//===-- MipsInstrFormats.td - Mips Instruction Formats -----*- tablegen -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Describe MIPS instructions format // // CPU INSTRUCTION FORMATS // // opcode - operation code. // rs - src reg. // rt - dst reg (on a 2 regs instr) or src reg (on a 3 reg instr). // rd - dst reg, only used on 3 regs instr. // shamt - only used on shift instructions, contains the shift amount. // funct - combined with opcode field give us an operation code. // //===----------------------------------------------------------------------===// // Format specifies the encoding used by the instruction. This is part of the // ad-hoc solution used to emit machine instruction encodings by our machine // code emitter. class Format<bits<4> val> { bits<4> Value = val; } def Pseudo : Format<0>; def FrmR : Format<1>; def FrmI : Format<2>; def FrmJ : Format<3>; def FrmFR : Format<4>; def FrmFI : Format<5>; def FrmOther : Format<6>; // Instruction w/ a custom format class MMRel; def Std2MicroMips : InstrMapping { let FilterClass = "MMRel"; // Instructions with the same BaseOpcode and isNVStore values form a row. let RowFields = ["BaseOpcode"]; // Instructions with the same predicate sense form a column. let ColFields = ["Arch"]; // The key column is the unpredicated instructions. let KeyCol = ["se"]; // Value columns are PredSense=true and PredSense=false let ValueCols = [["se"], ["micromips"]]; } class StdArch { string Arch = "se"; } // Generic Mips Format class MipsInst<dag outs, dag ins, string asmstr, list<dag> pattern, InstrItinClass itin, Format f>: Instruction { field bits<32> Inst; Format Form = f; let Namespace = "Mips"; let Size = 4; bits<6> Opcode = 0; // Top 6 bits are the 'opcode' field let Inst{31-26} = Opcode; let OutOperandList = outs; let InOperandList = ins; let AsmString = asmstr; let Pattern = pattern; let Itinerary = itin; // // Attributes specific to Mips instructions... // bits<4> FormBits = Form.Value; // TSFlags layout should be kept in sync with MipsInstrInfo.h. let TSFlags{3-0} = FormBits; let DecoderNamespace = "Mips"; field bits<32> SoftFail = 0; } // Mips32/64 Instruction Format class InstSE<dag outs, dag ins, string asmstr, list<dag> pattern, InstrItinClass itin, Format f, string opstr = ""> : MipsInst<outs, ins, asmstr, pattern, itin, f>, PredicateControl { let EncodingPredicates = [HasStdEnc]; string BaseOpcode = opstr; string Arch; } // Mips Pseudo Instructions Format class MipsPseudo<dag outs, dag ins, list<dag> pattern, InstrItinClass itin = IIPseudo> : MipsInst<outs, ins, "", pattern, itin, Pseudo> { let isCodeGenOnly = 1; let isPseudo = 1; } // Mips32/64 Pseudo Instruction Format class PseudoSE<dag outs, dag ins, list<dag> pattern, InstrItinClass itin = IIPseudo> : MipsPseudo<outs, ins, pattern, itin>, PredicateControl { let EncodingPredicates = [HasStdEnc]; } // Pseudo-instructions for alternate assembly syntax (never used by codegen). // These are aliases that require C++ handling to convert to the target // instruction, while InstAliases can be handled directly by tblgen. class MipsAsmPseudoInst<dag outs, dag ins, string asmstr>: MipsInst<outs, ins, asmstr, [], IIPseudo, Pseudo> { let isPseudo = 1; let Pattern = []; } //===----------------------------------------------------------------------===// // Format R instruction class in Mips : <|opcode|rs|rt|rd|shamt|funct|> //===----------------------------------------------------------------------===// class FR<bits<6> op, bits<6> _funct, dag outs, dag ins, string asmstr, list<dag> pattern, InstrItinClass itin>: InstSE<outs, ins, asmstr, pattern, itin, FrmR> { bits<5> rd; bits<5> rs; bits<5> rt; bits<5> shamt; bits<6> funct; let Opcode = op; let funct = _funct; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = shamt; let Inst{5-0} = funct; } //===----------------------------------------------------------------------===// // Format I instruction class in Mips : <|opcode|rs|rt|immediate|> //===----------------------------------------------------------------------===// class FI<bits<6> op, dag outs, dag ins, string asmstr, list<dag> pattern, InstrItinClass itin>: InstSE<outs, ins, asmstr, pattern, itin, FrmI> { bits<5> rt; bits<5> rs; bits<16> imm16; let Opcode = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-0} = imm16; } class BranchBase<bits<6> op, dag outs, dag ins, string asmstr, list<dag> pattern, InstrItinClass itin>: InstSE<outs, ins, asmstr, pattern, itin, FrmI> { bits<5> rs; bits<5> rt; bits<16> imm16; let Opcode = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-0} = imm16; } //===----------------------------------------------------------------------===// // Format J instruction class in Mips : <|opcode|address|> //===----------------------------------------------------------------------===// class FJ<bits<6> op> : StdArch { bits<26> target; bits<32> Inst; let Inst{31-26} = op; let Inst{25-0} = target; } //===----------------------------------------------------------------------===// // MFC instruction class in Mips : <|op|mf|rt|rd|0000000|sel|> //===----------------------------------------------------------------------===// class MFC3OP_FM<bits<6> op, bits<5> mfmt> { bits<5> rt; bits<5> rd; bits<3> sel; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = mfmt; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-3} = 0; let Inst{2-0} = sel; } class ADD_FM<bits<6> op, bits<6> funct> : StdArch { bits<5> rd; bits<5> rs; bits<5> rt; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = funct; } class ADDI_FM<bits<6> op> : StdArch { bits<5> rs; bits<5> rt; bits<16> imm16; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-0} = imm16; } class SRA_FM<bits<6> funct, bit rotate> : StdArch { bits<5> rd; bits<5> rt; bits<5> shamt; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-22} = 0; let Inst{21} = rotate; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = shamt; let Inst{5-0} = funct; } class SRLV_FM<bits<6> funct, bit rotate> : StdArch { bits<5> rd; bits<5> rt; bits<5> rs; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-7} = 0; let Inst{6} = rotate; let Inst{5-0} = funct; } class BEQ_FM<bits<6> op> : StdArch { bits<5> rs; bits<5> rt; bits<16> offset; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-0} = offset; } class BGEZ_FM<bits<6> op, bits<5> funct> : StdArch { bits<5> rs; bits<16> offset; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = funct; let Inst{15-0} = offset; } class BBIT_FM<bits<6> op> : StdArch { bits<5> rs; bits<5> p; bits<16> offset; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = p; let Inst{15-0} = offset; } class SLTI_FM<bits<6> op> : StdArch { bits<5> rt; bits<5> rs; bits<16> imm16; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-0} = imm16; } class MFLO_FM<bits<6> funct> : StdArch { bits<5> rd; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-16} = 0; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = funct; } class MTLO_FM<bits<6> funct> : StdArch { bits<5> rs; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-21} = rs; let Inst{20-6} = 0; let Inst{5-0} = funct; } class SEB_FM<bits<5> funct, bits<6> funct2> : StdArch { bits<5> rd; bits<5> rt; bits<32> Inst; let Inst{31-26} = 0x1f; let Inst{25-21} = 0; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = funct; let Inst{5-0} = funct2; } class CLO_FM<bits<6> funct> : StdArch { bits<5> rd; bits<5> rs; bits<5> rt; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = funct; let rt = rd; } class LUI_FM : StdArch { bits<5> rt; bits<16> imm16; bits<32> Inst; let Inst{31-26} = 0xf; let Inst{25-21} = 0; let Inst{20-16} = rt; let Inst{15-0} = imm16; } class JALR_FM { bits<5> rd; bits<5> rs; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-21} = rs; let Inst{20-16} = 0; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = 9; } class BGEZAL_FM<bits<5> funct> : StdArch { bits<5> rs; bits<16> offset; bits<32> Inst; let Inst{31-26} = 1; let Inst{25-21} = rs; let Inst{20-16} = funct; let Inst{15-0} = offset; } class SYNC_FM : StdArch { bits<5> stype; bits<32> Inst; let Inst{31-26} = 0; let Inst{10-6} = stype; let Inst{5-0} = 0xf; } class SYNCI_FM : StdArch { // Produced by the mem_simm16 address as reg << 16 | imm (see getMemEncoding). bits<21> addr; bits<5> rs = addr{20-16}; bits<16> offset = addr{15-0}; bits<32> Inst; let Inst{31-26} = 0b000001; let Inst{25-21} = rs; let Inst{20-16} = 0b11111; let Inst{15-0} = offset; } class MULT_FM<bits<6> op, bits<6> funct> : StdArch { bits<5> rs; bits<5> rt; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-6} = 0; let Inst{5-0} = funct; } class EXT_FM<bits<6> funct> : StdArch { bits<5> rt; bits<5> rs; bits<5> pos; bits<5> size; bits<32> Inst; let Inst{31-26} = 0x1f; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = size; let Inst{10-6} = pos; let Inst{5-0} = funct; } class RDHWR_FM : StdArch { bits<5> rt; bits<5> rd; bits<32> Inst; let Inst{31-26} = 0x1f; let Inst{25-21} = 0; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = 0x3b; } class TEQ_FM<bits<6> funct> : StdArch { bits<5> rs; bits<5> rt; bits<10> code_; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-6} = code_; let Inst{5-0} = funct; } class TEQI_FM<bits<5> funct> : StdArch { bits<5> rs; bits<16> imm16; bits<32> Inst; let Inst{31-26} = 1; let Inst{25-21} = rs; let Inst{20-16} = funct; let Inst{15-0} = imm16; } class WAIT_FM : StdArch { bits<32> Inst; let Inst{31-26} = 0x10; let Inst{25} = 1; let Inst{24-6} = 0; let Inst{5-0} = 0x20; } class EXTS_FM<bits<6> funct> : StdArch { bits<5> rt; bits<5> rs; bits<5> pos; bits<5> lenm1; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = lenm1; let Inst{10-6} = pos; let Inst{5-0} = funct; } class MTMR_FM<bits<6> funct> : StdArch { bits<5> rs; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-6} = 0; let Inst{5-0} = funct; } class POP_FM<bits<6> funct> : StdArch { bits<5> rd; bits<5> rs; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-16} = 0; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = funct; } class SEQ_FM<bits<6> funct> : StdArch { bits<5> rd; bits<5> rs; bits<5> rt; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = funct; } class SEQI_FM<bits<6> funct> : StdArch { bits<5> rs; bits<5> rt; bits<10> imm10; bits<32> Inst; let Inst{31-26} = 0x1c; let Inst{25-21} = rs; let Inst{20-16} = rt; let Inst{15-6} = imm10; let Inst{5-0} = funct; } //===----------------------------------------------------------------------===// // System calls format <op|code_|funct> //===----------------------------------------------------------------------===// class SYS_FM<bits<6> funct> : StdArch { bits<20> code_; bits<32> Inst; let Inst{31-26} = 0x0; let Inst{25-6} = code_; let Inst{5-0} = funct; } //===----------------------------------------------------------------------===// // Break instruction format <op|code_1|funct> //===----------------------------------------------------------------------===// class BRK_FM<bits<6> funct> : StdArch { bits<10> code_1; bits<10> code_2; bits<32> Inst; let Inst{31-26} = 0x0; let Inst{25-16} = code_1; let Inst{15-6} = code_2; let Inst{5-0} = funct; } //===----------------------------------------------------------------------===// // Exception return format <Cop0|1|0|funct> //===----------------------------------------------------------------------===// class ER_FM<bits<6> funct> : StdArch { bits<32> Inst; let Inst{31-26} = 0x10; let Inst{25} = 1; let Inst{24-6} = 0; let Inst{5-0} = funct; } //===----------------------------------------------------------------------===// // Enable/disable interrupt instruction format <Cop0|MFMC0|rt|12|0|sc|0|0> //===----------------------------------------------------------------------===// class EI_FM<bits<1> sc> : StdArch { bits<32> Inst; bits<5> rt; let Inst{31-26} = 0x10; let Inst{25-21} = 0xb; let Inst{20-16} = rt; let Inst{15-11} = 0xc; let Inst{10-6} = 0; let Inst{5} = sc; let Inst{4-0} = 0; } //===----------------------------------------------------------------------===// // // FLOATING POINT INSTRUCTION FORMATS // // opcode - operation code. // fs - src reg. // ft - dst reg (on a 2 regs instr) or src reg (on a 3 reg instr). // fd - dst reg, only used on 3 regs instr. // fmt - double or single precision. // funct - combined with opcode field give us an operation code. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Format FI instruction class in Mips : <|opcode|base|ft|immediate|> //===----------------------------------------------------------------------===// class FFI<bits<6> op, dag outs, dag ins, string asmstr, list<dag> pattern>: InstSE<outs, ins, asmstr, pattern, NoItinerary, FrmFI> { bits<5> ft; bits<5> base; bits<16> imm16; let Opcode = op; let Inst{25-21} = base; let Inst{20-16} = ft; let Inst{15-0} = imm16; } class ADDS_FM<bits<6> funct, bits<5> fmt> : StdArch { bits<5> fd; bits<5> fs; bits<5> ft; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = fmt; let Inst{20-16} = ft; let Inst{15-11} = fs; let Inst{10-6} = fd; let Inst{5-0} = funct; } class ABSS_FM<bits<6> funct, bits<5> fmt> : StdArch { bits<5> fd; bits<5> fs; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = fmt; let Inst{20-16} = 0; let Inst{15-11} = fs; let Inst{10-6} = fd; let Inst{5-0} = funct; } class MFC1_FM<bits<5> funct> : StdArch { bits<5> rt; bits<5> fs; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = funct; let Inst{20-16} = rt; let Inst{15-11} = fs; let Inst{10-0} = 0; } class LW_FM<bits<6> op> : StdArch { bits<5> rt; bits<21> addr; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = addr{20-16}; let Inst{20-16} = rt; let Inst{15-0} = addr{15-0}; } class MADDS_FM<bits<3> funct, bits<3> fmt> : StdArch { bits<5> fd; bits<5> fr; bits<5> fs; bits<5> ft; bits<32> Inst; let Inst{31-26} = 0x13; let Inst{25-21} = fr; let Inst{20-16} = ft; let Inst{15-11} = fs; let Inst{10-6} = fd; let Inst{5-3} = funct; let Inst{2-0} = fmt; } class LWXC1_FM<bits<6> funct> : StdArch { bits<5> fd; bits<5> base; bits<5> index; bits<32> Inst; let Inst{31-26} = 0x13; let Inst{25-21} = base; let Inst{20-16} = index; let Inst{15-11} = 0; let Inst{10-6} = fd; let Inst{5-0} = funct; } class SWXC1_FM<bits<6> funct> : StdArch { bits<5> fs; bits<5> base; bits<5> index; bits<32> Inst; let Inst{31-26} = 0x13; let Inst{25-21} = base; let Inst{20-16} = index; let Inst{15-11} = fs; let Inst{10-6} = 0; let Inst{5-0} = funct; } class BC1F_FM<bit nd, bit tf> : StdArch { bits<3> fcc; bits<16> offset; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = 0x8; let Inst{20-18} = fcc; let Inst{17} = nd; let Inst{16} = tf; let Inst{15-0} = offset; } class CEQS_FM<bits<5> fmt> : StdArch { bits<5> fs; bits<5> ft; bits<4> cond; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = fmt; let Inst{20-16} = ft; let Inst{15-11} = fs; let Inst{10-8} = 0; // cc let Inst{7-4} = 0x3; let Inst{3-0} = cond; } class C_COND_FM<bits<5> fmt, bits<4> c> : CEQS_FM<fmt> { let cond = c; } class CMov_I_F_FM<bits<6> funct, bits<5> fmt> : StdArch { bits<5> fd; bits<5> fs; bits<5> rt; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = fmt; let Inst{20-16} = rt; let Inst{15-11} = fs; let Inst{10-6} = fd; let Inst{5-0} = funct; } class CMov_F_I_FM<bit tf> : StdArch { bits<5> rd; bits<5> rs; bits<3> fcc; bits<32> Inst; let Inst{31-26} = 0; let Inst{25-21} = rs; let Inst{20-18} = fcc; let Inst{17} = 0; let Inst{16} = tf; let Inst{15-11} = rd; let Inst{10-6} = 0; let Inst{5-0} = 1; } class CMov_F_F_FM<bits<5> fmt, bit tf> : StdArch { bits<5> fd; bits<5> fs; bits<3> fcc; bits<32> Inst; let Inst{31-26} = 0x11; let Inst{25-21} = fmt; let Inst{20-18} = fcc; let Inst{17} = 0; let Inst{16} = tf; let Inst{15-11} = fs; let Inst{10-6} = fd; let Inst{5-0} = 0x11; } class BARRIER_FM<bits<5> op> : StdArch { bits<32> Inst; let Inst{31-26} = 0; // SPECIAL let Inst{25-21} = 0; let Inst{20-16} = 0; // rt = 0 let Inst{15-11} = 0; // rd = 0 let Inst{10-6} = op; // Operation let Inst{5-0} = 0; // SLL } class SDBBP_FM : StdArch { bits<20> code_; bits<32> Inst; let Inst{31-26} = 0b011100; // SPECIAL2 let Inst{25-6} = code_; let Inst{5-0} = 0b111111; // SDBBP } class JR_HB_FM<bits<6> op> : StdArch{ bits<5> rs; bits<32> Inst; let Inst{31-26} = 0; // SPECIAL let Inst{25-21} = rs; let Inst{20-11} = 0; let Inst{10} = 1; let Inst{9-6} = 0; let Inst{5-0} = op; } class JALR_HB_FM<bits<6> op> : StdArch { bits<5> rd; bits<5> rs; bits<32> Inst; let Inst{31-26} = 0; // SPECIAL let Inst{25-21} = rs; let Inst{20-16} = 0; let Inst{15-11} = rd; let Inst{10} = 1; let Inst{9-6} = 0; let Inst{5-0} = op; } class COP0_TLB_FM<bits<6> op> : StdArch { bits<32> Inst; let Inst{31-26} = 0x10; // COP0 let Inst{25} = 1; // CO let Inst{24-6} = 0; let Inst{5-0} = op; // Operation } class CACHEOP_FM<bits<6> op> : StdArch { bits<21> addr; bits<5> hint; bits<5> base = addr{20-16}; bits<16> offset = addr{15-0}; bits<32> Inst; let Inst{31-26} = op; let Inst{25-21} = base; let Inst{20-16} = hint; let Inst{15-0} = offset; }