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29ebc2d39f
llvm-mirror/lib/Target/NVPTX/NVPTXLowerAggrCopies.cpp
Mehdi Amini 29ebc2d39f Make DataLayout Non-Optional in the Module 
Summary:
DataLayout keeps the string used for its creation.

As a side effect it is no longer needed in the Module.
This is "almost" NFC, the string is no longer
canonicalized, you can't rely on two "equals" DataLayout
having the same string returned by getStringRepresentation().

Get rid of DataLayoutPass: the DataLayout is in the Module

The DataLayout is "per-module", let's enforce this by not
duplicating it more than necessary.
One more step toward non-optionality of the DataLayout in the
module.

Make DataLayout Non-Optional in the Module

Module->getDataLayout() will never returns nullptr anymore.

Reviewers: echristo

Subscribers: resistor, llvm-commits, jholewinski

Differential Revision: http://reviews.llvm.org/D7992

From: Mehdi Amini <mehdi.amini@apple.com>
llvm-svn: 231270
2015-03-04 18:43:29 +00:00

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7.5 KiB
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//===- NVPTXLowerAggrCopies.cpp - ------------------------------*- C++ -*--===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
// Lower aggregate copies, memset, memcpy, memmov intrinsics into loops when
// the size is large or is not a compile-time constant.
//
//===----------------------------------------------------------------------===//
#include "NVPTXLowerAggrCopies.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DataLayout.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/InstIterator.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/IntrinsicInst.h"
#include "llvm/IR/Intrinsics.h"
#include "llvm/IR/LLVMContext.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/Debug.h"
#define DEBUG_TYPE "nvptx"
using namespace llvm;
namespace llvm { FunctionPass *createLowerAggrCopies(); }
char NVPTXLowerAggrCopies::ID = 0;
// Lower MemTransferInst or load-store pair to loop
static void convertTransferToLoop(
Instruction *splitAt, Value *srcAddr, Value *dstAddr, Value *len,
//unsigned numLoads,
bool srcVolatile, bool dstVolatile, LLVMContext &Context, Function &F) {
Type *indType = len->getType();
BasicBlock *origBB = splitAt->getParent();
BasicBlock *newBB = splitAt->getParent()->splitBasicBlock(splitAt, "split");
BasicBlock *loopBB = BasicBlock::Create(Context, "loadstoreloop", &F, newBB);
origBB->getTerminator()->setSuccessor(0, loopBB);
IRBuilder<> builder(origBB, origBB->getTerminator());
// srcAddr and dstAddr are expected to be pointer types,
// so no check is made here.
unsigned srcAS = dyn_cast<PointerType>(srcAddr->getType())->getAddressSpace();
unsigned dstAS = dyn_cast<PointerType>(dstAddr->getType())->getAddressSpace();
// Cast pointers to (char *)
srcAddr = builder.CreateBitCast(srcAddr, Type::getInt8PtrTy(Context, srcAS));
dstAddr = builder.CreateBitCast(dstAddr, Type::getInt8PtrTy(Context, dstAS));
IRBuilder<> loop(loopBB);
// The loop index (ind) is a phi node.
PHINode *ind = loop.CreatePHI(indType, 0);
// Incoming value for ind is 0
ind->addIncoming(ConstantInt::get(indType, 0), origBB);
// load from srcAddr+ind
Value *val = loop.CreateLoad(loop.CreateGEP(srcAddr, ind), srcVolatile);
// store at dstAddr+ind
loop.CreateStore(val, loop.CreateGEP(dstAddr, ind), dstVolatile);
// The value for ind coming from backedge is (ind + 1)
Value *newind = loop.CreateAdd(ind, ConstantInt::get(indType, 1));
ind->addIncoming(newind, loopBB);
loop.CreateCondBr(loop.CreateICmpULT(newind, len), loopBB, newBB);
}
// Lower MemSetInst to loop
static void convertMemSetToLoop(Instruction *splitAt, Value *dstAddr,
Value *len, Value *val, LLVMContext &Context,
Function &F) {
BasicBlock *origBB = splitAt->getParent();
BasicBlock *newBB = splitAt->getParent()->splitBasicBlock(splitAt, "split");
BasicBlock *loopBB = BasicBlock::Create(Context, "loadstoreloop", &F, newBB);
origBB->getTerminator()->setSuccessor(0, loopBB);
IRBuilder<> builder(origBB, origBB->getTerminator());
unsigned dstAS = dyn_cast<PointerType>(dstAddr->getType())->getAddressSpace();
// Cast pointer to the type of value getting stored
dstAddr =
builder.CreateBitCast(dstAddr, PointerType::get(val->getType(), dstAS));
IRBuilder<> loop(loopBB);
PHINode *ind = loop.CreatePHI(len->getType(), 0);
ind->addIncoming(ConstantInt::get(len->getType(), 0), origBB);
loop.CreateStore(val, loop.CreateGEP(dstAddr, ind), false);
Value *newind = loop.CreateAdd(ind, ConstantInt::get(len->getType(), 1));
ind->addIncoming(newind, loopBB);
loop.CreateCondBr(loop.CreateICmpULT(newind, len), loopBB, newBB);
}
bool NVPTXLowerAggrCopies::runOnFunction(Function &F) {
SmallVector<LoadInst *, 4> aggrLoads;
SmallVector<MemTransferInst *, 4> aggrMemcpys;
SmallVector<MemSetInst *, 4> aggrMemsets;
const DataLayout &DL = F.getParent()->getDataLayout();
LLVMContext &Context = F.getParent()->getContext();
//
// Collect all the aggrLoads, aggrMemcpys and addrMemsets.
//
//const BasicBlock *firstBB = &F.front(); // first BB in F
for (Function::iterator BI = F.begin(), BE = F.end(); BI != BE; ++BI) {
//BasicBlock *bb = BI;
for (BasicBlock::iterator II = BI->begin(), IE = BI->end(); II != IE;
++II) {
if (LoadInst *load = dyn_cast<LoadInst>(II)) {
if (load->hasOneUse() == false)
continue;
if (DL.getTypeStoreSize(load->getType()) < MaxAggrCopySize)
continue;
User *use = load->user_back();
if (StoreInst *store = dyn_cast<StoreInst>(use)) {
if (store->getOperand(0) != load) //getValueOperand
continue;
aggrLoads.push_back(load);
}
} else if (MemTransferInst *intr = dyn_cast<MemTransferInst>(II)) {
Value *len = intr->getLength();
// If the number of elements being copied is greater
// than MaxAggrCopySize, lower it to a loop
if (ConstantInt *len_int = dyn_cast<ConstantInt>(len)) {
if (len_int->getZExtValue() >= MaxAggrCopySize) {
aggrMemcpys.push_back(intr);
}
} else {
// turn variable length memcpy/memmov into loop
aggrMemcpys.push_back(intr);
}
} else if (MemSetInst *memsetintr = dyn_cast<MemSetInst>(II)) {
Value *len = memsetintr->getLength();
if (ConstantInt *len_int = dyn_cast<ConstantInt>(len)) {
if (len_int->getZExtValue() >= MaxAggrCopySize) {
aggrMemsets.push_back(memsetintr);
}
} else {
// turn variable length memset into loop
aggrMemsets.push_back(memsetintr);
}
}
}
}
if ((aggrLoads.size() == 0) && (aggrMemcpys.size() == 0) &&
(aggrMemsets.size() == 0))
return false;
//
// Do the transformation of an aggr load/copy/set to a loop
//
for (unsigned i = 0, e = aggrLoads.size(); i != e; ++i) {
LoadInst *load = aggrLoads[i];
StoreInst *store = dyn_cast<StoreInst>(*load->user_begin());
Value *srcAddr = load->getOperand(0);
Value *dstAddr = store->getOperand(1);
unsigned numLoads = DL.getTypeStoreSize(load->getType());
Value *len = ConstantInt::get(Type::getInt32Ty(Context), numLoads);
convertTransferToLoop(store, srcAddr, dstAddr, len, load->isVolatile(),
store->isVolatile(), Context, F);
store->eraseFromParent();
load->eraseFromParent();
}
for (unsigned i = 0, e = aggrMemcpys.size(); i != e; ++i) {
MemTransferInst *cpy = aggrMemcpys[i];
Value *len = cpy->getLength();
// llvm 2.7 version of memcpy does not have volatile
// operand yet. So always making it non-volatile
// optimistically, so that we don't see unnecessary
// st.volatile in ptx
convertTransferToLoop(cpy, cpy->getSource(), cpy->getDest(), len, false,
false, Context, F);
cpy->eraseFromParent();
}
for (unsigned i = 0, e = aggrMemsets.size(); i != e; ++i) {
MemSetInst *memsetinst = aggrMemsets[i];
Value *len = memsetinst->getLength();
Value *val = memsetinst->getValue();
convertMemSetToLoop(memsetinst, memsetinst->getDest(), len, val, Context,
F);
memsetinst->eraseFromParent();
}
return true;
}
FunctionPass *llvm::createLowerAggrCopies() {
return new NVPTXLowerAggrCopies();
}
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