X86InstrInfo.h revision 98e933f9ad3cc2ede3a0a337144a504265d614cd 
11e60a9165dc4d6ce5650dacc026f2942696af920Chris Lattner//===- X86InstrInfo.h - X86 Instruction Information ------------*- C++ -*- ===//
20e0a7a45d3d0a8c865a078459d2e1c6d8967a100Misha Brukman//
3856ba76200ec2302f2fe500bc507f426c7d566c8John Criswell//                     The LLVM Compiler Infrastructure
4856ba76200ec2302f2fe500bc507f426c7d566c8John Criswell//
54ee451de366474b9c228b4e5fa573795a715216dChris Lattner// This file is distributed under the University of Illinois Open Source
64ee451de366474b9c228b4e5fa573795a715216dChris Lattner// License. See LICENSE.TXT for details.
70e0a7a45d3d0a8c865a078459d2e1c6d8967a100Misha Brukman//
8856ba76200ec2302f2fe500bc507f426c7d566c8John Criswell//===----------------------------------------------------------------------===//
9726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner//
103501feab811c86c9659248a4875fc31a3165f84dChris Lattner// This file contains the X86 implementation of the TargetInstrInfo class.
11726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner//
12726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner//===----------------------------------------------------------------------===//
13726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
14726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner#ifndef X86INSTRUCTIONINFO_H
15726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner#define X86INSTRUCTIONINFO_H
16726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
173501feab811c86c9659248a4875fc31a3165f84dChris Lattner#include "llvm/Target/TargetInstrInfo.h"
1852e724ad7e679ee590f4bd763d55280586a8f1bcNicolas Geoffray#include "X86.h"
19726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner#include "X86RegisterInfo.h"
20d68a07650cdb2e18f18f362ba533459aa10e01b6Dan Gohman#include "llvm/ADT/DenseMap.h"
21726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
224db3cffe94a5285239cc0056f939c6b74a5ca0b6Evan Cheng#define GET_INSTRINFO_HEADER
234db3cffe94a5285239cc0056f939c6b74a5ca0b6Evan Cheng#include "X86GenInstrInfo.inc"
244db3cffe94a5285239cc0056f939c6b74a5ca0b6Evan Cheng
25d0fde30ce850b78371fd1386338350591f9ff494Brian Gaekenamespace llvm {
2625ab690a43cbbb591b76d49e3595b019c32f4b3fEvan Cheng  class X86RegisterInfo;
27aa3c1410b427909da350f2b5e8d4ec3db62a3618Evan Cheng  class X86TargetMachine;
28d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke
297fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattnernamespace X86 {
307fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  // X86 specific condition code. These correspond to X86_*_COND in
317fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  // X86InstrInfo.td. They must be kept in synch.
327fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  enum CondCode {
337fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_A  = 0,
347fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_AE = 1,
357fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_B  = 2,
367fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_BE = 3,
377fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_E  = 4,
387fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_G  = 5,
397fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_GE = 6,
407fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_L  = 7,
417fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_LE = 8,
427fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_NE = 9,
437fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_NO = 10,
447fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_NP = 11,
457fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_NS = 12,
46653456c351d9bf908ebd982f6ae9df3449c5f34bDan Gohman    COND_O  = 13,
47653456c351d9bf908ebd982f6ae9df3449c5f34bDan Gohman    COND_P  = 14,
48653456c351d9bf908ebd982f6ae9df3449c5f34bDan Gohman    COND_S  = 15,
49279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman
50279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    // Artificial condition codes. These are used by AnalyzeBranch
51279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    // to indicate a block terminated with two conditional branches to
52279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    // the same location. This occurs in code using FCMP_OEQ or FCMP_UNE,
53279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    // which can't be represented on x86 with a single condition. These
54279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    // are never used in MachineInstrs.
55279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    COND_NE_OR_P,
56279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman    COND_NP_OR_E,
57279c22e6da2612f024b70e5509ffb0cad32f38b2Dan Gohman
587fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner    COND_INVALID
597fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  };
608d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
617fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  // Turn condition code into conditional branch opcode.
627fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  unsigned GetCondBranchFromCond(CondCode CC);
638d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
649cd68759178f9fe25c72253d338e78e414f1d770Chris Lattner  /// GetOppositeBranchCondition - Return the inverse of the specified cond,
659cd68759178f9fe25c72253d338e78e414f1d770Chris Lattner  /// e.g. turning COND_E to COND_NE.
669cd68759178f9fe25c72253d338e78e414f1d770Chris Lattner  CondCode GetOppositeBranchCondition(X86::CondCode CC);
678c3fee59038d8fd98db2a01b6a309a8941a16a3fEvan Cheng}  // end namespace X86;
689cd68759178f9fe25c72253d338e78e414f1d770Chris Lattner
69281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner
703b6b36d6f54e780a2947cb1b9efe4eed7c40dc11Chris Lattner/// isGlobalStubReference - Return true if the specified TargetFlag operand is
71281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner/// a reference to a stub for a global, not the global itself.
723b6b36d6f54e780a2947cb1b9efe4eed7c40dc11Chris Lattnerinline static bool isGlobalStubReference(unsigned char TargetFlag) {
733b6b36d6f54e780a2947cb1b9efe4eed7c40dc11Chris Lattner  switch (TargetFlag) {
74281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_DLLIMPORT: // dllimport stub.
75281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_GOTPCREL:  // rip-relative GOT reference.
76281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_GOT:       // normal GOT reference.
77281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_DARWIN_NONLAZY_PIC_BASE:        // Normal $non_lazy_ptr ref.
78281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_DARWIN_NONLAZY:                 // Normal $non_lazy_ptr ref.
79281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  case X86II::MO_DARWIN_HIDDEN_NONLAZY_PIC_BASE: // Hidden $non_lazy_ptr ref.
80281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner    return true;
81281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  default:
82281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner    return false;
83281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner  }
84281bada3b03b97dad0ac9890706a057ab31a5dd3Chris Lattner}
857478ab8502a52815413d8b388898f719484ab1a9Chris Lattner
867478ab8502a52815413d8b388898f719484ab1a9Chris Lattner/// isGlobalRelativeToPICBase - Return true if the specified global value
877478ab8502a52815413d8b388898f719484ab1a9Chris Lattner/// reference is relative to a 32-bit PIC base (X86ISD::GlobalBaseReg).  If this
887478ab8502a52815413d8b388898f719484ab1a9Chris Lattner/// is true, the addressing mode has the PIC base register added in (e.g. EBX).
897478ab8502a52815413d8b388898f719484ab1a9Chris Lattnerinline static bool isGlobalRelativeToPICBase(unsigned char TargetFlag) {
907478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  switch (TargetFlag) {
917478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  case X86II::MO_GOTOFF:                         // isPICStyleGOT: local global.
927478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  case X86II::MO_GOT:                            // isPICStyleGOT: other global.
937478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  case X86II::MO_PIC_BASE_OFFSET:                // Darwin local global.
947478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  case X86II::MO_DARWIN_NONLAZY_PIC_BASE:        // Darwin/32 external global.
957478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  case X86II::MO_DARWIN_HIDDEN_NONLAZY_PIC_BASE: // Darwin/32 hidden global.
9630ef0e5658b0b8b04437f73f74162d5d72923f29Eric Christopher  case X86II::MO_TLVP:                           // ??? Pretty sure..
977478ab8502a52815413d8b388898f719484ab1a9Chris Lattner    return true;
987478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  default:
997478ab8502a52815413d8b388898f719484ab1a9Chris Lattner    return false;
1007478ab8502a52815413d8b388898f719484ab1a9Chris Lattner  }
1017478ab8502a52815413d8b388898f719484ab1a9Chris Lattner}
1028d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
1031c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikovinline static bool isScale(const MachineOperand &MO) {
104d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman  return MO.isImm() &&
1051c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov    (MO.getImm() == 1 || MO.getImm() == 2 ||
1061c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov     MO.getImm() == 4 || MO.getImm() == 8);
1071c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov}
1081c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov
109094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindolainline static bool isLeaMem(const MachineInstr *MI, unsigned Op) {
110d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman  if (MI->getOperand(Op).isFI()) return true;
1111c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov  return Op+4 <= MI->getNumOperands() &&
112d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman    MI->getOperand(Op  ).isReg() && isScale(MI->getOperand(Op+1)) &&
113d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman    MI->getOperand(Op+2).isReg() &&
114d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman    (MI->getOperand(Op+3).isImm() ||
115d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman     MI->getOperand(Op+3).isGlobal() ||
116d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman     MI->getOperand(Op+3).isCPI() ||
117d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman     MI->getOperand(Op+3).isJTI());
1181c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov}
1191c4b5eaa4628935c4db3e422aa10f2031e6d1679Anton Korobeynikov
120094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindolainline static bool isMem(const MachineInstr *MI, unsigned Op) {
121094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola  if (MI->getOperand(Op).isFI()) return true;
122094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola  return Op+5 <= MI->getNumOperands() &&
123094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola    MI->getOperand(Op+4).isReg() &&
124094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola    isLeaMem(MI, Op);
125094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola}
126094fad37b90946c91a09eb9270a0dbe800f49d87Rafael Espindola
1274db3cffe94a5285239cc0056f939c6b74a5ca0b6Evan Chengclass X86InstrInfo : public X86GenInstrInfo {
128aa3c1410b427909da350f2b5e8d4ec3db62a3618Evan Cheng  X86TargetMachine &TM;
129726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner  const X86RegisterInfo RI;
1308d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
13143dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// RegOp2MemOpTable2Addr, RegOp2MemOpTable0, RegOp2MemOpTable1,
13243dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// RegOp2MemOpTable2 - Load / store folding opcode maps.
13343dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  ///
134cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  typedef DenseMap<unsigned,
135cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes                   std::pair<unsigned, unsigned> > RegOp2MemOpTableType;
136cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  RegOp2MemOpTableType RegOp2MemOpTable2Addr;
137cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  RegOp2MemOpTableType RegOp2MemOpTable0;
138cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  RegOp2MemOpTableType RegOp2MemOpTable1;
139cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  RegOp2MemOpTableType RegOp2MemOpTable2;
1408d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
14143dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// MemOp2RegOpTable - Load / store unfolding opcode map.
14243dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  ///
143cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  typedef DenseMap<unsigned,
144cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes                   std::pair<unsigned, unsigned> > MemOp2RegOpTableType;
145cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  MemOp2RegOpTableType MemOp2RegOpTable;
146cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes
147cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes  void AddTableEntry(RegOp2MemOpTableType &R2MTable,
148cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes                     MemOp2RegOpTableType &M2RTable,
149cbf479df8abe5e208f1438092a9632a145551cbcBruno Cardoso Lopes                     unsigned RegOp, unsigned MemOp, unsigned Flags);
150352aa503faee6c58e9cdb5054cc5ec1d90c696b4Jakob Stoklund Olesen
151726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattnerpublic:
152950a4c40b823cd4f09dc71be635229246dfd6cacDan Gohman  explicit X86InstrInfo(X86TargetMachine &tm);
153726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
1543501feab811c86c9659248a4875fc31a3165f84dChris Lattner  /// getRegisterInfo - TargetInstrInfo is a superset of MRegister info.  As
155726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner  /// such, whenever a client has an instance of instruction info, it should
156726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner  /// always be able to get register info as well (through this method).
157726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner  ///
158c9f5f3f64f896d0a8c8fa35a1dd98bc57b8960f6Dan Gohman  virtual const X86RegisterInfo &getRegisterInfo() const { return RI; }
159726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
1607da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// isCoalescableExtInstr - Return true if the instruction is a "coalescable"
1617da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// extension instruction. That is, it's like a copy where it's legal for the
1627da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// source to overlap the destination. e.g. X86::MOVSX64rr32. If this returns
1637da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// true, then it's expected the pre-extension value is available as a subreg
1647da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// of the result register. This also returns the sub-register index in
1657da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  /// SubIdx.
1667da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng  virtual bool isCoalescableExtInstr(const MachineInstr &MI,
1677da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng                                     unsigned &SrcReg, unsigned &DstReg,
1687da9ecf9677b751d81515f95168ae3cb2df54160Evan Cheng                                     unsigned &SubIdx) const;
169a5a81d70720a4ce6ac7538927c2a874b0dfa8bd2Evan Cheng
170cbad42cfd1cc93a41ff26ea2e8895bfbc09f54f2Dan Gohman  unsigned isLoadFromStackSlot(const MachineInstr *MI, int &FrameIndex) const;
171dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// isLoadFromStackSlotPostFE - Check for post-frame ptr elimination
172dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// stack locations as well.  This uses a heuristic so it isn't
173dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// reliable for correctness.
174dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  unsigned isLoadFromStackSlotPostFE(const MachineInstr *MI,
175dda3978d7877d2d60390833c73ed24857295e89cDavid Greene                                     int &FrameIndex) const;
176b87bc95db075dae3033a3c541b55b4cb711c332cDavid Greene
177cbad42cfd1cc93a41ff26ea2e8895bfbc09f54f2Dan Gohman  unsigned isStoreToStackSlot(const MachineInstr *MI, int &FrameIndex) const;
178dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// isStoreToStackSlotPostFE - Check for post-frame ptr elimination
179dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// stack locations as well.  This uses a heuristic so it isn't
180dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  /// reliable for correctness.
181dda3978d7877d2d60390833c73ed24857295e89cDavid Greene  unsigned isStoreToStackSlotPostFE(const MachineInstr *MI,
182dda3978d7877d2d60390833c73ed24857295e89cDavid Greene                                    int &FrameIndex) const;
183ca1267c02b025cc719190b05f9e1a5d174a9caf7Evan Cheng
1843731bc026cc6c4fb7deb7ac67e2c3be0c22498beDan Gohman  bool isReallyTriviallyReMaterializable(const MachineInstr *MI,
1853731bc026cc6c4fb7deb7ac67e2c3be0c22498beDan Gohman                                         AliasAnalysis *AA) const;
186ca1267c02b025cc719190b05f9e1a5d174a9caf7Evan Cheng  void reMaterialize(MachineBasicBlock &MBB, MachineBasicBlock::iterator MI,
187378445303b10b092a898a75131141a8259cff50bEvan Cheng                     unsigned DestReg, unsigned SubIdx,
188d57cdd5683ea926e489067364fb7ffe5fd5d35eeEvan Cheng                     const MachineInstr *Orig,
1899edf7deb37f0f97664f279040fa15d89f32e23d9Jakob Stoklund Olesen                     const TargetRegisterInfo &TRI) const;
190ca1267c02b025cc719190b05f9e1a5d174a9caf7Evan Cheng
191bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// convertToThreeAddress - This method must be implemented by targets that
192bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// set the M_CONVERTIBLE_TO_3_ADDR flag.  When this flag is set, the target
193bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// may be able to convert a two-address instruction into a true
194bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// three-address instruction on demand.  This allows the X86 target (for
195bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// example) to convert ADD and SHL instructions into LEA instructions if they
196bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// would require register copies due to two-addressness.
197bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  ///
198bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// This method returns a null pointer if the transformation cannot be
199bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  /// performed, otherwise it returns the new instruction.
200bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner  ///
201ba59a1e453e110f7b84233f07613f9c5d9a39b87Evan Cheng  virtual MachineInstr *convertToThreeAddress(MachineFunction::iterator &MFI,
202ba59a1e453e110f7b84233f07613f9c5d9a39b87Evan Cheng                                              MachineBasicBlock::iterator &MBBI,
203f660c171c838793b87b7e58e91609cecf256378dOwen Anderson                                              LiveVariables *LV) const;
204bcea4d6f283a5ae6f93dc8e10898311fe53d23a3Chris Lattner
20541e431ba045eb317ebf0ec45b563a5d96c212f5cChris Lattner  /// commuteInstruction - We have a few instructions that must be hacked on to
20641e431ba045eb317ebf0ec45b563a5d96c212f5cChris Lattner  /// commute them.
20741e431ba045eb317ebf0ec45b563a5d96c212f5cChris Lattner  ///
20858dcb0e0cd3fa973b5fd005aecab1df6aeea5cd6Evan Cheng  virtual MachineInstr *commuteInstruction(MachineInstr *MI, bool NewMI) const;
20941e431ba045eb317ebf0ec45b563a5d96c212f5cChris Lattner
2107fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  // Branch analysis.
211318093b6f8d21ac8eab34573b0526984895fe941Dale Johannesen  virtual bool isUnpredicatedTerminator(const MachineInstr* MI) const;
2127fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner  virtual bool AnalyzeBranch(MachineBasicBlock &MBB, MachineBasicBlock *&TBB,
2137fbe9723e32ff35c4ad765c88209ef9321475a1bChris Lattner                             MachineBasicBlock *&FBB,
214dc54d317e7a381ef8e4aca80d54ad1466bb85ddaEvan Cheng                             SmallVectorImpl<MachineOperand> &Cond,
215dc54d317e7a381ef8e4aca80d54ad1466bb85ddaEvan Cheng                             bool AllowModify) const;
2166ae3626a4fda14e6250ac8d8ff487efb8952cdf7Evan Cheng  virtual unsigned RemoveBranch(MachineBasicBlock &MBB) const;
2176ae3626a4fda14e6250ac8d8ff487efb8952cdf7Evan Cheng  virtual unsigned InsertBranch(MachineBasicBlock &MBB, MachineBasicBlock *TBB,
2186ae3626a4fda14e6250ac8d8ff487efb8952cdf7Evan Cheng                                MachineBasicBlock *FBB,
2193bf912593301152b65accb9d9c37a95172f1df5aStuart Hastings                                const SmallVectorImpl<MachineOperand> &Cond,
2203bf912593301152b65accb9d9c37a95172f1df5aStuart Hastings                                DebugLoc DL) const;
221320bdcbfe2691021702085f718db1617b1d4df49Jakob Stoklund Olesen  virtual void copyPhysReg(MachineBasicBlock &MBB,
222320bdcbfe2691021702085f718db1617b1d4df49Jakob Stoklund Olesen                           MachineBasicBlock::iterator MI, DebugLoc DL,
223320bdcbfe2691021702085f718db1617b1d4df49Jakob Stoklund Olesen                           unsigned DestReg, unsigned SrcReg,
224320bdcbfe2691021702085f718db1617b1d4df49Jakob Stoklund Olesen                           bool KillSrc) const;
225f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson  virtual void storeRegToStackSlot(MachineBasicBlock &MBB,
226f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                                   MachineBasicBlock::iterator MI,
227f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                                   unsigned SrcReg, bool isKill, int FrameIndex,
228746ad69e088176819981b4b2c5ac8dcd49f5e60eEvan Cheng                                   const TargetRegisterClass *RC,
229746ad69e088176819981b4b2c5ac8dcd49f5e60eEvan Cheng                                   const TargetRegisterInfo *TRI) const;
230f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson
231f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson  virtual void storeRegToAddr(MachineFunction &MF, unsigned SrcReg, bool isKill,
232f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                              SmallVectorImpl<MachineOperand> &Addr,
233f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                              const TargetRegisterClass *RC,
23491e69c37153eb7d8cd149d9c2484c3115027b90fDan Gohman                              MachineInstr::mmo_iterator MMOBegin,
23591e69c37153eb7d8cd149d9c2484c3115027b90fDan Gohman                              MachineInstr::mmo_iterator MMOEnd,
236f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                              SmallVectorImpl<MachineInstr*> &NewMIs) const;
237f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson
238f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson  virtual void loadRegFromStackSlot(MachineBasicBlock &MBB,
239f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                                    MachineBasicBlock::iterator MI,
240f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                                    unsigned DestReg, int FrameIndex,
241746ad69e088176819981b4b2c5ac8dcd49f5e60eEvan Cheng                                    const TargetRegisterClass *RC,
242746ad69e088176819981b4b2c5ac8dcd49f5e60eEvan Cheng                                    const TargetRegisterInfo *TRI) const;
243f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson
244f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson  virtual void loadRegFromAddr(MachineFunction &MF, unsigned DestReg,
245f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                               SmallVectorImpl<MachineOperand> &Addr,
246f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                               const TargetRegisterClass *RC,
24791e69c37153eb7d8cd149d9c2484c3115027b90fDan Gohman                               MachineInstr::mmo_iterator MMOBegin,
24891e69c37153eb7d8cd149d9c2484c3115027b90fDan Gohman                               MachineInstr::mmo_iterator MMOEnd,
249f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson                               SmallVectorImpl<MachineInstr*> &NewMIs) const;
250962021bc7f6721c20c7dfe8ca809e2d98b1c554aEvan Cheng  virtual
251962021bc7f6721c20c7dfe8ca809e2d98b1c554aEvan Cheng  MachineInstr *emitFrameIndexDebugValue(MachineFunction &MF,
2528601a3d4decff0a380e059b037dabf71075497d3Evan Cheng                                         int FrameIx, uint64_t Offset,
253962021bc7f6721c20c7dfe8ca809e2d98b1c554aEvan Cheng                                         const MDNode *MDPtr,
254962021bc7f6721c20c7dfe8ca809e2d98b1c554aEvan Cheng                                         DebugLoc DL) const;
255962021bc7f6721c20c7dfe8ca809e2d98b1c554aEvan Cheng
25643dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// foldMemoryOperand - If this target supports it, fold a load or store of
25743dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// the specified stack slot into the specified machine instruction for the
25843dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// specified operand(s).  If this is possible, the target should perform the
25943dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// folding and return true, otherwise it should return false.  If it folds
26043dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// the instruction, it is likely that the MachineInstruction the iterator
26143dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// references has been changed.
262c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman  virtual MachineInstr* foldMemoryOperandImpl(MachineFunction &MF,
263c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                              MachineInstr* MI,
264c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                           const SmallVectorImpl<unsigned> &Ops,
265c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                              int FrameIndex) const;
26643dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson
26743dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// foldMemoryOperand - Same as the previous version except it allows folding
26843dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// of any load and store from / to any address, not just from a specific
26943dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// stack slot.
270c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman  virtual MachineInstr* foldMemoryOperandImpl(MachineFunction &MF,
271c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                              MachineInstr* MI,
272c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                           const SmallVectorImpl<unsigned> &Ops,
273c54baa2d43730f1804acfb4f4e738fba72f966bdDan Gohman                                              MachineInstr* LoadMI) const;
27443dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson
27543dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// canFoldMemoryOperand - Returns true if the specified load / store is
27643dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// folding is possible.
2778e8b8a223c2b0e69f44c0639f846260c8011668fDan Gohman  virtual bool canFoldMemoryOperand(const MachineInstr*,
2788e8b8a223c2b0e69f44c0639f846260c8011668fDan Gohman                                    const SmallVectorImpl<unsigned> &) const;
27943dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson
28043dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// unfoldMemoryOperand - Separate a single instruction which folded a load or
28143dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// a store or a load and a store into two or more instruction. If this is
28243dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// possible, returns true as well as the new instructions by reference.
28343dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  virtual bool unfoldMemoryOperand(MachineFunction &MF, MachineInstr *MI,
28443dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson                           unsigned Reg, bool UnfoldLoad, bool UnfoldStore,
28543dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson                           SmallVectorImpl<MachineInstr*> &NewMIs) const;
28643dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson
28743dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  virtual bool unfoldMemoryOperand(SelectionDAG &DAG, SDNode *N,
28843dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson                           SmallVectorImpl<SDNode*> &NewNodes) const;
28943dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson
29043dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// getOpcodeAfterMemoryUnfold - Returns the opcode of the would be new
29143dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// instruction after load / store are unfolded from an instruction of the
29243dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  /// specified opcode. It returns zero if the specified unfolding is not
2930115e164bad632572e2cfbaf72f0f0882d5319deDan Gohman  /// possible. If LoadRegIndex is non-null, it is filled in with the operand
2940115e164bad632572e2cfbaf72f0f0882d5319deDan Gohman  /// index of the operand which will hold the register holding the loaded
2950115e164bad632572e2cfbaf72f0f0882d5319deDan Gohman  /// value.
29643dbe05279b753aabda571d9c83eaeb36987001aOwen Anderson  virtual unsigned getOpcodeAfterMemoryUnfold(unsigned Opc,
2970115e164bad632572e2cfbaf72f0f0882d5319deDan Gohman                                      bool UnfoldLoad, bool UnfoldStore,
2980115e164bad632572e2cfbaf72f0f0882d5319deDan Gohman                                      unsigned *LoadRegIndex = 0) const;
2998d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
30096dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// areLoadsFromSameBasePtr - This is used by the pre-regalloc scheduler
30196dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// to determine if two loads are loading from the same base address. It
30296dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// should only return true if the base pointers are the same and the
30396dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// only differences between the two addresses are the offset. It also returns
30496dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// the offsets by reference.
30596dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  virtual bool areLoadsFromSameBasePtr(SDNode *Load1, SDNode *Load2,
30696dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng                                       int64_t &Offset1, int64_t &Offset2) const;
30796dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng
30896dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// shouldScheduleLoadsNear - This is a used by the pre-regalloc scheduler to
3097a2bdde0a0eebcd2125055e0eacaca040f0b766cChris Lattner  /// determine (in conjunction with areLoadsFromSameBasePtr) if two loads should
31096dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// be scheduled togther. On some targets if two loads are loading from
31196dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// addresses in the same cache line, it's better if they are scheduled
31296dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// together. This function takes two integers that represent the load offsets
31396dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// from the common base address. It returns true if it decides it's desirable
31496dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// to schedule the two loads together. "NumLoads" is the number of loads that
31596dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  /// have already been scheduled after Load1.
31696dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng  virtual bool shouldScheduleLoadsNear(SDNode *Load1, SDNode *Load2,
31796dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng                                       int64_t Offset1, int64_t Offset2,
31896dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng                                       unsigned NumLoads) const;
31996dc115ef3ee019cb91d7c112358a77536c38a53Evan Cheng
320ee9eb411fffddbb8fe70418c05946a131889b487Chris Lattner  virtual void getNoopForMachoTarget(MCInst &NopInst) const;
321ee9eb411fffddbb8fe70418c05946a131889b487Chris Lattner
32244eb65cf58e3ab9b5621ce72256d1621a18aeed7Owen Anderson  virtual
32344eb65cf58e3ab9b5621ce72256d1621a18aeed7Owen Anderson  bool ReverseBranchCondition(SmallVectorImpl<MachineOperand> &Cond) const;
32441e431ba045eb317ebf0ec45b563a5d96c212f5cChris Lattner
3254350eb86a7cdc83fa6a5f4819a7f0534ace5cd58Evan Cheng  /// isSafeToMoveRegClassDefs - Return true if it's safe to move a machine
3264350eb86a7cdc83fa6a5f4819a7f0534ace5cd58Evan Cheng  /// instruction that defines the specified register class.
3274350eb86a7cdc83fa6a5f4819a7f0534ace5cd58Evan Cheng  bool isSafeToMoveRegClassDefs(const TargetRegisterClass *RC) const;
32823066288fdf4867f53f208f9aaf2952b1c049394Evan Cheng
32939a612e6f9e63806af410a0ab0d81895391e4c79Chris Lattner  static bool isX86_64ExtendedReg(const MachineOperand &MO) {
33039a612e6f9e63806af410a0ab0d81895391e4c79Chris Lattner    if (!MO.isReg()) return false;
3318c3fee59038d8fd98db2a01b6a309a8941a16a3fEvan Cheng    return X86II::isX86_64ExtendedReg(MO.getReg());
33239a612e6f9e63806af410a0ab0d81895391e4c79Chris Lattner  }
33352e724ad7e679ee590f4bd763d55280586a8f1bcNicolas Geoffray
33457c3dac0df7ac1b53ae7c0e5d2adc459fc7bd37cDan Gohman  /// getGlobalBaseReg - Return a virtual register initialized with the
33557c3dac0df7ac1b53ae7c0e5d2adc459fc7bd37cDan Gohman  /// the global base register value. Output instructions required to
33657c3dac0df7ac1b53ae7c0e5d2adc459fc7bd37cDan Gohman  /// initialize the register in the function entry block, if necessary.
3378b746969baee26237e4c52de9862d06795eabcdaDan Gohman  ///
33857c3dac0df7ac1b53ae7c0e5d2adc459fc7bd37cDan Gohman  unsigned getGlobalBaseReg(MachineFunction *MF) const;
3398b746969baee26237e4c52de9862d06795eabcdaDan Gohman
34098e933f9ad3cc2ede3a0a337144a504265d614cdJakob Stoklund Olesen  std::pair<uint16_t, uint16_t>
34198e933f9ad3cc2ede3a0a337144a504265d614cdJakob Stoklund Olesen  getExecutionDomain(const MachineInstr *MI) const;
342e4b94b4efb9a4670f25a5a80dd3b97f9583de202Jakob Stoklund Olesen
34398e933f9ad3cc2ede3a0a337144a504265d614cdJakob Stoklund Olesen  void setExecutionDomain(MachineInstr *MI, unsigned Domain) const;
344352aa503faee6c58e9cdb5054cc5ec1d90c696b4Jakob Stoklund Olesen
345beac75da3784929aee9f0357fc5cd76d49d6c3d7Chris Lattner  MachineInstr* foldMemoryOperandImpl(MachineFunction &MF,
346beac75da3784929aee9f0357fc5cd76d49d6c3d7Chris Lattner                                      MachineInstr* MI,
347beac75da3784929aee9f0357fc5cd76d49d6c3d7Chris Lattner                                      unsigned OpNum,
348beac75da3784929aee9f0357fc5cd76d49d6c3d7Chris Lattner                                      const SmallVectorImpl<MachineOperand> &MOs,
349beac75da3784929aee9f0357fc5cd76d49d6c3d7Chris Lattner                                      unsigned Size, unsigned Alignment) const;
3502312842de0c641107dd04d7e056d02491cc781caEvan Cheng
351e0ef509aeb47b396cf1bdc170ca4f468f799719fAndrew Trick  bool isHighLatencyDef(int opc) const;
352e0ef509aeb47b396cf1bdc170ca4f468f799719fAndrew Trick
3532312842de0c641107dd04d7e056d02491cc781caEvan Cheng  bool hasHighOperandLatency(const InstrItineraryData *ItinData,
3542312842de0c641107dd04d7e056d02491cc781caEvan Cheng                             const MachineRegisterInfo *MRI,
3552312842de0c641107dd04d7e056d02491cc781caEvan Cheng                             const MachineInstr *DefMI, unsigned DefIdx,
3562312842de0c641107dd04d7e056d02491cc781caEvan Cheng                             const MachineInstr *UseMI, unsigned UseIdx) const;
3578d4a4225135f1f4647e675902359b64cc21af7efAndrew Trick
35843dbe05279b753aabda571d9c83eaeb36987001aOwen Andersonprivate:
359656e51454ac70f5d500565fd33c883f6dea549f2Evan Cheng  MachineInstr * convertToThreeAddressWithLEA(unsigned MIOpc,
360656e51454ac70f5d500565fd33c883f6dea549f2Evan Cheng                                              MachineFunction::iterator &MFI,
361656e51454ac70f5d500565fd33c883f6dea549f2Evan Cheng                                              MachineBasicBlock::iterator &MBBI,
362656e51454ac70f5d500565fd33c883f6dea549f2Evan Cheng                                              LiveVariables *LV) const;
363656e51454ac70f5d500565fd33c883f6dea549f2Evan Cheng
364b87bc95db075dae3033a3c541b55b4cb711c332cDavid Greene  /// isFrameOperand - Return true and the FrameIndex if the specified
365b87bc95db075dae3033a3c541b55b4cb711c332cDavid Greene  /// operand and follow operands form a reference to the stack frame.
366b87bc95db075dae3033a3c541b55b4cb711c332cDavid Greene  bool isFrameOperand(const MachineInstr *MI, unsigned int Op,
367b87bc95db075dae3033a3c541b55b4cb711c332cDavid Greene                      int &FrameIndex) const;
368726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner};
369726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner
370d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke} // End llvm namespace
371d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke
372726140821f96e3472a8eccef0c67c0b5ad65a1d9Chris Lattner#endif
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