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llvm-mirror/lib/Target/RISCV/RISCVInstrFormats.td
Alex Bradbury d56655b31e [RISCV] AsmParser support for the li pseudo instruction 
The implementation follows the MIPS backend and expands the pseudo instruction 
directly during asm parsing. As the result, only real MC instructions are 
emitted to the MCStreamer. The actual expansion to real instructions is 
similar to the expansion performed by the GNU Assembler.

This patch supersedes D41949.

Differential Revision: https://reviews.llvm.org/D46118
Patch by Mario Werner.

llvm-svn: 334203
2018-06-07 15:35:47 +00:00

286 lines
8.8 KiB
TableGen
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//===-- RISCVInstrFormats.td - RISCV Instruction Formats ---*- tablegen -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
//
// These instruction format definitions are structured to match the
// description in the RISC-V User-Level ISA specification as closely as
// possible. For instance, the specification describes instructions with the
// MSB (31st bit) on the left and the LSB (0th bit) on the right. This is
// reflected in the order of parameters to each instruction class.
//
// One area of divergence is in the description of immediates. The
// specification describes immediate encoding in terms of bit-slicing
// operations on the logical value represented. The immediate argument to
// these instruction formats instead represents the bit sequence that will be
// inserted into the instruction. e.g. although JAL's immediate is logically
// a 21-bit value (where the LSB is always zero), we describe it as an imm20
// to match how it is encoded.
//
//===----------------------------------------------------------------------===//
// Format specifies the encoding used by the instruction. This is used by
// RISCVMCCodeEmitter to determine which form of fixup to use. These
// definitions must be kept in-sync with RISCVBaseInfo.h.
class InstFormat<bits<5> val> {
bits<5> Value = val;
}
def InstFormatPseudo : InstFormat<0>;
def InstFormatR : InstFormat<1>;
def InstFormatR4 : InstFormat<2>;
def InstFormatI : InstFormat<3>;
def InstFormatS : InstFormat<4>;
def InstFormatB : InstFormat<5>;
def InstFormatU : InstFormat<6>;
def InstFormatJ : InstFormat<7>;
def InstFormatCR : InstFormat<8>;
def InstFormatCI : InstFormat<9>;
def InstFormatCSS : InstFormat<10>;
def InstFormatCIW : InstFormat<11>;
def InstFormatCL : InstFormat<12>;
def InstFormatCS : InstFormat<13>;
def InstFormatCB : InstFormat<14>;
def InstFormatCJ : InstFormat<15>;
def InstFormatOther : InstFormat<16>;
// The following opcode names and match those given in Table 19.1 in the
// RISC-V User-level ISA specification ("RISC-V base opcode map").
class RISCVOpcode<bits<7> val> {
bits<7> Value = val;
}
def OPC_LOAD : RISCVOpcode<0b0000011>;
def OPC_LOAD_FP : RISCVOpcode<0b0000111>;
def OPC_MISC_MEM : RISCVOpcode<0b0001111>;
def OPC_OP_IMM : RISCVOpcode<0b0010011>;
def OPC_AUIPC : RISCVOpcode<0b0010111>;
def OPC_OP_IMM_32 : RISCVOpcode<0b0011011>;
def OPC_STORE : RISCVOpcode<0b0100011>;
def OPC_STORE_FP : RISCVOpcode<0b0100111>;
def OPC_AMO : RISCVOpcode<0b0101111>;
def OPC_OP : RISCVOpcode<0b0110011>;
def OPC_LUI : RISCVOpcode<0b0110111>;
def OPC_OP_32 : RISCVOpcode<0b0111011>;
def OPC_MADD : RISCVOpcode<0b1000011>;
def OPC_MSUB : RISCVOpcode<0b1000111>;
def OPC_NMSUB : RISCVOpcode<0b1001011>;
def OPC_NMADD : RISCVOpcode<0b1001111>;
def OPC_OP_FP : RISCVOpcode<0b1010011>;
def OPC_BRANCH : RISCVOpcode<0b1100011>;
def OPC_JALR : RISCVOpcode<0b1100111>;
def OPC_JAL : RISCVOpcode<0b1101111>;
def OPC_SYSTEM : RISCVOpcode<0b1110011>;
class RVInst<dag outs, dag ins, string opcodestr, string argstr,
list<dag> pattern, InstFormat format>
: Instruction {
field bits<32> Inst;
// SoftFail is a field the disassembler can use to provide a way for
// instructions to not match without killing the whole decode process. It is
// mainly used for ARM, but Tablegen expects this field to exist or it fails
// to build the decode table.
field bits<32> SoftFail = 0;
let Size = 4;
bits<7> Opcode = 0;
let Inst{6-0} = Opcode;
let Namespace = "RISCV";
dag OutOperandList = outs;
dag InOperandList = ins;
let AsmString = opcodestr # "\t" # argstr;
let Pattern = pattern;
let TSFlags{4-0} = format.Value;
}
// Pseudo instructions
class Pseudo<dag outs, dag ins, list<dag> pattern, string opcodestr = "", string argstr = "">
: RVInst<outs, ins, opcodestr, argstr, pattern, InstFormatPseudo> {
let isPseudo = 1;
let isCodeGenOnly = 1;
}
// Instruction formats are listed in the order they appear in the RISC-V
// instruction set manual (R, I, S, B, U, J) with sub-formats (e.g. RVInstR4,
// RVInstRAtomic) sorted alphabetically.
class RVInstR<bits<7> funct7, bits<3> funct3, RISCVOpcode opcode, dag outs,
dag ins, string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatR> {
bits<5> rs2;
bits<5> rs1;
bits<5> rd;
let Inst{31-25} = funct7;
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstR4<bits<2> funct2, RISCVOpcode opcode, dag outs, dag ins,
string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatR4> {
bits<5> rs3;
bits<5> rs2;
bits<5> rs1;
bits<3> funct3;
bits<5> rd;
let Inst{31-27} = rs3;
let Inst{26-25} = funct2;
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstRAtomic<bits<5> funct5, bit aq, bit rl, bits<3> funct3,
RISCVOpcode opcode, dag outs, dag ins, string opcodestr,
string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatR> {
bits<5> rs2;
bits<5> rs1;
bits<5> rd;
let Inst{31-27} = funct5;
let Inst{26} = aq;
let Inst{25} = rl;
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstRFrm<bits<7> funct7, RISCVOpcode opcode, dag outs, dag ins,
string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatR> {
bits<5> rs2;
bits<5> rs1;
bits<3> funct3;
bits<5> rd;
let Inst{31-25} = funct7;
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstI<bits<3> funct3, RISCVOpcode opcode, dag outs, dag ins,
string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatI> {
bits<12> imm12;
bits<5> rs1;
bits<5> rd;
let Inst{31-20} = imm12;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstIShift<bit arithshift, bits<3> funct3, RISCVOpcode opcode,
dag outs, dag ins, string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatI> {
bits<6> shamt;
bits<5> rs1;
bits<5> rd;
let Inst{31} = 0;
let Inst{30} = arithshift;
let Inst{29-26} = 0;
let Inst{25-20} = shamt;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstIShiftW<bit arithshift, bits<3> funct3, RISCVOpcode opcode,
dag outs, dag ins, string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatI> {
bits<5> shamt;
bits<5> rs1;
bits<5> rd;
let Inst{31} = 0;
let Inst{30} = arithshift;
let Inst{29-25} = 0;
let Inst{24-20} = shamt;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstS<bits<3> funct3, RISCVOpcode opcode, dag outs, dag ins,
string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatS> {
bits<12> imm12;
bits<5> rs2;
bits<5> rs1;
let Inst{31-25} = imm12{11-5};
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-7} = imm12{4-0};
let Opcode = opcode.Value;
}
class RVInstB<bits<3> funct3, RISCVOpcode opcode, dag outs, dag ins,
string opcodestr, string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatB> {
bits<12> imm12;
bits<5> rs2;
bits<5> rs1;
let Inst{31} = imm12{11};
let Inst{30-25} = imm12{9-4};
let Inst{24-20} = rs2;
let Inst{19-15} = rs1;
let Inst{14-12} = funct3;
let Inst{11-8} = imm12{3-0};
let Inst{7} = imm12{10};
let Opcode = opcode.Value;
}
class RVInstU<RISCVOpcode opcode, dag outs, dag ins, string opcodestr,
string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatU> {
bits<20> imm20;
bits<5> rd;
let Inst{31-12} = imm20;
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
class RVInstJ<RISCVOpcode opcode, dag outs, dag ins, string opcodestr,
string argstr>
: RVInst<outs, ins, opcodestr, argstr, [], InstFormatJ> {
bits<20> imm20;
bits<5> rd;
let Inst{31} = imm20{19};
let Inst{30-21} = imm20{9-0};
let Inst{20} = imm20{10};
let Inst{19-12} = imm20{18-11};
let Inst{11-7} = rd;
let Opcode = opcode.Value;
}
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