1 //===-- PPCHazardRecognizers.cpp - PowerPC Hazard Recognizer Impls --------===//
3 // The LLVM Compiler Infrastructure
5 // This file was developed by Chris Lattner and is distributed under
6 // the University of Illinois Open Source License. See LICENSE.TXT for details.
8 //===----------------------------------------------------------------------===//
10 // This file implements hazard recognizers for scheduling on PowerPC processors.
12 //===----------------------------------------------------------------------===//
14 #define DEBUG_TYPE "sched"
15 #include "PPCHazardRecognizers.h"
17 #include "llvm/Support/Debug.h"
22 //===----------------------------------------------------------------------===//
23 // PowerPC 970 Hazard Recognizer
25 // This models the dispatch group formation of the PPC970 processor. Dispatch
26 // groups are bundles of up to five instructions that can contain up to two ALU
27 // (aka FXU) ops, two FPU ops, two Load/Store ops, one CR op, one VALU op, one
28 // VPERM op, and one BRANCH op. If the code contains more instructions in a
29 // sequence than the dispatch group can contain (e.g. three loads in a row) the
30 // processor terminates the dispatch group early, wasting execution resources.
32 // In addition to these restrictions, there are a number of other restrictions:
33 // some instructions, e.g. branches, are required to be the last instruction in
34 // a group. Additionally, only branches can issue in the 5th (last) slot.
36 // Finally, there are a number of "structural" hazards on the PPC970. These
37 // conditions cause large performance penalties due to misprediction, recovery,
38 // and replay logic that has to happen. These cases include setting a CTR and
39 // branching through it in the same dispatch group, and storing to an address,
40 // then loading from the same address within a dispatch group. To avoid these
41 // conditions, we insert no-op instructions when appropriate.
43 // FIXME: This is missing some significant cases:
44 // -1. Handle all of the instruction types in GetInstrType.
45 // 0. Handling of instructions that must be the first/last in a group.
46 // 1. Modeling of microcoded instructions.
47 // 2. Handling of cracked instructions.
48 // 3. Handling of serialized operations.
49 // 4. Handling of the esoteric cases in "Resource-based Instruction Grouping",
50 // e.g. integer divides that only execute in the second slot.
53 PPCHazardRecognizer970::PPCHazardRecognizer970() {
57 void PPCHazardRecognizer970::EndDispatchGroup() {
58 DEBUG(std::cerr << "=== Start of dispatch group\n");
60 NumFXU = NumLSU = NumFPU = 0;
61 HasCR = HasSPR = HasVALU = HasVPERM = false;
64 // Structural hazard info.
66 StorePtr1 = StorePtr2 = SDOperand();
71 PPCHazardRecognizer970::PPC970InstrType
72 PPCHazardRecognizer970::GetInstrType(unsigned Opcode) {
73 if (Opcode < ISD::BUILTIN_OP_END)
75 Opcode -= ISD::BUILTIN_OP_END;
78 case PPC::FMRSD: return PseudoInst; // Usually coallesced away.
125 /// isLoadOfStoredAddress - If we have a load from the previously stored pointer
126 /// as indicated by StorePtr1/StorePtr2/StoreSize, return true.
127 bool PPCHazardRecognizer970::
128 isLoadOfStoredAddress(unsigned LoadSize, SDOperand Ptr1, SDOperand Ptr2) const {
129 // Handle exact and commuted addresses.
130 if (Ptr1 == StorePtr1 && Ptr2 == StorePtr2)
132 if (Ptr2 == StorePtr1 && Ptr1 == StorePtr2)
135 // Okay, we don't have an exact match, if this is an indexed offset, see if we
136 // have overlap (which happens during fp->int conversion for example).
137 if (StorePtr2 == Ptr2) {
138 if (ConstantSDNode *StoreOffset = dyn_cast<ConstantSDNode>(StorePtr1))
139 if (ConstantSDNode *LoadOffset = dyn_cast<ConstantSDNode>(Ptr1)) {
140 // Okay the base pointers match, so we have [c1+r] vs [c2+r]. Check to
141 // see if the load and store actually overlap.
142 int StoreOffs = StoreOffset->getValue();
143 int LoadOffs = LoadOffset->getValue();
144 if (StoreOffs < LoadOffs) {
145 if (int(StoreOffs+StoreSize) > LoadOffs) return true;
147 if (int(LoadOffs+LoadSize) > StoreOffs) return true;
154 /// getHazardType - We return hazard for any non-branch instruction that would
155 /// terminate terminate the dispatch group. We turn NoopHazard for any
156 /// instructions that wouldn't terminate the dispatch group that would cause a
158 HazardRecognizer::HazardType PPCHazardRecognizer970::
159 getHazardType(SDNode *Node) {
160 PPC970InstrType InstrType = GetInstrType(Node->getOpcode());
161 if (InstrType == PseudoInst) return NoHazard;
162 unsigned Opcode = Node->getOpcode()-ISD::BUILTIN_OP_END;
165 default: assert(0 && "Unknown instruction type!");
167 case FXU_FIRST: if (NumFXU == 2) return Hazard;
169 case LSU_LD: if (NumLSU == 2) return Hazard;
170 case FPU: if (NumFPU == 2) return Hazard;
171 case CR: if (HasCR) return Hazard;
172 case SPR: if (HasSPR) return Hazard;
173 case VALU: if (HasVALU) return Hazard;
174 case VPERM: if (HasVPERM) return Hazard;
178 // We can only issue a CR or SPR instruction, or an FXU instruction that needs
179 // to lead a dispatch group as the first instruction in the group.
180 if (NumIssued != 0 &&
181 (InstrType == CR || InstrType == SPR || InstrType == FXU_FIRST))
184 // We can only issue a branch as the last instruction in a group.
185 if (NumIssued == 4 && InstrType != BR)
188 // Do not allow MTCTR and BCTRL to be in the same dispatch group.
189 if (HasCTRSet && Opcode == PPC::BCTRL)
192 // If this is a load following a store, make sure it's not to the same or
193 // overlapping address.
194 if (InstrType == LSU_LD && StoreSize) {
197 default: assert(0 && "Unknown load!");
198 case PPC::LBZ: LoadSize = 1; break;
200 case PPC::LHZ: LoadSize = 2; break;
205 case PPC::LWZ: LoadSize = 4; break;
206 case PPC::LFD: LoadSize = 8; break;
209 if (isLoadOfStoredAddress(LoadSize,
210 Node->getOperand(0), Node->getOperand(1)))
217 void PPCHazardRecognizer970::EmitInstruction(SDNode *Node) {
218 PPC970InstrType InstrType = GetInstrType(Node->getOpcode());
219 if (InstrType == PseudoInst) return;
220 unsigned Opcode = Node->getOpcode()-ISD::BUILTIN_OP_END;
222 // Update structural hazard information.
223 if (Opcode == PPC::MTCTR) HasCTRSet = true;
225 // Track the address stored to.
226 if (InstrType == LSU_ST) {
227 StorePtr1 = Node->getOperand(1);
228 StorePtr2 = Node->getOperand(2);
230 default: assert(0 && "Unknown store instruction!");
231 case PPC::STB: StoreSize = 1; break;
232 case PPC::STH: StoreSize = 2; break;
235 case PPC::STW: StoreSize = 4; break;
236 case PPC::STFD: StoreSize = 8; break;
241 default: assert(0 && "Unknown instruction type!");
243 case FXU_FIRST: ++NumFXU; break;
245 case LSU_ST: ++NumLSU; break;
246 case FPU: ++NumFPU; break;
247 case CR: HasCR = true; break;
248 case SPR: HasSPR = true; break;
249 case VALU: HasVALU = true; break;
250 case VPERM: HasVPERM = true; break;
251 case BR: NumIssued = 4; return; // ends a d-group.
259 void PPCHazardRecognizer970::AdvanceCycle() {
260 assert(NumIssued < 5 && "Illegal dispatch group!");
266 void PPCHazardRecognizer970::EmitNoop() {