mirror of
https://github.com/c64scene-ar/llvm-6502.git
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5f4b9f892b
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@231154 91177308-0d34-0410-b5e6-96231b3b80d8
384 lines
11 KiB
C++
384 lines
11 KiB
C++
//===-- AArch64PBQPRegAlloc.cpp - AArch64 specific PBQP constraints -------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// This file contains the AArch64 / Cortex-A57 specific register allocation
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// constraints for use by the PBQP register allocator.
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//
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// It is essentially a transcription of what is contained in
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// AArch64A57FPLoadBalancing, which tries to use a balanced
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// mix of odd and even D-registers when performing a critical sequence of
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// independent, non-quadword FP/ASIMD floating-point multiply-accumulates.
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "aarch64-pbqp"
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#include "AArch64.h"
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#include "AArch64PBQPRegAlloc.h"
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#include "AArch64RegisterInfo.h"
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#include "llvm/CodeGen/LiveIntervalAnalysis.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/MachineRegisterInfo.h"
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#include "llvm/CodeGen/RegAllocPBQP.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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namespace {
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#ifndef NDEBUG
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bool isFPReg(unsigned reg) {
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return AArch64::FPR32RegClass.contains(reg) ||
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AArch64::FPR64RegClass.contains(reg) ||
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AArch64::FPR128RegClass.contains(reg);
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}
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#endif
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bool isOdd(unsigned reg) {
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switch (reg) {
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default:
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llvm_unreachable("Register is not from the expected class !");
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case AArch64::S1:
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case AArch64::S3:
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case AArch64::S5:
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case AArch64::S7:
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case AArch64::S9:
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case AArch64::S11:
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case AArch64::S13:
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case AArch64::S15:
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case AArch64::S17:
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case AArch64::S19:
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case AArch64::S21:
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case AArch64::S23:
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case AArch64::S25:
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case AArch64::S27:
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case AArch64::S29:
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case AArch64::S31:
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case AArch64::D1:
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case AArch64::D3:
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case AArch64::D5:
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case AArch64::D7:
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case AArch64::D9:
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case AArch64::D11:
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case AArch64::D13:
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case AArch64::D15:
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case AArch64::D17:
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case AArch64::D19:
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case AArch64::D21:
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case AArch64::D23:
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case AArch64::D25:
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case AArch64::D27:
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case AArch64::D29:
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case AArch64::D31:
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case AArch64::Q1:
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case AArch64::Q3:
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case AArch64::Q5:
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case AArch64::Q7:
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case AArch64::Q9:
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case AArch64::Q11:
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case AArch64::Q13:
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case AArch64::Q15:
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case AArch64::Q17:
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case AArch64::Q19:
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case AArch64::Q21:
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case AArch64::Q23:
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case AArch64::Q25:
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case AArch64::Q27:
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case AArch64::Q29:
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case AArch64::Q31:
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return true;
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case AArch64::S0:
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case AArch64::S2:
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case AArch64::S4:
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case AArch64::S6:
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case AArch64::S8:
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case AArch64::S10:
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case AArch64::S12:
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case AArch64::S14:
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case AArch64::S16:
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case AArch64::S18:
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case AArch64::S20:
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case AArch64::S22:
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case AArch64::S24:
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case AArch64::S26:
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case AArch64::S28:
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case AArch64::S30:
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case AArch64::D0:
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case AArch64::D2:
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case AArch64::D4:
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case AArch64::D6:
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case AArch64::D8:
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case AArch64::D10:
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case AArch64::D12:
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case AArch64::D14:
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case AArch64::D16:
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case AArch64::D18:
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case AArch64::D20:
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case AArch64::D22:
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case AArch64::D24:
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case AArch64::D26:
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case AArch64::D28:
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case AArch64::D30:
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case AArch64::Q0:
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case AArch64::Q2:
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case AArch64::Q4:
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case AArch64::Q6:
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case AArch64::Q8:
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case AArch64::Q10:
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case AArch64::Q12:
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case AArch64::Q14:
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case AArch64::Q16:
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case AArch64::Q18:
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case AArch64::Q20:
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case AArch64::Q22:
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case AArch64::Q24:
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case AArch64::Q26:
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case AArch64::Q28:
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case AArch64::Q30:
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return false;
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}
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}
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bool haveSameParity(unsigned reg1, unsigned reg2) {
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assert(isFPReg(reg1) && "Expecting an FP register for reg1");
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assert(isFPReg(reg2) && "Expecting an FP register for reg2");
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return isOdd(reg1) == isOdd(reg2);
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}
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}
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bool A57ChainingConstraint::addIntraChainConstraint(PBQPRAGraph &G, unsigned Rd,
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unsigned Ra) {
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if (Rd == Ra)
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return false;
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LiveIntervals &LIs = G.getMetadata().LIS;
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if (TRI->isPhysicalRegister(Rd) || TRI->isPhysicalRegister(Ra)) {
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DEBUG(dbgs() << "Rd is a physical reg:" << TRI->isPhysicalRegister(Rd)
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<< '\n');
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DEBUG(dbgs() << "Ra is a physical reg:" << TRI->isPhysicalRegister(Ra)
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<< '\n');
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return false;
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}
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PBQPRAGraph::NodeId node1 = G.getMetadata().getNodeIdForVReg(Rd);
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PBQPRAGraph::NodeId node2 = G.getMetadata().getNodeIdForVReg(Ra);
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const PBQPRAGraph::NodeMetadata::AllowedRegVector *vRdAllowed =
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&G.getNodeMetadata(node1).getAllowedRegs();
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const PBQPRAGraph::NodeMetadata::AllowedRegVector *vRaAllowed =
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&G.getNodeMetadata(node2).getAllowedRegs();
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PBQPRAGraph::EdgeId edge = G.findEdge(node1, node2);
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// The edge does not exist. Create one with the appropriate interference
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// costs.
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if (edge == G.invalidEdgeId()) {
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const LiveInterval &ld = LIs.getInterval(Rd);
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const LiveInterval &la = LIs.getInterval(Ra);
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bool livesOverlap = ld.overlaps(la);
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PBQPRAGraph::RawMatrix costs(vRdAllowed->size() + 1,
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vRaAllowed->size() + 1, 0);
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for (unsigned i = 0, ie = vRdAllowed->size(); i != ie; ++i) {
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unsigned pRd = (*vRdAllowed)[i];
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for (unsigned j = 0, je = vRaAllowed->size(); j != je; ++j) {
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unsigned pRa = (*vRaAllowed)[j];
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if (livesOverlap && TRI->regsOverlap(pRd, pRa))
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costs[i + 1][j + 1] = std::numeric_limits<PBQP::PBQPNum>::infinity();
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else
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costs[i + 1][j + 1] = haveSameParity(pRd, pRa) ? 0.0 : 1.0;
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}
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}
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G.addEdge(node1, node2, std::move(costs));
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return true;
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}
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if (G.getEdgeNode1Id(edge) == node2) {
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std::swap(node1, node2);
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std::swap(vRdAllowed, vRaAllowed);
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}
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// Enforce minCost(sameParity(RaClass)) > maxCost(otherParity(RdClass))
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PBQPRAGraph::RawMatrix costs(G.getEdgeCosts(edge));
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for (unsigned i = 0, ie = vRdAllowed->size(); i != ie; ++i) {
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unsigned pRd = (*vRdAllowed)[i];
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// Get the maximum cost (excluding unallocatable reg) for same parity
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// registers
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PBQP::PBQPNum sameParityMax = std::numeric_limits<PBQP::PBQPNum>::min();
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for (unsigned j = 0, je = vRaAllowed->size(); j != je; ++j) {
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unsigned pRa = (*vRaAllowed)[j];
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if (haveSameParity(pRd, pRa))
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if (costs[i + 1][j + 1] !=
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std::numeric_limits<PBQP::PBQPNum>::infinity() &&
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costs[i + 1][j + 1] > sameParityMax)
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sameParityMax = costs[i + 1][j + 1];
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}
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// Ensure all registers with a different parity have a higher cost
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// than sameParityMax
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for (unsigned j = 0, je = vRaAllowed->size(); j != je; ++j) {
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unsigned pRa = (*vRaAllowed)[j];
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if (!haveSameParity(pRd, pRa))
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if (sameParityMax > costs[i + 1][j + 1])
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costs[i + 1][j + 1] = sameParityMax + 1.0;
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}
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}
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G.updateEdgeCosts(edge, std::move(costs));
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return true;
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}
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void A57ChainingConstraint::addInterChainConstraint(PBQPRAGraph &G, unsigned Rd,
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unsigned Ra) {
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LiveIntervals &LIs = G.getMetadata().LIS;
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// Do some Chain management
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if (Chains.count(Ra)) {
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if (Rd != Ra) {
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DEBUG(dbgs() << "Moving acc chain from " << PrintReg(Ra, TRI) << " to "
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<< PrintReg(Rd, TRI) << '\n';);
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Chains.remove(Ra);
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Chains.insert(Rd);
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}
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} else {
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DEBUG(dbgs() << "Creating new acc chain for " << PrintReg(Rd, TRI)
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<< '\n';);
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Chains.insert(Rd);
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}
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PBQPRAGraph::NodeId node1 = G.getMetadata().getNodeIdForVReg(Rd);
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const LiveInterval &ld = LIs.getInterval(Rd);
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for (auto r : Chains) {
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// Skip self
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if (r == Rd)
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continue;
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const LiveInterval &lr = LIs.getInterval(r);
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if (ld.overlaps(lr)) {
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const PBQPRAGraph::NodeMetadata::AllowedRegVector *vRdAllowed =
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&G.getNodeMetadata(node1).getAllowedRegs();
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PBQPRAGraph::NodeId node2 = G.getMetadata().getNodeIdForVReg(r);
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const PBQPRAGraph::NodeMetadata::AllowedRegVector *vRrAllowed =
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&G.getNodeMetadata(node2).getAllowedRegs();
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PBQPRAGraph::EdgeId edge = G.findEdge(node1, node2);
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assert(edge != G.invalidEdgeId() &&
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"PBQP error ! The edge should exist !");
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DEBUG(dbgs() << "Refining constraint !\n";);
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if (G.getEdgeNode1Id(edge) == node2) {
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std::swap(node1, node2);
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std::swap(vRdAllowed, vRrAllowed);
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}
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// Enforce that cost is higher with all other Chains of the same parity
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PBQP::Matrix costs(G.getEdgeCosts(edge));
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for (unsigned i = 0, ie = vRdAllowed->size(); i != ie; ++i) {
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unsigned pRd = (*vRdAllowed)[i];
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// Get the maximum cost (excluding unallocatable reg) for all other
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// parity registers
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PBQP::PBQPNum sameParityMax = std::numeric_limits<PBQP::PBQPNum>::min();
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for (unsigned j = 0, je = vRrAllowed->size(); j != je; ++j) {
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unsigned pRa = (*vRrAllowed)[j];
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if (!haveSameParity(pRd, pRa))
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if (costs[i + 1][j + 1] !=
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std::numeric_limits<PBQP::PBQPNum>::infinity() &&
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costs[i + 1][j + 1] > sameParityMax)
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sameParityMax = costs[i + 1][j + 1];
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}
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// Ensure all registers with same parity have a higher cost
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// than sameParityMax
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for (unsigned j = 0, je = vRrAllowed->size(); j != je; ++j) {
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unsigned pRa = (*vRrAllowed)[j];
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if (haveSameParity(pRd, pRa))
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if (sameParityMax > costs[i + 1][j + 1])
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costs[i + 1][j + 1] = sameParityMax + 1.0;
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}
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}
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G.updateEdgeCosts(edge, std::move(costs));
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}
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}
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}
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static bool regJustKilledBefore(const LiveIntervals &LIs, unsigned reg,
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const MachineInstr &MI) {
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const LiveInterval &LI = LIs.getInterval(reg);
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SlotIndex SI = LIs.getInstructionIndex(&MI);
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return LI.expiredAt(SI);
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}
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void A57ChainingConstraint::apply(PBQPRAGraph &G) {
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const MachineFunction &MF = G.getMetadata().MF;
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LiveIntervals &LIs = G.getMetadata().LIS;
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TRI = MF.getSubtarget().getRegisterInfo();
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DEBUG(MF.dump());
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for (const auto &MBB: MF) {
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Chains.clear(); // FIXME: really needed ? Could not work at MF level ?
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for (const auto &MI: MBB) {
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// Forget Chains which have expired
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for (auto r : Chains) {
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SmallVector<unsigned, 8> toDel;
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if(regJustKilledBefore(LIs, r, MI)) {
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DEBUG(dbgs() << "Killing chain " << PrintReg(r, TRI) << " at ";
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MI.print(dbgs()););
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toDel.push_back(r);
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}
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while (!toDel.empty()) {
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Chains.remove(toDel.back());
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toDel.pop_back();
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}
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}
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switch (MI.getOpcode()) {
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case AArch64::FMSUBSrrr:
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case AArch64::FMADDSrrr:
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case AArch64::FNMSUBSrrr:
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case AArch64::FNMADDSrrr:
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case AArch64::FMSUBDrrr:
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case AArch64::FMADDDrrr:
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case AArch64::FNMSUBDrrr:
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case AArch64::FNMADDDrrr: {
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unsigned Rd = MI.getOperand(0).getReg();
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unsigned Ra = MI.getOperand(3).getReg();
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if (addIntraChainConstraint(G, Rd, Ra))
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addInterChainConstraint(G, Rd, Ra);
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break;
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}
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case AArch64::FMLAv2f32:
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case AArch64::FMLSv2f32: {
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unsigned Rd = MI.getOperand(0).getReg();
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addInterChainConstraint(G, Rd, Rd);
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break;
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}
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default:
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break;
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}
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}
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}
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}
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