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dfa550a176
We need to ensure that StackSlotColoring.cpp does not reuse stack spill slots in functions that call "returns_twice" functions such as setjmp(), otherwise this can lead to miscompiled code, because a stack slot would be clobbered when it's still live. This was already handled correctly for functions that call setjmp() (though this wasn't covered by a test), but not for functions that invoke setjmp(). We fix this by changing callsFunctionThatReturnsTwice() to check for invoke instructions. This fixes PR18244. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@199180 91177308-0d34-0410-b5e6-96231b3b80d8
775 lines
25 KiB
C++
775 lines
25 KiB
C++
//===-- Function.cpp - Implement the Global object classes ----------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the Function class for the IR library.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/Function.h"
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#include "LLVMContextImpl.h"
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#include "SymbolTableListTraitsImpl.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/CodeGen/ValueTypes.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Module.h"
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#include "llvm/Support/CallSite.h"
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#include "llvm/Support/InstIterator.h"
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#include "llvm/Support/LeakDetector.h"
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#include "llvm/Support/ManagedStatic.h"
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#include "llvm/Support/RWMutex.h"
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#include "llvm/Support/StringPool.h"
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#include "llvm/Support/Threading.h"
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using namespace llvm;
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// Explicit instantiations of SymbolTableListTraits since some of the methods
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// are not in the public header file...
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template class llvm::SymbolTableListTraits<Argument, Function>;
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template class llvm::SymbolTableListTraits<BasicBlock, Function>;
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//===----------------------------------------------------------------------===//
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// Argument Implementation
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//===----------------------------------------------------------------------===//
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void Argument::anchor() { }
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Argument::Argument(Type *Ty, const Twine &Name, Function *Par)
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: Value(Ty, Value::ArgumentVal) {
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Parent = 0;
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// Make sure that we get added to a function
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LeakDetector::addGarbageObject(this);
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if (Par)
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Par->getArgumentList().push_back(this);
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setName(Name);
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}
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void Argument::setParent(Function *parent) {
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if (getParent())
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LeakDetector::addGarbageObject(this);
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Parent = parent;
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if (getParent())
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LeakDetector::removeGarbageObject(this);
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}
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/// getArgNo - Return the index of this formal argument in its containing
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/// function. For example in "void foo(int a, float b)" a is 0 and b is 1.
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unsigned Argument::getArgNo() const {
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const Function *F = getParent();
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assert(F && "Argument is not in a function");
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Function::const_arg_iterator AI = F->arg_begin();
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unsigned ArgIdx = 0;
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for (; &*AI != this; ++AI)
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++ArgIdx;
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return ArgIdx;
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}
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/// hasByValAttr - Return true if this argument has the byval attribute on it
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/// in its containing function.
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bool Argument::hasByValAttr() const {
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if (!getType()->isPointerTy()) return false;
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::ByVal);
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}
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/// \brief Return true if this argument has the inalloca attribute on it in
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/// its containing function.
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bool Argument::hasInAllocaAttr() const {
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if (!getType()->isPointerTy()) return false;
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::InAlloca);
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}
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unsigned Argument::getParamAlignment() const {
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assert(getType()->isPointerTy() && "Only pointers have alignments");
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return getParent()->getParamAlignment(getArgNo()+1);
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}
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/// hasNestAttr - Return true if this argument has the nest attribute on
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/// it in its containing function.
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bool Argument::hasNestAttr() const {
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if (!getType()->isPointerTy()) return false;
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::Nest);
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}
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/// hasNoAliasAttr - Return true if this argument has the noalias attribute on
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/// it in its containing function.
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bool Argument::hasNoAliasAttr() const {
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if (!getType()->isPointerTy()) return false;
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::NoAlias);
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}
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/// hasNoCaptureAttr - Return true if this argument has the nocapture attribute
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/// on it in its containing function.
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bool Argument::hasNoCaptureAttr() const {
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if (!getType()->isPointerTy()) return false;
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::NoCapture);
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}
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/// hasSRetAttr - Return true if this argument has the sret attribute on
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/// it in its containing function.
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bool Argument::hasStructRetAttr() const {
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if (!getType()->isPointerTy()) return false;
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if (this != getParent()->arg_begin())
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return false; // StructRet param must be first param
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return getParent()->getAttributes().
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hasAttribute(1, Attribute::StructRet);
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}
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/// hasReturnedAttr - Return true if this argument has the returned attribute on
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/// it in its containing function.
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bool Argument::hasReturnedAttr() const {
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::Returned);
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}
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/// Return true if this argument has the readonly or readnone attribute on it
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/// in its containing function.
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bool Argument::onlyReadsMemory() const {
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return getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::ReadOnly) ||
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getParent()->getAttributes().
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hasAttribute(getArgNo()+1, Attribute::ReadNone);
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}
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/// addAttr - Add attributes to an argument.
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void Argument::addAttr(AttributeSet AS) {
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assert(AS.getNumSlots() <= 1 &&
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"Trying to add more than one attribute set to an argument!");
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AttrBuilder B(AS, AS.getSlotIndex(0));
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getParent()->addAttributes(getArgNo() + 1,
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AttributeSet::get(Parent->getContext(),
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getArgNo() + 1, B));
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}
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/// removeAttr - Remove attributes from an argument.
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void Argument::removeAttr(AttributeSet AS) {
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assert(AS.getNumSlots() <= 1 &&
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"Trying to remove more than one attribute set from an argument!");
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AttrBuilder B(AS, AS.getSlotIndex(0));
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getParent()->removeAttributes(getArgNo() + 1,
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AttributeSet::get(Parent->getContext(),
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getArgNo() + 1, B));
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}
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//===----------------------------------------------------------------------===//
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// Helper Methods in Function
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//===----------------------------------------------------------------------===//
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LLVMContext &Function::getContext() const {
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return getType()->getContext();
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}
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FunctionType *Function::getFunctionType() const {
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return cast<FunctionType>(getType()->getElementType());
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}
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bool Function::isVarArg() const {
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return getFunctionType()->isVarArg();
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}
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Type *Function::getReturnType() const {
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return getFunctionType()->getReturnType();
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}
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void Function::removeFromParent() {
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getParent()->getFunctionList().remove(this);
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}
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void Function::eraseFromParent() {
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getParent()->getFunctionList().erase(this);
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}
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//===----------------------------------------------------------------------===//
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// Function Implementation
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//===----------------------------------------------------------------------===//
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Function::Function(FunctionType *Ty, LinkageTypes Linkage,
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const Twine &name, Module *ParentModule)
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: GlobalValue(PointerType::getUnqual(Ty),
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Value::FunctionVal, 0, 0, Linkage, name) {
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assert(FunctionType::isValidReturnType(getReturnType()) &&
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"invalid return type");
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SymTab = new ValueSymbolTable();
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// If the function has arguments, mark them as lazily built.
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if (Ty->getNumParams())
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setValueSubclassData(1); // Set the "has lazy arguments" bit.
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// Make sure that we get added to a function
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LeakDetector::addGarbageObject(this);
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if (ParentModule)
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ParentModule->getFunctionList().push_back(this);
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// Ensure intrinsics have the right parameter attributes.
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if (unsigned IID = getIntrinsicID())
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setAttributes(Intrinsic::getAttributes(getContext(), Intrinsic::ID(IID)));
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}
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Function::~Function() {
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dropAllReferences(); // After this it is safe to delete instructions.
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// Delete all of the method arguments and unlink from symbol table...
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ArgumentList.clear();
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delete SymTab;
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// Remove the function from the on-the-side GC table.
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clearGC();
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// Remove the intrinsicID from the Cache.
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if (getValueName() && isIntrinsic())
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getContext().pImpl->IntrinsicIDCache.erase(this);
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}
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void Function::BuildLazyArguments() const {
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// Create the arguments vector, all arguments start out unnamed.
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FunctionType *FT = getFunctionType();
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for (unsigned i = 0, e = FT->getNumParams(); i != e; ++i) {
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assert(!FT->getParamType(i)->isVoidTy() &&
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"Cannot have void typed arguments!");
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ArgumentList.push_back(new Argument(FT->getParamType(i)));
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}
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// Clear the lazy arguments bit.
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unsigned SDC = getSubclassDataFromValue();
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const_cast<Function*>(this)->setValueSubclassData(SDC &= ~1);
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}
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size_t Function::arg_size() const {
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return getFunctionType()->getNumParams();
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}
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bool Function::arg_empty() const {
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return getFunctionType()->getNumParams() == 0;
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}
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void Function::setParent(Module *parent) {
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if (getParent())
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LeakDetector::addGarbageObject(this);
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Parent = parent;
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if (getParent())
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LeakDetector::removeGarbageObject(this);
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}
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// dropAllReferences() - This function causes all the subinstructions to "let
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// go" of all references that they are maintaining. This allows one to
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// 'delete' a whole class at a time, even though there may be circular
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// references... first all references are dropped, and all use counts go to
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// zero. Then everything is deleted for real. Note that no operations are
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// valid on an object that has "dropped all references", except operator
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// delete.
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//
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void Function::dropAllReferences() {
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for (iterator I = begin(), E = end(); I != E; ++I)
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I->dropAllReferences();
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// Delete all basic blocks. They are now unused, except possibly by
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// blockaddresses, but BasicBlock's destructor takes care of those.
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while (!BasicBlocks.empty())
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BasicBlocks.begin()->eraseFromParent();
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// Prefix data is stored in a side table.
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setPrefixData(0);
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}
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void Function::addAttribute(unsigned i, Attribute::AttrKind attr) {
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AttributeSet PAL = getAttributes();
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PAL = PAL.addAttribute(getContext(), i, attr);
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setAttributes(PAL);
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}
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void Function::addAttributes(unsigned i, AttributeSet attrs) {
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AttributeSet PAL = getAttributes();
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PAL = PAL.addAttributes(getContext(), i, attrs);
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setAttributes(PAL);
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}
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void Function::removeAttributes(unsigned i, AttributeSet attrs) {
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AttributeSet PAL = getAttributes();
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PAL = PAL.removeAttributes(getContext(), i, attrs);
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setAttributes(PAL);
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}
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// Maintain the GC name for each function in an on-the-side table. This saves
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// allocating an additional word in Function for programs which do not use GC
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// (i.e., most programs) at the cost of increased overhead for clients which do
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// use GC.
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static DenseMap<const Function*,PooledStringPtr> *GCNames;
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static StringPool *GCNamePool;
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static ManagedStatic<sys::SmartRWMutex<true> > GCLock;
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bool Function::hasGC() const {
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sys::SmartScopedReader<true> Reader(*GCLock);
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return GCNames && GCNames->count(this);
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}
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const char *Function::getGC() const {
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assert(hasGC() && "Function has no collector");
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sys::SmartScopedReader<true> Reader(*GCLock);
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return *(*GCNames)[this];
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}
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void Function::setGC(const char *Str) {
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sys::SmartScopedWriter<true> Writer(*GCLock);
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if (!GCNamePool)
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GCNamePool = new StringPool();
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if (!GCNames)
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GCNames = new DenseMap<const Function*,PooledStringPtr>();
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(*GCNames)[this] = GCNamePool->intern(Str);
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}
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void Function::clearGC() {
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sys::SmartScopedWriter<true> Writer(*GCLock);
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if (GCNames) {
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GCNames->erase(this);
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if (GCNames->empty()) {
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delete GCNames;
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GCNames = 0;
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if (GCNamePool->empty()) {
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delete GCNamePool;
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GCNamePool = 0;
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}
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}
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}
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}
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/// copyAttributesFrom - copy all additional attributes (those not needed to
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/// create a Function) from the Function Src to this one.
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void Function::copyAttributesFrom(const GlobalValue *Src) {
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assert(isa<Function>(Src) && "Expected a Function!");
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GlobalValue::copyAttributesFrom(Src);
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const Function *SrcF = cast<Function>(Src);
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setCallingConv(SrcF->getCallingConv());
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setAttributes(SrcF->getAttributes());
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if (SrcF->hasGC())
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setGC(SrcF->getGC());
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else
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clearGC();
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if (SrcF->hasPrefixData())
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setPrefixData(SrcF->getPrefixData());
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else
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setPrefixData(0);
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}
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/// getIntrinsicID - This method returns the ID number of the specified
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/// function, or Intrinsic::not_intrinsic if the function is not an
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/// intrinsic, or if the pointer is null. This value is always defined to be
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/// zero to allow easy checking for whether a function is intrinsic or not. The
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/// particular intrinsic functions which correspond to this value are defined in
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/// llvm/Intrinsics.h. Results are cached in the LLVM context, subsequent
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/// requests for the same ID return results much faster from the cache.
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///
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unsigned Function::getIntrinsicID() const {
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const ValueName *ValName = this->getValueName();
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if (!ValName || !isIntrinsic())
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return 0;
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LLVMContextImpl::IntrinsicIDCacheTy &IntrinsicIDCache =
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getContext().pImpl->IntrinsicIDCache;
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if (!IntrinsicIDCache.count(this)) {
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unsigned Id = lookupIntrinsicID();
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IntrinsicIDCache[this]=Id;
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return Id;
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}
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return IntrinsicIDCache[this];
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}
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/// This private method does the actual lookup of an intrinsic ID when the query
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/// could not be answered from the cache.
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unsigned Function::lookupIntrinsicID() const {
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const ValueName *ValName = this->getValueName();
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unsigned Len = ValName->getKeyLength();
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const char *Name = ValName->getKeyData();
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#define GET_FUNCTION_RECOGNIZER
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#include "llvm/IR/Intrinsics.gen"
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#undef GET_FUNCTION_RECOGNIZER
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return 0;
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}
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std::string Intrinsic::getName(ID id, ArrayRef<Type*> Tys) {
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assert(id < num_intrinsics && "Invalid intrinsic ID!");
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static const char * const Table[] = {
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"not_intrinsic",
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#define GET_INTRINSIC_NAME_TABLE
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#include "llvm/IR/Intrinsics.gen"
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#undef GET_INTRINSIC_NAME_TABLE
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};
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if (Tys.empty())
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return Table[id];
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std::string Result(Table[id]);
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for (unsigned i = 0; i < Tys.size(); ++i) {
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if (PointerType* PTyp = dyn_cast<PointerType>(Tys[i])) {
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Result += ".p" + llvm::utostr(PTyp->getAddressSpace()) +
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EVT::getEVT(PTyp->getElementType()).getEVTString();
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}
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else if (Tys[i])
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Result += "." + EVT::getEVT(Tys[i]).getEVTString();
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}
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return Result;
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}
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/// IIT_Info - These are enumerators that describe the entries returned by the
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/// getIntrinsicInfoTableEntries function.
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///
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/// NOTE: This must be kept in synch with the copy in TblGen/IntrinsicEmitter!
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enum IIT_Info {
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// Common values should be encoded with 0-15.
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IIT_Done = 0,
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IIT_I1 = 1,
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IIT_I8 = 2,
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IIT_I16 = 3,
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IIT_I32 = 4,
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IIT_I64 = 5,
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IIT_F16 = 6,
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IIT_F32 = 7,
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IIT_F64 = 8,
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IIT_V2 = 9,
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IIT_V4 = 10,
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IIT_V8 = 11,
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IIT_V16 = 12,
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IIT_V32 = 13,
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IIT_PTR = 14,
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IIT_ARG = 15,
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// Values from 16+ are only encodable with the inefficient encoding.
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IIT_MMX = 16,
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IIT_METADATA = 17,
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IIT_EMPTYSTRUCT = 18,
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IIT_STRUCT2 = 19,
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IIT_STRUCT3 = 20,
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IIT_STRUCT4 = 21,
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IIT_STRUCT5 = 22,
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IIT_EXTEND_VEC_ARG = 23,
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IIT_TRUNC_VEC_ARG = 24,
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IIT_ANYPTR = 25,
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IIT_V1 = 26,
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IIT_VARARG = 27
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};
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static void DecodeIITType(unsigned &NextElt, ArrayRef<unsigned char> Infos,
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SmallVectorImpl<Intrinsic::IITDescriptor> &OutputTable) {
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IIT_Info Info = IIT_Info(Infos[NextElt++]);
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unsigned StructElts = 2;
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using namespace Intrinsic;
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switch (Info) {
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case IIT_Done:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Void, 0));
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return;
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case IIT_VARARG:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::VarArg, 0));
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return;
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case IIT_MMX:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::MMX, 0));
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return;
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case IIT_METADATA:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Metadata, 0));
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return;
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case IIT_F16:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Half, 0));
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return;
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case IIT_F32:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Float, 0));
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return;
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case IIT_F64:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Double, 0));
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return;
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case IIT_I1:
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OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer, 1));
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return;
|
|
case IIT_I8:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer, 8));
|
|
return;
|
|
case IIT_I16:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer,16));
|
|
return;
|
|
case IIT_I32:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer, 32));
|
|
return;
|
|
case IIT_I64:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Integer, 64));
|
|
return;
|
|
case IIT_V1:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 1));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_V2:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 2));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_V4:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 4));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_V8:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 8));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_V16:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 16));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_V32:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Vector, 32));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_PTR:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Pointer, 0));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
case IIT_ANYPTR: { // [ANYPTR addrspace, subtype]
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Pointer,
|
|
Infos[NextElt++]));
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
}
|
|
case IIT_ARG: {
|
|
unsigned ArgInfo = (NextElt == Infos.size() ? 0 : Infos[NextElt++]);
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Argument, ArgInfo));
|
|
return;
|
|
}
|
|
case IIT_EXTEND_VEC_ARG: {
|
|
unsigned ArgInfo = (NextElt == Infos.size() ? 0 : Infos[NextElt++]);
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::ExtendVecArgument,
|
|
ArgInfo));
|
|
return;
|
|
}
|
|
case IIT_TRUNC_VEC_ARG: {
|
|
unsigned ArgInfo = (NextElt == Infos.size() ? 0 : Infos[NextElt++]);
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::TruncVecArgument,
|
|
ArgInfo));
|
|
return;
|
|
}
|
|
case IIT_EMPTYSTRUCT:
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Struct, 0));
|
|
return;
|
|
case IIT_STRUCT5: ++StructElts; // FALL THROUGH.
|
|
case IIT_STRUCT4: ++StructElts; // FALL THROUGH.
|
|
case IIT_STRUCT3: ++StructElts; // FALL THROUGH.
|
|
case IIT_STRUCT2: {
|
|
OutputTable.push_back(IITDescriptor::get(IITDescriptor::Struct,StructElts));
|
|
|
|
for (unsigned i = 0; i != StructElts; ++i)
|
|
DecodeIITType(NextElt, Infos, OutputTable);
|
|
return;
|
|
}
|
|
}
|
|
llvm_unreachable("unhandled");
|
|
}
|
|
|
|
|
|
#define GET_INTRINSIC_GENERATOR_GLOBAL
|
|
#include "llvm/IR/Intrinsics.gen"
|
|
#undef GET_INTRINSIC_GENERATOR_GLOBAL
|
|
|
|
void Intrinsic::getIntrinsicInfoTableEntries(ID id,
|
|
SmallVectorImpl<IITDescriptor> &T){
|
|
// Check to see if the intrinsic's type was expressible by the table.
|
|
unsigned TableVal = IIT_Table[id-1];
|
|
|
|
// Decode the TableVal into an array of IITValues.
|
|
SmallVector<unsigned char, 8> IITValues;
|
|
ArrayRef<unsigned char> IITEntries;
|
|
unsigned NextElt = 0;
|
|
if ((TableVal >> 31) != 0) {
|
|
// This is an offset into the IIT_LongEncodingTable.
|
|
IITEntries = IIT_LongEncodingTable;
|
|
|
|
// Strip sentinel bit.
|
|
NextElt = (TableVal << 1) >> 1;
|
|
} else {
|
|
// Decode the TableVal into an array of IITValues. If the entry was encoded
|
|
// into a single word in the table itself, decode it now.
|
|
do {
|
|
IITValues.push_back(TableVal & 0xF);
|
|
TableVal >>= 4;
|
|
} while (TableVal);
|
|
|
|
IITEntries = IITValues;
|
|
NextElt = 0;
|
|
}
|
|
|
|
// Okay, decode the table into the output vector of IITDescriptors.
|
|
DecodeIITType(NextElt, IITEntries, T);
|
|
while (NextElt != IITEntries.size() && IITEntries[NextElt] != 0)
|
|
DecodeIITType(NextElt, IITEntries, T);
|
|
}
|
|
|
|
|
|
static Type *DecodeFixedType(ArrayRef<Intrinsic::IITDescriptor> &Infos,
|
|
ArrayRef<Type*> Tys, LLVMContext &Context) {
|
|
using namespace Intrinsic;
|
|
IITDescriptor D = Infos.front();
|
|
Infos = Infos.slice(1);
|
|
|
|
switch (D.Kind) {
|
|
case IITDescriptor::Void: return Type::getVoidTy(Context);
|
|
case IITDescriptor::VarArg: return Type::getVoidTy(Context);
|
|
case IITDescriptor::MMX: return Type::getX86_MMXTy(Context);
|
|
case IITDescriptor::Metadata: return Type::getMetadataTy(Context);
|
|
case IITDescriptor::Half: return Type::getHalfTy(Context);
|
|
case IITDescriptor::Float: return Type::getFloatTy(Context);
|
|
case IITDescriptor::Double: return Type::getDoubleTy(Context);
|
|
|
|
case IITDescriptor::Integer:
|
|
return IntegerType::get(Context, D.Integer_Width);
|
|
case IITDescriptor::Vector:
|
|
return VectorType::get(DecodeFixedType(Infos, Tys, Context),D.Vector_Width);
|
|
case IITDescriptor::Pointer:
|
|
return PointerType::get(DecodeFixedType(Infos, Tys, Context),
|
|
D.Pointer_AddressSpace);
|
|
case IITDescriptor::Struct: {
|
|
Type *Elts[5];
|
|
assert(D.Struct_NumElements <= 5 && "Can't handle this yet");
|
|
for (unsigned i = 0, e = D.Struct_NumElements; i != e; ++i)
|
|
Elts[i] = DecodeFixedType(Infos, Tys, Context);
|
|
return StructType::get(Context, ArrayRef<Type*>(Elts,D.Struct_NumElements));
|
|
}
|
|
|
|
case IITDescriptor::Argument:
|
|
return Tys[D.getArgumentNumber()];
|
|
case IITDescriptor::ExtendVecArgument:
|
|
return VectorType::getExtendedElementVectorType(cast<VectorType>(
|
|
Tys[D.getArgumentNumber()]));
|
|
|
|
case IITDescriptor::TruncVecArgument:
|
|
return VectorType::getTruncatedElementVectorType(cast<VectorType>(
|
|
Tys[D.getArgumentNumber()]));
|
|
}
|
|
llvm_unreachable("unhandled");
|
|
}
|
|
|
|
|
|
|
|
FunctionType *Intrinsic::getType(LLVMContext &Context,
|
|
ID id, ArrayRef<Type*> Tys) {
|
|
SmallVector<IITDescriptor, 8> Table;
|
|
getIntrinsicInfoTableEntries(id, Table);
|
|
|
|
ArrayRef<IITDescriptor> TableRef = Table;
|
|
Type *ResultTy = DecodeFixedType(TableRef, Tys, Context);
|
|
|
|
SmallVector<Type*, 8> ArgTys;
|
|
while (!TableRef.empty())
|
|
ArgTys.push_back(DecodeFixedType(TableRef, Tys, Context));
|
|
|
|
return FunctionType::get(ResultTy, ArgTys, false);
|
|
}
|
|
|
|
bool Intrinsic::isOverloaded(ID id) {
|
|
#define GET_INTRINSIC_OVERLOAD_TABLE
|
|
#include "llvm/IR/Intrinsics.gen"
|
|
#undef GET_INTRINSIC_OVERLOAD_TABLE
|
|
}
|
|
|
|
/// This defines the "Intrinsic::getAttributes(ID id)" method.
|
|
#define GET_INTRINSIC_ATTRIBUTES
|
|
#include "llvm/IR/Intrinsics.gen"
|
|
#undef GET_INTRINSIC_ATTRIBUTES
|
|
|
|
Function *Intrinsic::getDeclaration(Module *M, ID id, ArrayRef<Type*> Tys) {
|
|
// There can never be multiple globals with the same name of different types,
|
|
// because intrinsics must be a specific type.
|
|
return
|
|
cast<Function>(M->getOrInsertFunction(getName(id, Tys),
|
|
getType(M->getContext(), id, Tys)));
|
|
}
|
|
|
|
// This defines the "Intrinsic::getIntrinsicForGCCBuiltin()" method.
|
|
#define GET_LLVM_INTRINSIC_FOR_GCC_BUILTIN
|
|
#include "llvm/IR/Intrinsics.gen"
|
|
#undef GET_LLVM_INTRINSIC_FOR_GCC_BUILTIN
|
|
|
|
/// hasAddressTaken - returns true if there are any uses of this function
|
|
/// other than direct calls or invokes to it.
|
|
bool Function::hasAddressTaken(const User* *PutOffender) const {
|
|
for (Value::const_use_iterator I = use_begin(), E = use_end(); I != E; ++I) {
|
|
const User *U = *I;
|
|
if (isa<BlockAddress>(U))
|
|
continue;
|
|
if (!isa<CallInst>(U) && !isa<InvokeInst>(U))
|
|
return PutOffender ? (*PutOffender = U, true) : true;
|
|
ImmutableCallSite CS(cast<Instruction>(U));
|
|
if (!CS.isCallee(I))
|
|
return PutOffender ? (*PutOffender = U, true) : true;
|
|
}
|
|
return false;
|
|
}
|
|
|
|
bool Function::isDefTriviallyDead() const {
|
|
// Check the linkage
|
|
if (!hasLinkOnceLinkage() && !hasLocalLinkage() &&
|
|
!hasAvailableExternallyLinkage())
|
|
return false;
|
|
|
|
// Check if the function is used by anything other than a blockaddress.
|
|
for (Value::const_use_iterator I = use_begin(), E = use_end(); I != E; ++I)
|
|
if (!isa<BlockAddress>(*I))
|
|
return false;
|
|
|
|
return true;
|
|
}
|
|
|
|
/// callsFunctionThatReturnsTwice - Return true if the function has a call to
|
|
/// setjmp or other function that gcc recognizes as "returning twice".
|
|
bool Function::callsFunctionThatReturnsTwice() const {
|
|
for (const_inst_iterator
|
|
I = inst_begin(this), E = inst_end(this); I != E; ++I) {
|
|
ImmutableCallSite CS(&*I);
|
|
if (CS && CS.hasFnAttr(Attribute::ReturnsTwice))
|
|
return true;
|
|
}
|
|
|
|
return false;
|
|
}
|
|
|
|
Constant *Function::getPrefixData() const {
|
|
assert(hasPrefixData());
|
|
const LLVMContextImpl::PrefixDataMapTy &PDMap =
|
|
getContext().pImpl->PrefixDataMap;
|
|
assert(PDMap.find(this) != PDMap.end());
|
|
return cast<Constant>(PDMap.find(this)->second->getReturnValue());
|
|
}
|
|
|
|
void Function::setPrefixData(Constant *PrefixData) {
|
|
if (!PrefixData && !hasPrefixData())
|
|
return;
|
|
|
|
unsigned SCData = getSubclassDataFromValue();
|
|
LLVMContextImpl::PrefixDataMapTy &PDMap = getContext().pImpl->PrefixDataMap;
|
|
ReturnInst *&PDHolder = PDMap[this];
|
|
if (PrefixData) {
|
|
if (PDHolder)
|
|
PDHolder->setOperand(0, PrefixData);
|
|
else
|
|
PDHolder = ReturnInst::Create(getContext(), PrefixData);
|
|
SCData |= 2;
|
|
} else {
|
|
delete PDHolder;
|
|
PDMap.erase(this);
|
|
SCData &= ~2;
|
|
}
|
|
setValueSubclassData(SCData);
|
|
}
|