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https://github.com/c64scene-ar/llvm-6502.git
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47857812e2
Three changes: 1. Convert signed integer types to signless versions. 2. Implement the @sext and @zext parameter attributes. Previously the type of an function parameter was used to determine whether it should be sign extended or zero extended before the call. This information is now communicated via the function type's parameter attributes. 3. The interface to LowerCallTo had to be changed in order to accommodate the parameter attribute information. Although it would have been convenient to pass in the FunctionType itself, there isn't always one present in the caller. Consequently, a signedness indication for the result type and for each parameter was provided for in the interface to this method. All implementations were changed to make the adjustment necessary. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@32788 91177308-0d34-0410-b5e6-96231b3b80d8
376 lines
13 KiB
C++
376 lines
13 KiB
C++
//===-- TargetData.cpp - Data size & alignment routines --------------------==//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines target properties related to datatype size/offset/alignment
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// information.
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//
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// This structure should be created once, filled in if the defaults are not
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// correct and then passed around by const&. None of the members functions
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// require modification to the object.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Target/TargetData.h"
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#include "llvm/Module.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Constants.h"
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#include "llvm/Support/GetElementPtrTypeIterator.h"
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#include "llvm/Support/MathExtras.h"
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#include "llvm/ADT/StringExtras.h"
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#include <algorithm>
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#include <cstdlib>
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#include <sstream>
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using namespace llvm;
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// Handle the Pass registration stuff necessary to use TargetData's.
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namespace {
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// Register the default SparcV9 implementation...
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RegisterPass<TargetData> X("targetdata", "Target Data Layout");
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}
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static inline void getTypeInfo(const Type *Ty, const TargetData *TD,
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uint64_t &Size, unsigned char &Alignment);
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//===----------------------------------------------------------------------===//
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// Support for StructLayout
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//===----------------------------------------------------------------------===//
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StructLayout::StructLayout(const StructType *ST, const TargetData &TD) {
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StructAlignment = 0;
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StructSize = 0;
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// Loop over each of the elements, placing them in memory...
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for (StructType::element_iterator TI = ST->element_begin(),
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TE = ST->element_end(); TI != TE; ++TI) {
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const Type *Ty = *TI;
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unsigned char A;
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unsigned TyAlign;
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uint64_t TySize;
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getTypeInfo(Ty, &TD, TySize, A);
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TyAlign = ST->isPacked() ? 1 : A;
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// Add padding if necessary to make the data element aligned properly...
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if (StructSize % TyAlign != 0)
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StructSize = (StructSize/TyAlign + 1) * TyAlign; // Add padding...
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// Keep track of maximum alignment constraint
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StructAlignment = std::max(TyAlign, StructAlignment);
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MemberOffsets.push_back(StructSize);
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StructSize += TySize; // Consume space for this data item
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}
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// Empty structures have alignment of 1 byte.
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if (StructAlignment == 0) StructAlignment = 1;
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// Add padding to the end of the struct so that it could be put in an array
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// and all array elements would be aligned correctly.
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if (StructSize % StructAlignment != 0)
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StructSize = (StructSize/StructAlignment + 1) * StructAlignment;
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}
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/// getElementContainingOffset - Given a valid offset into the structure,
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/// return the structure index that contains it.
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unsigned StructLayout::getElementContainingOffset(uint64_t Offset) const {
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std::vector<uint64_t>::const_iterator SI =
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std::upper_bound(MemberOffsets.begin(), MemberOffsets.end(),
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Offset);
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assert(SI != MemberOffsets.begin() && "Offset not in structure type!");
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--SI;
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assert(*SI <= Offset && "upper_bound didn't work");
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assert((SI == MemberOffsets.begin() || *(SI-1) < Offset) &&
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(SI+1 == MemberOffsets.end() || *(SI+1) > Offset) &&
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"Upper bound didn't work!");
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return SI-MemberOffsets.begin();
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}
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//===----------------------------------------------------------------------===//
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// TargetData Class Implementation
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//===----------------------------------------------------------------------===//
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void TargetData::init(const std::string &TargetDescription) {
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std::string temp = TargetDescription;
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LittleEndian = false;
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PointerSize = 8;
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PointerAlignment = 8;
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DoubleAlignment = 8;
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FloatAlignment = 4;
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LongAlignment = 8;
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IntAlignment = 4;
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ShortAlignment = 2;
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ByteAlignment = 1;
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BoolAlignment = 1;
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while (!temp.empty()) {
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std::string token = getToken(temp, "-");
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char signal = getToken(token, ":")[0];
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switch(signal) {
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case 'E':
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LittleEndian = false;
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break;
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case 'e':
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LittleEndian = true;
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break;
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case 'p':
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PointerSize = atoi(getToken(token,":").c_str()) / 8;
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PointerAlignment = atoi(getToken(token,":").c_str()) / 8;
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break;
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case 'd':
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DoubleAlignment = atoi(getToken(token,":").c_str()) / 8;
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break;
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case 'f':
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FloatAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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case 'l':
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LongAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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case 'i':
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IntAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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case 's':
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ShortAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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case 'b':
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ByteAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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case 'B':
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BoolAlignment = atoi(getToken(token, ":").c_str()) / 8;
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break;
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default:
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break;
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}
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}
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}
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TargetData::TargetData(const Module *M) {
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LittleEndian = M->getEndianness() != Module::BigEndian;
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PointerSize = M->getPointerSize() != Module::Pointer64 ? 4 : 8;
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PointerAlignment = PointerSize;
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DoubleAlignment = PointerSize;
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FloatAlignment = 4;
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LongAlignment = PointerSize;
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IntAlignment = 4;
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ShortAlignment = 2;
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ByteAlignment = 1;
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BoolAlignment = 1;
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}
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/// Layouts - The lazy cache of structure layout information maintained by
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/// TargetData.
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///
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static std::map<std::pair<const TargetData*,const StructType*>,
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StructLayout> *Layouts = 0;
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TargetData::~TargetData() {
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if (Layouts) {
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// Remove any layouts for this TD.
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std::map<std::pair<const TargetData*,
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const StructType*>, StructLayout>::iterator
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I = Layouts->lower_bound(std::make_pair(this, (const StructType*)0));
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while (I != Layouts->end() && I->first.first == this)
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Layouts->erase(I++);
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if (Layouts->empty()) {
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delete Layouts;
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Layouts = 0;
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}
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}
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}
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std::string TargetData::getStringRepresentation() const {
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std::stringstream repr;
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if (LittleEndian)
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repr << "e";
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else
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repr << "E";
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repr << "-p:" << (PointerSize * 8) << ":" << (PointerAlignment * 8);
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repr << "-d:64:" << (DoubleAlignment * 8);
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repr << "-f:32:" << (FloatAlignment * 8);
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repr << "-l:64:" << (LongAlignment * 8);
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repr << "-i:32:" << (IntAlignment * 8);
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repr << "-s:16:" << (ShortAlignment * 8);
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repr << "-b:8:" << (ByteAlignment * 8);
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repr << "-B:8:" << (BoolAlignment * 8);
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return repr.str();
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}
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const StructLayout *TargetData::getStructLayout(const StructType *Ty) const {
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if (Layouts == 0)
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Layouts = new std::map<std::pair<const TargetData*,const StructType*>,
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StructLayout>();
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std::map<std::pair<const TargetData*,const StructType*>,
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StructLayout>::iterator
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I = Layouts->lower_bound(std::make_pair(this, Ty));
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if (I != Layouts->end() && I->first.first == this && I->first.second == Ty)
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return &I->second;
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else {
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return &Layouts->insert(I, std::make_pair(std::make_pair(this, Ty),
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StructLayout(Ty, *this)))->second;
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}
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}
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/// InvalidateStructLayoutInfo - TargetData speculatively caches StructLayout
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/// objects. If a TargetData object is alive when types are being refined and
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/// removed, this method must be called whenever a StructType is removed to
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/// avoid a dangling pointer in this cache.
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void TargetData::InvalidateStructLayoutInfo(const StructType *Ty) const {
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if (!Layouts) return; // No cache.
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std::map<std::pair<const TargetData*,const StructType*>,
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StructLayout>::iterator I = Layouts->find(std::make_pair(this, Ty));
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if (I != Layouts->end())
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Layouts->erase(I);
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}
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static inline void getTypeInfo(const Type *Ty, const TargetData *TD,
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uint64_t &Size, unsigned char &Alignment) {
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assert(Ty->isSized() && "Cannot getTypeInfo() on a type that is unsized!");
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switch (Ty->getTypeID()) {
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case Type::BoolTyID: Size = 1; Alignment = TD->getBoolAlignment(); return;
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case Type::VoidTyID:
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case Type::Int8TyID: Size = 1; Alignment = TD->getByteAlignment(); return;
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case Type::Int16TyID: Size = 2; Alignment = TD->getShortAlignment(); return;
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case Type::Int32TyID: Size = 4; Alignment = TD->getIntAlignment(); return;
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case Type::Int64TyID: Size = 8; Alignment = TD->getLongAlignment(); return;
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case Type::FloatTyID: Size = 4; Alignment = TD->getFloatAlignment(); return;
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case Type::DoubleTyID: Size = 8; Alignment = TD->getDoubleAlignment(); return;
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case Type::LabelTyID:
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case Type::PointerTyID:
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Size = TD->getPointerSize(); Alignment = TD->getPointerAlignment();
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return;
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case Type::ArrayTyID: {
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const ArrayType *ATy = cast<ArrayType>(Ty);
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getTypeInfo(ATy->getElementType(), TD, Size, Alignment);
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unsigned AlignedSize = (Size + Alignment - 1)/Alignment*Alignment;
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Size = AlignedSize*ATy->getNumElements();
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return;
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}
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case Type::PackedTyID: {
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const PackedType *PTy = cast<PackedType>(Ty);
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getTypeInfo(PTy->getElementType(), TD, Size, Alignment);
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unsigned AlignedSize = (Size + Alignment - 1)/Alignment*Alignment;
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Size = AlignedSize*PTy->getNumElements();
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// FIXME: The alignments of specific packed types are target dependent.
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// For now, just set it to be equal to Size.
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Alignment = Size;
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return;
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}
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case Type::StructTyID: {
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// Get the layout annotation... which is lazily created on demand.
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const StructLayout *Layout = TD->getStructLayout(cast<StructType>(Ty));
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Size = Layout->StructSize; Alignment = Layout->StructAlignment;
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return;
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}
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default:
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assert(0 && "Bad type for getTypeInfo!!!");
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return;
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}
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}
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uint64_t TargetData::getTypeSize(const Type *Ty) const {
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uint64_t Size;
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unsigned char Align;
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getTypeInfo(Ty, this, Size, Align);
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return Size;
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}
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unsigned char TargetData::getTypeAlignment(const Type *Ty) const {
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uint64_t Size;
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unsigned char Align;
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getTypeInfo(Ty, this, Size, Align);
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return Align;
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}
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unsigned char TargetData::getTypeAlignmentShift(const Type *Ty) const {
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unsigned Align = getTypeAlignment(Ty);
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assert(!(Align & (Align-1)) && "Alignment is not a power of two!");
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return Log2_32(Align);
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}
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/// getIntPtrType - Return an unsigned integer type that is the same size or
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/// greater to the host pointer size.
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const Type *TargetData::getIntPtrType() const {
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switch (getPointerSize()) {
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default: assert(0 && "Unknown pointer size!");
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case 2: return Type::Int16Ty;
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case 4: return Type::Int32Ty;
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case 8: return Type::Int64Ty;
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}
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}
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uint64_t TargetData::getIndexedOffset(const Type *ptrTy,
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const std::vector<Value*> &Idx) const {
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const Type *Ty = ptrTy;
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assert(isa<PointerType>(Ty) && "Illegal argument for getIndexedOffset()");
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uint64_t Result = 0;
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generic_gep_type_iterator<std::vector<Value*>::const_iterator>
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TI = gep_type_begin(ptrTy, Idx.begin(), Idx.end());
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for (unsigned CurIDX = 0; CurIDX != Idx.size(); ++CurIDX, ++TI) {
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if (const StructType *STy = dyn_cast<StructType>(*TI)) {
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assert(Idx[CurIDX]->getType() == Type::Int32Ty && "Illegal struct idx");
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unsigned FieldNo = cast<ConstantInt>(Idx[CurIDX])->getZExtValue();
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// Get structure layout information...
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const StructLayout *Layout = getStructLayout(STy);
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// Add in the offset, as calculated by the structure layout info...
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assert(FieldNo < Layout->MemberOffsets.size() &&"FieldNo out of range!");
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Result += Layout->MemberOffsets[FieldNo];
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// Update Ty to refer to current element
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Ty = STy->getElementType(FieldNo);
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} else {
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// Update Ty to refer to current element
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Ty = cast<SequentialType>(Ty)->getElementType();
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// Get the array index and the size of each array element.
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int64_t arrayIdx = cast<ConstantInt>(Idx[CurIDX])->getSExtValue();
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Result += arrayIdx * (int64_t)getTypeSize(Ty);
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}
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}
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return Result;
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}
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/// getPreferredAlignmentLog - Return the preferred alignment of the
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/// specified global, returned in log form. This includes an explicitly
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/// requested alignment (if the global has one).
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unsigned TargetData::getPreferredAlignmentLog(const GlobalVariable *GV) const {
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const Type *ElemType = GV->getType()->getElementType();
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unsigned Alignment = getTypeAlignmentShift(ElemType);
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if (GV->getAlignment() > (1U << Alignment))
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Alignment = Log2_32(GV->getAlignment());
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if (GV->hasInitializer()) {
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// Always round up alignment of global doubles to 8 bytes.
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if (GV->getType()->getElementType() == Type::DoubleTy && Alignment < 3)
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Alignment = 3;
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if (Alignment < 4) {
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// If the global is not external, see if it is large. If so, give it a
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// larger alignment.
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if (getTypeSize(ElemType) > 128)
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Alignment = 4; // 16-byte alignment.
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}
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}
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return Alignment;
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}
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