PrologEpilogInserter.cpp revision 332553768242e82383df61d9161d1a665bfb3122 
158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner//===-- PrologEpilogInserter.cpp - Insert Prolog/Epilog code in function --===//
2edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman//
3b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//                     The LLVM Compiler Infrastructure
4b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//
54ee451de366474b9c228b4e5fa573795a715216dChris Lattner// This file is distributed under the University of Illinois Open Source
64ee451de366474b9c228b4e5fa573795a715216dChris Lattner// License. See LICENSE.TXT for details.
7edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman//
8b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//===----------------------------------------------------------------------===//
958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner//
1058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner// This pass is responsible for finalizing the functions frame layout, saving
1158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner// callee saved registers, and for emitting prolog & epilog code for the
1258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner// function.
1358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner//
1458b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner// This pass must be run after register allocation.  After this pass is
1558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner// executed, it is illegal to construct MO_FrameIndex operands.
1658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner//
17378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby// This pass provides an optional shrink wrapping variant of prolog/epilog
18378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby// insertion, enabled via --shrink-wrap. See ShrinkWrapping.cpp.
19ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby//
2058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner//===----------------------------------------------------------------------===//
2158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
22752c1df73949438ef6fa86a86363ee7091aa2532John Mosby#include "PrologEpilogInserter.h"
23ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby#include "llvm/CodeGen/MachineDominators.h"
24ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby#include "llvm/CodeGen/MachineLoopInfo.h"
2558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner#include "llvm/CodeGen/MachineInstr.h"
26eb24db9727a7babe863d5afe70c7bda3a460da18Chris Lattner#include "llvm/CodeGen/MachineFrameInfo.h"
2784bc5427d6883f73cfeae3da640acd011d35c006Chris Lattner#include "llvm/CodeGen/MachineModuleInfo.h"
2884bc5427d6883f73cfeae3da640acd011d35c006Chris Lattner#include "llvm/CodeGen/MachineRegisterInfo.h"
2949dd06461a7e027a6c938f0570297d46f2f34218Evan Cheng#include "llvm/CodeGen/RegisterScavenging.h"
3058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner#include "llvm/Target/TargetMachine.h"
316f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman#include "llvm/Target/TargetRegisterInfo.h"
328bd66e690779c838db51f55cf0b31d7206b3b659Chris Lattner#include "llvm/Target/TargetFrameInfo.h"
333501feab811c86c9659248a4875fc31a3165f84dChris Lattner#include "llvm/Target/TargetInstrInfo.h"
343d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach#include "llvm/Support/CommandLine.h"
35a4f0b3a084d120cfc5b5bb06f64b222f5cb72740Chris Lattner#include "llvm/Support/Compiler.h"
363d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach#include "llvm/ADT/IndexedMap.h"
378e3347332120956538a6d882b02719e34b57f0cdEvan Cheng#include "llvm/ADT/STLExtras.h"
38c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng#include <climits>
39ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
4005d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattnerusing namespace llvm;
41d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke
42378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosbychar PEI::ID = 0;
43b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
44378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosbystatic RegisterPass<PEI>
45378553cb079aba2b8dee5d52b5166316d4132d5aJohn MosbyX("prologepilog", "Prologue/Epilogue Insertion");
46b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
4758b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner/// createPrologEpilogCodeInserter - This function returns a pass that inserts
4858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner/// prolog and epilog code, and eliminates abstract frame references.
4958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner///
5005d8350c12d8d81de1d8af6f7da155bc1c1da50eChris LattnerFunctionPass *llvm::createPrologEpilogCodeInserter() { return new PEI(); }
5158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
52378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby/// runOnMachineFunction - Insert prolog/epilog code and replace abstract
53378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby/// frame indexes with appropriate references.
54b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby///
55378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosbybool PEI::runOnMachineFunction(MachineFunction &Fn) {
56c5ec8a78ea898087ad361e5b755f74a76150e5fdAnton Korobeynikov  const Function* F = Fn.getFunction();
57b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  const TargetRegisterInfo *TRI = Fn.getTarget().getRegisterInfo();
58378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  RS = TRI->requiresRegisterScavenging(Fn) ? new RegScavenger() : NULL;
5965c58daa8b8985d2116216043103009815a55e77Jim Grosbach  FrameIndexVirtualScavenging = TRI->requiresFrameIndexScavenging(Fn);
60378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
61378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Get MachineModuleInfo so that we can track the construction of the
62378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // frame.
63378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  if (MachineModuleInfo *MMI = getAnalysisIfAvailable<MachineModuleInfo>())
64378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby    Fn.getFrameInfo()->setMachineModuleInfo(MMI);
65378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
6633b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Calculate the MaxCallFrameSize and HasCalls variables for the function's
6733b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // frame information. Also eliminates call frame pseudo instructions.
6833b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  calculateCallsInformation(Fn);
6933b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
70378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Allow the target machine to make some adjustments to the function
71378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // e.g. UsedPhysRegs before calculateCalleeSavedRegisters.
72378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  TRI->processFunctionBeforeCalleeSavedScan(Fn, RS);
73378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
7433b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Scan the function for modified callee saved registers and insert spill code
7533b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // for any callee saved registers that are modified.
76378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  calculateCalleeSavedRegisters(Fn);
77378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
78378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Determine placement of CSR spill/restore code:
79378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //  - with shrink wrapping, place spills and restores to tightly
80378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //    enclose regions in the Machine CFG of the function where
81378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //    they are used. Without shrink wrapping
82378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //  - default (no shrink wrapping), place all spills in the
83378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //    entry block, all restores in return blocks.
84378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  placeCSRSpillsAndRestores(Fn);
85378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
86378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Add the code to save and restore the callee saved registers
87c5ec8a78ea898087ad361e5b755f74a76150e5fdAnton Korobeynikov  if (!F->hasFnAttr(Attribute::Naked))
88c5ec8a78ea898087ad361e5b755f74a76150e5fdAnton Korobeynikov    insertCSRSpillsAndRestores(Fn);
89378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
90378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Allow the target machine to make final modifications to the function
91378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // before the frame layout is finalized.
92378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  TRI->processFunctionBeforeFrameFinalized(Fn);
93378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
94378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Calculate actual frame offsets for all abstract stack objects...
95378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  calculateFrameObjectOffsets(Fn);
96378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
97378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Add prolog and epilog code to the function.  This function is required
98378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // to align the stack frame as necessary for any stack variables or
99378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // called functions.  Because of this, calculateCalleeSavedRegisters
100378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // must be called before this function in order to set the HasCalls
101378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // and MaxCallFrameSize variables.
102c5ec8a78ea898087ad361e5b755f74a76150e5fdAnton Korobeynikov  if (!F->hasFnAttr(Attribute::Naked))
103c5ec8a78ea898087ad361e5b755f74a76150e5fdAnton Korobeynikov    insertPrologEpilogCode(Fn);
104378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby
105378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // Replace all MO_FrameIndex operands with physical register references
106378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  // and actual offsets.
107378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  //
108378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  replaceFrameIndices(Fn);
109b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
1103d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  // If register scavenging is needed, as we've enabled doing it as a
1113d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  // post-pass, scavenge the virtual registers that frame index elimiation
1123d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  // inserted.
1133d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  if (TRI->requiresRegisterScavenging(Fn) && FrameIndexVirtualScavenging)
1143d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach    scavengeFrameVirtualRegs(Fn);
1153d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach
116378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  delete RS;
117378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  clearAllSets();
118b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  return true;
119ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby}
120ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
121378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby#if 0
122378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosbyvoid PEI::getAnalysisUsage(AnalysisUsage &AU) const {
123845012e6d31799c7fbd1193fa1af8ee2d12e9231Dan Gohman  AU.setPreservesCFG();
124378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  if (ShrinkWrapping || ShrinkWrapFunc != "") {
125378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby    AU.addRequired<MachineLoopInfo>();
126378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby    AU.addRequired<MachineDominatorTree>();
127b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  }
128378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  AU.addPreserved<MachineLoopInfo>();
129378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  AU.addPreserved<MachineDominatorTree>();
130378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby  MachineFunctionPass::getAnalysisUsage(AU);
131ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby}
132378553cb079aba2b8dee5d52b5166316d4132d5aJohn Mosby#endif
133ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
13433b350bf24be396a127c81af045468765731afc7Anton Korobeynikov/// calculateCallsInformation - Calculate the MaxCallFrameSize and HasCalls
13533b350bf24be396a127c81af045468765731afc7Anton Korobeynikov/// variables for the function's frame information and eliminate call frame
13633b350bf24be396a127c81af045468765731afc7Anton Korobeynikov/// pseudo instructions.
13733b350bf24be396a127c81af045468765731afc7Anton Korobeynikovvoid PEI::calculateCallsInformation(MachineFunction &Fn) {
1386f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman  const TargetRegisterInfo *RegInfo = Fn.getTarget().getRegisterInfo();
13958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
14033b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  unsigned MaxCallFrameSize = 0;
14133b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  bool HasCalls = false;
14258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
14358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  // Get the function call frame set-up and tear-down instruction opcode
14458b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  int FrameSetupOpcode   = RegInfo->getCallFrameSetupOpcode();
14558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  int FrameDestroyOpcode = RegInfo->getCallFrameDestroyOpcode();
14658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
14733b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Early exit for targets which have no call frame setup/destroy pseudo
14833b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // instructions.
14933b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  if (FrameSetupOpcode == -1 && FrameDestroyOpcode == -1)
15058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner    return;
15158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
1525c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng  std::vector<MachineBasicBlock::iterator> FrameSDOps;
15358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  for (MachineFunction::iterator BB = Fn.begin(), E = Fn.end(); BB != E; ++BB)
1545c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng    for (MachineBasicBlock::iterator I = BB->begin(); I != BB->end(); ++I)
155c0b9dc5be79f009d260edb5cd5e1d8346587aaa2Alkis Evlogimenos      if (I->getOpcode() == FrameSetupOpcode ||
156d555da52f4301f0a221845d5a549848f5ae84577Chris Lattner          I->getOpcode() == FrameDestroyOpcode) {
1572a82ef317c39ac436f80854c7ddbb06bfddeada1Chris Lattner        assert(I->getNumOperands() >= 1 && "Call Frame Setup/Destroy Pseudo"
158d555da52f4301f0a221845d5a549848f5ae84577Chris Lattner               " instructions should have a single immediate argument!");
1599e3304900ff69c4920fea7369c9c36916c4a6a6aChris Lattner        unsigned Size = I->getOperand(0).getImm();
160d555da52f4301f0a221845d5a549848f5ae84577Chris Lattner        if (Size > MaxCallFrameSize) MaxCallFrameSize = Size;
161d555da52f4301f0a221845d5a549848f5ae84577Chris Lattner        HasCalls = true;
1625c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng        FrameSDOps.push_back(I);
163423ccfe51daa699a969cd716ce3a69cb2ada6234Dale Johannesen      } else if (I->getOpcode() == TargetInstrInfo::INLINEASM) {
164423ccfe51daa699a969cd716ce3a69cb2ada6234Dale Johannesen        // An InlineAsm might be a call; assume it is to get the stack frame
165423ccfe51daa699a969cd716ce3a69cb2ada6234Dale Johannesen        // aligned correctly for calls.
166423ccfe51daa699a969cd716ce3a69cb2ada6234Dale Johannesen        HasCalls = true;
16758b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner      }
16858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
169eb24db9727a7babe863d5afe70c7bda3a460da18Chris Lattner  MachineFrameInfo *FFI = Fn.getFrameInfo();
17058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  FFI->setHasCalls(HasCalls);
17158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  FFI->setMaxCallFrameSize(MaxCallFrameSize);
1728e3347332120956538a6d882b02719e34b57f0cdEvan Cheng
173058a024eb7265239d527680b0a448cdb48102a46Bill Wendling  for (std::vector<MachineBasicBlock::iterator>::iterator
174058a024eb7265239d527680b0a448cdb48102a46Bill Wendling         i = FrameSDOps.begin(), e = FrameSDOps.end(); i != e; ++i) {
175058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    MachineBasicBlock::iterator I = *i;
176058a024eb7265239d527680b0a448cdb48102a46Bill Wendling
177058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    // If call frames are not being included as part of the stack frame, and
178058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    // there is no dynamic allocation (therefore referencing frame slots off
179058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    // sp), leave the pseudo ops alone. We'll eliminate them later.
1808e3347332120956538a6d882b02719e34b57f0cdEvan Cheng    if (RegInfo->hasReservedCallFrame(Fn) || RegInfo->hasFP(Fn))
1818e3347332120956538a6d882b02719e34b57f0cdEvan Cheng      RegInfo->eliminateCallFramePseudoInstr(Fn, *I->getParent(), I);
1825c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng  }
18333b350bf24be396a127c81af045468765731afc7Anton Korobeynikov}
18433b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
18533b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
18633b350bf24be396a127c81af045468765731afc7Anton Korobeynikov/// calculateCalleeSavedRegisters - Scan the function for modified callee saved
18733b350bf24be396a127c81af045468765731afc7Anton Korobeynikov/// registers.
18833b350bf24be396a127c81af045468765731afc7Anton Korobeynikovvoid PEI::calculateCalleeSavedRegisters(MachineFunction &Fn) {
18933b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  const TargetRegisterInfo *RegInfo = Fn.getTarget().getRegisterInfo();
19033b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  const TargetFrameInfo *TFI = Fn.getTarget().getFrameInfo();
19133b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  MachineFrameInfo *FFI = Fn.getFrameInfo();
19233b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
19333b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Get the callee saved register list...
19433b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  const unsigned *CSRegs = RegInfo->getCalleeSavedRegs(&Fn);
19533b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
19633b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // These are used to keep track the callee-save area. Initialize them.
19733b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  MinCSFrameIndex = INT_MAX;
19833b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  MaxCSFrameIndex = 0;
19933b350bf24be396a127c81af045468765731afc7Anton Korobeynikov
20033b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Early exit for targets which have no callee saved registers.
20133b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  if (CSRegs == 0 || CSRegs[0] == 0)
20233b350bf24be396a127c81af045468765731afc7Anton Korobeynikov    return;
20358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
20433b350bf24be396a127c81af045468765731afc7Anton Korobeynikov  // Figure out which *callee saved* registers are modified by the current
20558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  // function, thus needing to be saved and restored in the prolog/epilog.
206058a024eb7265239d527680b0a448cdb48102a46Bill Wendling  const TargetRegisterClass * const *CSRegClasses =
2072365f51ed03afe6993bae962fdc2e5a956a64cd5Anton Korobeynikov    RegInfo->getCalleeSavedRegClasses(&Fn);
208058a024eb7265239d527680b0a448cdb48102a46Bill Wendling
20908ede262a744f99429658fadb43662441bdcb42dJim Laskey  std::vector<CalleeSavedInfo> CSI;
21058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  for (unsigned i = 0; CSRegs[i]; ++i) {
21158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner    unsigned Reg = CSRegs[i];
2122afb3b7251dbcfadef7a8126e9516bde78fc13bbJim Grosbach    if (Fn.getRegInfo().isPhysRegUsed(Reg)) {
213058a024eb7265239d527680b0a448cdb48102a46Bill Wendling      // If the reg is modified, save it!
214f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey      CSI.push_back(CalleeSavedInfo(Reg, CSRegClasses[i]));
21573ff5120eb8b8c0ccbfed8a17f1024c67a75f319Alkis Evlogimenos    } else {
21673ff5120eb8b8c0ccbfed8a17f1024c67a75f319Alkis Evlogimenos      for (const unsigned *AliasSet = RegInfo->getAliasSet(Reg);
2173563015b0df358cfc4ec310eb0df195015ea54a5Chris Lattner           *AliasSet; ++AliasSet) {  // Check alias registers too.
21884bc5427d6883f73cfeae3da640acd011d35c006Chris Lattner        if (Fn.getRegInfo().isPhysRegUsed(*AliasSet)) {
219f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey          CSI.push_back(CalleeSavedInfo(Reg, CSRegClasses[i]));
220d555da52f4301f0a221845d5a549848f5ae84577Chris Lattner          break;
221ecf8afdc2065dec1ca739e2b6a96f8e72dc34533Chris Lattner        }
22273ff5120eb8b8c0ccbfed8a17f1024c67a75f319Alkis Evlogimenos      }
22373ff5120eb8b8c0ccbfed8a17f1024c67a75f319Alkis Evlogimenos    }
22458b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  }
22558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
226f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey  if (CSI.empty())
227c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng    return;   // Early exit if no callee saved registers are modified!
22858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
229c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner  unsigned NumFixedSpillSlots;
2308ff95de83cbe85d939535d2f4fb5f9b2b721081aTilmann Scheller  const TargetFrameInfo::SpillSlot *FixedSpillSlots =
231ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng    TFI->getCalleeSavedSpillSlots(NumFixedSpillSlots);
232c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner
23358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  // Now that we know which registers need to be saved and restored, allocate
23458b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  // stack slots for them.
235058a024eb7265239d527680b0a448cdb48102a46Bill Wendling  for (std::vector<CalleeSavedInfo>::iterator
236058a024eb7265239d527680b0a448cdb48102a46Bill Wendling         I = CSI.begin(), E = CSI.end(); I != E; ++I) {
237058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    unsigned Reg = I->getReg();
238058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    const TargetRegisterClass *RC = I->getRegClass();
239c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner
240910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng    int FrameIdx;
241910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng    if (RegInfo->hasReservedSpillSlot(Fn, Reg, FrameIdx)) {
242910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng      I->setFrameIdx(FrameIdx);
243910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng      continue;
244910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng    }
245910139f9ca53fc20a680d51ae61bb1e072095141Evan Cheng
246c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner    // Check to see if this physreg must be spilled to a particular stack slot
247c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner    // on this target.
2488ff95de83cbe85d939535d2f4fb5f9b2b721081aTilmann Scheller    const TargetFrameInfo::SpillSlot *FixedSlot = FixedSpillSlots;
249c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner    while (FixedSlot != FixedSpillSlots+NumFixedSpillSlots &&
2508ff95de83cbe85d939535d2f4fb5f9b2b721081aTilmann Scheller           FixedSlot->Reg != Reg)
251c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner      ++FixedSlot;
252c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner
253058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    if (FixedSlot == FixedSpillSlots + NumFixedSpillSlots) {
254c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner      // Nope, just spill it anywhere convenient.
2555feaa9a70716e9181a9b940236bc461f2a75334aEvan Cheng      unsigned Align = RC->getAlignment();
2565feaa9a70716e9181a9b940236bc461f2a75334aEvan Cheng      unsigned StackAlign = TFI->getStackAlignment();
257058a024eb7265239d527680b0a448cdb48102a46Bill Wendling
258058a024eb7265239d527680b0a448cdb48102a46Bill Wendling      // We may not be able to satisfy the desired alignment specification of
259058a024eb7265239d527680b0a448cdb48102a46Bill Wendling      // the TargetRegisterClass if the stack alignment is smaller. Use the
260058a024eb7265239d527680b0a448cdb48102a46Bill Wendling      // min.
2615feaa9a70716e9181a9b940236bc461f2a75334aEvan Cheng      Align = std::min(Align, StackAlign);
262491f54f1fd700204db0a19efde0cc2627641d711Evan Cheng      FrameIdx = FFI->CreateStackObject(RC->getSize(), Align, true);
263c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      if ((unsigned)FrameIdx < MinCSFrameIndex) MinCSFrameIndex = FrameIdx;
264c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      if ((unsigned)FrameIdx > MaxCSFrameIndex) MaxCSFrameIndex = FrameIdx;
265c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner    } else {
266c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner      // Spill it to the stack where we must.
2678ff95de83cbe85d939535d2f4fb5f9b2b721081aTilmann Scheller      FrameIdx = FFI->CreateFixedObject(RC->getSize(), FixedSlot->Offset);
268c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner    }
269058a024eb7265239d527680b0a448cdb48102a46Bill Wendling
270058a024eb7265239d527680b0a448cdb48102a46Bill Wendling    I->setFrameIdx(FrameIdx);
27158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  }
27208ede262a744f99429658fadb43662441bdcb42dJim Laskey
27308ede262a744f99429658fadb43662441bdcb42dJim Laskey  FFI->setCalleeSavedInfo(CSI);
274c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner}
275c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner
276ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby/// insertCSRSpillsAndRestores - Insert spill and restore code for
277ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby/// callee saved registers used in the function, handling shrink wrapping.
278c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner///
279ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosbyvoid PEI::insertCSRSpillsAndRestores(MachineFunction &Fn) {
280f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey  // Get callee saved register information.
281f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey  MachineFrameInfo *FFI = Fn.getFrameInfo();
28208ede262a744f99429658fadb43662441bdcb42dJim Laskey  const std::vector<CalleeSavedInfo> &CSI = FFI->getCalleeSavedInfo();
283ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
284d62c9a697b53f9e754926a89126fd121220ed09bJakob Stoklund Olesen  FFI->setCalleeSavedInfoValid(true);
285d62c9a697b53f9e754926a89126fd121220ed09bJakob Stoklund Olesen
286c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  // Early exit if no callee saved registers are modified!
287f3e4f0e615bb2c36c4a9d60bb908e08b76025c75Jim Laskey  if (CSI.empty())
288edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman    return;
289c330b68fb7f1cb7f05a60ab4d811bba397538840Chris Lattner
290f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson  const TargetInstrInfo &TII = *Fn.getTarget().getInstrInfo();
291ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby  MachineBasicBlock::iterator I;
29200dff8dda29b5a249cd99405ce26e84cef13ba53Evan Cheng
293b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  if (! ShrinkWrapThisFunction) {
294b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // Spill using target interface.
295b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    I = EntryBlock->begin();
296b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    if (!TII.spillCalleeSavedRegisters(*EntryBlock, I, CSI)) {
297b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      for (unsigned i = 0, e = CSI.size(); i != e; ++i) {
298ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby        // Add the callee-saved register as live-in.
299ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby        // It's killed at the spill.
300b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        EntryBlock->addLiveIn(CSI[i].getReg());
301ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
302ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby        // Insert the spill to the stack frame.
303b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        TII.storeRegToStackSlot(*EntryBlock, I, CSI[i].getReg(), true,
304b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                                CSI[i].getFrameIdx(), CSI[i].getRegClass());
305ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      }
306ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng    }
307ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
308b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // Restore using target interface.
309b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    for (unsigned ri = 0, re = ReturnBlocks.size(); ri != re; ++ri) {
310b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      MachineBasicBlock* MBB = ReturnBlocks[ri];
311c0b9dc5be79f009d260edb5cd5e1d8346587aaa2Alkis Evlogimenos      I = MBB->end(); --I;
31258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
313f7c094000f4baf094b1d60ba68a5b4e0193c502aBill Wendling      // Skip over all terminator instructions, which are part of the return
3144fc997941dde5c11e91a28c9b5b8fa331d053a18Chris Lattner      // sequence.
3154fc997941dde5c11e91a28c9b5b8fa331d053a18Chris Lattner      MachineBasicBlock::iterator I2 = I;
316f7c094000f4baf094b1d60ba68a5b4e0193c502aBill Wendling      while (I2 != MBB->begin() && (--I2)->getDesc().isTerminator())
3174fc997941dde5c11e91a28c9b5b8fa331d053a18Chris Lattner        I = I2;
3184fc997941dde5c11e91a28c9b5b8fa331d053a18Chris Lattner
319dfd58709cc78e841ef4a50ba75d940473031617eChris Lattner      bool AtStart = I == MBB->begin();
320ed461e0fafbd0b905cb716df108000bcd6ecf3d4Chris Lattner      MachineBasicBlock::iterator BeforeI = I;
321ed461e0fafbd0b905cb716df108000bcd6ecf3d4Chris Lattner      if (!AtStart)
322ed461e0fafbd0b905cb716df108000bcd6ecf3d4Chris Lattner        --BeforeI;
323ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
324ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // Restore all registers immediately before the return and any
325ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // terminators that preceed it.
326a393cd3306b865e8e5d82dc4e6cfabcdf5d8dc44Owen Anderson      if (!TII.restoreCalleeSavedRegisters(*MBB, I, CSI)) {
327ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng        for (unsigned i = 0, e = CSI.size(); i != e; ++i) {
328f6372aa1cc568df19da7c5023e83c75aa9404a07Owen Anderson          TII.loadRegFromStackSlot(*MBB, I, CSI[i].getReg(),
329ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby                                   CSI[i].getFrameIdx(),
330ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby                                   CSI[i].getRegClass());
331ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng          assert(I != MBB->begin() &&
332ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng                 "loadRegFromStackSlot didn't insert any code!");
333ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby          // Insert in reverse order.  loadRegFromStackSlot can insert
334ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby          // multiple instructions.
335ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng          if (AtStart)
336ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng            I = MBB->begin();
337ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng          else {
338ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng            I = BeforeI;
339ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng            ++I;
340ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng          }
341ed461e0fafbd0b905cb716df108000bcd6ecf3d4Chris Lattner        }
34258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner      }
343b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    }
344b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    return;
345b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  }
346ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
347b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  // Insert spills.
348b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  std::vector<CalleeSavedInfo> blockCSI;
349b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  for (CSRegBlockMap::iterator BI = CSRSave.begin(),
350b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby         BE = CSRSave.end(); BI != BE; ++BI) {
351b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    MachineBasicBlock* MBB = BI->first;
352b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    CSRegSet save = BI->second;
353ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
354b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    if (save.empty())
355b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      continue;
356ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
357b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    blockCSI.clear();
358b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    for (CSRegSet::iterator RI = save.begin(),
359b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby           RE = save.end(); RI != RE; ++RI) {
360b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      blockCSI.push_back(CSI[*RI]);
361b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    }
362b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    assert(blockCSI.size() > 0 &&
363b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby           "Could not collect callee saved register info");
364b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
365b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    I = MBB->begin();
366b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
367b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // When shrink wrapping, use stack slot stores/loads.
368b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    for (unsigned i = 0, e = blockCSI.size(); i != e; ++i) {
369b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // Add the callee-saved register as live-in.
370b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // It's killed at the spill.
371b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      MBB->addLiveIn(blockCSI[i].getReg());
372b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
373b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // Insert the spill to the stack frame.
374b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      TII.storeRegToStackSlot(*MBB, I, blockCSI[i].getReg(),
375b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                              true,
376b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                              blockCSI[i].getFrameIdx(),
377b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                              blockCSI[i].getRegClass());
378b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    }
379b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  }
380b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
381b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby  for (CSRegBlockMap::iterator BI = CSRRestore.begin(),
382b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby         BE = CSRRestore.end(); BI != BE; ++BI) {
383b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    MachineBasicBlock* MBB = BI->first;
384b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    CSRegSet restore = BI->second;
385b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
386b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    if (restore.empty())
387b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      continue;
388b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
389b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    blockCSI.clear();
390b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    for (CSRegSet::iterator RI = restore.begin(),
391b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby           RE = restore.end(); RI != RE; ++RI) {
392b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      blockCSI.push_back(CSI[*RI]);
393b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    }
394b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    assert(blockCSI.size() > 0 &&
395b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby           "Could not find callee saved register info");
396b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
397b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // If MBB is empty and needs restores, insert at the _beginning_.
398b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    if (MBB->empty()) {
399b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      I = MBB->begin();
400b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    } else {
401b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      I = MBB->end();
402b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      --I;
403b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
404b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // Skip over all terminator instructions, which are part of the
405b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // return sequence.
406b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      if (! I->getDesc().isTerminator()) {
407b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        ++I;
408ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      } else {
409b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        MachineBasicBlock::iterator I2 = I;
410b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        while (I2 != MBB->begin() && (--I2)->getDesc().isTerminator())
411b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby          I = I2;
412ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      }
413b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    }
414ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
415b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    bool AtStart = I == MBB->begin();
416b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    MachineBasicBlock::iterator BeforeI = I;
417b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    if (!AtStart)
418b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      --BeforeI;
419b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
420b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // Restore all registers immediately before the return and any
421b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    // terminators that preceed it.
422b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby    for (unsigned i = 0, e = blockCSI.size(); i != e; ++i) {
423b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      TII.loadRegFromStackSlot(*MBB, I, blockCSI[i].getReg(),
424b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                               blockCSI[i].getFrameIdx(),
425b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby                               blockCSI[i].getRegClass());
426b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      assert(I != MBB->begin() &&
427b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby             "loadRegFromStackSlot didn't insert any code!");
428b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // Insert in reverse order.  loadRegFromStackSlot can insert
429b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      // multiple instructions.
430b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      if (AtStart)
431b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        I = MBB->begin();
432b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby      else {
433b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        I = BeforeI;
434b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby        ++I;
435ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      }
43658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner    }
437ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby  }
43858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner}
43958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
440cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling/// AdjustStackOffset - Helper function used to adjust the stack frame offset.
441cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendlingstatic inline void
442cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill WendlingAdjustStackOffset(MachineFrameInfo *FFI, int FrameIdx,
443cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling                  bool StackGrowsDown, int64_t &Offset,
444cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling                  unsigned &MaxAlign) {
44594188d4e67cf1c570ad87dbabf198931033d628eBob Wilson  // If the stack grows down, add the object size to find the lowest address.
446cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  if (StackGrowsDown)
447cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    Offset += FFI->getObjectSize(FrameIdx);
448cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling
449cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  unsigned Align = FFI->getObjectAlignment(FrameIdx);
450cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling
451cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  // If the alignment of this object is greater than that of the stack, then
452cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  // increase the stack alignment to match.
453cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  MaxAlign = std::max(MaxAlign, Align);
454cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling
455cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  // Adjust to alignment boundary.
456cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  Offset = (Offset + Align - 1) / Align * Align;
457cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling
458cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  if (StackGrowsDown) {
459cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    FFI->setObjectOffset(FrameIdx, -Offset); // Set the computed offset
460cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  } else {
461cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    FFI->setObjectOffset(FrameIdx, Offset);
462cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    Offset += FFI->getObjectSize(FrameIdx);
463cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  }
464cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling}
46558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
46658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner/// calculateFrameObjectOffsets - Calculate actual frame offsets for all of the
46792b9fcea7b3180ed18f379212d14bd5cea7a1954Chris Lattner/// abstract stack objects.
46858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner///
46958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattnervoid PEI::calculateFrameObjectOffsets(MachineFunction &Fn) {
4709bcdcd17c7219dbc68de2f11ca2de86471c8c390Chris Lattner  const TargetFrameInfo &TFI = *Fn.getTarget().getFrameInfo();
471edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman
47258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  bool StackGrowsDown =
47358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner    TFI.getStackGrowthDirection() == TargetFrameInfo::StackGrowsDown;
474edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman
47558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  // Loop over all of the stack objects, assigning sequential addresses...
476eb24db9727a7babe863d5afe70c7bda3a460da18Chris Lattner  MachineFrameInfo *FFI = Fn.getFrameInfo();
47758b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
4780035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson  unsigned MaxAlign = 1;
47978d6db5627bdf41ab3ffd96133821647dbc60d53Chris Lattner
48005d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattner  // Start at the beginning of the local area.
481577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner  // The Offset is the distance from the stack top in the direction
482c0d6012b31afa2220306afa27db1b02e18427776Dan Gohman  // of stack growth -- so it's always nonnegative.
483c34666ee1871d47dfa4865c7138902dd1b770101Bob Wilson  int LocalAreaOffset = TFI.getOffsetOfLocalArea();
484577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner  if (StackGrowsDown)
485c34666ee1871d47dfa4865c7138902dd1b770101Bob Wilson    LocalAreaOffset = -LocalAreaOffset;
486c34666ee1871d47dfa4865c7138902dd1b770101Bob Wilson  assert(LocalAreaOffset >= 0
487577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner         && "Local area offset should be in direction of stack growth");
488c34666ee1871d47dfa4865c7138902dd1b770101Bob Wilson  int64_t Offset = LocalAreaOffset;
489577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner
490577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner  // If there are fixed sized objects that are preallocated in the local area,
491577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner  // non-fixed objects can't be allocated right at the start of local area.
492ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby  // We currently don't support filling in holes in between fixed sized
493ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby  // objects, so we adjust 'Offset' to point to the end of last fixed sized
49405d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattner  // preallocated object.
49505d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattner  for (int i = FFI->getObjectIndexBegin(); i != 0; ++i) {
496a401b1e1c5eb9563617db8a2477b4c5f8b239521Chris Lattner    int64_t FixedOff;
497577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner    if (StackGrowsDown) {
498577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      // The maximum distance from the stack pointer is at lower address of
499577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      // the object -- which is given by offset. For down growing stack
500577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      // the offset is negative, so we negate the offset to get the distance.
501577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      FixedOff = -FFI->getObjectOffset(i);
502577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner    } else {
503edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman      // The maximum distance from the start pointer is at the upper
504577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      // address of the object.
505577aec14288b86ab1fb07e164375ebc7d3038cb7Chris Lattner      FixedOff = FFI->getObjectOffset(i) + FFI->getObjectSize(i);
506edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman    }
507edf128a7fa90f2b0b7ee24741a04a7ae1ecd6f7eMisha Brukman    if (FixedOff > Offset) Offset = FixedOff;
50805d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattner  }
50905d8350c12d8d81de1d8af6f7da155bc1c1da50eChris Lattner
510c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  // First assign frame offsets to stack objects that are used to spill
511ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng  // callee saved registers.
512c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  if (StackGrowsDown) {
5135c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng    for (unsigned i = MinCSFrameIndex; i <= MaxCSFrameIndex; ++i) {
514c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      // If stack grows down, we need to add size of find the lowest
515c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      // address of the object.
516c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      Offset += FFI->getObjectSize(i);
517c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng
518c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      unsigned Align = FFI->getObjectAlignment(i);
519ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // If the alignment of this object is greater than that of the stack,
520ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // then increase the stack alignment to match.
521c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      MaxAlign = std::max(MaxAlign, Align);
522c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      // Adjust to alignment boundary
523c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      Offset = (Offset+Align-1)/Align*Align;
524c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng
525c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      FFI->setObjectOffset(i, -Offset);        // Set the computed offset
526c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng    }
527c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  } else {
528a8c63f0fc9feb48f17d702a907f065959c41e337Bruno Cardoso Lopes    int MaxCSFI = MaxCSFrameIndex, MinCSFI = MinCSFrameIndex;
529a8c63f0fc9feb48f17d702a907f065959c41e337Bruno Cardoso Lopes    for (int i = MaxCSFI; i >= MinCSFI ; --i) {
530c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      unsigned Align = FFI->getObjectAlignment(i);
531ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // If the alignment of this object is greater than that of the stack,
532ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby      // then increase the stack alignment to match.
533c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      MaxAlign = std::max(MaxAlign, Align);
534c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      // Adjust to alignment boundary
535c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      Offset = (Offset+Align-1)/Align*Align;
536c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng
537c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      FFI->setObjectOffset(i, Offset);
538c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      Offset += FFI->getObjectSize(i);
539c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng    }
540c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  }
541c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng
54287f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  // Make sure the special register scavenging spill slot is closest to the
54387f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  // frame pointer if a frame pointer is required.
5446f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman  const TargetRegisterInfo *RegInfo = Fn.getTarget().getRegisterInfo();
54587f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  if (RS && RegInfo->hasFP(Fn)) {
54687f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng    int SFI = RS->getScavengingFrameIndex();
547cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    if (SFI >= 0)
548cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling      AdjustStackOffset(FFI, SFI, StackGrowsDown, Offset, MaxAlign);
54987f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  }
55087f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng
551b2a4298ce41e7ef80cd75a3c1dfa6433f0759a1aBill Wendling  // Make sure that the stack protector comes before the local variables on the
552b2a4298ce41e7ef80cd75a3c1dfa6433f0759a1aBill Wendling  // stack.
553cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling  if (FFI->getStackProtectorIndex() >= 0)
554cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    AdjustStackOffset(FFI, FFI->getStackProtectorIndex(), StackGrowsDown,
555cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling                      Offset, MaxAlign);
556b2a4298ce41e7ef80cd75a3c1dfa6433f0759a1aBill Wendling
557c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng  // Then assign frame offsets to stack objects that are not used to spill
558ad93d7fda53d92d07a3b3a2087e46de7cd695752Evan Cheng  // callee saved registers.
55958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  for (unsigned i = 0, e = FFI->getObjectIndexEnd(); i != e; ++i) {
560c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng    if (i >= MinCSFrameIndex && i <= MaxCSFrameIndex)
561c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng      continue;
56287f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng    if (RS && (int)i == RS->getScavengingFrameIndex())
56387f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng      continue;
564d36531249a9a9500e516148e7e72d4c0a7a4d0eeEvan Cheng    if (FFI->isDeadObjectIndex(i))
565d36531249a9a9500e516148e7e72d4c0a7a4d0eeEvan Cheng      continue;
56644cf38c01ff610139d2e8dbbdc4e6123a3debcddBill Wendling    if (FFI->getStackProtectorIndex() == (int)i)
56744cf38c01ff610139d2e8dbbdc4e6123a3debcddBill Wendling      continue;
568c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng
569cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    AdjustStackOffset(FFI, i, StackGrowsDown, Offset, MaxAlign);
57058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  }
57158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
57287f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  // Make sure the special register scavenging spill slot is closest to the
57387f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  // stack pointer.
5748d410b69384ae4e178b3b522ef3357290a714de5Lauro Ramos Venancio  if (RS && !RegInfo->hasFP(Fn)) {
57587f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng    int SFI = RS->getScavengingFrameIndex();
576cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling    if (SFI >= 0)
577cab3e68136b20a10cb0fe8ad97874bacf27dda7dBill Wendling      AdjustStackOffset(FFI, SFI, StackGrowsDown, Offset, MaxAlign);
57887f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng  }
57987f8bf65dd869348dd4d2884a417e2e22ae4f981Evan Cheng
5800035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson  if (!RegInfo->targetHandlesStackFrameRounding()) {
5815c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng    // If we have reserved argument space for call sites in the function
5825c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng    // immediately on entry to the current function, count it as part of the
5835c3885ce8e6a3dc69913b50fe6bdc0c89c5432d5Evan Cheng    // overall stack size.
5840035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    if (FFI->hasCalls() && RegInfo->hasReservedCallFrame(Fn))
585367372a30c36776e31958f0dc38306f32b80aa7cEvan Cheng      Offset += FFI->getMaxCallFrameSize();
586367372a30c36776e31958f0dc38306f32b80aa7cEvan Cheng
5870035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // Round up the size to a multiple of the alignment.  If the function has
5880035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // any calls or alloca's, align to the target's StackAlignment value to
5890035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // ensure that the callee's frame or the alloca data is suitably aligned;
5900035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // otherwise, for leaf functions, align to the TransientStackAlignment
5910035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // value.
5920035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    unsigned StackAlign;
5930035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    if (FFI->hasCalls() || FFI->hasVarSizedObjects() ||
5940035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson        (RegInfo->needsStackRealignment(Fn) && FFI->getObjectIndexEnd() != 0))
5950035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson      StackAlign = TFI.getStackAlignment();
5960035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    else
5970035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson      StackAlign = TFI.getTransientStackAlignment();
5980035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // If the frame pointer is eliminated, all frame offsets will be relative
5990035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    // to SP not FP; align to MaxAlign so this works.
6000035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    StackAlign = std::max(StackAlign, MaxAlign);
6010035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    unsigned AlignMask = StackAlign - 1;
602ea84c5ee952c62dd0c703c9852d7a60715e4a435Chris Lattner    Offset = (Offset + AlignMask) & ~uint64_t(AlignMask);
603367372a30c36776e31958f0dc38306f32b80aa7cEvan Cheng  }
604367372a30c36776e31958f0dc38306f32b80aa7cEvan Cheng
605367372a30c36776e31958f0dc38306f32b80aa7cEvan Cheng  // Update frame info to pretend that this is part of the stack...
606c34666ee1871d47dfa4865c7138902dd1b770101Bob Wilson  FFI->setStackSize(Offset - LocalAreaOffset);
607cbef8ba5f959b3c4f932005ceef5cf2e0d899f9bChris Lattner
608cbef8ba5f959b3c4f932005ceef5cf2e0d899f9bChris Lattner  // Remember the required stack alignment in case targets need it to perform
609cbef8ba5f959b3c4f932005ceef5cf2e0d899f9bChris Lattner  // dynamic stack alignment.
6100035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson  if (MaxAlign > FFI->getMaxAlignment())
6110035f9c3b9982eeef098b608fceb7572df969b3eBob Wilson    FFI->setMaxAlignment(MaxAlign);
6124ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner}
6134ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner
6144ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner
615c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng/// insertPrologEpilogCode - Scan the function for modified callee saved
616c2b4ec37dea2586765a04d74120e1b6197bbd804Evan Cheng/// registers, insert spill code for these callee saved registers, then add
6174ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner/// prolog and epilog code to the function.
6184ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner///
6194ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattnervoid PEI::insertPrologEpilogCode(MachineFunction &Fn) {
620874384e20f618d6ac932628db64e048757213fcdAnton Korobeynikov  const TargetRegisterInfo *TRI = Fn.getTarget().getRegisterInfo();
621874384e20f618d6ac932628db64e048757213fcdAnton Korobeynikov
6224ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner  // Add prologue to the function...
623874384e20f618d6ac932628db64e048757213fcdAnton Korobeynikov  TRI->emitPrologue(Fn);
6244ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner
6254ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner  // Add epilogue to restore the callee-save registers in each exiting block
6264ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner  for (MachineFunction::iterator I = Fn.begin(), E = Fn.end(); I != E; ++I) {
6274ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner    // If last instruction is a return instruction, add an epilogue
628749c6f6b5ed301c84aac562e414486549d7b98ebChris Lattner    if (!I->empty() && I->back().getDesc().isReturn())
629874384e20f618d6ac932628db64e048757213fcdAnton Korobeynikov      TRI->emitEpilogue(Fn, *I);
6304ac7d7302b36a5d20f71b5c290c63a7f6c345289Chris Lattner  }
63158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner}
63258b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
63358b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
63458b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner/// replaceFrameIndices - Replace all MO_FrameIndex operands with physical
63558b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner/// register references and actual offsets.
63658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner///
63758b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattnervoid PEI::replaceFrameIndices(MachineFunction &Fn) {
63858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  if (!Fn.getFrameInfo()->hasStackObjects()) return; // Nothing to do?
63958b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
64058b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  const TargetMachine &TM = Fn.getTarget();
64158b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner  assert(TM.getRegisterInfo() && "TM::getRegisterInfo() must be implemented!");
6426f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman  const TargetRegisterInfo &TRI = *TM.getRegisterInfo();
6438e3347332120956538a6d882b02719e34b57f0cdEvan Cheng  const TargetFrameInfo *TFI = TM.getFrameInfo();
6448e3347332120956538a6d882b02719e34b57f0cdEvan Cheng  bool StackGrowsDown =
6458e3347332120956538a6d882b02719e34b57f0cdEvan Cheng    TFI->getStackGrowthDirection() == TargetFrameInfo::StackGrowsDown;
6466f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman  int FrameSetupOpcode   = TRI.getCallFrameSetupOpcode();
6476f0d024a534af18d9e60b3ea757376cd8a3a980eDan Gohman  int FrameDestroyOpcode = TRI.getCallFrameDestroyOpcode();
64858b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner
649ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby  for (MachineFunction::iterator BB = Fn.begin(),
650ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby         E = Fn.end(); BB != E; ++BB) {
6518e3347332120956538a6d882b02719e34b57f0cdEvan Cheng    int SPAdj = 0;  // SP offset due to call frame setup / destroy.
6523d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach    if (RS && !FrameIndexVirtualScavenging) RS->enterBasicBlock(BB);
653ea4d351fc690bd6558fe9ca61db88ee809f0572fJohn Mosby
6540ebe9c132c6b9c74b334f0c7503e702b499575d5Chris Lattner    for (MachineBasicBlock::iterator I = BB->begin(); I != BB->end(); ) {
655405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
656405abffd5eb1ad1841491e51943b598c935f309bBill Wendling      if (I->getOpcode() == FrameSetupOpcode ||
657405abffd5eb1ad1841491e51943b598c935f309bBill Wendling          I->getOpcode() == FrameDestroyOpcode) {
658405abffd5eb1ad1841491e51943b598c935f309bBill Wendling        // Remember how much SP has been adjusted to create the call
659405abffd5eb1ad1841491e51943b598c935f309bBill Wendling        // frame.
66071a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        int Size = I->getOperand(0).getImm();
661405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
66271a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        if ((!StackGrowsDown && I->getOpcode() == FrameSetupOpcode) ||
66371a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner            (StackGrowsDown && I->getOpcode() == FrameDestroyOpcode))
66471a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          Size = -Size;
665988a5782d3ce3cddc65d57d6aac7312d33ed59abBill Wendling
66671a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        SPAdj += Size;
667405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
6685e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner        MachineBasicBlock::iterator PrevI = BB->end();
6695e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner        if (I != BB->begin()) PrevI = prior(I);
67071a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        TRI.eliminateCallFramePseudoInstr(Fn, *BB, I);
671405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
67271a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        // Visit the instructions created by eliminateCallFramePseudoInstr().
6735e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner        if (PrevI == BB->end())
6745e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner          I = BB->begin();     // The replaced instr was the first in the block.
6755e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner        else
6765e6345bde0f3a6405ec1ea852f1e5e5df8642f9cChris Lattner          I = next(PrevI);
67771a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        continue;
6788e3347332120956538a6d882b02719e34b57f0cdEvan Cheng      }
679988a5782d3ce3cddc65d57d6aac7312d33ed59abBill Wendling
68078a5bd5dbd4d99d916c69d89ceaabd83c0e52469Evan Cheng      MachineInstr *MI = I;
681405abffd5eb1ad1841491e51943b598c935f309bBill Wendling      bool DoIncr = true;
682405abffd5eb1ad1841491e51943b598c935f309bBill Wendling      for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i)
683d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman        if (MI->getOperand(i).isFI()) {
68471a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // Some instructions (e.g. inline asm instructions) can have
68571a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // multiple frame indices and/or cause eliminateFrameIndex
68671a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // to insert more than one instruction. We need the register
68771a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // scavenger to go through all of these instructions so that
68871a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // it can update its register information. We keep the
68971a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // iterator at the point before insertion so that we can
69071a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // revisit them in full.
69171a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          bool AtBeginning = (I == BB->begin());
69271a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          if (!AtBeginning) --I;
69371a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner
69471a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // If this instruction has a FrameIndex operand, we need to
69571a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // use that target machine register info object to eliminate
69671a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // it.
697b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          int Value;
698b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          unsigned VReg =
699b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            TRI.eliminateFrameIndex(MI, SPAdj, &Value,
700b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                                    FrameIndexVirtualScavenging ?  NULL : RS);
701b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          if (VReg) {
702b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            assert (FrameIndexVirtualScavenging &&
703b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                    "Not scavenging, but virtual returned from "
704b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                    "eliminateFrameIndex()!");
705b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            FrameConstantRegMap[VReg] = FrameConstantEntry(Value, SPAdj);
706b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          }
70771a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner
70871a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          // Reset the iterator if we were at the beginning of the BB.
70971a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          if (AtBeginning) {
71071a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner            I = BB->begin();
71171a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner            DoIncr = false;
71271a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          }
71371a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner
71471a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          MI = 0;
71571a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner          break;
71671a2cb25ebc818383dd0f80475bc166f834e8d99Chris Lattner        }
717405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
7188fc2d0ee8dd4e077ee90a1fcc36fd0101c2947a2Chris Lattner      if (DoIncr && I != BB->end()) ++I;
719405abffd5eb1ad1841491e51943b598c935f309bBill Wendling
72049dd06461a7e027a6c938f0570297d46f2f34218Evan Cheng      // Update register states.
7213d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach      if (RS && !FrameIndexVirtualScavenging && MI) RS->forward(MI);
72249dd06461a7e027a6c938f0570297d46f2f34218Evan Cheng    }
723988a5782d3ce3cddc65d57d6aac7312d33ed59abBill Wendling
7248e3347332120956538a6d882b02719e34b57f0cdEvan Cheng    assert(SPAdj == 0 && "Unbalanced call frame setup / destroy pairs?");
72549dd06461a7e027a6c938f0570297d46f2f34218Evan Cheng  }
72658b3328ac709a5706a8bfa522012ed90f1b4d4bdChris Lattner}
727b9cfbd94abb23ec8646b9b10aa4ac3d1cbf4461eJohn Mosby
728b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach/// findLastUseReg - find the killing use of the specified register within
729b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach/// the instruciton range. Return the operand number of the kill in Operand.
730b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbachstatic MachineBasicBlock::iterator
731b58f498f7502e7e1833decbbbb4df771367c7341Jim GrosbachfindLastUseReg(MachineBasicBlock::iterator I, MachineBasicBlock::iterator ME,
732332553768242e82383df61d9161d1a665bfb3122Jim Grosbach               unsigned Reg) {
733b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  // Scan forward to find the last use of this virtual register
734b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  for (++I; I != ME; ++I) {
735b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach    MachineInstr *MI = I;
736332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    bool isDefInsn = false;
737332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    bool isKillInsn = false;
738b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach    for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i)
739b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach      if (MI->getOperand(i).isReg()) {
740b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach        unsigned OpReg = MI->getOperand(i).getReg();
741b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach        if (OpReg == 0 || !TargetRegisterInfo::isVirtualRegister(OpReg))
742b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          continue;
743b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach        assert (OpReg == Reg
744b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                && "overlapping use of scavenged index register!");
745332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        // If this is the killing use, we have a candidate.
746332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        if (MI->getOperand(i).isKill())
747332553768242e82383df61d9161d1a665bfb3122Jim Grosbach          isKillInsn = true;
748332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        else if (MI->getOperand(i).isDef())
749332553768242e82383df61d9161d1a665bfb3122Jim Grosbach          isDefInsn = true;
750b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach      }
751332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    if (isKillInsn && !isDefInsn)
752332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      return I;
753b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  }
754b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  // If we hit the end of the basic block, there was no kill of
755b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  // the virtual register, which is wrong.
756b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  assert (0 && "scavenged index register never killed!");
757b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach  return ME;
758b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach}
759b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach
7609a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach/// scavengeFrameVirtualRegs - Replace all frame index virtual registers
7619a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach/// with physical registers. Use the register scavenger to find an
7629a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach/// appropriate register to use.
7633d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbachvoid PEI::scavengeFrameVirtualRegs(MachineFunction &Fn) {
7643d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  // Run through the instructions and find any virtual registers.
7653d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  for (MachineFunction::iterator BB = Fn.begin(),
7663d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach       E = Fn.end(); BB != E; ++BB) {
7673d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach    RS->enterBasicBlock(BB);
7683d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach
769332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    // FIXME: The logic flow in this function is still too convoluted.
770332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    // It needs a cleanup refactoring. Do that in preparation for tracking
771332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    // more than one scratch register value and using ranges to find
772332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    // available scratch registers.
7739a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach    unsigned CurrentVirtReg = 0;
7740a13e566abcfacc3e07f509437060eee294dbfeeJim Grosbach    unsigned CurrentScratchReg = 0;
775e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach    bool havePrevValue = false;
776d0c38327547d6f864bec2e0b88042b1c97b89131Jim Grosbach    int PrevValue = 0;
777391e1704c2e6934bae2ef5df07fc9690c26dbb62Jim Grosbach    MachineInstr *PrevLastUseMI = NULL;
778391e1704c2e6934bae2ef5df07fc9690c26dbb62Jim Grosbach    unsigned PrevLastUseOp = 0;
779e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach    bool trackingCurrentValue = false;
780e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach    int SPAdj = 0;
781e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach    int Value = 0;
7823d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach
783b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach    // The instruction stream may change in the loop, so check BB->end()
784b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach    // directly.
785332553768242e82383df61d9161d1a665bfb3122Jim Grosbach    for (MachineBasicBlock::iterator I = BB->begin(); I != BB->end(); ) {
7863d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach      MachineInstr *MI = I;
78703d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      bool isDefInsn = false;
78803d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      bool isKillInsn = false;
789332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      bool clobbersScratchReg = false;
790332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      bool DoIncr = true;
791332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      for (unsigned i = 0, e = MI->getNumOperands(); i != e; ++i) {
7923d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach        if (MI->getOperand(i).isReg()) {
793b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          MachineOperand &MO = MI->getOperand(i);
794b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          unsigned Reg = MO.getReg();
79532030fe021ee614df6fdd77a2228e0e265049f3dJim Grosbach          if (Reg == 0)
7969a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach            continue;
79732030fe021ee614df6fdd77a2228e0e265049f3dJim Grosbach          if (!TargetRegisterInfo::isVirtualRegister(Reg)) {
798b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            // If we have a previous scratch reg, check and see if anything
799b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            // here kills whatever value is in there.
800332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            if (Reg == CurrentScratchReg) {
801b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              if (MO.isUse()) {
802b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                // Two-address operands implicitly kill
803332553768242e82383df61d9161d1a665bfb3122Jim Grosbach                if (MO.isKill() || MI->isRegTiedToDefOperand(i))
804332553768242e82383df61d9161d1a665bfb3122Jim Grosbach                  clobbersScratchReg = true;
805b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              } else {
806b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach                assert (MO.isDef());
807332553768242e82383df61d9161d1a665bfb3122Jim Grosbach                clobbersScratchReg = true;
808b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              }
809b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            }
81032030fe021ee614df6fdd77a2228e0e265049f3dJim Grosbach            continue;
81132030fe021ee614df6fdd77a2228e0e265049f3dJim Grosbach          }
81203d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach          // If this is a def, remember that this insn defines the value.
81303d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach          // This lets us properly consider insns which re-use the scratch
81403d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach          // register, such as r2 = sub r2, #imm, in the middle of the
81503d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach          // scratch range.
81603d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach          if (MO.isDef())
81703d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach            isDefInsn = true;
8189a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach
819e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach          // Have we already allocated a scratch register for this virtual?
8209a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach          if (Reg != CurrentVirtReg) {
821e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // When we first encounter a new virtual register, it
822e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // must be a definition.
823e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            assert(MI->getOperand(i).isDef() &&
824e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach                   "frame index virtual missing def!");
825e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // We can't have nested virtual register live ranges because
826e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // there's only a guarantee of one scavenged register at a time.
827e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            assert (CurrentVirtReg == 0 &&
828e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach                    "overlapping frame index virtual registers!");
829e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach
830e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // If the target gave us information about what's in the register,
831e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            // we can use that to re-use scratch regs.
832e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            DenseMap<unsigned, FrameConstantEntry>::iterator Entry =
833e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach              FrameConstantRegMap.find(Reg);
834e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            trackingCurrentValue = Entry != FrameConstantRegMap.end();
835e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            if (trackingCurrentValue) {
836e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach              SPAdj = (*Entry).second.second;
837e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach              Value = (*Entry).second.first;
838e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            } else
839e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach              SPAdj = Value = 0;
840b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach
841b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            // If the scratch register from the last allocation is still
842b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            // available, see if the value matches. If it does, just re-use it.
843e40bf5f9f40a4672cd55bfa51c64a4bb6f4b2f8fJim Grosbach            if (trackingCurrentValue && havePrevValue && PrevValue == Value) {
844b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // FIXME: This assumes that the instructions in the live range
845b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // for the virtual register are exclusively for the purpose
846b8452b80f4b24bed1efe0bace9e925c2ec01122eJim Grosbach              // of populating the value in the register. That's reasonable
847b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // for these frame index registers, but it's still a very, very
848332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // strong assumption. rdar://7322732. Better would be to
849332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // explicitly check each instruction in the range for references
850332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // to the virtual register. Only delete those insns that
851332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // touch the virtual register.
852b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach
853b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // Find the last use of the new virtual register. Remove all
854b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // instruction between here and there, and update the current
855b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // instruction to reference the last use insn instead.
856b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              MachineBasicBlock::iterator LastUseMI =
857332553768242e82383df61d9161d1a665bfb3122Jim Grosbach                findLastUseReg(I, BB->end(), Reg);
858332553768242e82383df61d9161d1a665bfb3122Jim Grosbach
859b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // Remove all instructions up 'til the last use, since they're
860b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              // just calculating the value we already have.
861b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              BB->erase(I, LastUseMI);
862b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              MI = I = LastUseMI;
863b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach
864332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // Extend the live range of the scratch register
865b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              PrevLastUseMI->getOperand(PrevLastUseOp).setIsKill(false);
866b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              RS->setUsed(CurrentScratchReg);
867b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach              CurrentVirtReg = Reg;
868b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach
869332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // We deleted the instruction we were scanning the operands of.
870332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // Jump back to the instruction iterator loop. Don't increment
871332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // past this instruction since we updated the iterator already.
872332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              DoIncr = false;
873332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              break;
874b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach            }
875332553768242e82383df61d9161d1a665bfb3122Jim Grosbach
876332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            // Scavenge a new scratch register
877332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            CurrentVirtReg = Reg;
878332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            const TargetRegisterClass *RC = Fn.getRegInfo().getRegClass(Reg);
879332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            CurrentScratchReg = RS->FindUnusedReg(RC);
880332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            if (CurrentScratchReg == 0)
881332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              // No register is "free". Scavenge a register.
882332553768242e82383df61d9161d1a665bfb3122Jim Grosbach              CurrentScratchReg = RS->scavengeRegister(RC, I, SPAdj);
883332553768242e82383df61d9161d1a665bfb3122Jim Grosbach
884332553768242e82383df61d9161d1a665bfb3122Jim Grosbach            PrevValue = Value;
8853d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach          }
886332553768242e82383df61d9161d1a665bfb3122Jim Grosbach          // replace this reference to the virtual register with the
887332553768242e82383df61d9161d1a665bfb3122Jim Grosbach          // scratch register.
8889a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach          assert (CurrentScratchReg && "Missing scratch register!");
8899a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach          MI->getOperand(i).setReg(CurrentScratchReg);
8909a0b6e6ded68db772631c2938c7a07905e28144fJim Grosbach
891b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          if (MI->getOperand(i).isKill()) {
89203d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach            isKillInsn = true;
893391e1704c2e6934bae2ef5df07fc9690c26dbb62Jim Grosbach            PrevLastUseOp = i;
89403d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach            PrevLastUseMI = MI;
895b58f498f7502e7e1833decbbbb4df771367c7341Jim Grosbach          }
8963d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach        }
897332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      }
89803d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      // If this is the last use of the scratch, stop tracking it. The
89903d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      // last use will be a kill operand in an instruction that does
90003d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      // not also define the scratch register.
90103d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      if (isKillInsn && !isDefInsn) {
902332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        CurrentVirtReg = 0;
90303d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach        havePrevValue = trackingCurrentValue;
90403d02d4faa6cf8ae1337f64bc83dcbd9de570372Jim Grosbach      }
905332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      // Similarly, notice if instruction clobbered the value in the
906332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      // register we're tracking for possible later reuse. This is noted
907332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      // above, but enforced here since the value is still live while we
908332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      // process the rest of the operands of the instruction.
909332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      if (clobbersScratchReg) {
910332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        havePrevValue = false;
911332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        CurrentScratchReg = 0;
912332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      }
913332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      if (DoIncr) {
914332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        RS->forward(I);
915332553768242e82383df61d9161d1a665bfb3122Jim Grosbach        ++I;
916332553768242e82383df61d9161d1a665bfb3122Jim Grosbach      }
9173d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach    }
9183d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach  }
9193d6cb88a64fe67064de206405951eb326d86fc0cJim Grosbach}
920