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llvm-6502/lib/Target/ARM/ARMInstrNEON.td
Bob Wilson 9fedc33ca8 Emit spaces after commas in Neon register lists. This is more consistent 
with the rest of the assembly output, is easier to read, and matches the
expected output for gcc's Neon tests.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@93703 91177308-0d34-0410-b5e6-96231b3b80d8
2010-01-18 01:24:43 +00:00

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//===- ARMInstrNEON.td - NEON support for ARM -----------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file describes the ARM NEON instruction set.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
// NEON-specific DAG Nodes.
//===----------------------------------------------------------------------===//
def SDTARMVCMP : SDTypeProfile<1, 2, [SDTCisInt<0>, SDTCisSameAs<1, 2>]>;
def NEONvceq : SDNode<"ARMISD::VCEQ", SDTARMVCMP>;
def NEONvcge : SDNode<"ARMISD::VCGE", SDTARMVCMP>;
def NEONvcgeu : SDNode<"ARMISD::VCGEU", SDTARMVCMP>;
def NEONvcgt : SDNode<"ARMISD::VCGT", SDTARMVCMP>;
def NEONvcgtu : SDNode<"ARMISD::VCGTU", SDTARMVCMP>;
def NEONvtst : SDNode<"ARMISD::VTST", SDTARMVCMP>;
// Types for vector shift by immediates. The "SHX" version is for long and
// narrow operations where the source and destination vectors have different
// types. The "SHINS" version is for shift and insert operations.
def SDTARMVSH : SDTypeProfile<1, 2, [SDTCisInt<0>, SDTCisSameAs<0, 1>,
SDTCisVT<2, i32>]>;
def SDTARMVSHX : SDTypeProfile<1, 2, [SDTCisInt<0>, SDTCisInt<1>,
SDTCisVT<2, i32>]>;
def SDTARMVSHINS : SDTypeProfile<1, 3, [SDTCisInt<0>, SDTCisSameAs<0, 1>,
SDTCisSameAs<0, 2>, SDTCisVT<3, i32>]>;
def NEONvshl : SDNode<"ARMISD::VSHL", SDTARMVSH>;
def NEONvshrs : SDNode<"ARMISD::VSHRs", SDTARMVSH>;
def NEONvshru : SDNode<"ARMISD::VSHRu", SDTARMVSH>;
def NEONvshlls : SDNode<"ARMISD::VSHLLs", SDTARMVSHX>;
def NEONvshllu : SDNode<"ARMISD::VSHLLu", SDTARMVSHX>;
def NEONvshlli : SDNode<"ARMISD::VSHLLi", SDTARMVSHX>;
def NEONvshrn : SDNode<"ARMISD::VSHRN", SDTARMVSHX>;
def NEONvrshrs : SDNode<"ARMISD::VRSHRs", SDTARMVSH>;
def NEONvrshru : SDNode<"ARMISD::VRSHRu", SDTARMVSH>;
def NEONvrshrn : SDNode<"ARMISD::VRSHRN", SDTARMVSHX>;
def NEONvqshls : SDNode<"ARMISD::VQSHLs", SDTARMVSH>;
def NEONvqshlu : SDNode<"ARMISD::VQSHLu", SDTARMVSH>;
def NEONvqshlsu : SDNode<"ARMISD::VQSHLsu", SDTARMVSH>;
def NEONvqshrns : SDNode<"ARMISD::VQSHRNs", SDTARMVSHX>;
def NEONvqshrnu : SDNode<"ARMISD::VQSHRNu", SDTARMVSHX>;
def NEONvqshrnsu : SDNode<"ARMISD::VQSHRNsu", SDTARMVSHX>;
def NEONvqrshrns : SDNode<"ARMISD::VQRSHRNs", SDTARMVSHX>;
def NEONvqrshrnu : SDNode<"ARMISD::VQRSHRNu", SDTARMVSHX>;
def NEONvqrshrnsu : SDNode<"ARMISD::VQRSHRNsu", SDTARMVSHX>;
def NEONvsli : SDNode<"ARMISD::VSLI", SDTARMVSHINS>;
def NEONvsri : SDNode<"ARMISD::VSRI", SDTARMVSHINS>;
def SDTARMVGETLN : SDTypeProfile<1, 2, [SDTCisVT<0, i32>, SDTCisInt<1>,
SDTCisVT<2, i32>]>;
def NEONvgetlaneu : SDNode<"ARMISD::VGETLANEu", SDTARMVGETLN>;
def NEONvgetlanes : SDNode<"ARMISD::VGETLANEs", SDTARMVGETLN>;
def NEONvdup : SDNode<"ARMISD::VDUP", SDTypeProfile<1, 1, [SDTCisVec<0>]>>;
// VDUPLANE can produce a quad-register result from a double-register source,
// so the result is not constrained to match the source.
def NEONvduplane : SDNode<"ARMISD::VDUPLANE",
SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisVec<1>,
SDTCisVT<2, i32>]>>;
def SDTARMVEXT : SDTypeProfile<1, 3, [SDTCisVec<0>, SDTCisSameAs<0, 1>,
SDTCisSameAs<0, 2>, SDTCisVT<3, i32>]>;
def NEONvext : SDNode<"ARMISD::VEXT", SDTARMVEXT>;
def SDTARMVSHUF : SDTypeProfile<1, 1, [SDTCisVec<0>, SDTCisSameAs<0, 1>]>;
def NEONvrev64 : SDNode<"ARMISD::VREV64", SDTARMVSHUF>;
def NEONvrev32 : SDNode<"ARMISD::VREV32", SDTARMVSHUF>;
def NEONvrev16 : SDNode<"ARMISD::VREV16", SDTARMVSHUF>;
def SDTARMVSHUF2 : SDTypeProfile<2, 2, [SDTCisVec<0>, SDTCisSameAs<0, 1>,
SDTCisSameAs<0, 2>, SDTCisSameAs<0, 3>]>;
def NEONzip : SDNode<"ARMISD::VZIP", SDTARMVSHUF2>;
def NEONuzp : SDNode<"ARMISD::VUZP", SDTARMVSHUF2>;
def NEONtrn : SDNode<"ARMISD::VTRN", SDTARMVSHUF2>;
//===----------------------------------------------------------------------===//
// NEON operand definitions
//===----------------------------------------------------------------------===//
// addrmode_neonldstm := reg
//
/* TODO: Take advantage of vldm.
def addrmode_neonldstm : Operand<i32>,
ComplexPattern<i32, 2, "SelectAddrModeNeonLdStM", []> {
let PrintMethod = "printAddrNeonLdStMOperand";
let MIOperandInfo = (ops GPR, i32imm);
}
*/
def h8imm : Operand<i8> {
let PrintMethod = "printHex8ImmOperand";
}
def h16imm : Operand<i16> {
let PrintMethod = "printHex16ImmOperand";
}
def h32imm : Operand<i32> {
let PrintMethod = "printHex32ImmOperand";
}
def h64imm : Operand<i64> {
let PrintMethod = "printHex64ImmOperand";
}
//===----------------------------------------------------------------------===//
// NEON load / store instructions
//===----------------------------------------------------------------------===//
/* TODO: Take advantage of vldm.
let mayLoad = 1, hasExtraDefRegAllocReq = 1 in {
def VLDMD : NI<(outs),
(ins addrmode_neonldstm:$addr, reglist:$dst1, variable_ops),
IIC_fpLoadm,
"vldm", "${addr:submode} ${addr:base}, $dst1",
[]> {
let Inst{27-25} = 0b110;
let Inst{20} = 1;
let Inst{11-9} = 0b101;
}
def VLDMS : NI<(outs),
(ins addrmode_neonldstm:$addr, reglist:$dst1, variable_ops),
IIC_fpLoadm,
"vldm", "${addr:submode} ${addr:base}, $dst1",
[]> {
let Inst{27-25} = 0b110;
let Inst{20} = 1;
let Inst{11-9} = 0b101;
}
}
*/
// Use vldmia to load a Q register as a D register pair.
def VLDRQ : NI4<(outs QPR:$dst), (ins addrmode4:$addr),
IIC_fpLoadm,
"vldmia", "$addr, ${dst:dregpair}",
[(set QPR:$dst, (v2f64 (load addrmode4:$addr)))]> {
let Inst{27-25} = 0b110;
let Inst{24} = 0; // P bit
let Inst{23} = 1; // U bit
let Inst{20} = 1;
let Inst{11-8} = 0b1011;
}
// Use vstmia to store a Q register as a D register pair.
def VSTRQ : NI4<(outs), (ins QPR:$src, addrmode4:$addr),
IIC_fpStorem,
"vstmia", "$addr, ${src:dregpair}",
[(store (v2f64 QPR:$src), addrmode4:$addr)]> {
let Inst{27-25} = 0b110;
let Inst{24} = 0; // P bit
let Inst{23} = 1; // U bit
let Inst{20} = 0;
let Inst{11-8} = 0b1011;
}
// VLD1 : Vector Load (multiple single elements)
class VLD1D<bits<4> op7_4, string OpcodeStr, string Dt,
ValueType Ty, Intrinsic IntOp>
: NLdSt<0,0b10,0b0111,op7_4, (outs DPR:$dst), (ins addrmode6:$addr), IIC_VLD1,
OpcodeStr, Dt, "\\{$dst\\}, $addr", "",
[(set DPR:$dst, (Ty (IntOp addrmode6:$addr)))]>;
class VLD1Q<bits<4> op7_4, string OpcodeStr, string Dt,
ValueType Ty, Intrinsic IntOp>
: NLdSt<0,0b10,0b1010,op7_4, (outs QPR:$dst), (ins addrmode6:$addr), IIC_VLD1,
OpcodeStr, Dt, "${dst:dregpair}, $addr", "",
[(set QPR:$dst, (Ty (IntOp addrmode6:$addr)))]>;
def VLD1d8 : VLD1D<0b0000, "vld1", "8", v8i8, int_arm_neon_vld1>;
def VLD1d16 : VLD1D<0b0100, "vld1", "16", v4i16, int_arm_neon_vld1>;
def VLD1d32 : VLD1D<0b1000, "vld1", "32", v2i32, int_arm_neon_vld1>;
def VLD1df : VLD1D<0b1000, "vld1", "32", v2f32, int_arm_neon_vld1>;
def VLD1d64 : VLD1D<0b1100, "vld1", "64", v1i64, int_arm_neon_vld1>;
def VLD1q8 : VLD1Q<0b0000, "vld1", "8", v16i8, int_arm_neon_vld1>;
def VLD1q16 : VLD1Q<0b0100, "vld1", "16", v8i16, int_arm_neon_vld1>;
def VLD1q32 : VLD1Q<0b1000, "vld1", "32", v4i32, int_arm_neon_vld1>;
def VLD1qf : VLD1Q<0b1000, "vld1", "32", v4f32, int_arm_neon_vld1>;
def VLD1q64 : VLD1Q<0b1100, "vld1", "64", v2i64, int_arm_neon_vld1>;
let mayLoad = 1, hasExtraDefRegAllocReq = 1 in {
// VLD2 : Vector Load (multiple 2-element structures)
class VLD2D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b1000,op7_4, (outs DPR:$dst1, DPR:$dst2),
(ins addrmode6:$addr), IIC_VLD2,
OpcodeStr, Dt, "\\{$dst1, $dst2\\}, $addr", "", []>;
class VLD2Q<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b0011,op7_4,
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3, DPR:$dst4),
(ins addrmode6:$addr), IIC_VLD2,
OpcodeStr, Dt, "\\{$dst1, $dst2, $dst3, $dst4\\}, $addr",
"", []>;
def VLD2d8 : VLD2D<0b0000, "vld2", "8">;
def VLD2d16 : VLD2D<0b0100, "vld2", "16">;
def VLD2d32 : VLD2D<0b1000, "vld2", "32">;
def VLD2d64 : NLdSt<0,0b10,0b1010,0b1100, (outs DPR:$dst1, DPR:$dst2),
(ins addrmode6:$addr), IIC_VLD1,
"vld1", "64", "\\{$dst1, $dst2\\}, $addr", "", []>;
def VLD2q8 : VLD2Q<0b0000, "vld2", "8">;
def VLD2q16 : VLD2Q<0b0100, "vld2", "16">;
def VLD2q32 : VLD2Q<0b1000, "vld2", "32">;
// VLD3 : Vector Load (multiple 3-element structures)
class VLD3D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b0100,op7_4, (outs DPR:$dst1, DPR:$dst2, DPR:$dst3),
(ins addrmode6:$addr), IIC_VLD3,
OpcodeStr, Dt, "\\{$dst1, $dst2, $dst3\\}, $addr", "", []>;
class VLD3WB<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b0101,op7_4, (outs DPR:$dst1, DPR:$dst2, DPR:$dst3, GPR:$wb),
(ins addrmode6:$addr), IIC_VLD3,
OpcodeStr, Dt, "\\{$dst1, $dst2, $dst3\\}, $addr",
"$addr.addr = $wb", []>;
def VLD3d8 : VLD3D<0b0000, "vld3", "8">;
def VLD3d16 : VLD3D<0b0100, "vld3", "16">;
def VLD3d32 : VLD3D<0b1000, "vld3", "32">;
def VLD3d64 : NLdSt<0,0b10,0b0110,0b1100,
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3),
(ins addrmode6:$addr), IIC_VLD1,
"vld1", "64", "\\{$dst1, $dst2, $dst3\\}, $addr", "", []>;
// vld3 to double-spaced even registers.
def VLD3q8a : VLD3WB<0b0000, "vld3", "8">;
def VLD3q16a : VLD3WB<0b0100, "vld3", "16">;
def VLD3q32a : VLD3WB<0b1000, "vld3", "32">;
// vld3 to double-spaced odd registers.
def VLD3q8b : VLD3WB<0b0000, "vld3", "8">;
def VLD3q16b : VLD3WB<0b0100, "vld3", "16">;
def VLD3q32b : VLD3WB<0b1000, "vld3", "32">;
// VLD4 : Vector Load (multiple 4-element structures)
class VLD4D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b0000,op7_4,
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3, DPR:$dst4),
(ins addrmode6:$addr), IIC_VLD4,
OpcodeStr, Dt, "\\{$dst1, $dst2, $dst3, $dst4\\}, $addr",
"", []>;
class VLD4WB<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b10,0b0001,op7_4,
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3, DPR:$dst4, GPR:$wb),
(ins addrmode6:$addr), IIC_VLD4,
OpcodeStr, Dt, "\\{$dst1, $dst2, $dst3, $dst4\\}, $addr",
"$addr.addr = $wb", []>;
def VLD4d8 : VLD4D<0b0000, "vld4", "8">;
def VLD4d16 : VLD4D<0b0100, "vld4", "16">;
def VLD4d32 : VLD4D<0b1000, "vld4", "32">;
def VLD4d64 : NLdSt<0,0b10,0b0010,0b1100,
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3, DPR:$dst4),
(ins addrmode6:$addr), IIC_VLD1,
"vld1", "64", "\\{$dst1, $dst2, $dst3, $dst4\\}, $addr",
"", []>;
// vld4 to double-spaced even registers.
def VLD4q8a : VLD4WB<0b0000, "vld4", "8">;
def VLD4q16a : VLD4WB<0b0100, "vld4", "16">;
def VLD4q32a : VLD4WB<0b1000, "vld4", "32">;
// vld4 to double-spaced odd registers.
def VLD4q8b : VLD4WB<0b0000, "vld4", "8">;
def VLD4q16b : VLD4WB<0b0100, "vld4", "16">;
def VLD4q32b : VLD4WB<0b1000, "vld4", "32">;
// VLD1LN : Vector Load (single element to one lane)
// FIXME: Not yet implemented.
// VLD2LN : Vector Load (single 2-element structure to one lane)
class VLD2LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b10,op11_8,{?,?,?,?}, (outs DPR:$dst1, DPR:$dst2),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, nohash_imm:$lane),
IIC_VLD2,
OpcodeStr, Dt, "\\{$dst1[$lane], $dst2[$lane]\\}, $addr",
"$src1 = $dst1, $src2 = $dst2", []>;
// vld2 to single-spaced registers.
def VLD2LNd8 : VLD2LN<0b0001, "vld2", "8">;
def VLD2LNd16 : VLD2LN<0b0101, "vld2", "16"> {
let Inst{5} = 0;
}
def VLD2LNd32 : VLD2LN<0b1001, "vld2", "32"> {
let Inst{6} = 0;
}
// vld2 to double-spaced even registers.
def VLD2LNq16a: VLD2LN<0b0101, "vld2", "16"> {
let Inst{5} = 1;
}
def VLD2LNq32a: VLD2LN<0b1001, "vld2", "32"> {
let Inst{6} = 1;
}
// vld2 to double-spaced odd registers.
def VLD2LNq16b: VLD2LN<0b0101, "vld2", "16"> {
let Inst{5} = 1;
}
def VLD2LNq32b: VLD2LN<0b1001, "vld2", "32"> {
let Inst{6} = 1;
}
// VLD3LN : Vector Load (single 3-element structure to one lane)
class VLD3LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b10,op11_8,{?,?,?,?}, (outs DPR:$dst1, DPR:$dst2, DPR:$dst3),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3,
nohash_imm:$lane), IIC_VLD3,
OpcodeStr, Dt,
"\\{$dst1[$lane], $dst2[$lane], $dst3[$lane]\\}, $addr",
"$src1 = $dst1, $src2 = $dst2, $src3 = $dst3", []>;
// vld3 to single-spaced registers.
def VLD3LNd8 : VLD3LN<0b0010, "vld3", "8"> {
let Inst{4} = 0;
}
def VLD3LNd16 : VLD3LN<0b0110, "vld3", "16"> {
let Inst{5-4} = 0b00;
}
def VLD3LNd32 : VLD3LN<0b1010, "vld3", "32"> {
let Inst{6-4} = 0b000;
}
// vld3 to double-spaced even registers.
def VLD3LNq16a: VLD3LN<0b0110, "vld3", "16"> {
let Inst{5-4} = 0b10;
}
def VLD3LNq32a: VLD3LN<0b1010, "vld3", "32"> {
let Inst{6-4} = 0b100;
}
// vld3 to double-spaced odd registers.
def VLD3LNq16b: VLD3LN<0b0110, "vld3", "16"> {
let Inst{5-4} = 0b10;
}
def VLD3LNq32b: VLD3LN<0b1010, "vld3", "32"> {
let Inst{6-4} = 0b100;
}
// VLD4LN : Vector Load (single 4-element structure to one lane)
class VLD4LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b10,op11_8,{?,?,?,?},
(outs DPR:$dst1, DPR:$dst2, DPR:$dst3, DPR:$dst4),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3, DPR:$src4,
nohash_imm:$lane), IIC_VLD4,
OpcodeStr, Dt,
"\\{$dst1[$lane], $dst2[$lane], $dst3[$lane], $dst4[$lane]\\}, $addr",
"$src1 = $dst1, $src2 = $dst2, $src3 = $dst3, $src4 = $dst4", []>;
// vld4 to single-spaced registers.
def VLD4LNd8 : VLD4LN<0b0011, "vld4", "8">;
def VLD4LNd16 : VLD4LN<0b0111, "vld4", "16"> {
let Inst{5} = 0;
}
def VLD4LNd32 : VLD4LN<0b1011, "vld4", "32"> {
let Inst{6} = 0;
}
// vld4 to double-spaced even registers.
def VLD4LNq16a: VLD4LN<0b0111, "vld4", "16"> {
let Inst{5} = 1;
}
def VLD4LNq32a: VLD4LN<0b1011, "vld4", "32"> {
let Inst{6} = 1;
}
// vld4 to double-spaced odd registers.
def VLD4LNq16b: VLD4LN<0b0111, "vld4", "16"> {
let Inst{5} = 1;
}
def VLD4LNq32b: VLD4LN<0b1011, "vld4", "32"> {
let Inst{6} = 1;
}
// VLD1DUP : Vector Load (single element to all lanes)
// VLD2DUP : Vector Load (single 2-element structure to all lanes)
// VLD3DUP : Vector Load (single 3-element structure to all lanes)
// VLD4DUP : Vector Load (single 4-element structure to all lanes)
// FIXME: Not yet implemented.
} // mayLoad = 1, hasExtraDefRegAllocReq = 1
// VST1 : Vector Store (multiple single elements)
class VST1D<bits<4> op7_4, string OpcodeStr, string Dt,
ValueType Ty, Intrinsic IntOp>
: NLdSt<0,0b00,0b0111,op7_4, (outs), (ins addrmode6:$addr, DPR:$src), IIC_VST,
OpcodeStr, Dt, "\\{$src\\}, $addr", "",
[(IntOp addrmode6:$addr, (Ty DPR:$src))]>;
class VST1Q<bits<4> op7_4, string OpcodeStr, string Dt,
ValueType Ty, Intrinsic IntOp>
: NLdSt<0,0b00,0b1010,op7_4, (outs), (ins addrmode6:$addr, QPR:$src), IIC_VST,
OpcodeStr, Dt, "${src:dregpair}, $addr", "",
[(IntOp addrmode6:$addr, (Ty QPR:$src))]>;
let hasExtraSrcRegAllocReq = 1 in {
def VST1d8 : VST1D<0b0000, "vst1", "8", v8i8, int_arm_neon_vst1>;
def VST1d16 : VST1D<0b0100, "vst1", "16", v4i16, int_arm_neon_vst1>;
def VST1d32 : VST1D<0b1000, "vst1", "32", v2i32, int_arm_neon_vst1>;
def VST1df : VST1D<0b1000, "vst1", "32", v2f32, int_arm_neon_vst1>;
def VST1d64 : VST1D<0b1100, "vst1", "64", v1i64, int_arm_neon_vst1>;
def VST1q8 : VST1Q<0b0000, "vst1", "8", v16i8, int_arm_neon_vst1>;
def VST1q16 : VST1Q<0b0100, "vst1", "16", v8i16, int_arm_neon_vst1>;
def VST1q32 : VST1Q<0b1000, "vst1", "32", v4i32, int_arm_neon_vst1>;
def VST1qf : VST1Q<0b1000, "vst1", "32", v4f32, int_arm_neon_vst1>;
def VST1q64 : VST1Q<0b1100, "vst1", "64", v2i64, int_arm_neon_vst1>;
} // hasExtraSrcRegAllocReq
let mayStore = 1, hasExtraSrcRegAllocReq = 1 in {
// VST2 : Vector Store (multiple 2-element structures)
class VST2D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b1000,op7_4, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2), IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2\\}, $addr", "", []>;
class VST2Q<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b0011,op7_4, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3, DPR:$src4),
IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2, $src3, $src4\\}, $addr",
"", []>;
def VST2d8 : VST2D<0b0000, "vst2", "8">;
def VST2d16 : VST2D<0b0100, "vst2", "16">;
def VST2d32 : VST2D<0b1000, "vst2", "32">;
def VST2d64 : NLdSt<0,0b00,0b1010,0b1100, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2), IIC_VST,
"vst1", "64", "\\{$src1, $src2\\}, $addr", "", []>;
def VST2q8 : VST2Q<0b0000, "vst2", "8">;
def VST2q16 : VST2Q<0b0100, "vst2", "16">;
def VST2q32 : VST2Q<0b1000, "vst2", "32">;
// VST3 : Vector Store (multiple 3-element structures)
class VST3D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b0100,op7_4, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3), IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2, $src3\\}, $addr", "", []>;
class VST3WB<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b0101,op7_4, (outs GPR:$wb),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3), IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2, $src3\\}, $addr",
"$addr.addr = $wb", []>;
def VST3d8 : VST3D<0b0000, "vst3", "8">;
def VST3d16 : VST3D<0b0100, "vst3", "16">;
def VST3d32 : VST3D<0b1000, "vst3", "32">;
def VST3d64 : NLdSt<0,0b00,0b0110,0b1100, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3),
IIC_VST,
"vst1", "64", "\\{$src1, $src2, $src3\\}, $addr", "", []>;
// vst3 to double-spaced even registers.
def VST3q8a : VST3WB<0b0000, "vst3", "8">;
def VST3q16a : VST3WB<0b0100, "vst3", "16">;
def VST3q32a : VST3WB<0b1000, "vst3", "32">;
// vst3 to double-spaced odd registers.
def VST3q8b : VST3WB<0b0000, "vst3", "8">;
def VST3q16b : VST3WB<0b0100, "vst3", "16">;
def VST3q32b : VST3WB<0b1000, "vst3", "32">;
// VST4 : Vector Store (multiple 4-element structures)
class VST4D<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b0000,op7_4, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3, DPR:$src4),
IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2, $src3, $src4\\}, $addr",
"", []>;
class VST4WB<bits<4> op7_4, string OpcodeStr, string Dt>
: NLdSt<0,0b00,0b0001,op7_4, (outs GPR:$wb),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3, DPR:$src4),
IIC_VST,
OpcodeStr, Dt, "\\{$src1, $src2, $src3, $src4\\}, $addr",
"$addr.addr = $wb", []>;
def VST4d8 : VST4D<0b0000, "vst4", "8">;
def VST4d16 : VST4D<0b0100, "vst4", "16">;
def VST4d32 : VST4D<0b1000, "vst4", "32">;
def VST4d64 : NLdSt<0,0b00,0b0010,0b1100, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3,
DPR:$src4), IIC_VST,
"vst1", "64", "\\{$src1, $src2, $src3, $src4\\}, $addr",
"", []>;
// vst4 to double-spaced even registers.
def VST4q8a : VST4WB<0b0000, "vst4", "8">;
def VST4q16a : VST4WB<0b0100, "vst4", "16">;
def VST4q32a : VST4WB<0b1000, "vst4", "32">;
// vst4 to double-spaced odd registers.
def VST4q8b : VST4WB<0b0000, "vst4", "8">;
def VST4q16b : VST4WB<0b0100, "vst4", "16">;
def VST4q32b : VST4WB<0b1000, "vst4", "32">;
// VST1LN : Vector Store (single element from one lane)
// FIXME: Not yet implemented.
// VST2LN : Vector Store (single 2-element structure from one lane)
class VST2LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b00,op11_8,{?,?,?,?}, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, nohash_imm:$lane),
IIC_VST,
OpcodeStr, Dt, "\\{$src1[$lane], $src2[$lane]\\}, $addr",
"", []>;
// vst2 to single-spaced registers.
def VST2LNd8 : VST2LN<0b0001, "vst2", "8">;
def VST2LNd16 : VST2LN<0b0101, "vst2", "16"> {
let Inst{5} = 0;
}
def VST2LNd32 : VST2LN<0b1001, "vst2", "32"> {
let Inst{6} = 0;
}
// vst2 to double-spaced even registers.
def VST2LNq16a: VST2LN<0b0101, "vst2", "16"> {
let Inst{5} = 1;
}
def VST2LNq32a: VST2LN<0b1001, "vst2", "32"> {
let Inst{6} = 1;
}
// vst2 to double-spaced odd registers.
def VST2LNq16b: VST2LN<0b0101, "vst2", "16"> {
let Inst{5} = 1;
}
def VST2LNq32b: VST2LN<0b1001, "vst2", "32"> {
let Inst{6} = 1;
}
// VST3LN : Vector Store (single 3-element structure from one lane)
class VST3LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b00,op11_8,{?,?,?,?}, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3,
nohash_imm:$lane), IIC_VST,
OpcodeStr, Dt,
"\\{$src1[$lane], $src2[$lane], $src3[$lane]\\}, $addr", "", []>;
// vst3 to single-spaced registers.
def VST3LNd8 : VST3LN<0b0010, "vst3", "8"> {
let Inst{4} = 0;
}
def VST3LNd16 : VST3LN<0b0110, "vst3", "16"> {
let Inst{5-4} = 0b00;
}
def VST3LNd32 : VST3LN<0b1010, "vst3", "32"> {
let Inst{6-4} = 0b000;
}
// vst3 to double-spaced even registers.
def VST3LNq16a: VST3LN<0b0110, "vst3", "16"> {
let Inst{5-4} = 0b10;
}
def VST3LNq32a: VST3LN<0b1010, "vst3", "32"> {
let Inst{6-4} = 0b100;
}
// vst3 to double-spaced odd registers.
def VST3LNq16b: VST3LN<0b0110, "vst3", "16"> {
let Inst{5-4} = 0b10;
}
def VST3LNq32b: VST3LN<0b1010, "vst3", "32"> {
let Inst{6-4} = 0b100;
}
// VST4LN : Vector Store (single 4-element structure from one lane)
class VST4LN<bits<4> op11_8, string OpcodeStr, string Dt>
: NLdSt<1,0b00,op11_8,{?,?,?,?}, (outs),
(ins addrmode6:$addr, DPR:$src1, DPR:$src2, DPR:$src3, DPR:$src4,
nohash_imm:$lane), IIC_VST,
OpcodeStr, Dt,
"\\{$src1[$lane], $src2[$lane], $src3[$lane], $src4[$lane]\\}, $addr",
"", []>;
// vst4 to single-spaced registers.
def VST4LNd8 : VST4LN<0b0011, "vst4", "8">;
def VST4LNd16 : VST4LN<0b0111, "vst4", "16"> {
let Inst{5} = 0;
}
def VST4LNd32 : VST4LN<0b1011, "vst4", "32"> {
let Inst{6} = 0;
}
// vst4 to double-spaced even registers.
def VST4LNq16a: VST4LN<0b0111, "vst4", "16"> {
let Inst{5} = 1;
}
def VST4LNq32a: VST4LN<0b1011, "vst4", "32"> {
let Inst{6} = 1;
}
// vst4 to double-spaced odd registers.
def VST4LNq16b: VST4LN<0b0111, "vst4", "16"> {
let Inst{5} = 1;
}
def VST4LNq32b: VST4LN<0b1011, "vst4", "32"> {
let Inst{6} = 1;
}
} // mayStore = 1, hasExtraSrcRegAllocReq = 1
//===----------------------------------------------------------------------===//
// NEON pattern fragments
//===----------------------------------------------------------------------===//
// Extract D sub-registers of Q registers.
// (arm_dsubreg_0 is 5; arm_dsubreg_1 is 6)
def DSubReg_i8_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(5 + N->getZExtValue() / 8, MVT::i32);
}]>;
def DSubReg_i16_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(5 + N->getZExtValue() / 4, MVT::i32);
}]>;
def DSubReg_i32_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(5 + N->getZExtValue() / 2, MVT::i32);
}]>;
def DSubReg_f64_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(5 + N->getZExtValue(), MVT::i32);
}]>;
def DSubReg_f64_other_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(5 + (1 - N->getZExtValue()), MVT::i32);
}]>;
// Extract S sub-registers of Q/D registers.
// (arm_ssubreg_0 is 1; arm_ssubreg_1 is 2; etc.)
def SSubReg_f32_reg : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(1 + N->getZExtValue(), MVT::i32);
}]>;
// Translate lane numbers from Q registers to D subregs.
def SubReg_i8_lane : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(N->getZExtValue() & 7, MVT::i32);
}]>;
def SubReg_i16_lane : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(N->getZExtValue() & 3, MVT::i32);
}]>;
def SubReg_i32_lane : SDNodeXForm<imm, [{
return CurDAG->getTargetConstant(N->getZExtValue() & 1, MVT::i32);
}]>;
//===----------------------------------------------------------------------===//
// Instruction Classes
//===----------------------------------------------------------------------===//
// Basic 2-register operations, both double- and quad-register.
class N2VD<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4, string OpcodeStr,string Dt,
ValueType ResTy, ValueType OpTy, SDNode OpNode>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4, (outs DPR:$dst),
(ins DPR:$src), IIC_VUNAD, OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (ResTy (OpNode (OpTy DPR:$src))))]>;
class N2VQ<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4, string OpcodeStr,string Dt,
ValueType ResTy, ValueType OpTy, SDNode OpNode>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 1, op4, (outs QPR:$dst),
(ins QPR:$src), IIC_VUNAQ, OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (ResTy (OpNode (OpTy QPR:$src))))]>;
// Basic 2-register operations, scalar single-precision.
class N2VDs<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4, string OpcodeStr,string Dt,
ValueType ResTy, ValueType OpTy, SDNode OpNode>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4,
(outs DPR_VFP2:$dst), (ins DPR_VFP2:$src),
IIC_VUNAD, OpcodeStr, Dt, "$dst, $src", "", []>;
class N2VDsPat<SDNode OpNode, ValueType ResTy, ValueType OpTy, NeonI Inst>
: NEONFPPat<(ResTy (OpNode SPR:$a)),
(EXTRACT_SUBREG
(Inst (INSERT_SUBREG (OpTy (IMPLICIT_DEF)), SPR:$a, arm_ssubreg_0)),
arm_ssubreg_0)>;
// Basic 2-register intrinsics, both double- and quad-register.
class N2VDInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4, (outs DPR:$dst),
(ins DPR:$src), itin, OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (ResTy (IntOp (OpTy DPR:$src))))]>;
class N2VQInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 1, op4, (outs QPR:$dst),
(ins QPR:$src), itin, OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (ResTy (IntOp (OpTy QPR:$src))))]>;
// Basic 2-register intrinsics, scalar single-precision
class N2VDInts<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4,
(outs DPR_VFP2:$dst), (ins DPR_VFP2:$src), itin,
OpcodeStr, Dt, "$dst, $src", "", []>;
class N2VDIntsPat<SDNode OpNode, NeonI Inst>
: NEONFPPat<(f32 (OpNode SPR:$a)),
(EXTRACT_SUBREG
(Inst (INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$a, arm_ssubreg_0)),
arm_ssubreg_0)>;
// Narrow 2-register intrinsics.
class N2VNInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op6, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType TyD, ValueType TyQ, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, op6, op4, (outs DPR:$dst),
(ins QPR:$src), itin, OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (TyD (IntOp (TyQ QPR:$src))))]>;
// Long 2-register intrinsics (currently only used for VMOVL).
class N2VLInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op6, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType TyQ, ValueType TyD, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, op6, op4, (outs QPR:$dst),
(ins DPR:$src), itin, OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (TyQ (IntOp (TyD DPR:$src))))]>;
// 2-register shuffles (VTRN/VZIP/VUZP), both double- and quad-register.
class N2VDShuffle<bits<2> op19_18, bits<5> op11_7, string OpcodeStr, string Dt>
: N2V<0b11, 0b11, op19_18, 0b10, op11_7, 0, 0, (outs DPR:$dst1, DPR:$dst2),
(ins DPR:$src1, DPR:$src2), IIC_VPERMD,
OpcodeStr, Dt, "$dst1, $dst2",
"$src1 = $dst1, $src2 = $dst2", []>;
class N2VQShuffle<bits<2> op19_18, bits<5> op11_7,
InstrItinClass itin, string OpcodeStr, string Dt>
: N2V<0b11, 0b11, op19_18, 0b10, op11_7, 1, 0, (outs QPR:$dst1, QPR:$dst2),
(ins QPR:$src1, QPR:$src2), itin,
OpcodeStr, Dt, "$dst1, $dst2",
"$src1 = $dst1, $src2 = $dst2", []>;
// Basic 3-register operations, both double- and quad-register.
class N3VD<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy,
SDNode OpNode, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2), itin,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set DPR:$dst, (ResTy (OpNode (OpTy DPR:$src1), (OpTy DPR:$src2))))]> {
let isCommutable = Commutable;
}
// Same as N3VD but no data type.
class N3VDX<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr,
ValueType ResTy, ValueType OpTy,
SDNode OpNode, bit Commutable>
: N3VX<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2), itin,
OpcodeStr, "$dst, $src1, $src2", "",
[(set DPR:$dst, (ResTy (OpNode (OpTy DPR:$src1), (OpTy DPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VDSL<bits<2> op21_20, bits<4> op11_8,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType Ty, SDNode ShOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst), (ins DPR:$src1, DPR_VFP2:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (Ty DPR:$dst),
(Ty (ShOp (Ty DPR:$src1),
(Ty (NEONvduplane (Ty DPR_VFP2:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VDSL16<bits<2> op21_20, bits<4> op11_8,
string OpcodeStr, string Dt, ValueType Ty, SDNode ShOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst), (ins DPR:$src1, DPR_8:$src2, nohash_imm:$lane),
IIC_VMULi16D,
OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (Ty DPR:$dst),
(Ty (ShOp (Ty DPR:$src1),
(Ty (NEONvduplane (Ty DPR_8:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VQ<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy,
SDNode OpNode, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2), itin,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set QPR:$dst, (ResTy (OpNode (OpTy QPR:$src1), (OpTy QPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VQX<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr,
ValueType ResTy, ValueType OpTy,
SDNode OpNode, bit Commutable>
: N3VX<op24, op23, op21_20, op11_8, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2), itin,
OpcodeStr, "$dst, $src1, $src2", "",
[(set QPR:$dst, (ResTy (OpNode (OpTy QPR:$src1), (OpTy QPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VQSL<bits<2> op21_20, bits<4> op11_8,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, SDNode ShOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins QPR:$src1, DPR_VFP2:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (ShOp (ResTy QPR:$src1),
(ResTy (NEONvduplane (OpTy DPR_VFP2:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VQSL16<bits<2> op21_20, bits<4> op11_8,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, SDNode ShOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins QPR:$src1, DPR_8:$src2, nohash_imm:$lane),
IIC_VMULi16Q,
OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (ShOp (ResTy QPR:$src1),
(ResTy (NEONvduplane (OpTy DPR_8:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
// Basic 3-register operations, scalar single-precision
class N3VDs<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
SDNode OpNode, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR_VFP2:$dst), (ins DPR_VFP2:$src1, DPR_VFP2:$src2), IIC_VBIND,
OpcodeStr, Dt, "$dst, $src1, $src2", "", []> {
let isCommutable = Commutable;
}
class N3VDsPat<SDNode OpNode, NeonI Inst>
: NEONFPPat<(f32 (OpNode SPR:$a, SPR:$b)),
(EXTRACT_SUBREG
(Inst (INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$a, arm_ssubreg_0),
(INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$b, arm_ssubreg_0)),
arm_ssubreg_0)>;
// Basic 3-register intrinsics, both double- and quad-register.
class N3VDInt<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy,
Intrinsic IntOp, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2), itin,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set DPR:$dst, (ResTy (IntOp (OpTy DPR:$src1), (OpTy DPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VDIntSL<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt, ValueType Ty, Intrinsic IntOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst), (ins DPR:$src1, DPR_VFP2:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (Ty DPR:$dst),
(Ty (IntOp (Ty DPR:$src1),
(Ty (NEONvduplane (Ty DPR_VFP2:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VDIntSL16<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt, ValueType Ty, Intrinsic IntOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst), (ins DPR:$src1, DPR_8:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (Ty DPR:$dst),
(Ty (IntOp (Ty DPR:$src1),
(Ty (NEONvduplane (Ty DPR_8:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VQInt<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy,
Intrinsic IntOp, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2), itin,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set QPR:$dst, (ResTy (IntOp (OpTy QPR:$src1), (OpTy QPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VQIntSL<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins QPR:$src1, DPR_VFP2:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (ResTy QPR:$src1),
(ResTy (NEONvduplane (OpTy DPR_VFP2:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
class N3VQIntSL16<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins QPR:$src1, DPR_8:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (ResTy QPR:$src1),
(ResTy (NEONvduplane (OpTy DPR_8:$src2),
imm:$lane)))))]> {
let isCommutable = 0;
}
// Multiply-Add/Sub operations, both double- and quad-register.
class N3VDMulOp<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType Ty, SDNode MulOp, SDNode OpNode>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2, DPR:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst",
[(set DPR:$dst, (Ty (OpNode DPR:$src1,
(Ty (MulOp DPR:$src2, DPR:$src3)))))]>;
class N3VDMulOpSL<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType Ty, SDNode MulOp, SDNode ShOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst),
(ins DPR:$src1, DPR:$src2, DPR_VFP2:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (Ty DPR:$dst),
(Ty (ShOp (Ty DPR:$src1),
(Ty (MulOp DPR:$src2,
(Ty (NEONvduplane (Ty DPR_VFP2:$src3),
imm:$lane)))))))]>;
class N3VDMulOpSL16<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType Ty, SDNode MulOp, SDNode ShOp>
: N3V<0, 1, op21_20, op11_8, 1, 0,
(outs DPR:$dst),
(ins DPR:$src1, DPR:$src2, DPR_8:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (Ty DPR:$dst),
(Ty (ShOp (Ty DPR:$src1),
(Ty (MulOp DPR:$src2,
(Ty (NEONvduplane (Ty DPR_8:$src3),
imm:$lane)))))))]>;
class N3VQMulOp<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt, ValueType Ty,
SDNode MulOp, SDNode OpNode>
: N3V<op24, op23, op21_20, op11_8, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2, QPR:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst",
[(set QPR:$dst, (Ty (OpNode QPR:$src1,
(Ty (MulOp QPR:$src2, QPR:$src3)))))]>;
class N3VQMulOpSL<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
SDNode MulOp, SDNode ShOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst),
(ins QPR:$src1, QPR:$src2, DPR_VFP2:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (ResTy QPR:$dst),
(ResTy (ShOp (ResTy QPR:$src1),
(ResTy (MulOp QPR:$src2,
(ResTy (NEONvduplane (OpTy DPR_VFP2:$src3),
imm:$lane)))))))]>;
class N3VQMulOpSL16<bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy,
SDNode MulOp, SDNode ShOp>
: N3V<1, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst),
(ins QPR:$src1, QPR:$src2, DPR_8:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (ResTy QPR:$dst),
(ResTy (ShOp (ResTy QPR:$src1),
(ResTy (MulOp QPR:$src2,
(ResTy (NEONvduplane (OpTy DPR_8:$src3),
imm:$lane)))))))]>;
// Multiply-Add/Sub operations, scalar single-precision
class N3VDMulOps<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType Ty, SDNode MulOp, SDNode OpNode>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR_VFP2:$dst),
(ins DPR_VFP2:$src1, DPR_VFP2:$src2, DPR_VFP2:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst", []>;
class N3VDMulOpsPat<SDNode MulNode, SDNode OpNode, NeonI Inst>
: NEONFPPat<(f32 (OpNode SPR:$acc, (f32 (MulNode SPR:$a, SPR:$b)))),
(EXTRACT_SUBREG
(Inst (INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$acc, arm_ssubreg_0),
(INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$a, arm_ssubreg_0),
(INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$b, arm_ssubreg_0)),
arm_ssubreg_0)>;
// Neon 3-argument intrinsics, both double- and quad-register.
// The destination register is also used as the first source operand register.
class N3VDInt3<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2, DPR:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst",
[(set DPR:$dst, (ResTy (IntOp (OpTy DPR:$src1),
(OpTy DPR:$src2), (OpTy DPR:$src3))))]>;
class N3VQInt3<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<op24, op23, op21_20, op11_8, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2, QPR:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst",
[(set QPR:$dst, (ResTy (IntOp (OpTy QPR:$src1),
(OpTy QPR:$src2), (OpTy QPR:$src3))))]>;
// Neon Long 3-argument intrinsic. The destination register is
// a quad-register and is also used as the first source operand register.
class N3VLInt3<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType TyQ, ValueType TyD, Intrinsic IntOp>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs QPR:$dst), (ins QPR:$src1, DPR:$src2, DPR:$src3), itin,
OpcodeStr, Dt, "$dst, $src2, $src3", "$src1 = $dst",
[(set QPR:$dst,
(TyQ (IntOp (TyQ QPR:$src1), (TyD DPR:$src2), (TyD DPR:$src3))))]>;
class N3VLInt3SL<bit op24, bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<op24, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst),
(ins QPR:$src1, DPR:$src2, DPR_VFP2:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (ResTy QPR:$src1),
(OpTy DPR:$src2),
(OpTy (NEONvduplane (OpTy DPR_VFP2:$src3),
imm:$lane)))))]>;
class N3VLInt3SL16<bit op24, bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
Intrinsic IntOp>
: N3V<op24, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst),
(ins QPR:$src1, DPR:$src2, DPR_8:$src3, nohash_imm:$lane), itin,
OpcodeStr, Dt, "$dst, $src2, $src3[$lane]", "$src1 = $dst",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (ResTy QPR:$src1),
(OpTy DPR:$src2),
(OpTy (NEONvduplane (OpTy DPR_8:$src3),
imm:$lane)))))]>;
// Narrowing 3-register intrinsics.
class N3VNInt<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, ValueType TyD, ValueType TyQ,
Intrinsic IntOp, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs DPR:$dst), (ins QPR:$src1, QPR:$src2), IIC_VBINi4D,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set DPR:$dst, (TyD (IntOp (TyQ QPR:$src1), (TyQ QPR:$src2))))]> {
let isCommutable = Commutable;
}
// Long 3-register intrinsics.
class N3VLInt<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType TyQ, ValueType TyD, Intrinsic IntOp, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs QPR:$dst), (ins DPR:$src1, DPR:$src2), itin,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set QPR:$dst, (TyQ (IntOp (TyD DPR:$src1), (TyD DPR:$src2))))]> {
let isCommutable = Commutable;
}
class N3VLIntSL<bit op24, bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N3V<op24, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins DPR:$src1, DPR_VFP2:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (OpTy DPR:$src1),
(OpTy (NEONvduplane (OpTy DPR_VFP2:$src2),
imm:$lane)))))]>;
class N3VLIntSL16<bit op24, bits<2> op21_20, bits<4> op11_8, InstrItinClass itin,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
Intrinsic IntOp>
: N3V<op24, 1, op21_20, op11_8, 1, 0,
(outs QPR:$dst), (ins DPR:$src1, DPR_8:$src2, nohash_imm:$lane),
itin, OpcodeStr, Dt, "$dst, $src1, $src2[$lane]", "",
[(set (ResTy QPR:$dst),
(ResTy (IntOp (OpTy DPR:$src1),
(OpTy (NEONvduplane (OpTy DPR_8:$src2),
imm:$lane)))))]>;
// Wide 3-register intrinsics.
class N3VWInt<bit op24, bit op23, bits<2> op21_20, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, ValueType TyQ, ValueType TyD,
Intrinsic IntOp, bit Commutable>
: N3V<op24, op23, op21_20, op11_8, 0, op4,
(outs QPR:$dst), (ins QPR:$src1, DPR:$src2), IIC_VSUBiD,
OpcodeStr, Dt, "$dst, $src1, $src2", "",
[(set QPR:$dst, (TyQ (IntOp (TyQ QPR:$src1), (TyD DPR:$src2))))]> {
let isCommutable = Commutable;
}
// Pairwise long 2-register intrinsics, both double- and quad-register.
class N2VDPLInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4, (outs DPR:$dst),
(ins DPR:$src), IIC_VSHLiD, OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (ResTy (IntOp (OpTy DPR:$src))))]>;
class N2VQPLInt<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 1, op4, (outs QPR:$dst),
(ins QPR:$src), IIC_VSHLiD, OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (ResTy (IntOp (OpTy QPR:$src))))]>;
// Pairwise long 2-register accumulate intrinsics,
// both double- and quad-register.
// The destination register is also used as the first source operand register.
class N2VDPLInt2<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 0, op4,
(outs DPR:$dst), (ins DPR:$src1, DPR:$src2), IIC_VPALiD,
OpcodeStr, Dt, "$dst, $src2", "$src1 = $dst",
[(set DPR:$dst, (ResTy (IntOp (ResTy DPR:$src1), (OpTy DPR:$src2))))]>;
class N2VQPLInt2<bits<2> op24_23, bits<2> op21_20, bits<2> op19_18,
bits<2> op17_16, bits<5> op11_7, bit op4,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, Intrinsic IntOp>
: N2V<op24_23, op21_20, op19_18, op17_16, op11_7, 1, op4,
(outs QPR:$dst), (ins QPR:$src1, QPR:$src2), IIC_VPALiQ,
OpcodeStr, Dt, "$dst, $src2", "$src1 = $dst",
[(set QPR:$dst, (ResTy (IntOp (ResTy QPR:$src1), (OpTy QPR:$src2))))]>;
// Shift by immediate,
// both double- and quad-register.
class N2VDSh<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType Ty, SDNode OpNode>
: N2VImm<op24, op23, op11_8, op7, 0, op4,
(outs DPR:$dst), (ins DPR:$src, i32imm:$SIMM), itin,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set DPR:$dst, (Ty (OpNode (Ty DPR:$src), (i32 imm:$SIMM))))]>;
class N2VQSh<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType Ty, SDNode OpNode>
: N2VImm<op24, op23, op11_8, op7, 1, op4,
(outs QPR:$dst), (ins QPR:$src, i32imm:$SIMM), itin,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set QPR:$dst, (Ty (OpNode (Ty QPR:$src), (i32 imm:$SIMM))))]>;
// Long shift by immediate.
class N2VLSh<bit op24, bit op23, bits<4> op11_8, bit op7, bit op6, bit op4,
string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, SDNode OpNode>
: N2VImm<op24, op23, op11_8, op7, op6, op4,
(outs QPR:$dst), (ins DPR:$src, i32imm:$SIMM), IIC_VSHLiD,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set QPR:$dst, (ResTy (OpNode (OpTy DPR:$src),
(i32 imm:$SIMM))))]>;
// Narrow shift by immediate.
class N2VNSh<bit op24, bit op23, bits<4> op11_8, bit op7, bit op6, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy, SDNode OpNode>
: N2VImm<op24, op23, op11_8, op7, op6, op4,
(outs DPR:$dst), (ins QPR:$src, i32imm:$SIMM), itin,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set DPR:$dst, (ResTy (OpNode (OpTy QPR:$src),
(i32 imm:$SIMM))))]>;
// Shift right by immediate and accumulate,
// both double- and quad-register.
class N2VDShAdd<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType Ty, SDNode ShOp>
: N2VImm<op24, op23, op11_8, op7, 0, op4, (outs DPR:$dst),
(ins DPR:$src1, DPR:$src2, i32imm:$SIMM), IIC_VPALiD,
OpcodeStr, Dt, "$dst, $src2, $SIMM", "$src1 = $dst",
[(set DPR:$dst, (Ty (add DPR:$src1,
(Ty (ShOp DPR:$src2, (i32 imm:$SIMM))))))]>;
class N2VQShAdd<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType Ty, SDNode ShOp>
: N2VImm<op24, op23, op11_8, op7, 1, op4, (outs QPR:$dst),
(ins QPR:$src1, QPR:$src2, i32imm:$SIMM), IIC_VPALiD,
OpcodeStr, Dt, "$dst, $src2, $SIMM", "$src1 = $dst",
[(set QPR:$dst, (Ty (add QPR:$src1,
(Ty (ShOp QPR:$src2, (i32 imm:$SIMM))))))]>;
// Shift by immediate and insert,
// both double- and quad-register.
class N2VDShIns<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType Ty, SDNode ShOp>
: N2VImm<op24, op23, op11_8, op7, 0, op4, (outs DPR:$dst),
(ins DPR:$src1, DPR:$src2, i32imm:$SIMM), IIC_VSHLiD,
OpcodeStr, Dt, "$dst, $src2, $SIMM", "$src1 = $dst",
[(set DPR:$dst, (Ty (ShOp DPR:$src1, DPR:$src2, (i32 imm:$SIMM))))]>;
class N2VQShIns<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType Ty, SDNode ShOp>
: N2VImm<op24, op23, op11_8, op7, 1, op4, (outs QPR:$dst),
(ins QPR:$src1, QPR:$src2, i32imm:$SIMM), IIC_VSHLiQ,
OpcodeStr, Dt, "$dst, $src2, $SIMM", "$src1 = $dst",
[(set QPR:$dst, (Ty (ShOp QPR:$src1, QPR:$src2, (i32 imm:$SIMM))))]>;
// Convert, with fractional bits immediate,
// both double- and quad-register.
class N2VCvtD<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
Intrinsic IntOp>
: N2VImm<op24, op23, op11_8, op7, 0, op4,
(outs DPR:$dst), (ins DPR:$src, i32imm:$SIMM), IIC_VUNAD,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set DPR:$dst, (ResTy (IntOp (OpTy DPR:$src), (i32 imm:$SIMM))))]>;
class N2VCvtQ<bit op24, bit op23, bits<4> op11_8, bit op7, bit op4,
string OpcodeStr, string Dt, ValueType ResTy, ValueType OpTy,
Intrinsic IntOp>
: N2VImm<op24, op23, op11_8, op7, 1, op4,
(outs QPR:$dst), (ins QPR:$src, i32imm:$SIMM), IIC_VUNAQ,
OpcodeStr, Dt, "$dst, $src, $SIMM", "",
[(set QPR:$dst, (ResTy (IntOp (OpTy QPR:$src), (i32 imm:$SIMM))))]>;
//===----------------------------------------------------------------------===//
// Multiclasses
//===----------------------------------------------------------------------===//
// Abbreviations used in multiclass suffixes:
// Q = quarter int (8 bit) elements
// H = half int (16 bit) elements
// S = single int (32 bit) elements
// D = double int (64 bit) elements
// Neon 3-register vector operations.
// First with only element sizes of 8, 16 and 32 bits:
multiclass N3V_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt,
SDNode OpNode, bit Commutable = 0> {
// 64-bit vector types.
def v8i8 : N3VD<op24, op23, 0b00, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "8"),
v8i8, v8i8, OpNode, Commutable>;
def v4i16 : N3VD<op24, op23, 0b01, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "16"),
v4i16, v4i16, OpNode, Commutable>;
def v2i32 : N3VD<op24, op23, 0b10, op11_8, op4, itinD32,
OpcodeStr, !strconcat(Dt, "32"),
v2i32, v2i32, OpNode, Commutable>;
// 128-bit vector types.
def v16i8 : N3VQ<op24, op23, 0b00, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "8"),
v16i8, v16i8, OpNode, Commutable>;
def v8i16 : N3VQ<op24, op23, 0b01, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "16"),
v8i16, v8i16, OpNode, Commutable>;
def v4i32 : N3VQ<op24, op23, 0b10, op11_8, op4, itinQ32,
OpcodeStr, !strconcat(Dt, "32"),
v4i32, v4i32, OpNode, Commutable>;
}
multiclass N3VSL_HS<bits<4> op11_8, string OpcodeStr, string Dt, SDNode ShOp> {
def v4i16 : N3VDSL16<0b01, op11_8, OpcodeStr, !strconcat(Dt, "16"),
v4i16, ShOp>;
def v2i32 : N3VDSL<0b10, op11_8, IIC_VMULi32D, OpcodeStr, !strconcat(Dt,"32"),
v2i32, ShOp>;
def v8i16 : N3VQSL16<0b01, op11_8, OpcodeStr, !strconcat(Dt, "16"),
v8i16, v4i16, ShOp>;
def v4i32 : N3VQSL<0b10, op11_8, IIC_VMULi32Q, OpcodeStr, !strconcat(Dt,"32"),
v4i32, v2i32, ShOp>;
}
// ....then also with element size 64 bits:
multiclass N3V_QHSD<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD, InstrItinClass itinQ,
string OpcodeStr, string Dt,
SDNode OpNode, bit Commutable = 0>
: N3V_QHS<op24, op23, op11_8, op4, itinD, itinD, itinQ, itinQ,
OpcodeStr, Dt, OpNode, Commutable> {
def v1i64 : N3VD<op24, op23, 0b11, op11_8, op4, itinD,
OpcodeStr, !strconcat(Dt, "64"),
v1i64, v1i64, OpNode, Commutable>;
def v2i64 : N3VQ<op24, op23, 0b11, op11_8, op4, itinQ,
OpcodeStr, !strconcat(Dt, "64"),
v2i64, v2i64, OpNode, Commutable>;
}
// Neon Narrowing 2-register vector intrinsics,
// source operand element sizes of 16, 32 and 64 bits:
multiclass N2VNInt_HSD<bits<2> op24_23, bits<2> op21_20, bits<2> op17_16,
bits<5> op11_7, bit op6, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
Intrinsic IntOp> {
def v8i8 : N2VNInt<op24_23, op21_20, 0b00, op17_16, op11_7, op6, op4,
itin, OpcodeStr, !strconcat(Dt, "16"),
v8i8, v8i16, IntOp>;
def v4i16 : N2VNInt<op24_23, op21_20, 0b01, op17_16, op11_7, op6, op4,
itin, OpcodeStr, !strconcat(Dt, "32"),
v4i16, v4i32, IntOp>;
def v2i32 : N2VNInt<op24_23, op21_20, 0b10, op17_16, op11_7, op6, op4,
itin, OpcodeStr, !strconcat(Dt, "64"),
v2i32, v2i64, IntOp>;
}
// Neon Lengthening 2-register vector intrinsic (currently specific to VMOVL).
// source operand element sizes of 16, 32 and 64 bits:
multiclass N2VLInt_QHS<bits<2> op24_23, bits<5> op11_7, bit op6, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp> {
def v8i16 : N2VLInt<op24_23, 0b00, 0b10, 0b00, op11_7, op6, op4, IIC_VQUNAiD,
OpcodeStr, !strconcat(Dt, "8"), v8i16, v8i8, IntOp>;
def v4i32 : N2VLInt<op24_23, 0b01, 0b00, 0b00, op11_7, op6, op4, IIC_VQUNAiD,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v4i16, IntOp>;
def v2i64 : N2VLInt<op24_23, 0b10, 0b00, 0b00, op11_7, op6, op4, IIC_VQUNAiD,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v2i32, IntOp>;
}
// Neon 3-register vector intrinsics.
// First with only element sizes of 16 and 32 bits:
multiclass N3VInt_HS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0> {
// 64-bit vector types.
def v4i16 : N3VDInt<op24, op23, 0b01, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "16"),
v4i16, v4i16, IntOp, Commutable>;
def v2i32 : N3VDInt<op24, op23, 0b10, op11_8, op4, itinD32,
OpcodeStr, !strconcat(Dt, "32"),
v2i32, v2i32, IntOp, Commutable>;
// 128-bit vector types.
def v8i16 : N3VQInt<op24, op23, 0b01, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "16"),
v8i16, v8i16, IntOp, Commutable>;
def v4i32 : N3VQInt<op24, op23, 0b10, op11_8, op4, itinQ32,
OpcodeStr, !strconcat(Dt, "32"),
v4i32, v4i32, IntOp, Commutable>;
}
multiclass N3VIntSL_HS<bits<4> op11_8,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt, Intrinsic IntOp> {
def v4i16 : N3VDIntSL16<0b01, op11_8, itinD16,
OpcodeStr, !strconcat(Dt, "16"), v4i16, IntOp>;
def v2i32 : N3VDIntSL<0b10, op11_8, itinD32,
OpcodeStr, !strconcat(Dt, "32"), v2i32, IntOp>;
def v8i16 : N3VQIntSL16<0b01, op11_8, itinQ16,
OpcodeStr, !strconcat(Dt, "16"), v8i16, v4i16, IntOp>;
def v4i32 : N3VQIntSL<0b10, op11_8, itinQ32,
OpcodeStr, !strconcat(Dt, "32"), v4i32, v2i32, IntOp>;
}
// ....then also with element size of 8 bits:
multiclass N3VInt_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0>
: N3VInt_HS<op24, op23, op11_8, op4, itinD16, itinD32, itinQ16, itinQ32,
OpcodeStr, Dt, IntOp, Commutable> {
def v8i8 : N3VDInt<op24, op23, 0b00, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "8"),
v8i8, v8i8, IntOp, Commutable>;
def v16i8 : N3VQInt<op24, op23, 0b00, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "8"),
v16i8, v16i8, IntOp, Commutable>;
}
// ....then also with element size of 64 bits:
multiclass N3VInt_QHSD<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0>
: N3VInt_QHS<op24, op23, op11_8, op4, itinD16, itinD32, itinQ16, itinQ32,
OpcodeStr, Dt, IntOp, Commutable> {
def v1i64 : N3VDInt<op24, op23, 0b11, op11_8, op4, itinD32,
OpcodeStr, !strconcat(Dt, "64"),
v1i64, v1i64, IntOp, Commutable>;
def v2i64 : N3VQInt<op24, op23, 0b11, op11_8, op4, itinQ32,
OpcodeStr, !strconcat(Dt, "64"),
v2i64, v2i64, IntOp, Commutable>;
}
// Neon Narrowing 3-register vector intrinsics,
// source operand element sizes of 16, 32 and 64 bits:
multiclass N3VNInt_HSD<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0> {
def v8i8 : N3VNInt<op24, op23, 0b00, op11_8, op4,
OpcodeStr, !strconcat(Dt, "16"),
v8i8, v8i16, IntOp, Commutable>;
def v4i16 : N3VNInt<op24, op23, 0b01, op11_8, op4,
OpcodeStr, !strconcat(Dt, "32"),
v4i16, v4i32, IntOp, Commutable>;
def v2i32 : N3VNInt<op24, op23, 0b10, op11_8, op4,
OpcodeStr, !strconcat(Dt, "64"),
v2i32, v2i64, IntOp, Commutable>;
}
// Neon Long 3-register vector intrinsics.
// First with only element sizes of 16 and 32 bits:
multiclass N3VLInt_HS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0> {
def v4i32 : N3VLInt<op24, op23, 0b01, op11_8, op4, itin,
OpcodeStr, !strconcat(Dt, "16"),
v4i32, v4i16, IntOp, Commutable>;
def v2i64 : N3VLInt<op24, op23, 0b10, op11_8, op4, itin,
OpcodeStr, !strconcat(Dt, "32"),
v2i64, v2i32, IntOp, Commutable>;
}
multiclass N3VLIntSL_HS<bit op24, bits<4> op11_8,
InstrItinClass itin, string OpcodeStr, string Dt,
Intrinsic IntOp> {
def v4i16 : N3VLIntSL16<op24, 0b01, op11_8, itin,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v4i16, IntOp>;
def v2i32 : N3VLIntSL<op24, 0b10, op11_8, itin,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v2i32, IntOp>;
}
// ....then also with element size of 8 bits:
multiclass N3VLInt_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0>
: N3VLInt_HS<op24, op23, op11_8, op4, itin, OpcodeStr, Dt,
IntOp, Commutable> {
def v8i16 : N3VLInt<op24, op23, 0b00, op11_8, op4, itin,
OpcodeStr, !strconcat(Dt, "8"),
v8i16, v8i8, IntOp, Commutable>;
}
// Neon Wide 3-register vector intrinsics,
// source operand element sizes of 8, 16 and 32 bits:
multiclass N3VWInt_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt,
Intrinsic IntOp, bit Commutable = 0> {
def v8i16 : N3VWInt<op24, op23, 0b00, op11_8, op4,
OpcodeStr, !strconcat(Dt, "8"),
v8i16, v8i8, IntOp, Commutable>;
def v4i32 : N3VWInt<op24, op23, 0b01, op11_8, op4,
OpcodeStr, !strconcat(Dt, "16"),
v4i32, v4i16, IntOp, Commutable>;
def v2i64 : N3VWInt<op24, op23, 0b10, op11_8, op4,
OpcodeStr, !strconcat(Dt, "32"),
v2i64, v2i32, IntOp, Commutable>;
}
// Neon Multiply-Op vector operations,
// element sizes of 8, 16 and 32 bits:
multiclass N3VMulOp_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt, SDNode OpNode> {
// 64-bit vector types.
def v8i8 : N3VDMulOp<op24, op23, 0b00, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "8"), v8i8, mul, OpNode>;
def v4i16 : N3VDMulOp<op24, op23, 0b01, op11_8, op4, itinD16,
OpcodeStr, !strconcat(Dt, "16"), v4i16, mul, OpNode>;
def v2i32 : N3VDMulOp<op24, op23, 0b10, op11_8, op4, itinD32,
OpcodeStr, !strconcat(Dt, "32"), v2i32, mul, OpNode>;
// 128-bit vector types.
def v16i8 : N3VQMulOp<op24, op23, 0b00, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "8"), v16i8, mul, OpNode>;
def v8i16 : N3VQMulOp<op24, op23, 0b01, op11_8, op4, itinQ16,
OpcodeStr, !strconcat(Dt, "16"), v8i16, mul, OpNode>;
def v4i32 : N3VQMulOp<op24, op23, 0b10, op11_8, op4, itinQ32,
OpcodeStr, !strconcat(Dt, "32"), v4i32, mul, OpNode>;
}
multiclass N3VMulOpSL_HS<bits<4> op11_8,
InstrItinClass itinD16, InstrItinClass itinD32,
InstrItinClass itinQ16, InstrItinClass itinQ32,
string OpcodeStr, string Dt, SDNode ShOp> {
def v4i16 : N3VDMulOpSL16<0b01, op11_8, itinD16,
OpcodeStr, !strconcat(Dt, "16"), v4i16, mul, ShOp>;
def v2i32 : N3VDMulOpSL<0b10, op11_8, itinD32,
OpcodeStr, !strconcat(Dt, "32"), v2i32, mul, ShOp>;
def v8i16 : N3VQMulOpSL16<0b01, op11_8, itinQ16,
OpcodeStr, !strconcat(Dt, "16"), v8i16, v4i16, mul, ShOp>;
def v4i32 : N3VQMulOpSL<0b10, op11_8, itinQ32,
OpcodeStr, !strconcat(Dt, "32"), v4i32, v2i32, mul, ShOp>;
}
// Neon 3-argument intrinsics,
// element sizes of 8, 16 and 32 bits:
multiclass N3VInt3_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp> {
// 64-bit vector types.
def v8i8 : N3VDInt3<op24, op23, 0b00, op11_8, op4, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt, "8"), v8i8, v8i8, IntOp>;
def v4i16 : N3VDInt3<op24, op23, 0b01, op11_8, op4, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt, "16"), v4i16, v4i16, IntOp>;
def v2i32 : N3VDInt3<op24, op23, 0b10, op11_8, op4, IIC_VMACi32D,
OpcodeStr, !strconcat(Dt, "32"), v2i32, v2i32, IntOp>;
// 128-bit vector types.
def v16i8 : N3VQInt3<op24, op23, 0b00, op11_8, op4, IIC_VMACi16Q,
OpcodeStr, !strconcat(Dt, "8"), v16i8, v16i8, IntOp>;
def v8i16 : N3VQInt3<op24, op23, 0b01, op11_8, op4, IIC_VMACi16Q,
OpcodeStr, !strconcat(Dt, "16"), v8i16, v8i16, IntOp>;
def v4i32 : N3VQInt3<op24, op23, 0b10, op11_8, op4, IIC_VMACi32Q,
OpcodeStr, !strconcat(Dt, "32"), v4i32, v4i32, IntOp>;
}
// Neon Long 3-argument intrinsics.
// First with only element sizes of 16 and 32 bits:
multiclass N3VLInt3_HS<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp> {
def v4i32 : N3VLInt3<op24, op23, 0b01, op11_8, op4, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v4i16, IntOp>;
def v2i64 : N3VLInt3<op24, op23, 0b10, op11_8, op4, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v2i32, IntOp>;
}
multiclass N3VLInt3SL_HS<bit op24, bits<4> op11_8,
string OpcodeStr, string Dt, Intrinsic IntOp> {
def v4i16 : N3VLInt3SL16<op24, 0b01, op11_8, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt,"16"), v4i32, v4i16, IntOp>;
def v2i32 : N3VLInt3SL<op24, 0b10, op11_8, IIC_VMACi32D,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v2i32, IntOp>;
}
// ....then also with element size of 8 bits:
multiclass N3VLInt3_QHS<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp>
: N3VLInt3_HS<op24, op23, op11_8, op4, OpcodeStr, Dt, IntOp> {
def v8i16 : N3VLInt3<op24, op23, 0b00, op11_8, op4, IIC_VMACi16D,
OpcodeStr, !strconcat(Dt, "8"), v8i16, v8i8, IntOp>;
}
// Neon 2-register vector intrinsics,
// element sizes of 8, 16 and 32 bits:
multiclass N2VInt_QHS<bits<2> op24_23, bits<2> op21_20, bits<2> op17_16,
bits<5> op11_7, bit op4,
InstrItinClass itinD, InstrItinClass itinQ,
string OpcodeStr, string Dt, Intrinsic IntOp> {
// 64-bit vector types.
def v8i8 : N2VDInt<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
itinD, OpcodeStr, !strconcat(Dt, "8"), v8i8, v8i8, IntOp>;
def v4i16 : N2VDInt<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
itinD, OpcodeStr, !strconcat(Dt, "16"), v4i16, v4i16, IntOp>;
def v2i32 : N2VDInt<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
itinD, OpcodeStr, !strconcat(Dt, "32"), v2i32, v2i32, IntOp>;
// 128-bit vector types.
def v16i8 : N2VQInt<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
itinQ, OpcodeStr, !strconcat(Dt, "8"), v16i8, v16i8, IntOp>;
def v8i16 : N2VQInt<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
itinQ, OpcodeStr, !strconcat(Dt, "16"), v8i16, v8i16, IntOp>;
def v4i32 : N2VQInt<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
itinQ, OpcodeStr, !strconcat(Dt, "32"), v4i32, v4i32, IntOp>;
}
// Neon Pairwise long 2-register intrinsics,
// element sizes of 8, 16 and 32 bits:
multiclass N2VPLInt_QHS<bits<2> op24_23, bits<2> op21_20, bits<2> op17_16,
bits<5> op11_7, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp> {
// 64-bit vector types.
def v8i8 : N2VDPLInt<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "8"), v4i16, v8i8, IntOp>;
def v4i16 : N2VDPLInt<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "16"), v2i32, v4i16, IntOp>;
def v2i32 : N2VDPLInt<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "32"), v1i64, v2i32, IntOp>;
// 128-bit vector types.
def v16i8 : N2VQPLInt<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "8"), v8i16, v16i8, IntOp>;
def v8i16 : N2VQPLInt<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v8i16, IntOp>;
def v4i32 : N2VQPLInt<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v4i32, IntOp>;
}
// Neon Pairwise long 2-register accumulate intrinsics,
// element sizes of 8, 16 and 32 bits:
multiclass N2VPLInt2_QHS<bits<2> op24_23, bits<2> op21_20, bits<2> op17_16,
bits<5> op11_7, bit op4,
string OpcodeStr, string Dt, Intrinsic IntOp> {
// 64-bit vector types.
def v8i8 : N2VDPLInt2<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "8"), v4i16, v8i8, IntOp>;
def v4i16 : N2VDPLInt2<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "16"), v2i32, v4i16, IntOp>;
def v2i32 : N2VDPLInt2<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "32"), v1i64, v2i32, IntOp>;
// 128-bit vector types.
def v16i8 : N2VQPLInt2<op24_23, op21_20, 0b00, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "8"), v8i16, v16i8, IntOp>;
def v8i16 : N2VQPLInt2<op24_23, op21_20, 0b01, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v8i16, IntOp>;
def v4i32 : N2VQPLInt2<op24_23, op21_20, 0b10, op17_16, op11_7, op4,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v4i32, IntOp>;
}
// Neon 2-register vector shift by immediate,
// element sizes of 8, 16, 32 and 64 bits:
multiclass N2VSh_QHSD<bit op24, bit op23, bits<4> op11_8, bit op4,
InstrItinClass itin, string OpcodeStr, string Dt,
SDNode OpNode> {
// 64-bit vector types.
def v8i8 : N2VDSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "8"), v8i8, OpNode> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v4i16 : N2VDSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "16"), v4i16, OpNode> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v2i32 : N2VDSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "32"), v2i32, OpNode> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v1i64 : N2VDSh<op24, op23, op11_8, 1, op4, itin,
OpcodeStr, !strconcat(Dt, "64"), v1i64, OpNode>;
// imm6 = xxxxxx
// 128-bit vector types.
def v16i8 : N2VQSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "8"), v16i8, OpNode> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v8i16 : N2VQSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "16"), v8i16, OpNode> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v4i32 : N2VQSh<op24, op23, op11_8, 0, op4, itin,
OpcodeStr, !strconcat(Dt, "32"), v4i32, OpNode> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v2i64 : N2VQSh<op24, op23, op11_8, 1, op4, itin,
OpcodeStr, !strconcat(Dt, "64"), v2i64, OpNode>;
// imm6 = xxxxxx
}
// Neon Shift-Accumulate vector operations,
// element sizes of 8, 16, 32 and 64 bits:
multiclass N2VShAdd_QHSD<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, string Dt, SDNode ShOp> {
// 64-bit vector types.
def v8i8 : N2VDShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "8"), v8i8, ShOp> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v4i16 : N2VDShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "16"), v4i16, ShOp> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v2i32 : N2VDShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "32"), v2i32, ShOp> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v1i64 : N2VDShAdd<op24, op23, op11_8, 1, op4,
OpcodeStr, !strconcat(Dt, "64"), v1i64, ShOp>;
// imm6 = xxxxxx
// 128-bit vector types.
def v16i8 : N2VQShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "8"), v16i8, ShOp> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v8i16 : N2VQShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "16"), v8i16, ShOp> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v4i32 : N2VQShAdd<op24, op23, op11_8, 0, op4,
OpcodeStr, !strconcat(Dt, "32"), v4i32, ShOp> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v2i64 : N2VQShAdd<op24, op23, op11_8, 1, op4,
OpcodeStr, !strconcat(Dt, "64"), v2i64, ShOp>;
// imm6 = xxxxxx
}
// Neon Shift-Insert vector operations,
// element sizes of 8, 16, 32 and 64 bits:
multiclass N2VShIns_QHSD<bit op24, bit op23, bits<4> op11_8, bit op4,
string OpcodeStr, SDNode ShOp> {
// 64-bit vector types.
def v8i8 : N2VDShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "8", v8i8, ShOp> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v4i16 : N2VDShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "16", v4i16, ShOp> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v2i32 : N2VDShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "32", v2i32, ShOp> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v1i64 : N2VDShIns<op24, op23, op11_8, 1, op4,
OpcodeStr, "64", v1i64, ShOp>;
// imm6 = xxxxxx
// 128-bit vector types.
def v16i8 : N2VQShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "8", v16i8, ShOp> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v8i16 : N2VQShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "16", v8i16, ShOp> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v4i32 : N2VQShIns<op24, op23, op11_8, 0, op4,
OpcodeStr, "32", v4i32, ShOp> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
def v2i64 : N2VQShIns<op24, op23, op11_8, 1, op4,
OpcodeStr, "64", v2i64, ShOp>;
// imm6 = xxxxxx
}
// Neon Shift Long operations,
// element sizes of 8, 16, 32 bits:
multiclass N2VLSh_QHS<bit op24, bit op23, bits<4> op11_8, bit op7, bit op6,
bit op4, string OpcodeStr, string Dt, SDNode OpNode> {
def v8i16 : N2VLSh<op24, op23, op11_8, op7, op6, op4,
OpcodeStr, !strconcat(Dt, "8"), v8i16, v8i8, OpNode> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v4i32 : N2VLSh<op24, op23, op11_8, op7, op6, op4,
OpcodeStr, !strconcat(Dt, "16"), v4i32, v4i16, OpNode> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v2i64 : N2VLSh<op24, op23, op11_8, op7, op6, op4,
OpcodeStr, !strconcat(Dt, "32"), v2i64, v2i32, OpNode> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
}
// Neon Shift Narrow operations,
// element sizes of 16, 32, 64 bits:
multiclass N2VNSh_HSD<bit op24, bit op23, bits<4> op11_8, bit op7, bit op6,
bit op4, InstrItinClass itin, string OpcodeStr, string Dt,
SDNode OpNode> {
def v8i8 : N2VNSh<op24, op23, op11_8, op7, op6, op4, itin,
OpcodeStr, !strconcat(Dt, "16"), v8i8, v8i16, OpNode> {
let Inst{21-19} = 0b001; // imm6 = 001xxx
}
def v4i16 : N2VNSh<op24, op23, op11_8, op7, op6, op4, itin,
OpcodeStr, !strconcat(Dt, "32"), v4i16, v4i32, OpNode> {
let Inst{21-20} = 0b01; // imm6 = 01xxxx
}
def v2i32 : N2VNSh<op24, op23, op11_8, op7, op6, op4, itin,
OpcodeStr, !strconcat(Dt, "64"), v2i32, v2i64, OpNode> {
let Inst{21} = 0b1; // imm6 = 1xxxxx
}
}
//===----------------------------------------------------------------------===//
// Instruction Definitions.
//===----------------------------------------------------------------------===//
// Vector Add Operations.
// VADD : Vector Add (integer and floating-point)
defm VADD : N3V_QHSD<0, 0, 0b1000, 0, IIC_VBINiD, IIC_VBINiQ, "vadd", "i",
add, 1>;
def VADDfd : N3VD<0, 0, 0b00, 0b1101, 0, IIC_VBIND, "vadd", "f32",
v2f32, v2f32, fadd, 1>;
def VADDfq : N3VQ<0, 0, 0b00, 0b1101, 0, IIC_VBINQ, "vadd", "f32",
v4f32, v4f32, fadd, 1>;
// VADDL : Vector Add Long (Q = D + D)
defm VADDLs : N3VLInt_QHS<0,1,0b0000,0, IIC_VSHLiD, "vaddl", "s",
int_arm_neon_vaddls, 1>;
defm VADDLu : N3VLInt_QHS<1,1,0b0000,0, IIC_VSHLiD, "vaddl", "u",
int_arm_neon_vaddlu, 1>;
// VADDW : Vector Add Wide (Q = Q + D)
defm VADDWs : N3VWInt_QHS<0,1,0b0001,0, "vaddw", "s", int_arm_neon_vaddws, 0>;
defm VADDWu : N3VWInt_QHS<1,1,0b0001,0, "vaddw", "u", int_arm_neon_vaddwu, 0>;
// VHADD : Vector Halving Add
defm VHADDs : N3VInt_QHS<0,0,0b0000,0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vhadd", "s", int_arm_neon_vhadds, 1>;
defm VHADDu : N3VInt_QHS<1,0,0b0000,0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vhadd", "u", int_arm_neon_vhaddu, 1>;
// VRHADD : Vector Rounding Halving Add
defm VRHADDs : N3VInt_QHS<0,0,0b0001,0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vrhadd", "s", int_arm_neon_vrhadds, 1>;
defm VRHADDu : N3VInt_QHS<1,0,0b0001,0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vrhadd", "u", int_arm_neon_vrhaddu, 1>;
// VQADD : Vector Saturating Add
defm VQADDs : N3VInt_QHSD<0,0,0b0000,1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vqadd", "s", int_arm_neon_vqadds, 1>;
defm VQADDu : N3VInt_QHSD<1,0,0b0000,1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vqadd", "u", int_arm_neon_vqaddu, 1>;
// VADDHN : Vector Add and Narrow Returning High Half (D = Q + Q)
defm VADDHN : N3VNInt_HSD<0,1,0b0100,0, "vaddhn", "i",
int_arm_neon_vaddhn, 1>;
// VRADDHN : Vector Rounding Add and Narrow Returning High Half (D = Q + Q)
defm VRADDHN : N3VNInt_HSD<1,1,0b0100,0, "vraddhn", "i",
int_arm_neon_vraddhn, 1>;
// Vector Multiply Operations.
// VMUL : Vector Multiply (integer, polynomial and floating-point)
defm VMUL : N3V_QHS<0, 0, 0b1001, 1, IIC_VMULi16D, IIC_VMULi32D,
IIC_VMULi16Q, IIC_VMULi32Q, "vmul", "i", mul, 1>;
def VMULpd : N3VDInt<1, 0, 0b00, 0b1001, 1, IIC_VMULi16D, "vmul", "p8",
v8i8, v8i8, int_arm_neon_vmulp, 1>;
def VMULpq : N3VQInt<1, 0, 0b00, 0b1001, 1, IIC_VMULi16Q, "vmul", "p8",
v16i8, v16i8, int_arm_neon_vmulp, 1>;
def VMULfd : N3VD<1, 0, 0b00, 0b1101, 1, IIC_VBIND, "vmul", "f32",
v2f32, v2f32, fmul, 1>;
def VMULfq : N3VQ<1, 0, 0b00, 0b1101, 1, IIC_VBINQ, "vmul", "f32",
v4f32, v4f32, fmul, 1>;
defm VMULsl : N3VSL_HS<0b1000, "vmul", "i", mul>;
def VMULslfd : N3VDSL<0b10, 0b1001, IIC_VBIND, "vmul", "f32", v2f32, fmul>;
def VMULslfq : N3VQSL<0b10, 0b1001, IIC_VBINQ, "vmul", "f32", v4f32, v2f32, fmul>;
def : Pat<(v8i16 (mul (v8i16 QPR:$src1),
(v8i16 (NEONvduplane (v8i16 QPR:$src2), imm:$lane)))),
(v8i16 (VMULslv8i16 (v8i16 QPR:$src1),
(v4i16 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (mul (v4i32 QPR:$src1),
(v4i32 (NEONvduplane (v4i32 QPR:$src2), imm:$lane)))),
(v4i32 (VMULslv4i32 (v4i32 QPR:$src1),
(v2i32 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
def : Pat<(v4f32 (fmul (v4f32 QPR:$src1),
(v4f32 (NEONvduplane (v4f32 QPR:$src2), imm:$lane)))),
(v4f32 (VMULslfq (v4f32 QPR:$src1),
(v2f32 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
// VQDMULH : Vector Saturating Doubling Multiply Returning High Half
defm VQDMULH : N3VInt_HS<0, 0, 0b1011, 0, IIC_VMULi16D, IIC_VMULi32D,
IIC_VMULi16Q, IIC_VMULi32Q,
"vqdmulh", "s", int_arm_neon_vqdmulh, 1>;
defm VQDMULHsl: N3VIntSL_HS<0b1100, IIC_VMULi16D, IIC_VMULi32D,
IIC_VMULi16Q, IIC_VMULi32Q,
"vqdmulh", "s", int_arm_neon_vqdmulh>;
def : Pat<(v8i16 (int_arm_neon_vqdmulh (v8i16 QPR:$src1),
(v8i16 (NEONvduplane (v8i16 QPR:$src2),
imm:$lane)))),
(v8i16 (VQDMULHslv8i16 (v8i16 QPR:$src1),
(v4i16 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (int_arm_neon_vqdmulh (v4i32 QPR:$src1),
(v4i32 (NEONvduplane (v4i32 QPR:$src2),
imm:$lane)))),
(v4i32 (VQDMULHslv4i32 (v4i32 QPR:$src1),
(v2i32 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
// VQRDMULH : Vector Rounding Saturating Doubling Multiply Returning High Half
defm VQRDMULH : N3VInt_HS<1, 0, 0b1011, 0, IIC_VMULi16D, IIC_VMULi32D,
IIC_VMULi16Q, IIC_VMULi32Q,
"vqrdmulh", "s", int_arm_neon_vqrdmulh, 1>;
defm VQRDMULHsl : N3VIntSL_HS<0b1101, IIC_VMULi16D, IIC_VMULi32D,
IIC_VMULi16Q, IIC_VMULi32Q,
"vqrdmulh", "s", int_arm_neon_vqrdmulh>;
def : Pat<(v8i16 (int_arm_neon_vqrdmulh (v8i16 QPR:$src1),
(v8i16 (NEONvduplane (v8i16 QPR:$src2),
imm:$lane)))),
(v8i16 (VQRDMULHslv8i16 (v8i16 QPR:$src1),
(v4i16 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (int_arm_neon_vqrdmulh (v4i32 QPR:$src1),
(v4i32 (NEONvduplane (v4i32 QPR:$src2),
imm:$lane)))),
(v4i32 (VQRDMULHslv4i32 (v4i32 QPR:$src1),
(v2i32 (EXTRACT_SUBREG QPR:$src2,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
// VMULL : Vector Multiply Long (integer and polynomial) (Q = D * D)
defm VMULLs : N3VLInt_QHS<0,1,0b1100,0, IIC_VMULi16D, "vmull", "s",
int_arm_neon_vmulls, 1>;
defm VMULLu : N3VLInt_QHS<1,1,0b1100,0, IIC_VMULi16D, "vmull", "u",
int_arm_neon_vmullu, 1>;
def VMULLp : N3VLInt<0, 1, 0b00, 0b1110, 0, IIC_VMULi16D, "vmull", "p8",
v8i16, v8i8, int_arm_neon_vmullp, 1>;
defm VMULLsls : N3VLIntSL_HS<0, 0b1010, IIC_VMULi16D, "vmull", "s",
int_arm_neon_vmulls>;
defm VMULLslu : N3VLIntSL_HS<1, 0b1010, IIC_VMULi16D, "vmull", "u",
int_arm_neon_vmullu>;
// VQDMULL : Vector Saturating Doubling Multiply Long (Q = D * D)
defm VQDMULL : N3VLInt_HS<0,1,0b1101,0, IIC_VMULi16D, "vqdmull", "s",
int_arm_neon_vqdmull, 1>;
defm VQDMULLsl: N3VLIntSL_HS<0, 0b1011, IIC_VMULi16D, "vqdmull", "s",
int_arm_neon_vqdmull>;
// Vector Multiply-Accumulate and Multiply-Subtract Operations.
// VMLA : Vector Multiply Accumulate (integer and floating-point)
defm VMLA : N3VMulOp_QHS<0, 0, 0b1001, 0, IIC_VMACi16D, IIC_VMACi32D,
IIC_VMACi16Q, IIC_VMACi32Q, "vmla", "i", add>;
def VMLAfd : N3VDMulOp<0, 0, 0b00, 0b1101, 1, IIC_VMACD, "vmla", "f32",
v2f32, fmul, fadd>;
def VMLAfq : N3VQMulOp<0, 0, 0b00, 0b1101, 1, IIC_VMACQ, "vmla", "f32",
v4f32, fmul, fadd>;
defm VMLAsl : N3VMulOpSL_HS<0b0000, IIC_VMACi16D, IIC_VMACi32D,
IIC_VMACi16Q, IIC_VMACi32Q, "vmla", "i", add>;
def VMLAslfd : N3VDMulOpSL<0b10, 0b0001, IIC_VMACD, "vmla", "f32",
v2f32, fmul, fadd>;
def VMLAslfq : N3VQMulOpSL<0b10, 0b0001, IIC_VMACQ, "vmla", "f32",
v4f32, v2f32, fmul, fadd>;
def : Pat<(v8i16 (add (v8i16 QPR:$src1),
(mul (v8i16 QPR:$src2),
(v8i16 (NEONvduplane (v8i16 QPR:$src3), imm:$lane))))),
(v8i16 (VMLAslv8i16 (v8i16 QPR:$src1),
(v8i16 QPR:$src2),
(v4i16 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (add (v4i32 QPR:$src1),
(mul (v4i32 QPR:$src2),
(v4i32 (NEONvduplane (v4i32 QPR:$src3), imm:$lane))))),
(v4i32 (VMLAslv4i32 (v4i32 QPR:$src1),
(v4i32 QPR:$src2),
(v2i32 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
def : Pat<(v4f32 (fadd (v4f32 QPR:$src1),
(fmul (v4f32 QPR:$src2),
(v4f32 (NEONvduplane (v4f32 QPR:$src3), imm:$lane))))),
(v4f32 (VMLAslfq (v4f32 QPR:$src1),
(v4f32 QPR:$src2),
(v2f32 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
// VMLAL : Vector Multiply Accumulate Long (Q += D * D)
defm VMLALs : N3VLInt3_QHS<0,1,0b1000,0, "vmlal", "s", int_arm_neon_vmlals>;
defm VMLALu : N3VLInt3_QHS<1,1,0b1000,0, "vmlal", "u", int_arm_neon_vmlalu>;
defm VMLALsls : N3VLInt3SL_HS<0, 0b0010, "vmlal", "s", int_arm_neon_vmlals>;
defm VMLALslu : N3VLInt3SL_HS<1, 0b0010, "vmlal", "u", int_arm_neon_vmlalu>;
// VQDMLAL : Vector Saturating Doubling Multiply Accumulate Long (Q += D * D)
defm VQDMLAL : N3VLInt3_HS<0, 1, 0b1001, 0, "vqdmlal", "s",
int_arm_neon_vqdmlal>;
defm VQDMLALsl: N3VLInt3SL_HS<0, 0b0011, "vqdmlal", "s", int_arm_neon_vqdmlal>;
// VMLS : Vector Multiply Subtract (integer and floating-point)
defm VMLS : N3VMulOp_QHS<1, 0, 0b1001, 0, IIC_VMACi16D, IIC_VMACi32D,
IIC_VMACi16Q, IIC_VMACi32Q, "vmls", "i", sub>;
def VMLSfd : N3VDMulOp<0, 0, 0b10, 0b1101, 1, IIC_VMACD, "vmls", "f32",
v2f32, fmul, fsub>;
def VMLSfq : N3VQMulOp<0, 0, 0b10, 0b1101, 1, IIC_VMACQ, "vmls", "f32",
v4f32, fmul, fsub>;
defm VMLSsl : N3VMulOpSL_HS<0b0100, IIC_VMACi16D, IIC_VMACi32D,
IIC_VMACi16Q, IIC_VMACi32Q, "vmls", "i", sub>;
def VMLSslfd : N3VDMulOpSL<0b10, 0b0101, IIC_VMACD, "vmls", "f32",
v2f32, fmul, fsub>;
def VMLSslfq : N3VQMulOpSL<0b10, 0b0101, IIC_VMACQ, "vmls", "f32",
v4f32, v2f32, fmul, fsub>;
def : Pat<(v8i16 (sub (v8i16 QPR:$src1),
(mul (v8i16 QPR:$src2),
(v8i16 (NEONvduplane (v8i16 QPR:$src3), imm:$lane))))),
(v8i16 (VMLSslv8i16 (v8i16 QPR:$src1),
(v8i16 QPR:$src2),
(v4i16 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (sub (v4i32 QPR:$src1),
(mul (v4i32 QPR:$src2),
(v4i32 (NEONvduplane (v4i32 QPR:$src3), imm:$lane))))),
(v4i32 (VMLSslv4i32 (v4i32 QPR:$src1),
(v4i32 QPR:$src2),
(v2i32 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
def : Pat<(v4f32 (fsub (v4f32 QPR:$src1),
(fmul (v4f32 QPR:$src2),
(v4f32 (NEONvduplane (v4f32 QPR:$src3), imm:$lane))))),
(v4f32 (VMLSslfq (v4f32 QPR:$src1),
(v4f32 QPR:$src2),
(v2f32 (EXTRACT_SUBREG QPR:$src3,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
// VMLSL : Vector Multiply Subtract Long (Q -= D * D)
defm VMLSLs : N3VLInt3_QHS<0,1,0b1010,0, "vmlsl", "s", int_arm_neon_vmlsls>;
defm VMLSLu : N3VLInt3_QHS<1,1,0b1010,0, "vmlsl", "u", int_arm_neon_vmlslu>;
defm VMLSLsls : N3VLInt3SL_HS<0, 0b0110, "vmlsl", "s", int_arm_neon_vmlsls>;
defm VMLSLslu : N3VLInt3SL_HS<1, 0b0110, "vmlsl", "u", int_arm_neon_vmlslu>;
// VQDMLSL : Vector Saturating Doubling Multiply Subtract Long (Q -= D * D)
defm VQDMLSL : N3VLInt3_HS<0, 1, 0b1011, 0, "vqdmlsl", "s",
int_arm_neon_vqdmlsl>;
defm VQDMLSLsl: N3VLInt3SL_HS<0, 0b111, "vqdmlsl", "s", int_arm_neon_vqdmlsl>;
// Vector Subtract Operations.
// VSUB : Vector Subtract (integer and floating-point)
defm VSUB : N3V_QHSD<1, 0, 0b1000, 0, IIC_VSUBiD, IIC_VSUBiQ,
"vsub", "i", sub, 0>;
def VSUBfd : N3VD<0, 0, 0b10, 0b1101, 0, IIC_VBIND, "vsub", "f32",
v2f32, v2f32, fsub, 0>;
def VSUBfq : N3VQ<0, 0, 0b10, 0b1101, 0, IIC_VBINQ, "vsub", "f32",
v4f32, v4f32, fsub, 0>;
// VSUBL : Vector Subtract Long (Q = D - D)
defm VSUBLs : N3VLInt_QHS<0,1,0b0010,0, IIC_VSHLiD, "vsubl", "s",
int_arm_neon_vsubls, 1>;
defm VSUBLu : N3VLInt_QHS<1,1,0b0010,0, IIC_VSHLiD, "vsubl", "u",
int_arm_neon_vsublu, 1>;
// VSUBW : Vector Subtract Wide (Q = Q - D)
defm VSUBWs : N3VWInt_QHS<0,1,0b0011,0, "vsubw", "s", int_arm_neon_vsubws, 0>;
defm VSUBWu : N3VWInt_QHS<1,1,0b0011,0, "vsubw", "u", int_arm_neon_vsubwu, 0>;
// VHSUB : Vector Halving Subtract
defm VHSUBs : N3VInt_QHS<0, 0, 0b0010, 0, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vhsub", "s", int_arm_neon_vhsubs, 0>;
defm VHSUBu : N3VInt_QHS<1, 0, 0b0010, 0, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vhsub", "u", int_arm_neon_vhsubu, 0>;
// VQSUB : Vector Saturing Subtract
defm VQSUBs : N3VInt_QHSD<0, 0, 0b0010, 1, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vqsub", "s", int_arm_neon_vqsubs, 0>;
defm VQSUBu : N3VInt_QHSD<1, 0, 0b0010, 1, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vqsub", "u", int_arm_neon_vqsubu, 0>;
// VSUBHN : Vector Subtract and Narrow Returning High Half (D = Q - Q)
defm VSUBHN : N3VNInt_HSD<0,1,0b0110,0, "vsubhn", "i",
int_arm_neon_vsubhn, 0>;
// VRSUBHN : Vector Rounding Subtract and Narrow Returning High Half (D=Q-Q)
defm VRSUBHN : N3VNInt_HSD<1,1,0b0110,0, "vrsubhn", "i",
int_arm_neon_vrsubhn, 0>;
// Vector Comparisons.
// VCEQ : Vector Compare Equal
defm VCEQ : N3V_QHS<1, 0, 0b1000, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vceq", "i", NEONvceq, 1>;
def VCEQfd : N3VD<0,0,0b00,0b1110,0, IIC_VBIND, "vceq", "f32", v2i32, v2f32,
NEONvceq, 1>;
def VCEQfq : N3VQ<0,0,0b00,0b1110,0, IIC_VBINQ, "vceq", "f32", v4i32, v4f32,
NEONvceq, 1>;
// VCGE : Vector Compare Greater Than or Equal
defm VCGEs : N3V_QHS<0, 0, 0b0011, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vcge", "s", NEONvcge, 0>;
defm VCGEu : N3V_QHS<1, 0, 0b0011, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vcge", "u", NEONvcgeu, 0>;
def VCGEfd : N3VD<1,0,0b00,0b1110,0, IIC_VBIND, "vcge", "f32",
v2i32, v2f32, NEONvcge, 0>;
def VCGEfq : N3VQ<1,0,0b00,0b1110,0, IIC_VBINQ, "vcge", "f32", v4i32, v4f32,
NEONvcge, 0>;
// VCGT : Vector Compare Greater Than
defm VCGTs : N3V_QHS<0, 0, 0b0011, 0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vcgt", "s", NEONvcgt, 0>;
defm VCGTu : N3V_QHS<1, 0, 0b0011, 0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vcgt", "u", NEONvcgtu, 0>;
def VCGTfd : N3VD<1,0,0b10,0b1110,0, IIC_VBIND, "vcgt", "f32", v2i32, v2f32,
NEONvcgt, 0>;
def VCGTfq : N3VQ<1,0,0b10,0b1110,0, IIC_VBINQ, "vcgt", "f32", v4i32, v4f32,
NEONvcgt, 0>;
// VACGE : Vector Absolute Compare Greater Than or Equal (aka VCAGE)
def VACGEd : N3VDInt<1, 0, 0b00, 0b1110, 1, IIC_VBIND, "vacge", "f32",
v2i32, v2f32, int_arm_neon_vacged, 0>;
def VACGEq : N3VQInt<1, 0, 0b00, 0b1110, 1, IIC_VBINQ, "vacge", "f32",
v4i32, v4f32, int_arm_neon_vacgeq, 0>;
// VACGT : Vector Absolute Compare Greater Than (aka VCAGT)
def VACGTd : N3VDInt<1, 0, 0b10, 0b1110, 1, IIC_VBIND, "vacgt", "f32",
v2i32, v2f32, int_arm_neon_vacgtd, 0>;
def VACGTq : N3VQInt<1, 0, 0b10, 0b1110, 1, IIC_VBINQ, "vacgt", "f32",
v4i32, v4f32, int_arm_neon_vacgtq, 0>;
// VTST : Vector Test Bits
defm VTST : N3V_QHS<0, 0, 0b1000, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vtst", "", NEONvtst, 1>;
// Vector Bitwise Operations.
// VAND : Vector Bitwise AND
def VANDd : N3VDX<0, 0, 0b00, 0b0001, 1, IIC_VBINiD, "vand",
v2i32, v2i32, and, 1>;
def VANDq : N3VQX<0, 0, 0b00, 0b0001, 1, IIC_VBINiQ, "vand",
v4i32, v4i32, and, 1>;
// VEOR : Vector Bitwise Exclusive OR
def VEORd : N3VDX<1, 0, 0b00, 0b0001, 1, IIC_VBINiD, "veor",
v2i32, v2i32, xor, 1>;
def VEORq : N3VQX<1, 0, 0b00, 0b0001, 1, IIC_VBINiQ, "veor",
v4i32, v4i32, xor, 1>;
// VORR : Vector Bitwise OR
def VORRd : N3VDX<0, 0, 0b10, 0b0001, 1, IIC_VBINiD, "vorr",
v2i32, v2i32, or, 1>;
def VORRq : N3VQX<0, 0, 0b10, 0b0001, 1, IIC_VBINiQ, "vorr",
v4i32, v4i32, or, 1>;
// VBIC : Vector Bitwise Bit Clear (AND NOT)
def VBICd : N3VX<0, 0, 0b01, 0b0001, 0, 1, (outs DPR:$dst),
(ins DPR:$src1, DPR:$src2), IIC_VBINiD,
"vbic", "$dst, $src1, $src2", "",
[(set DPR:$dst, (v2i32 (and DPR:$src1,
(vnot_conv DPR:$src2))))]>;
def VBICq : N3VX<0, 0, 0b01, 0b0001, 1, 1, (outs QPR:$dst),
(ins QPR:$src1, QPR:$src2), IIC_VBINiQ,
"vbic", "$dst, $src1, $src2", "",
[(set QPR:$dst, (v4i32 (and QPR:$src1,
(vnot_conv QPR:$src2))))]>;
// VORN : Vector Bitwise OR NOT
def VORNd : N3VX<0, 0, 0b11, 0b0001, 0, 1, (outs DPR:$dst),
(ins DPR:$src1, DPR:$src2), IIC_VBINiD,
"vorn", "$dst, $src1, $src2", "",
[(set DPR:$dst, (v2i32 (or DPR:$src1,
(vnot_conv DPR:$src2))))]>;
def VORNq : N3VX<0, 0, 0b11, 0b0001, 1, 1, (outs QPR:$dst),
(ins QPR:$src1, QPR:$src2), IIC_VBINiQ,
"vorn", "$dst, $src1, $src2", "",
[(set QPR:$dst, (v4i32 (or QPR:$src1,
(vnot_conv QPR:$src2))))]>;
// VMVN : Vector Bitwise NOT
def VMVNd : N2VX<0b11, 0b11, 0b00, 0b00, 0b01011, 0, 0,
(outs DPR:$dst), (ins DPR:$src), IIC_VSHLiD,
"vmvn", "$dst, $src", "",
[(set DPR:$dst, (v2i32 (vnot DPR:$src)))]>;
def VMVNq : N2VX<0b11, 0b11, 0b00, 0b00, 0b01011, 1, 0,
(outs QPR:$dst), (ins QPR:$src), IIC_VSHLiD,
"vmvn", "$dst, $src", "",
[(set QPR:$dst, (v4i32 (vnot QPR:$src)))]>;
def : Pat<(v2i32 (vnot_conv DPR:$src)), (VMVNd DPR:$src)>;
def : Pat<(v4i32 (vnot_conv QPR:$src)), (VMVNq QPR:$src)>;
// VBSL : Vector Bitwise Select
def VBSLd : N3VX<1, 0, 0b01, 0b0001, 0, 1, (outs DPR:$dst),
(ins DPR:$src1, DPR:$src2, DPR:$src3), IIC_VCNTiD,
"vbsl", "$dst, $src2, $src3", "$src1 = $dst",
[(set DPR:$dst,
(v2i32 (or (and DPR:$src2, DPR:$src1),
(and DPR:$src3, (vnot_conv DPR:$src1)))))]>;
def VBSLq : N3VX<1, 0, 0b01, 0b0001, 1, 1, (outs QPR:$dst),
(ins QPR:$src1, QPR:$src2, QPR:$src3), IIC_VCNTiQ,
"vbsl", "$dst, $src2, $src3", "$src1 = $dst",
[(set QPR:$dst,
(v4i32 (or (and QPR:$src2, QPR:$src1),
(and QPR:$src3, (vnot_conv QPR:$src1)))))]>;
// VBIF : Vector Bitwise Insert if False
// like VBSL but with: "vbif $dst, $src3, $src1", "$src2 = $dst",
// VBIT : Vector Bitwise Insert if True
// like VBSL but with: "vbit $dst, $src2, $src1", "$src3 = $dst",
// These are not yet implemented. The TwoAddress pass will not go looking
// for equivalent operations with different register constraints; it just
// inserts copies.
// Vector Absolute Differences.
// VABD : Vector Absolute Difference
defm VABDs : N3VInt_QHS<0, 0, 0b0111, 0, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vabd", "s", int_arm_neon_vabds, 0>;
defm VABDu : N3VInt_QHS<1, 0, 0b0111, 0, IIC_VBINi4D, IIC_VBINi4D,
IIC_VBINi4Q, IIC_VBINi4Q,
"vabd", "u", int_arm_neon_vabdu, 0>;
def VABDfd : N3VDInt<1, 0, 0b10, 0b1101, 0, IIC_VBIND,
"vabd", "f32", v2f32, v2f32, int_arm_neon_vabds, 0>;
def VABDfq : N3VQInt<1, 0, 0b10, 0b1101, 0, IIC_VBINQ,
"vabd", "f32", v4f32, v4f32, int_arm_neon_vabds, 0>;
// VABDL : Vector Absolute Difference Long (Q = | D - D |)
defm VABDLs : N3VLInt_QHS<0,1,0b0111,0, IIC_VBINi4Q,
"vabdl", "s", int_arm_neon_vabdls, 0>;
defm VABDLu : N3VLInt_QHS<1,1,0b0111,0, IIC_VBINi4Q,
"vabdl", "u", int_arm_neon_vabdlu, 0>;
// VABA : Vector Absolute Difference and Accumulate
defm VABAs : N3VInt3_QHS<0,0,0b0111,1, "vaba", "s", int_arm_neon_vabas>;
defm VABAu : N3VInt3_QHS<1,0,0b0111,1, "vaba", "u", int_arm_neon_vabau>;
// VABAL : Vector Absolute Difference and Accumulate Long (Q += | D - D |)
defm VABALs : N3VLInt3_QHS<0,1,0b0101,0, "vabal", "s", int_arm_neon_vabals>;
defm VABALu : N3VLInt3_QHS<1,1,0b0101,0, "vabal", "u", int_arm_neon_vabalu>;
// Vector Maximum and Minimum.
// VMAX : Vector Maximum
defm VMAXs : N3VInt_QHS<0, 0, 0b0110, 0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vmax", "s", int_arm_neon_vmaxs, 1>;
defm VMAXu : N3VInt_QHS<1, 0, 0b0110, 0, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vmax", "u", int_arm_neon_vmaxu, 1>;
def VMAXfd : N3VDInt<0, 0, 0b00, 0b1111, 0, IIC_VBIND, "vmax", "f32",
v2f32, v2f32, int_arm_neon_vmaxs, 1>;
def VMAXfq : N3VQInt<0, 0, 0b00, 0b1111, 0, IIC_VBINQ, "vmax", "f32",
v4f32, v4f32, int_arm_neon_vmaxs, 1>;
// VMIN : Vector Minimum
defm VMINs : N3VInt_QHS<0, 0, 0b0110, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vmin", "s", int_arm_neon_vmins, 1>;
defm VMINu : N3VInt_QHS<1, 0, 0b0110, 1, IIC_VBINi4D, IIC_VBINi4D, IIC_VBINi4Q,
IIC_VBINi4Q, "vmin", "u", int_arm_neon_vminu, 1>;
def VMINfd : N3VDInt<0, 0, 0b10, 0b1111, 0, IIC_VBIND, "vmin", "f32",
v2f32, v2f32, int_arm_neon_vmins, 1>;
def VMINfq : N3VQInt<0, 0, 0b10, 0b1111, 0, IIC_VBINQ, "vmin", "f32",
v4f32, v4f32, int_arm_neon_vmins, 1>;
// Vector Pairwise Operations.
// VPADD : Vector Pairwise Add
def VPADDi8 : N3VDInt<0, 0, 0b00, 0b1011, 1, IIC_VBINiD, "vpadd", "i8",
v8i8, v8i8, int_arm_neon_vpadd, 0>;
def VPADDi16 : N3VDInt<0, 0, 0b01, 0b1011, 1, IIC_VBINiD, "vpadd", "i16",
v4i16, v4i16, int_arm_neon_vpadd, 0>;
def VPADDi32 : N3VDInt<0, 0, 0b10, 0b1011, 1, IIC_VBINiD, "vpadd", "i32",
v2i32, v2i32, int_arm_neon_vpadd, 0>;
def VPADDf : N3VDInt<1, 0, 0b00, 0b1101, 0, IIC_VBIND, "vpadd", "f32",
v2f32, v2f32, int_arm_neon_vpadd, 0>;
// VPADDL : Vector Pairwise Add Long
defm VPADDLs : N2VPLInt_QHS<0b11, 0b11, 0b00, 0b00100, 0, "vpaddl", "s",
int_arm_neon_vpaddls>;
defm VPADDLu : N2VPLInt_QHS<0b11, 0b11, 0b00, 0b00101, 0, "vpaddl", "u",
int_arm_neon_vpaddlu>;
// VPADAL : Vector Pairwise Add and Accumulate Long
defm VPADALs : N2VPLInt2_QHS<0b11, 0b11, 0b00, 0b01100, 0, "vpadal", "s",
int_arm_neon_vpadals>;
defm VPADALu : N2VPLInt2_QHS<0b11, 0b11, 0b00, 0b01101, 0, "vpadal", "u",
int_arm_neon_vpadalu>;
// VPMAX : Vector Pairwise Maximum
def VPMAXs8 : N3VDInt<0, 0, 0b00, 0b1010, 0, IIC_VBINi4D, "vpmax", "s8",
v8i8, v8i8, int_arm_neon_vpmaxs, 0>;
def VPMAXs16 : N3VDInt<0, 0, 0b01, 0b1010, 0, IIC_VBINi4D, "vpmax", "s16",
v4i16, v4i16, int_arm_neon_vpmaxs, 0>;
def VPMAXs32 : N3VDInt<0, 0, 0b10, 0b1010, 0, IIC_VBINi4D, "vpmax", "s32",
v2i32, v2i32, int_arm_neon_vpmaxs, 0>;
def VPMAXu8 : N3VDInt<1, 0, 0b00, 0b1010, 0, IIC_VBINi4D, "vpmax", "u8",
v8i8, v8i8, int_arm_neon_vpmaxu, 0>;
def VPMAXu16 : N3VDInt<1, 0, 0b01, 0b1010, 0, IIC_VBINi4D, "vpmax", "u16",
v4i16, v4i16, int_arm_neon_vpmaxu, 0>;
def VPMAXu32 : N3VDInt<1, 0, 0b10, 0b1010, 0, IIC_VBINi4D, "vpmax", "u32",
v2i32, v2i32, int_arm_neon_vpmaxu, 0>;
def VPMAXf : N3VDInt<1, 0, 0b00, 0b1111, 0, IIC_VBINi4D, "vpmax", "f32",
v2f32, v2f32, int_arm_neon_vpmaxs, 0>;
// VPMIN : Vector Pairwise Minimum
def VPMINs8 : N3VDInt<0, 0, 0b00, 0b1010, 1, IIC_VBINi4D, "vpmin", "s8",
v8i8, v8i8, int_arm_neon_vpmins, 0>;
def VPMINs16 : N3VDInt<0, 0, 0b01, 0b1010, 1, IIC_VBINi4D, "vpmin", "s16",
v4i16, v4i16, int_arm_neon_vpmins, 0>;
def VPMINs32 : N3VDInt<0, 0, 0b10, 0b1010, 1, IIC_VBINi4D, "vpmin", "s32",
v2i32, v2i32, int_arm_neon_vpmins, 0>;
def VPMINu8 : N3VDInt<1, 0, 0b00, 0b1010, 1, IIC_VBINi4D, "vpmin", "u8",
v8i8, v8i8, int_arm_neon_vpminu, 0>;
def VPMINu16 : N3VDInt<1, 0, 0b01, 0b1010, 1, IIC_VBINi4D, "vpmin", "u16",
v4i16, v4i16, int_arm_neon_vpminu, 0>;
def VPMINu32 : N3VDInt<1, 0, 0b10, 0b1010, 1, IIC_VBINi4D, "vpmin", "u32",
v2i32, v2i32, int_arm_neon_vpminu, 0>;
def VPMINf : N3VDInt<1, 0, 0b10, 0b1111, 0, IIC_VBINi4D, "vpmin", "f32",
v2f32, v2f32, int_arm_neon_vpmins, 0>;
// Vector Reciprocal and Reciprocal Square Root Estimate and Step.
// VRECPE : Vector Reciprocal Estimate
def VRECPEd : N2VDInt<0b11, 0b11, 0b10, 0b11, 0b01000, 0,
IIC_VUNAD, "vrecpe", "u32",
v2i32, v2i32, int_arm_neon_vrecpe>;
def VRECPEq : N2VQInt<0b11, 0b11, 0b10, 0b11, 0b01000, 0,
IIC_VUNAQ, "vrecpe", "u32",
v4i32, v4i32, int_arm_neon_vrecpe>;
def VRECPEfd : N2VDInt<0b11, 0b11, 0b10, 0b11, 0b01010, 0,
IIC_VUNAD, "vrecpe", "f32",
v2f32, v2f32, int_arm_neon_vrecpe>;
def VRECPEfq : N2VQInt<0b11, 0b11, 0b10, 0b11, 0b01010, 0,
IIC_VUNAQ, "vrecpe", "f32",
v4f32, v4f32, int_arm_neon_vrecpe>;
// VRECPS : Vector Reciprocal Step
def VRECPSfd : N3VDInt<0, 0, 0b00, 0b1111, 1,
IIC_VRECSD, "vrecps", "f32",
v2f32, v2f32, int_arm_neon_vrecps, 1>;
def VRECPSfq : N3VQInt<0, 0, 0b00, 0b1111, 1,
IIC_VRECSQ, "vrecps", "f32",
v4f32, v4f32, int_arm_neon_vrecps, 1>;
// VRSQRTE : Vector Reciprocal Square Root Estimate
def VRSQRTEd : N2VDInt<0b11, 0b11, 0b10, 0b11, 0b01001, 0,
IIC_VUNAD, "vrsqrte", "u32",
v2i32, v2i32, int_arm_neon_vrsqrte>;
def VRSQRTEq : N2VQInt<0b11, 0b11, 0b10, 0b11, 0b01001, 0,
IIC_VUNAQ, "vrsqrte", "u32",
v4i32, v4i32, int_arm_neon_vrsqrte>;
def VRSQRTEfd : N2VDInt<0b11, 0b11, 0b10, 0b11, 0b01011, 0,
IIC_VUNAD, "vrsqrte", "f32",
v2f32, v2f32, int_arm_neon_vrsqrte>;
def VRSQRTEfq : N2VQInt<0b11, 0b11, 0b10, 0b11, 0b01011, 0,
IIC_VUNAQ, "vrsqrte", "f32",
v4f32, v4f32, int_arm_neon_vrsqrte>;
// VRSQRTS : Vector Reciprocal Square Root Step
def VRSQRTSfd : N3VDInt<0, 0, 0b10, 0b1111, 1,
IIC_VRECSD, "vrsqrts", "f32",
v2f32, v2f32, int_arm_neon_vrsqrts, 1>;
def VRSQRTSfq : N3VQInt<0, 0, 0b10, 0b1111, 1,
IIC_VRECSQ, "vrsqrts", "f32",
v4f32, v4f32, int_arm_neon_vrsqrts, 1>;
// Vector Shifts.
// VSHL : Vector Shift
defm VSHLs : N3VInt_QHSD<0, 0, 0b0100, 0, IIC_VSHLiD, IIC_VSHLiD, IIC_VSHLiQ,
IIC_VSHLiQ, "vshl", "s", int_arm_neon_vshifts, 0>;
defm VSHLu : N3VInt_QHSD<1, 0, 0b0100, 0, IIC_VSHLiD, IIC_VSHLiD, IIC_VSHLiQ,
IIC_VSHLiQ, "vshl", "u", int_arm_neon_vshiftu, 0>;
// VSHL : Vector Shift Left (Immediate)
defm VSHLi : N2VSh_QHSD<0, 1, 0b0101, 1, IIC_VSHLiD, "vshl", "i", NEONvshl>;
// VSHR : Vector Shift Right (Immediate)
defm VSHRs : N2VSh_QHSD<0, 1, 0b0000, 1, IIC_VSHLiD, "vshr", "s", NEONvshrs>;
defm VSHRu : N2VSh_QHSD<1, 1, 0b0000, 1, IIC_VSHLiD, "vshr", "u", NEONvshru>;
// VSHLL : Vector Shift Left Long
defm VSHLLs : N2VLSh_QHS<0, 1, 0b1010, 0, 0, 1, "vshll", "s", NEONvshlls>;
defm VSHLLu : N2VLSh_QHS<1, 1, 0b1010, 0, 0, 1, "vshll", "u", NEONvshllu>;
// VSHLL : Vector Shift Left Long (with maximum shift count)
class N2VLShMax<bit op24, bit op23, bits<6> op21_16, bits<4> op11_8, bit op7,
bit op6, bit op4, string OpcodeStr, string Dt, ValueType ResTy,
ValueType OpTy, SDNode OpNode>
: N2VLSh<op24, op23, op11_8, op7, op6, op4, OpcodeStr, Dt,
ResTy, OpTy, OpNode> {
let Inst{21-16} = op21_16;
}
def VSHLLi8 : N2VLShMax<1, 1, 0b110010, 0b0011, 0, 0, 0, "vshll", "i8",
v8i16, v8i8, NEONvshlli>;
def VSHLLi16 : N2VLShMax<1, 1, 0b110110, 0b0011, 0, 0, 0, "vshll", "i16",
v4i32, v4i16, NEONvshlli>;
def VSHLLi32 : N2VLShMax<1, 1, 0b111010, 0b0011, 0, 0, 0, "vshll", "i32",
v2i64, v2i32, NEONvshlli>;
// VSHRN : Vector Shift Right and Narrow
defm VSHRN : N2VNSh_HSD<0,1,0b1000,0,0,1, IIC_VSHLiD, "vshrn", "i", NEONvshrn>;
// VRSHL : Vector Rounding Shift
defm VRSHLs : N3VInt_QHSD<0,0,0b0101,0, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vrshl", "s", int_arm_neon_vrshifts, 0>;
defm VRSHLu : N3VInt_QHSD<1,0,0b0101,0, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vrshl", "u", int_arm_neon_vrshiftu, 0>;
// VRSHR : Vector Rounding Shift Right
defm VRSHRs : N2VSh_QHSD<0, 1, 0b0010, 1, IIC_VSHLi4D, "vrshr", "s", NEONvrshrs>;
defm VRSHRu : N2VSh_QHSD<1, 1, 0b0010, 1, IIC_VSHLi4D, "vrshr", "u", NEONvrshru>;
// VRSHRN : Vector Rounding Shift Right and Narrow
defm VRSHRN : N2VNSh_HSD<0, 1, 0b1000, 0, 1, 1, IIC_VSHLi4D, "vrshrn", "i",
NEONvrshrn>;
// VQSHL : Vector Saturating Shift
defm VQSHLs : N3VInt_QHSD<0,0,0b0100,1, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vqshl", "s", int_arm_neon_vqshifts, 0>;
defm VQSHLu : N3VInt_QHSD<1,0,0b0100,1, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vqshl", "u", int_arm_neon_vqshiftu, 0>;
// VQSHL : Vector Saturating Shift Left (Immediate)
defm VQSHLsi : N2VSh_QHSD<0, 1, 0b0111, 1, IIC_VSHLi4D, "vqshl", "s", NEONvqshls>;
defm VQSHLui : N2VSh_QHSD<1, 1, 0b0111, 1, IIC_VSHLi4D, "vqshl", "u", NEONvqshlu>;
// VQSHLU : Vector Saturating Shift Left (Immediate, Unsigned)
defm VQSHLsu : N2VSh_QHSD<1, 1, 0b0110, 1, IIC_VSHLi4D, "vqshlu", "s", NEONvqshlsu>;
// VQSHRN : Vector Saturating Shift Right and Narrow
defm VQSHRNs : N2VNSh_HSD<0, 1, 0b1001, 0, 0, 1, IIC_VSHLi4D, "vqshrn", "s",
NEONvqshrns>;
defm VQSHRNu : N2VNSh_HSD<1, 1, 0b1001, 0, 0, 1, IIC_VSHLi4D, "vqshrn", "u",
NEONvqshrnu>;
// VQSHRUN : Vector Saturating Shift Right and Narrow (Unsigned)
defm VQSHRUN : N2VNSh_HSD<1, 1, 0b1000, 0, 0, 1, IIC_VSHLi4D, "vqshrun", "s",
NEONvqshrnsu>;
// VQRSHL : Vector Saturating Rounding Shift
defm VQRSHLs : N3VInt_QHSD<0, 0, 0b0101, 1, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vqrshl", "s",
int_arm_neon_vqrshifts, 0>;
defm VQRSHLu : N3VInt_QHSD<1, 0, 0b0101, 1, IIC_VSHLi4D, IIC_VSHLi4D, IIC_VSHLi4Q,
IIC_VSHLi4Q, "vqrshl", "u",
int_arm_neon_vqrshiftu, 0>;
// VQRSHRN : Vector Saturating Rounding Shift Right and Narrow
defm VQRSHRNs : N2VNSh_HSD<0, 1, 0b1001, 0, 1, 1, IIC_VSHLi4D, "vqrshrn", "s",
NEONvqrshrns>;
defm VQRSHRNu : N2VNSh_HSD<1, 1, 0b1001, 0, 1, 1, IIC_VSHLi4D, "vqrshrn", "u",
NEONvqrshrnu>;
// VQRSHRUN : Vector Saturating Rounding Shift Right and Narrow (Unsigned)
defm VQRSHRUN : N2VNSh_HSD<1, 1, 0b1000, 0, 1, 1, IIC_VSHLi4D, "vqrshrun", "s",
NEONvqrshrnsu>;
// VSRA : Vector Shift Right and Accumulate
defm VSRAs : N2VShAdd_QHSD<0, 1, 0b0001, 1, "vsra", "s", NEONvshrs>;
defm VSRAu : N2VShAdd_QHSD<1, 1, 0b0001, 1, "vsra", "u", NEONvshru>;
// VRSRA : Vector Rounding Shift Right and Accumulate
defm VRSRAs : N2VShAdd_QHSD<0, 1, 0b0011, 1, "vrsra", "s", NEONvrshrs>;
defm VRSRAu : N2VShAdd_QHSD<1, 1, 0b0011, 1, "vrsra", "u", NEONvrshru>;
// VSLI : Vector Shift Left and Insert
defm VSLI : N2VShIns_QHSD<1, 1, 0b0101, 1, "vsli", NEONvsli>;
// VSRI : Vector Shift Right and Insert
defm VSRI : N2VShIns_QHSD<1, 1, 0b0100, 1, "vsri", NEONvsri>;
// Vector Absolute and Saturating Absolute.
// VABS : Vector Absolute Value
defm VABS : N2VInt_QHS<0b11, 0b11, 0b01, 0b00110, 0,
IIC_VUNAiD, IIC_VUNAiQ, "vabs", "s",
int_arm_neon_vabs>;
def VABSfd : N2VDInt<0b11, 0b11, 0b10, 0b01, 0b01110, 0,
IIC_VUNAD, "vabs", "f32",
v2f32, v2f32, int_arm_neon_vabs>;
def VABSfq : N2VQInt<0b11, 0b11, 0b10, 0b01, 0b01110, 0,
IIC_VUNAQ, "vabs", "f32",
v4f32, v4f32, int_arm_neon_vabs>;
// VQABS : Vector Saturating Absolute Value
defm VQABS : N2VInt_QHS<0b11, 0b11, 0b00, 0b01110, 0,
IIC_VQUNAiD, IIC_VQUNAiQ, "vqabs", "s",
int_arm_neon_vqabs>;
// Vector Negate.
def vneg : PatFrag<(ops node:$in), (sub immAllZerosV, node:$in)>;
def vneg_conv : PatFrag<(ops node:$in), (sub immAllZerosV_bc, node:$in)>;
class VNEGD<bits<2> size, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, size, 0b01, 0b00111, 0, 0, (outs DPR:$dst), (ins DPR:$src),
IIC_VSHLiD, OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (Ty (vneg DPR:$src)))]>;
class VNEGQ<bits<2> size, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, size, 0b01, 0b00111, 1, 0, (outs QPR:$dst), (ins QPR:$src),
IIC_VSHLiD, OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (Ty (vneg QPR:$src)))]>;
// VNEG : Vector Negate
def VNEGs8d : VNEGD<0b00, "vneg", "s8", v8i8>;
def VNEGs16d : VNEGD<0b01, "vneg", "s16", v4i16>;
def VNEGs32d : VNEGD<0b10, "vneg", "s32", v2i32>;
def VNEGs8q : VNEGQ<0b00, "vneg", "s8", v16i8>;
def VNEGs16q : VNEGQ<0b01, "vneg", "s16", v8i16>;
def VNEGs32q : VNEGQ<0b10, "vneg", "s32", v4i32>;
// VNEG : Vector Negate (floating-point)
def VNEGf32d : N2V<0b11, 0b11, 0b10, 0b01, 0b01111, 0, 0,
(outs DPR:$dst), (ins DPR:$src), IIC_VUNAD,
"vneg", "f32", "$dst, $src", "",
[(set DPR:$dst, (v2f32 (fneg DPR:$src)))]>;
def VNEGf32q : N2V<0b11, 0b11, 0b10, 0b01, 0b01111, 1, 0,
(outs QPR:$dst), (ins QPR:$src), IIC_VUNAQ,
"vneg", "f32", "$dst, $src", "",
[(set QPR:$dst, (v4f32 (fneg QPR:$src)))]>;
def : Pat<(v8i8 (vneg_conv DPR:$src)), (VNEGs8d DPR:$src)>;
def : Pat<(v4i16 (vneg_conv DPR:$src)), (VNEGs16d DPR:$src)>;
def : Pat<(v2i32 (vneg_conv DPR:$src)), (VNEGs32d DPR:$src)>;
def : Pat<(v16i8 (vneg_conv QPR:$src)), (VNEGs8q QPR:$src)>;
def : Pat<(v8i16 (vneg_conv QPR:$src)), (VNEGs16q QPR:$src)>;
def : Pat<(v4i32 (vneg_conv QPR:$src)), (VNEGs32q QPR:$src)>;
// VQNEG : Vector Saturating Negate
defm VQNEG : N2VInt_QHS<0b11, 0b11, 0b00, 0b01111, 0,
IIC_VQUNAiD, IIC_VQUNAiQ, "vqneg", "s",
int_arm_neon_vqneg>;
// Vector Bit Counting Operations.
// VCLS : Vector Count Leading Sign Bits
defm VCLS : N2VInt_QHS<0b11, 0b11, 0b00, 0b01000, 0,
IIC_VCNTiD, IIC_VCNTiQ, "vcls", "s",
int_arm_neon_vcls>;
// VCLZ : Vector Count Leading Zeros
defm VCLZ : N2VInt_QHS<0b11, 0b11, 0b00, 0b01001, 0,
IIC_VCNTiD, IIC_VCNTiQ, "vclz", "i",
int_arm_neon_vclz>;
// VCNT : Vector Count One Bits
def VCNTd : N2VDInt<0b11, 0b11, 0b00, 0b00, 0b01010, 0,
IIC_VCNTiD, "vcnt", "8",
v8i8, v8i8, int_arm_neon_vcnt>;
def VCNTq : N2VQInt<0b11, 0b11, 0b00, 0b00, 0b01010, 0,
IIC_VCNTiQ, "vcnt", "8",
v16i8, v16i8, int_arm_neon_vcnt>;
// Vector Move Operations.
// VMOV : Vector Move (Register)
def VMOVDneon: N3VX<0, 0, 0b10, 0b0001, 0, 1, (outs DPR:$dst), (ins DPR:$src),
IIC_VMOVD, "vmov", "$dst, $src", "", []>;
def VMOVQ : N3VX<0, 0, 0b10, 0b0001, 1, 1, (outs QPR:$dst), (ins QPR:$src),
IIC_VMOVD, "vmov", "$dst, $src", "", []>;
// VMOV : Vector Move (Immediate)
// VMOV_get_imm8 xform function: convert build_vector to VMOV.i8 imm.
def VMOV_get_imm8 : SDNodeXForm<build_vector, [{
return ARM::getVMOVImm(N, 1, *CurDAG);
}]>;
def vmovImm8 : PatLeaf<(build_vector), [{
return ARM::getVMOVImm(N, 1, *CurDAG).getNode() != 0;
}], VMOV_get_imm8>;
// VMOV_get_imm16 xform function: convert build_vector to VMOV.i16 imm.
def VMOV_get_imm16 : SDNodeXForm<build_vector, [{
return ARM::getVMOVImm(N, 2, *CurDAG);
}]>;
def vmovImm16 : PatLeaf<(build_vector), [{
return ARM::getVMOVImm(N, 2, *CurDAG).getNode() != 0;
}], VMOV_get_imm16>;
// VMOV_get_imm32 xform function: convert build_vector to VMOV.i32 imm.
def VMOV_get_imm32 : SDNodeXForm<build_vector, [{
return ARM::getVMOVImm(N, 4, *CurDAG);
}]>;
def vmovImm32 : PatLeaf<(build_vector), [{
return ARM::getVMOVImm(N, 4, *CurDAG).getNode() != 0;
}], VMOV_get_imm32>;
// VMOV_get_imm64 xform function: convert build_vector to VMOV.i64 imm.
def VMOV_get_imm64 : SDNodeXForm<build_vector, [{
return ARM::getVMOVImm(N, 8, *CurDAG);
}]>;
def vmovImm64 : PatLeaf<(build_vector), [{
return ARM::getVMOVImm(N, 8, *CurDAG).getNode() != 0;
}], VMOV_get_imm64>;
// Note: Some of the cmode bits in the following VMOV instructions need to
// be encoded based on the immed values.
def VMOVv8i8 : N1ModImm<1, 0b000, 0b1110, 0, 0, 0, 1, (outs DPR:$dst),
(ins h8imm:$SIMM), IIC_VMOVImm,
"vmov", "i8", "$dst, $SIMM", "",
[(set DPR:$dst, (v8i8 vmovImm8:$SIMM))]>;
def VMOVv16i8 : N1ModImm<1, 0b000, 0b1110, 0, 1, 0, 1, (outs QPR:$dst),
(ins h8imm:$SIMM), IIC_VMOVImm,
"vmov", "i8", "$dst, $SIMM", "",
[(set QPR:$dst, (v16i8 vmovImm8:$SIMM))]>;
def VMOVv4i16 : N1ModImm<1, 0b000, {1,0,?,?}, 0, 0, {?}, 1, (outs DPR:$dst),
(ins h16imm:$SIMM), IIC_VMOVImm,
"vmov", "i16", "$dst, $SIMM", "",
[(set DPR:$dst, (v4i16 vmovImm16:$SIMM))]>;
def VMOVv8i16 : N1ModImm<1, 0b000, {1,0,?,?}, 0, 1, {?}, 1, (outs QPR:$dst),
(ins h16imm:$SIMM), IIC_VMOVImm,
"vmov", "i16", "$dst, $SIMM", "",
[(set QPR:$dst, (v8i16 vmovImm16:$SIMM))]>;
def VMOVv2i32 : N1ModImm<1, 0b000, {?,?,?,?}, 0, 0, {?}, 1, (outs DPR:$dst),
(ins h32imm:$SIMM), IIC_VMOVImm,
"vmov", "i32", "$dst, $SIMM", "",
[(set DPR:$dst, (v2i32 vmovImm32:$SIMM))]>;
def VMOVv4i32 : N1ModImm<1, 0b000, {?,?,?,?}, 0, 1, {?}, 1, (outs QPR:$dst),
(ins h32imm:$SIMM), IIC_VMOVImm,
"vmov", "i32", "$dst, $SIMM", "",
[(set QPR:$dst, (v4i32 vmovImm32:$SIMM))]>;
def VMOVv1i64 : N1ModImm<1, 0b000, 0b1110, 0, 0, 1, 1, (outs DPR:$dst),
(ins h64imm:$SIMM), IIC_VMOVImm,
"vmov", "i64", "$dst, $SIMM", "",
[(set DPR:$dst, (v1i64 vmovImm64:$SIMM))]>;
def VMOVv2i64 : N1ModImm<1, 0b000, 0b1110, 0, 1, 1, 1, (outs QPR:$dst),
(ins h64imm:$SIMM), IIC_VMOVImm,
"vmov", "i64", "$dst, $SIMM", "",
[(set QPR:$dst, (v2i64 vmovImm64:$SIMM))]>;
// VMOV : Vector Get Lane (move scalar to ARM core register)
def VGETLNs8 : NVGetLane<{1,1,1,0,0,1,?,1}, 0b1011, {?,?},
(outs GPR:$dst), (ins DPR:$src, nohash_imm:$lane),
IIC_VMOVSI, "vmov", "s8", "$dst, $src[$lane]",
[(set GPR:$dst, (NEONvgetlanes (v8i8 DPR:$src),
imm:$lane))]>;
def VGETLNs16 : NVGetLane<{1,1,1,0,0,0,?,1}, 0b1011, {?,1},
(outs GPR:$dst), (ins DPR:$src, nohash_imm:$lane),
IIC_VMOVSI, "vmov", "s16", "$dst, $src[$lane]",
[(set GPR:$dst, (NEONvgetlanes (v4i16 DPR:$src),
imm:$lane))]>;
def VGETLNu8 : NVGetLane<{1,1,1,0,1,1,?,1}, 0b1011, {?,?},
(outs GPR:$dst), (ins DPR:$src, nohash_imm:$lane),
IIC_VMOVSI, "vmov", "u8", "$dst, $src[$lane]",
[(set GPR:$dst, (NEONvgetlaneu (v8i8 DPR:$src),
imm:$lane))]>;
def VGETLNu16 : NVGetLane<{1,1,1,0,1,0,?,1}, 0b1011, {?,1},
(outs GPR:$dst), (ins DPR:$src, nohash_imm:$lane),
IIC_VMOVSI, "vmov", "u16", "$dst, $src[$lane]",
[(set GPR:$dst, (NEONvgetlaneu (v4i16 DPR:$src),
imm:$lane))]>;
def VGETLNi32 : NVGetLane<{1,1,1,0,0,0,?,1}, 0b1011, 0b00,
(outs GPR:$dst), (ins DPR:$src, nohash_imm:$lane),
IIC_VMOVSI, "vmov", "32", "$dst, $src[$lane]",
[(set GPR:$dst, (extractelt (v2i32 DPR:$src),
imm:$lane))]>;
// def VGETLNf32: see FMRDH and FMRDL in ARMInstrVFP.td
def : Pat<(NEONvgetlanes (v16i8 QPR:$src), imm:$lane),
(VGETLNs8 (v8i8 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i8_reg imm:$lane))),
(SubReg_i8_lane imm:$lane))>;
def : Pat<(NEONvgetlanes (v8i16 QPR:$src), imm:$lane),
(VGETLNs16 (v4i16 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane))>;
def : Pat<(NEONvgetlaneu (v16i8 QPR:$src), imm:$lane),
(VGETLNu8 (v8i8 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i8_reg imm:$lane))),
(SubReg_i8_lane imm:$lane))>;
def : Pat<(NEONvgetlaneu (v8i16 QPR:$src), imm:$lane),
(VGETLNu16 (v4i16 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane))>;
def : Pat<(extractelt (v4i32 QPR:$src), imm:$lane),
(VGETLNi32 (v2i32 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane))>;
def : Pat<(extractelt (v2f32 DPR:$src1), imm:$src2),
(EXTRACT_SUBREG (v2f32 (COPY_TO_REGCLASS (v2f32 DPR:$src1), DPR_VFP2)),
(SSubReg_f32_reg imm:$src2))>;
def : Pat<(extractelt (v4f32 QPR:$src1), imm:$src2),
(EXTRACT_SUBREG (v4f32 (COPY_TO_REGCLASS (v4f32 QPR:$src1), QPR_VFP2)),
(SSubReg_f32_reg imm:$src2))>;
//def : Pat<(extractelt (v2i64 QPR:$src1), imm:$src2),
// (EXTRACT_SUBREG QPR:$src1, (DSubReg_f64_reg imm:$src2))>;
def : Pat<(extractelt (v2f64 QPR:$src1), imm:$src2),
(EXTRACT_SUBREG QPR:$src1, (DSubReg_f64_reg imm:$src2))>;
// VMOV : Vector Set Lane (move ARM core register to scalar)
let Constraints = "$src1 = $dst" in {
def VSETLNi8 : NVSetLane<{1,1,1,0,0,1,?,0}, 0b1011, {?,?}, (outs DPR:$dst),
(ins DPR:$src1, GPR:$src2, nohash_imm:$lane),
IIC_VMOVISL, "vmov", "8", "$dst[$lane], $src2",
[(set DPR:$dst, (vector_insert (v8i8 DPR:$src1),
GPR:$src2, imm:$lane))]>;
def VSETLNi16 : NVSetLane<{1,1,1,0,0,0,?,0}, 0b1011, {?,1}, (outs DPR:$dst),
(ins DPR:$src1, GPR:$src2, nohash_imm:$lane),
IIC_VMOVISL, "vmov", "16", "$dst[$lane], $src2",
[(set DPR:$dst, (vector_insert (v4i16 DPR:$src1),
GPR:$src2, imm:$lane))]>;
def VSETLNi32 : NVSetLane<{1,1,1,0,0,0,?,0}, 0b1011, 0b00, (outs DPR:$dst),
(ins DPR:$src1, GPR:$src2, nohash_imm:$lane),
IIC_VMOVISL, "vmov", "32", "$dst[$lane], $src2",
[(set DPR:$dst, (insertelt (v2i32 DPR:$src1),
GPR:$src2, imm:$lane))]>;
}
def : Pat<(vector_insert (v16i8 QPR:$src1), GPR:$src2, imm:$lane),
(v16i8 (INSERT_SUBREG QPR:$src1,
(VSETLNi8 (v8i8 (EXTRACT_SUBREG QPR:$src1,
(DSubReg_i8_reg imm:$lane))),
GPR:$src2, (SubReg_i8_lane imm:$lane)),
(DSubReg_i8_reg imm:$lane)))>;
def : Pat<(vector_insert (v8i16 QPR:$src1), GPR:$src2, imm:$lane),
(v8i16 (INSERT_SUBREG QPR:$src1,
(VSETLNi16 (v4i16 (EXTRACT_SUBREG QPR:$src1,
(DSubReg_i16_reg imm:$lane))),
GPR:$src2, (SubReg_i16_lane imm:$lane)),
(DSubReg_i16_reg imm:$lane)))>;
def : Pat<(insertelt (v4i32 QPR:$src1), GPR:$src2, imm:$lane),
(v4i32 (INSERT_SUBREG QPR:$src1,
(VSETLNi32 (v2i32 (EXTRACT_SUBREG QPR:$src1,
(DSubReg_i32_reg imm:$lane))),
GPR:$src2, (SubReg_i32_lane imm:$lane)),
(DSubReg_i32_reg imm:$lane)))>;
def : Pat<(v2f32 (insertelt DPR:$src1, SPR:$src2, imm:$src3)),
(INSERT_SUBREG (v2f32 (COPY_TO_REGCLASS DPR:$src1, DPR_VFP2)),
SPR:$src2, (SSubReg_f32_reg imm:$src3))>;
def : Pat<(v4f32 (insertelt QPR:$src1, SPR:$src2, imm:$src3)),
(INSERT_SUBREG (v4f32 (COPY_TO_REGCLASS QPR:$src1, QPR_VFP2)),
SPR:$src2, (SSubReg_f32_reg imm:$src3))>;
//def : Pat<(v2i64 (insertelt QPR:$src1, DPR:$src2, imm:$src3)),
// (INSERT_SUBREG QPR:$src1, DPR:$src2, (DSubReg_f64_reg imm:$src3))>;
def : Pat<(v2f64 (insertelt QPR:$src1, DPR:$src2, imm:$src3)),
(INSERT_SUBREG QPR:$src1, DPR:$src2, (DSubReg_f64_reg imm:$src3))>;
def : Pat<(v2f32 (scalar_to_vector SPR:$src)),
(INSERT_SUBREG (v2f32 (IMPLICIT_DEF)), SPR:$src, arm_ssubreg_0)>;
def : Pat<(v2f64 (scalar_to_vector DPR:$src)),
(INSERT_SUBREG (v2f64 (IMPLICIT_DEF)), DPR:$src, arm_dsubreg_0)>;
def : Pat<(v4f32 (scalar_to_vector SPR:$src)),
(INSERT_SUBREG (v4f32 (IMPLICIT_DEF)), SPR:$src, arm_ssubreg_0)>;
def : Pat<(v8i8 (scalar_to_vector GPR:$src)),
(VSETLNi8 (v8i8 (IMPLICIT_DEF)), GPR:$src, (i32 0))>;
def : Pat<(v4i16 (scalar_to_vector GPR:$src)),
(VSETLNi16 (v4i16 (IMPLICIT_DEF)), GPR:$src, (i32 0))>;
def : Pat<(v2i32 (scalar_to_vector GPR:$src)),
(VSETLNi32 (v2i32 (IMPLICIT_DEF)), GPR:$src, (i32 0))>;
def : Pat<(v16i8 (scalar_to_vector GPR:$src)),
(INSERT_SUBREG (v16i8 (IMPLICIT_DEF)),
(VSETLNi8 (v8i8 (IMPLICIT_DEF)), GPR:$src, (i32 0)),
arm_dsubreg_0)>;
def : Pat<(v8i16 (scalar_to_vector GPR:$src)),
(INSERT_SUBREG (v8i16 (IMPLICIT_DEF)),
(VSETLNi16 (v4i16 (IMPLICIT_DEF)), GPR:$src, (i32 0)),
arm_dsubreg_0)>;
def : Pat<(v4i32 (scalar_to_vector GPR:$src)),
(INSERT_SUBREG (v4i32 (IMPLICIT_DEF)),
(VSETLNi32 (v2i32 (IMPLICIT_DEF)), GPR:$src, (i32 0)),
arm_dsubreg_0)>;
// VDUP : Vector Duplicate (from ARM core register to all elements)
class VDUPD<bits<8> opcod1, bits<2> opcod3, string Dt, ValueType Ty>
: NVDup<opcod1, 0b1011, opcod3, (outs DPR:$dst), (ins GPR:$src),
IIC_VMOVIS, "vdup", Dt, "$dst, $src",
[(set DPR:$dst, (Ty (NEONvdup (i32 GPR:$src))))]>;
class VDUPQ<bits<8> opcod1, bits<2> opcod3, string Dt, ValueType Ty>
: NVDup<opcod1, 0b1011, opcod3, (outs QPR:$dst), (ins GPR:$src),
IIC_VMOVIS, "vdup", Dt, "$dst, $src",
[(set QPR:$dst, (Ty (NEONvdup (i32 GPR:$src))))]>;
def VDUP8d : VDUPD<0b11101100, 0b00, "8", v8i8>;
def VDUP16d : VDUPD<0b11101000, 0b01, "16", v4i16>;
def VDUP32d : VDUPD<0b11101000, 0b00, "32", v2i32>;
def VDUP8q : VDUPQ<0b11101110, 0b00, "8", v16i8>;
def VDUP16q : VDUPQ<0b11101010, 0b01, "16", v8i16>;
def VDUP32q : VDUPQ<0b11101010, 0b00, "32", v4i32>;
def VDUPfd : NVDup<0b11101000, 0b1011, 0b00, (outs DPR:$dst), (ins GPR:$src),
IIC_VMOVIS, "vdup", "32", "$dst, $src",
[(set DPR:$dst, (v2f32 (NEONvdup
(f32 (bitconvert GPR:$src)))))]>;
def VDUPfq : NVDup<0b11101010, 0b1011, 0b00, (outs QPR:$dst), (ins GPR:$src),
IIC_VMOVIS, "vdup", "32", "$dst, $src",
[(set QPR:$dst, (v4f32 (NEONvdup
(f32 (bitconvert GPR:$src)))))]>;
// VDUP : Vector Duplicate Lane (from scalar to all elements)
class VDUPLND<bits<2> op19_18, bits<2> op17_16,
string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, op17_16, 0b11000, 0, 0,
(outs DPR:$dst), (ins DPR:$src, nohash_imm:$lane), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src[$lane]", "",
[(set DPR:$dst, (Ty (NEONvduplane (Ty DPR:$src), imm:$lane)))]>;
class VDUPLNQ<bits<2> op19_18, bits<2> op17_16, string OpcodeStr, string Dt,
ValueType ResTy, ValueType OpTy>
: N2V<0b11, 0b11, op19_18, op17_16, 0b11000, 1, 0,
(outs QPR:$dst), (ins DPR:$src, nohash_imm:$lane), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src[$lane]", "",
[(set QPR:$dst, (ResTy (NEONvduplane (OpTy DPR:$src), imm:$lane)))]>;
// Inst{19-16} is partially specified depending on the element size.
def VDUPLN8d : VDUPLND<{?,?}, {?,1}, "vdup", "8", v8i8>;
def VDUPLN16d : VDUPLND<{?,?}, {1,0}, "vdup", "16", v4i16>;
def VDUPLN32d : VDUPLND<{?,1}, {0,0}, "vdup", "32", v2i32>;
def VDUPLNfd : VDUPLND<{?,1}, {0,0}, "vdup", "32", v2f32>;
def VDUPLN8q : VDUPLNQ<{?,?}, {?,1}, "vdup", "8", v16i8, v8i8>;
def VDUPLN16q : VDUPLNQ<{?,?}, {1,0}, "vdup", "16", v8i16, v4i16>;
def VDUPLN32q : VDUPLNQ<{?,1}, {0,0}, "vdup", "32", v4i32, v2i32>;
def VDUPLNfq : VDUPLNQ<{?,1}, {0,0}, "vdup", "32", v4f32, v2f32>;
def : Pat<(v16i8 (NEONvduplane (v16i8 QPR:$src), imm:$lane)),
(v16i8 (VDUPLN8q (v8i8 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i8_reg imm:$lane))),
(SubReg_i8_lane imm:$lane)))>;
def : Pat<(v8i16 (NEONvduplane (v8i16 QPR:$src), imm:$lane)),
(v8i16 (VDUPLN16q (v4i16 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i16_reg imm:$lane))),
(SubReg_i16_lane imm:$lane)))>;
def : Pat<(v4i32 (NEONvduplane (v4i32 QPR:$src), imm:$lane)),
(v4i32 (VDUPLN32q (v2i32 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
def : Pat<(v4f32 (NEONvduplane (v4f32 QPR:$src), imm:$lane)),
(v4f32 (VDUPLNfq (v2f32 (EXTRACT_SUBREG QPR:$src,
(DSubReg_i32_reg imm:$lane))),
(SubReg_i32_lane imm:$lane)))>;
def VDUPfdf : N2V<0b11, 0b11, {?,1}, {0,0}, 0b11000, 0, 0,
(outs DPR:$dst), (ins SPR:$src),
IIC_VMOVD, "vdup", "32", "$dst, ${src:lane}", "",
[(set DPR:$dst, (v2f32 (NEONvdup (f32 SPR:$src))))]>;
def VDUPfqf : N2V<0b11, 0b11, {?,1}, {0,0}, 0b11000, 1, 0,
(outs QPR:$dst), (ins SPR:$src),
IIC_VMOVD, "vdup", "32", "$dst, ${src:lane}", "",
[(set QPR:$dst, (v4f32 (NEONvdup (f32 SPR:$src))))]>;
def : Pat<(v2i64 (NEONvduplane (v2i64 QPR:$src), imm:$lane)),
(INSERT_SUBREG QPR:$src,
(i64 (EXTRACT_SUBREG QPR:$src, (DSubReg_f64_reg imm:$lane))),
(DSubReg_f64_other_reg imm:$lane))>;
def : Pat<(v2f64 (NEONvduplane (v2f64 QPR:$src), imm:$lane)),
(INSERT_SUBREG QPR:$src,
(f64 (EXTRACT_SUBREG QPR:$src, (DSubReg_f64_reg imm:$lane))),
(DSubReg_f64_other_reg imm:$lane))>;
// VMOVN : Vector Narrowing Move
defm VMOVN : N2VNInt_HSD<0b11,0b11,0b10,0b00100,0,0, IIC_VMOVD,
"vmovn", "i", int_arm_neon_vmovn>;
// VQMOVN : Vector Saturating Narrowing Move
defm VQMOVNs : N2VNInt_HSD<0b11,0b11,0b10,0b00101,0,0, IIC_VQUNAiD,
"vqmovn", "s", int_arm_neon_vqmovns>;
defm VQMOVNu : N2VNInt_HSD<0b11,0b11,0b10,0b00101,1,0, IIC_VQUNAiD,
"vqmovn", "u", int_arm_neon_vqmovnu>;
defm VQMOVNsu : N2VNInt_HSD<0b11,0b11,0b10,0b00100,1,0, IIC_VQUNAiD,
"vqmovun", "s", int_arm_neon_vqmovnsu>;
// VMOVL : Vector Lengthening Move
defm VMOVLs : N2VLInt_QHS<0b01,0b10100,0,1, "vmovl", "s",
int_arm_neon_vmovls>;
defm VMOVLu : N2VLInt_QHS<0b11,0b10100,0,1, "vmovl", "u",
int_arm_neon_vmovlu>;
// Vector Conversions.
// VCVT : Vector Convert Between Floating-Point and Integers
def VCVTf2sd : N2VD<0b11, 0b11, 0b10, 0b11, 0b01110, 0, "vcvt", "s32.f32",
v2i32, v2f32, fp_to_sint>;
def VCVTf2ud : N2VD<0b11, 0b11, 0b10, 0b11, 0b01111, 0, "vcvt", "u32.f32",
v2i32, v2f32, fp_to_uint>;
def VCVTs2fd : N2VD<0b11, 0b11, 0b10, 0b11, 0b01100, 0, "vcvt", "f32.s32",
v2f32, v2i32, sint_to_fp>;
def VCVTu2fd : N2VD<0b11, 0b11, 0b10, 0b11, 0b01101, 0, "vcvt", "f32.u32",
v2f32, v2i32, uint_to_fp>;
def VCVTf2sq : N2VQ<0b11, 0b11, 0b10, 0b11, 0b01110, 0, "vcvt", "s32.f32",
v4i32, v4f32, fp_to_sint>;
def VCVTf2uq : N2VQ<0b11, 0b11, 0b10, 0b11, 0b01111, 0, "vcvt", "u32.f32",
v4i32, v4f32, fp_to_uint>;
def VCVTs2fq : N2VQ<0b11, 0b11, 0b10, 0b11, 0b01100, 0, "vcvt", "f32.s32",
v4f32, v4i32, sint_to_fp>;
def VCVTu2fq : N2VQ<0b11, 0b11, 0b10, 0b11, 0b01101, 0, "vcvt", "f32.u32",
v4f32, v4i32, uint_to_fp>;
// VCVT : Vector Convert Between Floating-Point and Fixed-Point.
def VCVTf2xsd : N2VCvtD<0, 1, 0b1111, 0, 1, "vcvt", "s32.f32",
v2i32, v2f32, int_arm_neon_vcvtfp2fxs>;
def VCVTf2xud : N2VCvtD<1, 1, 0b1111, 0, 1, "vcvt", "u32.f32",
v2i32, v2f32, int_arm_neon_vcvtfp2fxu>;
def VCVTxs2fd : N2VCvtD<0, 1, 0b1110, 0, 1, "vcvt", "f32.s32",
v2f32, v2i32, int_arm_neon_vcvtfxs2fp>;
def VCVTxu2fd : N2VCvtD<1, 1, 0b1110, 0, 1, "vcvt", "f32.u32",
v2f32, v2i32, int_arm_neon_vcvtfxu2fp>;
def VCVTf2xsq : N2VCvtQ<0, 1, 0b1111, 0, 1, "vcvt", "s32.f32",
v4i32, v4f32, int_arm_neon_vcvtfp2fxs>;
def VCVTf2xuq : N2VCvtQ<1, 1, 0b1111, 0, 1, "vcvt", "u32.f32",
v4i32, v4f32, int_arm_neon_vcvtfp2fxu>;
def VCVTxs2fq : N2VCvtQ<0, 1, 0b1110, 0, 1, "vcvt", "f32.s32",
v4f32, v4i32, int_arm_neon_vcvtfxs2fp>;
def VCVTxu2fq : N2VCvtQ<1, 1, 0b1110, 0, 1, "vcvt", "f32.u32",
v4f32, v4i32, int_arm_neon_vcvtfxu2fp>;
// Vector Reverse.
// VREV64 : Vector Reverse elements within 64-bit doublewords
class VREV64D<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00000, 0, 0, (outs DPR:$dst),
(ins DPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (Ty (NEONvrev64 (Ty DPR:$src))))]>;
class VREV64Q<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00000, 1, 0, (outs QPR:$dst),
(ins QPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (Ty (NEONvrev64 (Ty QPR:$src))))]>;
def VREV64d8 : VREV64D<0b00, "vrev64", "8", v8i8>;
def VREV64d16 : VREV64D<0b01, "vrev64", "16", v4i16>;
def VREV64d32 : VREV64D<0b10, "vrev64", "32", v2i32>;
def VREV64df : VREV64D<0b10, "vrev64", "32", v2f32>;
def VREV64q8 : VREV64Q<0b00, "vrev64", "8", v16i8>;
def VREV64q16 : VREV64Q<0b01, "vrev64", "16", v8i16>;
def VREV64q32 : VREV64Q<0b10, "vrev64", "32", v4i32>;
def VREV64qf : VREV64Q<0b10, "vrev64", "32", v4f32>;
// VREV32 : Vector Reverse elements within 32-bit words
class VREV32D<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00001, 0, 0, (outs DPR:$dst),
(ins DPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (Ty (NEONvrev32 (Ty DPR:$src))))]>;
class VREV32Q<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00001, 1, 0, (outs QPR:$dst),
(ins QPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (Ty (NEONvrev32 (Ty QPR:$src))))]>;
def VREV32d8 : VREV32D<0b00, "vrev32", "8", v8i8>;
def VREV32d16 : VREV32D<0b01, "vrev32", "16", v4i16>;
def VREV32q8 : VREV32Q<0b00, "vrev32", "8", v16i8>;
def VREV32q16 : VREV32Q<0b01, "vrev32", "16", v8i16>;
// VREV16 : Vector Reverse elements within 16-bit halfwords
class VREV16D<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00010, 0, 0, (outs DPR:$dst),
(ins DPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set DPR:$dst, (Ty (NEONvrev16 (Ty DPR:$src))))]>;
class VREV16Q<bits<2> op19_18, string OpcodeStr, string Dt, ValueType Ty>
: N2V<0b11, 0b11, op19_18, 0b00, 0b00010, 1, 0, (outs QPR:$dst),
(ins QPR:$src), IIC_VMOVD,
OpcodeStr, Dt, "$dst, $src", "",
[(set QPR:$dst, (Ty (NEONvrev16 (Ty QPR:$src))))]>;
def VREV16d8 : VREV16D<0b00, "vrev16", "8", v8i8>;
def VREV16q8 : VREV16Q<0b00, "vrev16", "8", v16i8>;
// Other Vector Shuffles.
// VEXT : Vector Extract
class VEXTd<string OpcodeStr, string Dt, ValueType Ty>
: N3V<0,1,0b11,{?,?,?,?},0,0, (outs DPR:$dst),
(ins DPR:$lhs, DPR:$rhs, i32imm:$index), IIC_VEXTD,
OpcodeStr, Dt, "$dst, $lhs, $rhs, $index", "",
[(set DPR:$dst, (Ty (NEONvext (Ty DPR:$lhs),
(Ty DPR:$rhs), imm:$index)))]>;
class VEXTq<string OpcodeStr, string Dt, ValueType Ty>
: N3V<0,1,0b11,{?,?,?,?},1,0, (outs QPR:$dst),
(ins QPR:$lhs, QPR:$rhs, i32imm:$index), IIC_VEXTQ,
OpcodeStr, Dt, "$dst, $lhs, $rhs, $index", "",
[(set QPR:$dst, (Ty (NEONvext (Ty QPR:$lhs),
(Ty QPR:$rhs), imm:$index)))]>;
def VEXTd8 : VEXTd<"vext", "8", v8i8>;
def VEXTd16 : VEXTd<"vext", "16", v4i16>;
def VEXTd32 : VEXTd<"vext", "32", v2i32>;
def VEXTdf : VEXTd<"vext", "32", v2f32>;
def VEXTq8 : VEXTq<"vext", "8", v16i8>;
def VEXTq16 : VEXTq<"vext", "16", v8i16>;
def VEXTq32 : VEXTq<"vext", "32", v4i32>;
def VEXTqf : VEXTq<"vext", "32", v4f32>;
// VTRN : Vector Transpose
def VTRNd8 : N2VDShuffle<0b00, 0b00001, "vtrn", "8">;
def VTRNd16 : N2VDShuffle<0b01, 0b00001, "vtrn", "16">;
def VTRNd32 : N2VDShuffle<0b10, 0b00001, "vtrn", "32">;
def VTRNq8 : N2VQShuffle<0b00, 0b00001, IIC_VPERMQ, "vtrn", "8">;
def VTRNq16 : N2VQShuffle<0b01, 0b00001, IIC_VPERMQ, "vtrn", "16">;
def VTRNq32 : N2VQShuffle<0b10, 0b00001, IIC_VPERMQ, "vtrn", "32">;
// VUZP : Vector Unzip (Deinterleave)
def VUZPd8 : N2VDShuffle<0b00, 0b00010, "vuzp", "8">;
def VUZPd16 : N2VDShuffle<0b01, 0b00010, "vuzp", "16">;
def VUZPd32 : N2VDShuffle<0b10, 0b00010, "vuzp", "32">;
def VUZPq8 : N2VQShuffle<0b00, 0b00010, IIC_VPERMQ3, "vuzp", "8">;
def VUZPq16 : N2VQShuffle<0b01, 0b00010, IIC_VPERMQ3, "vuzp", "16">;
def VUZPq32 : N2VQShuffle<0b10, 0b00010, IIC_VPERMQ3, "vuzp", "32">;
// VZIP : Vector Zip (Interleave)
def VZIPd8 : N2VDShuffle<0b00, 0b00011, "vzip", "8">;
def VZIPd16 : N2VDShuffle<0b01, 0b00011, "vzip", "16">;
def VZIPd32 : N2VDShuffle<0b10, 0b00011, "vzip", "32">;
def VZIPq8 : N2VQShuffle<0b00, 0b00011, IIC_VPERMQ3, "vzip", "8">;
def VZIPq16 : N2VQShuffle<0b01, 0b00011, IIC_VPERMQ3, "vzip", "16">;
def VZIPq32 : N2VQShuffle<0b10, 0b00011, IIC_VPERMQ3, "vzip", "32">;
// Vector Table Lookup and Table Extension.
// VTBL : Vector Table Lookup
def VTBL1
: N3V<1,1,0b11,0b1000,0,0, (outs DPR:$dst),
(ins DPR:$tbl1, DPR:$src), IIC_VTB1,
"vtbl", "8", "$dst, \\{$tbl1\\}, $src", "",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbl1 DPR:$tbl1, DPR:$src)))]>;
let hasExtraSrcRegAllocReq = 1 in {
def VTBL2
: N3V<1,1,0b11,0b1001,0,0, (outs DPR:$dst),
(ins DPR:$tbl1, DPR:$tbl2, DPR:$src), IIC_VTB2,
"vtbl", "8", "$dst, \\{$tbl1, $tbl2\\}, $src", "",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbl2
DPR:$tbl1, DPR:$tbl2, DPR:$src)))]>;
def VTBL3
: N3V<1,1,0b11,0b1010,0,0, (outs DPR:$dst),
(ins DPR:$tbl1, DPR:$tbl2, DPR:$tbl3, DPR:$src), IIC_VTB3,
"vtbl", "8", "$dst, \\{$tbl1, $tbl2, $tbl3\\}, $src", "",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbl3
DPR:$tbl1, DPR:$tbl2, DPR:$tbl3, DPR:$src)))]>;
def VTBL4
: N3V<1,1,0b11,0b1011,0,0, (outs DPR:$dst),
(ins DPR:$tbl1, DPR:$tbl2, DPR:$tbl3, DPR:$tbl4, DPR:$src), IIC_VTB4,
"vtbl", "8", "$dst, \\{$tbl1, $tbl2, $tbl3, $tbl4\\}, $src", "",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbl4 DPR:$tbl1, DPR:$tbl2,
DPR:$tbl3, DPR:$tbl4, DPR:$src)))]>;
} // hasExtraSrcRegAllocReq = 1
// VTBX : Vector Table Extension
def VTBX1
: N3V<1,1,0b11,0b1000,1,0, (outs DPR:$dst),
(ins DPR:$orig, DPR:$tbl1, DPR:$src), IIC_VTBX1,
"vtbx", "8", "$dst, \\{$tbl1\\}, $src", "$orig = $dst",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbx1
DPR:$orig, DPR:$tbl1, DPR:$src)))]>;
let hasExtraSrcRegAllocReq = 1 in {
def VTBX2
: N3V<1,1,0b11,0b1001,1,0, (outs DPR:$dst),
(ins DPR:$orig, DPR:$tbl1, DPR:$tbl2, DPR:$src), IIC_VTBX2,
"vtbx", "8", "$dst, \\{$tbl1, $tbl2\\}, $src", "$orig = $dst",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbx2
DPR:$orig, DPR:$tbl1, DPR:$tbl2, DPR:$src)))]>;
def VTBX3
: N3V<1,1,0b11,0b1010,1,0, (outs DPR:$dst),
(ins DPR:$orig, DPR:$tbl1, DPR:$tbl2, DPR:$tbl3, DPR:$src), IIC_VTBX3,
"vtbx", "8", "$dst, \\{$tbl1, $tbl2, $tbl3\\}, $src", "$orig = $dst",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbx3 DPR:$orig, DPR:$tbl1,
DPR:$tbl2, DPR:$tbl3, DPR:$src)))]>;
def VTBX4
: N3V<1,1,0b11,0b1011,1,0, (outs DPR:$dst), (ins DPR:$orig, DPR:$tbl1,
DPR:$tbl2, DPR:$tbl3, DPR:$tbl4, DPR:$src), IIC_VTBX4,
"vtbx", "8", "$dst, \\{$tbl1, $tbl2, $tbl3, $tbl4\\}, $src",
"$orig = $dst",
[(set DPR:$dst, (v8i8 (int_arm_neon_vtbx4 DPR:$orig, DPR:$tbl1,
DPR:$tbl2, DPR:$tbl3, DPR:$tbl4, DPR:$src)))]>;
} // hasExtraSrcRegAllocReq = 1
//===----------------------------------------------------------------------===//
// NEON instructions for single-precision FP math
//===----------------------------------------------------------------------===//
// These need separate instructions because they must use DPR_VFP2 register
// class which have SPR sub-registers.
// Vector Add Operations used for single-precision FP
let neverHasSideEffects = 1 in
def VADDfd_sfp : N3VDs<0, 0, 0b00, 0b1101, 0, "vadd", "f32", v2f32, v2f32, fadd,1>;
def : N3VDsPat<fadd, VADDfd_sfp>;
// Vector Sub Operations used for single-precision FP
let neverHasSideEffects = 1 in
def VSUBfd_sfp : N3VDs<0, 0, 0b10, 0b1101, 0, "vsub", "f32", v2f32, v2f32, fsub,0>;
def : N3VDsPat<fsub, VSUBfd_sfp>;
// Vector Multiply Operations used for single-precision FP
let neverHasSideEffects = 1 in
def VMULfd_sfp : N3VDs<1, 0, 0b00, 0b1101, 1, "vmul", "f32", v2f32, v2f32, fmul,1>;
def : N3VDsPat<fmul, VMULfd_sfp>;
// Vector Multiply-Accumulate/Subtract used for single-precision FP
// vml[as].f32 can cause 4-8 cycle stalls in following ASIMD instructions, so
// we want to avoid them for now. e.g., alternating vmla/vadd instructions.
//let neverHasSideEffects = 1 in
//def VMLAfd_sfp : N3VDMulOps<0, 0, 0b00, 0b1101, 1, IIC_VMACD, "vmla", "f32", v2f32,fmul,fadd>;
//def : N3VDMulOpsPat<fmul, fadd, VMLAfd_sfp>;
//let neverHasSideEffects = 1 in
//def VMLSfd_sfp : N3VDMulOps<0, 0, 0b10, 0b1101, 1, IIC_VMACD, "vmls", "f32", v2f32,fmul,fsub>;
//def : N3VDMulOpsPat<fmul, fsub, VMLSfd_sfp>;
// Vector Absolute used for single-precision FP
let neverHasSideEffects = 1 in
def VABSfd_sfp : N2VDInts<0b11, 0b11, 0b10, 0b01, 0b01110, 0,
IIC_VUNAD, "vabs", "f32",
v2f32, v2f32, int_arm_neon_vabs>;
def : N2VDIntsPat<fabs, VABSfd_sfp>;
// Vector Negate used for single-precision FP
let neverHasSideEffects = 1 in
def VNEGf32d_sfp : N2V<0b11, 0b11, 0b10, 0b01, 0b01111, 0, 0,
(outs DPR_VFP2:$dst), (ins DPR_VFP2:$src), IIC_VUNAD,
"vneg", "f32", "$dst, $src", "", []>;
def : N2VDIntsPat<fneg, VNEGf32d_sfp>;
// Vector Convert between single-precision FP and integer
let neverHasSideEffects = 1 in
def VCVTf2sd_sfp : N2VDs<0b11, 0b11, 0b10, 0b11, 0b01110, 0, "vcvt", "s32.f32",
v2i32, v2f32, fp_to_sint>;
def : N2VDsPat<arm_ftosi, f32, v2f32, VCVTf2sd_sfp>;
let neverHasSideEffects = 1 in
def VCVTf2ud_sfp : N2VDs<0b11, 0b11, 0b10, 0b11, 0b01111, 0, "vcvt", "u32.f32",
v2i32, v2f32, fp_to_uint>;
def : N2VDsPat<arm_ftoui, f32, v2f32, VCVTf2ud_sfp>;
let neverHasSideEffects = 1 in
def VCVTs2fd_sfp : N2VDs<0b11, 0b11, 0b10, 0b11, 0b01100, 0, "vcvt", "f32.s32",
v2f32, v2i32, sint_to_fp>;
def : N2VDsPat<arm_sitof, f32, v2i32, VCVTs2fd_sfp>;
let neverHasSideEffects = 1 in
def VCVTu2fd_sfp : N2VDs<0b11, 0b11, 0b10, 0b11, 0b01101, 0, "vcvt", "f32.u32",
v2f32, v2i32, uint_to_fp>;
def : N2VDsPat<arm_uitof, f32, v2i32, VCVTu2fd_sfp>;
//===----------------------------------------------------------------------===//
// Non-Instruction Patterns
//===----------------------------------------------------------------------===//
// bit_convert
def : Pat<(v1i64 (bitconvert (v2i32 DPR:$src))), (v1i64 DPR:$src)>;
def : Pat<(v1i64 (bitconvert (v4i16 DPR:$src))), (v1i64 DPR:$src)>;
def : Pat<(v1i64 (bitconvert (v8i8 DPR:$src))), (v1i64 DPR:$src)>;
def : Pat<(v1i64 (bitconvert (f64 DPR:$src))), (v1i64 DPR:$src)>;
def : Pat<(v1i64 (bitconvert (v2f32 DPR:$src))), (v1i64 DPR:$src)>;
def : Pat<(v2i32 (bitconvert (v1i64 DPR:$src))), (v2i32 DPR:$src)>;
def : Pat<(v2i32 (bitconvert (v4i16 DPR:$src))), (v2i32 DPR:$src)>;
def : Pat<(v2i32 (bitconvert (v8i8 DPR:$src))), (v2i32 DPR:$src)>;
def : Pat<(v2i32 (bitconvert (f64 DPR:$src))), (v2i32 DPR:$src)>;
def : Pat<(v2i32 (bitconvert (v2f32 DPR:$src))), (v2i32 DPR:$src)>;
def : Pat<(v4i16 (bitconvert (v1i64 DPR:$src))), (v4i16 DPR:$src)>;
def : Pat<(v4i16 (bitconvert (v2i32 DPR:$src))), (v4i16 DPR:$src)>;
def : Pat<(v4i16 (bitconvert (v8i8 DPR:$src))), (v4i16 DPR:$src)>;
def : Pat<(v4i16 (bitconvert (f64 DPR:$src))), (v4i16 DPR:$src)>;
def : Pat<(v4i16 (bitconvert (v2f32 DPR:$src))), (v4i16 DPR:$src)>;
def : Pat<(v8i8 (bitconvert (v1i64 DPR:$src))), (v8i8 DPR:$src)>;
def : Pat<(v8i8 (bitconvert (v2i32 DPR:$src))), (v8i8 DPR:$src)>;
def : Pat<(v8i8 (bitconvert (v4i16 DPR:$src))), (v8i8 DPR:$src)>;
def : Pat<(v8i8 (bitconvert (f64 DPR:$src))), (v8i8 DPR:$src)>;
def : Pat<(v8i8 (bitconvert (v2f32 DPR:$src))), (v8i8 DPR:$src)>;
def : Pat<(f64 (bitconvert (v1i64 DPR:$src))), (f64 DPR:$src)>;
def : Pat<(f64 (bitconvert (v2i32 DPR:$src))), (f64 DPR:$src)>;
def : Pat<(f64 (bitconvert (v4i16 DPR:$src))), (f64 DPR:$src)>;
def : Pat<(f64 (bitconvert (v8i8 DPR:$src))), (f64 DPR:$src)>;
def : Pat<(f64 (bitconvert (v2f32 DPR:$src))), (f64 DPR:$src)>;
def : Pat<(v2f32 (bitconvert (f64 DPR:$src))), (v2f32 DPR:$src)>;
def : Pat<(v2f32 (bitconvert (v1i64 DPR:$src))), (v2f32 DPR:$src)>;
def : Pat<(v2f32 (bitconvert (v2i32 DPR:$src))), (v2f32 DPR:$src)>;
def : Pat<(v2f32 (bitconvert (v4i16 DPR:$src))), (v2f32 DPR:$src)>;
def : Pat<(v2f32 (bitconvert (v8i8 DPR:$src))), (v2f32 DPR:$src)>;
def : Pat<(v2i64 (bitconvert (v4i32 QPR:$src))), (v2i64 QPR:$src)>;
def : Pat<(v2i64 (bitconvert (v8i16 QPR:$src))), (v2i64 QPR:$src)>;
def : Pat<(v2i64 (bitconvert (v16i8 QPR:$src))), (v2i64 QPR:$src)>;
def : Pat<(v2i64 (bitconvert (v2f64 QPR:$src))), (v2i64 QPR:$src)>;
def : Pat<(v2i64 (bitconvert (v4f32 QPR:$src))), (v2i64 QPR:$src)>;
def : Pat<(v4i32 (bitconvert (v2i64 QPR:$src))), (v4i32 QPR:$src)>;
def : Pat<(v4i32 (bitconvert (v8i16 QPR:$src))), (v4i32 QPR:$src)>;
def : Pat<(v4i32 (bitconvert (v16i8 QPR:$src))), (v4i32 QPR:$src)>;
def : Pat<(v4i32 (bitconvert (v2f64 QPR:$src))), (v4i32 QPR:$src)>;
def : Pat<(v4i32 (bitconvert (v4f32 QPR:$src))), (v4i32 QPR:$src)>;
def : Pat<(v8i16 (bitconvert (v2i64 QPR:$src))), (v8i16 QPR:$src)>;
def : Pat<(v8i16 (bitconvert (v4i32 QPR:$src))), (v8i16 QPR:$src)>;
def : Pat<(v8i16 (bitconvert (v16i8 QPR:$src))), (v8i16 QPR:$src)>;
def : Pat<(v8i16 (bitconvert (v2f64 QPR:$src))), (v8i16 QPR:$src)>;
def : Pat<(v8i16 (bitconvert (v4f32 QPR:$src))), (v8i16 QPR:$src)>;
def : Pat<(v16i8 (bitconvert (v2i64 QPR:$src))), (v16i8 QPR:$src)>;
def : Pat<(v16i8 (bitconvert (v4i32 QPR:$src))), (v16i8 QPR:$src)>;
def : Pat<(v16i8 (bitconvert (v8i16 QPR:$src))), (v16i8 QPR:$src)>;
def : Pat<(v16i8 (bitconvert (v2f64 QPR:$src))), (v16i8 QPR:$src)>;
def : Pat<(v16i8 (bitconvert (v4f32 QPR:$src))), (v16i8 QPR:$src)>;
def : Pat<(v4f32 (bitconvert (v2i64 QPR:$src))), (v4f32 QPR:$src)>;
def : Pat<(v4f32 (bitconvert (v4i32 QPR:$src))), (v4f32 QPR:$src)>;
def : Pat<(v4f32 (bitconvert (v8i16 QPR:$src))), (v4f32 QPR:$src)>;
def : Pat<(v4f32 (bitconvert (v16i8 QPR:$src))), (v4f32 QPR:$src)>;
def : Pat<(v4f32 (bitconvert (v2f64 QPR:$src))), (v4f32 QPR:$src)>;
def : Pat<(v2f64 (bitconvert (v2i64 QPR:$src))), (v2f64 QPR:$src)>;
def : Pat<(v2f64 (bitconvert (v4i32 QPR:$src))), (v2f64 QPR:$src)>;
def : Pat<(v2f64 (bitconvert (v8i16 QPR:$src))), (v2f64 QPR:$src)>;
def : Pat<(v2f64 (bitconvert (v16i8 QPR:$src))), (v2f64 QPR:$src)>;
def : Pat<(v2f64 (bitconvert (v4f32 QPR:$src))), (v2f64 QPR:$src)>;
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