = InstResults.size(); + + // Parse the operands list from the (ops) list, validating it. + assert(I->getArgList().empty() && "Args list should still be empty here!"); + + // Check that all of the results occur first in the list. + std::vector Results; + TreePatternNode *Res0Node = nullptr; + for (unsigned i = 0; i != NumResults; ++i) { + if (i == CGI.Operands.size()) + I->error("'" + InstResults.begin()->first + + "' set but does not appear in operand list!"); + const std::string &OpName = CGI.Operands[i].Name; + + // Check that it exists in InstResults. + TreePatternNode *RNode = InstResults[OpName]; + if (!RNode) + I->error("Operand $" + OpName + " does not exist in operand list!"); + + if (i == 0) + Res0Node = RNode; + Record *R = cast(RNode->getLeafValue())->getDef(); + if (!R) + I->error("Operand $" + OpName + " should be a set destination: all " + "outputs must occur before inputs in operand list!"); + + if (!checkOperandClass(CGI.Operands[i], R)) + I->error("Operand $" + OpName + " class mismatch!"); + + // Remember the return type. + Results.push_back(CGI.Operands[i].Rec); + + // Okay, this one checks out. + InstResults.erase(OpName); + } + + // Loop over the inputs next. Make a copy of InstInputs so we can destroy + // the copy while we're checking the inputs. + std::map InstInputsCheck(InstInputs); + + std::vector ResultNodeOperands; + std::vector Operands; + for (unsigned i = NumResults, e = CGI.Operands.size(); i != e; ++i) { + CGIOperandList::OperandInfo &Op = CGI.Operands[i]; + const std::string &OpName = Op.Name; + if (OpName.empty()) + I->error("Operand #" + utostr(i) + " in operands list has no name!"); + + if (!InstInputsCheck.count(OpName)) { + // If this is an operand with a DefaultOps set filled in, we can ignore + // this. When we codegen it, we will do so as always executed. + if (Op.Rec->isSubClassOf("OperandWithDefaultOps")) { + // Does it have a non-empty DefaultOps field? If so, ignore this + // operand. + if (!getDefaultOperand(Op.Rec).DefaultOps.empty()) + continue; + } + I->error("Operand $" + OpName + + " does not appear in the instruction pattern"); + } + TreePatternNode *InVal = InstInputsCheck[OpName]; + InstInputsCheck.erase(OpName); // It occurred, remove from map. + + if (InVal->isLeaf() && isa(InVal->getLeafValue())) { + Record *InRec = static_cast(InVal->getLeafValue())->getDef(); + if (!checkOperandClass(Op, InRec)) + I->error("Operand $" + OpName + "'s register class disagrees" + " between the operand and pattern"); + } + Operands.push_back(Op.Rec); + + // Construct the result for the dest-pattern operand list. + TreePatternNode *OpNode = InVal->clone(); + + // No predicate is useful on the result. + OpNode->clearPredicateFns(); + + // Promote the xform function to be an explicit node if set. + if (Record *Xform = OpNode->getTransformFn()) { + OpNode->setTransformFn(nullptr); + std::vector Children; + Children.push_back(OpNode); + OpNode = new TreePatternNode(Xform, Children, OpNode->getNumTypes()); + } + + ResultNodeOperands.push_back(OpNode); + } + + if (!InstInputsCheck.empty()) + I->error("Input operand $" + InstInputsCheck.begin()->first + + " occurs in pattern but not in operands list!"); + + TreePatternNode *ResultPattern = + new TreePatternNode(I->getRecord(), ResultNodeOperands, + GetNumNodeResults(I->getRecord(), *this)); + // Copy fully inferred output node type to instruction result pattern. + for (unsigned i = 0; i != NumResults; ++i) + ResultPattern->setType(i, Res0Node->getExtType(i)); + + // Create and insert the instruction. + // FIXME: InstImpResults should not be part of DAGInstruction. + DAGInstruction TheInst(I, Results, Operands, InstImpResults); + DAGInsts.insert(std::make_pair(I->getRecord(), TheInst)); + + // Use a temporary tree pattern to infer all types and make sure that the + // constructed result is correct. This depends on the instruction already + // being inserted into the DAGInsts map. + TreePattern Temp(I->getRecord(), ResultPattern, false, *this); + Temp.InferAllTypes(&I->getNamedNodesMap()); + + DAGInstruction &TheInsertedInst = DAGInsts.find(I->getRecord())->second; + TheInsertedInst.setResultPattern(Temp.getOnlyTree()); + + return TheInsertedInst; +} + /// ParseInstructions - Parse all of the instructions, inlining and resolving /// any fragments involved. This populates the Instructions list with fully /// resolved instructions.