forked from OSchip/llvm-project
300 lines
10 KiB
C++
300 lines
10 KiB
C++
//===--- ConstantInitBuilder.cpp - Global initializer builder -------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines out-of-line routines for building initializers for
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// global variables, in particular the kind of globals that are implicitly
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// introduced by various language ABIs.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/CodeGen/ConstantInitBuilder.h"
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#include "CodeGenModule.h"
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using namespace clang;
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using namespace CodeGen;
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llvm::Type *ConstantInitFuture::getType() const {
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assert(Data && "dereferencing null future");
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if (Data.is<llvm::Constant*>()) {
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return Data.get<llvm::Constant*>()->getType();
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} else {
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return Data.get<ConstantInitBuilderBase*>()->Buffer[0]->getType();
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}
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}
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void ConstantInitFuture::abandon() {
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assert(Data && "abandoning null future");
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if (auto builder = Data.dyn_cast<ConstantInitBuilderBase*>()) {
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builder->abandon(0);
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}
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Data = nullptr;
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}
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void ConstantInitFuture::installInGlobal(llvm::GlobalVariable *GV) {
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assert(Data && "installing null future");
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if (Data.is<llvm::Constant*>()) {
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GV->setInitializer(Data.get<llvm::Constant*>());
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} else {
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auto &builder = *Data.get<ConstantInitBuilderBase*>();
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assert(builder.Buffer.size() == 1);
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builder.setGlobalInitializer(GV, builder.Buffer[0]);
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builder.Buffer.clear();
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Data = nullptr;
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}
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}
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ConstantInitFuture
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ConstantInitBuilderBase::createFuture(llvm::Constant *initializer) {
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assert(Buffer.empty() && "buffer not current empty");
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Buffer.push_back(initializer);
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return ConstantInitFuture(this);
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}
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// Only used in this file.
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inline ConstantInitFuture::ConstantInitFuture(ConstantInitBuilderBase *builder)
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: Data(builder) {
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assert(!builder->Frozen);
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assert(builder->Buffer.size() == 1);
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assert(builder->Buffer[0] != nullptr);
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}
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llvm::GlobalVariable *
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ConstantInitBuilderBase::createGlobal(llvm::Constant *initializer,
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const llvm::Twine &name,
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CharUnits alignment,
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bool constant,
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llvm::GlobalValue::LinkageTypes linkage,
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unsigned addressSpace) {
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auto GV = new llvm::GlobalVariable(CGM.getModule(),
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initializer->getType(),
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constant,
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linkage,
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initializer,
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name,
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/*insert before*/ nullptr,
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llvm::GlobalValue::NotThreadLocal,
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addressSpace);
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GV->setAlignment(alignment.getAsAlign());
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resolveSelfReferences(GV);
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return GV;
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}
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void ConstantInitBuilderBase::setGlobalInitializer(llvm::GlobalVariable *GV,
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llvm::Constant *initializer){
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GV->setInitializer(initializer);
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if (!SelfReferences.empty())
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resolveSelfReferences(GV);
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}
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void ConstantInitBuilderBase::resolveSelfReferences(llvm::GlobalVariable *GV) {
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for (auto &entry : SelfReferences) {
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llvm::Constant *resolvedReference =
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llvm::ConstantExpr::getInBoundsGetElementPtr(
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GV->getValueType(), GV, entry.Indices);
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auto dummy = entry.Dummy;
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dummy->replaceAllUsesWith(resolvedReference);
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dummy->eraseFromParent();
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}
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SelfReferences.clear();
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}
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void ConstantInitBuilderBase::abandon(size_t newEnd) {
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// Remove all the entries we've added.
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Buffer.erase(Buffer.begin() + newEnd, Buffer.end());
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// If we're abandoning all the way to the beginning, destroy
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// all the self-references, because we might not get another
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// opportunity.
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if (newEnd == 0) {
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for (auto &entry : SelfReferences) {
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auto dummy = entry.Dummy;
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dummy->replaceAllUsesWith(llvm::UndefValue::get(dummy->getType()));
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dummy->eraseFromParent();
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}
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SelfReferences.clear();
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}
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}
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void ConstantAggregateBuilderBase::addSize(CharUnits size) {
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add(Builder.CGM.getSize(size));
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}
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llvm::Constant *
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ConstantAggregateBuilderBase::getRelativeOffset(llvm::IntegerType *offsetType,
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llvm::Constant *target) {
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return getRelativeOffsetToPosition(offsetType, target,
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Builder.SelfReferences.size());
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}
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llvm::Constant *ConstantAggregateBuilderBase::getRelativeOffsetToPosition(
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llvm::IntegerType *offsetType, llvm::Constant *target, size_t position) {
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// Compute the address of the relative-address slot.
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auto base = getAddrOfPosition(offsetType, position);
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// Subtract.
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base = llvm::ConstantExpr::getPtrToInt(base, Builder.CGM.IntPtrTy);
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target = llvm::ConstantExpr::getPtrToInt(target, Builder.CGM.IntPtrTy);
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llvm::Constant *offset = llvm::ConstantExpr::getSub(target, base);
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// Truncate to the relative-address type if necessary.
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if (Builder.CGM.IntPtrTy != offsetType) {
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offset = llvm::ConstantExpr::getTrunc(offset, offsetType);
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}
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return offset;
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}
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llvm::Constant *
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ConstantAggregateBuilderBase::getAddrOfPosition(llvm::Type *type,
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size_t position) {
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// Make a global variable. We will replace this with a GEP to this
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// position after installing the initializer.
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auto dummy = new llvm::GlobalVariable(Builder.CGM.getModule(), type, true,
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llvm::GlobalVariable::PrivateLinkage,
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nullptr, "");
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Builder.SelfReferences.emplace_back(dummy);
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auto &entry = Builder.SelfReferences.back();
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(void)getGEPIndicesTo(entry.Indices, position + Begin);
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return dummy;
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}
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llvm::Constant *
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ConstantAggregateBuilderBase::getAddrOfCurrentPosition(llvm::Type *type) {
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// Make a global variable. We will replace this with a GEP to this
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// position after installing the initializer.
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auto dummy =
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new llvm::GlobalVariable(Builder.CGM.getModule(), type, true,
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llvm::GlobalVariable::PrivateLinkage,
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nullptr, "");
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Builder.SelfReferences.emplace_back(dummy);
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auto &entry = Builder.SelfReferences.back();
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(void) getGEPIndicesToCurrentPosition(entry.Indices);
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return dummy;
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}
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void ConstantAggregateBuilderBase::getGEPIndicesTo(
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llvm::SmallVectorImpl<llvm::Constant*> &indices,
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size_t position) const {
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// Recurse on the parent builder if present.
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if (Parent) {
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Parent->getGEPIndicesTo(indices, Begin);
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// Otherwise, add an index to drill into the first level of pointer.
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} else {
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assert(indices.empty());
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indices.push_back(llvm::ConstantInt::get(Builder.CGM.Int32Ty, 0));
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}
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assert(position >= Begin);
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// We have to use i32 here because struct GEPs demand i32 indices.
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// It's rather unlikely to matter in practice.
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indices.push_back(llvm::ConstantInt::get(Builder.CGM.Int32Ty,
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position - Begin));
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}
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ConstantAggregateBuilderBase::PlaceholderPosition
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ConstantAggregateBuilderBase::addPlaceholderWithSize(llvm::Type *type) {
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// Bring the offset up to the last field.
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CharUnits offset = getNextOffsetFromGlobal();
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// Create the placeholder.
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auto position = addPlaceholder();
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// Advance the offset past that field.
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auto &layout = Builder.CGM.getDataLayout();
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if (!Packed)
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offset = offset.alignTo(CharUnits::fromQuantity(
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layout.getABITypeAlignment(type)));
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offset += CharUnits::fromQuantity(layout.getTypeStoreSize(type));
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CachedOffsetEnd = Builder.Buffer.size();
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CachedOffsetFromGlobal = offset;
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return position;
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}
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CharUnits ConstantAggregateBuilderBase::getOffsetFromGlobalTo(size_t end) const{
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size_t cacheEnd = CachedOffsetEnd;
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assert(cacheEnd <= end);
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// Fast path: if the cache is valid, just use it.
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if (cacheEnd == end) {
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return CachedOffsetFromGlobal;
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}
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// If the cached range ends before the index at which the current
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// aggregate starts, recurse for the parent.
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CharUnits offset;
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if (cacheEnd < Begin) {
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assert(cacheEnd == 0);
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assert(Parent && "Begin != 0 for root builder");
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cacheEnd = Begin;
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offset = Parent->getOffsetFromGlobalTo(Begin);
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} else {
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offset = CachedOffsetFromGlobal;
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}
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// Perform simple layout on the elements in cacheEnd..<end.
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if (cacheEnd != end) {
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auto &layout = Builder.CGM.getDataLayout();
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do {
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llvm::Constant *element = Builder.Buffer[cacheEnd];
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assert(element != nullptr &&
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"cannot compute offset when a placeholder is present");
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llvm::Type *elementType = element->getType();
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if (!Packed)
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offset = offset.alignTo(CharUnits::fromQuantity(
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layout.getABITypeAlignment(elementType)));
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offset += CharUnits::fromQuantity(layout.getTypeStoreSize(elementType));
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} while (++cacheEnd != end);
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}
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// Cache and return.
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CachedOffsetEnd = cacheEnd;
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CachedOffsetFromGlobal = offset;
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return offset;
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}
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llvm::Constant *ConstantAggregateBuilderBase::finishArray(llvm::Type *eltTy) {
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markFinished();
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auto &buffer = getBuffer();
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assert((Begin < buffer.size() ||
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(Begin == buffer.size() && eltTy))
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&& "didn't add any array elements without element type");
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auto elts = llvm::makeArrayRef(buffer).slice(Begin);
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if (!eltTy) eltTy = elts[0]->getType();
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auto type = llvm::ArrayType::get(eltTy, elts.size());
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auto constant = llvm::ConstantArray::get(type, elts);
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buffer.erase(buffer.begin() + Begin, buffer.end());
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return constant;
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}
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llvm::Constant *
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ConstantAggregateBuilderBase::finishStruct(llvm::StructType *ty) {
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markFinished();
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auto &buffer = getBuffer();
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auto elts = llvm::makeArrayRef(buffer).slice(Begin);
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if (ty == nullptr && elts.empty())
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ty = llvm::StructType::get(Builder.CGM.getLLVMContext(), {}, Packed);
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llvm::Constant *constant;
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if (ty) {
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assert(ty->isPacked() == Packed);
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constant = llvm::ConstantStruct::get(ty, elts);
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} else {
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constant = llvm::ConstantStruct::getAnon(elts, Packed);
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}
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buffer.erase(buffer.begin() + Begin, buffer.end());
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return constant;
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}
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