mirror of
https://github.com/RPCSX/llvm.git
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e3e43d9d57
I did this a long time ago with a janky python script, but now clang-format has built-in support for this. I fed clang-format every line with a #include and let it re-sort things according to the precise LLVM rules for include ordering baked into clang-format these days. I've reverted a number of files where the results of sorting includes isn't healthy. Either places where we have legacy code relying on particular include ordering (where possible, I'll fix these separately) or where we have particular formatting around #include lines that I didn't want to disturb in this patch. This patch is *entirely* mechanical. If you get merge conflicts or anything, just ignore the changes in this patch and run clang-format over your #include lines in the files. Sorry for any noise here, but it is important to keep these things stable. I was seeing an increasing number of patches with irrelevant re-ordering of #include lines because clang-format was used. This patch at least isolates that churn, makes it easy to skip when resolving conflicts, and gets us to a clean baseline (again). git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@304787 91177308-0d34-0410-b5e6-96231b3b80d8
527 lines
18 KiB
C++
527 lines
18 KiB
C++
//===- Module.cpp - Implement the Module class ----------------------------===//
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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 Module class for the IR library.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/Module.h"
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#include "SymbolTableListTraitsImpl.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/Comdat.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/DataLayout.h"
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#include "llvm/IR/DebugInfoMetadata.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/GVMaterializer.h"
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#include "llvm/IR/GlobalAlias.h"
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#include "llvm/IR/GlobalIFunc.h"
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#include "llvm/IR/GlobalValue.h"
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#include "llvm/IR/GlobalVariable.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Metadata.h"
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#include "llvm/IR/SymbolTableListTraits.h"
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#include "llvm/IR/Type.h"
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#include "llvm/IR/TypeFinder.h"
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#include "llvm/IR/Value.h"
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#include "llvm/IR/ValueSymbolTable.h"
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#include "llvm/Pass.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/CodeGen.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/Path.h"
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#include "llvm/Support/RandomNumberGenerator.h"
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#include <algorithm>
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#include <cassert>
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#include <cstdint>
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#include <memory>
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#include <utility>
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#include <vector>
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using namespace llvm;
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//===----------------------------------------------------------------------===//
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// Methods to implement the globals and functions lists.
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//
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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<Function>;
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template class llvm::SymbolTableListTraits<GlobalVariable>;
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template class llvm::SymbolTableListTraits<GlobalAlias>;
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template class llvm::SymbolTableListTraits<GlobalIFunc>;
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//===----------------------------------------------------------------------===//
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// Primitive Module methods.
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//
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Module::Module(StringRef MID, LLVMContext &C)
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: Context(C), Materializer(), ModuleID(MID), SourceFileName(MID), DL("") {
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ValSymTab = new ValueSymbolTable();
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NamedMDSymTab = new StringMap<NamedMDNode *>();
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Context.addModule(this);
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}
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Module::~Module() {
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Context.removeModule(this);
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dropAllReferences();
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GlobalList.clear();
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FunctionList.clear();
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AliasList.clear();
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IFuncList.clear();
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NamedMDList.clear();
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delete ValSymTab;
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delete static_cast<StringMap<NamedMDNode *> *>(NamedMDSymTab);
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}
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RandomNumberGenerator *Module::createRNG(const Pass* P) const {
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SmallString<32> Salt(P->getPassName());
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// This RNG is guaranteed to produce the same random stream only
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// when the Module ID and thus the input filename is the same. This
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// might be problematic if the input filename extension changes
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// (e.g. from .c to .bc or .ll).
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//
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// We could store this salt in NamedMetadata, but this would make
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// the parameter non-const. This would unfortunately make this
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// interface unusable by any Machine passes, since they only have a
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// const reference to their IR Module. Alternatively we can always
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// store salt metadata from the Module constructor.
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Salt += sys::path::filename(getModuleIdentifier());
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return new RandomNumberGenerator(Salt);
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}
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/// getNamedValue - Return the first global value in the module with
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/// the specified name, of arbitrary type. This method returns null
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/// if a global with the specified name is not found.
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GlobalValue *Module::getNamedValue(StringRef Name) const {
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return cast_or_null<GlobalValue>(getValueSymbolTable().lookup(Name));
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}
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/// getMDKindID - Return a unique non-zero ID for the specified metadata kind.
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/// This ID is uniqued across modules in the current LLVMContext.
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unsigned Module::getMDKindID(StringRef Name) const {
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return Context.getMDKindID(Name);
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}
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/// getMDKindNames - Populate client supplied SmallVector with the name for
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/// custom metadata IDs registered in this LLVMContext. ID #0 is not used,
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/// so it is filled in as an empty string.
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void Module::getMDKindNames(SmallVectorImpl<StringRef> &Result) const {
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return Context.getMDKindNames(Result);
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}
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void Module::getOperandBundleTags(SmallVectorImpl<StringRef> &Result) const {
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return Context.getOperandBundleTags(Result);
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}
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//===----------------------------------------------------------------------===//
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// Methods for easy access to the functions in the module.
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//
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// getOrInsertFunction - Look up the specified function in the module symbol
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// table. If it does not exist, add a prototype for the function and return
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// it. This is nice because it allows most passes to get away with not handling
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// the symbol table directly for this common task.
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//
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Constant *Module::getOrInsertFunction(StringRef Name, FunctionType *Ty,
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AttributeList AttributeList) {
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// See if we have a definition for the specified function already.
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GlobalValue *F = getNamedValue(Name);
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if (!F) {
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// Nope, add it
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Function *New = Function::Create(Ty, GlobalVariable::ExternalLinkage, Name);
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if (!New->isIntrinsic()) // Intrinsics get attrs set on construction
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New->setAttributes(AttributeList);
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FunctionList.push_back(New);
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return New; // Return the new prototype.
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}
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// If the function exists but has the wrong type, return a bitcast to the
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// right type.
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if (F->getType() != PointerType::getUnqual(Ty))
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return ConstantExpr::getBitCast(F, PointerType::getUnqual(Ty));
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// Otherwise, we just found the existing function or a prototype.
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return F;
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}
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Constant *Module::getOrInsertFunction(StringRef Name,
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FunctionType *Ty) {
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return getOrInsertFunction(Name, Ty, AttributeList());
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}
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// getFunction - Look up the specified function in the module symbol table.
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// If it does not exist, return null.
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//
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Function *Module::getFunction(StringRef Name) const {
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return dyn_cast_or_null<Function>(getNamedValue(Name));
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}
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//===----------------------------------------------------------------------===//
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// Methods for easy access to the global variables in the module.
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//
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/// getGlobalVariable - Look up the specified global variable in the module
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/// symbol table. If it does not exist, return null. The type argument
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/// should be the underlying type of the global, i.e., it should not have
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/// the top-level PointerType, which represents the address of the global.
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/// If AllowLocal is set to true, this function will return types that
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/// have an local. By default, these types are not returned.
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///
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GlobalVariable *Module::getGlobalVariable(StringRef Name,
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bool AllowLocal) const {
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if (GlobalVariable *Result =
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dyn_cast_or_null<GlobalVariable>(getNamedValue(Name)))
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if (AllowLocal || !Result->hasLocalLinkage())
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return Result;
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return nullptr;
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}
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/// getOrInsertGlobal - Look up the specified global in the module symbol table.
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/// 1. If it does not exist, add a declaration of the global and return it.
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/// 2. Else, the global exists but has the wrong type: return the function
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/// with a constantexpr cast to the right type.
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/// 3. Finally, if the existing global is the correct declaration, return the
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/// existing global.
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Constant *Module::getOrInsertGlobal(StringRef Name, Type *Ty) {
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// See if we have a definition for the specified global already.
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GlobalVariable *GV = dyn_cast_or_null<GlobalVariable>(getNamedValue(Name));
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if (!GV) {
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// Nope, add it
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GlobalVariable *New =
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new GlobalVariable(*this, Ty, false, GlobalVariable::ExternalLinkage,
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nullptr, Name);
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return New; // Return the new declaration.
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}
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// If the variable exists but has the wrong type, return a bitcast to the
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// right type.
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Type *GVTy = GV->getType();
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PointerType *PTy = PointerType::get(Ty, GVTy->getPointerAddressSpace());
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if (GVTy != PTy)
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return ConstantExpr::getBitCast(GV, PTy);
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// Otherwise, we just found the existing function or a prototype.
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return GV;
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}
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//===----------------------------------------------------------------------===//
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// Methods for easy access to the global variables in the module.
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//
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// getNamedAlias - Look up the specified global in the module symbol table.
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// If it does not exist, return null.
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//
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GlobalAlias *Module::getNamedAlias(StringRef Name) const {
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return dyn_cast_or_null<GlobalAlias>(getNamedValue(Name));
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}
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GlobalIFunc *Module::getNamedIFunc(StringRef Name) const {
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return dyn_cast_or_null<GlobalIFunc>(getNamedValue(Name));
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}
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/// getNamedMetadata - Return the first NamedMDNode in the module with the
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/// specified name. This method returns null if a NamedMDNode with the
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/// specified name is not found.
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NamedMDNode *Module::getNamedMetadata(const Twine &Name) const {
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SmallString<256> NameData;
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StringRef NameRef = Name.toStringRef(NameData);
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return static_cast<StringMap<NamedMDNode*> *>(NamedMDSymTab)->lookup(NameRef);
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}
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/// getOrInsertNamedMetadata - Return the first named MDNode in the module
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/// with the specified name. This method returns a new NamedMDNode if a
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/// NamedMDNode with the specified name is not found.
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NamedMDNode *Module::getOrInsertNamedMetadata(StringRef Name) {
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NamedMDNode *&NMD =
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(*static_cast<StringMap<NamedMDNode *> *>(NamedMDSymTab))[Name];
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if (!NMD) {
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NMD = new NamedMDNode(Name);
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NMD->setParent(this);
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NamedMDList.push_back(NMD);
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}
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return NMD;
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}
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/// eraseNamedMetadata - Remove the given NamedMDNode from this module and
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/// delete it.
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void Module::eraseNamedMetadata(NamedMDNode *NMD) {
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static_cast<StringMap<NamedMDNode *> *>(NamedMDSymTab)->erase(NMD->getName());
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NamedMDList.erase(NMD->getIterator());
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}
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bool Module::isValidModFlagBehavior(Metadata *MD, ModFlagBehavior &MFB) {
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if (ConstantInt *Behavior = mdconst::dyn_extract_or_null<ConstantInt>(MD)) {
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uint64_t Val = Behavior->getLimitedValue();
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if (Val >= ModFlagBehaviorFirstVal && Val <= ModFlagBehaviorLastVal) {
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MFB = static_cast<ModFlagBehavior>(Val);
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return true;
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}
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}
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return false;
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}
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/// getModuleFlagsMetadata - Returns the module flags in the provided vector.
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void Module::
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getModuleFlagsMetadata(SmallVectorImpl<ModuleFlagEntry> &Flags) const {
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const NamedMDNode *ModFlags = getModuleFlagsMetadata();
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if (!ModFlags) return;
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for (const MDNode *Flag : ModFlags->operands()) {
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ModFlagBehavior MFB;
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if (Flag->getNumOperands() >= 3 &&
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isValidModFlagBehavior(Flag->getOperand(0), MFB) &&
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dyn_cast_or_null<MDString>(Flag->getOperand(1))) {
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// Check the operands of the MDNode before accessing the operands.
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// The verifier will actually catch these failures.
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MDString *Key = cast<MDString>(Flag->getOperand(1));
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Metadata *Val = Flag->getOperand(2);
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Flags.push_back(ModuleFlagEntry(MFB, Key, Val));
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}
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}
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}
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/// Return the corresponding value if Key appears in module flags, otherwise
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/// return null.
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Metadata *Module::getModuleFlag(StringRef Key) const {
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SmallVector<Module::ModuleFlagEntry, 8> ModuleFlags;
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getModuleFlagsMetadata(ModuleFlags);
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for (const ModuleFlagEntry &MFE : ModuleFlags) {
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if (Key == MFE.Key->getString())
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return MFE.Val;
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}
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return nullptr;
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}
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/// getModuleFlagsMetadata - Returns the NamedMDNode in the module that
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/// represents module-level flags. This method returns null if there are no
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/// module-level flags.
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NamedMDNode *Module::getModuleFlagsMetadata() const {
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return getNamedMetadata("llvm.module.flags");
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}
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/// getOrInsertModuleFlagsMetadata - Returns the NamedMDNode in the module that
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/// represents module-level flags. If module-level flags aren't found, it
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/// creates the named metadata that contains them.
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NamedMDNode *Module::getOrInsertModuleFlagsMetadata() {
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return getOrInsertNamedMetadata("llvm.module.flags");
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}
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/// addModuleFlag - Add a module-level flag to the module-level flags
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/// metadata. It will create the module-level flags named metadata if it doesn't
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/// already exist.
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void Module::addModuleFlag(ModFlagBehavior Behavior, StringRef Key,
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Metadata *Val) {
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Type *Int32Ty = Type::getInt32Ty(Context);
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Metadata *Ops[3] = {
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ConstantAsMetadata::get(ConstantInt::get(Int32Ty, Behavior)),
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MDString::get(Context, Key), Val};
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getOrInsertModuleFlagsMetadata()->addOperand(MDNode::get(Context, Ops));
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}
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void Module::addModuleFlag(ModFlagBehavior Behavior, StringRef Key,
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Constant *Val) {
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addModuleFlag(Behavior, Key, ConstantAsMetadata::get(Val));
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}
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void Module::addModuleFlag(ModFlagBehavior Behavior, StringRef Key,
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uint32_t Val) {
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Type *Int32Ty = Type::getInt32Ty(Context);
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addModuleFlag(Behavior, Key, ConstantInt::get(Int32Ty, Val));
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}
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void Module::addModuleFlag(MDNode *Node) {
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assert(Node->getNumOperands() == 3 &&
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"Invalid number of operands for module flag!");
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assert(mdconst::hasa<ConstantInt>(Node->getOperand(0)) &&
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isa<MDString>(Node->getOperand(1)) &&
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"Invalid operand types for module flag!");
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getOrInsertModuleFlagsMetadata()->addOperand(Node);
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}
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void Module::setDataLayout(StringRef Desc) {
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DL.reset(Desc);
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}
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void Module::setDataLayout(const DataLayout &Other) { DL = Other; }
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const DataLayout &Module::getDataLayout() const { return DL; }
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DICompileUnit *Module::debug_compile_units_iterator::operator*() const {
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return cast<DICompileUnit>(CUs->getOperand(Idx));
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}
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DICompileUnit *Module::debug_compile_units_iterator::operator->() const {
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return cast<DICompileUnit>(CUs->getOperand(Idx));
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}
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void Module::debug_compile_units_iterator::SkipNoDebugCUs() {
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while (CUs && (Idx < CUs->getNumOperands()) &&
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((*this)->getEmissionKind() == DICompileUnit::NoDebug))
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++Idx;
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}
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//===----------------------------------------------------------------------===//
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// Methods to control the materialization of GlobalValues in the Module.
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//
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void Module::setMaterializer(GVMaterializer *GVM) {
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assert(!Materializer &&
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"Module already has a GVMaterializer. Call materializeAll"
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" to clear it out before setting another one.");
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Materializer.reset(GVM);
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}
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Error Module::materialize(GlobalValue *GV) {
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if (!Materializer)
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return Error::success();
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return Materializer->materialize(GV);
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}
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Error Module::materializeAll() {
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if (!Materializer)
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return Error::success();
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std::unique_ptr<GVMaterializer> M = std::move(Materializer);
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return M->materializeModule();
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}
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Error Module::materializeMetadata() {
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if (!Materializer)
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return Error::success();
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return Materializer->materializeMetadata();
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}
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//===----------------------------------------------------------------------===//
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// Other module related stuff.
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//
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std::vector<StructType *> Module::getIdentifiedStructTypes() const {
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// If we have a materializer, it is possible that some unread function
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// uses a type that is currently not visible to a TypeFinder, so ask
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// the materializer which types it created.
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if (Materializer)
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return Materializer->getIdentifiedStructTypes();
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std::vector<StructType *> Ret;
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TypeFinder SrcStructTypes;
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SrcStructTypes.run(*this, true);
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Ret.assign(SrcStructTypes.begin(), SrcStructTypes.end());
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return Ret;
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}
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// dropAllReferences() - This function causes all the subelements to "let go"
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// of all references that they are maintaining. This allows one to 'delete' a
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// whole module at a time, even though there may be circular references... first
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// all references are dropped, and all use counts go to zero. Then everything
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// is deleted for real. Note that no operations are valid on an object that
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// has "dropped all references", except operator delete.
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//
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void Module::dropAllReferences() {
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for (Function &F : *this)
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F.dropAllReferences();
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for (GlobalVariable &GV : globals())
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GV.dropAllReferences();
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for (GlobalAlias &GA : aliases())
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GA.dropAllReferences();
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for (GlobalIFunc &GIF : ifuncs())
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GIF.dropAllReferences();
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}
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unsigned Module::getNumberRegisterParameters() const {
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auto *Val =
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cast_or_null<ConstantAsMetadata>(getModuleFlag("NumRegisterParameters"));
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if (!Val)
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return 0;
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return cast<ConstantInt>(Val->getValue())->getZExtValue();
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}
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unsigned Module::getDwarfVersion() const {
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auto *Val = cast_or_null<ConstantAsMetadata>(getModuleFlag("Dwarf Version"));
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if (!Val)
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return 0;
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return cast<ConstantInt>(Val->getValue())->getZExtValue();
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}
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unsigned Module::getCodeViewFlag() const {
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auto *Val = cast_or_null<ConstantAsMetadata>(getModuleFlag("CodeView"));
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if (!Val)
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return 0;
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return cast<ConstantInt>(Val->getValue())->getZExtValue();
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}
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Comdat *Module::getOrInsertComdat(StringRef Name) {
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auto &Entry = *ComdatSymTab.insert(std::make_pair(Name, Comdat())).first;
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Entry.second.Name = &Entry;
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return &Entry.second;
|
|
}
|
|
|
|
PICLevel::Level Module::getPICLevel() const {
|
|
auto *Val = cast_or_null<ConstantAsMetadata>(getModuleFlag("PIC Level"));
|
|
|
|
if (!Val)
|
|
return PICLevel::NotPIC;
|
|
|
|
return static_cast<PICLevel::Level>(
|
|
cast<ConstantInt>(Val->getValue())->getZExtValue());
|
|
}
|
|
|
|
void Module::setPICLevel(PICLevel::Level PL) {
|
|
addModuleFlag(ModFlagBehavior::Max, "PIC Level", PL);
|
|
}
|
|
|
|
PIELevel::Level Module::getPIELevel() const {
|
|
auto *Val = cast_or_null<ConstantAsMetadata>(getModuleFlag("PIE Level"));
|
|
|
|
if (!Val)
|
|
return PIELevel::Default;
|
|
|
|
return static_cast<PIELevel::Level>(
|
|
cast<ConstantInt>(Val->getValue())->getZExtValue());
|
|
}
|
|
|
|
void Module::setPIELevel(PIELevel::Level PL) {
|
|
addModuleFlag(ModFlagBehavior::Max, "PIE Level", PL);
|
|
}
|
|
|
|
void Module::setProfileSummary(Metadata *M) {
|
|
addModuleFlag(ModFlagBehavior::Error, "ProfileSummary", M);
|
|
}
|
|
|
|
Metadata *Module::getProfileSummary() {
|
|
return getModuleFlag("ProfileSummary");
|
|
}
|
|
|
|
void Module::setOwnedMemoryBuffer(std::unique_ptr<MemoryBuffer> MB) {
|
|
OwnedMemoryBuffer = std::move(MB);
|
|
}
|
|
|
|
GlobalVariable *llvm::collectUsedGlobalVariables(
|
|
const Module &M, SmallPtrSetImpl<GlobalValue *> &Set, bool CompilerUsed) {
|
|
const char *Name = CompilerUsed ? "llvm.compiler.used" : "llvm.used";
|
|
GlobalVariable *GV = M.getGlobalVariable(Name);
|
|
if (!GV || !GV->hasInitializer())
|
|
return GV;
|
|
|
|
const ConstantArray *Init = cast<ConstantArray>(GV->getInitializer());
|
|
for (Value *Op : Init->operands()) {
|
|
GlobalValue *G = cast<GlobalValue>(Op->stripPointerCastsNoFollowAliases());
|
|
Set.insert(G);
|
|
}
|
|
return GV;
|
|
}
|