//===- MipsAnalyzeImmediate.cpp - Analyze Immediates ----------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "MipsAnalyzeImmediate.h" #include "Mips.h" #include "llvm/Support/MathExtras.h" #include <cassert> #include <cstdint> #include <iterator> using namespace llvm; MipsAnalyzeImmediate::Inst::Inst(unsigned O, unsigned I) : Opc(O), ImmOpnd(I) {} // Add I to the instruction sequences. void MipsAnalyzeImmediate::AddInstr(InstSeqLs &SeqLs, const Inst &I) { // Add an instruction seqeunce consisting of just I. if (SeqLs.empty()) { SeqLs.push_back(InstSeq(1, I)); return; } for (InstSeqLs::iterator Iter = SeqLs.begin(); Iter != SeqLs.end(); ++Iter) Iter->push_back(I); } void MipsAnalyzeImmediate::GetInstSeqLsADDiu(uint64_t Imm, unsigned RemSize, InstSeqLs &SeqLs) { GetInstSeqLs((Imm + 0x8000ULL) & 0xffffffffffff0000ULL, RemSize, SeqLs); AddInstr(SeqLs, Inst(ADDiu, Imm & 0xffffULL)); } void MipsAnalyzeImmediate::GetInstSeqLsORi(uint64_t Imm, unsigned RemSize, InstSeqLs &SeqLs) { GetInstSeqLs(Imm & 0xffffffffffff0000ULL, RemSize, SeqLs); AddInstr(SeqLs, Inst(ORi, Imm & 0xffffULL)); } void MipsAnalyzeImmediate::GetInstSeqLsSLL(uint64_t Imm, unsigned RemSize, InstSeqLs &SeqLs) { unsigned Shamt = countTrailingZeros(Imm); GetInstSeqLs(Imm >> Shamt, RemSize - Shamt, SeqLs); AddInstr(SeqLs, Inst(SLL, Shamt)); } void MipsAnalyzeImmediate::GetInstSeqLs(uint64_t Imm, unsigned RemSize, InstSeqLs &SeqLs) { uint64_t MaskedImm = Imm & (0xffffffffffffffffULL >> (64 - Size)); // Do nothing if Imm is 0. if (!MaskedImm) return; // A single ADDiu will do if RemSize <= 16. if (RemSize <= 16) { AddInstr(SeqLs, Inst(ADDiu, MaskedImm)); return; } // Shift if the lower 16-bit is cleared. if (!(Imm & 0xffff)) { GetInstSeqLsSLL(Imm, RemSize, SeqLs); return; } GetInstSeqLsADDiu(Imm, RemSize, SeqLs); // If bit 15 is cleared, it doesn't make a difference whether the last // instruction is an ADDiu or ORi. In that case, do not call GetInstSeqLsORi. if (Imm & 0x8000) { InstSeqLs SeqLsORi; GetInstSeqLsORi(Imm, RemSize, SeqLsORi); SeqLs.append(std::make_move_iterator(SeqLsORi.begin()), std::make_move_iterator(SeqLsORi.end())); } } // Replace a ADDiu & SLL pair with a LUi. // e.g. the following two instructions // ADDiu 0x0111 // SLL 18 // are replaced with // LUi 0x444 void MipsAnalyzeImmediate::ReplaceADDiuSLLWithLUi(InstSeq &Seq) { // Check if the first two instructions are ADDiu and SLL and the shift amount // is at least 16. if ((Seq.size() < 2) || (Seq[0].Opc != ADDiu) || (Seq[1].Opc != SLL) || (Seq[1].ImmOpnd < 16)) return; // Sign-extend and shift operand of ADDiu and see if it still fits in 16-bit. int64_t Imm = SignExtend64<16>(Seq[0].ImmOpnd); int64_t ShiftedImm = (uint64_t)Imm << (Seq[1].ImmOpnd - 16); if (!isInt<16>(ShiftedImm)) return; // Replace the first instruction and erase the second. Seq[0].Opc = LUi; Seq[0].ImmOpnd = (unsigned)(ShiftedImm & 0xffff); Seq.erase(Seq.begin() + 1); } void MipsAnalyzeImmediate::GetShortestSeq(InstSeqLs &SeqLs, InstSeq &Insts) { InstSeqLs::iterator ShortestSeq = SeqLs.end(); // The length of an instruction sequence is at most 7. unsigned ShortestLength = 8; for (InstSeqLs::iterator S = SeqLs.begin(); S != SeqLs.end(); ++S) { ReplaceADDiuSLLWithLUi(*S); assert(S->size() <= 7); if (S->size() < ShortestLength) { ShortestSeq = S; ShortestLength = S->size(); } } Insts.clear(); Insts.append(ShortestSeq->begin(), ShortestSeq->end()); } const MipsAnalyzeImmediate::InstSeq &MipsAnalyzeImmediate::Analyze(uint64_t Imm, unsigned Size, bool LastInstrIsADDiu) { this->Size = Size; if (Size == 32) { ADDiu = Mips::ADDiu; ORi = Mips::ORi; SLL = Mips::SLL; LUi = Mips::LUi; } else { ADDiu = Mips::DADDiu; ORi = Mips::ORi64; SLL = Mips::DSLL; LUi = Mips::LUi64; } InstSeqLs SeqLs; // Get the list of instruction sequences. if (LastInstrIsADDiu | !Imm) GetInstSeqLsADDiu(Imm, Size, SeqLs); else GetInstSeqLs(Imm, Size, SeqLs); // Set Insts to the shortest instruction sequence. GetShortestSeq(SeqLs, Insts); return Insts; }