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llvm-6502/lib/Target/PowerPC/PPCHazardRecognizers.cpp
Bill Wendling 80ada583f3 Don't cache the instruction and register info from the TargetMachine, because 
the internals of TargetMachine could change.

No functionality change intended.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@183494 91177308-0d34-0410-b5e6-96231b3b80d8
2013-06-07 07:55:53 +00:00

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//===-- PPCHazardRecognizers.cpp - PowerPC Hazard Recognizer Impls --------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements hazard recognizers for scheduling on PowerPC processors.
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "pre-RA-sched"
#include "PPCHazardRecognizers.h"
#include "PPC.h"
#include "PPCInstrInfo.h"
#include "llvm/CodeGen/ScheduleDAG.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
//===----------------------------------------------------------------------===//
// PowerPC Scoreboard Hazard Recognizer
void PPCScoreboardHazardRecognizer::EmitInstruction(SUnit *SU) {
const MCInstrDesc *MCID = DAG->getInstrDesc(SU);
if (!MCID)
// This is a PPC pseudo-instruction.
return;
ScoreboardHazardRecognizer::EmitInstruction(SU);
}
ScheduleHazardRecognizer::HazardType
PPCScoreboardHazardRecognizer::getHazardType(SUnit *SU, int Stalls) {
return ScoreboardHazardRecognizer::getHazardType(SU, Stalls);
}
void PPCScoreboardHazardRecognizer::AdvanceCycle() {
ScoreboardHazardRecognizer::AdvanceCycle();
}
void PPCScoreboardHazardRecognizer::Reset() {
ScoreboardHazardRecognizer::Reset();
}
//===----------------------------------------------------------------------===//
// PowerPC 970 Hazard Recognizer
//
// This models the dispatch group formation of the PPC970 processor. Dispatch
// groups are bundles of up to five instructions that can contain various mixes
// of instructions. The PPC970 can dispatch a peak of 4 non-branch and one
// branch instruction per-cycle.
//
// There are a number of restrictions to dispatch group formation: some
// instructions can only be issued in the first slot of a dispatch group, & some
// instructions fill an entire dispatch group. Additionally, only branches can
// issue in the 5th (last) slot.
//
// Finally, there are a number of "structural" hazards on the PPC970. These
// conditions cause large performance penalties due to misprediction, recovery,
// and replay logic that has to happen. These cases include setting a CTR and
// branching through it in the same dispatch group, and storing to an address,
// then loading from the same address within a dispatch group. To avoid these
// conditions, we insert no-op instructions when appropriate.
//
// FIXME: This is missing some significant cases:
// 1. Modeling of microcoded instructions.
// 2. Handling of serialized operations.
// 3. Handling of the esoteric cases in "Resource-based Instruction Grouping".
//
PPCHazardRecognizer970::PPCHazardRecognizer970(const TargetMachine &TM)
: TM(TM) {
EndDispatchGroup();
}
void PPCHazardRecognizer970::EndDispatchGroup() {
DEBUG(errs() << "=== Start of dispatch group\n");
NumIssued = 0;
// Structural hazard info.
HasCTRSet = false;
NumStores = 0;
}
PPCII::PPC970_Unit
PPCHazardRecognizer970::GetInstrType(unsigned Opcode,
bool &isFirst, bool &isSingle,
bool &isCracked,
bool &isLoad, bool &isStore) {
const MCInstrDesc &MCID = TM.getInstrInfo()->get(Opcode);
isLoad = MCID.mayLoad();
isStore = MCID.mayStore();
uint64_t TSFlags = MCID.TSFlags;
isFirst = TSFlags & PPCII::PPC970_First;
isSingle = TSFlags & PPCII::PPC970_Single;
isCracked = TSFlags & PPCII::PPC970_Cracked;
return (PPCII::PPC970_Unit)(TSFlags & PPCII::PPC970_Mask);
}
/// isLoadOfStoredAddress - If we have a load from the previously stored pointer
/// as indicated by StorePtr1/StorePtr2/StoreSize, return true.
bool PPCHazardRecognizer970::
isLoadOfStoredAddress(uint64_t LoadSize, int64_t LoadOffset,
const Value *LoadValue) const {
for (unsigned i = 0, e = NumStores; i != e; ++i) {
// Handle exact and commuted addresses.
if (LoadValue == StoreValue[i] && LoadOffset == StoreOffset[i])
return true;
// Okay, we don't have an exact match, if this is an indexed offset, see if
// we have overlap (which happens during fp->int conversion for example).
if (StoreValue[i] == LoadValue) {
// Okay the base pointers match, so we have [c1+r] vs [c2+r]. Check
// to see if the load and store actually overlap.
if (StoreOffset[i] < LoadOffset) {
if (int64_t(StoreOffset[i]+StoreSize[i]) > LoadOffset) return true;
} else {
if (int64_t(LoadOffset+LoadSize) > StoreOffset[i]) return true;
}
}
}
return false;
}
/// getHazardType - We return hazard for any non-branch instruction that would
/// terminate the dispatch group. We turn NoopHazard for any
/// instructions that wouldn't terminate the dispatch group that would cause a
/// pipeline flush.
ScheduleHazardRecognizer::HazardType PPCHazardRecognizer970::
getHazardType(SUnit *SU, int Stalls) {
assert(Stalls == 0 && "PPC hazards don't support scoreboard lookahead");
MachineInstr *MI = SU->getInstr();
if (MI->isDebugValue())
return NoHazard;
unsigned Opcode = MI->getOpcode();
bool isFirst, isSingle, isCracked, isLoad, isStore;
PPCII::PPC970_Unit InstrType =
GetInstrType(Opcode, isFirst, isSingle, isCracked,
isLoad, isStore);
if (InstrType == PPCII::PPC970_Pseudo) return NoHazard;
// We can only issue a PPC970_First/PPC970_Single instruction (such as
// crand/mtspr/etc) if this is the first cycle of the dispatch group.
if (NumIssued != 0 && (isFirst || isSingle))
return Hazard;
// If this instruction is cracked into two ops by the decoder, we know that
// it is not a branch and that it cannot issue if 3 other instructions are
// already in the dispatch group.
if (isCracked && NumIssued > 2)
return Hazard;
switch (InstrType) {
default: llvm_unreachable("Unknown instruction type!");
case PPCII::PPC970_FXU:
case PPCII::PPC970_LSU:
case PPCII::PPC970_FPU:
case PPCII::PPC970_VALU:
case PPCII::PPC970_VPERM:
// We can only issue a branch as the last instruction in a group.
if (NumIssued == 4) return Hazard;
break;
case PPCII::PPC970_CRU:
// We can only issue a CR instruction in the first two slots.
if (NumIssued >= 2) return Hazard;
break;
case PPCII::PPC970_BRU:
break;
}
// Do not allow MTCTR and BCTRL to be in the same dispatch group.
if (HasCTRSet && Opcode == PPC::BCTRL)
return NoopHazard;
// If this is a load following a store, make sure it's not to the same or
// overlapping address.
if (isLoad && NumStores && !MI->memoperands_empty()) {
MachineMemOperand *MO = *MI->memoperands_begin();
if (isLoadOfStoredAddress(MO->getSize(),
MO->getOffset(), MO->getValue()))
return NoopHazard;
}
return NoHazard;
}
void PPCHazardRecognizer970::EmitInstruction(SUnit *SU) {
MachineInstr *MI = SU->getInstr();
if (MI->isDebugValue())
return;
unsigned Opcode = MI->getOpcode();
bool isFirst, isSingle, isCracked, isLoad, isStore;
PPCII::PPC970_Unit InstrType =
GetInstrType(Opcode, isFirst, isSingle, isCracked,
isLoad, isStore);
if (InstrType == PPCII::PPC970_Pseudo) return;
// Update structural hazard information.
if (Opcode == PPC::MTCTR || Opcode == PPC::MTCTR8) HasCTRSet = true;
// Track the address stored to.
if (isStore && NumStores < 4 && !MI->memoperands_empty()) {
MachineMemOperand *MO = *MI->memoperands_begin();
StoreSize[NumStores] = MO->getSize();
StoreOffset[NumStores] = MO->getOffset();
StoreValue[NumStores] = MO->getValue();
++NumStores;
}
if (InstrType == PPCII::PPC970_BRU || isSingle)
NumIssued = 4; // Terminate a d-group.
++NumIssued;
// If this instruction is cracked into two ops by the decoder, remember that
// we issued two pieces.
if (isCracked)
++NumIssued;
if (NumIssued == 5)
EndDispatchGroup();
}
void PPCHazardRecognizer970::AdvanceCycle() {
assert(NumIssued < 5 && "Illegal dispatch group!");
++NumIssued;
if (NumIssued == 5)
EndDispatchGroup();
}
void PPCHazardRecognizer970::Reset() {
EndDispatchGroup();
}
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