ARMConstantIslandPass.cpp revision acf2077ca497980a066e8e7bb81ceec0de82d5da
19a4d2e40a02b6e5fab5ccf1c768a52c76f3aec6aBill Wendling//===-- ARMConstantIslandPass.cpp - ARM constant islands ------------------===// 2a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// 3a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// The LLVM Compiler Infrastructure 4a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// 54ee451de366474b9c228b4e5fa573795a715216dChris Lattner// This file is distributed under the University of Illinois Open Source 64ee451de366474b9c228b4e5fa573795a715216dChris Lattner// License. See LICENSE.TXT for details. 7a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// 8a8e2989ece6dc46df59b0768184028257f913843Evan Cheng//===----------------------------------------------------------------------===// 9a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// 10a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// This file contains a pass that splits the constant pool up into 'islands' 11a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// which are scattered through-out the function. This is required due to the 12a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// limited pc-relative displacements that ARM has. 13a8e2989ece6dc46df59b0768184028257f913843Evan Cheng// 14a8e2989ece6dc46df59b0768184028257f913843Evan Cheng//===----------------------------------------------------------------------===// 15a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 16a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#define DEBUG_TYPE "arm-cp-islands" 17a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "ARM.h" 18af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng#include "ARMMachineFunctionInfo.h" 19719510a178a910feb1db707140011c32a30992c4Evan Cheng#include "Thumb2InstrInfo.h" 20ee04a6d3a40c3017124e3fd89a0db473a2824498Evan Cheng#include "MCTargetDesc/ARMAddressingModes.h" 21a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/CodeGen/MachineConstantPool.h" 22a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/CodeGen/MachineFunctionPass.h" 235657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng#include "llvm/CodeGen/MachineJumpTableInfo.h" 24a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/Target/TargetData.h" 25a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/Target/TargetMachine.h" 26a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/Support/Debug.h" 27c25e7581b9b8088910da31702d4ca21c4734c6d7Torok Edwin#include "llvm/Support/ErrorHandling.h" 282d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen#include "llvm/Support/Format.h" 29705e07f578e2b3af47ddab610feb4e7f2d3063a5Chris Lattner#include "llvm/Support/raw_ostream.h" 30b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson#include "llvm/ADT/SmallSet.h" 31c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng#include "llvm/ADT/SmallVector.h" 32a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/ADT/STLExtras.h" 33a8e2989ece6dc46df59b0768184028257f913843Evan Cheng#include "llvm/ADT/Statistic.h" 341fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach#include "llvm/Support/CommandLine.h" 35b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson#include <algorithm> 36a8e2989ece6dc46df59b0768184028257f913843Evan Chengusing namespace llvm; 37a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 38a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumCPEs, "Number of constpool entries"); 39a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumSplit, "Number of uncond branches inserted"); 40a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumCBrFixed, "Number of cond branches fixed"); 41a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumUBrFixed, "Number of uncond branches fixed"); 42a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumTBs, "Number of table branches generated"); 43a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan ChengSTATISTIC(NumT2CPShrunk, "Number of Thumb2 constantpool instructions shrunk"); 4431b99dd76035067b1c3cc6c7e9d663b7b0210938Evan ChengSTATISTIC(NumT2BrShrunk, "Number of Thumb2 immediate branches shrunk"); 45de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan ChengSTATISTIC(NumCBZ, "Number of CBZ / CBNZ formed"); 461fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim GrosbachSTATISTIC(NumJTMoved, "Number of jump table destination blocks moved"); 4780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim GrosbachSTATISTIC(NumJTInserted, "Number of jump table intermediate blocks inserted"); 481fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 491fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 501fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbachstatic cl::opt<bool> 51f04777b945e272ccec21c7080bd5480d78a14fd2Jim GrosbachAdjustJumpTableBlocks("arm-adjust-jump-tables", cl::Hidden, cl::init(true), 521fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach cl::desc("Adjust basic block layout to better use TB[BH]")); 53a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 54f5bb45f89564129fcaca25b9dd84750ffc02beedJakob Stoklund Olesen// FIXME: This option should be removed once it has received sufficient testing. 55b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesenstatic cl::opt<bool> 56b6ff6ec85e589b8ad3bede4533dc71a09655bb1eJakob Stoklund OlesenAlignConstantIslands("arm-align-constant-islands", cl::Hidden, cl::init(true), 57b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen cl::desc("Align constant islands in code")); 58b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen 5977caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// UnknownPadding - Return the worst case padding that could result from 6077caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// unknown offset bits. This does not include alignment padding caused by 6177caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// known offset bits. 6277caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// 6377caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// @param LogAlign log2(alignment) 6477caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen/// @param KnownBits Number of known low offset bits. 6577caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesenstatic inline unsigned UnknownPadding(unsigned LogAlign, unsigned KnownBits) { 6677caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen if (KnownBits < LogAlign) 6777caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen return (1u << LogAlign) - (1u << KnownBits); 6877caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen return 0; 6977caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen} 7077caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen 71540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// WorstCaseAlign - Assuming only the low KnownBits bits in Offset are exact, 72540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// add padding such that: 73540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// 74540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// 1. The result is aligned to 1 << LogAlign. 75540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// 76540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// 2. No other value of the unknown bits would require more padding. 77540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// 78540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// This may add more padding than is required to satisfy just one of the 79540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// constraints. It is necessary to compute alignment this way to guarantee 80540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// that we don't underestimate the padding before an aligned block. If the 81540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// real padding before a block is larger than we think, constant pool entries 82540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen/// may go out of range. 83540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesenstatic inline unsigned WorstCaseAlign(unsigned Offset, unsigned LogAlign, 84540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen unsigned KnownBits) { 85540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // Add the worst possible padding that the unknown bits could cause. 8677caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen Offset += UnknownPadding(LogAlign, KnownBits); 87540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 88540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // Then align the result. 89540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen return RoundUpToAlignment(Offset, 1u << LogAlign); 90540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen} 91540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 92a8e2989ece6dc46df59b0768184028257f913843Evan Chengnamespace { 9388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// ARMConstantIslands - Due to limited PC-relative displacements, ARM 94a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// requires constant pool entries to be scattered among the instructions 95a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// inside a function. To do this, it completely ignores the normal LLVM 9688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// constant pool; instead, it places constants wherever it feels like with 97a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// special instructions. 98a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// 99a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// The terminology used in this pass includes: 100a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// Islands - Clumps of constants placed in the function. 101a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// Water - Potential places where an island could be formed. 102a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// CPE - A constant pool entry that has been placed somewhere, which 103a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// tracks a list of users. 1046726b6d75a8b679068a58cb954ba97cf9d1690baNick Lewycky class ARMConstantIslands : public MachineFunctionPass { 105a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// BasicBlockInfo - Information about the offset and size of a single 106a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// basic block. 107a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen struct BasicBlockInfo { 108a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// Offset - Distance from the beginning of the function to the beginning 109a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// of this basic block. 110a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// 111540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// The offset is always aligned as required by the basic block. 112a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned Offset; 113a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen 114a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// Size - Size of the basic block in bytes. If the block contains 115a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// inline assembly, this is a worst case estimate. 116a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen /// 117540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// The size does not include any alignment padding whether from the 118540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// beginning of the block, or from an aligned jump table at the end. 119a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned Size; 120a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen 121540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// KnownBits - The number of low bits in Offset that are known to be 122540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// exact. The remaining bits of Offset are an upper bound. 123540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen uint8_t KnownBits; 124540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 125a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// Unalign - When non-zero, the block contains instructions (inline asm) 126a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// of unknown size. The real size may be smaller than Size bytes by a 127a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// multiple of 1 << Unalign. 128a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen uint8_t Unalign; 129a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 130a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// PostAlign - When non-zero, the block terminator contains a .align 131a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// directive, so the end of the block is aligned to 1 << PostAlign 132a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen /// bytes. 133a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen uint8_t PostAlign; 134a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 135540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen BasicBlockInfo() : Offset(0), Size(0), KnownBits(0), Unalign(0), 136540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen PostAlign(0) {} 1375bb32530bc1adb970eee2ac18508ea2876a2f410Jakob Stoklund Olesen 13877caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen /// Compute the number of known offset bits internally to this block. 13977caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen /// This number should be used to predict worst case padding when 14077caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen /// splitting the block. 14177caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen unsigned internalKnownBits() const { 14277caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen return Unalign ? Unalign : KnownBits; 14377caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen } 14477caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen 1458552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen /// Compute the offset immediately following this block. If LogAlign is 1468552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen /// specified, return the offset the successor block will get if it has 1478552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen /// this alignment. 1488552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned postOffset(unsigned LogAlign = 0) const { 149540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen unsigned PO = Offset + Size; 1508552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned LA = std::max(unsigned(PostAlign), LogAlign); 1518552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen if (!LA) 152540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen return PO; 153540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // Add alignment padding from the terminator. 1548552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen return WorstCaseAlign(PO, LA, internalKnownBits()); 155540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen } 156540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 157540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// Compute the number of known low bits of postOffset. If this block 158540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// contains inline asm, the number of known bits drops to the 159540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// instruction alignment. An aligned terminator may increase the number 160540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen /// of know bits. 1618552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen /// If LogAlign is given, also consider the alignment of the next block. 1628552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned postKnownBits(unsigned LogAlign = 0) const { 1638552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen return std::max(std::max(unsigned(PostAlign), LogAlign), 1648552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen internalKnownBits()); 165540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen } 166a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen }; 1678494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 168a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen std::vector<BasicBlockInfo> BBInfo; 16999c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen 170a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// WaterList - A sorted list of basic blocks where islands could be placed 171a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// (i.e. blocks that don't fall through to the following block, due 172a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// to a return, unreachable, or unconditional branch). 173e03cff6812ac41598e2bca7854985dc821a07f44Evan Cheng std::vector<MachineBasicBlock*> WaterList; 174c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 175b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson /// NewWaterList - The subset of WaterList that was created since the 176b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson /// previous iteration by inserting unconditional branches. 177b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson SmallSet<MachineBasicBlock*, 4> NewWaterList; 178b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 179034de5f65f9139954cb01d94eaebbaefd294946eBob Wilson typedef std::vector<MachineBasicBlock*>::iterator water_iterator; 180034de5f65f9139954cb01d94eaebbaefd294946eBob Wilson 181a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// CPUser - One user of a constant pool, keeping the machine instruction 182a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// pointer, the constant pool being referenced, and the max displacement 183549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// allowed from the instruction to the CP. The HighWaterMark records the 184549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// highest basic block where a new CPEntry can be placed. To ensure this 185549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// pass terminates, the CP entries are initially placed at the end of the 186549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// function and then move monotonically to lower addresses. The 187549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// exception to this rule is when the current CP entry for a particular 188549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// CPUser is out of range, but there is another CP entry for the same 189549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// constant value in range. We want to use the existing in-range CP 190549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// entry, but if it later moves out of range, the search for new water 191549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// should resume where it left off. The HighWaterMark is used to record 192549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson /// that point. 193a8e2989ece6dc46df59b0768184028257f913843Evan Cheng struct CPUser { 194a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineInstr *MI; 195a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineInstr *CPEMI; 196549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson MachineBasicBlock *HighWaterMark; 197dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen private: 198a8e2989ece6dc46df59b0768184028257f913843Evan Cheng unsigned MaxDisp; 199dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen public: 2005d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng bool NegOk; 201d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng bool IsSoImm; 202dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen bool KnownAlignment; 203d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng CPUser(MachineInstr *mi, MachineInstr *cpemi, unsigned maxdisp, 204d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng bool neg, bool soimm) 205dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen : MI(mi), CPEMI(cpemi), MaxDisp(maxdisp), NegOk(neg), IsSoImm(soimm), 206dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen KnownAlignment(false) { 207549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson HighWaterMark = CPEMI->getParent(); 208549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson } 209dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen /// getMaxDisp - Returns the maximum displacement supported by MI. 210dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen /// Correct for unknown alignment. 211dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen unsigned getMaxDisp() const { 212dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen return KnownAlignment ? MaxDisp : MaxDisp - 2; 213dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen } 214a8e2989ece6dc46df59b0768184028257f913843Evan Cheng }; 2158494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 216a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// CPUsers - Keep track of all of the machine instructions that use various 217a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// constant pools and their max displacement. 218e03cff6812ac41598e2bca7854985dc821a07f44Evan Cheng std::vector<CPUser> CPUsers; 2198494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 220c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng /// CPEntry - One per constant pool entry, keeping the machine instruction 221c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng /// pointer, the constpool index, and the number of CPUser's which 222c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng /// reference this entry. 223c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng struct CPEntry { 224c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng MachineInstr *CPEMI; 225c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng unsigned CPI; 226c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng unsigned RefCount; 227c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEntry(MachineInstr *cpemi, unsigned cpi, unsigned rc = 0) 228c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng : CPEMI(cpemi), CPI(cpi), RefCount(rc) {} 229c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng }; 230c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 231c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng /// CPEntries - Keep track of all of the constant pool entry machine 23288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// instructions. For each original constpool index (i.e. those that 23388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// existed upon entry to this pass), it keeps a vector of entries. 23488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// Original elements are cloned as we go along; the clones are 23588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen /// put in the vector of the original element, but have distinct CPIs. 236c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng std::vector<std::vector<CPEntry> > CPEntries; 2378494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 238af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng /// ImmBranch - One per immediate branch, keeping the machine instruction 239af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng /// pointer, conditional or unconditional, the max displacement, 240af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng /// and (if isCond is true) the corresponding unconditional branch 241af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng /// opcode. 242af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng struct ImmBranch { 243af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng MachineInstr *MI; 244c285414988ba026d01e5d8acc07a21cd06fd5732Evan Cheng unsigned MaxDisp : 31; 245c285414988ba026d01e5d8acc07a21cd06fd5732Evan Cheng bool isCond : 1; 246af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng int UncondBr; 247c285414988ba026d01e5d8acc07a21cd06fd5732Evan Cheng ImmBranch(MachineInstr *mi, unsigned maxdisp, bool cond, int ubr) 248c285414988ba026d01e5d8acc07a21cd06fd5732Evan Cheng : MI(mi), MaxDisp(maxdisp), isCond(cond), UncondBr(ubr) {} 249af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng }; 250af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 2512706f9771de8e90ee6379e70afedd91892bb9c8cEvan Cheng /// ImmBranches - Keep track of all the immediate branch instructions. 252af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng /// 253e03cff6812ac41598e2bca7854985dc821a07f44Evan Cheng std::vector<ImmBranch> ImmBranches; 254af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 255d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng /// PushPopMIs - Keep track of all the Thumb push / pop instructions. 256d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng /// 257c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng SmallVector<MachineInstr*, 4> PushPopMIs; 258d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 2595657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng /// T2JumpTables - Keep track of all the Thumb2 jumptable instructions. 2605657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng SmallVector<MachineInstr*, 4> T2JumpTables; 2615657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 262d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng /// HasFarJump - True if any far jump instruction has been emitted during 263d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng /// the branch fix up pass. 264d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng bool HasFarJump; 265d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 266dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineFunction *MF; 267dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineConstantPool *MCP; 268acf2077ca497980a066e8e7bb81ceec0de82d5daCraig Topper const ARMBaseInstrInfo *TII; 26925f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng const ARMSubtarget *STI; 2708593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen ARMFunctionInfo *AFI; 271b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen bool isThumb; 272d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng bool isThumb1; 2735e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin bool isThumb2; 274a8e2989ece6dc46df59b0768184028257f913843Evan Cheng public: 2751997473cf72957d0e70322e2fe6fe2ab141c58a6Devang Patel static char ID; 27690c579de5a383cee278acc3f7e7b9d0a656e6a35Owen Anderson ARMConstantIslands() : MachineFunctionPass(ID) {} 277794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel 2785657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng virtual bool runOnMachineFunction(MachineFunction &MF); 279a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 280a8e2989ece6dc46df59b0768184028257f913843Evan Cheng virtual const char *getPassName() const { 281af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng return "ARM constant island placement and branch shortening pass"; 282a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 2838494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 284a8e2989ece6dc46df59b0768184028257f913843Evan Cheng private: 2857a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void doInitialPlacement(std::vector<MachineInstr*> &CPEMIs); 286c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEntry *findConstPoolEntry(unsigned CPI, const MachineInstr *CPEMI); 287cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen unsigned getCPELogAlign(const MachineInstr *CPEMI); 2887a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void scanFunctionJumpTables(); 2897a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void initializeFunctionInfo(const std::vector<MachineInstr*> &CPEMIs); 2907a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MachineBasicBlock *splitBlockBeforeInstr(MachineInstr *MI); 2917a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void updateForInsertedWaterBlock(MachineBasicBlock *NewBB); 2927a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void adjustBBOffsetsAfter(MachineBasicBlock *BB); 2937a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool decrementCPEReferenceCount(unsigned CPI, MachineInstr* CPEMI); 2947a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach int findInRangeCPEntry(CPUser& U, unsigned UserOffset); 2957a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool findAvailableWater(CPUser&U, unsigned UserOffset, 2967a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach water_iterator &WaterIter); 2977a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void createNewWater(unsigned CPUserIndex, unsigned UserOffset, 298757652c5ba820bbea75d8713d7bf3749e4113778Bob Wilson MachineBasicBlock *&NewMBB); 2997a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool handleConstantPoolUser(unsigned CPUserIndex); 3007a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void removeDeadCPEMI(MachineInstr *CPEMI); 3017a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool removeUnusedCPEntries(); 3027a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool isCPEntryInRange(MachineInstr *MI, unsigned UserOffset, 3037a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MachineInstr *CPEMI, unsigned Disp, bool NegOk, 3047a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool DoDump = false); 3057a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool isWaterInRange(unsigned UserOffset, MachineBasicBlock *Water, 3062e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen CPUser &U, unsigned &Growth); 3077a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool isBBInRange(MachineInstr *MI, MachineBasicBlock *BB, unsigned Disp); 3087a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool fixupImmediateBr(ImmBranch &Br); 3097a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool fixupConditionalBr(ImmBranch &Br); 3107a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool fixupUnconditionalBr(ImmBranch &Br); 3117a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool undoLRSpillRestore(); 31219d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen bool mayOptimizeThumb2Instruction(const MachineInstr *MI) const; 3137a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool optimizeThumb2Instructions(); 3147a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool optimizeThumb2Branches(); 3157a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool reorderThumb2JumpTables(); 3167a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool optimizeThumb2JumpTables(); 3177a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MachineBasicBlock *adjustJTTargetBlockForward(MachineBasicBlock *BB, 3181fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach MachineBasicBlock *JTBB); 319a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 3207a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach void computeBlockSize(MachineBasicBlock *MBB); 3217a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned getOffsetOf(MachineInstr *MI) const; 3227a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned getUserOffset(CPUser&) const; 3238593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen void dumpBBs(); 324dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen void verify(); 325493ad6b95d153763b4b4fec456918f6c0d72d1eaJakob Stoklund Olesen 3267a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool isOffsetInRange(unsigned UserOffset, unsigned TrialOffset, 327493ad6b95d153763b4b4fec456918f6c0d72d1eaJakob Stoklund Olesen unsigned Disp, bool NegativeOK, bool IsSoImm = false); 3287a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach bool isOffsetInRange(unsigned UserOffset, unsigned TrialOffset, 329493ad6b95d153763b4b4fec456918f6c0d72d1eaJakob Stoklund Olesen const CPUser &U) { 3307a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return isOffsetInRange(UserOffset, TrialOffset, 331dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen U.getMaxDisp(), U.NegOk, U.IsSoImm); 332493ad6b95d153763b4b4fec456918f6c0d72d1eaJakob Stoklund Olesen } 333a8e2989ece6dc46df59b0768184028257f913843Evan Cheng }; 3341997473cf72957d0e70322e2fe6fe2ab141c58a6Devang Patel char ARMConstantIslands::ID = 0; 335a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 336a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 3378593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen/// verify - check BBOffsets, BBSizes, alignment of islands 338dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesenvoid ARMConstantIslands::verify() { 339d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng#ifndef NDEBUG 340dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen for (MachineFunction::iterator MBBI = MF->begin(), E = MF->end(); 341d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng MBBI != E; ++MBBI) { 342d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng MachineBasicBlock *MBB = MBBI; 34399486be8bad67f70445df99fd0c07d17eb8b1c05Jakob Stoklund Olesen unsigned Align = MBB->getAlignment(); 34499486be8bad67f70445df99fd0c07d17eb8b1c05Jakob Stoklund Olesen unsigned MBBId = MBB->getNumber(); 34599486be8bad67f70445df99fd0c07d17eb8b1c05Jakob Stoklund Olesen assert(BBInfo[MBBId].Offset % (1u << Align) == 0); 34699486be8bad67f70445df99fd0c07d17eb8b1c05Jakob Stoklund Olesen assert(!MBBId || BBInfo[MBBId - 1].postOffset() <= BBInfo[MBBId].Offset); 3478593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen } 3484d8e90a026a29a812616690bd77b72e0b5ae6c75Jim Grosbach for (unsigned i = 0, e = CPUsers.size(); i != e; ++i) { 3494d8e90a026a29a812616690bd77b72e0b5ae6c75Jim Grosbach CPUser &U = CPUsers[i]; 3507a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned UserOffset = getUserOffset(U); 3517a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach assert(isCPEntryInRange(U.MI, UserOffset, U.CPEMI, U.getMaxDisp(), 3527a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach U.NegOk) && "Constant pool entry out of range!"); 3534d8e90a026a29a812616690bd77b72e0b5ae6c75Jim Grosbach } 354a9562568e5c2a897e3a51b18700eeb70f0dda48cJim Grosbach#endif 3558593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen} 3568593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen 3578593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen/// print block size and offset information - debugging 3588593e418555fdae21a070357fd8734b4069c17d0Dale Johannesenvoid ARMConstantIslands::dumpBBs() { 3592d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen DEBUG({ 3602d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen for (unsigned J = 0, E = BBInfo.size(); J !=E; ++J) { 3612d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen const BasicBlockInfo &BBI = BBInfo[J]; 3622d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen dbgs() << format("%08x BB#%u\t", BBI.Offset, J) 3632d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << " kb=" << unsigned(BBI.KnownBits) 3642d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << " ua=" << unsigned(BBI.Unalign) 3652d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << " pa=" << unsigned(BBI.PostAlign) 3662d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << format(" size=%#x\n", BBInfo[J].Size); 3672d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen } 3682d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen }); 3698593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen} 3708593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen 371af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng/// createARMConstantIslandPass - returns an instance of the constpool 372af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng/// island pass. 373a8e2989ece6dc46df59b0768184028257f913843Evan ChengFunctionPass *llvm::createARMConstantIslandPass() { 374a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return new ARMConstantIslands(); 375a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 376a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 377dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesenbool ARMConstantIslands::runOnMachineFunction(MachineFunction &mf) { 378dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF = &mf; 379dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MCP = mf.getConstantPool(); 3808494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 3812d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen DEBUG(dbgs() << "***** ARMConstantIslands: " 382dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen << MCP->getConstants().size() << " CP entries, aligned to " 383dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen << MCP->getConstantPoolAlignment() << " bytes *****\n"); 3842d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen 385acf2077ca497980a066e8e7bb81ceec0de82d5daCraig Topper TII = (const ARMBaseInstrInfo*)MF->getTarget().getInstrInfo(); 386dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen AFI = MF->getInfo<ARMFunctionInfo>(); 387dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen STI = &MF->getTarget().getSubtarget<ARMSubtarget>(); 38825f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 389b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen isThumb = AFI->isThumbFunction(); 390d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng isThumb1 = AFI->isThumb1OnlyFunction(); 3915e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin isThumb2 = AFI->isThumb2Function(); 392d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 393d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng HasFarJump = false; 394d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 395a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Renumber all of the machine basic blocks in the function, guaranteeing that 396a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // the numbers agree with the position of the block in the function. 397dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->RenumberBlocks(); 398a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 39980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // Try to reorder and otherwise adjust the block layout to make good use 40080697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // of the TB[BH] instructions. 40180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach bool MadeChange = false; 40280697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach if (isThumb2 && AdjustJumpTableBlocks) { 4037a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach scanFunctionJumpTables(); 4047a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= reorderThumb2JumpTables(); 40580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // Data is out of date, so clear it. It'll be re-computed later. 40680697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach T2JumpTables.clear(); 40780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // Blocks may have shifted around. Keep the numbering up to date. 408dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->RenumberBlocks(); 40980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 41080697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 411d26b14c34cbcee1448b86b524578fc51cc979023Evan Cheng // Thumb1 functions containing constant pools get 4-byte alignment. 412d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng // This is so we can keep exact track of where the alignment padding goes. 413d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 4147d7dab02783fb4f1f5d0cf274c52a4fb059bfbeaChris Lattner // ARM and Thumb2 functions need to be 4-byte aligned. 4157d7dab02783fb4f1f5d0cf274c52a4fb059bfbeaChris Lattner if (!isThumb1) 416dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->EnsureAlignment(2); // 2 = log2(4) 41756c42ef3e43f8eb75c435e781d0ac8251c7588a1Dale Johannesen 418a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Perform the initial placement of the constant pool entries. To start with, 419a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // we put them all at the end of the function. 420e03cff6812ac41598e2bca7854985dc821a07f44Evan Cheng std::vector<MachineInstr*> CPEMIs; 421cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen if (!MCP->isEmpty()) 4227a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach doInitialPlacement(CPEMIs); 4238494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 424a8e2989ece6dc46df59b0768184028257f913843Evan Cheng /// The next UID to take is the first unused one. 4255de5d4b6d0eb3fd379fa571d82f6fa764460b3b8Evan Cheng AFI->initPICLabelUId(CPEMIs.size()); 4268494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 427a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Do the initial scan of the function, building up information about the 428a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // sizes of each block, the location of all the water, and finding all of the 429a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // constant pool users. 4307a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach initializeFunctionInfo(CPEMIs); 431a8e2989ece6dc46df59b0768184028257f913843Evan Cheng CPEMIs.clear(); 4328086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen DEBUG(dumpBBs()); 4338086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen 4348494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 435ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng /// Remove dead constant pool entries. 4367a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= removeUnusedCPEntries(); 437ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng 438d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng // Iteratively place constant pool entries and fix up branches until there 439d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng // is no change. 440b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng unsigned NoCPIters = 0, NoBRIters = 0; 441d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng while (true) { 4423c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "Beginning CP iteration #" << NoCPIters << '\n'); 443b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng bool CPChange = false; 444a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (unsigned i = 0, e = CPUsers.size(); i != e; ++i) 4457a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach CPChange |= handleConstantPoolUser(i); 446b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng if (CPChange && ++NoCPIters > 30) 447169db15717e77f2893d1868ef934ce42c2e9e956Jakob Stoklund Olesen report_fatal_error("Constant Island pass failed to converge!"); 4488202010364e1bfe6111f1ce62f154499b80877fbEvan Cheng DEBUG(dumpBBs()); 44926b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach 450b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // Clear NewWaterList now. If we split a block for branches, it should 451b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // appear as "new water" for the next iteration of constant pool placement. 452b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.clear(); 453b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng 4543c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "Beginning BR iteration #" << NoBRIters << '\n'); 455b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng bool BRChange = false; 456af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng for (unsigned i = 0, e = ImmBranches.size(); i != e; ++i) 4577a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach BRChange |= fixupImmediateBr(ImmBranches[i]); 458b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng if (BRChange && ++NoBRIters > 30) 459169db15717e77f2893d1868ef934ce42c2e9e956Jakob Stoklund Olesen report_fatal_error("Branch Fix Up pass failed to converge!"); 4608202010364e1bfe6111f1ce62f154499b80877fbEvan Cheng DEBUG(dumpBBs()); 461b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng 462b6879b2b84df2f642cd39f5bf58584c4a39f8080Evan Cheng if (!CPChange && !BRChange) 463d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng break; 464d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng MadeChange = true; 465d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng } 466ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng 467a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng // Shrink 32-bit Thumb2 branch, load, and store instructions. 468e44be6381609d31b2d8879dbd5107e01404fa475Evan Cheng if (isThumb2 && !STI->prefers32BitThumb()) 4697a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= optimizeThumb2Instructions(); 47025f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 4718593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // After a while, this might be made debug-only, but it is not expensive. 472dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen verify(); 4738593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen 47426b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach // If LR has been forced spilled and no far jump (i.e. BL) has been issued, 47526b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach // undo the spill / restore of LR if possible. 4765657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (isThumb && !HasFarJump && AFI->isLRSpilledForFarJump()) 4777a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= undoLRSpillRestore(); 478d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 47998b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov // Save the mapping between original and cloned constpool entries. 48098b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov for (unsigned i = 0, e = CPEntries.size(); i != e; ++i) { 48198b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov for (unsigned j = 0, je = CPEntries[i].size(); j != je; ++j) { 48298b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov const CPEntry & CPE = CPEntries[i][j]; 48398b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov AFI->recordCPEClone(i, CPE.CPI); 48498b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov } 48598b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov } 48698b928ea71576c243bdb203879d966be9cde5f3cAnton Korobeynikov 4873c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << '\n'; dumpBBs()); 488b1c857bb7b3d7bc187de4e97439eb212a8604bf0Evan Cheng 489a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo.clear(); 490a8e2989ece6dc46df59b0768184028257f913843Evan Cheng WaterList.clear(); 491a8e2989ece6dc46df59b0768184028257f913843Evan Cheng CPUsers.clear(); 492c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEntries.clear(); 493af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng ImmBranches.clear(); 494c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng PushPopMIs.clear(); 4955657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng T2JumpTables.clear(); 496d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 497d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng return MadeChange; 498a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 499a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 5007a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// doInitialPlacement - Perform the initial placement of the constant pool 501a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// entries. To start with, we put them all at the end of the function. 502dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesenvoid 5037a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachARMConstantIslands::doInitialPlacement(std::vector<MachineInstr*> &CPEMIs) { 504a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Create the basic block to hold the CPE's. 505dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineBasicBlock *BB = MF->CreateMachineBasicBlock(); 506dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->push_back(BB); 5078494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 508b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // MachineConstantPool measures alignment in bytes. We measure in log2(bytes). 5095e46dcbb4b6f6e82f7bb88490800ed09ac02f105Jakob Stoklund Olesen unsigned MaxAlign = Log2_32(MCP->getConstantPoolAlignment()); 510b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen 511b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // Mark the basic block as required by the const-pool. 512b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // If AlignConstantIslands isn't set, use 4-byte alignment for everything. 513b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen BB->setAlignment(AlignConstantIslands ? MaxAlign : 2); 514b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen 515cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen // The function needs to be as aligned as the basic blocks. The linker may 516cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen // move functions around based on their alignment. 517cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen MF->EnsureAlignment(BB->getAlignment()); 518cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen 519b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // Order the entries in BB by descending alignment. That ensures correct 520b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // alignment of all entries as long as BB is sufficiently aligned. Keep 521b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // track of the insertion point for each alignment. We are going to bucket 522b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // sort the entries as they are created. 523b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen SmallVector<MachineBasicBlock::iterator, 8> InsPoint(MaxAlign + 1, BB->end()); 5243e572ac2fbdf6aa538500be07b9b050ac008669eJakob Stoklund Olesen 525a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Add all of the constants from the constant pool to the end block, use an 526a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // identity mapping of CPI's to CPE's. 5275e46dcbb4b6f6e82f7bb88490800ed09ac02f105Jakob Stoklund Olesen const std::vector<MachineConstantPoolEntry> &CPs = MCP->getConstants(); 5288494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 529dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen const TargetData &TD = *MF->getTarget().getTargetData(); 530a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (unsigned i = 0, e = CPs.size(); i != e; ++i) { 531777d2306b36816a53bc1ae1244c0dc7d998ae691Duncan Sands unsigned Size = TD.getTypeAllocSize(CPs[i].getType()); 532b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen assert(Size >= 4 && "Too small constant pool entry"); 533b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen unsigned Align = CPs[i].getAlignment(); 534b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen assert(isPowerOf2_32(Align) && "Invalid alignment"); 535b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // Verify that all constant pool entries are a multiple of their alignment. 536b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // If not, we would have to pad them out so that instructions stay aligned. 537b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen assert((Size % Align) == 0 && "CP Entry not multiple of 4 bytes!"); 538b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen 539b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // Insert CONSTPOOL_ENTRY before entries with a smaller alignment. 540b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen unsigned LogAlign = Log2_32(Align); 541b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen MachineBasicBlock::iterator InsAt = InsPoint[LogAlign]; 542a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineInstr *CPEMI = 543b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen BuildMI(*BB, InsAt, DebugLoc(), TII->get(ARM::CONSTPOOL_ENTRY)) 544c7f3ace20c325521c68335a1689645b43b06ddf0Chris Lattner .addImm(i).addConstantPoolIndex(i).addImm(Size); 545a8e2989ece6dc46df59b0768184028257f913843Evan Cheng CPEMIs.push_back(CPEMI); 546c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 547b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // Ensure that future entries with higher alignment get inserted before 548b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen // CPEMI. This is bucket sort with iterators. 549b076fb7762498289718dbe4cb5de03e6e93bd4e7Jakob Stoklund Olesen for (unsigned a = LogAlign + 1; a <= MaxAlign; ++a) 550b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen if (InsPoint[a] == InsAt) 551b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen InsPoint[a] = CPEMI; 552b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen 553c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng // Add a new CPEntry, but no corresponding CPUser yet. 554c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng std::vector<CPEntry> CPEs; 555c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEs.push_back(CPEntry(CPEMI, i)); 556c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEntries.push_back(CPEs); 557fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman ++NumCPEs; 558dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen DEBUG(dbgs() << "Moved CPI#" << i << " to end of function, size = " 559dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen << Size << ", align = " << Align <<'\n'); 560a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 561b813f924a749396ffb4a4bd087ee1dbb678551f3Jakob Stoklund Olesen DEBUG(BB->dump()); 562a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 563a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 56488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// BBHasFallthrough - Return true if the specified basic block can fallthrough 565a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// into the block immediately after it. 566a8e2989ece6dc46df59b0768184028257f913843Evan Chengstatic bool BBHasFallthrough(MachineBasicBlock *MBB) { 567a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Get the next machine basic block in the function. 568a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineFunction::iterator MBBI = MBB; 56918f30e6f5e80787808fe1455742452a5210afe07Jim Grosbach // Can't fall off end of function. 57018f30e6f5e80787808fe1455742452a5210afe07Jim Grosbach if (llvm::next(MBBI) == MBB->getParent()->end()) 571a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return false; 5728494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 5737896c9f436a4eda5ec15e882a7505ba482a2fcd0Chris Lattner MachineBasicBlock *NextBB = llvm::next(MBBI); 574a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (MachineBasicBlock::succ_iterator I = MBB->succ_begin(), 575a8e2989ece6dc46df59b0768184028257f913843Evan Cheng E = MBB->succ_end(); I != E; ++I) 576a8e2989ece6dc46df59b0768184028257f913843Evan Cheng if (*I == NextBB) 577a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return true; 5788494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 579a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return false; 580a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 581a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 582c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng/// findConstPoolEntry - Given the constpool index and CONSTPOOL_ENTRY MI, 583c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng/// look up the corresponding CPEntry. 584c99ef085b90b32952b484e8843fb66ad65215b61Evan ChengARMConstantIslands::CPEntry 585c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng*ARMConstantIslands::findConstPoolEntry(unsigned CPI, 586c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng const MachineInstr *CPEMI) { 587c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng std::vector<CPEntry> &CPEs = CPEntries[CPI]; 588c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng // Number of entries per constpool index should be small, just do a 589c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng // linear search. 590c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng for (unsigned i = 0, e = CPEs.size(); i != e; ++i) { 591c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng if (CPEs[i].CPEMI == CPEMI) 592c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng return &CPEs[i]; 593c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng } 594c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng return NULL; 595c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng} 596c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 597cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen/// getCPELogAlign - Returns the required alignment of the constant pool entry 598bd1ec17caf8fc393b112e6c01fe0e9cd7db213aeJakob Stoklund Olesen/// represented by CPEMI. Alignment is measured in log2(bytes) units. 599cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesenunsigned ARMConstantIslands::getCPELogAlign(const MachineInstr *CPEMI) { 600cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen assert(CPEMI && CPEMI->getOpcode() == ARM::CONSTPOOL_ENTRY); 601cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen 602cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen // Everything is 4-byte aligned unless AlignConstantIslands is set. 603cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen if (!AlignConstantIslands) 604cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen return 2; 605cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen 606cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen unsigned CPI = CPEMI->getOperand(1).getIndex(); 607cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen assert(CPI < MCP->getConstants().size() && "Invalid constant pool index."); 608cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen unsigned Align = MCP->getConstants()[CPI].getAlignment(); 609cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen assert(isPowerOf2_32(Align) && "Invalid CPE alignment"); 610cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen return Log2_32(Align); 611cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen} 612cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen 6137a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// scanFunctionJumpTables - Do a scan of the function, building up 61480697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach/// information about the sizes of each block and the locations of all 61580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach/// the jump tables. 6167a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::scanFunctionJumpTables() { 617dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen for (MachineFunction::iterator MBBI = MF->begin(), E = MF->end(); 61880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MBBI != E; ++MBBI) { 61980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineBasicBlock &MBB = *MBBI; 62080697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 62180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach for (MachineBasicBlock::iterator I = MBB.begin(), E = MBB.end(); 62208cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach I != E; ++I) 6235a96b3dad2f634c9081c8b2b6c2575441dc5a2bdEvan Cheng if (I->isBranch() && I->getOpcode() == ARM::t2BR_JT) 62408cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach T2JumpTables.push_back(I); 62580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 62680697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach} 62780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 6287a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// initializeFunctionInfo - Do the initial scan of the function, building up 629a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// information about the sizes of each block, the location of all the water, 630a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// and finding all of the constant pool users. 631dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesenvoid ARMConstantIslands:: 6327a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachinitializeFunctionInfo(const std::vector<MachineInstr*> &CPEMIs) { 633a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBInfo.clear(); 634dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen BBInfo.resize(MF->getNumBlockIDs()); 635a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 636540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // First thing, compute the size of all basic blocks, and see if the function 637540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // has any inline assembly in it. If so, we have to be conservative about 638540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // alignment assumptions, as we don't know for sure the size of any 639540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // instructions in the inline assembly. 640dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen for (MachineFunction::iterator I = MF->begin(), E = MF->end(); I != E; ++I) 6417a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach computeBlockSize(I); 642540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 643540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // The known bits of the entry block offset are determined by the function 644540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // alignment. 645dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen BBInfo.front().KnownBits = MF->getAlignment(); 646540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 647540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // Compute block offsets and known bits. 6487a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MF->begin()); 649540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 6509a4d2e40a02b6e5fab5ccf1c768a52c76f3aec6aBill Wendling // Now go back through the instructions and build up our data structures. 651dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen for (MachineFunction::iterator MBBI = MF->begin(), E = MF->end(); 652a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MBBI != E; ++MBBI) { 653a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineBasicBlock &MBB = *MBBI; 6548494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 655a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // If this block doesn't fall through into the next MBB, then this is 656a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // 'water' that a constant pool island could be placed. 657a8e2989ece6dc46df59b0768184028257f913843Evan Cheng if (!BBHasFallthrough(&MBB)) 658a8e2989ece6dc46df59b0768184028257f913843Evan Cheng WaterList.push_back(&MBB); 6598494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 660a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (MachineBasicBlock::iterator I = MBB.begin(), E = MBB.end(); 661a8e2989ece6dc46df59b0768184028257f913843Evan Cheng I != E; ++I) { 6629cfcfeb24bf7182d40d8e8a54e350451b67a1136Jim Grosbach if (I->isDebugValue()) 6639cfcfeb24bf7182d40d8e8a54e350451b67a1136Jim Grosbach continue; 664a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 665af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng int Opc = I->getOpcode(); 6665a96b3dad2f634c9081c8b2b6c2575441dc5a2bdEvan Cheng if (I->isBranch()) { 667af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng bool isCond = false; 668af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng unsigned Bits = 0; 669af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng unsigned Scale = 1; 670af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng int UOpc = Opc; 671af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng switch (Opc) { 6725657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng default: 6735657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; // Ignore other JT branches 6745657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng case ARM::t2BR_JT: 6755657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng T2JumpTables.push_back(I); 6765657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; // Does not get an entry in ImmBranches 677af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng case ARM::Bcc: 678af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng isCond = true; 679af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng UOpc = ARM::B; 680af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // Fallthrough 681af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng case ARM::B: 682af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Bits = 24; 683af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Scale = 4; 684af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng break; 685af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng case ARM::tBcc: 686af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng isCond = true; 687af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng UOpc = ARM::tB; 688af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Bits = 8; 689af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Scale = 2; 690af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng break; 691af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng case ARM::tB: 692af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Bits = 11; 693af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Scale = 2; 694af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng break; 6955e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin case ARM::t2Bcc: 6965e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin isCond = true; 6975e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin UOpc = ARM::t2B; 6985e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin Bits = 20; 6995e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin Scale = 2; 7005e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin break; 7015e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin case ARM::t2B: 7025e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin Bits = 24; 7035e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin Scale = 2; 7045e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin break; 705af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng } 706b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng 707b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng // Record this immediate branch. 708bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng unsigned MaxOffs = ((1 << (Bits-1))-1) * Scale; 709b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng ImmBranches.push_back(ImmBranch(I, MaxOffs, isCond, UOpc)); 710af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng } 711af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 712d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng if (Opc == ARM::tPUSH || Opc == ARM::tPOP_RET) 713d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng PushPopMIs.push_back(I); 714d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 715d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng if (Opc == ARM::CONSTPOOL_ENTRY) 716d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng continue; 717d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 718a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Scan the instructions for constant pool operands. 719a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (unsigned op = 0, e = I->getNumOperands(); op != e; ++op) 720d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman if (I->getOperand(op).isCPI()) { 721a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // We found one. The addressing mode tells us the max displacement 722a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // from the PC that this instruction permits. 7238494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 724a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Basic size info comes from the TSFlags field. 725b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng unsigned Bits = 0; 726b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng unsigned Scale = 1; 7275d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng bool NegOk = false; 728d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng bool IsSoImm = false; 729d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 730d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng switch (Opc) { 7318494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson default: 732c23197a26f34f559ea9797de51e187087c039c42Torok Edwin llvm_unreachable("Unknown addressing mode for CP reference!"); 733d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 734d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng // Taking the address of a CP entry. 735d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng case ARM::LEApcrel: 736d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng // This takes a SoImm, which is 8 bit immediate rotated. We'll 737d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng // pretend the maximum offset is 255 * 4. Since each instruction 738dec6de92d1425c88f319179fb4a0b0a23f781df9Jim Grosbach // 4 byte wide, this is always correct. We'll check for other 739d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng // displacements that fits in a SoImm as well. 740d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Bits = 8; 741d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Scale = 4; 7425d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng NegOk = true; 743d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng IsSoImm = true; 744a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 7456b8719fd7dc527e4c1910ae49ebee61d90907c08Owen Anderson case ARM::t2LEApcrel: 746d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Bits = 12; 7475d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng NegOk = true; 748a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 749d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng case ARM::tLEApcrel: 750b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng Bits = 8; 751d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Scale = 4; 752a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 753d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 7543e5561247202bae994dd259a2d8dc4eff8f799f3Jim Grosbach case ARM::LDRi12: 755d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng case ARM::LDRcp: 756971b83b67a9812556cdb97bb58aa96fb37af458dOwen Anderson case ARM::t2LDRpci: 757d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Bits = 12; // +-offset_12 758d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng NegOk = true; 759a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 760d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 761d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng case ARM::tLDRpci: 762b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng Bits = 8; 763b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng Scale = 4; // +(offset_8*4) 764012f2d97b78e4eb9128f1d491f2c177768dbe527Evan Cheng break; 765d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng 766e5165490b7ba24bb2f3043399e0d60e7f3bcf8a5Jim Grosbach case ARM::VLDRD: 767e5165490b7ba24bb2f3043399e0d60e7f3bcf8a5Jim Grosbach case ARM::VLDRS: 768d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Bits = 8; 769d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng Scale = 4; // +-(offset_8*4) 770d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng NegOk = true; 771055b0310f862b91f33699037ce67d3ab8137c20cEvan Cheng break; 772a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 773b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng 774a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Remember that this is a user of a CP entry. 7758aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner unsigned CPI = I->getOperand(op).getIndex(); 776c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng MachineInstr *CPEMI = CPEMIs[CPI]; 77731b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng unsigned MaxOffs = ((1 << Bits)-1) * Scale; 778d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng CPUsers.push_back(CPUser(I, CPEMI, MaxOffs, NegOk, IsSoImm)); 779c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 780c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng // Increment corresponding CPEntry reference count. 781c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPEntry *CPE = findConstPoolEntry(CPI, CPEMI); 782c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng assert(CPE && "Cannot find a corresponding CPEntry!"); 783c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng CPE->RefCount++; 7848494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 785a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Instructions can only use one CP entry, don't bother scanning the 786a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // rest of the operands. 787a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 788a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 789a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 790a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 791a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 792a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 7937a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// computeBlockSize - Compute the size and some alignment information for MBB. 794a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen/// This function updates BBInfo directly. 7957a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::computeBlockSize(MachineBasicBlock *MBB) { 796a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BasicBlockInfo &BBI = BBInfo[MBB->getNumber()]; 797a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.Size = 0; 798a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.Unalign = 0; 799a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.PostAlign = 0; 800a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 801540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen for (MachineBasicBlock::iterator I = MBB->begin(), E = MBB->end(); I != E; 802540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen ++I) { 803a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.Size += TII->GetInstSizeInBytes(I); 804a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen // For inline asm, GetInstSizeInBytes returns a conservative estimate. 805a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen // The actual size may be smaller, but still a multiple of the instr size. 806e6f9e9d8365346330c782c82860a6b77df8ee829Jakob Stoklund Olesen if (I->isInlineAsm()) 807a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.Unalign = isThumb ? 1 : 2; 80819d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen // Also consider instructions that may be shrunk later. 80919d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen else if (isThumb && mayOptimizeThumb2Instruction(I)) 81019d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen BBI.Unalign = 1; 811a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen } 812a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 813a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen // tBR_JTr contains a .align 2 directive. 814540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen if (!MBB->empty() && MBB->back().getOpcode() == ARM::tBR_JTr) { 815a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen BBI.PostAlign = 2; 816540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen MBB->getParent()->EnsureAlignment(2); 817540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen } 818a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen} 819a26811ec83d00344a739d84f4b8584e5548b94ceJakob Stoklund Olesen 8207a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// getOffsetOf - Return the current offset of the specified machine instruction 821a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// from the start of the function. This offset changes as stuff is moved 822a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// around inside the function. 8237a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachunsigned ARMConstantIslands::getOffsetOf(MachineInstr *MI) const { 824a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineBasicBlock *MBB = MI->getParent(); 8258494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 826a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // The offset is composed of two things: the sum of the sizes of all MBB's 827a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // before this instruction's block, and the offset from the start of the block 828a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // it is in. 829a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned Offset = BBInfo[MBB->getNumber()].Offset; 830a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 831a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Sum instructions before MI in MBB. 8320c3cfefca62eeaf1f98a49756e3bcb2c451b3374Jim Grosbach for (MachineBasicBlock::iterator I = MBB->begin(); &*I != MI; ++I) { 833a8e2989ece6dc46df59b0768184028257f913843Evan Cheng assert(I != MBB->end() && "Didn't find MI in its own basic block?"); 83452e724ad7e679ee590f4bd763d55280586a8f1bcNicolas Geoffray Offset += TII->GetInstSizeInBytes(I); 835a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 8360c3cfefca62eeaf1f98a49756e3bcb2c451b3374Jim Grosbach return Offset; 837a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 838a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 839a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// CompareMBBNumbers - Little predicate function to sort the WaterList by MBB 840a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// ID. 841a8e2989ece6dc46df59b0768184028257f913843Evan Chengstatic bool CompareMBBNumbers(const MachineBasicBlock *LHS, 842a8e2989ece6dc46df59b0768184028257f913843Evan Cheng const MachineBasicBlock *RHS) { 843a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return LHS->getNumber() < RHS->getNumber(); 844a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 845a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 8467a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// updateForInsertedWaterBlock - When a block is newly inserted into the 847a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// machine function, it upsets all of the block numbers. Renumber the blocks 848a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// and update the arrays that parallel this numbering. 8497a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::updateForInsertedWaterBlock(MachineBasicBlock *NewBB) { 850ab4c366274a582dd8146b2820c6b999cad5fce36Duncan Sands // Renumber the MBB's to keep them consecutive. 851a8e2989ece6dc46df59b0768184028257f913843Evan Cheng NewBB->getParent()->RenumberBlocks(NewBB); 8528494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 853a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen // Insert an entry into BBInfo to align it properly with the (newly 854a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // renumbered) block numbers. 855a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo.insert(BBInfo.begin() + NewBB->getNumber(), BasicBlockInfo()); 8568494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 8578494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson // Next, update WaterList. Specifically, we need to add NewMBB as having 858a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // available water after it. 859034de5f65f9139954cb01d94eaebbaefd294946eBob Wilson water_iterator IP = 860a8e2989ece6dc46df59b0768184028257f913843Evan Cheng std::lower_bound(WaterList.begin(), WaterList.end(), NewBB, 861a8e2989ece6dc46df59b0768184028257f913843Evan Cheng CompareMBBNumbers); 862a8e2989ece6dc46df59b0768184028257f913843Evan Cheng WaterList.insert(IP, NewBB); 863a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 864a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 865a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 866a8e2989ece6dc46df59b0768184028257f913843Evan Cheng/// Split the basic block containing MI into two blocks, which are joined by 867b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson/// an unconditional branch. Update data structures and renumber blocks to 8680c61584d05894a5543f690803191a8b0da05b8fcEvan Cheng/// account for this change and returns the newly created block. 8697a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachMachineBasicBlock *ARMConstantIslands::splitBlockBeforeInstr(MachineInstr *MI) { 870a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineBasicBlock *OrigBB = MI->getParent(); 871a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 872a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Create a new MBB for the code after the OrigBB. 8738494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson MachineBasicBlock *NewBB = 874dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->CreateMachineBasicBlock(OrigBB->getBasicBlock()); 875a8e2989ece6dc46df59b0768184028257f913843Evan Cheng MachineFunction::iterator MBBI = OrigBB; ++MBBI; 876dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->insert(MBBI, NewBB); 8778494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 878a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Splice the instructions starting with MI over to NewBB. 879a8e2989ece6dc46df59b0768184028257f913843Evan Cheng NewBB->splice(NewBB->end(), OrigBB, MI, OrigBB->end()); 8808494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 881a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Add an unconditional branch from OrigBB to NewBB. 882a9b8b8d62c67e96bc4dc2ed25298c539102f8638Evan Cheng // Note the new unconditional branch is not being recorded. 883b67284057ee130114055309eabe0bcd1af13777dDale Johannesen // There doesn't seem to be meaningful DebugInfo available; this doesn't 884b67284057ee130114055309eabe0bcd1af13777dDale Johannesen // correspond to anything in the source. 88558541fd62707b6856beee3db9e254b0110607bb1Evan Cheng unsigned Opc = isThumb ? (isThumb2 ? ARM::t2B : ARM::tB) : ARM::B; 88651f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson if (!isThumb) 88751f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson BuildMI(OrigBB, DebugLoc(), TII->get(Opc)).addMBB(NewBB); 88851f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson else 88951f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson BuildMI(OrigBB, DebugLoc(), TII->get(Opc)).addMBB(NewBB) 89051f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson .addImm(ARMCC::AL).addReg(0); 891fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman ++NumSplit; 8928494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 893a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Update the CFG. All succs of OrigBB are now succs of NewBB. 894e80fba0e6c976039c132c3d5d4fcad569d2259a8Jakob Stoklund Olesen NewBB->transferSuccessors(OrigBB); 8958494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 896a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // OrigBB branches to NewBB. 897a8e2989ece6dc46df59b0768184028257f913843Evan Cheng OrigBB->addSuccessor(NewBB); 8988494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 899a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Update internal data structures to account for the newly inserted MBB. 9007a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // This is almost the same as updateForInsertedWaterBlock, except that 90188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // the Water goes after OrigBB, not NewBB. 902dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->RenumberBlocks(NewBB); 9038494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 904a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen // Insert an entry into BBInfo to align it properly with the (newly 90588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // renumbered) block numbers. 906a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo.insert(BBInfo.begin() + NewBB->getNumber(), BasicBlockInfo()); 90799c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen 9088494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson // Next, update WaterList. Specifically, we need to add OrigMBB as having 90988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // available water after it (but not if it's already there, which happens 91088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // when splitting before a conditional branch that is followed by an 91188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // unconditional branch - in that case we want to insert NewBB). 912034de5f65f9139954cb01d94eaebbaefd294946eBob Wilson water_iterator IP = 91388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen std::lower_bound(WaterList.begin(), WaterList.end(), OrigBB, 91488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen CompareMBBNumbers); 91588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen MachineBasicBlock* WaterBB = *IP; 91688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen if (WaterBB == OrigBB) 9177896c9f436a4eda5ec15e882a7505ba482a2fcd0Chris Lattner WaterList.insert(llvm::next(IP), NewBB); 91888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen else 91988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen WaterList.insert(IP, OrigBB); 920b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.insert(OrigBB); 92188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 9228086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // Figure out how large the OrigBB is. As the first half of the original 9238086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // block, it cannot contain a tablejump. The size includes 9248086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // the new jump we added. (It should be possible to do this without 9258086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // recounting everything, but it's very confusing, and this is rarely 9268086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // executed.) 9277a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach computeBlockSize(OrigBB); 92899c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen 9298086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // Figure out how large the NewMBB is. As the second half of the original 9308086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen // block, it may contain a tablejump. 9317a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach computeBlockSize(NewBB); 9328086d5800dbe8cc392ce217adccfaca915858aedDale Johannesen 93399c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen // All BBOffsets following these blocks must be modified. 9347a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(OrigBB); 9350c61584d05894a5543f690803191a8b0da05b8fcEvan Cheng 9360c61584d05894a5543f690803191a8b0da05b8fcEvan Cheng return NewBB; 937a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 938a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 9397a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// getUserOffset - Compute the offset of U.MI as seen by the hardware 940dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen/// displacement computation. Update U.KnownAlignment to match its current 941dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen/// basic block location. 9427a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachunsigned ARMConstantIslands::getUserOffset(CPUser &U) const { 9437a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned UserOffset = getOffsetOf(U.MI); 944dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen const BasicBlockInfo &BBI = BBInfo[U.MI->getParent()->getNumber()]; 945dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen unsigned KnownBits = BBI.internalKnownBits(); 946dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 947dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // The value read from PC is offset from the actual instruction address. 948dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen UserOffset += (isThumb ? 4 : 8); 949dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 950dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // Because of inline assembly, we may not know the alignment (mod 4) of U.MI. 951dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // Make sure U.getMaxDisp() returns a constrained range. 952dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen U.KnownAlignment = (KnownBits >= 2); 953dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 954dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // On Thumb, offsets==2 mod 4 are rounded down by the hardware for 955dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // purposes of the displacement computation; compensate for that here. 956dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // For unknown alignments, getMaxDisp() constrains the range instead. 957dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen if (isThumb && U.KnownAlignment) 958dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen UserOffset &= ~3u; 959dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 960dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen return UserOffset; 961dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen} 962dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 9637a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// isOffsetInRange - Checks whether UserOffset (the location of a constant pool 9648494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson/// reference) is within MaxDisp of TrialOffset (a proposed location of a 9658593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen/// constant pool entry). 9667a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// UserOffset is computed by getUserOffset above to include PC adjustments. If 967dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen/// the mod 4 alignment of UserOffset is not known, the uncertainty must be 968dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen/// subtracted from MaxDisp instead. CPUser::getMaxDisp() does that. 9697a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::isOffsetInRange(unsigned UserOffset, 970d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng unsigned TrialOffset, unsigned MaxDisp, 971d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng bool NegativeOK, bool IsSoImm) { 97299c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen if (UserOffset <= TrialOffset) { 97399c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen // User before the Trial. 974d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng if (TrialOffset - UserOffset <= MaxDisp) 975d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng return true; 97640efc251cd7a52dd2375ec95ee38b1be4572178fEvan Cheng // FIXME: Make use full range of soimm values. 97799c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen } else if (NegativeOK) { 978d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng if (UserOffset - TrialOffset <= MaxDisp) 979d3d9d66dd211d1267e764c7294876d9a227f04caEvan Cheng return true; 98040efc251cd7a52dd2375ec95ee38b1be4572178fEvan Cheng // FIXME: Make use full range of soimm values. 98199c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen } 98299c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen return false; 98399c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen} 98499c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen 9857a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// isWaterInRange - Returns true if a CPE placed after the specified 98688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// Water (a basic block) will be in range for the specific MI. 9872e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen/// 9882e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen/// Compute how much the function will grow by inserting a CPE after Water. 9897a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::isWaterInRange(unsigned UserOffset, 9902e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen MachineBasicBlock* Water, CPUser &U, 9912e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned &Growth) { 9922e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned CPELogAlign = getCPELogAlign(U.CPEMI); 9932e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned CPEOffset = BBInfo[Water->getNumber()].postOffset(CPELogAlign); 9942e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned NextBlockOffset, NextBlockAlignment; 9952e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen MachineFunction::const_iterator NextBlock = Water; 9962e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen if (++NextBlock == MF->end()) { 9972e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen NextBlockOffset = BBInfo[Water->getNumber()].postOffset(); 9982e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen NextBlockAlignment = 0; 9992e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen } else { 10002e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen NextBlockOffset = BBInfo[NextBlock->getNumber()].Offset; 10012e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen NextBlockAlignment = NextBlock->getAlignment(); 10022e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen } 10032e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned Size = U.CPEMI->getOperand(2).getImm(); 10042e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned CPEEnd = CPEOffset + Size; 10052e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen 10062e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // The CPE may be able to hide in the alignment padding before the next 10072e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // block. It may also cause more padding to be required if it is more aligned 10082e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // that the next block. 10092e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen if (CPEEnd > NextBlockOffset) { 10102e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen Growth = CPEEnd - NextBlockOffset; 10112e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // Compute the padding that would go at the end of the CPE to align the next 10122e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // block. 10132e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen Growth += OffsetToAlignment(CPEEnd, 1u << NextBlockAlignment); 10142e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen 10152e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // If the CPE is to be inserted before the instruction, that will raise 10167a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // the offset of the instruction. Also account for unknown alignment padding 10172e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // in blocks between CPE and the user. 10182e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen if (CPEOffset < UserOffset) 10192e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen UserOffset += Growth + UnknownPadding(MF->getAlignment(), CPELogAlign); 10202e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen } else 10212e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // CPE fits in existing padding. 10222e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen Growth = 0; 1023d959aa421a8d14fc5aad29141f816db8f4362c7fDale Johannesen 10247a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return isOffsetInRange(UserOffset, CPEOffset, U); 102588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen} 102688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 10277a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// isCPEntryInRange - Returns true if the distance between specific MI and 1028c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng/// specific ConstPool entry instruction can fit in MI's displacement field. 10297a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::isCPEntryInRange(MachineInstr *MI, unsigned UserOffset, 10305d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng MachineInstr *CPEMI, unsigned MaxDisp, 10315d8f1cae76e4e424bf3b4392eddb3f4dbf38662aEvan Cheng bool NegOk, bool DoDump) { 10327a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned CPEOffset = getOffsetOf(CPEMI); 1033e6f9e9d8365346330c782c82860a6b77df8ee829Jakob Stoklund Olesen assert(CPEOffset % 4 == 0 && "Misaligned CPE"); 10342021abe154e3cac523755b74fc5e62a2c9dad1fcEvan Cheng 103588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen if (DoDump) { 10363c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG({ 10373c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen unsigned Block = MI->getParent()->getNumber(); 10383c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen const BasicBlockInfo &BBI = BBInfo[Block]; 10393c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen dbgs() << "User of CPE#" << CPEMI->getOperand(0).getImm() 10403c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen << " max delta=" << MaxDisp 10412d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << format(" insn address=%#x", UserOffset) 10423c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen << " in BB#" << Block << ": " 10432d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << format("%#x-%x\t", BBI.Offset, BBI.postOffset()) << *MI 10442d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << format("CPE address=%#x offset=%+d: ", CPEOffset, 10452d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen int(CPEOffset-UserOffset)); 10463c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen }); 104788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 1048a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 10497a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return isOffsetInRange(UserOffset, CPEOffset, MaxDisp, NegOk); 1050c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng} 1051c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng 1052d1e7d9a88b5f4fa5e9a85affc4599c650c591ffbEvan Cheng#ifndef NDEBUG 1053c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng/// BBIsJumpedOver - Return true of the specified basic block's only predecessor 1054c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng/// unconditionally branches to its only successor. 1055c99ef085b90b32952b484e8843fb66ad65215b61Evan Chengstatic bool BBIsJumpedOver(MachineBasicBlock *MBB) { 1056c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng if (MBB->pred_size() != 1 || MBB->succ_size() != 1) 1057c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng return false; 1058c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 1059c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng MachineBasicBlock *Succ = *MBB->succ_begin(); 1060c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng MachineBasicBlock *Pred = *MBB->pred_begin(); 1061c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng MachineInstr *PredMI = &Pred->back(); 10625e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin if (PredMI->getOpcode() == ARM::B || PredMI->getOpcode() == ARM::tB 10635e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin || PredMI->getOpcode() == ARM::t2B) 1064c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng return PredMI->getOperand(0).getMBB() == Succ; 1065c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng return false; 1066c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng} 1067d1e7d9a88b5f4fa5e9a85affc4599c650c591ffbEvan Cheng#endif // NDEBUG 1068c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 10697a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::adjustBBOffsetsAfter(MachineBasicBlock *BB) { 107059ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen unsigned BBNum = BB->getNumber(); 107159ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen for(unsigned i = BBNum + 1, e = MF->getNumBlockIDs(); i < e; ++i) { 1072540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen // Get the offset and known bits at the end of the layout predecessor. 10738552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen // Include the alignment of the current block. 10748552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned LogAlign = MF->getBlockNumbered(i)->getAlignment(); 10758552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned Offset = BBInfo[i - 1].postOffset(LogAlign); 10768552821e578d693ec14007b21e9468010485ae76Jakob Stoklund Olesen unsigned KnownBits = BBInfo[i - 1].postKnownBits(LogAlign); 1077540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen 107859ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen // This is where block i begins. Stop if the offset is already correct, 107959ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen // and we have updated 2 blocks. This is the maximum number of blocks 108059ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen // changed before calling this function. 108159ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen if (i > BBNum + 2 && 108259ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen BBInfo[i].Offset == Offset && 108359ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen BBInfo[i].KnownBits == KnownBits) 108459ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen break; 108559ecaae7b61ef0023ed1db4643937f7a57f61d10Jakob Stoklund Olesen 1086540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen BBInfo[i].Offset = Offset; 1087540c6d9d2651310d88eb9a147177ccd52eec7cd5Jakob Stoklund Olesen BBInfo[i].KnownBits = KnownBits; 10888593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen } 108999c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen} 109099c49a4b94ffabdd22f55e8274c7f92892e25559Dale Johannesen 10917a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// decrementCPEReferenceCount - find the constant pool entry with index CPI 109288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// and instruction CPEMI, and decrement its refcount. If the refcount 10938494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson/// becomes 0 remove the entry and instruction. Returns true if we removed 109488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// the entry, false if we didn't. 1095b43216ee4a418257ce5530c02601b77efe86c354Evan Cheng 10967a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::decrementCPEReferenceCount(unsigned CPI, 10977a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MachineInstr *CPEMI) { 1098c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng // Find the old entry. Eliminate it if it is no longer used. 1099ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng CPEntry *CPE = findConstPoolEntry(CPI, CPEMI); 1100ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng assert(CPE && "Unexpected!"); 1101ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng if (--CPE->RefCount == 0) { 11027a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach removeDeadCPEMI(CPEMI); 1103ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng CPE->CPEMI = NULL; 1104fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman --NumCPEs; 110588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen return true; 110688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 110788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen return false; 110888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen} 110988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 111088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// LookForCPEntryInRange - see if the currently referenced CPE is in range; 111188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// if not, see if an in-range clone of the CPE is in range, and if so, 111288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// change the data structures so the user references the clone. Returns: 111388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// 0 = no existing entry found 111488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// 1 = entry found, and there were no code insertions or deletions 111588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// 2 = entry found, and there were code insertions or deletions 11167a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachint ARMConstantIslands::findInRangeCPEntry(CPUser& U, unsigned UserOffset) 111788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen{ 111888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen MachineInstr *UserMI = U.MI; 111988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen MachineInstr *CPEMI = U.CPEMI; 112088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 112188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Check to see if the CPE is already in-range. 11227a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isCPEntryInRange(UserMI, UserOffset, CPEMI, U.getMaxDisp(), U.NegOk, 11237a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach true)) { 11243c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "In range\n"); 112588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen return 1; 1126c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng } 1127c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 112888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // No. Look for previously created clones of the CPE that are in range. 11298aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner unsigned CPI = CPEMI->getOperand(1).getIndex(); 113088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen std::vector<CPEntry> &CPEs = CPEntries[CPI]; 113188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen for (unsigned i = 0, e = CPEs.size(); i != e; ++i) { 113288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // We already tried this one 113388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen if (CPEs[i].CPEMI == CPEMI) 113488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen continue; 113588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Removing CPEs can leave empty entries, skip 113688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen if (CPEs[i].CPEMI == NULL) 113788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen continue; 11387a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isCPEntryInRange(UserMI, UserOffset, CPEs[i].CPEMI, U.getMaxDisp(), 1139dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen U.NegOk)) { 11403c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "Replacing CPE#" << CPI << " with CPE#" 1141893e1c90a03a53cf13f73849324e83612688428aChris Lattner << CPEs[i].CPI << "\n"); 114288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Point the CPUser node to the replacement 114388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen U.CPEMI = CPEs[i].CPEMI; 114488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Change the CPI in the instruction operand to refer to the clone. 114588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen for (unsigned j = 0, e = UserMI->getNumOperands(); j != e; ++j) 1146d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman if (UserMI->getOperand(j).isCPI()) { 11478aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner UserMI->getOperand(j).setIndex(CPEs[i].CPI); 114888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen break; 114988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 115088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Adjust the refcount of the clone... 115188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen CPEs[i].RefCount++; 115288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // ...and the original. If we didn't remove the old entry, none of the 115388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // addresses changed, so we don't need another pass. 11547a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return decrementCPEReferenceCount(CPI, CPEMI) ? 2 : 1; 115588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 115688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 115788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen return 0; 115888e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen} 115988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 1160f1b214d3ca12f2d85f0d092b4920172bcc797bacDale Johannesen/// getUnconditionalBrDisp - Returns the maximum displacement that can fit in 1161f1b214d3ca12f2d85f0d092b4920172bcc797bacDale Johannesen/// the specific unconditional branch instruction. 1162f1b214d3ca12f2d85f0d092b4920172bcc797bacDale Johannesenstatic inline unsigned getUnconditionalBrDisp(int Opc) { 11635e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin switch (Opc) { 11645e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin case ARM::tB: 11655e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin return ((1<<10)-1)*2; 11665e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin case ARM::t2B: 11675e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin return ((1<<23)-1)*2; 11685e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin default: 11695e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin break; 11705e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin } 1171764ab52dd80310a205c9888bf166d09dab858f90Jim Grosbach 11725e47a9a6e46bd271eba058fb831da1a1edf8707cDavid Goodwin return ((1<<23)-1)*4; 1173f1b214d3ca12f2d85f0d092b4920172bcc797bacDale Johannesen} 1174f1b214d3ca12f2d85f0d092b4920172bcc797bacDale Johannesen 11757a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// findAvailableWater - Look for an existing entry in the WaterList in which 1176b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// we can place the CPE referenced from U so it's within range of U's MI. 1177b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson/// Returns true if found, false if not. If it returns true, WaterIter 1178f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson/// is set to the WaterList entry. For Thumb, prefer water that will not 1179f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson/// introduce padding to water that will. To ensure that this pass 1180f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson/// terminates, the CPE location for a particular CPUser is only allowed to 1181f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson/// move to a lower address, so search backward from the end of the list and 1182f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson/// prefer the first water that is in range. 11837a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::findAvailableWater(CPUser &U, unsigned UserOffset, 1184b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson water_iterator &WaterIter) { 11853b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson if (WaterList.empty()) 11863b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson return false; 11873b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson 11882e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned BestGrowth = ~0u; 11892e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen for (water_iterator IP = prior(WaterList.end()), B = WaterList.begin();; 11902e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen --IP) { 11913b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson MachineBasicBlock* WaterBB = *IP; 1192b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // Check if water is in range and is either at a lower address than the 1193b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // current "high water mark" or a new water block that was created since 1194b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // the previous iteration by inserting an unconditional branch. In the 1195b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // latter case, we want to allow resetting the high water mark back to 1196b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // this new water since we haven't seen it before. Inserting branches 1197b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // should be relatively uncommon and when it does happen, we want to be 1198b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // sure to take advantage of it for all the CPEs near that block, so that 1199b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // we don't insert more branches than necessary. 12002e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen unsigned Growth; 12017a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isWaterInRange(UserOffset, WaterBB, U, Growth) && 1202b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson (WaterBB->getNumber() < U.HighWaterMark->getNumber() || 12032e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen NewWaterList.count(WaterBB)) && Growth < BestGrowth) { 12042e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // This is the least amount of required padding seen so far. 12052e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen BestGrowth = Growth; 12062e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen WaterIter = IP; 12072e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen DEBUG(dbgs() << "Found water after BB#" << WaterBB->getNumber() 12082e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen << " Growth=" << Growth << '\n'); 12092e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen 12102e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen // Keep looking unless it is perfect. 12112e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen if (BestGrowth == 0) 12123b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson return true; 121388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 12143b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson if (IP == B) 12153b7573517ccd0f8f9e4bc64cf1923bae68e40d3fBob Wilson break; 121688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 12172e29024d2e3aa23a1ec049c30dbce903e57d5f9bJakob Stoklund Olesen return BestGrowth != ~0u; 1218b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen} 121988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 12207a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// createNewWater - No existing WaterList entry will work for 1221b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// CPUsers[CPUserIndex], so create a place to put the CPE. The end of the 1222b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// block is used if in range, and the conditional branch munged so control 1223b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// flow is correct. Otherwise the block is split to create a hole with an 1224757652c5ba820bbea75d8713d7bf3749e4113778Bob Wilson/// unconditional branch around it. In either case NewMBB is set to a 1225b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// block following which the new island can be inserted (the WaterList 1226b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// is not adjusted). 12277a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::createNewWater(unsigned CPUserIndex, 1228757652c5ba820bbea75d8713d7bf3749e4113778Bob Wilson unsigned UserOffset, 1229757652c5ba820bbea75d8713d7bf3749e4113778Bob Wilson MachineBasicBlock *&NewMBB) { 1230b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen CPUser &U = CPUsers[CPUserIndex]; 1231b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen MachineInstr *UserMI = U.MI; 1232b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen MachineInstr *CPEMI = U.CPEMI; 1233299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned CPELogAlign = getCPELogAlign(CPEMI); 1234b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen MachineBasicBlock *UserMBB = UserMI->getParent(); 123577caaf0fc000a1e2e2afe949b6205ea5db668be9Jakob Stoklund Olesen const BasicBlockInfo &UserBBI = BBInfo[UserMBB->getNumber()]; 1236b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen 123736fa5321bacf351f47d6193f56c464e6ab93b934Bob Wilson // If the block does not end in an unconditional branch already, and if the 123836fa5321bacf351f47d6193f56c464e6ab93b934Bob Wilson // end of the block is within range, make new water there. (The addition 123936fa5321bacf351f47d6193f56c464e6ab93b934Bob Wilson // below is for the unconditional branch we will be adding: 4 bytes on ARM + 1240dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // Thumb2, 2 on Thumb1. 1241299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (BBHasFallthrough(UserMBB)) { 1242299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Size of branch to insert. 1243299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned Delta = isThumb1 ? 2 : 4; 1244299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // End of UserBlock after adding a branch. 1245299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned UserBlockEnd = UserBBI.postOffset() + Delta; 1246299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Compute the offset where the CPE will begin. 1247299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned CPEOffset = WorstCaseAlign(UserBlockEnd, CPELogAlign, 1248299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen UserBBI.postKnownBits()); 1249299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 12507a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isOffsetInRange(UserOffset, CPEOffset, U)) { 1251299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen DEBUG(dbgs() << "Split at end of BB#" << UserMBB->getNumber() 1252299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen << format(", expected CPE offset %#x\n", CPEOffset)); 1253299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen NewMBB = llvm::next(MachineFunction::iterator(UserMBB)); 1254299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Add an unconditional branch from UserMBB to fallthrough block. Record 1255299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // it for branch lengthening; this new branch will not get out of range, 1256299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // but if the preceding conditional branch is out of range, the targets 1257299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // will be exchanged, and the altered branch may be out of range, so the 1258299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // machinery has to know about it. 1259299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen int UncondBr = isThumb ? ((isThumb2) ? ARM::t2B : ARM::tB) : ARM::B; 1260299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (!isThumb) 1261299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BuildMI(UserMBB, DebugLoc(), TII->get(UncondBr)).addMBB(NewMBB); 1262299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen else 1263299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BuildMI(UserMBB, DebugLoc(), TII->get(UncondBr)).addMBB(NewMBB) 1264299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen .addImm(ARMCC::AL).addReg(0); 1265299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned MaxDisp = getUnconditionalBrDisp(UncondBr); 1266299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen ImmBranches.push_back(ImmBranch(&UserMBB->back(), 1267299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen MaxDisp, false, UncondBr)); 1268299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BBInfo[UserMBB->getNumber()].Size += Delta; 12697a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(UserMBB); 1270299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen return; 1271299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen } 1272299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen } 1273719510a178a910feb1db707140011c32a30992c4Evan Cheng 1274299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // What a big block. Find a place within the block to split it. This is a 1275299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // little tricky on Thumb1 since instructions are 2 bytes and constant pool 1276299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // entries are 4 bytes: if instruction I references island CPE, and 1277299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // instruction I+1 references CPE', it will not work well to put CPE as far 1278299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // forward as possible, since then CPE' cannot immediately follow it (that 1279299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // location is 2 bytes farther away from I+1 than CPE was from I) and we'd 1280299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // need to create a new island. So, we make a first guess, then walk through 1281299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // the instructions between the one currently being looked at and the 1282299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // possible insertion point, and make sure any other instructions that 1283299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // reference CPEs will be able to use the same island area; if not, we back 1284299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // up the insertion point. 1285299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1286299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Try to split the block so it's fully aligned. Compute the latest split 1287299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // point where we can add a 4-byte branch instruction, and then 1288299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // WorstCaseAlign to LogAlign. 1289299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned LogAlign = MF->getAlignment(); 1290299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen assert(LogAlign >= CPELogAlign && "Over-aligned constant pool entry"); 1291299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned KnownBits = UserBBI.internalKnownBits(); 1292299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned UPad = UnknownPadding(LogAlign, KnownBits); 1293dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen unsigned BaseInsertOffset = UserOffset + U.getMaxDisp(); 1294299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen DEBUG(dbgs() << format("Split in middle of big block before %#x", 1295299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset)); 1296299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1297299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Account for alignment and unknown padding. 1298299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset &= ~((1u << LogAlign) - 1); 1299299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset -= UPad; 1300299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1301299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // The 4 in the following is for the unconditional branch we'll be inserting 1302299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // (allows for long branch on Thumb1). Alignment of the island is handled 13037a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // inside isOffsetInRange. 1304299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset -= 4; 1305299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1306299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen DEBUG(dbgs() << format(", adjusted to %#x", BaseInsertOffset) 1307299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen << " la=" << LogAlign 1308299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen << " kb=" << KnownBits 1309299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen << " up=" << UPad << '\n'); 1310299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1311299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // This could point off the end of the block if we've already got constant 1312299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // pool entries following this block; only the last one is in the water list. 1313299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Back past any possible branches (allow for a conditional and a maximally 1314299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // long unconditional). 1315299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (BaseInsertOffset >= BBInfo[UserMBB->getNumber()+1].Offset) 1316299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset = BBInfo[UserMBB->getNumber()+1].Offset - 1317299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen (isThumb1 ? 6 : 8); 1318299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned EndInsertOffset = 1319299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen WorstCaseAlign(BaseInsertOffset + 4, LogAlign, KnownBits) + 1320299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen CPEMI->getOperand(2).getImm(); 1321299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen MachineBasicBlock::iterator MI = UserMI; 1322299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen ++MI; 1323299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned CPUIndex = CPUserIndex+1; 1324299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned NumCPUsers = CPUsers.size(); 1325299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen MachineInstr *LastIT = 0; 1326299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen for (unsigned Offset = UserOffset+TII->GetInstSizeInBytes(UserMI); 1327299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen Offset < BaseInsertOffset; 1328299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen Offset += TII->GetInstSizeInBytes(MI), 1329299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen MI = llvm::next(MI)) { 1330299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (CPUIndex < NumCPUsers && CPUsers[CPUIndex].MI == MI) { 1331299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen CPUser &U = CPUsers[CPUIndex]; 13327a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (!isOffsetInRange(Offset, EndInsertOffset, U)) { 1333299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Shift intertion point by one unit of alignment so it is within reach. 1334299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen BaseInsertOffset -= 1u << LogAlign; 1335299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen EndInsertOffset -= 1u << LogAlign; 1336299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen } 1337299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // This is overly conservative, as we don't account for CPEMIs being 1338299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // reused within the block, but it doesn't matter much. Also assume CPEs 1339299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // are added in order with alignment padding. We may eventually be able 1340299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // to pack the aligned CPEs better. 1341299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen EndInsertOffset = RoundUpToAlignment(EndInsertOffset, 1342299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1u << getCPELogAlign(U.CPEMI)) + 1343299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen U.CPEMI->getOperand(2).getImm(); 1344299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen CPUIndex++; 134588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 1346719510a178a910feb1db707140011c32a30992c4Evan Cheng 1347299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Remember the last IT instruction. 1348299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (MI->getOpcode() == ARM::t2IT) 1349299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen LastIT = MI; 1350299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen } 1351719510a178a910feb1db707140011c32a30992c4Evan Cheng 1352299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen --MI; 1353299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen 1354299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen // Avoid splitting an IT block. 1355299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (LastIT) { 1356299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen unsigned PredReg = 0; 1357299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen ARMCC::CondCodes CC = llvm::getITInstrPredicate(MI, PredReg); 1358299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen if (CC != ARMCC::AL) 1359299b059cd675f1e5beac1a2383a44e062e2eef43Jakob Stoklund Olesen MI = LastIT; 1360b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen } 13617a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach NewMBB = splitBlockBeforeInstr(MI); 1362b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen} 1363b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen 13647a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// handleConstantPoolUser - Analyze the specified user, checking to see if it 136539bf051ec2865cd715c41473d2a9fc34ff252534Bob Wilson/// is out-of-range. If so, pick up the constant pool value and move it some 1366b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// place in-range. Return true if we changed any addresses (thus must run 1367b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen/// another pass of branch lengthening), false otherwise. 13687a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::handleConstantPoolUser(unsigned CPUserIndex) { 1369b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen CPUser &U = CPUsers[CPUserIndex]; 1370b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen MachineInstr *UserMI = U.MI; 1371b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen MachineInstr *CPEMI = U.CPEMI; 13728aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner unsigned CPI = CPEMI->getOperand(1).getIndex(); 1373b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen unsigned Size = CPEMI->getOperand(2).getImm(); 1374dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // Compute this only once, it's expensive. 13757a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned UserOffset = getUserOffset(U); 1376768c9f725bda048b3406b6289beb586ff6e933dfEvan Cheng 1377b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen // See if the current entry is within range, or there is a clone of it 1378b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen // in range. 13797a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach int result = findInRangeCPEntry(U, UserOffset); 1380b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen if (result==1) return false; 1381b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen else if (result==2) return true; 1382b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen 1383b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen // No existing clone of this CPE is within range. 1384b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen // We will be generating a new clone. Get a UID for it. 13855de5d4b6d0eb3fd379fa571d82f6fa764460b3b8Evan Cheng unsigned ID = AFI->createPICLabelUId(); 1386b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen 1387f98032ef64a777fe63d390539f901d7d6d4e868cBob Wilson // Look for water where we can place this CPE. 1388dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineBasicBlock *NewIsland = MF->CreateMachineBasicBlock(); 1389b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson MachineBasicBlock *NewMBB; 1390b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson water_iterator IP; 13917a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (findAvailableWater(U, UserOffset, IP)) { 13923c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "Found water in range\n"); 1393b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson MachineBasicBlock *WaterBB = *IP; 1394b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 1395b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // If the original WaterList entry was "new water" on this iteration, 1396b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // propagate that to the new island. This is just keeping NewWaterList 1397b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // updated to match the WaterList, which will be updated below. 1398b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson if (NewWaterList.count(WaterBB)) { 1399b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.erase(WaterBB); 1400b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.insert(NewIsland); 1401b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson } 1402b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // The new CPE goes before the following block (NewMBB). 14037896c9f436a4eda5ec15e882a7505ba482a2fcd0Chris Lattner NewMBB = llvm::next(MachineFunction::iterator(WaterBB)); 1404b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 1405b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson } else { 1406b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen // No water found. 14073c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "No water found\n"); 14087a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach createNewWater(CPUserIndex, UserOffset, NewMBB); 1409b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 14107a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // splitBlockBeforeInstr adds to WaterList, which is important when it is 1411b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // called while handling branches so that the water will be seen on the 1412b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // next iteration for constant pools, but in this context, we don't want 1413b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // it. Check for this so it will be removed from the WaterList. 1414b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // Also remove any entry from NewWaterList. 1415b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson MachineBasicBlock *WaterBB = prior(MachineFunction::iterator(NewMBB)); 1416b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson IP = std::find(WaterList.begin(), WaterList.end(), WaterBB); 1417b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson if (IP != WaterList.end()) 1418b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.erase(WaterBB); 1419b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 1420b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // We are adding new water. Update NewWaterList. 1421b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson NewWaterList.insert(NewIsland); 142288e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen } 142388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 1424b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // Remove the original WaterList entry; we want subsequent insertions in 1425b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // this vicinity to go after the one we're about to insert. This 1426b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // considerably reduces the number of times we have to move the same CPE 1427b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson // more than once and is also important to ensure the algorithm terminates. 1428b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson if (IP != WaterList.end()) 1429b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson WaterList.erase(IP); 1430b923953733ee6b0f477cd767dcc16f94a0966158Bob Wilson 143188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Okay, we know we can put an island before NewMBB now, do it! 1432dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->insert(NewMBB, NewIsland); 143388e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 143488e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Update internal data structures to account for the newly inserted MBB. 14357a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach updateForInsertedWaterBlock(NewIsland); 143688e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 143788e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Decrement the old entry, and remove it if refcount becomes 0. 14387a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach decrementCPEReferenceCount(CPI, CPEMI); 143988e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen 144088e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // Now that we have an island to add the CPE to, clone the original CPE and 144188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen // add it to the island. 1442549dda9d82a5ec0a0cbf429a18d33a8e66062424Bob Wilson U.HighWaterMark = NewIsland; 1443c7f3ace20c325521c68335a1689645b43b06ddf0Chris Lattner U.CPEMI = BuildMI(NewIsland, DebugLoc(), TII->get(ARM::CONSTPOOL_ENTRY)) 1444a8e2989ece6dc46df59b0768184028257f913843Evan Cheng .addImm(ID).addConstantPoolIndex(CPI).addImm(Size); 144588e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen CPEntries[CPI].push_back(CPEntry(U.CPEMI, ID, 1)); 1446fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman ++NumCPEs; 1447c99ef085b90b32952b484e8843fb66ad65215b61Evan Cheng 1448cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen // Mark the basic block as aligned as required by the const-pool entry. 1449cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen NewIsland->setAlignment(getCPELogAlign(U.CPEMI)); 14503e572ac2fbdf6aa538500be07b9b050ac008669eJakob Stoklund Olesen 1451a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Increase the size of the island block to account for the new entry. 1452a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[NewIsland->getNumber()].Size += Size; 14537a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(llvm::prior(MachineFunction::iterator(NewIsland))); 14548494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 1455a8e2989ece6dc46df59b0768184028257f913843Evan Cheng // Finally, change the CPI in the instruction operand to be ID. 1456a8e2989ece6dc46df59b0768184028257f913843Evan Cheng for (unsigned i = 0, e = UserMI->getNumOperands(); i != e; ++i) 1457d735b8019b0f297d7c14b55adcd887af24d8e602Dan Gohman if (UserMI->getOperand(i).isCPI()) { 14588aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner UserMI->getOperand(i).setIndex(ID); 1459a8e2989ece6dc46df59b0768184028257f913843Evan Cheng break; 1460a8e2989ece6dc46df59b0768184028257f913843Evan Cheng } 14618494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 14623c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << " Moved CPE to #" << ID << " CPI=" << CPI 14632d5023bbcf816de39e37d9fea6dfa8f7aadb393fJakob Stoklund Olesen << format(" offset=%#x\n", BBInfo[NewIsland->getNumber()].Offset)); 14648494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 1465a8e2989ece6dc46df59b0768184028257f913843Evan Cheng return true; 1466a8e2989ece6dc46df59b0768184028257f913843Evan Cheng} 1467a8e2989ece6dc46df59b0768184028257f913843Evan Cheng 14687a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// removeDeadCPEMI - Remove a dead constant pool entry instruction. Update 1469ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng/// sizes and offsets of impacted basic blocks. 14707a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachvoid ARMConstantIslands::removeDeadCPEMI(MachineInstr *CPEMI) { 1471ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng MachineBasicBlock *CPEBB = CPEMI->getParent(); 14728593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen unsigned Size = CPEMI->getOperand(2).getImm(); 14738593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen CPEMI->eraseFromParent(); 1474a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[CPEBB->getNumber()].Size -= Size; 14758593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // All succeeding offsets have the current size value added in, fix this. 1476ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng if (CPEBB->empty()) { 1477cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen BBInfo[CPEBB->getNumber()].Size = 0; 1478305e5fe797cbba32d8091d687d47e98c8f3ee1f4Jakob Stoklund Olesen 1479305e5fe797cbba32d8091d687d47e98c8f3ee1f4Jakob Stoklund Olesen // This block no longer needs to be aligned. <rdar://problem/10534709>. 1480305e5fe797cbba32d8091d687d47e98c8f3ee1f4Jakob Stoklund Olesen CPEBB->setAlignment(0); 1481cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen } else 1482cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen // Entries are sorted by descending alignment, so realign from the front. 1483cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen CPEBB->setAlignment(getCPELogAlign(CPEBB->begin())); 1484cca33a3f24106cfdb6cb892b76efc76f1ad91806Jakob Stoklund Olesen 14857a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(CPEBB); 14868593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // An island has only one predecessor BB and one successor BB. Check if 14878593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // this BB's predecessor jumps directly to this BB's successor. This 14888593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // shouldn't happen currently. 14898593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen assert(!BBIsJumpedOver(CPEBB) && "How did this happen?"); 14908593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // FIXME: remove the empty blocks after all the work is done? 1491ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng} 1492ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng 14937a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// removeUnusedCPEntries - Remove constant pool entries whose refcounts 1494ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng/// are zero. 14957a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::removeUnusedCPEntries() { 1496ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng unsigned MadeChange = false; 1497ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng for (unsigned i = 0, e = CPEntries.size(); i != e; ++i) { 1498ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng std::vector<CPEntry> &CPEs = CPEntries[i]; 1499ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng for (unsigned j = 0, ee = CPEs.size(); j != ee; ++j) { 1500ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng if (CPEs[j].RefCount == 0 && CPEs[j].CPEMI) { 15017a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach removeDeadCPEMI(CPEs[j].CPEMI); 1502ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng CPEs[j].CPEMI = NULL; 1503ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng MadeChange = true; 1504ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng } 1505ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng } 15068494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson } 1507ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng return MadeChange; 1508ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng} 1509ed884f3a2f7225a0ea40fc18964b6f949cac3680Evan Cheng 15107a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// isBBInRange - Returns true if the distance between specific MI and 151143aeab68a69e443c528092b4424a498d813f96b7Evan Cheng/// specific BB can fit in MI's displacement field. 15127a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::isBBInRange(MachineInstr *MI,MachineBasicBlock *DestBB, 1513c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng unsigned MaxDisp) { 1514b71aa2b6ca801d407c702483c412a290ab4af3b2Dale Johannesen unsigned PCAdj = isThumb ? 4 : 8; 15157a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned BrOffset = getOffsetOf(MI) + PCAdj; 1516a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned DestOffset = BBInfo[DestBB->getNumber()].Offset; 151743aeab68a69e443c528092b4424a498d813f96b7Evan Cheng 15183c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << "Branch of destination BB#" << DestBB->getNumber() 1519705e07f578e2b3af47ddab610feb4e7f2d3063a5Chris Lattner << " from BB#" << MI->getParent()->getNumber() 1520705e07f578e2b3af47ddab610feb4e7f2d3063a5Chris Lattner << " max delta=" << MaxDisp 15217a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach << " from " << getOffsetOf(MI) << " to " << DestOffset 1522705e07f578e2b3af47ddab610feb4e7f2d3063a5Chris Lattner << " offset " << int(DestOffset-BrOffset) << "\t" << *MI); 1523c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng 15248593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen if (BrOffset <= DestOffset) { 15258593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen // Branch before the Dest. 15268593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen if (DestOffset-BrOffset <= MaxDisp) 15278593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen return true; 15288593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen } else { 15298593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen if (BrOffset-DestOffset <= MaxDisp) 15308593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen return true; 15318593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen } 15328593e418555fdae21a070357fd8734b4069c17d0Dale Johannesen return false; 153343aeab68a69e443c528092b4424a498d813f96b7Evan Cheng} 153443aeab68a69e443c528092b4424a498d813f96b7Evan Cheng 15357a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// fixupImmediateBr - Fix up an immediate branch whose destination is too far 1536d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng/// away to fit in its displacement field. 15377a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::fixupImmediateBr(ImmBranch &Br) { 1538d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng MachineInstr *MI = Br.MI; 15398aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner MachineBasicBlock *DestBB = MI->getOperand(0).getMBB(); 1540d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 1541c0dbec7e1038ee60b8525eb1e8e3eaa6a839bd5bEvan Cheng // Check to see if the DestBB is already in-range. 15427a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isBBInRange(MI, DestBB, Br.MaxDisp)) 1543d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng return false; 1544d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 1545d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng if (!Br.isCond) 15467a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return fixupUnconditionalBr(Br); 15477a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach return fixupConditionalBr(Br); 1548d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng} 1549d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 15507a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// fixupUnconditionalBr - Fix up an unconditional branch whose destination is 155188e37ae36652546c8e409cab69a1777af63cf095Dale Johannesen/// too far away to fit in its displacement field. If the LR register has been 1552d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng/// spilled in the epilogue, then we can use BL to implement a far jump. 155339bf051ec2865cd715c41473d2a9fc34ff252534Bob Wilson/// Otherwise, add an intermediate branch instruction to a branch. 1554d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Chengbool 15557a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachARMConstantIslands::fixupUnconditionalBr(ImmBranch &Br) { 1556d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng MachineInstr *MI = Br.MI; 1557d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng MachineBasicBlock *MBB = MI->getParent(); 155853c67c0218d8420234dd71bf2d9df3388909af77Evan Cheng if (!isThumb1) 15597a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach llvm_unreachable("fixupUnconditionalBr is Thumb1 only!"); 1560d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 1561d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng // Use BL to implement far jump. 1562d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng Br.MaxDisp = (1 << 21) * 2; 15635080f4d9919d39b367891dc51e739c571a66036cChris Lattner MI->setDesc(TII->get(ARM::tBfar)); 1564a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size += 2; 15657a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 1566d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng HasFarJump = true; 1567fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman ++NumUBrFixed; 1568bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng 15693c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << " Changed B to long jump " << *MI); 1570bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng 1571d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng return true; 1572d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng} 1573d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 15747a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// fixupConditionalBr - Fix up a conditional branch whose destination is too 1575d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng/// far away to fit in its displacement field. It is converted to an inverse 1576d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng/// conditional branch + an unconditional branch to the destination. 1577af5cbcb809bdbd30ebacab942994721c134d16a2Evan Chengbool 15787a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachARMConstantIslands::fixupConditionalBr(ImmBranch &Br) { 1579af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng MachineInstr *MI = Br.MI; 15808aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner MachineBasicBlock *DestBB = MI->getOperand(0).getMBB(); 1581af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 158239bf051ec2865cd715c41473d2a9fc34ff252534Bob Wilson // Add an unconditional branch to the destination and invert the branch 1583d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng // condition to jump over it: 1584af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // blt L1 1585af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // => 1586af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // bge L2 1587af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // b L1 1588af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // L2: 15899a1ceaedc282f0cae31f2723f4d6c00c7b88fe90Chris Lattner ARMCC::CondCodes CC = (ARMCC::CondCodes)MI->getOperand(1).getImm(); 1590af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng CC = ARMCC::getOppositeCondition(CC); 15910e1d37904abbf7e8c4c478408253dd995f3040f4Evan Cheng unsigned CCReg = MI->getOperand(2).getReg(); 1592af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 1593af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // If the branch is at the end of its MBB and that has a fall-through block, 1594af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // direct the updated conditional branch to the fall-through block. Otherwise, 1595af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // split the MBB before the next instruction. 1596af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng MachineBasicBlock *MBB = MI->getParent(); 1597bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng MachineInstr *BMI = &MBB->back(); 1598bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng bool NeedSplit = (BMI != MI) || !BBHasFallthrough(MBB); 159943aeab68a69e443c528092b4424a498d813f96b7Evan Cheng 1600fe60104ac97f3a8736dcfbfdf9547c7b7cc7b951Dan Gohman ++NumCBrFixed; 1601bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng if (BMI != MI) { 16027896c9f436a4eda5ec15e882a7505ba482a2fcd0Chris Lattner if (llvm::next(MachineBasicBlock::iterator(MI)) == prior(MBB->end()) && 1603bd5d3dbdbe46c7325545a7cb8c891c0347375451Evan Cheng BMI->getOpcode() == Br.UncondBr) { 160439bf051ec2865cd715c41473d2a9fc34ff252534Bob Wilson // Last MI in the BB is an unconditional branch. Can we simply invert the 160543aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // condition and swap destinations: 160643aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // beq L1 160743aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // b L2 160843aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // => 160943aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // bne L2 161043aeab68a69e443c528092b4424a498d813f96b7Evan Cheng // b L1 16118aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner MachineBasicBlock *NewDest = BMI->getOperand(0).getMBB(); 16127a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isBBInRange(MI, NewDest, Br.MaxDisp)) { 16133c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << " Invert Bcc condition and swap its destination with " 1614705e07f578e2b3af47ddab610feb4e7f2d3063a5Chris Lattner << *BMI); 16158aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner BMI->getOperand(0).setMBB(DestBB); 16168aa797aa51cd4ea1ec6f46f4891a6897944b75b2Chris Lattner MI->getOperand(0).setMBB(NewDest); 161743aeab68a69e443c528092b4424a498d813f96b7Evan Cheng MI->getOperand(1).setImm(CC); 161843aeab68a69e443c528092b4424a498d813f96b7Evan Cheng return true; 161943aeab68a69e443c528092b4424a498d813f96b7Evan Cheng } 162043aeab68a69e443c528092b4424a498d813f96b7Evan Cheng } 162143aeab68a69e443c528092b4424a498d813f96b7Evan Cheng } 162243aeab68a69e443c528092b4424a498d813f96b7Evan Cheng 162343aeab68a69e443c528092b4424a498d813f96b7Evan Cheng if (NeedSplit) { 16247a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach splitBlockBeforeInstr(MI); 162539bf051ec2865cd715c41473d2a9fc34ff252534Bob Wilson // No need for the branch to the next block. We're adding an unconditional 1626dd353b8ad747a8731a191848ff5db978a70bd0fbEvan Cheng // branch to the destination. 162752e724ad7e679ee590f4bd763d55280586a8f1bcNicolas Geoffray int delta = TII->GetInstSizeInBytes(&MBB->back()); 1628a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size -= delta; 1629dd353b8ad747a8731a191848ff5db978a70bd0fbEvan Cheng MBB->back().eraseFromParent(); 1630a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen // BBInfo[SplitBB].Offset is wrong temporarily, fixed below 1631dd353b8ad747a8731a191848ff5db978a70bd0fbEvan Cheng } 16327896c9f436a4eda5ec15e882a7505ba482a2fcd0Chris Lattner MachineBasicBlock *NextBB = llvm::next(MachineFunction::iterator(MBB)); 16338494526a2396fd9cde027ab6ae11dd28b54ac90eBob Wilson 16343c4615eef2cb6b1bacb9b5fffe98359f9659f7c2Jakob Stoklund Olesen DEBUG(dbgs() << " Insert B to BB#" << DestBB->getNumber() 1635893e1c90a03a53cf13f73849324e83612688428aChris Lattner << " also invert condition and change dest. to BB#" 1636893e1c90a03a53cf13f73849324e83612688428aChris Lattner << NextBB->getNumber() << "\n"); 1637af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng 163856c42ef3e43f8eb75c435e781d0ac8251c7588a1Dale Johannesen // Insert a new conditional branch and a new unconditional branch. 1639af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng // Also update the ImmBranch as well as adding a new entry for the new branch. 1640c7f3ace20c325521c68335a1689645b43b06ddf0Chris Lattner BuildMI(MBB, DebugLoc(), TII->get(MI->getOpcode())) 1641b67284057ee130114055309eabe0bcd1af13777dDale Johannesen .addMBB(NextBB).addImm(CC).addReg(CCReg); 1642af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng Br.MI = &MBB->back(); 1643a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size += TII->GetInstSizeInBytes(&MBB->back()); 1644cd4338fff5cc9427003766519bebcfa213b32d61Owen Anderson if (isThumb) 1645cd4338fff5cc9427003766519bebcfa213b32d61Owen Anderson BuildMI(MBB, DebugLoc(), TII->get(Br.UncondBr)).addMBB(DestBB) 1646cd4338fff5cc9427003766519bebcfa213b32d61Owen Anderson .addImm(ARMCC::AL).addReg(0); 1647cd4338fff5cc9427003766519bebcfa213b32d61Owen Anderson else 1648cd4338fff5cc9427003766519bebcfa213b32d61Owen Anderson BuildMI(MBB, DebugLoc(), TII->get(Br.UncondBr)).addMBB(DestBB); 1649a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size += TII->GetInstSizeInBytes(&MBB->back()); 1650a9b8b8d62c67e96bc4dc2ed25298c539102f8638Evan Cheng unsigned MaxDisp = getUnconditionalBrDisp(Br.UncondBr); 1651a0bf794eb60b6795a121efcb9ff759e9e0955772Evan Cheng ImmBranches.push_back(ImmBranch(&MBB->back(), MaxDisp, false, Br.UncondBr)); 165256c42ef3e43f8eb75c435e781d0ac8251c7588a1Dale Johannesen 165356c42ef3e43f8eb75c435e781d0ac8251c7588a1Dale Johannesen // Remove the old conditional branch. It may or may not still be in MBB. 1654a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MI->getParent()->getNumber()].Size -= TII->GetInstSizeInBytes(MI); 1655af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng MI->eraseFromParent(); 16567a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 1657af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng return true; 1658af5cbcb809bdbd30ebacab942994721c134d16a2Evan Cheng} 1659d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng 16607a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// undoLRSpillRestore - Remove Thumb push / pop instructions that only spills 16614b322e58b77d16f103d88a3af3a4ebd2675245a0Evan Cheng/// LR / restores LR to pc. FIXME: This is done here because it's only possible 16624b322e58b77d16f103d88a3af3a4ebd2675245a0Evan Cheng/// to do this if tBfar is not used. 16637a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::undoLRSpillRestore() { 1664d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng bool MadeChange = false; 1665d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng for (unsigned i = 0, e = PushPopMIs.size(); i != e; ++i) { 1666d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng MachineInstr *MI = PushPopMIs[i]; 1667815baebe1c8dc02accf128ae10dff9a1742d3244Bob Wilson // First two operands are predicates. 166844bec52b1b7e9a3ac1efbae90db240b8c1ca2ad4Evan Cheng if (MI->getOpcode() == ARM::tPOP_RET && 1669815baebe1c8dc02accf128ae10dff9a1742d3244Bob Wilson MI->getOperand(2).getReg() == ARM::PC && 1670815baebe1c8dc02accf128ae10dff9a1742d3244Bob Wilson MI->getNumExplicitOperands() == 3) { 167125e6d48220330d17875d0ae0ad6a45597d5ac36cJim Grosbach // Create the new insn and copy the predicate from the old. 167225e6d48220330d17875d0ae0ad6a45597d5ac36cJim Grosbach BuildMI(MI->getParent(), MI->getDebugLoc(), TII->get(ARM::tBX_RET)) 167325e6d48220330d17875d0ae0ad6a45597d5ac36cJim Grosbach .addOperand(MI->getOperand(0)) 167425e6d48220330d17875d0ae0ad6a45597d5ac36cJim Grosbach .addOperand(MI->getOperand(1)); 167544bec52b1b7e9a3ac1efbae90db240b8c1ca2ad4Evan Cheng MI->eraseFromParent(); 167644bec52b1b7e9a3ac1efbae90db240b8c1ca2ad4Evan Cheng MadeChange = true; 1677d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng } 1678d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng } 1679d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng return MadeChange; 1680d1b2c1e88fe4a7728ca9739b0f1c6fd90a19c5fdEvan Cheng} 16815657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 16827a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach// mayOptimizeThumb2Instruction - Returns true if optimizeThumb2Instructions 168319d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen// below may shrink MI. 168419d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesenbool 168519d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund OlesenARMConstantIslands::mayOptimizeThumb2Instruction(const MachineInstr *MI) const { 168619d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen switch(MI->getOpcode()) { 16877a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // optimizeThumb2Instructions. 168819d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::t2LEApcrel: 168919d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::t2LDRpci: 16907a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // optimizeThumb2Branches. 169119d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::t2B: 169219d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::t2Bcc: 169319d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::tBcc: 16947a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach // optimizeThumb2JumpTables. 169519d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen case ARM::t2BR_JT: 169619d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen return true; 169719d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen } 169819d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen return false; 169919d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen} 170019d0bf3a9273d337b776ca33c284fd2b5da485abJakob Stoklund Olesen 17017a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::optimizeThumb2Instructions() { 1702a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng bool MadeChange = false; 1703a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 1704a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng // Shrink ADR and LDR from constantpool. 1705a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng for (unsigned i = 0, e = CPUsers.size(); i != e; ++i) { 1706a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng CPUser &U = CPUsers[i]; 1707a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng unsigned Opcode = U.MI->getOpcode(); 1708a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng unsigned NewOpc = 0; 1709a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng unsigned Scale = 1; 1710a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng unsigned Bits = 0; 1711a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng switch (Opcode) { 1712a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng default: break; 17136b8719fd7dc527e4c1910ae49ebee61d90907c08Owen Anderson case ARM::t2LEApcrel: 1714a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng if (isARMLowRegister(U.MI->getOperand(0).getReg())) { 1715a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng NewOpc = ARM::tLEApcrel; 1716a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng Bits = 8; 1717a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng Scale = 4; 1718a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng } 1719a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng break; 1720a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng case ARM::t2LDRpci: 1721a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng if (isARMLowRegister(U.MI->getOperand(0).getReg())) { 1722a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng NewOpc = ARM::tLDRpci; 1723a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng Bits = 8; 1724a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng Scale = 4; 1725a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng } 1726a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng break; 1727a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng } 1728a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 1729a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng if (!NewOpc) 1730a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng continue; 1731a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 17327a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned UserOffset = getUserOffset(U); 1733a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng unsigned MaxOffs = ((1 << Bits) - 1) * Scale; 1734dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 1735dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen // Be conservative with inline asm. 1736dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen if (!U.KnownAlignment) 1737dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen MaxOffs -= 2; 1738dae412bd320f1522bd1d850be0276212fca0331fJakob Stoklund Olesen 1739a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng // FIXME: Check if offset is multiple of scale if scale is not 4. 17407a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isCPEntryInRange(U.MI, UserOffset, U.CPEMI, MaxOffs, false, true)) { 1741a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng U.MI->setDesc(TII->get(NewOpc)); 1742a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng MachineBasicBlock *MBB = U.MI->getParent(); 1743a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size -= 2; 17447a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 1745a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng ++NumT2CPShrunk; 1746a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng MadeChange = true; 1747a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng } 1748a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng } 1749a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 17507a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= optimizeThumb2Branches(); 17517a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach MadeChange |= optimizeThumb2JumpTables(); 1752a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng return MadeChange; 1753a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng} 1754a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 17557a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::optimizeThumb2Branches() { 175631b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng bool MadeChange = false; 175731b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng 175831b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng for (unsigned i = 0, e = ImmBranches.size(); i != e; ++i) { 175931b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng ImmBranch &Br = ImmBranches[i]; 176031b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng unsigned Opcode = Br.MI->getOpcode(); 176131b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng unsigned NewOpc = 0; 176231b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng unsigned Scale = 1; 176331b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng unsigned Bits = 0; 176431b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng switch (Opcode) { 176531b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng default: break; 176631b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng case ARM::t2B: 176731b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng NewOpc = ARM::tB; 176831b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng Bits = 11; 176931b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng Scale = 2; 177031b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng break; 1771de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng case ARM::t2Bcc: { 177231b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng NewOpc = ARM::tBcc; 177331b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng Bits = 8; 1774de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng Scale = 2; 177531b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng break; 177631b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng } 1777de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng } 1778de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng if (NewOpc) { 1779de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng unsigned MaxOffs = ((1 << (Bits-1))-1) * Scale; 1780de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng MachineBasicBlock *DestBB = Br.MI->getOperand(0).getMBB(); 17817a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach if (isBBInRange(Br.MI, DestBB, MaxOffs)) { 1782de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng Br.MI->setDesc(TII->get(NewOpc)); 1783de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng MachineBasicBlock *MBB = Br.MI->getParent(); 1784a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size -= 2; 17857a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 1786de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng ++NumT2BrShrunk; 1787de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng MadeChange = true; 1788de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng } 1789de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng } 1790de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng 1791de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng Opcode = Br.MI->getOpcode(); 1792de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng if (Opcode != ARM::tBcc) 179331b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng continue; 179431b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng 1795bfe8afaaec03795fe6c78daa9817e54c186a699dEvan Cheng // If the conditional branch doesn't kill CPSR, then CPSR can be liveout 1796bfe8afaaec03795fe6c78daa9817e54c186a699dEvan Cheng // so this transformation is not safe. 1797bfe8afaaec03795fe6c78daa9817e54c186a699dEvan Cheng if (!Br.MI->killsRegister(ARM::CPSR)) 1798bfe8afaaec03795fe6c78daa9817e54c186a699dEvan Cheng continue; 1799bfe8afaaec03795fe6c78daa9817e54c186a699dEvan Cheng 1800de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng NewOpc = 0; 1801de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng unsigned PredReg = 0; 1802de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng ARMCC::CondCodes Pred = llvm::getInstrPredicate(Br.MI, PredReg); 1803de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng if (Pred == ARMCC::EQ) 1804de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng NewOpc = ARM::tCBZ; 1805de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng else if (Pred == ARMCC::NE) 1806de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng NewOpc = ARM::tCBNZ; 1807de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng if (!NewOpc) 1808de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng continue; 180931b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng MachineBasicBlock *DestBB = Br.MI->getOperand(0).getMBB(); 1810de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng // Check if the distance is within 126. Subtract starting offset by 2 1811de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng // because the cmp will be eliminated. 18127a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned BrOffset = getOffsetOf(Br.MI) + 4 - 2; 1813a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned DestOffset = BBInfo[DestBB->getNumber()].Offset; 1814de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng if (BrOffset < DestOffset && (DestOffset - BrOffset) <= 126) { 18150539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng MachineBasicBlock::iterator CmpMI = Br.MI; 18160539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng if (CmpMI != Br.MI->getParent()->begin()) { 18170539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng --CmpMI; 18180539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng if (CmpMI->getOpcode() == ARM::tCMPi8) { 18190539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng unsigned Reg = CmpMI->getOperand(0).getReg(); 18200539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng Pred = llvm::getInstrPredicate(CmpMI, PredReg); 18210539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng if (Pred == ARMCC::AL && 18220539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng CmpMI->getOperand(1).getImm() == 0 && 18230539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng isARMLowRegister(Reg)) { 18240539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng MachineBasicBlock *MBB = Br.MI->getParent(); 18250539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng MachineInstr *NewBR = 18260539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng BuildMI(*MBB, CmpMI, Br.MI->getDebugLoc(), TII->get(NewOpc)) 18270539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng .addReg(Reg).addMBB(DestBB,Br.MI->getOperand(0).getTargetFlags()); 18280539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng CmpMI->eraseFromParent(); 18290539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng Br.MI->eraseFromParent(); 18300539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng Br.MI = NewBR; 1831a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size -= 2; 18327a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 18330539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng ++NumCBZ; 18340539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng MadeChange = true; 18350539c159fb6e3f8d09d4790d8d6a4615c26d3e98Evan Cheng } 1836de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng } 1837de17fb6e4dd8f169f707d58d4e124c8d4d2c7dbaEvan Cheng } 183831b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng } 183931b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng } 184031b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng 184131b99dd76035067b1c3cc6c7e9d663b7b0210938Evan Cheng return MadeChange; 1842a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng} 1843a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng 18447a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// optimizeThumb2JumpTables - Use tbb / tbh instructions to generate smaller 1845a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng/// jumptables when it's possible. 18467a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::optimizeThumb2JumpTables() { 18475657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng bool MadeChange = false; 18485657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 18495657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng // FIXME: After the tables are shrunk, can we get rid some of the 18505657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng // constantpool tables? 1851dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineJumpTableInfo *MJTI = MF->getJumpTableInfo(); 1852b1e803985d3378538ae9cff7eed4102c002d1e22Chris Lattner if (MJTI == 0) return false; 185326b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach 18545657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng const std::vector<MachineJumpTableEntry> &JT = MJTI->getJumpTables(); 18555657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng for (unsigned i = 0, e = T2JumpTables.size(); i != e; ++i) { 18565657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng MachineInstr *MI = T2JumpTables[i]; 1857e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng const MCInstrDesc &MCID = MI->getDesc(); 1858e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng unsigned NumOps = MCID.getNumOperands(); 18595a96b3dad2f634c9081c8b2b6c2575441dc5a2bdEvan Cheng unsigned JTOpIdx = NumOps - (MI->isPredicable() ? 3 : 2); 18605657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng MachineOperand JTOP = MI->getOperand(JTOpIdx); 18615657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng unsigned JTI = JTOP.getIndex(); 18625657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng assert(JTI < JT.size()); 18635657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 18641fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach bool ByteOk = true; 18651fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach bool HalfWordOk = true; 18667a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach unsigned JTOffset = getOffsetOf(MI) + 4; 186780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach const std::vector<MachineBasicBlock*> &JTBBs = JT[JTI].MBBs; 18685657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng for (unsigned j = 0, ee = JTBBs.size(); j != ee; ++j) { 18695657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng MachineBasicBlock *MBB = JTBBs[j]; 1870a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen unsigned DstOffset = BBInfo[MBB->getNumber()].Offset; 18718770f747a98194056805f1b7cbcb0b75a7633b87Evan Cheng // Negative offset is not ok. FIXME: We should change BB layout to make 18728770f747a98194056805f1b7cbcb0b75a7633b87Evan Cheng // sure all the branches are forward. 1873d26b14c34cbcee1448b86b524578fc51cc979023Evan Cheng if (ByteOk && (DstOffset - JTOffset) > ((1<<8)-1)*2) 18745657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng ByteOk = false; 187525f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng unsigned TBHLimit = ((1<<16)-1)*2; 187625f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng if (HalfWordOk && (DstOffset - JTOffset) > TBHLimit) 18775657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng HalfWordOk = false; 18785657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (!ByteOk && !HalfWordOk) 18795657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng break; 18805657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 18815657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 18825657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (ByteOk || HalfWordOk) { 18835657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng MachineBasicBlock *MBB = MI->getParent(); 18845657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng unsigned BaseReg = MI->getOperand(0).getReg(); 18855657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng bool BaseRegKill = MI->getOperand(0).isKill(); 18865657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (!BaseRegKill) 18875657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; 18885657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng unsigned IdxReg = MI->getOperand(1).getReg(); 18895657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng bool IdxRegKill = MI->getOperand(1).isKill(); 1890c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach 1891c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // Scan backwards to find the instruction that defines the base 1892c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // register. Due to post-RA scheduling, we can't count on it 1893c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // immediately preceding the branch instruction. 18945657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng MachineBasicBlock::iterator PrevI = MI; 1895c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach MachineBasicBlock::iterator B = MBB->begin(); 1896c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach while (PrevI != B && !PrevI->definesRegister(BaseReg)) 1897c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach --PrevI; 1898c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach 1899c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // If for some reason we didn't find it, we can't do anything, so 1900c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // just skip this one. 1901c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach if (!PrevI->definesRegister(BaseReg)) 19025657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; 19035657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 1904c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach MachineInstr *AddrMI = PrevI; 19055657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng bool OptOk = true; 190626b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach // Examine the instruction that calculates the jumptable entry address. 1907c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // Make sure it only defines the base register and kills any uses 1908c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // other than the index register. 19095657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng for (unsigned k = 0, eee = AddrMI->getNumOperands(); k != eee; ++k) { 19105657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng const MachineOperand &MO = AddrMI->getOperand(k); 19115657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (!MO.isReg() || !MO.getReg()) 19125657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; 19135657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (MO.isDef() && MO.getReg() != BaseReg) { 19145657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng OptOk = false; 19155657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng break; 19165657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 19175657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (MO.isUse() && !MO.isKill() && MO.getReg() != IdxReg) { 19185657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng OptOk = false; 19195657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng break; 19205657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 19215657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 19225657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng if (!OptOk) 19235657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng continue; 19245657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 19256b8719fd7dc527e4c1910ae49ebee61d90907c08Owen Anderson // Now scan back again to find the tLEApcrel or t2LEApcrelJT instruction 1926c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach // that gave us the initial base register definition. 1927c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach for (--PrevI; PrevI != B && !PrevI->definesRegister(BaseReg); --PrevI) 1928c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach ; 1929c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach 19306b8719fd7dc527e4c1910ae49ebee61d90907c08Owen Anderson // The instruction should be a tLEApcrel or t2LEApcrelJT; we want 1931a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng // to delete it as well. 1932c7937ae025194cb62ffcd592785c3ad97e7882ceJim Grosbach MachineInstr *LeaMI = PrevI; 1933a1efbbdbf3217598f334a6f39dab84ca06f5de41Evan Cheng if ((LeaMI->getOpcode() != ARM::tLEApcrelJT && 19346b8719fd7dc527e4c1910ae49ebee61d90907c08Owen Anderson LeaMI->getOpcode() != ARM::t2LEApcrelJT) || 19355657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng LeaMI->getOperand(0).getReg() != BaseReg) 193625f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng OptOk = false; 193725f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 193825f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng if (!OptOk) 193925f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng continue; 194025f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 1941d092a87ba3f905a6801a0bdf816267329cf0391cJim Grosbach unsigned Opc = ByteOk ? ARM::t2TBB_JT : ARM::t2TBH_JT; 194225f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng MachineInstr *NewJTMI = BuildMI(MBB, MI->getDebugLoc(), TII->get(Opc)) 194325f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng .addReg(IdxReg, getKillRegState(IdxRegKill)) 194425f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng .addJumpTableIndex(JTI, JTOP.getTargetFlags()) 194525f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng .addImm(MI->getOperand(JTOpIdx+1).getImm()); 194625f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng // FIXME: Insert an "ALIGN" instruction to ensure the next instruction 194725f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng // is 2-byte aligned. For now, asm printer will fix it up. 194825f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng unsigned NewSize = TII->GetInstSizeInBytes(NewJTMI); 194925f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng unsigned OrigSize = TII->GetInstSizeInBytes(AddrMI); 195025f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng OrigSize += TII->GetInstSizeInBytes(LeaMI); 195125f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng OrigSize += TII->GetInstSizeInBytes(MI); 195225f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 195325f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng AddrMI->eraseFromParent(); 195425f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng LeaMI->eraseFromParent(); 195525f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng MI->eraseFromParent(); 195625f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 195725f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng int delta = OrigSize - NewSize; 1958a3f331bd81f9d468654635df4428ecc8d8ebb5eaJakob Stoklund Olesen BBInfo[MBB->getNumber()].Size -= delta; 19597a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustBBOffsetsAfter(MBB); 196025f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng 196125f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng ++NumTBs; 196225f7cfc3cccba6f569f29f79ea533bae960b93c0Evan Cheng MadeChange = true; 19635657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 19645657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng } 19655657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng 19665657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng return MadeChange; 19675657c01949dca6c012ac60d242d1a8d2ffdf5603Evan Cheng} 19681fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 19697a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach/// reorderThumb2JumpTables - Adjust the function's block layout to ensure that 19709249efe4c7451e83fb4c904fd7fcc8edfe08d815Jim Grosbach/// jump tables always branch forwards, since that's what tbb and tbh need. 19717a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbachbool ARMConstantIslands::reorderThumb2JumpTables() { 197280697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach bool MadeChange = false; 197380697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 1974dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MachineJumpTableInfo *MJTI = MF->getJumpTableInfo(); 1975b1e803985d3378538ae9cff7eed4102c002d1e22Chris Lattner if (MJTI == 0) return false; 197626b8ef53ff2ff1ffd72d140b5be264e32dee0195Jim Grosbach 197780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach const std::vector<MachineJumpTableEntry> &JT = MJTI->getJumpTables(); 197880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach for (unsigned i = 0, e = T2JumpTables.size(); i != e; ++i) { 197980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineInstr *MI = T2JumpTables[i]; 1980e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng const MCInstrDesc &MCID = MI->getDesc(); 1981e837dead3c8dc3445ef6a0e2322179c57e264a13Evan Cheng unsigned NumOps = MCID.getNumOperands(); 19825a96b3dad2f634c9081c8b2b6c2575441dc5a2bdEvan Cheng unsigned JTOpIdx = NumOps - (MI->isPredicable() ? 3 : 2); 198380697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineOperand JTOP = MI->getOperand(JTOpIdx); 198480697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach unsigned JTI = JTOP.getIndex(); 198580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach assert(JTI < JT.size()); 198680697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 198780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // We prefer if target blocks for the jump table come after the jump 198880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // instruction so we can use TB[BH]. Loop through the target blocks 198980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // and try to adjust them such that that's true. 199008cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach int JTNumber = MI->getParent()->getNumber(); 199180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach const std::vector<MachineBasicBlock*> &JTBBs = JT[JTI].MBBs; 199280697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach for (unsigned j = 0, ee = JTBBs.size(); j != ee; ++j) { 199380697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineBasicBlock *MBB = JTBBs[j]; 199408cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach int DTNumber = MBB->getNumber(); 199580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 199608cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach if (DTNumber < JTNumber) { 199780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // The destination precedes the switch. Try to move the block forward 199880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // so we have a positive offset. 199980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineBasicBlock *NewBB = 20007a465250564d2ae0cc53ebe58732a751daa43e8dJim Grosbach adjustJTTargetBlockForward(MBB, MI->getParent()); 200180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach if (NewBB) 200200a6a1f0225b01229134ecee7a853be638703c36Jim Grosbach MJTI->ReplaceMBBInJumpTable(JTI, JTBBs[j], NewBB); 200380697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MadeChange = true; 200480697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 200580697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 200680697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 200780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 200880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach return MadeChange; 200980697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach} 201080697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach 20111fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim GrosbachMachineBasicBlock *ARMConstantIslands:: 20127a465250564d2ae0cc53ebe58732a751daa43e8dJim GrosbachadjustJTTargetBlockForward(MachineBasicBlock *BB, MachineBasicBlock *JTBB) { 201303e2d44722c1ebd3953007db0579147b46efba18Jim Grosbach // If the destination block is terminated by an unconditional branch, 201480697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach // try to move it; otherwise, create a new block following the jump 201508cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach // table that branches back to the actual target. This is a very simple 201608cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach // heuristic. FIXME: We can definitely improve it. 201780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach MachineBasicBlock *TBB = 0, *FBB = 0; 201880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach SmallVector<MachineOperand, 4> Cond; 2019a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach SmallVector<MachineOperand, 4> CondPrior; 2020a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach MachineFunction::iterator BBi = BB; 2021a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach MachineFunction::iterator OldPrior = prior(BBi); 202200a6a1f0225b01229134ecee7a853be638703c36Jim Grosbach 2023ca215e7804ca5d85e19e31850c3ba3d155624e89Jim Grosbach // If the block terminator isn't analyzable, don't try to move the block 2024a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach bool B = TII->AnalyzeBranch(*BB, TBB, FBB, Cond); 2025ca215e7804ca5d85e19e31850c3ba3d155624e89Jim Grosbach 2026a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach // If the block ends in an unconditional branch, move it. The prior block 2027a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach // has to have an analyzable terminator for us to move this one. Be paranoid 202808cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach // and make sure we're not trying to move the entry block of the function. 2029dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen if (!B && Cond.empty() && BB != MF->begin() && 2030a0a95a3c1cea79757854cf39ba07734b39e2b0e9Jim Grosbach !TII->AnalyzeBranch(*OldPrior, TBB, FBB, CondPrior)) { 203180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach BB->moveAfter(JTBB); 203280697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach OldPrior->updateTerminator(); 203300a6a1f0225b01229134ecee7a853be638703c36Jim Grosbach BB->updateTerminator(); 203408cbda56b6a45a2c29bdf3d9668ad614ad86cb77Jim Grosbach // Update numbering to account for the block being moved. 2035dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->RenumberBlocks(); 203680697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach ++NumJTMoved; 203780697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach return NULL; 203880697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach } 20391fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 20401fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach // Create a new MBB for the code after the jump BB. 20411fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach MachineBasicBlock *NewBB = 2042dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->CreateMachineBasicBlock(JTBB->getBasicBlock()); 20431fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach MachineFunction::iterator MBBI = JTBB; ++MBBI; 2044dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->insert(MBBI, NewBB); 20451fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 20461fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach // Add an unconditional branch from NewBB to BB. 20471fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach // There doesn't seem to be meaningful DebugInfo available; this doesn't 20481fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach // correspond directly to anything in the source. 20491fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach assert (isThumb2 && "Adjusting for TB[BH] but not in Thumb2?"); 205051f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson BuildMI(NewBB, DebugLoc(), TII->get(ARM::t2B)).addMBB(BB) 205151f6a7abf27fc92c3d8904c2334feab8b498e8e9Owen Anderson .addImm(ARMCC::AL).addReg(0); 20521fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 205300a6a1f0225b01229134ecee7a853be638703c36Jim Grosbach // Update internal data structures to account for the newly inserted MBB. 2054dbf350a5a8f5fb5321a4e11e381f0023fbe61d15Jakob Stoklund Olesen MF->RenumberBlocks(NewBB); 205500a6a1f0225b01229134ecee7a853be638703c36Jim Grosbach 20561fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach // Update the CFG. 20571fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach NewBB->addSuccessor(BB); 20581fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach JTBB->removeSuccessor(BB); 20591fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach JTBB->addSuccessor(NewBB); 20601fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach 206180697d1b266cd3cd3b92edd424d66d573db6b4b1Jim Grosbach ++NumJTInserted; 20621fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach return NewBB; 20631fc7d715aa35703fcc4a87ece718a8c447e8ee72Jim Grosbach} 2064