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799ffeede1
deletes it, but we were merrily trying to fix the operands of that instruction anyway! Instead, fix the replacement instruction. (2) An Improvement: Check for and extract global values in all operands, not just in known pointer operands. For example, they can occur in call arguments, and probably other unforeseeable places as well. This also eliminates the special-case handling of Load and Store. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@7053 91177308-0d34-0410-b5e6-96231b3b80d8
390 lines
15 KiB
C++
390 lines
15 KiB
C++
//===- PreSelection.cpp - Specialize LLVM code for target machine ---------===//
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//
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// This file defines the PreSelection pass which specializes LLVM code for a
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// target machine, while remaining in legal portable LLVM form and
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// preserving type information and type safety. This is meant to enable
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// dataflow optimizations on target-specific operations such as accesses to
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// constants, globals, and array indexing.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CodeGen/PreSelection.h"
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#include "llvm/Target/TargetMachine.h"
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#include "llvm/Target/TargetInstrInfo.h"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/Support/InstVisitor.h"
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#include "llvm/Module.h"
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#include "llvm/Constants.h"
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#include "llvm/iMemory.h"
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#include "llvm/iPHINode.h"
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#include "llvm/iOther.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Pass.h"
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#include "Support/CommandLine.h"
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#include <algorithm>
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namespace {
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//===--------------------------------------------------------------------===//
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// SelectDebugLevel - Allow command line control over debugging.
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//
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enum PreSelectDebugLevel_t {
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PreSelect_NoDebugInfo,
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PreSelect_PrintOutput,
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};
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// Enable Debug Options to be specified on the command line
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cl::opt<PreSelectDebugLevel_t>
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PreSelectDebugLevel("dpreselect", cl::Hidden,
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cl::desc("debug information for target-dependent pre-selection"),
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cl::values(
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clEnumValN(PreSelect_NoDebugInfo, "n", "disable debug output (default)"),
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clEnumValN(PreSelect_PrintOutput, "y", "print generated machine code"),
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/* default level = */ PreSelect_NoDebugInfo));
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//===--------------------------------------------------------------------===//
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// class ConstantPoolForModule:
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//
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// The pool of constants that must be emitted for a module.
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// This is a single pool for the entire module and is shared by
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// all invocations of the PreSelection pass for this module by putting
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// this as an annotation on the Module object.
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// A single GlobalVariable is created for each constant in the pool
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// representing the memory for that constant.
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//
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AnnotationID CPFM_AID(
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AnnotationManager::getID("CodeGen::ConstantPoolForModule"));
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class ConstantPoolForModule : private Annotation {
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Module* myModule;
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std::map<const Constant*, GlobalVariable*> gvars;
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std::map<const Constant*, GlobalVariable*> origGVars;
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ConstantPoolForModule(Module* M); // called only by annotation builder
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ConstantPoolForModule(); // DO NOT IMPLEMENT
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void operator=(const ConstantPoolForModule&); // DO NOT IMPLEMENT
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public:
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static ConstantPoolForModule& get(Module* M) {
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ConstantPoolForModule* cpool =
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(ConstantPoolForModule*) M->getAnnotation(CPFM_AID);
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if (cpool == NULL) // create a new annotation and add it to the Module
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M->addAnnotation(cpool = new ConstantPoolForModule(M));
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return *cpool;
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}
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GlobalVariable* getGlobalForConstant(Constant* CV) {
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std::map<const Constant*, GlobalVariable*>::iterator I = gvars.find(CV);
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if (I != gvars.end())
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return I->second; // global exists so return it
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return addToConstantPool(CV); // create a new global and return it
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}
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GlobalVariable* addToConstantPool(Constant* CV) {
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GlobalVariable*& GV = gvars[CV]; // handle to global var entry in map
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if (GV == NULL)
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{ // check if a global constant already existed; otherwise create one
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std::map<const Constant*, GlobalVariable*>::iterator PI =
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origGVars.find(CV);
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if (PI != origGVars.end())
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GV = PI->second; // put in map
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else
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{
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GV = new GlobalVariable(CV->getType(), true, //put in map
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GlobalValue::InternalLinkage, CV);
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myModule->getGlobalList().push_back(GV); // GV owned by module now
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}
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}
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return GV;
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}
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};
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/* ctor */
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ConstantPoolForModule::ConstantPoolForModule(Module* M)
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: Annotation(CPFM_AID), myModule(M)
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{
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// Build reverse map for pre-existing global constants so we can find them
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for (Module::giterator GI = M->gbegin(), GE = M->gend(); GI != GE; ++GI)
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if (GI->hasInitializer() && GI->isConstant())
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origGVars[GI->getInitializer()] = GI;
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}
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//===--------------------------------------------------------------------===//
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// PreSelection Pass - Specialize LLVM code for the current target machine.
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// This was and will be a basicblock pass, but make it a FunctionPass until
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// BasicBlockPass ::doFinalization(Function&) is available.
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//
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class PreSelection : public BasicBlockPass, public InstVisitor<PreSelection>
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{
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const TargetMachine ⌖
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const TargetInstrInfo &instrInfo;
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Function* function;
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GlobalVariable* getGlobalForConstant(Constant* CV) {
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Module* M = function->getParent();
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return ConstantPoolForModule::get(M).getGlobalForConstant(CV);
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}
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public:
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PreSelection (const TargetMachine &T):
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target(T), instrInfo(T.getInstrInfo()), function(NULL) {}
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// runOnBasicBlock - apply this pass to each BB
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bool runOnBasicBlock(BasicBlock &BB) {
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function = BB.getParent();
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this->visit(BB);
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return true;
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}
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bool doFinalization(Function &F) {
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if (PreSelectDebugLevel >= PreSelect_PrintOutput)
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std::cerr << "\n\n*** LLVM code after pre-selection for function "
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<< F.getName() << ":\n\n" << F;
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return false;
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}
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// These methods do the actual work of specializing code
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void visitInstruction(Instruction &I); // common work for every instr.
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void visitGetElementPtrInst(GetElementPtrInst &I);
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void visitCastInst(CastInst &I);
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void visitCallInst(CallInst &I);
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// Helper functions for visiting operands of every instruction
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//
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// visitOperands() works on every operand in [firstOp, lastOp-1].
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// If lastOp==0, lastOp defaults to #operands or #incoming Phi values.
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//
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// visitOneOperand() does all the work for one operand.
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//
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void visitOperands(Instruction &I, int firstOp=0, int lastOp=0);
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void visitOneOperand(Instruction &I, Value* Op, unsigned opNum,
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Instruction& insertBefore);
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};
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// Register the pass...
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RegisterOpt<PreSelection> X("preselect",
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"Specialize LLVM code for a target machine",
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createPreSelectionPass);
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} // end anonymous namespace
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//------------------------------------------------------------------------------
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// Helper functions used by methods of class PreSelection
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//------------------------------------------------------------------------------
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// getGlobalAddr(): Put address of a global into a v. register.
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static GetElementPtrInst* getGlobalAddr(Value* ptr, Instruction& insertBefore)
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{
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if (isa<ConstantPointerRef>(ptr))
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ptr = cast<ConstantPointerRef>(ptr)->getValue();
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return (isa<GlobalVariable>(ptr))
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? new GetElementPtrInst(ptr,
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std::vector<Value*>(1, ConstantSInt::get(Type::LongTy, 0U)),
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"addrOfGlobal", &insertBefore)
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: NULL;
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}
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// Wrapper on Constant::classof to use in find_if :-(
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inline static bool nonConstant(const Use& U)
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{
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return ! isa<Constant>(U);
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}
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static Instruction* DecomposeConstantExpr(ConstantExpr* CE,
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Instruction& insertBefore)
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{
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Value *getArg1, *getArg2;
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switch(CE->getOpcode())
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{
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case Instruction::Cast:
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getArg1 = CE->getOperand(0);
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if (ConstantExpr* CEarg = dyn_cast<ConstantExpr>(getArg1))
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getArg1 = DecomposeConstantExpr(CEarg, insertBefore);
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return new CastInst(getArg1, CE->getType(), "constantCast",&insertBefore);
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case Instruction::GetElementPtr:
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assert(find_if(CE->op_begin()+1, CE->op_end(),nonConstant) == CE->op_end()
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&& "All indices in ConstantExpr getelementptr must be constant!");
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getArg1 = CE->getOperand(0);
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if (ConstantExpr* CEarg = dyn_cast<ConstantExpr>(getArg1))
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getArg1 = DecomposeConstantExpr(CEarg, insertBefore);
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else if (GetElementPtrInst* gep = getGlobalAddr(getArg1, insertBefore))
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getArg1 = gep;
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return new GetElementPtrInst(getArg1,
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std::vector<Value*>(CE->op_begin()+1, CE->op_end()),
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"constantGEP", &insertBefore);
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default: // must be a binary operator
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assert(CE->getOpcode() >= Instruction::BinaryOpsBegin &&
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CE->getOpcode() < Instruction::BinaryOpsEnd &&
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"Unrecognized opcode in ConstantExpr");
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getArg1 = CE->getOperand(0);
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if (ConstantExpr* CEarg = dyn_cast<ConstantExpr>(getArg1))
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getArg1 = DecomposeConstantExpr(CEarg, insertBefore);
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getArg2 = CE->getOperand(1);
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if (ConstantExpr* CEarg = dyn_cast<ConstantExpr>(getArg2))
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getArg2 = DecomposeConstantExpr(CEarg, insertBefore);
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return BinaryOperator::create((Instruction::BinaryOps) CE->getOpcode(),
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getArg1, getArg2,
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"constantBinaryOp", &insertBefore);
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}
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}
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//------------------------------------------------------------------------------
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// Instruction visitor methods to perform instruction-specific operations
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//------------------------------------------------------------------------------
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inline void
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PreSelection::visitOneOperand(Instruction &I, Value* Op, unsigned opNum,
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Instruction& insertBefore)
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{
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assert(&insertBefore != NULL && "Must have instruction to insert before.");
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if (GetElementPtrInst* gep = getGlobalAddr(Op, insertBefore)) {
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I.setOperand(opNum, gep); // replace global operand
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return; // nothing more to do for this op.
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}
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Constant* CV = dyn_cast<Constant>(Op);
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if (CV == NULL)
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return;
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if (ConstantExpr* CE = dyn_cast<ConstantExpr>(CV))
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{ // load-time constant: factor it out so we optimize as best we can
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Instruction* computeConst = DecomposeConstantExpr(CE, insertBefore);
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I.setOperand(opNum, computeConst); // replace expr operand with result
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}
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else if (instrInfo.ConstantTypeMustBeLoaded(CV))
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{ // load address of constant into a register, then load the constant
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GetElementPtrInst* gep = getGlobalAddr(getGlobalForConstant(CV),
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insertBefore);
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LoadInst* ldI = new LoadInst(gep, "loadConst", &insertBefore);
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I.setOperand(opNum, ldI); // replace operand with copy in v.reg.
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}
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else if (instrInfo.ConstantMayNotFitInImmedField(CV, &I))
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{ // put the constant into a virtual register using a cast
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CastInst* castI = new CastInst(CV, CV->getType(), "copyConst",
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&insertBefore);
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I.setOperand(opNum, castI); // replace operand with copy in v.reg.
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}
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}
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// visitOperands() transforms individual operands of all instructions:
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// -- Load "large" int constants into a virtual register. What is large
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// depends on the type of instruction and on the target architecture.
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// -- For any constants that cannot be put in an immediate field,
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// load address into virtual register first, and then load the constant.
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//
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// firstOp and lastOp can be used to skip leading and trailing operands.
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// If lastOp is 0, it defaults to #operands or #incoming Phi values.
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//
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inline void
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PreSelection::visitOperands(Instruction &I, int firstOp, int lastOp)
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{
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// For any instruction other than PHI, copies go just before the instr.
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// For a PHI, operand copies must be before the terminator of the
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// appropriate predecessor basic block. Remaining logic is simple
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// so just handle PHIs and other instructions separately.
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//
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if (PHINode* phi = dyn_cast<PHINode>(&I))
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{
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if (lastOp == 0)
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lastOp = phi->getNumIncomingValues();
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for (unsigned i=firstOp, N=lastOp; i < N; ++i)
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this->visitOneOperand(I, phi->getIncomingValue(i),
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phi->getOperandNumForIncomingValue(i),
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* phi->getIncomingBlock(i)->getTerminator());
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}
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else
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{
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if (lastOp == 0)
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lastOp = I.getNumOperands();
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for (unsigned i=firstOp, N=lastOp; i < N; ++i)
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this->visitOneOperand(I, I.getOperand(i), i, I);
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}
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}
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// Common work for *all* instructions. This needs to be called explicitly
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// by other visit<InstructionType> functions.
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inline void
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PreSelection::visitInstruction(Instruction &I)
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{
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visitOperands(I); // Perform operand transformations
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}
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// GetElementPtr instructions: check if pointer is a global
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void
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PreSelection::visitGetElementPtrInst(GetElementPtrInst &I)
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{
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Instruction* curI = &I;
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// Decompose multidimensional array references
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if (I.getNumIndices() >= 2) {
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// DecomposeArrayRef() replaces I and deletes it, if successful,
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// so remember predecessor in order to find the replacement instruction.
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// Also remember the basic block in case there is no predecessor.
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Instruction* prevI = I.getPrev();
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BasicBlock* bb = I.getParent();
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if (DecomposeArrayRef(&I))
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// first instr. replacing I
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curI = cast<GetElementPtrInst>(prevI? prevI->getNext() : &bb->front());
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}
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// Perform other transformations common to all instructions
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visitInstruction(*curI);
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}
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// Cast instructions:
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// -- make multi-step casts explicit:
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// -- float/double to uint32_t:
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// If target does not have a float-to-unsigned instruction, we
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// need to convert to uint64_t and then to uint32_t, or we may
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// overflow the signed int representation for legal uint32_t
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// values. Expand this without checking target.
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// -- other common transformations on operands
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//
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void
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PreSelection::visitCastInst(CastInst &I)
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{
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CastInst* castI = NULL;
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// Check for a global and put its address into a register before this instr
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if (I.getType() == Type::UIntTy &&
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I.getOperand(0)->getType()->isFloatingPoint()) {
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// insert a cast-fp-to-long before I, and then replace the operand of I
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castI = new CastInst(I.getOperand(0), Type::LongTy, "fp2Long2Uint", &I);
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I.setOperand(0, castI); // replace fp operand with long
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}
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// Perform other transformations common to all instructions
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visitInstruction(I);
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if (castI)
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visitInstruction(*castI);
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}
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void
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PreSelection::visitCallInst(CallInst &I)
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{
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// Tell visitOperands to ignore the function name if this is a direct call.
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visitOperands(I, (/*firstOp=*/ I.getCalledFunction()? 1 : 0));
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}
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//===----------------------------------------------------------------------===//
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// createPreSelectionPass - Public entrypoint for pre-selection pass
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// and this file as a whole...
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//
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Pass*
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createPreSelectionPass(TargetMachine &T)
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{
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return new PreSelection(T);
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}
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