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swiftshader / SwiftShader / 9c9608fa94a9209f2635c1d821c3652c3fd2a5e8 / . / third_party / llvm-16.0 / llvm / lib / Target / CSKY / CSKYInstrFormatsF1.td
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//===- CSKYInstrFormatsF1.td - CSKY Float1.0 Instr Format --*- tablegen -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// CSKY Instruction Format Float1.0 Definitions.
//
//===----------------------------------------------------------------------===//
class CSKYFP1Inst<dag outs, dag ins, string asmstr, list<dag> pattern>
: CSKY32Inst<AddrModeNone, 0x3d, outs, ins, asmstr, pattern>, Requires<[HasFPUv2_SF]> {
}
class F_XYZ_BASE<bits<5> datatype, bits<6> sop, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKYFP1Inst<outs, ins, opcodestr, pattern> {
bits<4> vrx;
bits<4> vry;
bits<4> vrz;
let Inst{25 - 21} = {0, vry};
let Inst{20 - 16} = {0, vrx};
let Inst{15 - 11} = datatype;
let Inst{10 - 5} = sop;
let Inst{4 - 0} = {0, vrz};
}
class F_XZ_GF<bits<5> datatype, bits<6> sop, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKYFP1Inst<outs, ins, opcodestr, pattern> {
bits<4> vrx;
bits<5> rz;
let Inst{25 - 21} = 0;
let Inst{20 - 16} = {0, vrx};
let Inst{15 - 11} = datatype;
let Inst{10 - 5} = sop;
let Inst{4 - 0} = {rz};
}
class F_XZ_FG<bits<5> datatype, bits<6> sop, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKYFP1Inst<outs, ins, opcodestr, pattern> {
bits<5> rx;
bits<4> vrz;
let Inst{25 - 21} = 0;
let Inst{20 - 16} = {rx};
let Inst{15 - 11} = datatype;
let Inst{10 - 5} = sop;
let Inst{4 - 0} = {0, vrz};
}
class F_XZ_TRANS_FROM<bits<6> sop, string op, RegisterOperand regtype1, RegisterOperand regtype2>
: F_XZ_GF<3, sop, (outs regtype1:$rz), (ins regtype2:$vrx), !strconcat(op, "\t$rz, $vrx"),
[]>;
class F_XZ_TRANS_TO<bits<6> sop, string op, RegisterOperand regtype1, RegisterOperand regtype2>
: F_XZ_FG<3, sop, (outs regtype1:$vrz), (ins regtype2:$rx), !strconcat(op, "\t$vrz, $rx"),
[]>;
let vry = 0 in {
class F_XZ<bits<5> datatype, bits<6> sop, string op, string op_su, PatFrag opnode, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs regtype:$vrz), (ins regtype:$vrx), !strconcat(op#op_su, "\t$vrz, $vrx"),
[(set regtype:$vrz, (opnode regtype:$vrx))]>;
class F_MOV<bits<5> datatype, bits<6> sop, string op, string op_su, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs regtype:$vrz), (ins regtype:$vrx), !strconcat(op#op_su, "\t$vrz, $vrx"),
[]>;
class F_XZ_TRANS<bits<6> sop, string op, RegisterOperand regtype1, RegisterOperand regtype2>
: F_XYZ_BASE<3, sop, (outs regtype1:$vrz), (ins regtype2:$vrx), !strconcat(op, "\t$vrz, $vrx"),
[]>;
class F_XZ_TRANS_DS<bits<6> sop, string op, PatFrag opnode>
: F_XYZ_BASE<3, sop, (outs sFPR32Op:$vrz), (ins sFPR64Op:$vrx), !strconcat(op, "\t$vrz, $vrx"),
[(set sFPR32Op:$vrz, (opnode sFPR64Op:$vrx))]>;
class F_XZ_TRANS_SD<bits<6> sop, string op, PatFrag opnode>
: F_XYZ_BASE<3, sop, (outs sFPR64Op:$vrz), (ins sFPR32Op:$vrx), !strconcat(op, "\t$vrz, $vrx"),
[(set sFPR64Op:$vrz, (opnode sFPR32Op:$vrx))]>;
}
multiclass FT_MOV<bits<6> sop, string op> {
def _S : F_MOV<0, sop, op, "s", sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_MOV<1, sop, op, "d", sFPR64Op>;
}
multiclass FT_XZ<bits<6> sop, string op, PatFrag opnode> {
def _S : F_XZ<0, sop, op, "s", opnode, sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XZ<1, sop, op, "d", opnode, sFPR64Op>;
}
let vrz = 0, isCompare = 1 in {
class F_CMPXY<bits<5> datatype, bits<6> sop, string op, string op_su, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs CARRY:$ca), (ins regtype:$vrx, regtype:$vry), !strconcat(op#op_su, "\t$vrx, $vry"),
[]>;
let vry = 0 in{
class F_CMPZX<bits<5> datatype, bits<6> sop, string op, string op_su, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs CARRY:$ca), (ins regtype:$vrx), !strconcat(op#op_su, "\t$vrx"),
[]>;
}
}
class F_XYZ<bits<5> datatype, bits<6> sop, string op, string op_su, PatFrag opnode, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs regtype:$vrz), (ins regtype:$vrx, regtype:$vry),
!strconcat(op#op_su, "\t$vrz, $vrx, $vry"),
[(set regtype:$vrz, (opnode regtype:$vrx, regtype:$vry))]>;
multiclass FT_XYZ<bits<6> sop, string op, PatFrag opnode> {
def _S : F_XYZ<0, sop, op, "s", opnode, sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XYZ<1, sop, op, "d", opnode, sFPR64Op>;
}
let Constraints = "$vrt = $vrz" in {
class F_ACCUM_XYZ<bits<5> datatype, bits<6> sop, string op, string op_su, PatFrag opnode, RegisterOperand regtype>
: F_XYZ_BASE<datatype, sop, (outs regtype:$vrz), (ins regtype:$vrt, regtype:$vrx, regtype:$vry),
!strconcat(op#op_su, "\t$vrz, $vrx, $vry"),
[(set regtype:$vrz, (opnode regtype:$vrt, regtype:$vrx, regtype:$vry))]>;
}
multiclass FT_ACCUM_XYZ<bits<6> sop, string op, PatFrag opnode> {
def _S : F_ACCUM_XYZ<0, sop, op, "s", opnode, sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_ACCUM_XYZ<1, sop, op, "d", opnode, sFPR64Op>;
}
multiclass FT_CMPXY<bits<6> sop, string op> {
def _S : F_CMPXY<0, sop, op, "s", sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_CMPXY<1, sop, op, "d", sFPR64Op>;
}
multiclass FT_CMPZX<bits<6> sop, string op> {
def _S : F_CMPZX<0, sop, op, "s", sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_CMPZX<1, sop, op, "d", sFPR64Op>;
}
class F_I8_XY_MEM<bits<7> sop, bits<1> sop_su, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKY32Inst<AddrMode32SDF, 0x3d, outs, ins, opcodestr, pattern> {
bits<5> rx;
bits<4> vrz;
bits<8> imm8;
let Inst{25} = 0;
let Inst{24 - 21} = imm8{7 - 4}; //imm4h
let Inst{20 - 16} = rx; //rx
let Inst{15 - 9} = sop;
let Inst{8} = sop_su;
let Inst{7 - 4} = imm8{3 - 0}; // imm4l
let Inst{3 - 0} = vrz;
}
class F_I4_XY_MEM<bits<7> sop, bits<1> sop_su, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKY32Inst<AddrMode32SDF, 0x3d, outs, ins, opcodestr, pattern> {
bits<10> regs;
bits<5> rx;
let Inst{25} = 0;
let Inst{24 - 21} = regs{3-0}; //imm4
let Inst{20 - 16} = rx; //rx
let Inst{15 - 9} = sop;
let Inst{8} = sop_su;
let Inst{7 - 4} = 0;
let Inst{3 - 0} = regs{8-5};
}
class F_I8_Z_MEM<bits<7> sop, bits<1> sop_su, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKY32Inst<AddrModeNone, 0x3d, outs, ins, opcodestr, pattern> {
bits<4> vrz;
bits<8> imm8;
let Inst{25} = 0;
let Inst{24 - 21} = imm8{7 - 4}; //imm4h
let Inst{20 - 16} = 0; //rx
let Inst{15 - 9} = sop;
let Inst{8} = sop_su;
let Inst{7 - 4} = imm8{3 - 0}; // imm4l
let Inst{3 - 0} = vrz;
}
class F_XYZ_MEM<bits<7> sop, bits<1> sop_su, dag outs, dag ins, string opcodestr, list<dag> pattern>
: CSKY32Inst<AddrModeNone, 0x3d, outs, ins, opcodestr, pattern> {
bits<5> rx;
bits<5> ry;
bits<4> vrz;
bits<2> imm;
let Inst{25 - 21} = ry; // ry;
let Inst{20 - 16} = rx; // rx;
let Inst{15 - 9} = sop;
let Inst{8} = sop_su;
let Inst{7} = 0;
let Inst{6,5} = imm; // shift;
let Inst{4} = 0;
let Inst{3 - 0} = vrz;
}
class F_XYAI_LD<bits<7> sop, bits<1> sop_su, string op, string op_su,
RegisterOperand regtype, Operand operand>
: F_I8_XY_MEM<sop, sop_su, (outs regtype:$vrz), (ins GPR:$rx, operand:$imm8),
!strconcat(op#op_su, "\t$vrz, ($rx, ${imm8})"), []>;
class F_XYAR_LD<bits<7> sop, bits<1> sop_su, string op, string op_su,
RegisterOperand regtype>
: F_XYZ_MEM<sop, sop_su, (outs regtype:$vrz), (ins GPR:$rx, GPR:$ry, uimm2:$imm),
op#op_su#"\t$vrz, ($rx, $ry << ${imm})", []>;
class F_XYAI_ST<bits<7> sop, bits<1> sop_su, string op, string op_su,
RegisterOperand regtype, Operand operand>
: F_I8_XY_MEM<sop, sop_su, (outs), (ins regtype:$vrz, GPR:$rx, operand:$imm8),
!strconcat(op#op_su, "\t$vrz, ($rx, ${imm8})"), []>;
class F_XYAR_ST<bits<7> sop, bits<1> sop_su, string op, string op_su,
RegisterOperand regtype>
: F_XYZ_MEM<sop, sop_su, (outs), (ins regtype:$vrz, GPR:$rx, GPR:$ry, uimm2:$imm),
op#op_su#"\t$vrz, ($rx, $ry << ${imm})", []>;
def Mem8SL2 : Operand<iPTR>, ComplexPattern<iPTR, 2, "SelectAddrRegImm8", []> {
let MIOperandInfo = (ops GPR, i32imm);
let PrintMethod = "printAddrModeRegImmOperand";
let EncoderMethod = "getAddrModeFloatImm8_sl2OpValue";
}
def FRRS : Operand<iPTR>, ComplexPattern<iPTR, 3, "SelectAddrRegReg", []> {
let MIOperandInfo = (ops GPR, GPR, i32imm);
let PrintMethod = "printAddrModeRegRegSLOperand";
let EncoderMethod = "getAddrModeFloatRegRegSLOpValue";
}
multiclass FT_XYAI_LD<bits<7> sop, string op> {
def _S : F_XYAI_LD<sop, 0, op, "s", sFPR32Op, uimm8_2>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XYAI_LD<sop, 1, op, "d", sFPR64Op, uimm8_2>;
}
multiclass FT_XYAR_LD<bits<7> sop, string op> {
def _S : F_XYAR_LD<sop, 0, op, "s", sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XYAR_LD<sop, 1, op, "d", sFPR64Op>;
}
multiclass FT_XYAI_ST<bits<7> sop, string op> {
def _S : F_XYAI_ST<sop, 0, op, "s", sFPR32Op, uimm8_2>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XYAI_ST<sop, 1, op, "d", sFPR64Op, uimm8_2>;
}
multiclass FT_XYAR_ST<bits<7> sop, string op> {
def _S : F_XYAR_ST<sop, 0, op, "s", sFPR32Op>;
let Predicates = [HasFPUv2_DF] in
def _D : F_XYAR_ST<sop, 1, op, "d", sFPR64Op>;
}
multiclass FT_XYAR_STM<bits<7> sop, string op> {
def _S : F_I4_XY_MEM<sop, 0, (outs),
(ins GPR:$rx, regseq_f1:$regs, variable_ops),
!strconcat(op#"s", "\t$regs, (${rx})"), []>;
let Predicates = [HasFPUv2_DF] in
def _D : F_I4_XY_MEM<sop, 1, (outs),
(ins GPR:$rx, regseq_d1:$regs, variable_ops),
!strconcat(op#"d", "\t$regs, (${rx})"), []>;
}
multiclass FT_XYAR_LDM<bits<7> sop, string op> {
def _S : F_I4_XY_MEM<sop, 0, (outs),
(ins GPR:$rx, regseq_f1:$regs, variable_ops),
!strconcat(op#"s", "\t$regs, (${rx})"), []>;
let Predicates = [HasFPUv2_DF] in
def _D : F_I4_XY_MEM<sop, 1, (outs),
(ins GPR:$rx, regseq_d1:$regs, variable_ops),
!strconcat(op#"d", "\t$regs, (${rx})"), []>;
}