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f1bab75f10
Remove the InsertionPoint argument from SlotIndexes::insertMBBInMaps because it was confusing: what does it mean to insert a new block between two instructions, in the middle of an existing block? Instead, support the case that MachineBasicBlock::splitAt really needs, where the new block contains some instructions that are already in the maps because they have been moved there from the tail of the previous block. In all other use cases the new block is empty. Based on work by Carl Ritson! Differential Revision: https://reviews.llvm.org/D94311
648 lines
24 KiB
C++
648 lines
24 KiB
C++
//===- llvm/CodeGen/SlotIndexes.h - Slot indexes representation -*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements SlotIndex and related classes. The purpose of SlotIndex
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// is to describe a position at which a register can become live, or cease to
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// be live.
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//
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// SlotIndex is mostly a proxy for entries of the SlotIndexList, a class which
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// is held is LiveIntervals and provides the real numbering. This allows
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// LiveIntervals to perform largely transparent renumbering.
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_SLOTINDEXES_H
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#define LLVM_CODEGEN_SLOTINDEXES_H
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/IntervalMap.h"
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#include "llvm/ADT/PointerIntPair.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/ilist.h"
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#include "llvm/CodeGen/MachineBasicBlock.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineFunctionPass.h"
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#include "llvm/CodeGen/MachineInstr.h"
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#include "llvm/CodeGen/MachineInstrBundle.h"
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#include "llvm/Pass.h"
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#include "llvm/Support/Allocator.h"
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#include <algorithm>
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#include <cassert>
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#include <iterator>
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#include <utility>
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namespace llvm {
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class raw_ostream;
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/// This class represents an entry in the slot index list held in the
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/// SlotIndexes pass. It should not be used directly. See the
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/// SlotIndex & SlotIndexes classes for the public interface to this
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/// information.
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class IndexListEntry : public ilist_node<IndexListEntry> {
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MachineInstr *mi;
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unsigned index;
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public:
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IndexListEntry(MachineInstr *mi, unsigned index) : mi(mi), index(index) {}
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MachineInstr* getInstr() const { return mi; }
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void setInstr(MachineInstr *mi) {
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this->mi = mi;
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}
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unsigned getIndex() const { return index; }
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void setIndex(unsigned index) {
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this->index = index;
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}
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#ifdef EXPENSIVE_CHECKS
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// When EXPENSIVE_CHECKS is defined, "erased" index list entries will
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// actually be moved to a "graveyard" list, and have their pointers
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// poisoned, so that dangling SlotIndex access can be reliably detected.
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void setPoison() {
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intptr_t tmp = reinterpret_cast<intptr_t>(mi);
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assert(((tmp & 0x1) == 0x0) && "Pointer already poisoned?");
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tmp |= 0x1;
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mi = reinterpret_cast<MachineInstr*>(tmp);
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}
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bool isPoisoned() const { return (reinterpret_cast<intptr_t>(mi) & 0x1) == 0x1; }
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#endif // EXPENSIVE_CHECKS
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};
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template <>
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struct ilist_alloc_traits<IndexListEntry>
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: public ilist_noalloc_traits<IndexListEntry> {};
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/// SlotIndex - An opaque wrapper around machine indexes.
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class SlotIndex {
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friend class SlotIndexes;
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enum Slot {
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/// Basic block boundary. Used for live ranges entering and leaving a
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/// block without being live in the layout neighbor. Also used as the
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/// def slot of PHI-defs.
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Slot_Block,
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/// Early-clobber register use/def slot. A live range defined at
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/// Slot_EarlyClobber interferes with normal live ranges killed at
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/// Slot_Register. Also used as the kill slot for live ranges tied to an
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/// early-clobber def.
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Slot_EarlyClobber,
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/// Normal register use/def slot. Normal instructions kill and define
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/// register live ranges at this slot.
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Slot_Register,
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/// Dead def kill point. Kill slot for a live range that is defined by
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/// the same instruction (Slot_Register or Slot_EarlyClobber), but isn't
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/// used anywhere.
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Slot_Dead,
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Slot_Count
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};
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PointerIntPair<IndexListEntry*, 2, unsigned> lie;
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SlotIndex(IndexListEntry *entry, unsigned slot)
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: lie(entry, slot) {}
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IndexListEntry* listEntry() const {
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assert(isValid() && "Attempt to compare reserved index.");
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#ifdef EXPENSIVE_CHECKS
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assert(!lie.getPointer()->isPoisoned() &&
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"Attempt to access deleted list-entry.");
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#endif // EXPENSIVE_CHECKS
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return lie.getPointer();
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}
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unsigned getIndex() const {
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return listEntry()->getIndex() | getSlot();
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}
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/// Returns the slot for this SlotIndex.
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Slot getSlot() const {
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return static_cast<Slot>(lie.getInt());
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}
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public:
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enum {
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/// The default distance between instructions as returned by distance().
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/// This may vary as instructions are inserted and removed.
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InstrDist = 4 * Slot_Count
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};
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/// Construct an invalid index.
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SlotIndex() = default;
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// Construct a new slot index from the given one, and set the slot.
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SlotIndex(const SlotIndex &li, Slot s) : lie(li.listEntry(), unsigned(s)) {
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assert(lie.getPointer() != nullptr &&
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"Attempt to construct index with 0 pointer.");
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}
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/// Returns true if this is a valid index. Invalid indices do
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/// not point into an index table, and cannot be compared.
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bool isValid() const {
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return lie.getPointer();
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}
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/// Return true for a valid index.
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explicit operator bool() const { return isValid(); }
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/// Print this index to the given raw_ostream.
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void print(raw_ostream &os) const;
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/// Dump this index to stderr.
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void dump() const;
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/// Compare two SlotIndex objects for equality.
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bool operator==(SlotIndex other) const {
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return lie == other.lie;
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}
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/// Compare two SlotIndex objects for inequality.
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bool operator!=(SlotIndex other) const {
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return lie != other.lie;
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}
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/// Compare two SlotIndex objects. Return true if the first index
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/// is strictly lower than the second.
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bool operator<(SlotIndex other) const {
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return getIndex() < other.getIndex();
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}
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/// Compare two SlotIndex objects. Return true if the first index
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/// is lower than, or equal to, the second.
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bool operator<=(SlotIndex other) const {
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return getIndex() <= other.getIndex();
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}
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/// Compare two SlotIndex objects. Return true if the first index
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/// is greater than the second.
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bool operator>(SlotIndex other) const {
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return getIndex() > other.getIndex();
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}
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/// Compare two SlotIndex objects. Return true if the first index
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/// is greater than, or equal to, the second.
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bool operator>=(SlotIndex other) const {
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return getIndex() >= other.getIndex();
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}
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/// isSameInstr - Return true if A and B refer to the same instruction.
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static bool isSameInstr(SlotIndex A, SlotIndex B) {
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return A.lie.getPointer() == B.lie.getPointer();
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}
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/// isEarlierInstr - Return true if A refers to an instruction earlier than
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/// B. This is equivalent to A < B && !isSameInstr(A, B).
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static bool isEarlierInstr(SlotIndex A, SlotIndex B) {
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return A.listEntry()->getIndex() < B.listEntry()->getIndex();
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}
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/// Return true if A refers to the same instruction as B or an earlier one.
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/// This is equivalent to !isEarlierInstr(B, A).
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static bool isEarlierEqualInstr(SlotIndex A, SlotIndex B) {
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return !isEarlierInstr(B, A);
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}
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/// Return the distance from this index to the given one.
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int distance(SlotIndex other) const {
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return other.getIndex() - getIndex();
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}
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/// Return the scaled distance from this index to the given one, where all
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/// slots on the same instruction have zero distance.
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int getInstrDistance(SlotIndex other) const {
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return (other.listEntry()->getIndex() - listEntry()->getIndex())
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/ Slot_Count;
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}
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/// isBlock - Returns true if this is a block boundary slot.
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bool isBlock() const { return getSlot() == Slot_Block; }
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/// isEarlyClobber - Returns true if this is an early-clobber slot.
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bool isEarlyClobber() const { return getSlot() == Slot_EarlyClobber; }
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/// isRegister - Returns true if this is a normal register use/def slot.
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/// Note that early-clobber slots may also be used for uses and defs.
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bool isRegister() const { return getSlot() == Slot_Register; }
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/// isDead - Returns true if this is a dead def kill slot.
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bool isDead() const { return getSlot() == Slot_Dead; }
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/// Returns the base index for associated with this index. The base index
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/// is the one associated with the Slot_Block slot for the instruction
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/// pointed to by this index.
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SlotIndex getBaseIndex() const {
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return SlotIndex(listEntry(), Slot_Block);
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}
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/// Returns the boundary index for associated with this index. The boundary
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/// index is the one associated with the Slot_Block slot for the instruction
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/// pointed to by this index.
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SlotIndex getBoundaryIndex() const {
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return SlotIndex(listEntry(), Slot_Dead);
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}
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/// Returns the register use/def slot in the current instruction for a
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/// normal or early-clobber def.
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SlotIndex getRegSlot(bool EC = false) const {
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return SlotIndex(listEntry(), EC ? Slot_EarlyClobber : Slot_Register);
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}
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/// Returns the dead def kill slot for the current instruction.
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SlotIndex getDeadSlot() const {
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return SlotIndex(listEntry(), Slot_Dead);
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}
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/// Returns the next slot in the index list. This could be either the
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/// next slot for the instruction pointed to by this index or, if this
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/// index is a STORE, the first slot for the next instruction.
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/// WARNING: This method is considerably more expensive than the methods
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/// that return specific slots (getUseIndex(), etc). If you can - please
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/// use one of those methods.
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SlotIndex getNextSlot() const {
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Slot s = getSlot();
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if (s == Slot_Dead) {
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return SlotIndex(&*++listEntry()->getIterator(), Slot_Block);
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}
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return SlotIndex(listEntry(), s + 1);
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}
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/// Returns the next index. This is the index corresponding to the this
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/// index's slot, but for the next instruction.
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SlotIndex getNextIndex() const {
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return SlotIndex(&*++listEntry()->getIterator(), getSlot());
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}
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/// Returns the previous slot in the index list. This could be either the
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/// previous slot for the instruction pointed to by this index or, if this
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/// index is a Slot_Block, the last slot for the previous instruction.
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/// WARNING: This method is considerably more expensive than the methods
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/// that return specific slots (getUseIndex(), etc). If you can - please
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/// use one of those methods.
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SlotIndex getPrevSlot() const {
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Slot s = getSlot();
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if (s == Slot_Block) {
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return SlotIndex(&*--listEntry()->getIterator(), Slot_Dead);
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}
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return SlotIndex(listEntry(), s - 1);
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}
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/// Returns the previous index. This is the index corresponding to this
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/// index's slot, but for the previous instruction.
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SlotIndex getPrevIndex() const {
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return SlotIndex(&*--listEntry()->getIterator(), getSlot());
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}
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};
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inline raw_ostream& operator<<(raw_ostream &os, SlotIndex li) {
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li.print(os);
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return os;
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}
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using IdxMBBPair = std::pair<SlotIndex, MachineBasicBlock *>;
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/// SlotIndexes pass.
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///
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/// This pass assigns indexes to each instruction.
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class SlotIndexes : public MachineFunctionPass {
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private:
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// IndexListEntry allocator.
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BumpPtrAllocator ileAllocator;
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using IndexList = ilist<IndexListEntry>;
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IndexList indexList;
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MachineFunction *mf;
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using Mi2IndexMap = DenseMap<const MachineInstr *, SlotIndex>;
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Mi2IndexMap mi2iMap;
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/// MBBRanges - Map MBB number to (start, stop) indexes.
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SmallVector<std::pair<SlotIndex, SlotIndex>, 8> MBBRanges;
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/// Idx2MBBMap - Sorted list of pairs of index of first instruction
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/// and MBB id.
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SmallVector<IdxMBBPair, 8> idx2MBBMap;
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IndexListEntry* createEntry(MachineInstr *mi, unsigned index) {
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IndexListEntry *entry =
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static_cast<IndexListEntry *>(ileAllocator.Allocate(
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sizeof(IndexListEntry), alignof(IndexListEntry)));
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new (entry) IndexListEntry(mi, index);
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return entry;
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}
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/// Renumber locally after inserting curItr.
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void renumberIndexes(IndexList::iterator curItr);
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public:
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static char ID;
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SlotIndexes();
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~SlotIndexes() override;
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void getAnalysisUsage(AnalysisUsage &au) const override;
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void releaseMemory() override;
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bool runOnMachineFunction(MachineFunction &fn) override;
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/// Dump the indexes.
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void dump() const;
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/// Repair indexes after adding and removing instructions.
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void repairIndexesInRange(MachineBasicBlock *MBB,
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MachineBasicBlock::iterator Begin,
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MachineBasicBlock::iterator End);
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/// Returns the zero index for this analysis.
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SlotIndex getZeroIndex() {
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assert(indexList.front().getIndex() == 0 && "First index is not 0?");
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return SlotIndex(&indexList.front(), 0);
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}
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/// Returns the base index of the last slot in this analysis.
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SlotIndex getLastIndex() {
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return SlotIndex(&indexList.back(), 0);
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}
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/// Returns true if the given machine instr is mapped to an index,
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/// otherwise returns false.
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bool hasIndex(const MachineInstr &instr) const {
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return mi2iMap.count(&instr);
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}
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/// Returns the base index for the given instruction.
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SlotIndex getInstructionIndex(const MachineInstr &MI,
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bool IgnoreBundle = false) const {
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// Instructions inside a bundle have the same number as the bundle itself.
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auto BundleStart = getBundleStart(MI.getIterator());
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auto BundleEnd = getBundleEnd(MI.getIterator());
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// Use the first non-debug instruction in the bundle to get SlotIndex.
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const MachineInstr &BundleNonDebug =
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IgnoreBundle ? MI
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: *skipDebugInstructionsForward(BundleStart, BundleEnd);
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assert(!BundleNonDebug.isDebugInstr() &&
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"Could not use a debug instruction to query mi2iMap.");
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Mi2IndexMap::const_iterator itr = mi2iMap.find(&BundleNonDebug);
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assert(itr != mi2iMap.end() && "Instruction not found in maps.");
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return itr->second;
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}
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/// Returns the instruction for the given index, or null if the given
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/// index has no instruction associated with it.
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MachineInstr* getInstructionFromIndex(SlotIndex index) const {
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return index.isValid() ? index.listEntry()->getInstr() : nullptr;
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}
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/// Returns the next non-null index, if one exists.
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/// Otherwise returns getLastIndex().
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SlotIndex getNextNonNullIndex(SlotIndex Index) {
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IndexList::iterator I = Index.listEntry()->getIterator();
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IndexList::iterator E = indexList.end();
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while (++I != E)
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if (I->getInstr())
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return SlotIndex(&*I, Index.getSlot());
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// We reached the end of the function.
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return getLastIndex();
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}
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/// getIndexBefore - Returns the index of the last indexed instruction
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/// before MI, or the start index of its basic block.
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/// MI is not required to have an index.
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SlotIndex getIndexBefore(const MachineInstr &MI) const {
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const MachineBasicBlock *MBB = MI.getParent();
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assert(MBB && "MI must be inserted in a basic block");
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MachineBasicBlock::const_iterator I = MI, B = MBB->begin();
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while (true) {
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if (I == B)
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return getMBBStartIdx(MBB);
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--I;
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Mi2IndexMap::const_iterator MapItr = mi2iMap.find(&*I);
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if (MapItr != mi2iMap.end())
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return MapItr->second;
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}
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}
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/// getIndexAfter - Returns the index of the first indexed instruction
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/// after MI, or the end index of its basic block.
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/// MI is not required to have an index.
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SlotIndex getIndexAfter(const MachineInstr &MI) const {
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const MachineBasicBlock *MBB = MI.getParent();
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assert(MBB && "MI must be inserted in a basic block");
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MachineBasicBlock::const_iterator I = MI, E = MBB->end();
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while (true) {
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++I;
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if (I == E)
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return getMBBEndIdx(MBB);
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Mi2IndexMap::const_iterator MapItr = mi2iMap.find(&*I);
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if (MapItr != mi2iMap.end())
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return MapItr->second;
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}
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}
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/// Return the (start,end) range of the given basic block number.
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const std::pair<SlotIndex, SlotIndex> &
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getMBBRange(unsigned Num) const {
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return MBBRanges[Num];
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}
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/// Return the (start,end) range of the given basic block.
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const std::pair<SlotIndex, SlotIndex> &
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getMBBRange(const MachineBasicBlock *MBB) const {
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return getMBBRange(MBB->getNumber());
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}
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/// Returns the first index in the given basic block number.
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SlotIndex getMBBStartIdx(unsigned Num) const {
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return getMBBRange(Num).first;
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}
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/// Returns the first index in the given basic block.
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SlotIndex getMBBStartIdx(const MachineBasicBlock *mbb) const {
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return getMBBRange(mbb).first;
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}
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/// Returns the last index in the given basic block number.
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SlotIndex getMBBEndIdx(unsigned Num) const {
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return getMBBRange(Num).second;
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}
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/// Returns the last index in the given basic block.
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SlotIndex getMBBEndIdx(const MachineBasicBlock *mbb) const {
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return getMBBRange(mbb).second;
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}
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/// Iterator over the idx2MBBMap (sorted pairs of slot index of basic block
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/// begin and basic block)
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using MBBIndexIterator = SmallVectorImpl<IdxMBBPair>::const_iterator;
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/// Move iterator to the next IdxMBBPair where the SlotIndex is greater or
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/// equal to \p To.
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MBBIndexIterator advanceMBBIndex(MBBIndexIterator I, SlotIndex To) const {
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return std::partition_point(
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I, idx2MBBMap.end(),
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[=](const IdxMBBPair &IM) { return IM.first < To; });
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}
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/// Get an iterator pointing to the IdxMBBPair with the biggest SlotIndex
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/// that is greater or equal to \p Idx.
|
|
MBBIndexIterator findMBBIndex(SlotIndex Idx) const {
|
|
return advanceMBBIndex(idx2MBBMap.begin(), Idx);
|
|
}
|
|
|
|
/// Returns an iterator for the begin of the idx2MBBMap.
|
|
MBBIndexIterator MBBIndexBegin() const {
|
|
return idx2MBBMap.begin();
|
|
}
|
|
|
|
/// Return an iterator for the end of the idx2MBBMap.
|
|
MBBIndexIterator MBBIndexEnd() const {
|
|
return idx2MBBMap.end();
|
|
}
|
|
|
|
/// Returns the basic block which the given index falls in.
|
|
MachineBasicBlock* getMBBFromIndex(SlotIndex index) const {
|
|
if (MachineInstr *MI = getInstructionFromIndex(index))
|
|
return MI->getParent();
|
|
|
|
MBBIndexIterator I = findMBBIndex(index);
|
|
// Take the pair containing the index
|
|
MBBIndexIterator J =
|
|
((I != MBBIndexEnd() && I->first > index) ||
|
|
(I == MBBIndexEnd() && !idx2MBBMap.empty())) ? std::prev(I) : I;
|
|
|
|
assert(J != MBBIndexEnd() && J->first <= index &&
|
|
index < getMBBEndIdx(J->second) &&
|
|
"index does not correspond to an MBB");
|
|
return J->second;
|
|
}
|
|
|
|
/// Insert the given machine instruction into the mapping. Returns the
|
|
/// assigned index.
|
|
/// If Late is set and there are null indexes between mi's neighboring
|
|
/// instructions, create the new index after the null indexes instead of
|
|
/// before them.
|
|
SlotIndex insertMachineInstrInMaps(MachineInstr &MI, bool Late = false) {
|
|
assert(!MI.isInsideBundle() &&
|
|
"Instructions inside bundles should use bundle start's slot.");
|
|
assert(mi2iMap.find(&MI) == mi2iMap.end() && "Instr already indexed.");
|
|
// Numbering debug instructions could cause code generation to be
|
|
// affected by debug information.
|
|
assert(!MI.isDebugInstr() && "Cannot number debug instructions.");
|
|
|
|
assert(MI.getParent() != nullptr && "Instr must be added to function.");
|
|
|
|
// Get the entries where MI should be inserted.
|
|
IndexList::iterator prevItr, nextItr;
|
|
if (Late) {
|
|
// Insert MI's index immediately before the following instruction.
|
|
nextItr = getIndexAfter(MI).listEntry()->getIterator();
|
|
prevItr = std::prev(nextItr);
|
|
} else {
|
|
// Insert MI's index immediately after the preceding instruction.
|
|
prevItr = getIndexBefore(MI).listEntry()->getIterator();
|
|
nextItr = std::next(prevItr);
|
|
}
|
|
|
|
// Get a number for the new instr, or 0 if there's no room currently.
|
|
// In the latter case we'll force a renumber later.
|
|
unsigned dist = ((nextItr->getIndex() - prevItr->getIndex())/2) & ~3u;
|
|
unsigned newNumber = prevItr->getIndex() + dist;
|
|
|
|
// Insert a new list entry for MI.
|
|
IndexList::iterator newItr =
|
|
indexList.insert(nextItr, createEntry(&MI, newNumber));
|
|
|
|
// Renumber locally if we need to.
|
|
if (dist == 0)
|
|
renumberIndexes(newItr);
|
|
|
|
SlotIndex newIndex(&*newItr, SlotIndex::Slot_Block);
|
|
mi2iMap.insert(std::make_pair(&MI, newIndex));
|
|
return newIndex;
|
|
}
|
|
|
|
/// Removes machine instruction (bundle) \p MI from the mapping.
|
|
/// This should be called before MachineInstr::eraseFromParent() is used to
|
|
/// remove a whole bundle or an unbundled instruction.
|
|
/// If \p AllowBundled is set then this can be used on a bundled
|
|
/// instruction; however, this exists to support handleMoveIntoBundle,
|
|
/// and in general removeSingleMachineInstrFromMaps should be used instead.
|
|
void removeMachineInstrFromMaps(MachineInstr &MI,
|
|
bool AllowBundled = false);
|
|
|
|
/// Removes a single machine instruction \p MI from the mapping.
|
|
/// This should be called before MachineInstr::eraseFromBundle() is used to
|
|
/// remove a single instruction (out of a bundle).
|
|
void removeSingleMachineInstrFromMaps(MachineInstr &MI);
|
|
|
|
/// ReplaceMachineInstrInMaps - Replacing a machine instr with a new one in
|
|
/// maps used by register allocator. \returns the index where the new
|
|
/// instruction was inserted.
|
|
SlotIndex replaceMachineInstrInMaps(MachineInstr &MI, MachineInstr &NewMI) {
|
|
Mi2IndexMap::iterator mi2iItr = mi2iMap.find(&MI);
|
|
if (mi2iItr == mi2iMap.end())
|
|
return SlotIndex();
|
|
SlotIndex replaceBaseIndex = mi2iItr->second;
|
|
IndexListEntry *miEntry(replaceBaseIndex.listEntry());
|
|
assert(miEntry->getInstr() == &MI &&
|
|
"Mismatched instruction in index tables.");
|
|
miEntry->setInstr(&NewMI);
|
|
mi2iMap.erase(mi2iItr);
|
|
mi2iMap.insert(std::make_pair(&NewMI, replaceBaseIndex));
|
|
return replaceBaseIndex;
|
|
}
|
|
|
|
/// Add the given MachineBasicBlock into the maps.
|
|
/// If it contains any instructions then they must already be in the maps.
|
|
/// This is used after a block has been split by moving some suffix of its
|
|
/// instructions into a newly created block.
|
|
void insertMBBInMaps(MachineBasicBlock *mbb) {
|
|
assert(mbb != &mbb->getParent()->front() &&
|
|
"Can't insert a new block at the beginning of a function.");
|
|
auto prevMBB = std::prev(MachineFunction::iterator(mbb));
|
|
|
|
// Create a new entry to be used for the start of mbb and the end of
|
|
// prevMBB.
|
|
IndexListEntry *startEntry = createEntry(nullptr, 0);
|
|
IndexListEntry *endEntry = getMBBEndIdx(&*prevMBB).listEntry();
|
|
IndexListEntry *insEntry =
|
|
mbb->empty() ? endEntry
|
|
: getInstructionIndex(mbb->front()).listEntry();
|
|
IndexList::iterator newItr =
|
|
indexList.insert(insEntry->getIterator(), startEntry);
|
|
|
|
SlotIndex startIdx(startEntry, SlotIndex::Slot_Block);
|
|
SlotIndex endIdx(endEntry, SlotIndex::Slot_Block);
|
|
|
|
MBBRanges[prevMBB->getNumber()].second = startIdx;
|
|
|
|
assert(unsigned(mbb->getNumber()) == MBBRanges.size() &&
|
|
"Blocks must be added in order");
|
|
MBBRanges.push_back(std::make_pair(startIdx, endIdx));
|
|
idx2MBBMap.push_back(IdxMBBPair(startIdx, mbb));
|
|
|
|
renumberIndexes(newItr);
|
|
llvm::sort(idx2MBBMap, less_first());
|
|
}
|
|
};
|
|
|
|
// Specialize IntervalMapInfo for half-open slot index intervals.
|
|
template <>
|
|
struct IntervalMapInfo<SlotIndex> : IntervalMapHalfOpenInfo<SlotIndex> {
|
|
};
|
|
|
|
} // end namespace llvm
|
|
|
|
#endif // LLVM_CODEGEN_SLOTINDEXES_H
|