1c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//===-- StackColoring.cpp -------------------------------------------------===//
2c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
3c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//                     The LLVM Compiler Infrastructure
4c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
5c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// This file is distributed under the University of Illinois Open Source
6c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// License. See LICENSE.TXT for details.
7c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
8c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//===----------------------------------------------------------------------===//
9c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
10c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// This pass implements the stack-coloring optimization that looks for
11c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// lifetime markers machine instructions (LIFESTART_BEGIN and LIFESTART_END),
12c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// which represent the possible lifetime of stack slots. It attempts to
13c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// merge disjoint stack slots and reduce the used stack space.
14c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// NOTE: This pass is not StackSlotColoring, which optimizes spill slots.
15c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
16c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// TODO: In the future we plan to improve stack coloring in the following ways:
17c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// 1. Allow merging multiple small slots into a single larger slot at different
18c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//    offsets.
19c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem// 2. Merge this pass with StackSlotColoring and allow merging of allocas with
20c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//    spill slots.
21c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//
22c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//===----------------------------------------------------------------------===//
23c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
24c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#define DEBUG_TYPE "stackcoloring"
25d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/Passes.h"
26c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/BitVector.h"
27c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/DepthFirstIterator.h"
28c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/PostOrderIterator.h"
29c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/SetVector.h"
30c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/SmallPtrSet.h"
31c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/SparseSet.h"
32c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/ADT/Statistic.h"
33d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Analysis/Dominators.h"
34d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Analysis/ValueTracking.h"
35c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/LiveInterval.h"
36d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/MachineBasicBlock.h"
37c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/MachineBranchProbabilityInfo.h"
38c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/MachineDominators.h"
39d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/MachineFrameInfo.h"
40c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/MachineFunctionPass.h"
41d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/MachineLoopInfo.h"
42d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/CodeGen/MachineMemOperand.h"
43c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/MachineModuleInfo.h"
44c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/MachineRegisterInfo.h"
45dd29df06fa72de9e370cdd9d8e32ac5437a578c7Akira Hatanaka#include "llvm/CodeGen/PseudoSourceValue.h"
46c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/CodeGen/SlotIndexes.h"
47c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/DebugInfo.h"
480b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Function.h"
490b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Instructions.h"
500b8c9a80f20772c3793201ab5b251d3520b9cea3Chandler Carruth#include "llvm/IR/Module.h"
51c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/MC/MCInstrItineraries.h"
52c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/Support/CommandLine.h"
53c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/Support/Debug.h"
54c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem#include "llvm/Support/raw_ostream.h"
55d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Target/TargetInstrInfo.h"
56d04a8d4b33ff316ca4cf961e06c9e312eff8e64fChandler Carruth#include "llvm/Target/TargetRegisterInfo.h"
57c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
58c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemusing namespace llvm;
59c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
60c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemstatic cl::opt<bool>
61c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemDisableColoring("no-stack-coloring",
62d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem        cl::init(false), cl::Hidden,
63d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem        cl::desc("Disable stack coloring"));
64c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
6518e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem/// The user may write code that uses allocas outside of the declared lifetime
6618e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem/// zone. This can happen when the user returns a reference to a local
6718e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem/// data-structure. We can detect these cases and decide not to optimize the
6818e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem/// code. If this flag is enabled, we try to save the user.
69d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotemstatic cl::opt<bool>
7018e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav RotemProtectFromEscapedAllocas("protect-from-escaped-allocas",
71259021a5621fd3837db79934ea5880cb846bfc44Eric Christopher                          cl::init(false), cl::Hidden,
72259021a5621fd3837db79934ea5880cb846bfc44Eric Christopher                          cl::desc("Do not optimize lifetime zones that "
73259021a5621fd3837db79934ea5880cb846bfc44Eric Christopher                                   "are broken"));
74d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem
75d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav RotemSTATISTIC(NumMarkerSeen,  "Number of lifetime markers found.");
76c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemSTATISTIC(StackSpaceSaved, "Number of bytes saved due to merging slots.");
77c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemSTATISTIC(StackSlotMerged, "Number of stack slot merged.");
78259021a5621fd3837db79934ea5880cb846bfc44Eric ChristopherSTATISTIC(EscapedAllocas, "Number of allocas that escaped the lifetime region");
79d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem
80c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//===----------------------------------------------------------------------===//
81c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//                           StackColoring Pass
82c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem//===----------------------------------------------------------------------===//
83c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
84c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemnamespace {
85c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem/// StackColoring - A machine pass for merging disjoint stack allocations,
86c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem/// marked by the LIFETIME_START and LIFETIME_END pseudo instructions.
87c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemclass StackColoring : public MachineFunctionPass {
88c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineFrameInfo *MFI;
89c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineFunction *MF;
90c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
91c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// A class representing liveness information for a single basic block.
92c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Each bit in the BitVector represents the liveness property
93c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// for a different stack slot.
94c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  struct BlockLifetimeInfo {
95c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    /// Which slots BEGINs in each basic block.
96c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BitVector Begin;
97c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    /// Which slots ENDs in each basic block.
98c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BitVector End;
99c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    /// Which slots are marked as LIVE_IN, coming into each basic block.
100c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BitVector LiveIn;
101c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    /// Which slots are marked as LIVE_OUT, coming out of each basic block.
102c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BitVector LiveOut;
103c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  };
104c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
105c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Maps active slots (per bit) for each basic block.
10604fbcb59432c085bb284501dcea9693f435a417bCraig Topper  typedef DenseMap<const MachineBasicBlock*, BlockLifetimeInfo> LivenessMap;
10704fbcb59432c085bb284501dcea9693f435a417bCraig Topper  LivenessMap BlockLiveness;
108c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
109c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Maps serial numbers to basic blocks.
11004fbcb59432c085bb284501dcea9693f435a417bCraig Topper  DenseMap<const MachineBasicBlock*, int> BasicBlocks;
111c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Maps basic blocks to a serial number.
11204fbcb59432c085bb284501dcea9693f435a417bCraig Topper  SmallVector<const MachineBasicBlock*, 8> BasicBlockNumbering;
113c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
114c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Maps liveness intervals for each slot.
115c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SmallVector<LiveInterval*, 16> Intervals;
116c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// VNInfo is used for the construction of LiveIntervals.
117c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  VNInfo::Allocator VNInfoAllocator;
118c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// SlotIndex analysis object.
119d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem  SlotIndexes *Indexes;
120c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
121c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// The list of lifetime markers found. These markers are to be removed
122c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// once the coloring is done.
123c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SmallVector<MachineInstr*, 8> Markers;
124c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
125c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// SlotSizeSorter - A Sort utility for arranging stack slots according
126c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// to their size.
127c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  struct SlotSizeSorter {
128c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    MachineFrameInfo *MFI;
129c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    SlotSizeSorter(MachineFrameInfo *mfi) : MFI(mfi) { }
130c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    bool operator()(int LHS, int RHS) {
131c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // We use -1 to denote a uninteresting slot. Place these slots at the end.
132c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (LHS == -1) return false;
133c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (RHS == -1) return true;
134c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // Sort according to size.
135c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      return MFI->getObjectSize(LHS) > MFI->getObjectSize(RHS);
136c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
137c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem};
138c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
139c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotempublic:
140c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  static char ID;
141c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  StackColoring() : MachineFunctionPass(ID) {
142c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    initializeStackColoringPass(*PassRegistry::getPassRegistry());
143c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
144c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  void getAnalysisUsage(AnalysisUsage &AU) const;
145c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  bool runOnMachineFunction(MachineFunction &MF);
146c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
147c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemprivate:
148c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Debug.
149cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper  void dump() const;
150c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
151c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Removes all of the lifetime marker instructions from the function.
152c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// \returns true if any markers were removed.
153c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  bool removeAllMarkers();
154c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
155c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Scan the machine function and find all of the lifetime markers.
156c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Record the findings in the BEGIN and END vectors.
157c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// \returns the number of markers found.
158c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned collectMarkers(unsigned NumSlot);
159c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
160c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Perform the dataflow calculation and calculate the lifetime for each of
161c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// the slots, based on the BEGIN/END vectors. Set the LifetimeLIVE_IN and
162c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// LifetimeLIVE_OUT maps that represent which stack slots are live coming
163c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// in and out blocks.
164c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  void calculateLocalLiveness();
165c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
166c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Construct the LiveIntervals for the slots.
167c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  void calculateLiveIntervals(unsigned NumSlots);
168c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
169c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Go over the machine function and change instructions which use stack
170c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// slots to use the joint slots.
171c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  void remapInstructions(DenseMap<int, int> &SlotRemap);
172c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
1730a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// The input program may contain intructions which are not inside lifetime
1740a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// markers. This can happen due to a bug in the compiler or due to a bug in
1750a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// user code (for example, returning a reference to a local variable).
1760a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// This procedure checks all of the instructions in the function and
1770a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// invalidates lifetime ranges which do not contain all of the instructions
1780a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  /// which access that frame slot.
1790a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  void removeInvalidSlotRanges();
1800a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
181c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  /// Map entries which point to other entries to their destination.
182c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  ///   A->B->C becomes A->C.
183c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem   void expungeSlotMap(DenseMap<int, int> &SlotRemap, unsigned NumSlots);
184c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem};
185c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem} // end anonymous namespace
186c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
187c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemchar StackColoring::ID = 0;
188c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemchar &llvm::StackColoringID = StackColoring::ID;
189c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
190c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemINITIALIZE_PASS_BEGIN(StackColoring,
191c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                   "stack-coloring", "Merge disjoint stack slots", false, false)
192c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemINITIALIZE_PASS_DEPENDENCY(MachineDominatorTree)
193c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemINITIALIZE_PASS_DEPENDENCY(SlotIndexes)
194c05d30601ced172b55be81bb529df6be91d6ae15Nadav RotemINITIALIZE_PASS_END(StackColoring,
195c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                   "stack-coloring", "Merge disjoint stack slots", false, false)
196c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
197c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemvoid StackColoring::getAnalysisUsage(AnalysisUsage &AU) const {
198c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  AU.addRequired<MachineDominatorTree>();
199c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  AU.addPreserved<MachineDominatorTree>();
200c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  AU.addRequired<SlotIndexes>();
201c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineFunctionPass::getAnalysisUsage(AU);
202c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
203c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
204cbc6d797054a2bf2a641031f270d38804a6f2295Craig Toppervoid StackColoring::dump() const {
205c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (df_iterator<MachineFunction*> FI = df_begin(MF), FE = df_end(MF);
206c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem       FI != FE; ++FI) {
207cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    DEBUG(dbgs()<<"Inspecting block #"<<BasicBlocks.lookup(*FI)<<
208f1af1feeee0f0ec797410762c006211f9c1e2a0fEdwin Vane          " ["<<FI->getName()<<"]\n");
209cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper
21004fbcb59432c085bb284501dcea9693f435a417bCraig Topper    LivenessMap::const_iterator BI = BlockLiveness.find(*FI);
211cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    assert(BI != BlockLiveness.end() && "Block not found");
212cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    const BlockLifetimeInfo &BlockInfo = BI->second;
213cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper
214c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"BEGIN  : {");
215cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    for (unsigned i=0; i < BlockInfo.Begin.size(); ++i)
216cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper      DEBUG(dbgs()<<BlockInfo.Begin.test(i)<<" ");
217c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"}\n");
218c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
219c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"END    : {");
220cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    for (unsigned i=0; i < BlockInfo.End.size(); ++i)
221cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper      DEBUG(dbgs()<<BlockInfo.End.test(i)<<" ");
222c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
223c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"}\n");
224c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
225c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"LIVE_IN: {");
226cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    for (unsigned i=0; i < BlockInfo.LiveIn.size(); ++i)
227cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper      DEBUG(dbgs()<<BlockInfo.LiveIn.test(i)<<" ");
228c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
229c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"}\n");
230c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"LIVEOUT: {");
231cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper    for (unsigned i=0; i < BlockInfo.LiveOut.size(); ++i)
232cbc6d797054a2bf2a641031f270d38804a6f2295Craig Topper      DEBUG(dbgs()<<BlockInfo.LiveOut.test(i)<<" ");
233c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"}\n");
234c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
235c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
236c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
237c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemunsigned StackColoring::collectMarkers(unsigned NumSlot) {
238c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned MarkersFound = 0;
239c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Scan the function to find all lifetime markers.
240c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // NOTE: We use the a reverse-post-order iteration to ensure that we obtain a
241c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // deterministic numbering, and because we'll need a post-order iteration
242c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // later for solving the liveness dataflow problem.
243c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (df_iterator<MachineFunction*> FI = df_begin(MF), FE = df_end(MF);
244c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem       FI != FE; ++FI) {
245c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
246c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    // Assign a serial number to this basic block.
2472de0572caec55e3779857cae0bbcd962af2e495dDmitri Gribenko    BasicBlocks[*FI] = BasicBlockNumbering.size();
248c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BasicBlockNumbering.push_back(*FI);
249c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
250252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper    // Keep a reference to avoid repeated lookups.
251252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper    BlockLifetimeInfo &BlockInfo = BlockLiveness[*FI];
252252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper
253252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper    BlockInfo.Begin.resize(NumSlot);
254252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper    BlockInfo.End.resize(NumSlot);
255c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
256c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    for (MachineBasicBlock::iterator BI = (*FI)->begin(), BE = (*FI)->end();
257c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem         BI != BE; ++BI) {
258c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
259c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (BI->getOpcode() != TargetOpcode::LIFETIME_START &&
260c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          BI->getOpcode() != TargetOpcode::LIFETIME_END)
261c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        continue;
262c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
263c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      Markers.push_back(BI);
264c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
265c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      bool IsStart = BI->getOpcode() == TargetOpcode::LIFETIME_START;
266261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper      const MachineOperand &MI = BI->getOperand(0);
267c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      unsigned Slot = MI.getIndex();
268c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
269c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      MarkersFound++;
270c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
27183ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop      const AllocaInst *Allocation = MFI->getObjectAllocation(Slot);
272c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (Allocation) {
2730cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        DEBUG(dbgs()<<"Found a lifetime marker for slot #"<<Slot<<
2740cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem              " with allocation: "<< Allocation->getName()<<"\n");
275c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
276c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
277c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (IsStart) {
278252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper        BlockInfo.Begin.set(Slot);
279c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      } else {
280252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper        if (BlockInfo.Begin.test(Slot)) {
281c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          // Allocas that start and end within a single block are handled
282c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          // specially when computing the LiveIntervals to avoid pessimizing
283c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          // the liveness propagation.
284252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper          BlockInfo.Begin.reset(Slot);
285c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        } else {
286252d798fc302ed78bc4b11e66a2382015a25c6e0Craig Topper          BlockInfo.End.set(Slot);
287c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        }
288c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
289c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
290c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
291c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
292c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Update statistics.
293c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  NumMarkerSeen += MarkersFound;
294c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  return MarkersFound;
295c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
296c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
297c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemvoid StackColoring::calculateLocalLiveness() {
298c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Perform a standard reverse dataflow computation to solve for
299c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // global liveness.  The BEGIN set here is equivalent to KILL in the standard
300c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // formulation, and END is equivalent to GEN.  The result of this computation
301c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // is a map from blocks to bitvectors where the bitvectors represent which
302c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // allocas are live in/out of that block.
30304fbcb59432c085bb284501dcea9693f435a417bCraig Topper  SmallPtrSet<const MachineBasicBlock*, 8> BBSet(BasicBlockNumbering.begin(),
30404fbcb59432c085bb284501dcea9693f435a417bCraig Topper                                                 BasicBlockNumbering.end());
305c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned NumSSMIters = 0;
306c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  bool changed = true;
307c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  while (changed) {
308c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    changed = false;
309c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    ++NumSSMIters;
310c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
31104fbcb59432c085bb284501dcea9693f435a417bCraig Topper    SmallPtrSet<const MachineBasicBlock*, 8> NextBBSet;
312c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
313f22fd3f7b557a967b1edc1fa9ae770006a39e97cCraig Topper    for (SmallVectorImpl<const MachineBasicBlock *>::iterator
314f22fd3f7b557a967b1edc1fa9ae770006a39e97cCraig Topper           PI = BasicBlockNumbering.begin(), PE = BasicBlockNumbering.end();
315f22fd3f7b557a967b1edc1fa9ae770006a39e97cCraig Topper           PI != PE; ++PI) {
316c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
31704fbcb59432c085bb284501dcea9693f435a417bCraig Topper      const MachineBasicBlock *BB = *PI;
318c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (!BBSet.count(BB)) continue;
319c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
320cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      // Use an iterator to avoid repeated lookups.
32104fbcb59432c085bb284501dcea9693f435a417bCraig Topper      LivenessMap::iterator BI = BlockLiveness.find(BB);
322cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      assert(BI != BlockLiveness.end() && "Block not found");
323cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      BlockLifetimeInfo &BlockInfo = BI->second;
324cede03886712e18b697f9ec91311d4a8df60c734Craig Topper
325c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      BitVector LocalLiveIn;
326c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      BitVector LocalLiveOut;
327c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
328c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // Forward propagation from begins to ends.
329cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      for (MachineBasicBlock::const_pred_iterator PI = BB->pred_begin(),
330cede03886712e18b697f9ec91311d4a8df60c734Craig Topper           PE = BB->pred_end(); PI != PE; ++PI) {
33104fbcb59432c085bb284501dcea9693f435a417bCraig Topper        LivenessMap::const_iterator I = BlockLiveness.find(*PI);
332cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        assert(I != BlockLiveness.end() && "Predecessor not found");
333cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        LocalLiveIn |= I->second.LiveOut;
334cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      }
335cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveIn |= BlockInfo.End;
336cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveIn.reset(BlockInfo.Begin);
337c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
338c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // Reverse propagation from ends to begins.
339cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      for (MachineBasicBlock::const_succ_iterator SI = BB->succ_begin(),
340cede03886712e18b697f9ec91311d4a8df60c734Craig Topper           SE = BB->succ_end(); SI != SE; ++SI) {
34104fbcb59432c085bb284501dcea9693f435a417bCraig Topper        LivenessMap::const_iterator I = BlockLiveness.find(*SI);
342cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        assert(I != BlockLiveness.end() && "Successor not found");
343cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        LocalLiveOut |= I->second.LiveIn;
344cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      }
345cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveOut |= BlockInfo.Begin;
346cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveOut.reset(BlockInfo.End);
347c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
348c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      LocalLiveIn |= LocalLiveOut;
349c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      LocalLiveOut |= LocalLiveIn;
350c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
351c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // After adopting the live bits, we need to turn-off the bits which
352c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // are de-activated in this block.
353cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveOut.reset(BlockInfo.End);
354cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalLiveIn.reset(BlockInfo.Begin);
355c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
3566165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // If we have both BEGIN and END markers in the same basic block then
3576165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // we know that the BEGIN marker comes after the END, because we already
3586165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // handle the case where the BEGIN comes before the END when collecting
3596165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // the markers (and building the BEGIN/END vectore).
3606165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // Want to enable the LIVE_IN and LIVE_OUT of slots that have both
3616165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // BEGIN and END because it means that the value lives before and after
3626165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      // this basic block.
363cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      BitVector LocalEndBegin = BlockInfo.End;
364cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      LocalEndBegin &= BlockInfo.Begin;
3656165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      LocalLiveIn |= LocalEndBegin;
3666165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem      LocalLiveOut |= LocalEndBegin;
3676165dba25f3374ce340b420ab9a360623c26fdc3Nadav Rotem
368cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      if (LocalLiveIn.test(BlockInfo.LiveIn)) {
369c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        changed = true;
370cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        BlockInfo.LiveIn |= LocalLiveIn;
371c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
37204fbcb59432c085bb284501dcea9693f435a417bCraig Topper        for (MachineBasicBlock::const_pred_iterator PI = BB->pred_begin(),
373c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem             PE = BB->pred_end(); PI != PE; ++PI)
374c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          NextBBSet.insert(*PI);
375c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
376c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
377cede03886712e18b697f9ec91311d4a8df60c734Craig Topper      if (LocalLiveOut.test(BlockInfo.LiveOut)) {
378c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        changed = true;
379cede03886712e18b697f9ec91311d4a8df60c734Craig Topper        BlockInfo.LiveOut |= LocalLiveOut;
380c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
38104fbcb59432c085bb284501dcea9693f435a417bCraig Topper        for (MachineBasicBlock::const_succ_iterator SI = BB->succ_begin(),
382c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem             SE = BB->succ_end(); SI != SE; ++SI)
383c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          NextBBSet.insert(*SI);
384c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
385c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
386c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
387c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    BBSet = NextBBSet;
388c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }// while changed.
389c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
390c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
391c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemvoid StackColoring::calculateLiveIntervals(unsigned NumSlots) {
392c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SmallVector<SlotIndex, 16> Starts;
393c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SmallVector<SlotIndex, 16> Finishes;
394c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
395c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // For each block, find which slots are active within this block
396c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // and update the live intervals.
397c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (MachineFunction::iterator MBB = MF->begin(), MBBe = MF->end();
398c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem       MBB != MBBe; ++MBB) {
399c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Starts.clear();
400c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Starts.resize(NumSlots);
401c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Finishes.clear();
402c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Finishes.resize(NumSlots);
403c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
404e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem    // Create the interval for the basic blocks with lifetime markers in them.
405261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper    for (SmallVectorImpl<MachineInstr*>::const_iterator it = Markers.begin(),
406c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem         e = Markers.end(); it != e; ++it) {
407261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper      const MachineInstr *MI = *it;
408e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      if (MI->getParent() != MBB)
409e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem        continue;
410e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem
411c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      assert((MI->getOpcode() == TargetOpcode::LIFETIME_START ||
412c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem              MI->getOpcode() == TargetOpcode::LIFETIME_END) &&
413c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem             "Invalid Lifetime marker");
414c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
415e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      bool IsStart = MI->getOpcode() == TargetOpcode::LIFETIME_START;
416261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper      const MachineOperand &Mo = MI->getOperand(0);
417e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      int Slot = Mo.getIndex();
418e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      assert(Slot >= 0 && "Invalid slot");
419e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem
420e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      SlotIndex ThisIndex = Indexes->getInstructionIndex(MI);
421e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem
422e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      if (IsStart) {
423e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem        if (!Starts[Slot].isValid() || Starts[Slot] > ThisIndex)
424e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem          Starts[Slot] = ThisIndex;
425e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      } else {
426e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem        if (!Finishes[Slot].isValid() || Finishes[Slot] < ThisIndex)
427e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem          Finishes[Slot] = ThisIndex;
428e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      }
429e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem    }
430e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem
431e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem    // Create the interval of the blocks that we previously found to be 'alive'.
432c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff    BlockLifetimeInfo &MBBLiveness = BlockLiveness[MBB];
433c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff    for (int pos = MBBLiveness.LiveIn.find_first(); pos != -1;
434c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff         pos = MBBLiveness.LiveIn.find_next(pos)) {
435c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff      Starts[pos] = Indexes->getMBBStartIdx(MBB);
436c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff    }
437c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff    for (int pos = MBBLiveness.LiveOut.find_first(); pos != -1;
438c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff         pos = MBBLiveness.LiveOut.find_next(pos)) {
439c22cdb7203e4aad8e6491487f224efff7a3e58c0Derek Schuff      Finishes[pos] = Indexes->getMBBEndIdx(MBB);
440c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
441c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
442c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    for (unsigned i = 0; i < NumSlots; ++i) {
443e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      assert(Starts[i].isValid() == Finishes[i].isValid() && "Unmatched range");
444e47feeb823ebf496e82db6a666d4c0fbaeb158b4Nadav Rotem      if (!Starts[i].isValid())
445c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        continue;
446c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
447c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      assert(Starts[i] && Finishes[i] && "Invalid interval");
448c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      VNInfo *ValNum = Intervals[i]->getValNumInfo(0);
449c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      SlotIndex S = Starts[i];
450c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      SlotIndex F = Finishes[i];
451c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (S < F) {
452c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // We have a single consecutive region.
453c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        Intervals[i]->addRange(LiveRange(S, F, ValNum));
454c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      } else {
455c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // We have two non consecutive regions. This happens when
456c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // LIFETIME_START appears after the LIFETIME_END marker.
457c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        SlotIndex NewStart = Indexes->getMBBStartIdx(MBB);
458c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        SlotIndex NewFin = Indexes->getMBBEndIdx(MBB);
459c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        Intervals[i]->addRange(LiveRange(NewStart, F, ValNum));
460c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        Intervals[i]->addRange(LiveRange(S, NewFin, ValNum));
461c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
462c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
463c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
464c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
465c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
466c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotembool StackColoring::removeAllMarkers() {
467c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned Count = 0;
468c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (unsigned i = 0; i < Markers.size(); ++i) {
469c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Markers[i]->eraseFromParent();
470c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Count++;
471c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
472c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  Markers.clear();
473c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
474c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Removed "<<Count<<" markers.\n");
475c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  return Count;
476c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
477c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
478c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemvoid StackColoring::remapInstructions(DenseMap<int, int> &SlotRemap) {
479c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned FixedInstr = 0;
480c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned FixedMemOp = 0;
481c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned FixedDbg = 0;
482c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineModuleInfo *MMI = &MF->getMMI();
483c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
484c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Remap debug information that refers to stack slots.
485c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineModuleInfo::VariableDbgInfoMapTy &VMap = MMI->getVariableDbgInfo();
486c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (MachineModuleInfo::VariableDbgInfoMapTy::iterator VI = VMap.begin(),
487c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem       VE = VMap.end(); VI != VE; ++VI) {
488c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    const MDNode *Var = VI->first;
489c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    if (!Var) continue;
490c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    std::pair<unsigned, DebugLoc> &VP = VI->second;
491c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    if (SlotRemap.count(VP.first)) {
492c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      DEBUG(dbgs()<<"Remapping debug info for ["<<Var->getName()<<"].\n");
493c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      VP.first = SlotRemap[VP.first];
494c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      FixedDbg++;
495c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
496c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
497c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
498c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Keep a list of *allocas* which need to be remapped.
49983ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop  DenseMap<const AllocaInst*, const AllocaInst*> Allocas;
500261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper  for (DenseMap<int, int>::const_iterator it = SlotRemap.begin(),
501c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem       e = SlotRemap.end(); it != e; ++it) {
50283ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop    const AllocaInst *From = MFI->getObjectAllocation(it->first);
50383ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop    const AllocaInst *To = MFI->getObjectAllocation(it->second);
504c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    assert(To && From && "Invalid allocation object");
505c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Allocas[From] = To;
506c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
507c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
508c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Remap all instructions to the new stack slots.
509c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineFunction::iterator BB, BBE;
510c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MachineBasicBlock::iterator I, IE;
511c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (BB = MF->begin(), BBE = MF->end(); BB != BBE; ++BB)
512c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    for (I = BB->begin(), IE = BB->end(); I != IE; ++I) {
513c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
5140aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem      // Skip lifetime markers. We'll remove them soon.
5150aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem      if (I->getOpcode() == TargetOpcode::LIFETIME_START ||
5160aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem          I->getOpcode() == TargetOpcode::LIFETIME_END)
5170aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem        continue;
5180aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem
519c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // Update the MachineMemOperand to use the new alloca.
520c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      for (MachineInstr::mmo_iterator MM = I->memoperands_begin(),
521c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem           E = I->memoperands_end(); MM != E; ++MM) {
522c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        MachineMemOperand *MMO = *MM;
523c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
524c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        const Value *V = MMO->getValue();
525c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
526c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (!V)
527c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
528c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
529dd29df06fa72de9e370cdd9d8e32ac5437a578c7Akira Hatanaka        const PseudoSourceValue *PSV = dyn_cast<const PseudoSourceValue>(V);
530dd29df06fa72de9e370cdd9d8e32ac5437a578c7Akira Hatanaka        if (PSV && PSV->isConstant(MFI))
531dd29df06fa72de9e370cdd9d8e32ac5437a578c7Akira Hatanaka          continue;
532dd29df06fa72de9e370cdd9d8e32ac5437a578c7Akira Hatanaka
533c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // Climb up and find the original alloca.
534c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        V = GetUnderlyingObject(V);
535c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // If we did not find one, or if the one that we found is not in our
536c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // map, then move on.
53783ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop        if (!V || !isa<AllocaInst>(V)) {
53883ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop          // Clear mem operand since we don't know for sure that it doesn't
53983ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop          // alias a merged alloca.
54083ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop          MMO->setValue(0);
54183ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop          continue;
54283ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop        }
54383ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop        const AllocaInst *AI= cast<AllocaInst>(V);
54483ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop        if (!Allocas.count(AI))
545c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
546c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
54783ba06afa8503dc97a0aa5ec033022286959956cSebastian Pop        MMO->setValue(Allocas[AI]);
548c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        FixedMemOp++;
549c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
550c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
551c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // Update all of the machine instruction operands.
552c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      for (unsigned i = 0 ; i <  I->getNumOperands(); ++i) {
553c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        MachineOperand &MO = I->getOperand(i);
554c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
555c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (!MO.isFI())
556c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
557c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        int FromSlot = MO.getIndex();
558c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
559c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // Don't touch arguments.
560c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (FromSlot<0)
561c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
562c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
563c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // Only look at mapped slots.
564c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (!SlotRemap.count(FromSlot))
565c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
566c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
5678cc14949053ea4fcba34afc68b30137eff408d66Nadav Rotem        // In a debug build, check that the instruction that we are modifying is
5688cc14949053ea4fcba34afc68b30137eff408d66Nadav Rotem        // inside the expected live range. If the instruction is not inside
5690aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem        // the calculated range then it means that the alloca usage moved
57018e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem        // outside of the lifetime markers, or that the user has a bug.
5710cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        // NOTE: Alloca address calculations which happen outside the lifetime
5720cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        // zone are are okay, despite the fact that we don't have a good way
5730cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        // for validating all of the usages of the calculation.
5740aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem#ifndef NDEBUG
5750cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        bool TouchesMemory = I->mayLoad() || I->mayStore();
57618e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem        // If we *don't* protect the user from escaped allocas, don't bother
57718e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem        // validating the instructions.
57818e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem        if (!I->isDebugValue() && TouchesMemory && ProtectFromEscapedAllocas) {
5798754bbbe672450689a5bdc8a198af90144e56f31Nadav Rotem          SlotIndex Index = Indexes->getInstructionIndex(I);
580d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem          LiveInterval *Interval = Intervals[FromSlot];
5818754bbbe672450689a5bdc8a198af90144e56f31Nadav Rotem          assert(Interval->find(Index) != Interval->end() &&
58257d76078ae8ecd16b995cc6a9f9bc57bdde4a20eEric Christopher                 "Found instruction usage outside of live range.");
5838754bbbe672450689a5bdc8a198af90144e56f31Nadav Rotem        }
5840aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem#endif
5850aa52ee04e3060974474f6b3f824517c088f07d8Nadav Rotem
586c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // Fix the machine instructions.
587c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        int ToSlot = SlotRemap[FromSlot];
588c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        MO.setIndex(ToSlot);
589c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        FixedInstr++;
590c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
591c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
592c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
593c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Fixed "<<FixedMemOp<<" machine memory operands.\n");
594c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Fixed "<<FixedDbg<<" debug locations.\n");
595c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Fixed "<<FixedInstr<<" machine instructions.\n");
596c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
597c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
5980a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotemvoid StackColoring::removeInvalidSlotRanges() {
599261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper  MachineFunction::const_iterator BB, BBE;
600261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper  MachineBasicBlock::const_iterator I, IE;
6010a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem  for (BB = MF->begin(), BBE = MF->end(); BB != BBE; ++BB)
6020a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem    for (I = BB->begin(), IE = BB->end(); I != IE; ++I) {
6030a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6040a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem      if (I->getOpcode() == TargetOpcode::LIFETIME_START ||
6050a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          I->getOpcode() == TargetOpcode::LIFETIME_END || I->isDebugValue())
6060a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        continue;
6070a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6080cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      // Some intervals are suspicious! In some cases we find address
6090cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      // calculations outside of the lifetime zone, but not actual memory
6100cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      // read or write. Memory accesses outside of the lifetime zone are a clear
6110cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      // violation, but address calculations are okay. This can happen when
6120cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      // GEPs are hoisted outside of the lifetime zone.
613faf31d01db913b477b749c9f11f18a9471c0a672Nadav Rotem      // So, in here we only check instructions which can read or write memory.
6140cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem      if (!I->mayLoad() && !I->mayStore())
6150cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem        continue;
6160cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem
6170a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem      // Check all of the machine operands.
6180a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem      for (unsigned i = 0 ; i <  I->getNumOperands(); ++i) {
619261abf5f4011e5b1e8949d7404190a4f4eaff8d8Craig Topper        const MachineOperand &MO = I->getOperand(i);
6200a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6210a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        if (!MO.isFI())
6220a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          continue;
6230a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6240a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        int Slot = MO.getIndex();
6250a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6260a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        if (Slot<0)
6270a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          continue;
6280a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6290a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        if (Intervals[Slot]->empty())
6300a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          continue;
6310a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
6320a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        // Check that the used slot is inside the calculated lifetime range.
6330a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        // If it is not, warn about it and invalidate the range.
6340a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        LiveInterval *Interval = Intervals[Slot];
6350a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        SlotIndex Index = Indexes->getInstructionIndex(I);
6360a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        if (Interval->find(Index) == Interval->end()) {
6370a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          Intervals[Slot]->clear();
6380a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem          DEBUG(dbgs()<<"Invalidating range #"<<Slot<<"\n");
639d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem          EscapedAllocas++;
6400a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem        }
6410a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem      }
6420a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem    }
6430a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem}
6440a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
645c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotemvoid StackColoring::expungeSlotMap(DenseMap<int, int> &SlotRemap,
646c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                                   unsigned NumSlots) {
647c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Expunge slot remap map.
648c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (unsigned i=0; i < NumSlots; ++i) {
649c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    // If we are remapping i
650c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    if (SlotRemap.count(i)) {
651c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      int Target = SlotRemap[i];
652c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      // As long as our target is mapped to something else, follow it.
653c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      while (SlotRemap.count(Target)) {
654c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        Target = SlotRemap[Target];
655c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        SlotRemap[i] = Target;
656c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
657c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
658c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
659c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
660c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
661c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotembool StackColoring::runOnMachineFunction(MachineFunction &Func) {
662c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs() << "********** Stack Coloring **********\n"
663c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem               << "********** Function: "
6645177b3a8c48adec2acf284fcb8e00775a705a7e2Roman Divacky               << ((const Value*)Func.getFunction())->getName() << '\n');
665c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MF = &Func;
666c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  MFI = MF->getFrameInfo();
667c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  Indexes = &getAnalysis<SlotIndexes>();
668c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  BlockLiveness.clear();
669c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  BasicBlocks.clear();
670c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  BasicBlockNumbering.clear();
671c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  Markers.clear();
672c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  Intervals.clear();
673c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  VNInfoAllocator.Reset();
674c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
675c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned NumSlots = MFI->getObjectIndexEnd();
676c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
677c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // If there are no stack slots then there are no markers to remove.
678c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  if (!NumSlots)
679c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    return false;
680c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
681c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SmallVector<int, 8> SortedSlots;
682c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
683c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  SortedSlots.reserve(NumSlots);
684c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  Intervals.reserve(NumSlots);
685c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
686c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned NumMarkers = collectMarkers(NumSlots);
687c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
688c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned TotalSize = 0;
689c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Found "<<NumMarkers<<" markers and "<<NumSlots<<" slots\n");
690c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Slot structure:\n");
691c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
692c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (int i=0; i < MFI->getObjectIndexEnd(); ++i) {
693c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"Slot #"<<i<<" - "<<MFI->getObjectSize(i)<<" bytes.\n");
694c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    TotalSize += MFI->getObjectSize(i);
695c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
696c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
697c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Total Stack size: "<<TotalSize<<" bytes\n\n");
698c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
699c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Don't continue because there are not enough lifetime markers, or the
7000cd19b93017fcaba737b15ea4da39c460feb5670Nadav Rotem  // stack is too small, or we are told not to optimize the slots.
701c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  if (NumMarkers < 2 || TotalSize < 16 || DisableColoring) {
702c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    DEBUG(dbgs()<<"Will not try to merge slots.\n");
703c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    return removeAllMarkers();
704c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
705c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
706c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (unsigned i=0; i < NumSlots; ++i) {
707c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    LiveInterval *LI = new LiveInterval(i, 0);
708c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    Intervals.push_back(LI);
709c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    LI->getNextValue(Indexes->getZeroIndex(), VNInfoAllocator);
710c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    SortedSlots.push_back(i);
711c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
712c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
713c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Calculate the liveness of each block.
714c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  calculateLocalLiveness();
715c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
716c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Propagate the liveness information.
717c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  calculateLiveIntervals(NumSlots);
718c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
719d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem  // Search for allocas which are used outside of the declared lifetime
720d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem  // markers.
72118e2c290940b67c9dc1196e3c2234e7a20f60ae4Nadav Rotem  if (ProtectFromEscapedAllocas)
722d76f6eadc8c8511e1c5cd089a8a54e429c19aa60Nadav Rotem    removeInvalidSlotRanges();
7230a16da445740ca6fcd7a7ca571c1917e77315904Nadav Rotem
724c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Maps old slots to new slots.
725c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DenseMap<int, int> SlotRemap;
726c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned RemovedSlots = 0;
727c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  unsigned ReducedSize = 0;
728c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
729c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Do not bother looking at empty intervals.
730c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (unsigned I = 0; I < NumSlots; ++I) {
731c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    if (Intervals[SortedSlots[I]]->empty())
732c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      SortedSlots[I] = -1;
733c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
734c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
735c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // This is a simple greedy algorithm for merging allocas. First, sort the
736c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // slots, placing the largest slots first. Next, perform an n^2 scan and look
737c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // for disjoint slots. When you find disjoint slots, merge the samller one
738c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // into the bigger one and update the live interval. Remove the small alloca
739c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // and continue.
740c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
741c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Sort the slots according to their size. Place unused slots at the end.
742f38aa4272c2fcebae4ad10b21ea29874d0edef80Ulrich Weigand  // Use stable sort to guarantee deterministic code generation.
743f38aa4272c2fcebae4ad10b21ea29874d0edef80Ulrich Weigand  std::stable_sort(SortedSlots.begin(), SortedSlots.end(),
744f38aa4272c2fcebae4ad10b21ea29874d0edef80Ulrich Weigand                   SlotSizeSorter(MFI));
745c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
74657d76078ae8ecd16b995cc6a9f9bc57bdde4a20eEric Christopher  bool Changed = true;
74757d76078ae8ecd16b995cc6a9f9bc57bdde4a20eEric Christopher  while (Changed) {
74857d76078ae8ecd16b995cc6a9f9bc57bdde4a20eEric Christopher    Changed = false;
749c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    for (unsigned I = 0; I < NumSlots; ++I) {
750c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      if (SortedSlots[I] == -1)
751c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        continue;
752c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
753a7de8a61dfae69885203137f3c712ab3d0cd75a4Nadav Rotem      for (unsigned J=I+1; J < NumSlots; ++J) {
754c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (SortedSlots[J] == -1)
755c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          continue;
756c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
757c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        int FirstSlot = SortedSlots[I];
758c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        int SecondSlot = SortedSlots[J];
759c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        LiveInterval *First = Intervals[FirstSlot];
760c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        LiveInterval *Second = Intervals[SecondSlot];
761c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        assert (!First->empty() && !Second->empty() && "Found an empty range");
762c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
763c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        // Merge disjoint slots.
764c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        if (!First->overlaps(*Second)) {
76557d76078ae8ecd16b995cc6a9f9bc57bdde4a20eEric Christopher          Changed = true;
766c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          First->MergeRangesInAsValue(*Second, First->getValNumInfo(0));
767c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          SlotRemap[SecondSlot] = FirstSlot;
768c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          SortedSlots[J] = -1;
7699438d1e3514ab8801e9c488d9723241af7f4dc91Nadav Rotem          DEBUG(dbgs()<<"Merging #"<<FirstSlot<<" and slots #"<<
7709438d1e3514ab8801e9c488d9723241af7f4dc91Nadav Rotem                SecondSlot<<" together.\n");
771c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          unsigned MaxAlignment = std::max(MFI->getObjectAlignment(FirstSlot),
772c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                                           MFI->getObjectAlignment(SecondSlot));
773c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
774c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          assert(MFI->getObjectSize(FirstSlot) >=
775c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                 MFI->getObjectSize(SecondSlot) &&
776c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem                 "Merging a small object into a larger one");
777c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
778c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          RemovedSlots+=1;
779c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          ReducedSize += MFI->getObjectSize(SecondSlot);
780c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          MFI->setObjectAlignment(FirstSlot, MaxAlignment);
781c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem          MFI->RemoveStackObject(SecondSlot);
782c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        }
783c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem      }
784c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    }
785c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }// While changed.
786c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
787c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Record statistics.
788c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  StackSpaceSaved += ReducedSize;
789c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  StackSlotMerged += RemovedSlots;
790c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  DEBUG(dbgs()<<"Merge "<<RemovedSlots<<" slots. Saved "<<
791c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem        ReducedSize<<" bytes\n");
792c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
793c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Scan the entire function and update all machine operands that use frame
794c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // indices to use the remapped frame index.
795c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  expungeSlotMap(SlotRemap, NumSlots);
796c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  remapInstructions(SlotRemap);
797c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
798c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  // Release the intervals.
799c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  for (unsigned I = 0; I < NumSlots; ++I) {
800c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem    delete Intervals[I];
801c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  }
802c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem
803c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem  return removeAllMarkers();
804c05d30601ced172b55be81bb529df6be91d6ae15Nadav Rotem}
805