FastISel.cpp revision cbafae6d33031a72ba8219c28cb0e852511f79a3 
13b172f1c018a093d0dae3105324d782103fcda6dDan Gohman//===-- FastISel.cpp - Implementation of the FastISel class ---------------===//
2b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//
3b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//                     The LLVM Compiler Infrastructure
4b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//
5b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman// This file is distributed under the University of Illinois Open Source
6b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman// License. See LICENSE.TXT for details.
7b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//
8b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//===----------------------------------------------------------------------===//
9b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//
10b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman// This file contains the implementation of the FastISel class.
11b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//
125ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// "Fast" instruction selection is designed to emit very poor code quickly.
135ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// Also, it is not designed to be able to do much lowering, so most illegal
1444d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// types (e.g. i64 on 32-bit targets) and operations are not supported.  It is
1544d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// also not intended to be able to do much optimization, except in a few cases
1644d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// where doing optimizations reduces overall compile time.  For example, folding
1744d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// constants into immediate fields is often done, because it's cheap and it
1844d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// reduces the number of instructions later phases have to examine.
195ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman//
205ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// "Fast" instruction selection is able to fail gracefully and transfer
215ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// control to the SelectionDAG selector for operations that it doesn't
2244d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// support.  In many cases, this allows us to avoid duplicating a lot of
235ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// the complicated lowering logic that SelectionDAG currently has.
245ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman//
255ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// The intended use for "fast" instruction selection is "-O0" mode
265ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// compilation, where the quality of the generated code is irrelevant when
2744d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// weighed against the speed at which the code can be generated.  Also,
285ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// at -O0, the LLVM optimizers are not running, and this makes the
295ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// compile time of codegen a much higher portion of the overall compile
3044d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// time.  Despite its limitations, "fast" instruction selection is able to
315ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// handle enough code on its own to provide noticeable overall speedups
325ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// in -O0 compiles.
335ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman//
345ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// Basic operations are supported in a target-independent way, by reading
355ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// the same instruction descriptions that the SelectionDAG selector reads,
365ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// and identifying simple arithmetic operations that can be directly selected
3744d2a983b76a2a923e34f3162c960443425cb296Chris Lattner// from simple operators.  More complicated operations currently require
385ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman// target-specific code.
395ec9efd61bc4214c787287409498e8b78f28c922Dan Gohman//
40b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman//===----------------------------------------------------------------------===//
41b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
42053e69ad5704a8e0e5f50d8b18f8917377ffacfbChad Rosier#define DEBUG_TYPE "isel"
43b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman#include "llvm/CodeGen/FastISel.h"
446d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie#include "llvm/ADT/Optional.h"
45d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/ADT/Statistic.h"
46d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Analysis/Loads.h"
47d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/Analysis.h"
484c3fd9f92f89810d659973d2666ab729758de64aDan Gohman#include "llvm/CodeGen/FunctionLoweringInfo.h"
49b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman#include "llvm/CodeGen/MachineInstrBuilder.h"
5033134c4a75558288d663267c8991f6bd37a530afDan Gohman#include "llvm/CodeGen/MachineModuleInfo.h"
51b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman#include "llvm/CodeGen/MachineRegisterInfo.h"
52d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/DebugInfo.h"
530b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/DataLayout.h"
540b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Function.h"
550b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/GlobalVariable.h"
560b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Instructions.h"
570b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/IntrinsicInst.h"
580b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Operator.h"
59d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Support/Debug.h"
60d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Support/ErrorHandling.h"
61b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman#include "llvm/Target/TargetInstrInfo.h"
62d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson#include "llvm/Target/TargetLibraryInfo.h"
6383785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng#include "llvm/Target/TargetLowering.h"
64bb466331e7e50d03497ce40ee344870236fd9c32Dan Gohman#include "llvm/Target/TargetMachine.h"
65b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohmanusing namespace llvm;
66b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
67aa5656c6b9161608005cf8dc85027c160a925e58Chad RosierSTATISTIC(NumFastIselSuccessIndependent, "Number of insts selected by "
68aa5656c6b9161608005cf8dc85027c160a925e58Chad Rosier          "target-independent selector");
69aa5656c6b9161608005cf8dc85027c160a925e58Chad RosierSTATISTIC(NumFastIselSuccessTarget, "Number of insts selected by "
70aa5656c6b9161608005cf8dc85027c160a925e58Chad Rosier          "target-specific selector");
71ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad RosierSTATISTIC(NumFastIselDead, "Number of dead insts removed on failure");
72053e69ad5704a8e0e5f50d8b18f8917377ffacfbChad Rosier
7384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman/// startNewBlock - Set the current block to which generated machine
7484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman/// instructions will be appended, and clear the local CSE map.
7584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman///
7684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohmanvoid FastISel::startNewBlock() {
7784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  LocalValueMap.clear();
7884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
7974af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  EmitStartPt = 0;
8084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
8174af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // Advance the emit start point past any EH_LABEL instructions.
8284023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  MachineBasicBlock::iterator
8384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    I = FuncInfo.MBB->begin(), E = FuncInfo.MBB->end();
8484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  while (I != E && I->getOpcode() == TargetOpcode::EH_LABEL) {
8574af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin    EmitStartPt = I;
8684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    ++I;
8784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  }
8874af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  LastLocalValue = EmitStartPt;
8974af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin}
9074af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin
91092e5e75661fdd5d54a748fb00fab59d21031268Evan Chengbool FastISel::LowerArguments() {
92092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  if (!FuncInfo.CanLowerReturn)
93092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng    // Fallback to SDISel argument lowering code to deal with sret pointer
94092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng    // parameter.
95092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng    return false;
96092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng
97092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  if (!FastLowerArguments())
98092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng    return false;
99092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng
1001948910e3186d31bc0d213ecd0d7e87bb2c2760dDavid Blaikie  // Enter arguments into ValueMap for uses in non-entry BBs.
101092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  for (Function::const_arg_iterator I = FuncInfo.Fn->arg_begin(),
102092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng         E = FuncInfo.Fn->arg_end(); I != E; ++I) {
1031948910e3186d31bc0d213ecd0d7e87bb2c2760dDavid Blaikie    DenseMap<const Value *, unsigned>::iterator VI = LocalValueMap.find(I);
1041948910e3186d31bc0d213ecd0d7e87bb2c2760dDavid Blaikie    assert(VI != LocalValueMap.end() && "Missed an argument?");
1051948910e3186d31bc0d213ecd0d7e87bb2c2760dDavid Blaikie    FuncInfo.ValueMap[I] = VI->second;
106092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  }
107092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  return true;
108092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng}
109092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng
11074af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasinvoid FastISel::flushLocalValueMap() {
11174af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  LocalValueMap.clear();
11274af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  LastLocalValue = EmitStartPt;
11374af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  recomputeInsertPt();
11484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman}
11584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
116a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohmanbool FastISel::hasTrivialKill(const Value *V) const {
1177f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  // Don't consider constants or arguments to have trivial kills.
118a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  const Instruction *I = dyn_cast<Instruction>(V);
1197f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  if (!I)
1207f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman    return false;
1217f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman
1227f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  // No-op casts are trivially coalesced by fast-isel.
1237f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  if (const CastInst *Cast = dyn_cast<CastInst>(I))
124ece6c6bb6329748b92403c06ac87f45c43485911Chandler Carruth    if (Cast->isNoopCast(TD.getIntPtrType(Cast->getContext())) &&
125ece6c6bb6329748b92403c06ac87f45c43485911Chandler Carruth        !hasTrivialKill(Cast->getOperand(0)))
1267f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman      return false;
1277f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman
12822b34cce4d270f787d4c991baee596a9e3b7f836Chad Rosier  // GEPs with all zero indices are trivially coalesced by fast-isel.
12922b34cce4d270f787d4c991baee596a9e3b7f836Chad Rosier  if (const GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(I))
13022b34cce4d270f787d4c991baee596a9e3b7f836Chad Rosier    if (GEP->hasAllZeroIndices() && !hasTrivialKill(GEP->getOperand(0)))
13122b34cce4d270f787d4c991baee596a9e3b7f836Chad Rosier      return false;
13222b34cce4d270f787d4c991baee596a9e3b7f836Chad Rosier
1337f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  // Only instructions with a single use in the same basic block are considered
1347f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  // to have trivial kills.
1357f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman  return I->hasOneUse() &&
1367f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman         !(I->getOpcode() == Instruction::BitCast ||
1377f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman           I->getOpcode() == Instruction::PtrToInt ||
1387f0d69555caab5f5468ddf74b5840f59c4c6fd83Dan Gohman           I->getOpcode() == Instruction::IntToPtr) &&
13996f1d8ebdd33b3f9bdb3b1163f36072c68599f42Gabor Greif         cast<Instruction>(*I->use_begin())->getParent() == I->getParent();
140a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman}
141a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
14246510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanunsigned FastISel::getRegForValue(const Value *V) {
143e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson  EVT RealVT = TLI.getValueType(V->getType(), /*AllowUnknown=*/true);
1444fd552880c9f42f117bd79929ea0179f99bd6bb7Dan Gohman  // Don't handle non-simple values in FastISel.
1454fd552880c9f42f117bd79929ea0179f99bd6bb7Dan Gohman  if (!RealVT.isSimple())
1464fd552880c9f42f117bd79929ea0179f99bd6bb7Dan Gohman    return 0;
147821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman
148c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  // Ignore illegal types. We must do this before looking up the value
149c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  // in ValueMap because Arguments are given virtual registers regardless
150c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  // of whether FastISel can handle them.
151825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson  MVT VT = RealVT.getSimpleVT();
152821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman  if (!TLI.isTypeLegal(VT)) {
15376927d7303046058c627691bd45d6bff608f49f4Eli Friedman    // Handle integer promotions, though, because they're common and easy.
15476927d7303046058c627691bd45d6bff608f49f4Eli Friedman    if (VT == MVT::i1 || VT == MVT::i8 || VT == MVT::i16)
15523b9b19b1a5a00faa9fce0788155c7dbfd00bfb1Owen Anderson      VT = TLI.getTypeToTransformTo(V->getContext(), VT).getSimpleVT();
156821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman    else
157821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman      return 0;
158821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman  }
159821164875706dd28e48c6cc3cea5c8ffa6e658d1Dan Gohman
1604e27027562d6843364e0ab744f97958b6abca08dEric Christopher  // Look up the value to see if we already have a register for it.
1614e27027562d6843364e0ab744f97958b6abca08dEric Christopher  unsigned Reg = lookUpRegForValue(V);
162c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  if (Reg != 0)
163c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman    return Reg;
164c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman
16597c94b8fc630b55e17a37481910810639e28d086Dan Gohman  // In bottom-up mode, just create the virtual register which will be used
16697c94b8fc630b55e17a37481910810639e28d086Dan Gohman  // to hold the value. It will be materialized later.
16784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  if (isa<Instruction>(V) &&
16884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman      (!isa<AllocaInst>(V) ||
16984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman       !FuncInfo.StaticAllocaMap.count(cast<AllocaInst>(V))))
17084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    return FuncInfo.InitializeRegForValue(V);
17184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
17276ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  SavePoint SaveInsertPt = enterLocalValueArea();
17384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
17484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  // Materialize the value in a register. Emit any instructions in the
17584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  // local value area.
17684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  Reg = materializeRegForValue(V, VT);
17784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
17876ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  leaveLocalValueArea(SaveInsertPt);
17997c94b8fc630b55e17a37481910810639e28d086Dan Gohman
18084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  return Reg;
1811fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman}
1821fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman
18344a2c3476bd15e03f294bae1b50016851f214f8dEric Christopher/// materializeRegForValue - Helper for getRegForValue. This function is
1841fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman/// called when the value isn't already available in a register and must
1851fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman/// be materialized with new instructions.
1861fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohmanunsigned FastISel::materializeRegForValue(const Value *V, MVT VT) {
1871fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman  unsigned Reg = 0;
1881fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman
18946510a73e977273ec67747eb34cbdb43f815e451Dan Gohman  if (const ConstantInt *CI = dyn_cast<ConstantInt>(V)) {
1902ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman    if (CI->getValue().getActiveBits() <= 64)
1912ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman      Reg = FastEmit_i(VT, VT, ISD::Constant, CI->getZExtValue());
1920586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman  } else if (isa<AllocaInst>(V)) {
1932ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman    Reg = TargetMaterializeAlloca(cast<AllocaInst>(V));
194205d92589bc8c59d4bba9ddf89e0eb3c4d548cdaDan Gohman  } else if (isa<ConstantPointerNull>(V)) {
1951e9e8c3bd5ac018296bddb21a2acb8c643303b39Dan Gohman    // Translate this as an integer zero so that it can be
1961e9e8c3bd5ac018296bddb21a2acb8c643303b39Dan Gohman    // local-CSE'd with actual integer zeros.
1971d0be15f89cb5056e20e2d24faa8d6afb1573bcaOwen Anderson    Reg =
198ece6c6bb6329748b92403c06ac87f45c43485911Chandler Carruth      getRegForValue(Constant::getNullValue(TD.getIntPtrType(V->getContext())));
19946510a73e977273ec67747eb34cbdb43f815e451Dan Gohman  } else if (const ConstantFP *CF = dyn_cast<ConstantFP>(V)) {
200bd1253809bc1b2455793a64d2801db3d6317b08eEli Friedman    if (CF->isNullValue()) {
2012790ba8e5a7bb6e00fdac9997d840598fb60271cEli Friedman      Reg = TargetMaterializeFloatZero(CF);
2022790ba8e5a7bb6e00fdac9997d840598fb60271cEli Friedman    } else {
2032790ba8e5a7bb6e00fdac9997d840598fb60271cEli Friedman      // Try to emit the constant directly.
2042790ba8e5a7bb6e00fdac9997d840598fb60271cEli Friedman      Reg = FastEmit_f(VT, VT, ISD::ConstantFP, CF);
2052790ba8e5a7bb6e00fdac9997d840598fb60271cEli Friedman    }
206ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman
207ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    if (!Reg) {
2084183e31978146ea529a87a2fc47b96aeb6cbe000Dan Gohman      // Try to emit the constant by using an integer constant with a cast.
209ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman      const APFloat &Flt = CF->getValueAPF();
210e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson      EVT IntVT = TLI.getPointerTy();
211ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman
212ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman      uint64_t x[2];
213ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman      uint32_t IntBitWidth = IntVT.getSizeInBits();
21423a98551ab65eeb8fe5019df8b7db4891582a4bdDale Johannesen      bool isExact;
21523a98551ab65eeb8fe5019df8b7db4891582a4bdDale Johannesen      (void) Flt.convertToInteger(x, IntBitWidth, /*isSigned=*/true,
216c415af225d9546a66ac9f7368a973e0be25b438dEric Christopher                                  APFloat::rmTowardZero, &isExact);
21723a98551ab65eeb8fe5019df8b7db4891582a4bdDale Johannesen      if (isExact) {
2183ba292dbc2acee2d1052fb7ffe332e2164147b47Jeffrey Yasskin        APInt IntVal(IntBitWidth, x);
219ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman
220e922c0201916e0b980ab3cfe91e1413e68d55647Owen Anderson        unsigned IntegerReg =
221eed707b1e6097aac2bb6b3d47271f6300ace7f2eOwen Anderson          getRegForValue(ConstantInt::get(V->getContext(), IntVal));
2222ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman        if (IntegerReg != 0)
223a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman          Reg = FastEmit_r(IntVT.getSimpleVT(), VT, ISD::SINT_TO_FP,
224a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                           IntegerReg, /*Kill=*/false);
2252ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman      }
226ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    }
22746510a73e977273ec67747eb34cbdb43f815e451Dan Gohman  } else if (const Operator *Op = dyn_cast<Operator>(V)) {
22820d4be151b54feb18aa1e5cc04033a4aa64137aeDan Gohman    if (!SelectOperator(Op, Op->getOpcode()))
22920d4be151b54feb18aa1e5cc04033a4aa64137aeDan Gohman      if (!isa<Instruction>(Op) ||
23020d4be151b54feb18aa1e5cc04033a4aa64137aeDan Gohman          !TargetSelectInstruction(cast<Instruction>(Op)))
23120d4be151b54feb18aa1e5cc04033a4aa64137aeDan Gohman        return 0;
23237db6cdaea47d0637bdbe624f7b10ff8f82928adDan Gohman    Reg = lookUpRegForValue(Op);
233205d92589bc8c59d4bba9ddf89e0eb3c4d548cdaDan Gohman  } else if (isa<UndefValue>(V)) {
234104e4ce1629ea84736691bd1ee7867bdf90e8a2eDan Gohman    Reg = createResultReg(TLI.getRegClassFor(VT));
23584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL,
23684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman            TII.get(TargetOpcode::IMPLICIT_DEF), Reg);
237ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  }
238bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
239dceffe66b9e73ce372ea11c0fc6975504eb8c31dDan Gohman  // If target-independent code couldn't handle the value, give target-specific
240dceffe66b9e73ce372ea11c0fc6975504eb8c31dDan Gohman  // code a try.
2416e6074508c2f781c3e52dfe0e301cb1c7f395a91Owen Anderson  if (!Reg && isa<Constant>(V))
2422ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman    Reg = TargetMaterializeConstant(cast<Constant>(V));
243bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
2442ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman  // Don't cache constant materializations in the general ValueMap.
2452ff7fd146159d97abe94391a33b4385abb06bbb0Dan Gohman  // To do so would require tracking what uses they dominate.
24684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  if (Reg != 0) {
247dceffe66b9e73ce372ea11c0fc6975504eb8c31dDan Gohman    LocalValueMap[V] = Reg;
24884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    LastLocalValue = MRI.getVRegDef(Reg);
24984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  }
250104e4ce1629ea84736691bd1ee7867bdf90e8a2eDan Gohman  return Reg;
251ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman}
252ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman
25346510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanunsigned FastISel::lookUpRegForValue(const Value *V) {
25459fbc80f6b3b5c71dfb84149f589625f7ed510e3Evan Cheng  // Look up the value to see if we already have a register for it. We
25559fbc80f6b3b5c71dfb84149f589625f7ed510e3Evan Cheng  // cache values defined by Instructions across blocks, and other values
25659fbc80f6b3b5c71dfb84149f589625f7ed510e3Evan Cheng  // only locally. This is because Instructions already have the SSA
2571fdc614bee2a324fcc210d1e46d9b6fca3ca324bDan Gohman  // def-dominates-use requirement enforced.
258a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman  DenseMap<const Value *, unsigned>::iterator I = FuncInfo.ValueMap.find(V);
259a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman  if (I != FuncInfo.ValueMap.end())
2603193a689db3de8640d412ccd9482301647359a4eDan Gohman    return I->second;
26176ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  return LocalValueMap[V];
26259fbc80f6b3b5c71dfb84149f589625f7ed510e3Evan Cheng}
26359fbc80f6b3b5c71dfb84149f589625f7ed510e3Evan Cheng
264cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// UpdateValueMap - Update the value map to include the new mapping for this
265cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// instruction, or insert an extra copy to get the result in a previous
266cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// determined register.
267cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// NOTE: This is only necessary because we might select a block that uses
268cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// a value before we select the block that defines the value.  It might be
269cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson/// possible to fix this by selecting blocks in reverse postorder.
270482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedmanvoid FastISel::UpdateValueMap(const Value *I, unsigned Reg, unsigned NumRegs) {
27140b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman  if (!isa<Instruction>(I)) {
27240b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman    LocalValueMap[I] = Reg;
273482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman    return;
274c5040ab6065d5c569a1af0848b6e672b22b174b7Chris Lattner  }
275bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
276a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman  unsigned &AssignedReg = FuncInfo.ValueMap[I];
277c5040ab6065d5c569a1af0848b6e672b22b174b7Chris Lattner  if (AssignedReg == 0)
27884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    // Use the new register.
279c5040ab6065d5c569a1af0848b6e672b22b174b7Chris Lattner    AssignedReg = Reg;
28036e3946ac2f30a0bda66538ef2b974b1c8fbdc97Chris Lattner  else if (Reg != AssignedReg) {
28184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    // Arrange for uses of AssignedReg to be replaced by uses of Reg.
282482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman    for (unsigned i = 0; i < NumRegs; i++)
283482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman      FuncInfo.RegFixups[AssignedReg+i] = Reg+i;
28484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
28584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    AssignedReg = Reg;
28640b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman  }
287cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson}
288cc54e76cc67bbc9badc024ab29053602769bd255Owen Anderson
289a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohmanstd::pair<unsigned, bool> FastISel::getRegForGEPIndex(const Value *Idx) {
290c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  unsigned IdxN = getRegForValue(Idx);
291c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  if (IdxN == 0)
292c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman    // Unhandled operand. Halt "fast" selection and bail.
293a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman    return std::pair<unsigned, bool>(0, false);
294a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
295a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool IdxNIsKill = hasTrivialKill(Idx);
296c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman
297c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman  // If the index is smaller or larger than intptr_t, truncate or extend it.
298766b5efd99c01e26f00f22d81b57d1385b3d2ab0Owen Anderson  MVT PtrVT = TLI.getPointerTy();
299e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson  EVT IdxVT = EVT::getEVT(Idx->getType(), /*HandleUnknown=*/false);
300a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  if (IdxVT.bitsLT(PtrVT)) {
301a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman    IdxN = FastEmit_r(IdxVT.getSimpleVT(), PtrVT, ISD::SIGN_EXTEND,
302a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                      IdxN, IdxNIsKill);
303a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman    IdxNIsKill = true;
304a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  }
305a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  else if (IdxVT.bitsGT(PtrVT)) {
306a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman    IdxN = FastEmit_r(IdxVT.getSimpleVT(), PtrVT, ISD::TRUNCATE,
307a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                      IdxN, IdxNIsKill);
308a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman    IdxNIsKill = true;
309a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  }
310a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  return std::pair<unsigned, bool>(IdxN, IdxNIsKill);
311c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman}
312c8a1a3c426209e9c7b35e279e1578a89edc40af6Dan Gohman
31384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohmanvoid FastISel::recomputeInsertPt() {
31484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  if (getLastLocalValue()) {
31584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    FuncInfo.InsertPt = getLastLocalValue();
316c6e59b71f50c7c77bc448a936dba8e84d90911e8Dan Gohman    FuncInfo.MBB = FuncInfo.InsertPt->getParent();
31784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    ++FuncInfo.InsertPt;
31884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  } else
31984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    FuncInfo.InsertPt = FuncInfo.MBB->getFirstNonPHI();
32084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
32184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  // Now skip past any EH_LABELs, which must remain at the beginning.
32284023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  while (FuncInfo.InsertPt != FuncInfo.MBB->end() &&
32384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman         FuncInfo.InsertPt->getOpcode() == TargetOpcode::EH_LABEL)
32484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    ++FuncInfo.InsertPt;
32584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman}
32684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
327ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosiervoid FastISel::removeDeadCode(MachineBasicBlock::iterator I,
328ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier                              MachineBasicBlock::iterator E) {
329ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  assert (I && E && std::distance(I, E) > 0 && "Invalid iterator!");
330ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  while (I != E) {
331ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    MachineInstr *Dead = &*I;
332ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    ++I;
333ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    Dead->eraseFromParent();
334fa785cb22d50c657eb08c762d627cd6aa96982f3Jan Wen Voung    ++NumFastIselDead;
335ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  }
336ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  recomputeInsertPt();
337ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier}
338ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier
33976ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric ChristopherFastISel::SavePoint FastISel::enterLocalValueArea() {
34084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  MachineBasicBlock::iterator OldInsertPt = FuncInfo.InsertPt;
34176ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  DebugLoc OldDL = DL;
34284023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  recomputeInsertPt();
34376ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  DL = DebugLoc();
34476ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  SavePoint SP = { OldInsertPt, OldDL };
34576ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  return SP;
34684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman}
34784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
34876ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christophervoid FastISel::leaveLocalValueArea(SavePoint OldInsertPt) {
34984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  if (FuncInfo.InsertPt != FuncInfo.MBB->begin())
35084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    LastLocalValue = llvm::prior(FuncInfo.InsertPt);
35184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
35284023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  // Restore the previous insert position.
35376ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  FuncInfo.InsertPt = OldInsertPt.InsertPt;
35476ad43c6e1619ed4c087b8ccb2cd573eb9d7093eEric Christopher  DL = OldInsertPt.DL;
35584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman}
35684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman
357bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman/// SelectBinaryOp - Select and emit code for a binary operator instruction,
358bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman/// which has an opcode which directly corresponds to the given ISD opcode.
359bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman///
36046510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanbool FastISel::SelectBinaryOp(const User *I, unsigned ISDOpcode) {
361e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson  EVT VT = EVT::getEVT(I->getType(), /*HandleUnknown=*/true);
362825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson  if (VT == MVT::Other || !VT.isSimple())
363d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman    // Unhandled type. Halt "fast" selection and bail.
364d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman    return false;
365638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman
366b71fea248fd7cf9ab2c5737997a3dc5682948dc4Dan Gohman  // We only handle legal types. For example, on x86-32 the instruction
367b71fea248fd7cf9ab2c5737997a3dc5682948dc4Dan Gohman  // selector contains all of the 64-bit instructions from x86-64,
368b71fea248fd7cf9ab2c5737997a3dc5682948dc4Dan Gohman  // under the assumption that i64 won't be used if the target doesn't
369b71fea248fd7cf9ab2c5737997a3dc5682948dc4Dan Gohman  // support it.
370638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman  if (!TLI.isTypeLegal(VT)) {
371825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson    // MVT::i1 is special. Allow AND, OR, or XOR because they
372638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman    // don't require additional zeroing, which makes them easy.
373825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson    if (VT == MVT::i1 &&
3745dd9c2e9aea7294c184609aff7f2fe82eaea4eb0Dan Gohman        (ISDOpcode == ISD::AND || ISDOpcode == ISD::OR ||
3755dd9c2e9aea7294c184609aff7f2fe82eaea4eb0Dan Gohman         ISDOpcode == ISD::XOR))
37623b9b19b1a5a00faa9fce0788155c7dbfd00bfb1Owen Anderson      VT = TLI.getTypeToTransformTo(I->getContext(), VT);
377638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman    else
378638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman      return false;
379638c6830c6d0d6871065d2b00178ee4aa7d4d044Dan Gohman  }
380d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
381fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner  // Check if the first operand is a constant, and handle it as "ri".  At -O0,
382fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner  // we don't have anything that canonicalizes operand order.
383fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner  if (ConstantInt *CI = dyn_cast<ConstantInt>(I->getOperand(0)))
384fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner    if (isa<Instruction>(I) && cast<Instruction>(I)->isCommutative()) {
385fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner      unsigned Op1 = getRegForValue(I->getOperand(1));
386fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner      if (Op1 == 0) return false;
387fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner
388fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner      bool Op1IsKill = hasTrivialKill(I->getOperand(1));
389d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
390602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      unsigned ResultReg = FastEmit_ri_(VT.getSimpleVT(), ISDOpcode, Op1,
391602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner                                        Op1IsKill, CI->getZExtValue(),
392602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner                                        VT.getSimpleVT());
393602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      if (ResultReg == 0) return false;
394d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
395602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      // We successfully emitted code for the given LLVM Instruction.
396602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      UpdateValueMap(I, ResultReg);
397602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      return true;
398fff65b354f9895f5add84d99e0f62176f5d3f0f6Chris Lattner    }
399d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
400d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
4013df24e667f04a7003342b534310919abc9c87418Dan Gohman  unsigned Op0 = getRegForValue(I->getOperand(0));
402602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  if (Op0 == 0)   // Unhandled operand. Halt "fast" selection and bail.
403a7f2dff98e68ed8b2ac32f953768c04f26b52beaDan Gohman    return false;
404a7f2dff98e68ed8b2ac32f953768c04f26b52beaDan Gohman
405a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool Op0IsKill = hasTrivialKill(I->getOperand(0));
406a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
407d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  // Check if the second operand is a constant and handle it appropriately.
408d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  if (ConstantInt *CI = dyn_cast<ConstantInt>(I->getOperand(1))) {
409602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    uint64_t Imm = CI->getZExtValue();
410d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
411f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner    // Transform "sdiv exact X, 8" -> "sra X, 3".
412f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner    if (ISDOpcode == ISD::SDIV && isa<BinaryOperator>(I) &&
413f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner        cast<BinaryOperator>(I)->isExact() &&
414f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner        isPowerOf2_64(Imm)) {
415f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner      Imm = Log2_64(Imm);
416f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner      ISDOpcode = ISD::SRA;
417f051c1a29dd040b4b5ca0c5696d47a9058f87481Chris Lattner    }
418d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
419544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier    // Transform "urem x, pow2" -> "and x, pow2-1".
420544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier    if (ISDOpcode == ISD::UREM && isa<BinaryOperator>(I) &&
421544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier        isPowerOf2_64(Imm)) {
422544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier      --Imm;
423544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier      ISDOpcode = ISD::AND;
424544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier    }
425544b9b426f0dfa1beef6dc3640607dee3ca1160eChad Rosier
426602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    unsigned ResultReg = FastEmit_ri_(VT.getSimpleVT(), ISDOpcode, Op0,
427602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner                                      Op0IsKill, Imm, VT.getSimpleVT());
428602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    if (ResultReg == 0) return false;
429d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
430602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    // We successfully emitted code for the given LLVM Instruction.
431602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    UpdateValueMap(I, ResultReg);
432602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    return true;
433d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  }
434d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
43510df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  // Check if the second operand is a constant float.
43610df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  if (ConstantFP *CF = dyn_cast<ConstantFP>(I->getOperand(1))) {
437ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    unsigned ResultReg = FastEmit_rf(VT.getSimpleVT(), VT.getSimpleVT(),
438a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                     ISDOpcode, Op0, Op0IsKill, CF);
439ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    if (ResultReg != 0) {
440ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman      // We successfully emitted code for the given LLVM Instruction.
4413df24e667f04a7003342b534310919abc9c87418Dan Gohman      UpdateValueMap(I, ResultReg);
442ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman      return true;
443ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    }
44410df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  }
44510df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman
4463df24e667f04a7003342b534310919abc9c87418Dan Gohman  unsigned Op1 = getRegForValue(I->getOperand(1));
447d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  if (Op1 == 0)
448d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman    // Unhandled operand. Halt "fast" selection and bail.
449bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman    return false;
450bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman
451a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool Op1IsKill = hasTrivialKill(I->getOperand(1));
452a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
453ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  // Now we have both operands in registers. Emit the instruction.
4540f84e4e31009eecf2dfcbe6113b65d0919f30254Owen Anderson  unsigned ResultReg = FastEmit_rr(VT.getSimpleVT(), VT.getSimpleVT(),
455a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   ISDOpcode,
456a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   Op0, Op0IsKill,
457a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   Op1, Op1IsKill);
458bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman  if (ResultReg == 0)
459bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman    // Target-specific code wasn't able to find a machine opcode for
460bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman    // the given ISD opcode and type. Halt "fast" selection and bail.
461bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman    return false;
462bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman
4638014e865800cc911697a4c0c42f077df9fcc9805Dan Gohman  // We successfully emitted code for the given LLVM Instruction.
4643df24e667f04a7003342b534310919abc9c87418Dan Gohman  UpdateValueMap(I, ResultReg);
465bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman  return true;
466bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman}
467bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman
46846510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanbool FastISel::SelectGetElementPtr(const User *I) {
4693df24e667f04a7003342b534310919abc9c87418Dan Gohman  unsigned N = getRegForValue(I->getOperand(0));
47083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  if (N == 0)
47183785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng    // Unhandled operand. Halt "fast" selection and bail.
47283785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng    return false;
47383785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
474a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool NIsKill = hasTrivialKill(I->getOperand(0));
475a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
476478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  // Keep a running tab of the total offset to coalesce multiple N = N + Offset
477478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  // into a single N = N + TotalOffset.
478478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  uint64_t TotalOffs = 0;
479478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  // FIXME: What's a good SWAG number for MaxOffs?
480478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  uint64_t MaxOffs = 2048;
481db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner  Type *Ty = I->getOperand(0)->getType();
482825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson  MVT VT = TLI.getPointerTy();
48346510a73e977273ec67747eb34cbdb43f815e451Dan Gohman  for (GetElementPtrInst::const_op_iterator OI = I->op_begin()+1,
48446510a73e977273ec67747eb34cbdb43f815e451Dan Gohman       E = I->op_end(); OI != E; ++OI) {
48546510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    const Value *Idx = *OI;
486db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner    if (StructType *StTy = dyn_cast<StructType>(Ty)) {
48783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      unsigned Field = cast<ConstantInt>(Idx)->getZExtValue();
48883785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      if (Field) {
48983785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        // N = N + Offset
490478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        TotalOffs += TD.getStructLayout(StTy)->getElementOffset(Field);
491478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        if (TotalOffs >= MaxOffs) {
492478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          N = FastEmit_ri_(VT, ISD::ADD, N, NIsKill, TotalOffs, VT);
493478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          if (N == 0)
494478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier            // Unhandled operand. Halt "fast" selection and bail.
495478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier            return false;
496478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          NIsKill = true;
497478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          TotalOffs = 0;
498478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        }
49983785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      }
50083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      Ty = StTy->getElementType(Field);
50183785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng    } else {
50283785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      Ty = cast<SequentialType>(Ty)->getElementType();
50383785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
50483785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      // If this is a constant subscript, handle it quickly.
50546510a73e977273ec67747eb34cbdb43f815e451Dan Gohman      if (const ConstantInt *CI = dyn_cast<ConstantInt>(Idx)) {
506e368b460a206fafa0d31d5d059b1779b94f7df8cDan Gohman        if (CI->isZero()) continue;
507478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        // N = N + Offset
5086016a4a1627726b7419e1c95c6c3e67138100d23Chad Rosier        TotalOffs +=
509777d2306b36816a53bc1ae1244c0dc7d998ae691Duncan Sands          TD.getTypeAllocSize(Ty)*cast<ConstantInt>(CI)->getSExtValue();
510478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        if (TotalOffs >= MaxOffs) {
511478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          N = FastEmit_ri_(VT, ISD::ADD, N, NIsKill, TotalOffs, VT);
512478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          if (N == 0)
513478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier            // Unhandled operand. Halt "fast" selection and bail.
514478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier            return false;
515478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          NIsKill = true;
516478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier          TotalOffs = 0;
517478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        }
518478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        continue;
519478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier      }
520478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier      if (TotalOffs) {
521478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        N = FastEmit_ri_(VT, ISD::ADD, N, NIsKill, TotalOffs, VT);
52283785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        if (N == 0)
52383785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng          // Unhandled operand. Halt "fast" selection and bail.
52483785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng          return false;
525a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman        NIsKill = true;
526478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier        TotalOffs = 0;
52783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      }
528bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
52983785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      // N = N + Idx * ElementSize;
530777d2306b36816a53bc1ae1244c0dc7d998ae691Duncan Sands      uint64_t ElementSize = TD.getTypeAllocSize(Ty);
531a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      std::pair<unsigned, bool> Pair = getRegForGEPIndex(Idx);
532a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      unsigned IdxN = Pair.first;
533a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      bool IdxNIsKill = Pair.second;
53483785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      if (IdxN == 0)
53583785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        // Unhandled operand. Halt "fast" selection and bail.
53683785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        return false;
53783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
53880bc6e2243b7ae99da42bf2e61df4ebccf8d8821Dan Gohman      if (ElementSize != 1) {
539a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman        IdxN = FastEmit_ri_(VT, ISD::MUL, IdxN, IdxNIsKill, ElementSize, VT);
54080bc6e2243b7ae99da42bf2e61df4ebccf8d8821Dan Gohman        if (IdxN == 0)
54180bc6e2243b7ae99da42bf2e61df4ebccf8d8821Dan Gohman          // Unhandled operand. Halt "fast" selection and bail.
54280bc6e2243b7ae99da42bf2e61df4ebccf8d8821Dan Gohman          return false;
543a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman        IdxNIsKill = true;
54480bc6e2243b7ae99da42bf2e61df4ebccf8d8821Dan Gohman      }
545a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      N = FastEmit_rr(VT, VT, ISD::ADD, N, NIsKill, IdxN, IdxNIsKill);
54683785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng      if (N == 0)
54783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        // Unhandled operand. Halt "fast" selection and bail.
54883785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng        return false;
54983785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng    }
55083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  }
551478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  if (TotalOffs) {
552478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier    N = FastEmit_ri_(VT, ISD::ADD, N, NIsKill, TotalOffs, VT);
553478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier    if (N == 0)
554478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier      // Unhandled operand. Halt "fast" selection and bail.
555478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier      return false;
556478b06c9801f0b75c5216ce0886ac3d630d4fc7bChad Rosier  }
55783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
55883785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  // We successfully emitted code for the given LLVM Instruction.
5593df24e667f04a7003342b534310919abc9c87418Dan Gohman  UpdateValueMap(I, N);
56083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  return true;
561bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman}
562bdedd4477331b3b0d28d74658baf05f675f2d195Dan Gohman
56346510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanbool FastISel::SelectCall(const User *I) {
564a61e73bda5125c28e48b52e573d115370838596bDan Gohman  const CallInst *Call = cast<CallInst>(I);
565a61e73bda5125c28e48b52e573d115370838596bDan Gohman
566a61e73bda5125c28e48b52e573d115370838596bDan Gohman  // Handle simple inline asms.
5679e15d658c99c3f0717cb83cc2bd2aa29abdbcdbbDan Gohman  if (const InlineAsm *IA = dyn_cast<InlineAsm>(Call->getCalledValue())) {
568a61e73bda5125c28e48b52e573d115370838596bDan Gohman    // Don't attempt to handle constraints.
569a61e73bda5125c28e48b52e573d115370838596bDan Gohman    if (!IA->getConstraintString().empty())
570a61e73bda5125c28e48b52e573d115370838596bDan Gohman      return false;
571a61e73bda5125c28e48b52e573d115370838596bDan Gohman
572a61e73bda5125c28e48b52e573d115370838596bDan Gohman    unsigned ExtraInfo = 0;
573a61e73bda5125c28e48b52e573d115370838596bDan Gohman    if (IA->hasSideEffects())
574a61e73bda5125c28e48b52e573d115370838596bDan Gohman      ExtraInfo |= InlineAsm::Extra_HasSideEffects;
575a61e73bda5125c28e48b52e573d115370838596bDan Gohman    if (IA->isAlignStack())
576a61e73bda5125c28e48b52e573d115370838596bDan Gohman      ExtraInfo |= InlineAsm::Extra_IsAlignStack;
577a61e73bda5125c28e48b52e573d115370838596bDan Gohman
578a61e73bda5125c28e48b52e573d115370838596bDan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL,
579a61e73bda5125c28e48b52e573d115370838596bDan Gohman            TII.get(TargetOpcode::INLINEASM))
580a61e73bda5125c28e48b52e573d115370838596bDan Gohman      .addExternalSymbol(IA->getAsmString().c_str())
581a61e73bda5125c28e48b52e573d115370838596bDan Gohman      .addImm(ExtraInfo);
582a61e73bda5125c28e48b52e573d115370838596bDan Gohman    return true;
583a61e73bda5125c28e48b52e573d115370838596bDan Gohman  }
584a61e73bda5125c28e48b52e573d115370838596bDan Gohman
585c9c137b463b953fbf8942f655d67f6dc1a0f7965Michael J. Spencer  MachineModuleInfo &MMI = FuncInfo.MF->getMMI();
586c9c137b463b953fbf8942f655d67f6dc1a0f7965Michael J. Spencer  ComputeUsesVAFloatArgument(*Call, &MMI);
587c9c137b463b953fbf8942f655d67f6dc1a0f7965Michael J. Spencer
588a61e73bda5125c28e48b52e573d115370838596bDan Gohman  const Function *F = Call->getCalledFunction();
58933134c4a75558288d663267c8991f6bd37a530afDan Gohman  if (!F) return false;
59033134c4a75558288d663267c8991f6bd37a530afDan Gohman
5914183e31978146ea529a87a2fc47b96aeb6cbe000Dan Gohman  // Handle selected intrinsic function calls.
592832e4943598d821687cec79f512803c1ca03cff7Chris Lattner  switch (F->getIntrinsicID()) {
59333134c4a75558288d663267c8991f6bd37a530afDan Gohman  default: break;
594aefd36bdda0dac496b8acabb25f0de29b370ebcaChad Rosier    // At -O0 we don't care about the lifetime intrinsics.
5959b5d6b860c7264e1dd8c5b757dfb4458dccdc27eEric Christopher  case Intrinsic::lifetime_start:
5969b5d6b860c7264e1dd8c5b757dfb4458dccdc27eEric Christopher  case Intrinsic::lifetime_end:
597fd065bbed1d731b49b1b4a5c4c050ce461be80b4Chad Rosier    // The donothing intrinsic does, well, nothing.
598fd065bbed1d731b49b1b4a5c4c050ce461be80b4Chad Rosier  case Intrinsic::donothing:
5999b5d6b860c7264e1dd8c5b757dfb4458dccdc27eEric Christopher    return true;
600fd065bbed1d731b49b1b4a5c4c050ce461be80b4Chad Rosier
60192c1e126473dfa93eeb4c9a124af4fedb40f0d5bBill Wendling  case Intrinsic::dbg_declare: {
602a61e73bda5125c28e48b52e573d115370838596bDan Gohman    const DbgDeclareInst *DI = cast<DbgDeclareInst>(Call);
603cbafae6d33031a72ba8219c28cb0e852511f79a3Manman Ren    DIVariable DIVar(DI->getVariable());
604cbafae6d33031a72ba8219c28cb0e852511f79a3Manman Ren    assert((!DIVar || DIVar.isVariable()) &&
605cbafae6d33031a72ba8219c28cb0e852511f79a3Manman Ren      "Variable in DbgDeclareInst should be either null or a DIVariable.");
606cbafae6d33031a72ba8219c28cb0e852511f79a3Manman Ren    if (!DIVar ||
607bb54d21495ba5ce60931bc872e3e3df67386cb97Eric Christopher        !FuncInfo.MF->getMMI().hasDebugInfo()) {
608bb54d21495ba5ce60931bc872e3e3df67386cb97Eric Christopher      DEBUG(dbgs() << "Dropping debug info for " << *DI << "\n");
6097e1e31f467d87c834d8baf673929865907901313Devang Patel      return true;
610bb54d21495ba5ce60931bc872e3e3df67386cb97Eric Christopher    }
61192c1e126473dfa93eeb4c9a124af4fedb40f0d5bBill Wendling
61246510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    const Value *Address = DI->getAddress();
613ccaea7dc0bbc75e5d4ee92fb8cc6af0f928d056fEric Christopher    if (!Address || isa<UndefValue>(Address)) {
614bb54d21495ba5ce60931bc872e3e3df67386cb97Eric Christopher      DEBUG(dbgs() << "Dropping debug info for " << *DI << "\n");
615dc9185657593b5c1db86cb95a04a68fc09194993Dale Johannesen      return true;
616bb54d21495ba5ce60931bc872e3e3df67386cb97Eric Christopher    }
6176fe75aaaeb6b0587d402228ba291c729a13eb6d7Devang Patel
6186d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    Optional<MachineOperand> Op;
6196d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    if (const Argument *Arg = dyn_cast<Argument>(Address))
6209aee335c23bec4f6d1b2cab3bca76231d7b0d556Devang Patel      // Some arguments' frame index is recorded during argument lowering.
6216d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie      if (int FI = FuncInfo.getArgumentFrameIndex(Arg))
6226d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie        Op = MachineOperand::CreateFI(FI);
6236d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    if (!Op)
6246d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie      if (unsigned Reg = lookUpRegForValue(Address))
6256d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie        Op = MachineOperand::CreateReg(Reg, false);
6268c5293c9556317143505c085cf428e11962e1273Eric Christopher
62784364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    // If we have a VLA that has a "use" in a metadata node that's then used
62884364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    // here but it has no other uses, then we have a problem. E.g.,
62984364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //
63084364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //   int foo (const int *x) {
63184364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //     char a[*x];
63284364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //     return 0;
63384364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //   }
63484364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    //
63584364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    // If we assign 'a' a vreg and fast isel later on has to use the selection
63684364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    // DAG isel, it will want to copy the value to the vreg. However, there are
63784364a4e23e8ba2fe9332da99bcab31acc173381Bill Wendling    // no uses, which goes counter to what selection DAG isel expects.
6386d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    if (!Op && !Address->use_empty() && isa<Instruction>(Address) &&
6398c5293c9556317143505c085cf428e11962e1273Eric Christopher        (!isa<AllocaInst>(Address) ||
6408c5293c9556317143505c085cf428e11962e1273Eric Christopher         !FuncInfo.StaticAllocaMap.count(cast<AllocaInst>(Address))))
6416d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie      Op = MachineOperand::CreateReg(FuncInfo.InitializeRegForValue(Address),
6426d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie                                      false);
6436d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie
6446d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    if (Op && Op->isReg())
6456d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie      Op->setIsDebug(true);
646bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
6476d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie    if (Op)
64886a87d9ba1faf153e0e6eaddfd3e95595c83bcb1Adrian Prantl      BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL,
6496d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie              TII.get(TargetOpcode::DBG_VALUE)).addOperand(*Op).addImm(0)
6506d9dbd5526e3161db884fc4fe99c278bb59ccc19David Blaikie          .addMetadata(DI->getVariable());
65186a87d9ba1faf153e0e6eaddfd3e95595c83bcb1Adrian Prantl    else
6524476bae1b42bdc7d2c87c0524148d6ad9224357bEric Christopher      // We can't yet handle anything else here because it would require
6534476bae1b42bdc7d2c87c0524148d6ad9224357bEric Christopher      // generating code, thus altering codegen because of debug info.
6545da4e4f3b10148e811de82ec57b3f82c15411a81Adrian Prantl      DEBUG(dbgs() << "Dropping debug info for " << *DI << "\n");
65533134c4a75558288d663267c8991f6bd37a530afDan Gohman    return true;
65692c1e126473dfa93eeb4c9a124af4fedb40f0d5bBill Wendling  }
65745df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen  case Intrinsic::dbg_value: {
658343b42e428079363ab09828734b2debfd7dbdc9eDale Johannesen    // This form of DBG_VALUE is target-independent.
659a61e73bda5125c28e48b52e573d115370838596bDan Gohman    const DbgValueInst *DI = cast<DbgValueInst>(Call);
660e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng    const MCInstrDesc &II = TII.get(TargetOpcode::DBG_VALUE);
66146510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    const Value *V = DI->getValue();
66245df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen    if (!V) {
66345df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen      // Currently the optimizer can produce this; insert an undef to
66445df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen      // help debugging.  Probably the optimizer should not do this.
66584023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman      BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
66684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman        .addReg(0U).addImm(DI->getOffset())
66784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman        .addMetadata(DI->getVariable());
66846510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    } else if (const ConstantInt *CI = dyn_cast<ConstantInt>(V)) {
6698594d429e02c688d428036f8563f09572da3fbffDevang Patel      if (CI->getBitWidth() > 64)
6708594d429e02c688d428036f8563f09572da3fbffDevang Patel        BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
6718594d429e02c688d428036f8563f09572da3fbffDevang Patel          .addCImm(CI).addImm(DI->getOffset())
6728594d429e02c688d428036f8563f09572da3fbffDevang Patel          .addMetadata(DI->getVariable());
6736016a4a1627726b7419e1c95c6c3e67138100d23Chad Rosier      else
6748594d429e02c688d428036f8563f09572da3fbffDevang Patel        BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
6758594d429e02c688d428036f8563f09572da3fbffDevang Patel          .addImm(CI->getZExtValue()).addImm(DI->getOffset())
6768594d429e02c688d428036f8563f09572da3fbffDevang Patel          .addMetadata(DI->getVariable());
67746510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    } else if (const ConstantFP *CF = dyn_cast<ConstantFP>(V)) {
67884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman      BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
67984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman        .addFPImm(CF).addImm(DI->getOffset())
68084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman        .addMetadata(DI->getVariable());
68145df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen    } else if (unsigned Reg = lookUpRegForValue(V)) {
68286a87d9ba1faf153e0e6eaddfd3e95595c83bcb1Adrian Prantl      BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
68386a87d9ba1faf153e0e6eaddfd3e95595c83bcb1Adrian Prantl        .addReg(Reg, RegState::Debug).addImm(DI->getOffset())
68486a87d9ba1faf153e0e6eaddfd3e95595c83bcb1Adrian Prantl        .addMetadata(DI->getVariable());
68545df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen    } else {
68645df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen      // We can't yet handle anything else here because it would require
68745df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen      // generating code, thus altering codegen because of debug info.
6885da4e4f3b10148e811de82ec57b3f82c15411a81Adrian Prantl      DEBUG(dbgs() << "Dropping debug info for " << *DI << "\n");
689bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck    }
69045df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen    return true;
69145df7616528e3d101c5b2938bd4d865321205d33Dale Johannesen  }
692d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman  case Intrinsic::objectsize: {
693d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    ConstantInt *CI = cast<ConstantInt>(Call->getArgOperand(1));
694d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    unsigned long long Res = CI->isZero() ? -1ULL : 0;
695d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    Constant *ResCI = ConstantInt::get(Call->getType(), Res);
696d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    unsigned ResultReg = getRegForValue(ResCI);
697d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    if (ResultReg == 0)
698d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman      return false;
699d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    UpdateValueMap(Call, ResultReg);
700d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman    return true;
701d0118a2371f35faa6af97e67be69e1debc615c42Eli Friedman  }
70233947b4391458ed3ba2d7e7c741968325cbffa1dChad Rosier  case Intrinsic::expect: {
7034fde76db466a749200af555b0f400af873111767Chad Rosier    unsigned ResultReg = getRegForValue(Call->getArgOperand(0));
70433cdfe9f1943418604be5c800800394ae809fc4cNick Lewycky    if (ResultReg == 0)
70533cdfe9f1943418604be5c800800394ae809fc4cNick Lewycky      return false;
7064fde76db466a749200af555b0f400af873111767Chad Rosier    UpdateValueMap(Call, ResultReg);
7074fde76db466a749200af555b0f400af873111767Chad Rosier    return true;
70833947b4391458ed3ba2d7e7c741968325cbffa1dChad Rosier  }
70933134c4a75558288d663267c8991f6bd37a530afDan Gohman  }
7104183e31978146ea529a87a2fc47b96aeb6cbe000Dan Gohman
71174af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // Usually, it does not make sense to initialize a value,
71274af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // make an unrelated function call and use the value, because
71374af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // it tends to be spilled on the stack. So, we move the pointer
71474af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // to the last local value to the beginning of the block, so that
71574af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // all the values which have already been materialized,
71674af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // appear after the call. It also makes sense to skip intrinsics
71774af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin  // since they tend to be inlined.
718b704ffbb46cae716dc51bd8e6ba425c0a4949a47Pete Cooper  if (!isa<IntrinsicInst>(Call))
71974af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin    flushLocalValueMap();
72074af88a6661ad5185924bf39164fb4aa144d32cfIvan Krasin
7214183e31978146ea529a87a2fc47b96aeb6cbe000Dan Gohman  // An arbitrary call. Bail.
72233134c4a75558288d663267c8991f6bd37a530afDan Gohman  return false;
72333134c4a75558288d663267c8991f6bd37a530afDan Gohman}
72433134c4a75558288d663267c8991f6bd37a530afDan Gohman
72546510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanbool FastISel::SelectCast(const User *I, unsigned Opcode) {
726e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson  EVT SrcVT = TLI.getValueType(I->getOperand(0)->getType());
727e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson  EVT DstVT = TLI.getValueType(I->getType());
728bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
729825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson  if (SrcVT == MVT::Other || !SrcVT.isSimple() ||
730825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Anderson      DstVT == MVT::Other || !DstVT.isSimple())
731d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    // Unhandled type. Halt "fast" selection and bail.
732d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
733bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
73476927d7303046058c627691bd45d6bff608f49f4Eli Friedman  // Check if the destination type is legal.
735474d3b3f40e117a66946e9fb9d2016b4c05caef0Dan Gohman  if (!TLI.isTypeLegal(DstVT))
73676927d7303046058c627691bd45d6bff608f49f4Eli Friedman    return false;
737474d3b3f40e117a66946e9fb9d2016b4c05caef0Dan Gohman
73876927d7303046058c627691bd45d6bff608f49f4Eli Friedman  // Check if the source operand is legal.
739474d3b3f40e117a66946e9fb9d2016b4c05caef0Dan Gohman  if (!TLI.isTypeLegal(SrcVT))
74076927d7303046058c627691bd45d6bff608f49f4Eli Friedman    return false;
741474d3b3f40e117a66946e9fb9d2016b4c05caef0Dan Gohman
7423df24e667f04a7003342b534310919abc9c87418Dan Gohman  unsigned InputReg = getRegForValue(I->getOperand(0));
743d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson  if (!InputReg)
744d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    // Unhandled operand.  Halt "fast" selection and bail.
745d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
74614ea1ec2324cb595f2e035bbf54ddcd483f17c11Dan Gohman
747a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool InputRegIsKill = hasTrivialKill(I->getOperand(0));
748a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
749d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson  unsigned ResultReg = FastEmit_r(SrcVT.getSimpleVT(),
750d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson                                  DstVT.getSimpleVT(),
751d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson                                  Opcode,
752a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                  InputReg, InputRegIsKill);
753d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson  if (!ResultReg)
754d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
755bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
7563df24e667f04a7003342b534310919abc9c87418Dan Gohman  UpdateValueMap(I, ResultReg);
757d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson  return true;
758d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson}
759d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson
76046510a73e977273ec67747eb34cbdb43f815e451Dan Gohmanbool FastISel::SelectBitCast(const User *I) {
761ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  // If the bitcast doesn't change the type, just use the operand value.
762ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  if (I->getType() == I->getOperand(0)->getType()) {
7633df24e667f04a7003342b534310919abc9c87418Dan Gohman    unsigned Reg = getRegForValue(I->getOperand(0));
764a318dabc0edbcc7a2b54d99b026a093361ec14fcDan Gohman    if (Reg == 0)
765a318dabc0edbcc7a2b54d99b026a093361ec14fcDan Gohman      return false;
7663df24e667f04a7003342b534310919abc9c87418Dan Gohman    UpdateValueMap(I, Reg);
767ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    return true;
768ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  }
769ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman
770bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck  // Bitcasts of other values become reg-reg copies or BITCAST operators.
7713d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund  EVT SrcEVT = TLI.getValueType(I->getOperand(0)->getType());
7723d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund  EVT DstEVT = TLI.getValueType(I->getType());
7733d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund  if (SrcEVT == MVT::Other || DstEVT == MVT::Other ||
7743d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund      !TLI.isTypeLegal(SrcEVT) || !TLI.isTypeLegal(DstEVT))
775d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    // Unhandled type. Halt "fast" selection and bail.
776d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
777bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
7783d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund  MVT SrcVT = SrcEVT.getSimpleVT();
7793d170e64ca1af491e2aa58f882f93b8e8111eef8Patrik Hagglund  MVT DstVT = DstEVT.getSimpleVT();
7803df24e667f04a7003342b534310919abc9c87418Dan Gohman  unsigned Op0 = getRegForValue(I->getOperand(0));
781ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  if (Op0 == 0)
782ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman    // Unhandled operand. Halt "fast" selection and bail.
783d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
784a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
785a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool Op0IsKill = hasTrivialKill(I->getOperand(0));
786bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
787ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  // First, try to perform the bitcast by inserting a reg-reg copy.
788ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  unsigned ResultReg = 0;
789a61b17c18a67f1b3faef2f2108379c4337ce9bb7Patrik Hagglund  if (SrcVT == DstVT) {
79044d23825d61d530b8d562329ec8fc2d4f843bb8dCraig Topper    const TargetRegisterClass* SrcClass = TLI.getRegClassFor(SrcVT);
79144d23825d61d530b8d562329ec8fc2d4f843bb8dCraig Topper    const TargetRegisterClass* DstClass = TLI.getRegClassFor(DstVT);
792e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen    // Don't attempt a cross-class copy. It will likely fail.
793e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen    if (SrcClass == DstClass) {
794e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen      ResultReg = createResultReg(DstClass);
795e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen      BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
796e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen              ResultReg).addReg(Op0);
797e7917bb207d5178dfb26066f839e4c295fd3a1ebJakob Stoklund Olesen    }
798ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  }
799bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
800bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck  // If the reg-reg copy failed, select a BITCAST opcode.
801ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  if (!ResultReg)
802a61b17c18a67f1b3faef2f2108379c4337ce9bb7Patrik Hagglund    ResultReg = FastEmit_r(SrcVT, DstVT, ISD::BITCAST, Op0, Op0IsKill);
803bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
804ad368ac2b5f303050e9aaa357e2b806fae38f81bDan Gohman  if (!ResultReg)
805d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson    return false;
806bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
8073df24e667f04a7003342b534310919abc9c87418Dan Gohman  UpdateValueMap(I, ResultReg);
808d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson  return true;
809d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson}
810d0533c9998d3baf41848ba559a9b2f2c65296d14Owen Anderson
8113df24e667f04a7003342b534310919abc9c87418Dan Gohmanbool
81246510a73e977273ec67747eb34cbdb43f815e451Dan GohmanFastISel::SelectInstruction(const Instruction *I) {
813e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman  // Just before the terminator instruction, insert instructions to
814e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman  // feed PHI nodes in successor blocks.
815e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman  if (isa<TerminatorInst>(I))
816e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman    if (!HandlePHINodesInSuccessorBlocks(I->getParent()))
817e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman      return false;
818e8c92dd439581bec7e3516cbdbea74e2e60fe7f0Dan Gohman
8198ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman  DL = I->getDebugLoc();
8208ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman
821ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  MachineBasicBlock::iterator SavedInsertPt = FuncInfo.InsertPt;
822ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier
823982dc84762fc0c2ca35e6947d648a690dd22343cBob Wilson  // As a special case, don't handle calls to builtin library functions that
824982dc84762fc0c2ca35e6947d648a690dd22343cBob Wilson  // may be translated directly to target instructions.
825d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson  if (const CallInst *Call = dyn_cast<CallInst>(I)) {
826d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson    const Function *F = Call->getCalledFunction();
827d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson    LibFunc::Func Func;
828d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson    if (F && !F->hasLocalLinkage() && F->hasName() &&
829d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson        LibInfo->getLibFunc(F->getName(), Func) &&
830982dc84762fc0c2ca35e6947d648a690dd22343cBob Wilson        LibInfo->hasOptimizedCodeGen(Func))
831d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson      return false;
832d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson  }
833d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson
8346e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman  // First, try doing target-independent selection.
8357dbd34b199be8d053240a67cc1e81a04096af1c2Michael Ilseman  if (SelectOperator(I, I->getOpcode())) {
836fa785cb22d50c657eb08c762d627cd6aa96982f3Jan Wen Voung    ++NumFastIselSuccessIndependent;
8378ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman    DL = DebugLoc();
8386e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman    return true;
8398ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman  }
8406016a4a1627726b7419e1c95c6c3e67138100d23Chad Rosier  // Remove dead code.  However, ignore call instructions since we've flushed
841ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  // the local value map and recomputed the insert point.
842ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  if (!isa<CallInst>(I)) {
843ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    recomputeInsertPt();
844ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    if (SavedInsertPt != FuncInfo.InsertPt)
845ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier      removeDeadCode(FuncInfo.InsertPt, SavedInsertPt);
846ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  }
8476e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman
8486e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman  // Next, try calling the target to attempt to handle the instruction.
849ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  SavedInsertPt = FuncInfo.InsertPt;
8508ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman  if (TargetSelectInstruction(I)) {
851fa785cb22d50c657eb08c762d627cd6aa96982f3Jan Wen Voung    ++NumFastIselSuccessTarget;
8528ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman    DL = DebugLoc();
8536e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman    return true;
8548ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman  }
855ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  // Check for dead code and remove as necessary.
856ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  recomputeInsertPt();
857ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier  if (SavedInsertPt != FuncInfo.InsertPt)
858ae6f2cb1fc520aa56777dab1e7603aee9429f6ddChad Rosier    removeDeadCode(FuncInfo.InsertPt, SavedInsertPt);
8596e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman
8608ba3aa7f9c5048c31172788f98ad2b90ffad565aDan Gohman  DL = DebugLoc();
8616e3ff375474c4fd78feb0b8463eb273a23cb4404Dan Gohman  return false;
86240b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman}
86340b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman
864d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman/// FastEmitBranch - Emit an unconditional branch to the given block,
865d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman/// unless it is the immediate (fall-through) successor, and update
866d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman/// the CFG.
867d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohmanvoid
8683bf912593301152b65accb9d9c37a95172f1df5aStuart HastingsFastISel::FastEmitBranch(MachineBasicBlock *MSucc, DebugLoc DL) {
86918112d83e7d54597bcd5870fb411c7997e02bc1eEric Christopher
870092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  if (FuncInfo.MBB->getBasicBlock()->size() > 1 &&
871092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng      FuncInfo.MBB->isLayoutSuccessor(MSucc)) {
87218112d83e7d54597bcd5870fb411c7997e02bc1eEric Christopher    // For more accurate line information if this is the only instruction
87318112d83e7d54597bcd5870fb411c7997e02bc1eEric Christopher    // in the block then emit it, otherwise we have the unconditional
87418112d83e7d54597bcd5870fb411c7997e02bc1eEric Christopher    // fall-through case, which needs no instructions.
875d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman  } else {
876d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman    // The unconditional branch case.
87784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    TII.InsertBranch(*FuncInfo.MBB, MSucc, NULL,
87884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman                     SmallVector<MachineOperand, 0>(), DL);
879d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman  }
88084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  FuncInfo.MBB->addSuccessor(MSucc);
881d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman}
882d98d6203e429b2d7208b6687931e9079e85e95ecDan Gohman
8833d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman/// SelectFNeg - Emit an FNeg operation.
8843d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman///
8853d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohmanbool
88646510a73e977273ec67747eb34cbdb43f815e451Dan GohmanFastISel::SelectFNeg(const User *I) {
8873d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  unsigned OpReg = getRegForValue(BinaryOperator::getFNegArgument(I));
8883d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  if (OpReg == 0) return false;
8893d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman
890a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  bool OpRegIsKill = hasTrivialKill(I);
891a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman
8924a215a13c3035a8818254b61267be77def4a2a37Dan Gohman  // If the target has ISD::FNEG, use it.
8934a215a13c3035a8818254b61267be77def4a2a37Dan Gohman  EVT VT = TLI.getValueType(I->getType());
8944a215a13c3035a8818254b61267be77def4a2a37Dan Gohman  unsigned ResultReg = FastEmit_r(VT.getSimpleVT(), VT.getSimpleVT(),
895a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                  ISD::FNEG, OpReg, OpRegIsKill);
8964a215a13c3035a8818254b61267be77def4a2a37Dan Gohman  if (ResultReg != 0) {
8974a215a13c3035a8818254b61267be77def4a2a37Dan Gohman    UpdateValueMap(I, ResultReg);
8984a215a13c3035a8818254b61267be77def4a2a37Dan Gohman    return true;
8994a215a13c3035a8818254b61267be77def4a2a37Dan Gohman  }
9004a215a13c3035a8818254b61267be77def4a2a37Dan Gohman
9015e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  // Bitcast the value to integer, twiddle the sign bit with xor,
9025e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  // and then bitcast it back to floating-point.
9033d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  if (VT.getSizeInBits() > 64) return false;
9045e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  EVT IntVT = EVT::getIntegerVT(I->getContext(), VT.getSizeInBits());
9055e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  if (!TLI.isTypeLegal(IntVT))
9065e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman    return false;
9075e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman
9085e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  unsigned IntReg = FastEmit_r(VT.getSimpleVT(), IntVT.getSimpleVT(),
909bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck                               ISD::BITCAST, OpReg, OpRegIsKill);
9105e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  if (IntReg == 0)
9115e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman    return false;
9125e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman
913a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  unsigned IntResultReg = FastEmit_ri_(IntVT.getSimpleVT(), ISD::XOR,
914a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                       IntReg, /*Kill=*/true,
9155e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman                                       UINT64_C(1) << (VT.getSizeInBits()-1),
9165e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman                                       IntVT.getSimpleVT());
9175e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  if (IntResultReg == 0)
9185e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman    return false;
9195e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman
9205e5abb77fe9eeb92a55f119fdb721bca4508094aDan Gohman  ResultReg = FastEmit_r(IntVT.getSimpleVT(), VT.getSimpleVT(),
921bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck                         ISD::BITCAST, IntResultReg, /*Kill=*/true);
9223d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  if (ResultReg == 0)
9233d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman    return false;
9243d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman
9253d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  UpdateValueMap(I, ResultReg);
9263d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman  return true;
9273d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman}
9283d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman
92940b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohmanbool
9302586b8f9366aed5a1efa44d3f18d095511601642Eli FriedmanFastISel::SelectExtractValue(const User *U) {
9312586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  const ExtractValueInst *EVI = dyn_cast<ExtractValueInst>(U);
932a4c920db7a3620f365144eac9aaad7ca23062caaEli Friedman  if (!EVI)
9332586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    return false;
9342586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
935482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman  // Make sure we only try to handle extracts with a legal result.  But also
936482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman  // allow i1 because it's easy.
9372586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  EVT RealVT = TLI.getValueType(EVI->getType(), /*AllowUnknown=*/true);
9382586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  if (!RealVT.isSimple())
9392586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    return false;
9402586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  MVT VT = RealVT.getSimpleVT();
941482feb33b2bba677d47bab859d9e1e95d67016bdEli Friedman  if (!TLI.isTypeLegal(VT) && VT != MVT::i1)
9422586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    return false;
9432586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9442586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  const Value *Op0 = EVI->getOperand(0);
945db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner  Type *AggTy = Op0->getType();
9462586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9472586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  // Get the base result register.
9482586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  unsigned ResultReg;
9492586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  DenseMap<const Value *, unsigned>::iterator I = FuncInfo.ValueMap.find(Op0);
9502586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  if (I != FuncInfo.ValueMap.end())
9512586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    ResultReg = I->second;
9520b4d96baecf3fe6af0fd45ba815bacf91a017f97Eli Friedman  else if (isa<Instruction>(Op0))
9532586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    ResultReg = FuncInfo.InitializeRegForValue(Op0);
9540b4d96baecf3fe6af0fd45ba815bacf91a017f97Eli Friedman  else
9550b4d96baecf3fe6af0fd45ba815bacf91a017f97Eli Friedman    return false; // fast-isel can't handle aggregate constants at the moment
9562586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9572586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  // Get the actual result register, which is an offset from the base register.
958fc6d3a49867cd38954dc40936a88f1907252c6d2Jay Foad  unsigned VTIndex = ComputeLinearIndex(AggTy, EVI->getIndices());
9592586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9602586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  SmallVector<EVT, 4> AggValueVTs;
9612586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  ComputeValueVTs(TLI, AggTy, AggValueVTs);
9622586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9632586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  for (unsigned i = 0; i < VTIndex; i++)
9642586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    ResultReg += TLI.getNumRegisters(FuncInfo.Fn->getContext(), AggValueVTs[i]);
9652586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9662586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  UpdateValueMap(EVI, ResultReg);
9672586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  return true;
9682586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman}
9692586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
9702586b8f9366aed5a1efa44d3f18d095511601642Eli Friedmanbool
97146510a73e977273ec67747eb34cbdb43f815e451Dan GohmanFastISel::SelectOperator(const User *I, unsigned Opcode) {
97240b189e4e257924d90aaf63bf2e12bc7bbca961aDan Gohman  switch (Opcode) {
973ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::Add:
974ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::ADD);
975ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::FAdd:
976ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::FADD);
977ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::Sub:
978ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::SUB);
979ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::FSub:
9803d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman    // FNeg is currently represented in LLVM IR as a special case of FSub.
9813d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman    if (BinaryOperator::isFNeg(I))
9823d45a853db014fdddcdb79424e663dfed5eccbc7Dan Gohman      return SelectFNeg(I);
983ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::FSUB);
984ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::Mul:
985ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::MUL);
986ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman  case Instruction::FMul:
987ae3a0be92e33bc716722aa600983fc1535acb122Dan Gohman    return SelectBinaryOp(I, ISD::FMUL);
9883df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::SDiv:
9893df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::SDIV);
9903df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::UDiv:
9913df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::UDIV);
9923df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::FDiv:
9933df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::FDIV);
9943df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::SRem:
9953df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::SREM);
9963df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::URem:
9973df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::UREM);
9983df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::FRem:
9993df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::FREM);
10003df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::Shl:
10013df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::SHL);
10023df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::LShr:
10033df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::SRL);
10043df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::AShr:
10053df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::SRA);
10063df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::And:
10073df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::AND);
10083df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::Or:
10093df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::OR);
10103df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::Xor:
10113df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBinaryOp(I, ISD::XOR);
10123df24e667f04a7003342b534310919abc9c87418Dan Gohman
10133df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::GetElementPtr:
10143df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectGetElementPtr(I);
10153df24e667f04a7003342b534310919abc9c87418Dan Gohman
10163df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::Br: {
101746510a73e977273ec67747eb34cbdb43f815e451Dan Gohman    const BranchInst *BI = cast<BranchInst>(I);
10183df24e667f04a7003342b534310919abc9c87418Dan Gohman
10193df24e667f04a7003342b534310919abc9c87418Dan Gohman    if (BI->isUnconditional()) {
102046510a73e977273ec67747eb34cbdb43f815e451Dan Gohman      const BasicBlock *LLVMSucc = BI->getSuccessor(0);
1021a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman      MachineBasicBlock *MSucc = FuncInfo.MBBMap[LLVMSucc];
10223bf912593301152b65accb9d9c37a95172f1df5aStuart Hastings      FastEmitBranch(MSucc, BI->getDebugLoc());
10233df24e667f04a7003342b534310919abc9c87418Dan Gohman      return true;
10249d5b41624003daf259b33fc953aa471049700353Owen Anderson    }
10253df24e667f04a7003342b534310919abc9c87418Dan Gohman
10263df24e667f04a7003342b534310919abc9c87418Dan Gohman    // Conditional branches are not handed yet.
10273df24e667f04a7003342b534310919abc9c87418Dan Gohman    // Halt "fast" selection and bail.
10283df24e667f04a7003342b534310919abc9c87418Dan Gohman    return false;
1029b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  }
1030b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1031087c8507e592bbbede1746f07bd44b28559e3684Dan Gohman  case Instruction::Unreachable:
1032087c8507e592bbbede1746f07bd44b28559e3684Dan Gohman    // Nothing to emit.
1033087c8507e592bbbede1746f07bd44b28559e3684Dan Gohman    return true;
1034087c8507e592bbbede1746f07bd44b28559e3684Dan Gohman
10350586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman  case Instruction::Alloca:
10360586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman    // FunctionLowering has the static-sized case covered.
1037a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    if (FuncInfo.StaticAllocaMap.count(cast<AllocaInst>(I)))
10380586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman      return true;
10390586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman
10400586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman    // Dynamic-sized alloca is not handled yet.
10410586d91bb3e516d5826826522d9a90ed6ef74d86Dan Gohman    return false;
1042bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
104333134c4a75558288d663267c8991f6bd37a530afDan Gohman  case Instruction::Call:
104433134c4a75558288d663267c8991f6bd37a530afDan Gohman    return SelectCall(I);
1045bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
10463df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::BitCast:
10473df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectBitCast(I);
10483df24e667f04a7003342b534310919abc9c87418Dan Gohman
10493df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::FPToSI:
10503df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectCast(I, ISD::FP_TO_SINT);
10513df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::ZExt:
10523df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectCast(I, ISD::ZERO_EXTEND);
10533df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::SExt:
10543df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectCast(I, ISD::SIGN_EXTEND);
10553df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::Trunc:
10563df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectCast(I, ISD::TRUNCATE);
10573df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::SIToFP:
10583df24e667f04a7003342b534310919abc9c87418Dan Gohman    return SelectCast(I, ISD::SINT_TO_FP);
10593df24e667f04a7003342b534310919abc9c87418Dan Gohman
10603df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::IntToPtr: // Deliberate fall-through.
10613df24e667f04a7003342b534310919abc9c87418Dan Gohman  case Instruction::PtrToInt: {
1062e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson    EVT SrcVT = TLI.getValueType(I->getOperand(0)->getType());
1063e50ed30282bb5b4a9ed952580523f2dda16215acOwen Anderson    EVT DstVT = TLI.getValueType(I->getType());
10643df24e667f04a7003342b534310919abc9c87418Dan Gohman    if (DstVT.bitsGT(SrcVT))
10653df24e667f04a7003342b534310919abc9c87418Dan Gohman      return SelectCast(I, ISD::ZERO_EXTEND);
10663df24e667f04a7003342b534310919abc9c87418Dan Gohman    if (DstVT.bitsLT(SrcVT))
10673df24e667f04a7003342b534310919abc9c87418Dan Gohman      return SelectCast(I, ISD::TRUNCATE);
10683df24e667f04a7003342b534310919abc9c87418Dan Gohman    unsigned Reg = getRegForValue(I->getOperand(0));
10693df24e667f04a7003342b534310919abc9c87418Dan Gohman    if (Reg == 0) return false;
10703df24e667f04a7003342b534310919abc9c87418Dan Gohman    UpdateValueMap(I, Reg);
10713df24e667f04a7003342b534310919abc9c87418Dan Gohman    return true;
10723df24e667f04a7003342b534310919abc9c87418Dan Gohman  }
1073d57dd5f4e6740520820bc0fca42a540e31c27a73Dan Gohman
10742586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman  case Instruction::ExtractValue:
10752586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman    return SelectExtractValue(I);
10762586b8f9366aed5a1efa44d3f18d095511601642Eli Friedman
1077ba5be5c07bb19dcf484e3aa40cd139dd07c10407Dan Gohman  case Instruction::PHI:
1078ba5be5c07bb19dcf484e3aa40cd139dd07c10407Dan Gohman    llvm_unreachable("FastISel shouldn't visit PHI nodes!");
1079ba5be5c07bb19dcf484e3aa40cd139dd07c10407Dan Gohman
10803df24e667f04a7003342b534310919abc9c87418Dan Gohman  default:
10813df24e667f04a7003342b534310919abc9c87418Dan Gohman    // Unhandled instruction. Halt "fast" selection and bail.
10823df24e667f04a7003342b534310919abc9c87418Dan Gohman    return false;
10833df24e667f04a7003342b534310919abc9c87418Dan Gohman  }
1084b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1085b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1086d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob WilsonFastISel::FastISel(FunctionLoweringInfo &funcInfo,
1087d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson                   const TargetLibraryInfo *libInfo)
108884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  : FuncInfo(funcInfo),
1089a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    MRI(FuncInfo.MF->getRegInfo()),
1090a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    MFI(*FuncInfo.MF->getFrameInfo()),
1091a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    MCP(*FuncInfo.MF->getConstantPool()),
1092a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    TM(FuncInfo.MF->getTarget()),
10933574eca1b02600bac4e625297f4ecf745f4c4f32Micah Villmow    TD(*TM.getDataLayout()),
109422bb31103de3337f0bb74c7bee16d1817d4dca14Dan Gohman    TII(*TM.getInstrInfo()),
1095a7a0ed79012ea36f838239cf1d04959711aec2a9Dan Gohman    TLI(*TM.getTargetLowering()),
1096d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson    TRI(*TM.getRegisterInfo()),
1097d49edb7ab098fa0c82f59efbcf1b4eb2958f8dc3Bob Wilson    LibInfo(libInfo) {
1098bb466331e7e50d03497ce40ee344870236fd9c32Dan Gohman}
1099bb466331e7e50d03497ce40ee344870236fd9c32Dan Gohman
1100e285a74f7cf9dd3ccf4fe758576cf83301f8a43eDan GohmanFastISel::~FastISel() {}
1101e285a74f7cf9dd3ccf4fe758576cf83301f8a43eDan Gohman
1102092e5e75661fdd5d54a748fb00fab59d21031268Evan Chengbool FastISel::FastLowerArguments() {
1103092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng  return false;
1104092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng}
1105092e5e75661fdd5d54a748fb00fab59d21031268Evan Cheng
1106825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_(MVT, MVT,
11077c3ecb6838ef7a2ca306c0f3cd68022f0855ae71Dan Gohman                             unsigned) {
1108b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return 0;
1109b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1110b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1111825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_r(MVT, MVT,
1112a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                              unsigned,
1113a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                              unsigned /*Op0*/, bool /*Op0IsKill*/) {
1114b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return 0;
1115b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1116b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1117bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peckunsigned FastISel::FastEmit_rr(MVT, MVT,
1118a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned,
1119a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned /*Op0*/, bool /*Op0IsKill*/,
1120a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned /*Op1*/, bool /*Op1IsKill*/) {
1121b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return 0;
1122b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1123b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
11247c3ecb6838ef7a2ca306c0f3cd68022f0855ae71Dan Gohmanunsigned FastISel::FastEmit_i(MVT, MVT, unsigned, uint64_t /*Imm*/) {
112583785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  return 0;
112683785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng}
112783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
1128825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_f(MVT, MVT,
112946510a73e977273ec67747eb34cbdb43f815e451Dan Gohman                              unsigned, const ConstantFP * /*FPImm*/) {
113010df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  return 0;
113110df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman}
113210df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman
1133825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_ri(MVT, MVT,
1134a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned,
1135a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned /*Op0*/, bool /*Op0IsKill*/,
11360f84e4e31009eecf2dfcbe6113b65d0919f30254Owen Anderson                               uint64_t /*Imm*/) {
1137d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  return 0;
1138d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman}
1139d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
1140825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_rf(MVT, MVT,
1141a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned,
1142a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                               unsigned /*Op0*/, bool /*Op0IsKill*/,
114346510a73e977273ec67747eb34cbdb43f815e451Dan Gohman                               const ConstantFP * /*FPImm*/) {
114410df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  return 0;
114510df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman}
114610df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman
1147825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmit_rri(MVT, MVT,
11487c3ecb6838ef7a2ca306c0f3cd68022f0855ae71Dan Gohman                                unsigned,
1149a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                unsigned /*Op0*/, bool /*Op0IsKill*/,
1150a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                unsigned /*Op1*/, bool /*Op1IsKill*/,
1151d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman                                uint64_t /*Imm*/) {
115283785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  return 0;
115383785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng}
115483785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
115583785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng/// FastEmit_ri_ - This method is a wrapper of FastEmit_ri. It first tries
115683785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng/// to emit an instruction with an immediate operand using FastEmit_ri.
115783785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng/// If that fails, it materializes the immediate into a register and try
115883785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng/// FastEmit_rr instead.
11597c3ecb6838ef7a2ca306c0f3cd68022f0855ae71Dan Gohmanunsigned FastISel::FastEmit_ri_(MVT VT, unsigned Opcode,
1160a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                unsigned Op0, bool Op0IsKill,
1161a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                uint64_t Imm, MVT ImmType) {
1162602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  // If this is a multiply by a power of two, emit this as a shift left.
1163602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  if (Opcode == ISD::MUL && isPowerOf2_64(Imm)) {
1164602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    Opcode = ISD::SHL;
1165602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    Imm = Log2_64(Imm);
1166090ca9108b35a60e8b97b67987d00cf47a383dbaChris Lattner  } else if (Opcode == ISD::UDIV && isPowerOf2_64(Imm)) {
1167090ca9108b35a60e8b97b67987d00cf47a383dbaChris Lattner    // div x, 8 -> srl x, 3
1168090ca9108b35a60e8b97b67987d00cf47a383dbaChris Lattner    Opcode = ISD::SRL;
1169090ca9108b35a60e8b97b67987d00cf47a383dbaChris Lattner    Imm = Log2_64(Imm);
1170602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  }
1171d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
1172602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  // Horrible hack (to be removed), check to make sure shift amounts are
1173602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  // in-range.
1174602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner  if ((Opcode == ISD::SHL || Opcode == ISD::SRA || Opcode == ISD::SRL) &&
1175602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner      Imm >= VT.getSizeInBits())
1176602fc0681726155942907debee1fe0b8b44ffc1bChris Lattner    return 0;
1177d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
117883785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  // First check if immediate type is legal. If not, we can't use the ri form.
1179a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  unsigned ResultReg = FastEmit_ri(VT, VT, Opcode, Op0, Op0IsKill, Imm);
118083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng  if (ResultReg != 0)
118183785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng    return ResultReg;
11820f84e4e31009eecf2dfcbe6113b65d0919f30254Owen Anderson  unsigned MaterialReg = FastEmit_i(ImmType, ImmType, ISD::Constant, Imm);
1183b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman  if (MaterialReg == 0) {
1184b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman    // This is a bit ugly/slow, but failing here means falling out of
1185b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman    // fast-isel, which would be very slow.
1186db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner    IntegerType *ITy = IntegerType::get(FuncInfo.Fn->getContext(),
1187b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman                                              VT.getSizeInBits());
1188b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman    MaterialReg = getRegForValue(ConstantInt::get(ITy, Imm));
11897ae3bb83c278e991940d022b7b48d996da408abfChad Rosier    assert (MaterialReg != 0 && "Unable to materialize imm.");
11907ae3bb83c278e991940d022b7b48d996da408abfChad Rosier    if (MaterialReg == 0) return 0;
1191b2b03fc2fa87cb5604dd8ec2e8476d051186cdb3Eli Friedman  }
1192a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  return FastEmit_rr(VT, VT, Opcode,
1193a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                     Op0, Op0IsKill,
1194a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                     MaterialReg, /*Kill=*/true);
1195d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman}
1196d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
1197d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohmanunsigned FastISel::createResultReg(const TargetRegisterClass* RC) {
1198d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  return MRI.createVirtualRegister(RC);
119983785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng}
120083785c80968165b30fcdd111ceb2c28d38bcff86Evan Cheng
1201b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohmanunsigned FastISel::FastEmitInst_(unsigned MachineInstOpcode,
120277ad79689d755c49146f534107421cb3d9703fedDan Gohman                                 const TargetRegisterClass* RC) {
1203d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  unsigned ResultReg = createResultReg(RC);
1204e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1205b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
120684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg);
1207b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return ResultReg;
1208b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1209b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1210b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohmanunsigned FastISel::FastEmitInst_r(unsigned MachineInstOpcode,
1211b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman                                  const TargetRegisterClass *RC,
1212a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                  unsigned Op0, bool Op0IsKill) {
1213d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  unsigned ResultReg = createResultReg(RC);
1214e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1215b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
12165960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
121784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
121884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill);
12195960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
122084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
122184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill);
1222e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1223e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
12245960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
12255960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng
1226b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return ResultReg;
1227b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1228b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
1229b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohmanunsigned FastISel::FastEmitInst_rr(unsigned MachineInstOpcode,
1230b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman                                   const TargetRegisterClass *RC,
1231a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   unsigned Op0, bool Op0IsKill,
1232a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   unsigned Op1, bool Op1IsKill) {
1233d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  unsigned ResultReg = createResultReg(RC);
1234e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1235b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman
12365960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
123784023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1238a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1239a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op1, Op1IsKill * RegState::Kill);
12405960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
124184023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
1242a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1243a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op1, Op1IsKill * RegState::Kill);
1244e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1245e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
12465960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
1247b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman  return ResultReg;
1248b0cf29c5cfff797284b3660dc233e135feb65d9aDan Gohman}
1249d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
1250d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Andersonunsigned FastISel::FastEmitInst_rrr(unsigned MachineInstOpcode,
1251d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson                                   const TargetRegisterClass *RC,
1252d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson                                   unsigned Op0, bool Op0IsKill,
1253d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson                                   unsigned Op1, bool Op1IsKill,
1254d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson                                   unsigned Op2, bool Op2IsKill) {
1255d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson  unsigned ResultReg = createResultReg(RC);
1256e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1257d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson
1258d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson  if (II.getNumDefs() >= 1)
1259d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1260d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op0, Op0IsKill * RegState::Kill)
1261d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op1, Op1IsKill * RegState::Kill)
1262d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op2, Op2IsKill * RegState::Kill);
1263d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson  else {
1264d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
1265d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op0, Op0IsKill * RegState::Kill)
1266d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op1, Op1IsKill * RegState::Kill)
1267d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson      .addReg(Op2, Op2IsKill * RegState::Kill);
1268d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1269d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson            ResultReg).addReg(II.ImplicitDefs[0]);
1270d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson  }
1271d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson  return ResultReg;
1272d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson}
1273d71867a8f4b1ab6ab8cc8f5b1a732184ec5bad1bOwen Anderson
1274d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohmanunsigned FastISel::FastEmitInst_ri(unsigned MachineInstOpcode,
1275d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman                                   const TargetRegisterClass *RC,
1276a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   unsigned Op0, bool Op0IsKill,
1277a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   uint64_t Imm) {
1278d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  unsigned ResultReg = createResultReg(RC);
1279e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1280d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
12815960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
128284023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1283a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1284a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addImm(Imm);
12855960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
128684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
1287a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1288a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addImm(Imm);
1289e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1290e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
12915960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
1292d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  return ResultReg;
1293d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman}
1294d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
12952ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Andersonunsigned FastISel::FastEmitInst_rii(unsigned MachineInstOpcode,
12962ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson                                   const TargetRegisterClass *RC,
12972ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson                                   unsigned Op0, bool Op0IsKill,
12982ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson                                   uint64_t Imm1, uint64_t Imm2) {
12992ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson  unsigned ResultReg = createResultReg(RC);
1300e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
13012ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson
13022ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson  if (II.getNumDefs() >= 1)
13032ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
13042ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addReg(Op0, Op0IsKill * RegState::Kill)
13052ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addImm(Imm1)
13062ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addImm(Imm2);
13072ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson  else {
13082ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
13092ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addReg(Op0, Op0IsKill * RegState::Kill)
13102ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addImm(Imm1)
13112ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson      .addImm(Imm2);
13122ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
13132ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson            ResultReg).addReg(II.ImplicitDefs[0]);
13142ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson  }
13152ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson  return ResultReg;
13162ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson}
13172ce5bf188dfa4329eb246df6011dd1edde5a5979Owen Anderson
131810df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohmanunsigned FastISel::FastEmitInst_rf(unsigned MachineInstOpcode,
131910df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman                                   const TargetRegisterClass *RC,
1320a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   unsigned Op0, bool Op0IsKill,
1321a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                   const ConstantFP *FPImm) {
132210df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  unsigned ResultReg = createResultReg(RC);
1323e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
132410df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman
13255960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
132684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1327a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1328a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addFPImm(FPImm);
13295960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
133084023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
1331a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1332a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addFPImm(FPImm);
1333e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1334e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
13355960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
133610df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman  return ResultReg;
133710df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman}
133810df0fa73e396bbc93a8940e8b53827390c54d10Dan Gohman
1339d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohmanunsigned FastISel::FastEmitInst_rri(unsigned MachineInstOpcode,
1340d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman                                    const TargetRegisterClass *RC,
1341a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                    unsigned Op0, bool Op0IsKill,
1342a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                    unsigned Op1, bool Op1IsKill,
1343a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                    uint64_t Imm) {
1344d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  unsigned ResultReg = createResultReg(RC);
1345e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1346d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman
13475960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
134884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1349a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1350a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op1, Op1IsKill * RegState::Kill)
1351a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addImm(Imm);
13525960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
135384023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
1354a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op0, Op0IsKill * RegState::Kill)
1355a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addReg(Op1, Op1IsKill * RegState::Kill)
1356a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman      .addImm(Imm);
1357e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1358e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
13595960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
1360d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman  return ResultReg;
1361d5fe57d2f980c6bd1a61450f99c254a76d0f1683Dan Gohman}
13626d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Anderson
136368f25571e759c1fcf2da206109647259f49f7416Manman Renunsigned FastISel::FastEmitInst_rrii(unsigned MachineInstOpcode,
136468f25571e759c1fcf2da206109647259f49f7416Manman Ren                                     const TargetRegisterClass *RC,
136568f25571e759c1fcf2da206109647259f49f7416Manman Ren                                     unsigned Op0, bool Op0IsKill,
136668f25571e759c1fcf2da206109647259f49f7416Manman Ren                                     unsigned Op1, bool Op1IsKill,
136768f25571e759c1fcf2da206109647259f49f7416Manman Ren                                     uint64_t Imm1, uint64_t Imm2) {
136868f25571e759c1fcf2da206109647259f49f7416Manman Ren  unsigned ResultReg = createResultReg(RC);
136968f25571e759c1fcf2da206109647259f49f7416Manman Ren  const MCInstrDesc &II = TII.get(MachineInstOpcode);
137068f25571e759c1fcf2da206109647259f49f7416Manman Ren
137168f25571e759c1fcf2da206109647259f49f7416Manman Ren  if (II.getNumDefs() >= 1)
137268f25571e759c1fcf2da206109647259f49f7416Manman Ren    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
137368f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addReg(Op0, Op0IsKill * RegState::Kill)
137468f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addReg(Op1, Op1IsKill * RegState::Kill)
137568f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addImm(Imm1).addImm(Imm2);
137668f25571e759c1fcf2da206109647259f49f7416Manman Ren  else {
137768f25571e759c1fcf2da206109647259f49f7416Manman Ren    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II)
137868f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addReg(Op0, Op0IsKill * RegState::Kill)
137968f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addReg(Op1, Op1IsKill * RegState::Kill)
138068f25571e759c1fcf2da206109647259f49f7416Manman Ren      .addImm(Imm1).addImm(Imm2);
138168f25571e759c1fcf2da206109647259f49f7416Manman Ren    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
138268f25571e759c1fcf2da206109647259f49f7416Manman Ren            ResultReg).addReg(II.ImplicitDefs[0]);
138368f25571e759c1fcf2da206109647259f49f7416Manman Ren  }
138468f25571e759c1fcf2da206109647259f49f7416Manman Ren  return ResultReg;
138568f25571e759c1fcf2da206109647259f49f7416Manman Ren}
138668f25571e759c1fcf2da206109647259f49f7416Manman Ren
13876d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Andersonunsigned FastISel::FastEmitInst_i(unsigned MachineInstOpcode,
13886d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Anderson                                  const TargetRegisterClass *RC,
13896d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Anderson                                  uint64_t Imm) {
13906d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Anderson  unsigned ResultReg = createResultReg(RC);
1391e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1392bf17cfa3f904e488e898ac2e3af706fd1a892f08Wesley Peck
13935960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  if (II.getNumDefs() >= 1)
139484023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg).addImm(Imm);
13955960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  else {
139684023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II).addImm(Imm);
1397e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1398e797e0c8644a649d162fb339b148f5db10447d4eJakob Stoklund Olesen            ResultReg).addReg(II.ImplicitDefs[0]);
13995960e4eb68be6b3bca6369f6a95d7de5ed8a9eadEvan Cheng  }
14006d0c25ec3a7ca822e68f73a4481eee43eb5c9485Owen Anderson  return ResultReg;
1401b41aec54767a825ac54c8822e787700bb08a3460Evan Cheng}
14028970f00deff00ffce1f35cf00883357e1582daa1Owen Anderson
1403d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Andersonunsigned FastISel::FastEmitInst_ii(unsigned MachineInstOpcode,
1404d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson                                  const TargetRegisterClass *RC,
1405d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson                                  uint64_t Imm1, uint64_t Imm2) {
1406d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson  unsigned ResultReg = createResultReg(RC);
1407e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng  const MCInstrDesc &II = TII.get(MachineInstOpcode);
1408d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
1409d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson  if (II.getNumDefs() >= 1)
1410d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II, ResultReg)
1411d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson      .addImm(Imm1).addImm(Imm2);
1412d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson  else {
1413d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, II).addImm(Imm1).addImm(Imm2);
1414d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson    BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, DL, TII.get(TargetOpcode::COPY),
1415d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson            ResultReg).addReg(II.ImplicitDefs[0]);
1416d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson  }
1417d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson  return ResultReg;
1418d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson}
1419d74ea775af55782e3b0d5b10fa7602f8822a2f72Owen Anderson
1420825b72b0571821bf2d378749f69d6c4cfb52d2f9Owen Andersonunsigned FastISel::FastEmitInst_extractsubreg(MVT RetVT,
1421a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                              unsigned Op0, bool Op0IsKill,
1422a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman                                              uint32_t Idx) {
1423536ab130ec95cbb7bf30530251dafa7dfecc8471Evan Cheng  unsigned ResultReg = createResultReg(TLI.getRegClassFor(RetVT));
14240bc25f40402f48ba42fc45403f635b20d90fabb3Jakob Stoklund Olesen  assert(TargetRegisterInfo::isVirtualRegister(Op0) &&
14250bc25f40402f48ba42fc45403f635b20d90fabb3Jakob Stoklund Olesen         "Cannot yet extract from physregs");
1426ee0d5d4398fb855c6674da94d902ef45e944f375Jakob Stoklund Olesen  const TargetRegisterClass *RC = MRI.getRegClass(Op0);
1427ee0d5d4398fb855c6674da94d902ef45e944f375Jakob Stoklund Olesen  MRI.constrainRegClass(Op0, TRI.getSubClassWithSubReg(RC, Idx));
142884023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman  BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt,
142984023e0fbefc406a4c611d3d64a10df5d3a97dd7Dan Gohman          DL, TII.get(TargetOpcode::COPY), ResultReg)
14300bc25f40402f48ba42fc45403f635b20d90fabb3Jakob Stoklund Olesen    .addReg(Op0, getKillRegState(Op0IsKill), Idx);
14318970f00deff00ffce1f35cf00883357e1582daa1Owen Anderson  return ResultReg;
14328970f00deff00ffce1f35cf00883357e1582daa1Owen Anderson}
143314ea1ec2324cb595f2e035bbf54ddcd483f17c11Dan Gohman
143414ea1ec2324cb595f2e035bbf54ddcd483f17c11Dan Gohman/// FastEmitZExtFromI1 - Emit MachineInstrs to compute the value of Op
143514ea1ec2324cb595f2e035bbf54ddcd483f17c11Dan Gohman/// with all but the least significant bit set to zero.
1436a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohmanunsigned FastISel::FastEmitZExtFromI1(MVT VT, unsigned Op0, bool Op0IsKill) {
1437a6cb641f48df20f6f79018569b519e5a32e897a2Dan Gohman  return FastEmit_ri(VT, VT, ISD::AND, Op0, Op0IsKill, 1);
143814ea1ec2324cb595f2e035bbf54ddcd483f17c11Dan Gohman}
1439f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1440f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// HandlePHINodesInSuccessorBlocks - Handle PHI nodes in successor blocks.
1441f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// Emit code to ensure constants are copied into registers when needed.
1442f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// Remember the virtual registers that need to be added to the Machine PHI
1443f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// nodes as input.  We cannot just directly add them, because expansion
1444f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// might result in multiple MBB's for one BB.  As such, the start of the
1445f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman/// BB might correspond to a different MBB than the end.
1446f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohmanbool FastISel::HandlePHINodesInSuccessorBlocks(const BasicBlock *LLVMBB) {
1447f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  const TerminatorInst *TI = LLVMBB->getTerminator();
1448f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1449f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  SmallPtrSet<MachineBasicBlock *, 4> SuccsHandled;
1450a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman  unsigned OrigNumPHINodesToUpdate = FuncInfo.PHINodesToUpdate.size();
1451f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1452f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  // Check successor nodes' PHI nodes that expect a constant to be available
1453f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  // from this block.
1454f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  for (unsigned succ = 0, e = TI->getNumSuccessors(); succ != e; ++succ) {
1455f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    const BasicBlock *SuccBB = TI->getSuccessor(succ);
1456f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    if (!isa<PHINode>(SuccBB->begin())) continue;
1457a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman    MachineBasicBlock *SuccMBB = FuncInfo.MBBMap[SuccBB];
1458f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1459f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    // If this terminator has multiple identical successors (common for
1460f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    // switches), only handle each succ once.
1461f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    if (!SuccsHandled.insert(SuccMBB)) continue;
1462f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1463f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    MachineBasicBlock::iterator MBBI = SuccMBB->begin();
1464f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1465f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    // At this point we know that there is a 1-1 correspondence between LLVM PHI
1466f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    // nodes and Machine PHI nodes, but the incoming operands have not been
1467f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    // emitted yet.
1468f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    for (BasicBlock::const_iterator I = SuccBB->begin();
1469f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman         const PHINode *PN = dyn_cast<PHINode>(I); ++I) {
1470fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman
1471f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      // Ignore dead phi's.
1472f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      if (PN->use_empty()) continue;
1473f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1474f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      // Only handle legal types. Two interesting things to note here. First,
1475f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      // by bailing out early, we may leave behind some dead instructions,
1476f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      // since SelectionDAG's HandlePHINodesInSuccessorBlocks will insert its
14777a2bdde0a0eebcd2125055e0eacaca040f0b766cChris Lattner      // own moves. Second, this check is necessary because FastISel doesn't
147889496d0eb73ab8771b27b3d9c1db6492d8eefc3aDan Gohman      // use CreateRegs to create registers, so it always creates
1479f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      // exactly one register for each non-void instruction.
1480f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      EVT VT = TLI.getValueType(PN->getType(), /*AllowUnknown=*/true);
1481f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      if (VT == MVT::Other || !TLI.isTypeLegal(VT)) {
14822f2d1d7ec0a0178c76c29a13ab39d3f33d9b097bChad Rosier        // Handle integer promotions, though, because they're common and easy.
14832f2d1d7ec0a0178c76c29a13ab39d3f33d9b097bChad Rosier        if (VT == MVT::i1 || VT == MVT::i8 || VT == MVT::i16)
1484f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman          VT = TLI.getTypeToTransformTo(LLVMBB->getContext(), VT);
1485f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman        else {
1486a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman          FuncInfo.PHINodesToUpdate.resize(OrigNumPHINodesToUpdate);
1487f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman          return false;
1488f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman        }
1489f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      }
1490f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1491f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      const Value *PHIOp = PN->getIncomingValueForBlock(LLVMBB);
1492f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1493fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman      // Set the DebugLoc for the copy. Prefer the location of the operand
1494fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman      // if there is one; use the location of the PHI otherwise.
1495fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman      DL = PN->getDebugLoc();
1496fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman      if (const Instruction *Inst = dyn_cast<Instruction>(PHIOp))
1497fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman        DL = Inst->getDebugLoc();
1498fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman
1499f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      unsigned Reg = getRegForValue(PHIOp);
1500f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      if (Reg == 0) {
1501a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman        FuncInfo.PHINodesToUpdate.resize(OrigNumPHINodesToUpdate);
1502f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman        return false;
1503f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman      }
1504a4160c3434b08288d1f79f1acbe453d1b9610b22Dan Gohman      FuncInfo.PHINodesToUpdate.push_back(std::make_pair(MBBI++, Reg));
1505fb95f89e8ebd0b71408472e2544e2b8d6d4738e5Dan Gohman      DL = DebugLoc();
1506f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman    }
1507f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  }
1508f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman
1509f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman  return true;
1510f81eca0ab908fdcf98ae0efaa75acccc8ba40dc2Dan Gohman}
151175299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
151275299e3a95c0cfcade8515c603e7802351a11beeEli Benderskybool FastISel::tryToFoldLoad(const LoadInst *LI, const Instruction *FoldInst) {
1513462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  assert(LI->hasOneUse() &&
1514462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky      "tryToFoldLoad expected a LoadInst with a single use");
151575299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // We know that the load has a single use, but don't know what it is.  If it
151675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // isn't one of the folded instructions, then we can't succeed here.  Handle
151775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // this by scanning the single-use users of the load until we get to FoldInst.
151875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  unsigned MaxUsers = 6;  // Don't scan down huge single-use chains of instrs.
151975299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
152075299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  const Instruction *TheUser = LI->use_back();
152175299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  while (TheUser != FoldInst &&   // Scan up until we find FoldInst.
152275299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky         // Stay in the right block.
152375299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky         TheUser->getParent() == FoldInst->getParent() &&
152475299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky         --MaxUsers) {  // Don't scan too far.
152575299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    // If there are multiple or no uses of this instruction, then bail out.
152675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    if (!TheUser->hasOneUse())
152775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky      return false;
152875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
152975299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    TheUser = TheUser->use_back();
153075299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  }
153175299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
153275299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // If we didn't find the fold instruction, then we failed to collapse the
153375299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // sequence.
153475299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  if (TheUser != FoldInst)
153575299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    return false;
153675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
153775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // Don't try to fold volatile loads.  Target has to deal with alignment
153875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // constraints.
1539462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  if (LI->isVolatile())
1540462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky    return false;
154175299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
154275299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // Figure out which vreg this is going into.  If there is no assigned vreg yet
154375299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // then there actually was no reference to it.  Perhaps the load is referenced
154475299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // by a dead instruction.
154575299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  unsigned LoadReg = getRegForValue(LI);
154675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  if (LoadReg == 0)
154775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    return false;
154875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
1549462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  // We can't fold if this vreg has no uses or more than one use.  Multiple uses
1550462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  // may mean that the instruction got lowered to multiple MIs, or the use of
1551462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  // the loaded value ended up being multiple operands of the result.
1552462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  if (!MRI.hasOneUse(LoadReg))
155375299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky    return false;
155475299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
1555462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  MachineRegisterInfo::reg_iterator RI = MRI.reg_begin(LoadReg);
155675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  MachineInstr *User = &*RI;
155775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
155875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // Set the insertion point properly.  Folding the load can cause generation of
1559462123f66159a8c7ff34b87cb269955252be3ec0Eli Bendersky  // other random instructions (like sign extends) for addressing modes; make
156075299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // sure they get inserted in a logical place before the new instruction.
156175299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  FuncInfo.InsertPt = User;
156275299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  FuncInfo.MBB = User->getParent();
156375299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
156475299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  // Ask the target to try folding the load.
156575299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky  return tryToFoldLoadIntoMI(User, RI.getOperandNo(), LI);
156675299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky}
156775299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
156875299e3a95c0cfcade8515c603e7802351a11beeEli Bendersky
1569