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llvm-mirror/lib/CodeGen/LiveIntervalUnion.cpp
Mircea Trofin 9b55a6ca1b [regalloc] Ensure Query::collectInterferringVregs is called before interval iteration 
The main part of the patch is the change in RegAllocGreedy.cpp: Q.collectInterferringVregs()
needs to be called before iterating the interfering live ranges.

The rest of the patch offers support that is the case: instead of  clearing the query's
InterferingVRegs field, we invalidate it. The clearing happens when the live reg matrix
is invalidated (existing triggering mechanism).

Without the change in RegAllocGreedy.cpp, the compiler ices.

This patch should make it more easily discoverable by developers that
collectInterferringVregs needs to be called before iterating.

I will follow up with a subsequent patch to improve the usability and maintainability of Query.

Differential Revision: https://reviews.llvm.org/D98232
2021-04-01 08:33:28 -07:00

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//===- LiveIntervalUnion.cpp - Live interval union data structure ---------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// LiveIntervalUnion represents a coalesced set of live intervals. This may be
// used during coalescing to represent a congruence class, or during register
// allocation to model liveness of a physical register.
//
//===----------------------------------------------------------------------===//
#include "llvm/CodeGen/LiveIntervalUnion.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SparseBitVector.h"
#include "llvm/CodeGen/LiveInterval.h"
#include "llvm/CodeGen/TargetRegisterInfo.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdlib>
using namespace llvm;
#define DEBUG_TYPE "regalloc"
// Merge a LiveInterval's segments. Guarantee no overlaps.
void LiveIntervalUnion::unify(LiveInterval &VirtReg, const LiveRange &Range) {
if (Range.empty())
return;
++Tag;
// Insert each of the virtual register's live segments into the map.
LiveRange::const_iterator RegPos = Range.begin();
LiveRange::const_iterator RegEnd = Range.end();
SegmentIter SegPos = Segments.find(RegPos->start);
while (SegPos.valid()) {
SegPos.insert(RegPos->start, RegPos->end, &VirtReg);
if (++RegPos == RegEnd)
return;
SegPos.advanceTo(RegPos->start);
}
// We have reached the end of Segments, so it is no longer necessary to search
// for the insertion position.
// It is faster to insert the end first.
--RegEnd;
SegPos.insert(RegEnd->start, RegEnd->end, &VirtReg);
for (; RegPos != RegEnd; ++RegPos, ++SegPos)
SegPos.insert(RegPos->start, RegPos->end, &VirtReg);
}
// Remove a live virtual register's segments from this union.
void LiveIntervalUnion::extract(LiveInterval &VirtReg, const LiveRange &Range) {
if (Range.empty())
return;
++Tag;
// Remove each of the virtual register's live segments from the map.
LiveRange::const_iterator RegPos = Range.begin();
LiveRange::const_iterator RegEnd = Range.end();
SegmentIter SegPos = Segments.find(RegPos->start);
while (true) {
assert(SegPos.value() == &VirtReg && "Inconsistent LiveInterval");
SegPos.erase();
if (!SegPos.valid())
return;
// Skip all segments that may have been coalesced.
RegPos = Range.advanceTo(RegPos, SegPos.start());
if (RegPos == RegEnd)
return;
SegPos.advanceTo(RegPos->start);
}
}
void
LiveIntervalUnion::print(raw_ostream &OS, const TargetRegisterInfo *TRI) const {
if (empty()) {
OS << " empty\n";
return;
}
for (LiveSegments::const_iterator SI = Segments.begin(); SI.valid(); ++SI) {
OS << " [" << SI.start() << ' ' << SI.stop()
<< "):" << printReg(SI.value()->reg(), TRI);
}
OS << '\n';
}
#ifndef NDEBUG
// Verify the live intervals in this union and add them to the visited set.
void LiveIntervalUnion::verify(LiveVirtRegBitSet& VisitedVRegs) {
for (SegmentIter SI = Segments.begin(); SI.valid(); ++SI)
VisitedVRegs.set(SI.value()->reg());
}
#endif //!NDEBUG
LiveInterval *LiveIntervalUnion::getOneVReg() const {
if (empty())
return nullptr;
for (LiveSegments::const_iterator SI = Segments.begin(); SI.valid(); ++SI) {
// return the first valid live interval
return SI.value();
}
return nullptr;
}
// Scan the vector of interfering virtual registers in this union. Assume it's
// quite small.
bool LiveIntervalUnion::Query::isSeenInterference(LiveInterval *VirtReg) const {
return is_contained(*InterferingVRegs, VirtReg);
}
// Collect virtual registers in this union that interfere with this
// query's live virtual register.
//
// The query state is one of:
//
// 1. CheckedFirstInterference == false: Iterators are uninitialized.
// 2. SeenAllInterferences == true: InterferingVRegs complete, iterators unused.
// 3. Iterators left at the last seen intersection.
//
unsigned LiveIntervalUnion::Query::
collectInterferingVRegs(unsigned MaxInterferingRegs) {
if (!InterferingVRegs)
InterferingVRegs.emplace();
// Fast path return if we already have the desired information.
if (SeenAllInterferences || InterferingVRegs->size() >= MaxInterferingRegs)
return InterferingVRegs->size();
// Set up iterators on the first call.
if (!CheckedFirstInterference) {
CheckedFirstInterference = true;
// Quickly skip interference check for empty sets.
if (LR->empty() || LiveUnion->empty()) {
SeenAllInterferences = true;
return 0;
}
// In most cases, the union will start before LR.
LRI = LR->begin();
LiveUnionI.setMap(LiveUnion->getMap());
LiveUnionI.find(LRI->start);
}
LiveRange::const_iterator LREnd = LR->end();
LiveInterval *RecentReg = nullptr;
while (LiveUnionI.valid()) {
assert(LRI != LREnd && "Reached end of LR");
// Check for overlapping interference.
while (LRI->start < LiveUnionI.stop() && LRI->end > LiveUnionI.start()) {
// This is an overlap, record the interfering register.
LiveInterval *VReg = LiveUnionI.value();
if (VReg != RecentReg && !isSeenInterference(VReg)) {
RecentReg = VReg;
InterferingVRegs->push_back(VReg);
if (InterferingVRegs->size() >= MaxInterferingRegs)
return InterferingVRegs->size();
}
// This LiveUnion segment is no longer interesting.
if (!(++LiveUnionI).valid()) {
SeenAllInterferences = true;
return InterferingVRegs->size();
}
}
// The iterators are now not overlapping, LiveUnionI has been advanced
// beyond LRI.
assert(LRI->end <= LiveUnionI.start() && "Expected non-overlap");
// Advance the iterator that ends first.
LRI = LR->advanceTo(LRI, LiveUnionI.start());
if (LRI == LREnd)
break;
// Detect overlap, handle above.
if (LRI->start < LiveUnionI.stop())
continue;
// Still not overlapping. Catch up LiveUnionI.
LiveUnionI.advanceTo(LRI->start);
}
SeenAllInterferences = true;
return InterferingVRegs->size();
}
void LiveIntervalUnion::Array::init(LiveIntervalUnion::Allocator &Alloc,
unsigned NSize) {
// Reuse existing allocation.
if (NSize == Size)
return;
clear();
Size = NSize;
LIUs = static_cast<LiveIntervalUnion*>(
safe_malloc(sizeof(LiveIntervalUnion)*NSize));
for (unsigned i = 0; i != Size; ++i)
new(LIUs + i) LiveIntervalUnion(Alloc);
}
void LiveIntervalUnion::Array::clear() {
if (!LIUs)
return;
for (unsigned i = 0; i != Size; ++i)
LIUs[i].~LiveIntervalUnion();
free(LIUs);
Size = 0;
LIUs = nullptr;
}
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