Port widening ops to ISLE (AArch64) (#4751)
Ported the existing implementations of the following opcodes for AArch64 to ISLE, and implemented support for 64-bit vectors (per the docs): - `SwidenLow` - `SwidenHigh` - `UwidenLow` - `UwidenHigh` Also ported `WideningPairwiseDotProductS` as-is. Copyright (c) 2022 Arm Limited
This commit is contained in:
Damian Heaton
@@ -528,7 +528,8 @@
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(t VecExtendOp)
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(rd WritableReg)
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(rn Reg)
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(high_half bool))
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(high_half bool)
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(lane_size ScalarSize))
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;; Move vector element to another vector element.
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(VecMovElement
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@@ -1080,18 +1081,10 @@
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;; Type of vector element extensions.
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(type VecExtendOp
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(enum
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;; Signed extension of 8-bit elements
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(Sxtl8)
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;; Signed extension of 16-bit elements
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(Sxtl16)
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;; Signed extension of 32-bit elements
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(Sxtl32)
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;; Unsigned extension of 8-bit elements
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(Uxtl8)
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;; Unsigned extension of 16-bit elements
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(Uxtl16)
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;; Unsigned extension of 32-bit elements
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(Uxtl32)
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;; Signed extension
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(Sxtl)
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;; Unsigned extension
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(Uxtl)
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))
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;; A vector ALU operation.
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@@ -1844,6 +1837,12 @@
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(_ Unit (emit (MInst.MovFromVecSigned dst rn idx size scalar_size))))
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dst))
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(decl fpu_move_from_vec (Reg u8 VectorSize) Reg)
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(rule (fpu_move_from_vec rn idx size)
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(let ((dst WritableReg (temp_writable_reg $I8X16))
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(_ Unit (emit (MInst.FpuMoveFromVec dst rn idx size))))
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dst))
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;; Helper for emitting `MInst.Extend` instructions.
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(decl extend (Reg bool u8 u8) Reg)
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(rule (extend rn signed from_bits to_bits)
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@@ -1858,6 +1857,13 @@
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(_ Unit (emit (MInst.FpuExtend dst src size))))
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dst))
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;; Helper for emitting `MInst.VecExtend` instructions.
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(decl vec_extend (VecExtendOp Reg bool ScalarSize) Reg)
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(rule (vec_extend op src high_half size)
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(let ((dst WritableReg (temp_writable_reg $I8X16))
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(_ Unit (emit (MInst.VecExtend op dst src high_half size))))
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dst))
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;; Helper for emitting `MInst.LoadAcquire` instructions.
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(decl load_acquire (Type Reg) Reg)
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(rule (load_acquire ty addr)
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@@ -653,6 +653,16 @@ impl ScalarSize {
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ScalarSize::Size128 => panic!("can't widen 128-bits"),
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}
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}
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pub fn narrow(&self) -> ScalarSize {
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match self {
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ScalarSize::Size8 => panic!("can't narrow 8-bits"),
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ScalarSize::Size16 => ScalarSize::Size8,
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ScalarSize::Size32 => ScalarSize::Size16,
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ScalarSize::Size64 => ScalarSize::Size32,
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ScalarSize::Size128 => ScalarSize::Size64,
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}
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}
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}
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/// Type used to communicate the size of a vector operand.
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@@ -2382,16 +2382,19 @@ impl MachInstEmit for Inst {
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rd,
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rn,
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high_half,
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lane_size,
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} => {
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let rd = allocs.next_writable(rd);
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let rn = allocs.next(rn);
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let (u, immh) = match t {
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VecExtendOp::Sxtl8 => (0b0, 0b001),
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VecExtendOp::Sxtl16 => (0b0, 0b010),
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VecExtendOp::Sxtl32 => (0b0, 0b100),
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VecExtendOp::Uxtl8 => (0b1, 0b001),
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VecExtendOp::Uxtl16 => (0b1, 0b010),
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VecExtendOp::Uxtl32 => (0b1, 0b100),
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let immh = match lane_size {
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ScalarSize::Size16 => 0b001,
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ScalarSize::Size32 => 0b010,
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ScalarSize::Size64 => 0b100,
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_ => panic!("Unexpected VecExtend to lane size of {:?}", lane_size),
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};
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let u = match t {
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VecExtendOp::Sxtl => 0b0,
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VecExtendOp::Uxtl => 0b1,
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};
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sink.put4(
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0b000_011110_0000_000_101001_00000_00000
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@@ -2581,60 +2581,66 @@ fn test_aarch64_binemit() {
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Sxtl8,
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t: VecExtendOp::Sxtl,
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rd: writable_vreg(4),
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rn: vreg(27),
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high_half: false,
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lane_size: ScalarSize::Size16,
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},
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"64A7080F",
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"sxtl v4.8h, v27.8b",
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Sxtl16,
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t: VecExtendOp::Sxtl,
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rd: writable_vreg(17),
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rn: vreg(19),
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high_half: true,
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lane_size: ScalarSize::Size32,
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},
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"71A6104F",
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"sxtl2 v17.4s, v19.8h",
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Sxtl32,
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t: VecExtendOp::Sxtl,
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rd: writable_vreg(30),
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rn: vreg(6),
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high_half: false,
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lane_size: ScalarSize::Size64,
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},
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"DEA4200F",
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"sxtl v30.2d, v6.2s",
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Uxtl8,
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t: VecExtendOp::Uxtl,
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rd: writable_vreg(3),
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rn: vreg(29),
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high_half: true,
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lane_size: ScalarSize::Size16,
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},
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"A3A7086F",
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"uxtl2 v3.8h, v29.16b",
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Uxtl16,
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t: VecExtendOp::Uxtl,
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rd: writable_vreg(15),
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rn: vreg(12),
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high_half: false,
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lane_size: ScalarSize::Size32,
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},
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"8FA5102F",
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"uxtl v15.4s, v12.4h",
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));
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insns.push((
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Inst::VecExtend {
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t: VecExtendOp::Uxtl32,
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t: VecExtendOp::Uxtl,
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rd: writable_vreg(28),
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rn: vreg(2),
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high_half: true,
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lane_size: ScalarSize::Size64,
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},
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"5CA4206F",
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"uxtl2 v28.2d, v2.4s",
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@@ -2041,47 +2041,19 @@ impl Inst {
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rd,
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rn,
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high_half,
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lane_size,
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} => {
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let (op, dest, src) = match (t, high_half) {
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(VecExtendOp::Sxtl8, false) => {
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("sxtl", VectorSize::Size16x8, VectorSize::Size8x8)
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}
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(VecExtendOp::Sxtl8, true) => {
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("sxtl2", VectorSize::Size16x8, VectorSize::Size8x16)
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}
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(VecExtendOp::Sxtl16, false) => {
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("sxtl", VectorSize::Size32x4, VectorSize::Size16x4)
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}
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(VecExtendOp::Sxtl16, true) => {
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("sxtl2", VectorSize::Size32x4, VectorSize::Size16x8)
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}
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(VecExtendOp::Sxtl32, false) => {
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("sxtl", VectorSize::Size64x2, VectorSize::Size32x2)
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}
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(VecExtendOp::Sxtl32, true) => {
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("sxtl2", VectorSize::Size64x2, VectorSize::Size32x4)
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}
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(VecExtendOp::Uxtl8, false) => {
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("uxtl", VectorSize::Size16x8, VectorSize::Size8x8)
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}
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(VecExtendOp::Uxtl8, true) => {
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("uxtl2", VectorSize::Size16x8, VectorSize::Size8x16)
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}
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(VecExtendOp::Uxtl16, false) => {
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("uxtl", VectorSize::Size32x4, VectorSize::Size16x4)
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}
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(VecExtendOp::Uxtl16, true) => {
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("uxtl2", VectorSize::Size32x4, VectorSize::Size16x8)
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}
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(VecExtendOp::Uxtl32, false) => {
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("uxtl", VectorSize::Size64x2, VectorSize::Size32x2)
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}
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(VecExtendOp::Uxtl32, true) => {
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("uxtl2", VectorSize::Size64x2, VectorSize::Size32x4)
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}
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let vec64 = VectorSize::from_lane_size(lane_size.narrow(), false);
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let vec128 = VectorSize::from_lane_size(lane_size.narrow(), true);
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let rd_size = VectorSize::from_lane_size(lane_size, true);
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let (op, rn_size) = match (t, high_half) {
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(VecExtendOp::Sxtl, false) => ("sxtl", vec64),
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(VecExtendOp::Sxtl, true) => ("sxtl2", vec128),
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(VecExtendOp::Uxtl, false) => ("uxtl", vec64),
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(VecExtendOp::Uxtl, true) => ("uxtl2", vec128),
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};
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let rd = pretty_print_vreg_vector(rd.to_reg(), dest, allocs);
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let rn = pretty_print_vreg_vector(rn, src, allocs);
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let rd = pretty_print_vreg_vector(rd.to_reg(), rd_size, allocs);
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let rn = pretty_print_vreg_vector(rn, rn_size, allocs);
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format!("{} {}, {}", op, rd, rn)
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}
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&Inst::VecMovElement {
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@@ -1817,6 +1817,48 @@
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(result Reg (uqxtn2 low_half y (lane_size ty))))
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result))
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;;;; Rules for `swiden_low` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (swiden_low x)))
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(vec_extend (VecExtendOp.Sxtl) x $false (lane_size ty)))
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;;;; Rules for `swiden_high` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type (ty_vec128 ty) (swiden_high x)))
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(vec_extend (VecExtendOp.Sxtl) x $true (lane_size ty)))
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(rule (lower (has_type ty (swiden_high x)))
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(if (ty_vec64 ty))
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(let ((tmp Reg (fpu_move_from_vec x 1 (VectorSize.Size32x2))))
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(vec_extend (VecExtendOp.Sxtl) tmp $false (lane_size ty))))
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;;;; Rules for `uwiden_low` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (uwiden_low x)))
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(vec_extend (VecExtendOp.Uxtl) x $false (lane_size ty)))
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;;;; Rules for `uwiden_high` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type (ty_vec128 ty) (uwiden_high x)))
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(vec_extend (VecExtendOp.Uxtl) x $true (lane_size ty)))
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(rule (lower (has_type ty (uwiden_high x)))
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(if (ty_vec64 ty))
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(let ((tmp Reg (fpu_move_from_vec x 1 (VectorSize.Size32x2))))
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(vec_extend (VecExtendOp.Uxtl) tmp $false (lane_size ty))))
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;;;; Rules for `widening_pairwise_dot_product_s` ;;;;;;;;;;;;;;;;;;;;;;
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;; The args have type I16X8.
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;; "dst = i32x4.dot_i16x8_s(x, y)"
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;; => smull tmp, x, y
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;; smull2 dst, x, y
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;; addp dst, tmp, dst
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(rule (lower (has_type $I32X4 (widening_pairwise_dot_product_s x y)))
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(let ((tmp Reg (vec_rrr_long (VecRRRLongOp.Smull16) x y $false))
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(dst Reg (vec_rrr_long (VecRRRLongOp.Smull16) x y $true)))
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(vec_rrr (VecALUOp.Addp) tmp dst (VectorSize.Size32x4))))
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;;;; Rules for `Fence` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (fence))
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@@ -98,3 +98,23 @@
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;;; Rules for `extract_vector` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (extract_vector x 0))
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(value_reg (fpu_move_128 (put_in_reg x))))
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;;;; Rules for `swiden_low` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (swiden_low x)))
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(value_reg (vec_extend (VecExtendOp.Sxtl) x $false (lane_size ty))))
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;;;; Rules for `swiden_high` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (swiden_high x)))
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(value_reg (vec_extend (VecExtendOp.Sxtl) x $true (lane_size ty))))
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;;;; Rules for `uwiden_low` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (uwiden_low x)))
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(value_reg (vec_extend (VecExtendOp.Uxtl) x $false (lane_size ty))))
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;;;; Rules for `uwiden_high` ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(rule (lower (has_type ty (uwiden_high x)))
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(value_reg (vec_extend (VecExtendOp.Uxtl) x $true (lane_size ty))))
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@@ -159,22 +159,23 @@ pub(crate) fn lower_insn_to_regs(
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});
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let vec_extend = match op {
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Opcode::Sload8x8 => Some(VecExtendOp::Sxtl8),
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Opcode::Uload8x8 => Some(VecExtendOp::Uxtl8),
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Opcode::Sload16x4 => Some(VecExtendOp::Sxtl16),
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Opcode::Uload16x4 => Some(VecExtendOp::Uxtl16),
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Opcode::Sload32x2 => Some(VecExtendOp::Sxtl32),
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Opcode::Uload32x2 => Some(VecExtendOp::Uxtl32),
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Opcode::Sload8x8 => Some((VecExtendOp::Sxtl, ScalarSize::Size16)),
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Opcode::Uload8x8 => Some((VecExtendOp::Uxtl, ScalarSize::Size16)),
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Opcode::Sload16x4 => Some((VecExtendOp::Sxtl, ScalarSize::Size32)),
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Opcode::Uload16x4 => Some((VecExtendOp::Uxtl, ScalarSize::Size32)),
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Opcode::Sload32x2 => Some((VecExtendOp::Sxtl, ScalarSize::Size64)),
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Opcode::Uload32x2 => Some((VecExtendOp::Uxtl, ScalarSize::Size64)),
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_ => None,
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};
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if let Some(t) = vec_extend {
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if let Some((t, lane_size)) = vec_extend {
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let rd = dst.only_reg().unwrap();
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ctx.emit(Inst::VecExtend {
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t,
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rd,
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rn: rd.to_reg(),
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high_half: false,
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lane_size,
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});
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}
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@@ -961,46 +962,7 @@ pub(crate) fn lower_insn_to_regs(
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Opcode::IaddPairwise => implemented_in_isle(ctx),
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Opcode::WideningPairwiseDotProductS => {
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let r_y = get_output_reg(ctx, outputs[0]).only_reg().unwrap();
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let r_a = put_input_in_reg(ctx, inputs[0], NarrowValueMode::None);
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let r_b = put_input_in_reg(ctx, inputs[1], NarrowValueMode::None);
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let ty = ty.unwrap();
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if ty == I32X4 {
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let tmp = ctx.alloc_tmp(I8X16).only_reg().unwrap();
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// The args have type I16X8.
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// "y = i32x4.dot_i16x8_s(a, b)"
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// => smull tmp, a, b
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// smull2 y, a, b
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// addp y, tmp, y
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ctx.emit(Inst::VecRRRLong {
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alu_op: VecRRRLongOp::Smull16,
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rd: tmp,
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rn: r_a,
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rm: r_b,
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high_half: false,
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});
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ctx.emit(Inst::VecRRRLong {
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alu_op: VecRRRLongOp::Smull16,
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rd: r_y,
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rn: r_a,
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rm: r_b,
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high_half: true,
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});
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ctx.emit(Inst::VecRRR {
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alu_op: VecALUOp::Addp,
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rd: r_y,
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rn: tmp.to_reg(),
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rm: r_y.to_reg(),
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size: VectorSize::Size32x4,
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||||
});
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} else {
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return Err(CodegenError::Unsupported(format!(
|
||||
"Opcode::WideningPairwiseDotProductS: unsupported laneage: {:?}",
|
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ty
|
||||
)));
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}
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}
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Opcode::WideningPairwiseDotProductS => implemented_in_isle(ctx),
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|
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Opcode::Fadd | Opcode::Fsub | Opcode::Fmul | Opcode::Fdiv | Opcode::Fmin | Opcode::Fmax => {
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implemented_in_isle(ctx)
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@@ -1485,42 +1447,7 @@ pub(crate) fn lower_insn_to_regs(
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Opcode::Snarrow | Opcode::Unarrow | Opcode::Uunarrow => implemented_in_isle(ctx),
|
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|
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Opcode::SwidenLow | Opcode::SwidenHigh | Opcode::UwidenLow | Opcode::UwidenHigh => {
|
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let rd = get_output_reg(ctx, outputs[0]).only_reg().unwrap();
|
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let rn = put_input_in_reg(ctx, inputs[0], NarrowValueMode::None);
|
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let ty = ty.unwrap();
|
||||
let ty = if ty.is_dynamic_vector() {
|
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ty.dynamic_to_vector()
|
||||
.unwrap_or_else(|| panic!("Unsupported dynamic type: {}?", ty))
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} else {
|
||||
ty
|
||||
};
|
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let (t, high_half) = match (ty, op) {
|
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(I16X8, Opcode::SwidenLow) => (VecExtendOp::Sxtl8, false),
|
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(I16X8, Opcode::SwidenHigh) => (VecExtendOp::Sxtl8, true),
|
||||
(I16X8, Opcode::UwidenLow) => (VecExtendOp::Uxtl8, false),
|
||||
(I16X8, Opcode::UwidenHigh) => (VecExtendOp::Uxtl8, true),
|
||||
(I32X4, Opcode::SwidenLow) => (VecExtendOp::Sxtl16, false),
|
||||
(I32X4, Opcode::SwidenHigh) => (VecExtendOp::Sxtl16, true),
|
||||
(I32X4, Opcode::UwidenLow) => (VecExtendOp::Uxtl16, false),
|
||||
(I32X4, Opcode::UwidenHigh) => (VecExtendOp::Uxtl16, true),
|
||||
(I64X2, Opcode::SwidenLow) => (VecExtendOp::Sxtl32, false),
|
||||
(I64X2, Opcode::SwidenHigh) => (VecExtendOp::Sxtl32, true),
|
||||
(I64X2, Opcode::UwidenLow) => (VecExtendOp::Uxtl32, false),
|
||||
(I64X2, Opcode::UwidenHigh) => (VecExtendOp::Uxtl32, true),
|
||||
(ty, _) => {
|
||||
return Err(CodegenError::Unsupported(format!(
|
||||
"{}: Unsupported type: {:?}",
|
||||
op, ty
|
||||
)));
|
||||
}
|
||||
};
|
||||
|
||||
ctx.emit(Inst::VecExtend {
|
||||
t,
|
||||
rd,
|
||||
rn,
|
||||
high_half,
|
||||
});
|
||||
implemented_in_isle(ctx)
|
||||
}
|
||||
|
||||
Opcode::TlsValue => match flags.tls_model() {
|
||||
@@ -1557,10 +1484,11 @@ pub(crate) fn lower_insn_to_regs(
|
||||
let rn = put_input_in_reg(ctx, inputs[0], NarrowValueMode::None);
|
||||
|
||||
ctx.emit(Inst::VecExtend {
|
||||
t: VecExtendOp::Sxtl32,
|
||||
t: VecExtendOp::Sxtl,
|
||||
rd,
|
||||
rn,
|
||||
high_half: false,
|
||||
lane_size: ScalarSize::Size64,
|
||||
});
|
||||
ctx.emit(Inst::VecMisc {
|
||||
op: VecMisc2::Scvtf,
|
||||
|
||||
@@ -60,9 +60,9 @@ block0(v0: i8x16, v1: i8x16):
|
||||
}
|
||||
|
||||
; block0:
|
||||
; sxtl v4.8h, v0.8b
|
||||
; sxtl2 v6.8h, v1.16b
|
||||
; addp v0.8h, v4.8h, v6.8h
|
||||
; sxtl v7.8h, v0.8b
|
||||
; sxtl2 v16.8h, v1.16b
|
||||
; addp v0.8h, v7.8h, v16.8h
|
||||
; ret
|
||||
|
||||
function %fn6(i8x16, i8x16) -> i16x8 {
|
||||
@@ -74,9 +74,9 @@ block0(v0: i8x16, v1: i8x16):
|
||||
}
|
||||
|
||||
; block0:
|
||||
; uxtl v4.8h, v0.8b
|
||||
; uxtl2 v6.8h, v1.16b
|
||||
; addp v0.8h, v4.8h, v6.8h
|
||||
; uxtl v7.8h, v0.8b
|
||||
; uxtl2 v16.8h, v1.16b
|
||||
; addp v0.8h, v7.8h, v16.8h
|
||||
; ret
|
||||
|
||||
function %fn7(i8x16) -> i16x8 {
|
||||
@@ -88,9 +88,9 @@ block0(v0: i8x16):
|
||||
}
|
||||
|
||||
; block0:
|
||||
; uxtl v2.8h, v0.8b
|
||||
; sxtl2 v4.8h, v0.16b
|
||||
; addp v0.8h, v2.8h, v4.8h
|
||||
; uxtl v5.8h, v0.8b
|
||||
; sxtl2 v6.8h, v0.16b
|
||||
; addp v0.8h, v5.8h, v6.8h
|
||||
; ret
|
||||
|
||||
function %fn8(i8x16) -> i16x8 {
|
||||
@@ -102,9 +102,9 @@ block0(v0: i8x16):
|
||||
}
|
||||
|
||||
; block0:
|
||||
; sxtl v2.8h, v0.8b
|
||||
; uxtl2 v4.8h, v0.16b
|
||||
; addp v0.8h, v2.8h, v4.8h
|
||||
; sxtl v5.8h, v0.8b
|
||||
; uxtl2 v6.8h, v0.16b
|
||||
; addp v0.8h, v5.8h, v6.8h
|
||||
; ret
|
||||
|
||||
function %fn9(i8x8, i8x8) -> i8x8 {
|
||||
@@ -157,3 +157,63 @@ block0(v0: i32x4, v1: i32x4):
|
||||
; addp v0.4s, v0.4s, v1.4s
|
||||
; ret
|
||||
|
||||
function %fn15(i8x8, i8x8) -> i16x4 {
|
||||
block0(v0: i8x8, v1: i8x8):
|
||||
v2 = swiden_low v0
|
||||
v3 = swiden_high v1
|
||||
v4 = iadd_pairwise v2, v3
|
||||
return v4
|
||||
}
|
||||
|
||||
; block0:
|
||||
; sxtl v16.8h, v0.8b
|
||||
; mov s7, v1.s[1]
|
||||
; sxtl v17.8h, v7.8b
|
||||
; addp v0.4h, v16.4h, v17.4h
|
||||
; ret
|
||||
|
||||
function %fn16(i8x8, i8x8) -> i16x4 {
|
||||
block0(v0: i8x8, v1: i8x8):
|
||||
v2 = uwiden_low v0
|
||||
v3 = uwiden_high v1
|
||||
v4 = iadd_pairwise v2, v3
|
||||
return v4
|
||||
}
|
||||
|
||||
; block0:
|
||||
; uxtl v16.8h, v0.8b
|
||||
; mov s7, v1.s[1]
|
||||
; uxtl v17.8h, v7.8b
|
||||
; addp v0.4h, v16.4h, v17.4h
|
||||
; ret
|
||||
|
||||
function %fn17(i8x8) -> i16x4 {
|
||||
block0(v0: i8x8):
|
||||
v1 = uwiden_low v0
|
||||
v2 = swiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
|
||||
; block0:
|
||||
; uxtl v6.8h, v0.8b
|
||||
; mov s5, v0.s[1]
|
||||
; sxtl v7.8h, v5.8b
|
||||
; addp v0.4h, v6.4h, v7.4h
|
||||
; ret
|
||||
|
||||
function %fn18(i8x8) -> i16x4 {
|
||||
block0(v0: i8x8):
|
||||
v1 = swiden_low v0
|
||||
v2 = uwiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
|
||||
; block0:
|
||||
; sxtl v6.8h, v0.8b
|
||||
; mov s5, v0.s[1]
|
||||
; uxtl v7.8h, v5.8b
|
||||
; addp v0.4h, v6.4h, v7.4h
|
||||
; ret
|
||||
|
||||
|
||||
@@ -24,3 +24,45 @@ block0(v0: i32x2, v1: i32x2):
|
||||
}
|
||||
; run: %iaddp_i32x2([1 2], [5 6]) == [3 11]
|
||||
; run: %iaddp_i32x2([4294967290 5], [100 100]) == [4294967295 200]
|
||||
|
||||
function %swiden_i8x8(i8x8) -> i16x4 {
|
||||
block0(v0: i8x8):
|
||||
v1 = swiden_low v0
|
||||
v2 = swiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
; run: %swiden_i8x8([1 2 3 4 5 6 7 8]) == [3 7 11 15]
|
||||
; run: %swiden_i8x8([-1 2 -3 4 -5 6 -7 8]) == [1 1 1 1]
|
||||
; run: %swiden_i8x8([127 1 126 2 125 3 124 4]) == [128 128 128 128]
|
||||
|
||||
function %uwiden_i8x8(i8x8) -> i16x4 {
|
||||
block0(v0: i8x8):
|
||||
v1 = uwiden_low v0
|
||||
v2 = uwiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
; run: %uwiden_i8x8([17 18 19 20 21 22 23 24]) == [35 39 43 47]
|
||||
; run: %uwiden_i8x8([2 254 3 253 4 252 5 251]) == [256 256 256 256]
|
||||
|
||||
function %swiden_i16x4(i16x4) -> i32x2 {
|
||||
block0(v0: i16x4):
|
||||
v1 = swiden_low v0
|
||||
v2 = swiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
; run: %swiden_i16x4([1 2 3 4]) == [3 7]
|
||||
; run: %swiden_i16x4([-1 2 -3 4]) == [1 1]
|
||||
; run: %swiden_i16x4([127 1 126 2]) == [128 128]
|
||||
|
||||
function %uwiden_i16x4(i16x4) -> i32x2 {
|
||||
block0(v0: i16x4):
|
||||
v1 = uwiden_low v0
|
||||
v2 = uwiden_high v0
|
||||
v3 = iadd_pairwise v1, v2
|
||||
return v3
|
||||
}
|
||||
; run: %uwiden_i16x4([17 18 19 20]) == [35 39]
|
||||
; run: %uwiden_i16x4([2 254 3 253]) == [256 256]
|
||||
|
||||
Reference in New Issue
Block a user