[llvm] r344086 - [WebAssembly] Improve readability of SIMD instructions (NFC)
Heejin Ahn via llvm-commits
llvm-commits at lists.llvm.org
Tue Oct 9 15:23:39 PDT 2018
Author: aheejin
Date: Tue Oct 9 15:23:39 2018
New Revision: 344086
URL: http://llvm.org/viewvc/llvm-project?rev=344086&view=rev
Log:
[WebAssembly] Improve readability of SIMD instructions (NFC)
Summary:
- Categorize instructions into the categories as in the SIMD spec
- Move SIMD-related definition to WebAssemblyInstrSIMD.td
- Put definition and use of patterns together
- Add newlines here and there
Reviewers: tlively
Subscribers: dschuff, sbc100, jgravelle-google, sunfish, llvm-commits
Differential Revision: https://reviews.llvm.org/D53045
Modified:
llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrFormats.td
llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrInfo.td
llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrSIMD.td
Modified: llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrFormats.td
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrFormats.td?rev=344086&r1=344085&r2=344086&view=diff
==============================================================================
--- llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrFormats.td (original)
+++ llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrFormats.td Tue Oct 9 15:23:39 2018
@@ -58,12 +58,3 @@ multiclass NRI<dag oops, dag iops, list<
bits<32> inst = -1> {
defm "": I<oops, iops, oops, iops, pattern, asmstr, asmstr, inst>;
}
-
-// Instructions requiring HasSIMD128 and the simd128 prefix byte
-multiclass SIMD_I<dag oops_r, dag iops_r, dag oops_s, dag iops_s,
- list<dag> pattern_r, string asmstr_r = "",
- string asmstr_s = "", bits<32> simdop = -1> {
- defm "" : I<oops_r, iops_r, oops_s, iops_s, pattern_r, asmstr_r, asmstr_s,
- !or(0xfd00, !and(0xff, simdop))>,
- Requires<[HasSIMD128]>;
-}
Modified: llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrInfo.td
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrInfo.td?rev=344086&r1=344085&r2=344086&view=diff
==============================================================================
--- llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrInfo.td (original)
+++ llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrInfo.td Tue Oct 9 15:23:39 2018
@@ -169,24 +169,11 @@ multiclass ARGUMENT<WebAssemblyRegClass
(outs), (ins i32imm:$argno),
[(set vt:$res, (WebAssemblyargument timm:$argno))]>;
}
-multiclass SIMD_ARGUMENT<ValueType vt> {
- let hasSideEffects = 1, Uses = [ARGUMENTS], isCodeGenOnly = 1 in
- defm ARGUMENT_#vt : SIMD_I<(outs V128:$res), (ins i32imm:$argno),
- (outs), (ins i32imm:$argno),
- [(set (vt V128:$res),
- (WebAssemblyargument timm:$argno))]>;
-}
defm "": ARGUMENT<I32>;
defm "": ARGUMENT<I64>;
defm "": ARGUMENT<F32>;
defm "": ARGUMENT<F64>;
defm "": ARGUMENT<EXCEPT_REF>;
-defm "": SIMD_ARGUMENT<v16i8>;
-defm "": SIMD_ARGUMENT<v8i16>;
-defm "": SIMD_ARGUMENT<v4i32>;
-defm "": SIMD_ARGUMENT<v2i64>;
-defm "": SIMD_ARGUMENT<v4f32>;
-defm "": SIMD_ARGUMENT<v2f64>;
let Defs = [ARGUMENTS] in {
Modified: llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrSIMD.td
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrSIMD.td?rev=344086&r1=344085&r2=344086&view=diff
==============================================================================
--- llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrSIMD.td (original)
+++ llvm/trunk/lib/Target/WebAssembly/WebAssemblyInstrSIMD.td Tue Oct 9 15:23:39 2018
@@ -12,30 +12,41 @@
///
//===----------------------------------------------------------------------===//
-// constrained immediate argument types
+// Instructions requiring HasSIMD128 and the simd128 prefix byte
+multiclass SIMD_I<dag oops_r, dag iops_r, dag oops_s, dag iops_s,
+ list<dag> pattern_r, string asmstr_r = "",
+ string asmstr_s = "", bits<32> simdop = -1> {
+ defm "" : I<oops_r, iops_r, oops_s, iops_s, pattern_r, asmstr_r, asmstr_s,
+ !or(0xfd00, !and(0xff, simdop))>,
+ Requires<[HasSIMD128]>;
+}
+
+multiclass SIMD_ARGUMENT<ValueType vt> {
+ let hasSideEffects = 1, Uses = [ARGUMENTS], isCodeGenOnly = 1 in
+ defm ARGUMENT_#vt : SIMD_I<(outs V128:$res), (ins i32imm:$argno),
+ (outs), (ins i32imm:$argno),
+ [(set (vt V128:$res),
+ (WebAssemblyargument timm:$argno))]>;
+}
+
+defm "": SIMD_ARGUMENT<v16i8>;
+defm "": SIMD_ARGUMENT<v8i16>;
+defm "": SIMD_ARGUMENT<v4i32>;
+defm "": SIMD_ARGUMENT<v2i64>;
+defm "": SIMD_ARGUMENT<v4f32>;
+defm "": SIMD_ARGUMENT<v2f64>;
+
+// Constrained immediate argument types
foreach SIZE = [8, 16] in
def ImmI#SIZE : ImmLeaf<i32, "return (Imm & ((1UL << "#SIZE#") - 1)) == Imm;">;
foreach SIZE = [2, 4, 8, 16, 32] in
def LaneIdx#SIZE : ImmLeaf<i32, "return 0 <= Imm && Imm < "#SIZE#";">;
-// Custom nodes for custom operations
-def wasm_shuffle_t : SDTypeProfile<1, 18, []>;
-def wasm_saturate_t : SDTypeProfile<1, 2,
- [SDTCisVec<0>, SDTCisSameAs<0, 1>, SDTCisSameAs<0, 2>]
->;
-def wasm_bitselect_t : SDTypeProfile<1, 3,
- [SDTCisVec<0>, SDTCisSameAs<0, 1>, SDTCisSameAs<0, 2>, SDTCisSameAs<0, 3>]
->;
-def wasm_reduce_t : SDTypeProfile<1, 1, [SDTCisVT<0, i32>, SDTCisVec<1>]>;
-def wasm_shuffle : SDNode<"WebAssemblyISD::SHUFFLE", wasm_shuffle_t>;
-def wasm_add_sat_s : SDNode<"WebAssemblyISD::ADD_SAT_S", wasm_saturate_t>;
-def wasm_add_sat_u : SDNode<"WebAssemblyISD::ADD_SAT_U", wasm_saturate_t>;
-def wasm_sub_sat_s : SDNode<"WebAssemblyISD::SUB_SAT_S", wasm_saturate_t>;
-def wasm_sub_sat_u : SDNode<"WebAssemblyISD::SUB_SAT_U", wasm_saturate_t>;
-def wasm_bitselect : SDNode<"WebAssemblyISD::BITSELECT", wasm_bitselect_t>;
-def wasm_anytrue : SDNode<"WebAssemblyISD::ANYTRUE", wasm_reduce_t>;
-def wasm_alltrue : SDNode<"WebAssemblyISD::ALLTRUE", wasm_reduce_t>;
+//===----------------------------------------------------------------------===//
+// Constructing SIMD values
+//===----------------------------------------------------------------------===//
+// Constant: v128.const
multiclass ConstVec<ValueType vec_t, dag ops, dag pat, string args> {
let isMoveImm = 1, isReMaterializable = 1 in
defm CONST_V128_#vec_t : SIMD_I<(outs V128:$dst), ops, (outs), ops,
@@ -43,22 +54,88 @@ multiclass ConstVec<ValueType vec_t, dag
"v128.const\t$dst, "#args,
"v128.const\t"#args, 0>;
}
-multiclass SIMDLoad<ValueType vec_t> {
- let mayLoad = 1 in
- defm LOAD_#vec_t :
- SIMD_I<(outs V128:$dst), (ins P2Align:$align, offset32_op:$off, I32:$addr),
- (outs), (ins P2Align:$align, offset32_op:$off), [],
- "v128.load\t$dst, ${off}(${addr})$align",
- "v128.load\t$off$align", 1>;
-}
-multiclass SIMDStore<ValueType vec_t> {
- let mayStore = 1 in
- defm STORE_#vec_t :
- SIMD_I<(outs), (ins P2Align:$align, offset32_op:$off, I32:$addr, V128:$vec),
- (outs), (ins P2Align:$align, offset32_op:$off), [],
- "v128.store\t${off}(${addr})$align, $vec",
- "v128.store\t$off$align", 2>;
+
+let Defs = [ARGUMENTS] in {
+defm "" : ConstVec<v16i8,
+ (ins vec_i8imm_op:$i0, vec_i8imm_op:$i1,
+ vec_i8imm_op:$i2, vec_i8imm_op:$i3,
+ vec_i8imm_op:$i4, vec_i8imm_op:$i5,
+ vec_i8imm_op:$i6, vec_i8imm_op:$i7,
+ vec_i8imm_op:$i8, vec_i8imm_op:$i9,
+ vec_i8imm_op:$iA, vec_i8imm_op:$iB,
+ vec_i8imm_op:$iC, vec_i8imm_op:$iD,
+ vec_i8imm_op:$iE, vec_i8imm_op:$iF),
+ (build_vector ImmI8:$i0, ImmI8:$i1, ImmI8:$i2, ImmI8:$i3,
+ ImmI8:$i4, ImmI8:$i5, ImmI8:$i6, ImmI8:$i7,
+ ImmI8:$i8, ImmI8:$i9, ImmI8:$iA, ImmI8:$iB,
+ ImmI8:$iC, ImmI8:$iD, ImmI8:$iE, ImmI8:$iF),
+ !strconcat("$i0, $i1, $i2, $i3, $i4, $i5, $i6, $i7, ",
+ "$i8, $i9, $iA, $iB, $iC, $iD, $iE, $iF")>;
+defm "" : ConstVec<v8i16,
+ (ins vec_i16imm_op:$i0, vec_i16imm_op:$i1,
+ vec_i16imm_op:$i2, vec_i16imm_op:$i3,
+ vec_i16imm_op:$i4, vec_i16imm_op:$i5,
+ vec_i16imm_op:$i6, vec_i16imm_op:$i7),
+ (build_vector
+ ImmI16:$i0, ImmI16:$i1, ImmI16:$i2, ImmI16:$i3,
+ ImmI16:$i4, ImmI16:$i5, ImmI16:$i6, ImmI16:$i7),
+ "$i0, $i1, $i2, $i3, $i4, $i5, $i6, $i7">;
+defm "" : ConstVec<v4i32,
+ (ins vec_i32imm_op:$i0, vec_i32imm_op:$i1,
+ vec_i32imm_op:$i2, vec_i32imm_op:$i3),
+ (build_vector (i32 imm:$i0), (i32 imm:$i1),
+ (i32 imm:$i2), (i32 imm:$i3)),
+ "$i0, $i1, $i2, $i3">;
+defm "" : ConstVec<v2i64,
+ (ins vec_i64imm_op:$i0, vec_i64imm_op:$i1),
+ (build_vector (i64 imm:$i0), (i64 imm:$i1)),
+ "$i0, $i1">;
+defm "" : ConstVec<v4f32,
+ (ins f32imm_op:$i0, f32imm_op:$i1,
+ f32imm_op:$i2, f32imm_op:$i3),
+ (build_vector (f32 fpimm:$i0), (f32 fpimm:$i1),
+ (f32 fpimm:$i2), (f32 fpimm:$i3)),
+ "$i0, $i1, $i2, $i3">;
+defm "" : ConstVec<v2f64,
+ (ins f64imm_op:$i0, f64imm_op:$i1),
+ (build_vector (f64 fpimm:$i0), (f64 fpimm:$i1)),
+ "$i0, $i1">;
+} // Defs = [ARGUMENTS]
+
+// Create vector with identical lanes: splat
+def splat2 : PatFrag<(ops node:$x), (build_vector node:$x, node:$x)>;
+def splat4 : PatFrag<(ops node:$x), (build_vector
+ node:$x, node:$x, node:$x, node:$x)>;
+def splat8 : PatFrag<(ops node:$x), (build_vector
+ node:$x, node:$x, node:$x, node:$x,
+ node:$x, node:$x, node:$x, node:$x)>;
+def splat16 : PatFrag<(ops node:$x), (build_vector
+ node:$x, node:$x, node:$x, node:$x,
+ node:$x, node:$x, node:$x, node:$x,
+ node:$x, node:$x, node:$x, node:$x,
+ node:$x, node:$x, node:$x, node:$x)>;
+
+multiclass Splat<ValueType vec_t, string vec, WebAssemblyRegClass reg_t,
+ PatFrag splat_pat, bits<32> simdop> {
+ // Prefer splats over v128.const for const splats (65 is lowest that works)
+ let AddedComplexity = 65 in
+ defm SPLAT_#vec_t : SIMD_I<(outs V128:$dst), (ins reg_t:$x), (outs), (ins),
+ [(set (vec_t V128:$dst), (splat_pat reg_t:$x))],
+ vec#".splat\t$dst, $x", vec#".splat", simdop>;
}
+
+defm "" : Splat<v16i8, "i8x16", I32, splat16, 3>;
+defm "" : Splat<v8i16, "i16x8", I32, splat8, 4>;
+defm "" : Splat<v4i32, "i32x4", I32, splat4, 5>;
+defm "" : Splat<v2i64, "i64x2", I64, splat2, 6>;
+defm "" : Splat<v4f32, "f32x4", F32, splat4, 7>;
+defm "" : Splat<v2f64, "f64x2", F64, splat2, 8>;
+
+//===----------------------------------------------------------------------===//
+// Accessing lanes
+//===----------------------------------------------------------------------===//
+
+// Extract lane as a scalar: extract_lane / extract_lane_s / extract_lane_u
multiclass ExtractLane<ValueType vec_t, string vec, ImmLeaf imm_t,
WebAssemblyRegClass reg_t, bits<32> simdop,
string suffix = "", SDNode extract = vector_extract> {
@@ -69,6 +146,7 @@ multiclass ExtractLane<ValueType vec_t,
vec#".extract_lane"#suffix#"\t$dst, $vec, $idx",
vec#".extract_lane"#suffix#"\t$idx", simdop>;
}
+
multiclass ExtractPat<ValueType lane_t, int mask> {
def _s : PatFrag<(ops node:$vec, node:$idx),
(i32 (sext_inreg
@@ -87,14 +165,31 @@ multiclass ExtractPat<ValueType lane_t,
(i32 mask)
))>;
}
+
defm extract_i8x16 : ExtractPat<i8, 0xff>;
defm extract_i16x8 : ExtractPat<i16, 0xffff>;
+
multiclass ExtractLaneExtended<string sign, bits<32> baseInst> {
defm "" : ExtractLane<v16i8, "i8x16", LaneIdx16, I32, baseInst, sign,
!cast<PatFrag>("extract_i8x16"#sign)>;
defm "" : ExtractLane<v8i16, "i16x8", LaneIdx8, I32, !add(baseInst, 2), sign,
!cast<PatFrag>("extract_i16x8"#sign)>;
}
+
+defm "" : ExtractLaneExtended<"_s", 9>;
+defm "" : ExtractLaneExtended<"_u", 10>;
+defm "" : ExtractLane<v4i32, "i32x4", LaneIdx4, I32, 13>;
+defm "" : ExtractLane<v2i64, "i64x2", LaneIdx2, I64, 14>;
+defm "" : ExtractLane<v4f32, "f32x4", LaneIdx4, F32, 15>;
+defm "" : ExtractLane<v2f64, "f64x2", LaneIdx2, F64, 16>;
+
+// Follow convention of making implicit expansions unsigned
+def : Pat<(i32 (vector_extract (v16i8 V128:$vec), (i32 LaneIdx16:$idx))),
+ (EXTRACT_LANE_v16i8_u V128:$vec, (i32 LaneIdx16:$idx))>;
+def : Pat<(i32 (vector_extract (v8i16 V128:$vec), (i32 LaneIdx8:$idx))),
+ (EXTRACT_LANE_v8i16_u V128:$vec, (i32 LaneIdx8:$idx))>;
+
+// Replace lane value: replace_lane
multiclass ReplaceLane<ValueType vec_t, string vec, ImmLeaf imm_t,
WebAssemblyRegClass reg_t, ValueType lane_t,
bits<32> simdop> {
@@ -106,227 +201,6 @@ multiclass ReplaceLane<ValueType vec_t,
vec#".replace_lane\t$dst, $vec, $idx, $x",
vec#".replace_lane\t$idx", simdop>;
}
-def splat2 : PatFrag<(ops node:$x), (build_vector node:$x, node:$x)>;
-def splat4 : PatFrag<(ops node:$x), (build_vector
- node:$x, node:$x, node:$x, node:$x)>;
-def splat8 : PatFrag<(ops node:$x), (build_vector
- node:$x, node:$x, node:$x, node:$x,
- node:$x, node:$x, node:$x, node:$x)>;
-def splat16 : PatFrag<(ops node:$x), (build_vector
- node:$x, node:$x, node:$x, node:$x,
- node:$x, node:$x, node:$x, node:$x,
- node:$x, node:$x, node:$x, node:$x,
- node:$x, node:$x, node:$x, node:$x)>;
-multiclass Splat<ValueType vec_t, string vec, WebAssemblyRegClass reg_t,
- PatFrag splat_pat, bits<32> simdop> {
- // Prefer splats over v128.const for const splats (65 is lowest that works)
- let AddedComplexity = 65 in
- defm SPLAT_#vec_t : SIMD_I<(outs V128:$dst), (ins reg_t:$x), (outs), (ins),
- [(set (vec_t V128:$dst), (splat_pat reg_t:$x))],
- vec#".splat\t$dst, $x", vec#".splat", simdop>;
-}
-multiclass SIMDBinary<ValueType vec_t, string vec, SDNode node, string name,
- bits<32> simdop> {
- defm _#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$lhs, V128:$rhs),
- (outs), (ins),
- [(set (vec_t V128:$dst), (node V128:$lhs, V128:$rhs))],
- vec#"."#name#"\t$dst, $lhs, $rhs", vec#"."#name,
- simdop>;
-}
-multiclass SIMDBinaryIntNoI64x2<SDNode node, string name, bits<32> baseInst> {
- defm "" : SIMDBinary<v16i8, "i8x16", node, name, baseInst>;
- defm "" : SIMDBinary<v8i16, "i16x8", node, name, !add(baseInst, 1)>;
- defm "" : SIMDBinary<v4i32, "i32x4", node, name, !add(baseInst, 2)>;
-}
-multiclass SIMDBinaryInt<SDNode node, string name, bits<32> baseInst> {
- defm "" : SIMDBinaryIntNoI64x2<node, name, baseInst>;
- defm "" : SIMDBinary<v2i64, "i64x2", node, name, !add(baseInst, 3)>;
-}
-multiclass SIMDBinaryFP<SDNode node, string name, bits<32> baseInst> {
- defm "" : SIMDBinary<v4f32, "f32x4", node, name, baseInst>;
- defm "" : SIMDBinary<v2f64, "f64x2", node, name, !add(baseInst, 1)>;
-}
-multiclass SIMDBinarySat<SDNode node, string name, bits<32> baseInst> {
- defm "" : SIMDBinary<v16i8, "i8x16", node, name, baseInst>;
- defm "" : SIMDBinary<v8i16, "i16x8", node, name, !add(baseInst, 2)>;
-}
-multiclass SIMDShift<ValueType vec_t, string vec, SDNode node, dag shift_vec,
- string name, bits<32> simdop> {
- defm _#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec, I32:$x),
- (outs), (ins),
- [(set (vec_t V128:$dst),
- (node V128:$vec, (vec_t shift_vec)))],
- vec#"."#name#"\t$dst, $vec, $x", vec#"."#name, simdop>;
-}
-multiclass SIMDShiftInt<SDNode node, string name, bits<32> baseInst, int skip> {
- defm "" : SIMDShift<v16i8, "i8x16", node, (splat16 I32:$x), name, baseInst>;
- defm "" : SIMDShift<v8i16, "i16x8", node, (splat8 I32:$x), name,
- !add(baseInst, !if(skip, 2, 1))>;
- defm "" : SIMDShift<v4i32, "i32x4", node, (splat4 I32:$x), name,
- !add(baseInst, !if(skip, 4, 2))>;
- defm "" : SIMDShift<v2i64, "i64x2", node, (splat2 (i64 (zext I32:$x))),
- name, !add(baseInst, !if(skip, 6, 3))>;
-}
-multiclass SIMDBitwise<SDNode node, string name, bits<32> simdop> {
- defm "" : SIMDBinary<v16i8, "v128", node, name, simdop>;
- defm "" : SIMDBinary<v8i16, "v128", node, name, simdop>;
- defm "" : SIMDBinary<v4i32, "v128", node, name, simdop>;
- defm "" : SIMDBinary<v2i64, "v128", node, name, simdop>;
-}
-multiclass SIMDNeg<ValueType vec_t, string vec, PatFrag splat_pat,
- ValueType lane_t, SDNode node, dag lane, bits<32> simdop> {
- defm NEG_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec),
- (outs), (ins),
- [(set
- (vec_t V128:$dst),
- (vec_t (node
- (vec_t (splat_pat lane)),
- (vec_t V128:$vec)
- ))
- )],
- vec#".neg\t$dst, $vec", vec#".neg", simdop>;
-}
-multiclass SIMDNegInt<ValueType vec_t, string vec, PatFrag splat_pat,
- ValueType lane_t, bits<32> simdop> {
- defm "" : SIMDNeg<vec_t, vec, splat_pat, lane_t, sub, (lane_t 0), simdop>;
-}
-def fpimm0 : FPImmLeaf<fAny, [{ return Imm.isExactlyValue(+0.0); }]>;
-multiclass SIMDNegFP<ValueType vec_t, string vec, PatFrag splat_pat,
- ValueType lane_t, bits<32> simdop> {
- defm "" : SIMDNeg<vec_t, vec, splat_pat, lane_t, fsub, (lane_t fpimm0),
- simdop>;
-}
-multiclass SIMDNot<ValueType vec_t, PatFrag splat_pat, ValueType lane_t> {
- defm NOT_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec),
- (outs), (ins),
- [(set
- (vec_t V128:$dst),
- (vec_t (xor
- (vec_t V128:$vec),
- (vec_t (splat_pat (lane_t -1)))
- ))
- )],
- "v128.not\t$dst, $vec", "v128.not", 63>;
-}
-multiclass Bitselect<ValueType vec_t> {
- defm BITSELECT_#vec_t :
- SIMD_I<(outs V128:$dst), (ins V128:$v1, V128:$v2, V128:$c), (outs), (ins),
- [(set (vec_t V128:$dst),
- (vec_t (wasm_bitselect
- (vec_t V128:$c), (vec_t V128:$v1), (vec_t V128:$v2)
- ))
- )],
- "v128.bitselect\t$dst, $v1, $v2, $c", "v128.bitselect", 64>;
-}
-multiclass SIMDReduceVec<ValueType vec_t, string vec, string name, SDNode op,
- bits<32> simdop> {
- defm _#vec_t : SIMD_I<(outs I32:$dst), (ins V128:$vec), (outs), (ins),
- [(set I32:$dst, (i32 (op (vec_t V128:$vec))))],
- vec#"."#name#"\t$dst, $vec", vec#"."#name, simdop>;
-}
-multiclass SIMDReduce<string name, SDNode op, bits<32> baseInst> {
- defm "" : SIMDReduceVec<v16i8, "i8x16", name, op, baseInst>;
- defm "" : SIMDReduceVec<v8i16, "i16x8", name, op, !add(baseInst, 1)>;
- defm "" : SIMDReduceVec<v4i32, "i32x4", name, op, !add(baseInst, 2)>;
- defm "" : SIMDReduceVec<v2i64, "i64x2", name, op, !add(baseInst, 3)>;
-}
-multiclass SIMDCondition<ValueType vec_t, ValueType out_t, string vec,
- string name, CondCode cond, bits<32> simdop> {
- defm _#vec_t :
- SIMD_I<(outs V128:$dst), (ins V128:$lhs, V128:$rhs), (outs), (ins),
- [(set (out_t V128:$dst),
- (setcc (vec_t V128:$lhs), (vec_t V128:$rhs), cond))],
- vec#"."#name#"\t$dst, $lhs, $rhs", vec#"."#name, simdop>;
-}
-multiclass SIMDConditionInt<string name, CondCode cond, bits<32> baseInst,
- int step = 1> {
- defm "" : SIMDCondition<v16i8, v16i8, "i8x16", name, cond, baseInst>;
- defm "" : SIMDCondition<v8i16, v8i16, "i16x8", name, cond,
- !add(baseInst, step)>;
- defm "" : SIMDCondition<v4i32, v4i32, "i32x4", name, cond,
- !add(!add(baseInst, step), step)>;
-}
-multiclass SIMDConditionFP<string name, CondCode cond, bits<32> baseInst> {
- defm "" : SIMDCondition<v4f32, v4i32, "f32x4", name, cond, baseInst>;
- defm "" : SIMDCondition<v2f64, v2i64, "f64x2", name, cond,
- !add(baseInst, 1)>;
-}
-multiclass SIMDAbs<ValueType vec_t, string vec, bits<32> simdop> {
- defm ABS_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
- [(set (vec_t V128:$dst), (vec_t (fabs V128:$vec)))],
- vec#".abs\t$dst, $vec", vec#".abs", simdop>;
-}
-multiclass SIMDSqrt<ValueType vec_t, string vec, bits<32> simdop> {
- defm SQRT_#vec_t :
- SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
- [(set (vec_t V128:$dst), (vec_t (fsqrt V128:$vec)))],
- vec#".sqrt\t$dst, $vec", vec#".sqrt", simdop>;
-}
-multiclass SIMDConvert<ValueType vec_t, ValueType arg_t, SDNode op,
- string name, bits<32> simdop> {
- defm op#_#vec_t#_#arg_t :
- SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
- [(set (vec_t V128:$dst), (vec_t (op (arg_t V128:$vec))))],
- name#"\t$dst, $vec", name, simdop>;
-}
-
-let Defs = [ARGUMENTS] in {
-defm "" : ConstVec<v16i8,
- (ins vec_i8imm_op:$i0, vec_i8imm_op:$i1,
- vec_i8imm_op:$i2, vec_i8imm_op:$i3,
- vec_i8imm_op:$i4, vec_i8imm_op:$i5,
- vec_i8imm_op:$i6, vec_i8imm_op:$i7,
- vec_i8imm_op:$i8, vec_i8imm_op:$i9,
- vec_i8imm_op:$iA, vec_i8imm_op:$iB,
- vec_i8imm_op:$iC, vec_i8imm_op:$iD,
- vec_i8imm_op:$iE, vec_i8imm_op:$iF),
- (build_vector ImmI8:$i0, ImmI8:$i1, ImmI8:$i2, ImmI8:$i3,
- ImmI8:$i4, ImmI8:$i5, ImmI8:$i6, ImmI8:$i7,
- ImmI8:$i8, ImmI8:$i9, ImmI8:$iA, ImmI8:$iB,
- ImmI8:$iC, ImmI8:$iD, ImmI8:$iE, ImmI8:$iF),
- !strconcat("$i0, $i1, $i2, $i3, $i4, $i5, $i6, $i7, ",
- "$i8, $i9, $iA, $iB, $iC, $iD, $iE, $iF")>;
-defm "" : ConstVec<v8i16,
- (ins vec_i16imm_op:$i0, vec_i16imm_op:$i1,
- vec_i16imm_op:$i2, vec_i16imm_op:$i3,
- vec_i16imm_op:$i4, vec_i16imm_op:$i5,
- vec_i16imm_op:$i6, vec_i16imm_op:$i7),
- (build_vector
- ImmI16:$i0, ImmI16:$i1, ImmI16:$i2, ImmI16:$i3,
- ImmI16:$i4, ImmI16:$i5, ImmI16:$i6, ImmI16:$i7),
- "$i0, $i1, $i2, $i3, $i4, $i5, $i6, $i7">;
-defm "" : ConstVec<v4i32,
- (ins vec_i32imm_op:$i0, vec_i32imm_op:$i1,
- vec_i32imm_op:$i2, vec_i32imm_op:$i3),
- (build_vector (i32 imm:$i0), (i32 imm:$i1),
- (i32 imm:$i2), (i32 imm:$i3)),
- "$i0, $i1, $i2, $i3">;
-defm "" : ConstVec<v2i64,
- (ins vec_i64imm_op:$i0, vec_i64imm_op:$i1),
- (build_vector (i64 imm:$i0), (i64 imm:$i1)),
- "$i0, $i1">;
-defm "" : ConstVec<v4f32,
- (ins f32imm_op:$i0, f32imm_op:$i1,
- f32imm_op:$i2, f32imm_op:$i3),
- (build_vector (f32 fpimm:$i0), (f32 fpimm:$i1),
- (f32 fpimm:$i2), (f32 fpimm:$i3)),
- "$i0, $i1, $i2, $i3">;
-defm "" : ConstVec<v2f64,
- (ins f64imm_op:$i0, f64imm_op:$i1),
- (build_vector (f64 fpimm:$i0), (f64 fpimm:$i1)),
- "$i0, $i1">;
-
-foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in {
-defm "" : SIMDLoad<vec_t>;
-defm "" : SIMDStore<vec_t>;
-}
-
-defm "" : ExtractLaneExtended<"_s", 9>;
-defm "" : ExtractLaneExtended<"_u", 10>;
-defm "" : ExtractLane<v4i32, "i32x4", LaneIdx4, I32, 13>;
-defm "" : ExtractLane<v2i64, "i64x2", LaneIdx2, I64, 14>;
-defm "" : ExtractLane<v4f32, "f32x4", LaneIdx4, F32, 15>;
-defm "" : ExtractLane<v2f64, "f64x2", LaneIdx2, F64, 16>;
defm "" : ReplaceLane<v16i8, "i8x16", LaneIdx16, I32, i32, 17>;
defm "" : ReplaceLane<v8i16, "i16x8", LaneIdx8, I32, i32, 18>;
@@ -335,13 +209,119 @@ defm "" : ReplaceLane<v2i64, "i64x2", La
defm "" : ReplaceLane<v4f32, "f32x4", LaneIdx4, F32, f32, 21>;
defm "" : ReplaceLane<v2f64, "f64x2", LaneIdx2, F64, f64, 22>;
-defm "" : Splat<v16i8, "i8x16", I32, splat16, 3>;
-defm "" : Splat<v8i16, "i16x8", I32, splat8, 4>;
-defm "" : Splat<v4i32, "i32x4", I32, splat4, 5>;
-defm "" : Splat<v2i64, "i64x2", I64, splat2, 6>;
-defm "" : Splat<v4f32, "f32x4", F32, splat4, 7>;
-defm "" : Splat<v2f64, "f64x2", F64, splat2, 8>;
+// Arbitrary other BUILD_VECTOR patterns
+def : Pat<(v16i8 (build_vector
+ (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3),
+ (i32 I32:$x4), (i32 I32:$x5), (i32 I32:$x6), (i32 I32:$x7),
+ (i32 I32:$x8), (i32 I32:$x9), (i32 I32:$x10), (i32 I32:$x11),
+ (i32 I32:$x12), (i32 I32:$x13), (i32 I32:$x14), (i32 I32:$x15)
+ )),
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (REPLACE_LANE_v16i8
+ (v16i8 (SPLAT_v16i8 (i32 I32:$x0))),
+ 1, I32:$x1
+ )),
+ 2, I32:$x2
+ )),
+ 3, I32:$x3
+ )),
+ 4, I32:$x4
+ )),
+ 5, I32:$x5
+ )),
+ 6, I32:$x6
+ )),
+ 7, I32:$x7
+ )),
+ 8, I32:$x8
+ )),
+ 9, I32:$x9
+ )),
+ 10, I32:$x10
+ )),
+ 11, I32:$x11
+ )),
+ 12, I32:$x12
+ )),
+ 13, I32:$x13
+ )),
+ 14, I32:$x14
+ )),
+ 15, I32:$x15
+ ))>;
+def : Pat<(v8i16 (build_vector
+ (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3),
+ (i32 I32:$x4), (i32 I32:$x5), (i32 I32:$x6), (i32 I32:$x7)
+ )),
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (REPLACE_LANE_v8i16
+ (v8i16 (SPLAT_v8i16 (i32 I32:$x0))),
+ 1, I32:$x1
+ )),
+ 2, I32:$x2
+ )),
+ 3, I32:$x3
+ )),
+ 4, I32:$x4
+ )),
+ 5, I32:$x5
+ )),
+ 6, I32:$x6
+ )),
+ 7, I32:$x7
+ ))>;
+def : Pat<(v4i32 (build_vector
+ (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3)
+ )),
+ (v4i32 (REPLACE_LANE_v4i32
+ (v4i32 (REPLACE_LANE_v4i32
+ (v4i32 (REPLACE_LANE_v4i32
+ (v4i32 (SPLAT_v4i32 (i32 I32:$x0))),
+ 1, I32:$x1
+ )),
+ 2, I32:$x2
+ )),
+ 3, I32:$x3
+ ))>;
+def : Pat<(v2i64 (build_vector (i64 I64:$x0), (i64 I64:$x1))),
+ (v2i64 (REPLACE_LANE_v2i64
+ (v2i64 (SPLAT_v2i64 (i64 I64:$x0))), 1, I64:$x1))>;
+def : Pat<(v4f32 (build_vector
+ (f32 F32:$x0), (f32 F32:$x1), (f32 F32:$x2), (f32 F32:$x3)
+ )),
+ (v4f32 (REPLACE_LANE_v4f32
+ (v4f32 (REPLACE_LANE_v4f32
+ (v4f32 (REPLACE_LANE_v4f32
+ (v4f32 (SPLAT_v4f32 (f32 F32:$x0))),
+ 1, F32:$x1
+ )),
+ 2, F32:$x2
+ )),
+ 3, F32:$x3
+ ))>;
+def : Pat<(v2f64 (build_vector (f64 F64:$x0), (f64 F64:$x1))),
+ (v2f64 (REPLACE_LANE_v2f64
+ (v2f64 (SPLAT_v2f64 (f64 F64:$x0))), 1, F64:$x1))>;
+// Shuffle lanes: shuffle
defm SHUFFLE_v16i8 :
SIMD_I<(outs V128:$dst),
(ins V128:$x, V128:$y,
@@ -372,89 +352,333 @@ defm SHUFFLE_v16i8 :
"$m8, $m9, $mA, $mB, $mC, $mD, $mE, $mF",
23>;
-let isCommutable = 1 in {
-defm ADD : SIMDBinaryInt<add, "add", 24>;
-defm ADD : SIMDBinaryFP<fadd, "add", 133>;
-defm MUL : SIMDBinaryIntNoI64x2<mul, "mul", 32>;
-defm MUL : SIMDBinaryFP<fmul, "mul", 139>;
-defm ADD_SAT_S : SIMDBinarySat<wasm_add_sat_s, "add_saturate_s", 40>;
-defm ADD_SAT_U : SIMDBinarySat<wasm_add_sat_u, "add_saturate_u", 41>;
-} // isCommutable = 1
+// Shuffles after custom lowering
+def wasm_shuffle_t : SDTypeProfile<1, 18, []>;
+def wasm_shuffle : SDNode<"WebAssemblyISD::SHUFFLE", wasm_shuffle_t>;
+foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in {
+def : Pat<(v16i8 (wasm_shuffle (vec_t V128:$x), (vec_t V128:$y),
+ (i32 LaneIdx32:$m0), (i32 LaneIdx32:$m1),
+ (i32 LaneIdx32:$m2), (i32 LaneIdx32:$m3),
+ (i32 LaneIdx32:$m4), (i32 LaneIdx32:$m5),
+ (i32 LaneIdx32:$m6), (i32 LaneIdx32:$m7),
+ (i32 LaneIdx32:$m8), (i32 LaneIdx32:$m9),
+ (i32 LaneIdx32:$mA), (i32 LaneIdx32:$mB),
+ (i32 LaneIdx32:$mC), (i32 LaneIdx32:$mD),
+ (i32 LaneIdx32:$mE), (i32 LaneIdx32:$mF))),
+ (v16i8 (SHUFFLE_v16i8 (vec_t V128:$x), (vec_t V128:$y),
+ (i32 LaneIdx32:$m0), (i32 LaneIdx32:$m1),
+ (i32 LaneIdx32:$m2), (i32 LaneIdx32:$m3),
+ (i32 LaneIdx32:$m4), (i32 LaneIdx32:$m5),
+ (i32 LaneIdx32:$m6), (i32 LaneIdx32:$m7),
+ (i32 LaneIdx32:$m8), (i32 LaneIdx32:$m9),
+ (i32 LaneIdx32:$mA), (i32 LaneIdx32:$mB),
+ (i32 LaneIdx32:$mC), (i32 LaneIdx32:$mD),
+ (i32 LaneIdx32:$mE), (i32 LaneIdx32:$mF)))>;
+}
-defm SUB : SIMDBinaryInt<sub, "sub", 28>;
-defm SUB : SIMDBinaryFP<fsub, "sub", 135>;
-defm SUB_SAT_S : SIMDBinarySat<wasm_sub_sat_s, "sub_saturate_s", 44>;
-defm SUB_SAT_U : SIMDBinarySat<wasm_sub_sat_u, "sub_saturate_u", 45>;
-defm DIV : SIMDBinaryFP<fdiv, "div", 137>;
+//===----------------------------------------------------------------------===//
+// Integer arithmetic
+//===----------------------------------------------------------------------===//
-defm "" : SIMDNegInt<v16i8, "i8x16", splat16, i32, 36>;
-defm "" : SIMDNegInt<v8i16, "i16x8", splat8, i32, 37>;
-defm "" : SIMDNegInt<v4i32, "i32x4", splat4, i32, 38>;
-defm "" : SIMDNegInt<v2i64, "i64x2", splat2, i64, 39>;
-defm "" : SIMDNegFP<v4f32, "f32x4", splat4, f32, 125>;
-defm "" : SIMDNegFP<v2f64, "f64x2", splat2, f64, 126>;
+multiclass SIMDBinary<ValueType vec_t, string vec, SDNode node, string name,
+ bits<32> simdop> {
+ defm _#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$lhs, V128:$rhs),
+ (outs), (ins),
+ [(set (vec_t V128:$dst), (node V128:$lhs, V128:$rhs))],
+ vec#"."#name#"\t$dst, $lhs, $rhs", vec#"."#name,
+ simdop>;
+}
-defm SHL : SIMDShiftInt<shl, "shl", 48, 0>;
-defm SHR_S : SIMDShiftInt<sra, "shr_s", 52, 1>;
-defm SHR_U : SIMDShiftInt<srl, "shr_u", 53, 1>;
+multiclass SIMDBinaryIntNoI64x2<SDNode node, string name, bits<32> baseInst> {
+ defm "" : SIMDBinary<v16i8, "i8x16", node, name, baseInst>;
+ defm "" : SIMDBinary<v8i16, "i16x8", node, name, !add(baseInst, 1)>;
+ defm "" : SIMDBinary<v4i32, "i32x4", node, name, !add(baseInst, 2)>;
+}
+
+multiclass SIMDBinaryInt<SDNode node, string name, bits<32> baseInst> {
+ defm "" : SIMDBinaryIntNoI64x2<node, name, baseInst>;
+ defm "" : SIMDBinary<v2i64, "i64x2", node, name, !add(baseInst, 3)>;
+}
+
+// Integer addition: add
+let isCommutable = 1 in
+defm ADD : SIMDBinaryInt<add, "add", 24>;
+
+// Integer subtraction: sub
+defm SUB : SIMDBinaryInt<sub, "sub", 28>;
+
+// Integer multiplication: mul
+defm MUL : SIMDBinaryIntNoI64x2<mul, "mul", 32>;
+
+// Integer negation: neg
+multiclass SIMDNeg<ValueType vec_t, string vec, PatFrag splat_pat,
+ ValueType lane_t, SDNode node, dag lane, bits<32> simdop> {
+ defm NEG_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec),
+ (outs), (ins),
+ [(set
+ (vec_t V128:$dst),
+ (vec_t (node
+ (vec_t (splat_pat lane)),
+ (vec_t V128:$vec)
+ ))
+ )],
+ vec#".neg\t$dst, $vec", vec#".neg", simdop>;
+}
+multiclass SIMDNegInt<ValueType vec_t, string vec, PatFrag splat_pat,
+ ValueType lane_t, bits<32> simdop> {
+ defm "" : SIMDNeg<vec_t, vec, splat_pat, lane_t, sub, (lane_t 0), simdop>;
+}
+
+defm "" : SIMDNegInt<v16i8, "i8x16", splat16, i32, 36>;
+defm "" : SIMDNegInt<v8i16, "i16x8", splat8, i32, 37>;
+defm "" : SIMDNegInt<v4i32, "i32x4", splat4, i32, 38>;
+defm "" : SIMDNegInt<v2i64, "i64x2", splat2, i64, 39>;
+
+//===----------------------------------------------------------------------===//
+// Saturating integer arithmetic
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDBinarySat<SDNode node, string name, bits<32> baseInst> {
+ defm "" : SIMDBinary<v16i8, "i8x16", node, name, baseInst>;
+ defm "" : SIMDBinary<v8i16, "i16x8", node, name, !add(baseInst, 2)>;
+}
+
+def wasm_saturate_t : SDTypeProfile<1, 2,
+ [SDTCisVec<0>, SDTCisSameAs<0, 1>, SDTCisSameAs<0, 2>]
+>;
+def wasm_add_sat_s : SDNode<"WebAssemblyISD::ADD_SAT_S", wasm_saturate_t>;
+def wasm_add_sat_u : SDNode<"WebAssemblyISD::ADD_SAT_U", wasm_saturate_t>;
+def wasm_sub_sat_s : SDNode<"WebAssemblyISD::SUB_SAT_S", wasm_saturate_t>;
+def wasm_sub_sat_u : SDNode<"WebAssemblyISD::SUB_SAT_U", wasm_saturate_t>;
+
+// Saturating integer addition: add_saturate_s / add_saturate_u
+let isCommutable = 1 in {
+defm ADD_SAT_S : SIMDBinarySat<wasm_add_sat_s, "add_saturate_s", 40>;
+defm ADD_SAT_U : SIMDBinarySat<wasm_add_sat_u, "add_saturate_u", 41>;
+} // isCommutable = 1
+
+// Saturating integer subtraction: sub_saturate_s / sub_saturate_u
+defm SUB_SAT_S : SIMDBinarySat<wasm_sub_sat_s, "sub_saturate_s", 44>;
+defm SUB_SAT_U : SIMDBinarySat<wasm_sub_sat_u, "sub_saturate_u", 45>;
+
+//===----------------------------------------------------------------------===//
+// Bit shifts
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDShift<ValueType vec_t, string vec, SDNode node, dag shift_vec,
+ string name, bits<32> simdop> {
+ defm _#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec, I32:$x),
+ (outs), (ins),
+ [(set (vec_t V128:$dst),
+ (node V128:$vec, (vec_t shift_vec)))],
+ vec#"."#name#"\t$dst, $vec, $x", vec#"."#name, simdop>;
+}
+
+multiclass SIMDShiftInt<SDNode node, string name, bits<32> baseInst, int skip> {
+ defm "" : SIMDShift<v16i8, "i8x16", node, (splat16 I32:$x), name, baseInst>;
+ defm "" : SIMDShift<v8i16, "i16x8", node, (splat8 I32:$x), name,
+ !add(baseInst, !if(skip, 2, 1))>;
+ defm "" : SIMDShift<v4i32, "i32x4", node, (splat4 I32:$x), name,
+ !add(baseInst, !if(skip, 4, 2))>;
+ defm "" : SIMDShift<v2i64, "i64x2", node, (splat2 (i64 (zext I32:$x))),
+ name, !add(baseInst, !if(skip, 6, 3))>;
+}
+
+// Left shift by scalar: shl
+defm SHL : SIMDShiftInt<shl, "shl", 48, 0>;
+
+// Right shift by scalar: shr_s / shr_u
+defm SHR_S : SIMDShiftInt<sra, "shr_s", 52, 1>;
+defm SHR_U : SIMDShiftInt<srl, "shr_u", 53, 1>;
+
+// Truncate i64 shift operands to i32s
+foreach shifts = [[shl, SHL_v2i64], [sra, SHR_S_v2i64], [srl, SHR_U_v2i64]] in
+def : Pat<(v2i64 (shifts[0] (v2i64 V128:$vec), (v2i64 (splat2 I64:$x)))),
+ (v2i64 (shifts[1] (v2i64 V128:$vec), (I32_WRAP_I64 I64:$x)))>;
+
+//===----------------------------------------------------------------------===//
+// Bitwise operations
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDBitwise<SDNode node, string name, bits<32> simdop> {
+ defm "" : SIMDBinary<v16i8, "v128", node, name, simdop>;
+ defm "" : SIMDBinary<v8i16, "v128", node, name, simdop>;
+ defm "" : SIMDBinary<v4i32, "v128", node, name, simdop>;
+ defm "" : SIMDBinary<v2i64, "v128", node, name, simdop>;
+}
+
+// Bitwise logic: v128.and / v128.or / v128.xor
let isCommutable = 1 in {
defm AND : SIMDBitwise<and, "and", 60>;
defm OR : SIMDBitwise<or, "or", 61>;
defm XOR : SIMDBitwise<xor, "xor", 62>;
} // isCommutable = 1
+// Bitwise logic: v128.not
+multiclass SIMDNot<ValueType vec_t, PatFrag splat_pat, ValueType lane_t> {
+ defm NOT_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec),
+ (outs), (ins),
+ [(set
+ (vec_t V128:$dst),
+ (vec_t (xor
+ (vec_t V128:$vec),
+ (vec_t (splat_pat (lane_t -1)))
+ ))
+ )],
+ "v128.not\t$dst, $vec", "v128.not", 63>;
+}
+
defm "" : SIMDNot<v16i8, splat16, i32>;
defm "" : SIMDNot<v8i16, splat8, i32>;
defm "" : SIMDNot<v4i32, splat4, i32>;
defm "" : SIMDNot<v2i64, splat2, i64>;
+// Bitwise select: v128.bitselect
+def wasm_bitselect_t : SDTypeProfile<1, 3,
+ [SDTCisVec<0>, SDTCisSameAs<0, 1>, SDTCisSameAs<0, 2>, SDTCisSameAs<0, 3>]
+>;
+def wasm_bitselect : SDNode<"WebAssemblyISD::BITSELECT", wasm_bitselect_t>;
+
+multiclass Bitselect<ValueType vec_t> {
+ defm BITSELECT_#vec_t :
+ SIMD_I<(outs V128:$dst), (ins V128:$v1, V128:$v2, V128:$c), (outs), (ins),
+ [(set (vec_t V128:$dst),
+ (vec_t (wasm_bitselect
+ (vec_t V128:$c), (vec_t V128:$v1), (vec_t V128:$v2)
+ ))
+ )],
+ "v128.bitselect\t$dst, $v1, $v2, $c", "v128.bitselect", 64>;
+}
+
foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in
defm "" : Bitselect<vec_t>;
+// Bitselect is equivalent to (c & v1) | (~c & v2)
+foreach vec_t = [v16i8, v8i16, v4i32, v2i64] in
+ def : Pat<(vec_t (or (and (vec_t V128:$c), (vec_t V128:$v1)),
+ (and (vnot V128:$c), (vec_t V128:$v2)))),
+ (!cast<Instruction>("BITSELECT_"#vec_t)
+ V128:$v1, V128:$v2, V128:$c)>;
+
+//===----------------------------------------------------------------------===//
+// Boolean horizontal reductions
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDReduceVec<ValueType vec_t, string vec, string name, SDNode op,
+ bits<32> simdop> {
+ defm _#vec_t : SIMD_I<(outs I32:$dst), (ins V128:$vec), (outs), (ins),
+ [(set I32:$dst, (i32 (op (vec_t V128:$vec))))],
+ vec#"."#name#"\t$dst, $vec", vec#"."#name, simdop>;
+}
+
+multiclass SIMDReduce<string name, SDNode op, bits<32> baseInst> {
+ defm "" : SIMDReduceVec<v16i8, "i8x16", name, op, baseInst>;
+ defm "" : SIMDReduceVec<v8i16, "i16x8", name, op, !add(baseInst, 1)>;
+ defm "" : SIMDReduceVec<v4i32, "i32x4", name, op, !add(baseInst, 2)>;
+ defm "" : SIMDReduceVec<v2i64, "i64x2", name, op, !add(baseInst, 3)>;
+}
+
+def wasm_reduce_t : SDTypeProfile<1, 1, [SDTCisVT<0, i32>, SDTCisVec<1>]>;
+
+// Any lane true: any_true
+def wasm_anytrue : SDNode<"WebAssemblyISD::ANYTRUE", wasm_reduce_t>;
defm ANYTRUE : SIMDReduce<"any_true", wasm_anytrue, 65>;
+
+// All lanes true: all_true
+def wasm_alltrue : SDNode<"WebAssemblyISD::ALLTRUE", wasm_reduce_t>;
defm ALLTRUE : SIMDReduce<"all_true", wasm_alltrue, 69>;
+//===----------------------------------------------------------------------===//
+// Comparisons
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDCondition<ValueType vec_t, ValueType out_t, string vec,
+ string name, CondCode cond, bits<32> simdop> {
+ defm _#vec_t :
+ SIMD_I<(outs V128:$dst), (ins V128:$lhs, V128:$rhs), (outs), (ins),
+ [(set (out_t V128:$dst),
+ (setcc (vec_t V128:$lhs), (vec_t V128:$rhs), cond))],
+ vec#"."#name#"\t$dst, $lhs, $rhs", vec#"."#name, simdop>;
+}
+
+multiclass SIMDConditionInt<string name, CondCode cond, bits<32> baseInst,
+ int step = 1> {
+ defm "" : SIMDCondition<v16i8, v16i8, "i8x16", name, cond, baseInst>;
+ defm "" : SIMDCondition<v8i16, v8i16, "i16x8", name, cond,
+ !add(baseInst, step)>;
+ defm "" : SIMDCondition<v4i32, v4i32, "i32x4", name, cond,
+ !add(!add(baseInst, step), step)>;
+}
+
+multiclass SIMDConditionFP<string name, CondCode cond, bits<32> baseInst> {
+ defm "" : SIMDCondition<v4f32, v4i32, "f32x4", name, cond, baseInst>;
+ defm "" : SIMDCondition<v2f64, v2i64, "f64x2", name, cond,
+ !add(baseInst, 1)>;
+}
+
+// Equality: eq
let isCommutable = 1 in {
defm EQ : SIMDConditionInt<"eq", SETEQ, 73>;
defm EQ : SIMDConditionFP<"eq", SETOEQ, 77>;
+} // isCommutable = 1
+
+// Non-equality: ne
+let isCommutable = 1 in {
defm NE : SIMDConditionInt<"ne", SETNE, 79>;
defm NE : SIMDConditionFP<"ne", SETUNE, 83>;
} // isCommutable = 1
+// Less than: lt_s / lt_u / lt
defm LT_S : SIMDConditionInt<"lt_s", SETLT, 85, 2>;
defm LT_U : SIMDConditionInt<"lt_u", SETULT, 86, 2>;
defm LT : SIMDConditionFP<"lt", SETOLT, 93>;
+
+// Less than or equal: le_s / le_u / le
defm LE_S : SIMDConditionInt<"le_s", SETLE, 95, 2>;
defm LE_U : SIMDConditionInt<"le_u", SETULE, 96, 2>;
defm LE : SIMDConditionFP<"le", SETOLE, 103>;
+
+// Greater than: gt_s / gt_u / gt
defm GT_S : SIMDConditionInt<"gt_s", SETGT, 105, 2>;
defm GT_U : SIMDConditionInt<"gt_u", SETUGT, 106, 2>;
defm GT : SIMDConditionFP<"gt", SETOGT, 113>;
+
+// Greater than or equal: ge_s / ge_u / ge
defm GE_S : SIMDConditionInt<"ge_s", SETGE, 115, 2>;
defm GE_U : SIMDConditionInt<"ge_u", SETUGE, 116, 2>;
defm GE : SIMDConditionFP<"ge", SETOGE, 123>;
-defm "" : SIMDAbs<v4f32, "f32x4", 127>;
-defm "" : SIMDAbs<v2f64, "f64x2", 128>;
-
-defm "" : SIMDSqrt<v4f32, "f32x4", 141>;
-defm "" : SIMDSqrt<v2f64, "f64x2", 142>;
+// Lower float comparisons that don't care about NaN to standard WebAssembly
+// float comparisons. These instructions are generated in the target-independent
+// expansion of unordered comparisons and ordered ne.
+def : Pat<(v4i32 (seteq (v4f32 V128:$lhs), (v4f32 V128:$rhs))),
+ (v4i32 (EQ_v4f32 (v4f32 V128:$lhs), (v4f32 V128:$rhs)))>;
+def : Pat<(v4i32 (setne (v4f32 V128:$lhs), (v4f32 V128:$rhs))),
+ (v4i32 (NE_v4f32 (v4f32 V128:$lhs), (v4f32 V128:$rhs)))>;
+def : Pat<(v2i64 (seteq (v2f64 V128:$lhs), (v2f64 V128:$rhs))),
+ (v2i64 (EQ_v2f64 (v2f64 V128:$lhs), (v2f64 V128:$rhs)))>;
+def : Pat<(v2i64 (setne (v2f64 V128:$lhs), (v2f64 V128:$rhs))),
+ (v2i64 (NE_v2f64 (v2f64 V128:$lhs), (v2f64 V128:$rhs)))>;
-defm "" : SIMDConvert<v4f32, v4i32, sint_to_fp, "f32x4.convert_s/i32x4", 143>;
-defm "" : SIMDConvert<v4f32, v4i32, uint_to_fp, "f32x4.convert_u/i32x4", 144>;
-defm "" : SIMDConvert<v2f64, v2i64, sint_to_fp, "f64x2.convert_s/i64x2", 145>;
-defm "" : SIMDConvert<v2f64, v2i64, uint_to_fp, "f64x2.convert_u/i64x2", 146>;
-defm "" : SIMDConvert<v4i32, v4f32, fp_to_sint, "i32x4.trunc_sat_s/f32x4", 147>;
-defm "" : SIMDConvert<v4i32, v4f32, fp_to_uint, "i32x4.trunc_sat_u/f32x4", 148>;
-defm "" : SIMDConvert<v2i64, v2f64, fp_to_sint, "i64x2.trunc_sat_s/f64x2", 149>;
-defm "" : SIMDConvert<v2i64, v2f64, fp_to_uint, "i64x2.trunc_sat_u/f64x2", 150>;
+//===----------------------------------------------------------------------===//
+// Load and store
+//===----------------------------------------------------------------------===//
-} // Defs = [ARGUMENTS]
+// Load: v128.load
+multiclass SIMDLoad<ValueType vec_t> {
+ let mayLoad = 1 in
+ defm LOAD_#vec_t :
+ SIMD_I<(outs V128:$dst), (ins P2Align:$align, offset32_op:$off, I32:$addr),
+ (outs), (ins P2Align:$align, offset32_op:$off), [],
+ "v128.load\t$dst, ${off}(${addr})$align",
+ "v128.load\t$off$align", 1>;
+}
-// Def load and store patterns from WebAssemblyInstrMemory.td for vector types
foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in {
+defm "" : SIMDLoad<vec_t>;
+// Def load and store patterns from WebAssemblyInstrMemory.td for vector types
def : LoadPatNoOffset<vec_t, load, !cast<NI>("LOAD_"#vec_t)>;
def : LoadPatImmOff<vec_t, load, regPlusImm, !cast<NI>("LOAD_"#vec_t)>;
def : LoadPatImmOff<vec_t, load, or_is_add, !cast<NI>("LOAD_"#vec_t)>;
@@ -463,7 +687,22 @@ def : LoadPatExternalSym<vec_t, load, !c
def : LoadPatOffsetOnly<vec_t, load, !cast<NI>("LOAD_"#vec_t)>;
def : LoadPatGlobalAddrOffOnly<vec_t, load, !cast<NI>("LOAD_"#vec_t)>;
def : LoadPatExternSymOffOnly<vec_t, load, !cast<NI>("LOAD_"#vec_t)>;
+}
+
+// Store: v128.store
+multiclass SIMDStore<ValueType vec_t> {
+ let mayStore = 1 in
+ defm STORE_#vec_t :
+ SIMD_I<(outs), (ins P2Align:$align, offset32_op:$off, I32:$addr, V128:$vec),
+ (outs), (ins P2Align:$align, offset32_op:$off), [],
+ "v128.store\t${off}(${addr})$align, $vec",
+ "v128.store\t$off$align", 2>;
+}
+foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in {
+defm "" : SIMDStore<vec_t>;
+
+// Def load and store patterns from WebAssemblyInstrMemory.td for vector types
def : StorePatNoOffset<vec_t, store, !cast<NI>("STORE_"#vec_t)>;
def : StorePatImmOff<vec_t, store, regPlusImm, !cast<NI>("STORE_"#vec_t)>;
def : StorePatImmOff<vec_t, store, or_is_add, !cast<NI>("STORE_"#vec_t)>;
@@ -472,34 +711,100 @@ def : StorePatExternalSym<vec_t, store,
def : StorePatOffsetOnly<vec_t, store, !cast<NI>("STORE_"#vec_t)>;
def : StorePatGlobalAddrOffOnly<vec_t, store, !cast<NI>("STORE_"#vec_t)>;
def : StorePatExternSymOffOnly<vec_t, store, !cast<NI>("STORE_"#vec_t)>;
+}
+
+//===----------------------------------------------------------------------===//
+// Floating-point sign bit operations
+//===----------------------------------------------------------------------===//
+// Negation: neg
+def fpimm0 : FPImmLeaf<fAny, [{ return Imm.isExactlyValue(+0.0); }]>;
+multiclass SIMDNegFP<ValueType vec_t, string vec, PatFrag splat_pat,
+ ValueType lane_t, bits<32> simdop> {
+ defm "" : SIMDNeg<vec_t, vec, splat_pat, lane_t, fsub, (lane_t fpimm0),
+ simdop>;
}
-// Bitselect is equivalent to (c & v1) | (~c & v2)
-foreach vec_t = [v16i8, v8i16, v4i32, v2i64] in
- def : Pat<(vec_t (or (and (vec_t V128:$c), (vec_t V128:$v1)),
- (and (vnot V128:$c), (vec_t V128:$v2)))),
- (!cast<Instruction>("BITSELECT_"#vec_t)
- V128:$v1, V128:$v2, V128:$c)>;
+defm "" : SIMDNegFP<v4f32, "f32x4", splat4, f32, 125>;
+defm "" : SIMDNegFP<v2f64, "f64x2", splat2, f64, 126>;
-// Lower float comparisons that don't care about NaN to standard
-// WebAssembly float comparisons. These instructions are generated in
-// the target-independent expansion of unordered comparisons and
-// ordered ne.
-def : Pat<(v4i32 (seteq (v4f32 V128:$lhs), (v4f32 V128:$rhs))),
- (v4i32 (EQ_v4f32 (v4f32 V128:$lhs), (v4f32 V128:$rhs)))>;
-def : Pat<(v4i32 (setne (v4f32 V128:$lhs), (v4f32 V128:$rhs))),
- (v4i32 (NE_v4f32 (v4f32 V128:$lhs), (v4f32 V128:$rhs)))>;
-def : Pat<(v2i64 (seteq (v2f64 V128:$lhs), (v2f64 V128:$rhs))),
- (v2i64 (EQ_v2f64 (v2f64 V128:$lhs), (v2f64 V128:$rhs)))>;
-def : Pat<(v2i64 (setne (v2f64 V128:$lhs), (v2f64 V128:$rhs))),
- (v2i64 (NE_v2f64 (v2f64 V128:$lhs), (v2f64 V128:$rhs)))>;
+// Absolute value: abs
+multiclass SIMDAbs<ValueType vec_t, string vec, bits<32> simdop> {
+ defm ABS_#vec_t : SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
+ [(set (vec_t V128:$dst), (vec_t (fabs V128:$vec)))],
+ vec#".abs\t$dst, $vec", vec#".abs", simdop>;
+}
-// follow convention of making implicit expansions unsigned
-def : Pat<(i32 (vector_extract (v16i8 V128:$vec), (i32 LaneIdx16:$idx))),
- (EXTRACT_LANE_v16i8_u V128:$vec, (i32 LaneIdx16:$idx))>;
-def : Pat<(i32 (vector_extract (v8i16 V128:$vec), (i32 LaneIdx8:$idx))),
- (EXTRACT_LANE_v8i16_u V128:$vec, (i32 LaneIdx8:$idx))>;
+defm "" : SIMDAbs<v4f32, "f32x4", 127>;
+defm "" : SIMDAbs<v2f64, "f64x2", 128>;
+
+//===----------------------------------------------------------------------===//
+// Floating-point min and max
+//===----------------------------------------------------------------------===//
+
+// NaN-propagating minimum: min
+// TODO
+
+// NaN-propagating maximum: max
+// TODO
+
+//===----------------------------------------------------------------------===//
+// Floating-point arithmetic
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDBinaryFP<SDNode node, string name, bits<32> baseInst> {
+ defm "" : SIMDBinary<v4f32, "f32x4", node, name, baseInst>;
+ defm "" : SIMDBinary<v2f64, "f64x2", node, name, !add(baseInst, 1)>;
+}
+
+// Addition: add
+let isCommutable = 1 in
+defm ADD : SIMDBinaryFP<fadd, "add", 133>;
+
+// Subtraction: sub
+defm SUB : SIMDBinaryFP<fsub, "sub", 135>;
+
+// Division: div
+defm DIV : SIMDBinaryFP<fdiv, "div", 137>;
+
+// Multiplication: mul
+let isCommutable = 1 in
+defm MUL : SIMDBinaryFP<fmul, "mul", 139>;
+
+// Square root: sqrt
+multiclass SIMDSqrt<ValueType vec_t, string vec, bits<32> simdop> {
+ defm SQRT_#vec_t :
+ SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
+ [(set (vec_t V128:$dst), (vec_t (fsqrt V128:$vec)))],
+ vec#".sqrt\t$dst, $vec", vec#".sqrt", simdop>;
+}
+
+defm "" : SIMDSqrt<v4f32, "f32x4", 141>;
+defm "" : SIMDSqrt<v2f64, "f64x2", 142>;
+
+//===----------------------------------------------------------------------===//
+// Conversions
+//===----------------------------------------------------------------------===//
+
+multiclass SIMDConvert<ValueType vec_t, ValueType arg_t, SDNode op,
+ string name, bits<32> simdop> {
+ defm op#_#vec_t#_#arg_t :
+ SIMD_I<(outs V128:$dst), (ins V128:$vec), (outs), (ins),
+ [(set (vec_t V128:$dst), (vec_t (op (arg_t V128:$vec))))],
+ name#"\t$dst, $vec", name, simdop>;
+}
+
+// Integer to floating point
+defm "" : SIMDConvert<v4f32, v4i32, sint_to_fp, "f32x4.convert_s/i32x4", 143>;
+defm "" : SIMDConvert<v4f32, v4i32, uint_to_fp, "f32x4.convert_u/i32x4", 144>;
+defm "" : SIMDConvert<v2f64, v2i64, sint_to_fp, "f64x2.convert_s/i64x2", 145>;
+defm "" : SIMDConvert<v2f64, v2i64, uint_to_fp, "f64x2.convert_u/i64x2", 146>;
+
+// Floating point to integer with saturation
+defm "" : SIMDConvert<v4i32, v4f32, fp_to_sint, "i32x4.trunc_sat_s/f32x4", 147>;
+defm "" : SIMDConvert<v4i32, v4f32, fp_to_uint, "i32x4.trunc_sat_u/f32x4", 148>;
+defm "" : SIMDConvert<v2i64, v2f64, fp_to_sint, "i64x2.trunc_sat_s/f64x2", 149>;
+defm "" : SIMDConvert<v2i64, v2f64, fp_to_uint, "i64x2.trunc_sat_u/f64x2", 150>;
// Bitcasts are nops
// Matching bitcast t1 to t1 causes strange errors, so avoid repeating types
@@ -511,142 +816,3 @@ foreach t2 = !foldl(
)
) in
def : Pat<(t1 (bitconvert (t2 V128:$v))), (t1 V128:$v)>;
-
-// Truncate i64 shift operands to i32s
-foreach shifts = [[shl, SHL_v2i64], [sra, SHR_S_v2i64], [srl, SHR_U_v2i64]] in
-def : Pat<(v2i64 (shifts[0] (v2i64 V128:$vec), (v2i64 (splat2 I64:$x)))),
- (v2i64 (shifts[1] (v2i64 V128:$vec), (I32_WRAP_I64 I64:$x)))>;
-
-// Shuffles after custom lowering
-foreach vec_t = [v16i8, v8i16, v4i32, v2i64, v4f32, v2f64] in {
-def : Pat<(v16i8 (wasm_shuffle (vec_t V128:$x), (vec_t V128:$y),
- (i32 LaneIdx32:$m0), (i32 LaneIdx32:$m1),
- (i32 LaneIdx32:$m2), (i32 LaneIdx32:$m3),
- (i32 LaneIdx32:$m4), (i32 LaneIdx32:$m5),
- (i32 LaneIdx32:$m6), (i32 LaneIdx32:$m7),
- (i32 LaneIdx32:$m8), (i32 LaneIdx32:$m9),
- (i32 LaneIdx32:$mA), (i32 LaneIdx32:$mB),
- (i32 LaneIdx32:$mC), (i32 LaneIdx32:$mD),
- (i32 LaneIdx32:$mE), (i32 LaneIdx32:$mF))),
- (v16i8 (SHUFFLE_v16i8 (vec_t V128:$x), (vec_t V128:$y),
- (i32 LaneIdx32:$m0), (i32 LaneIdx32:$m1),
- (i32 LaneIdx32:$m2), (i32 LaneIdx32:$m3),
- (i32 LaneIdx32:$m4), (i32 LaneIdx32:$m5),
- (i32 LaneIdx32:$m6), (i32 LaneIdx32:$m7),
- (i32 LaneIdx32:$m8), (i32 LaneIdx32:$m9),
- (i32 LaneIdx32:$mA), (i32 LaneIdx32:$mB),
- (i32 LaneIdx32:$mC), (i32 LaneIdx32:$mD),
- (i32 LaneIdx32:$mE), (i32 LaneIdx32:$mF)))>;
-}
-
-// arbitrary other BUILD_VECTOR patterns
-def : Pat<(v16i8 (build_vector
- (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3),
- (i32 I32:$x4), (i32 I32:$x5), (i32 I32:$x6), (i32 I32:$x7),
- (i32 I32:$x8), (i32 I32:$x9), (i32 I32:$x10), (i32 I32:$x11),
- (i32 I32:$x12), (i32 I32:$x13), (i32 I32:$x14), (i32 I32:$x15)
- )),
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (REPLACE_LANE_v16i8
- (v16i8 (SPLAT_v16i8 (i32 I32:$x0))),
- 1, I32:$x1
- )),
- 2, I32:$x2
- )),
- 3, I32:$x3
- )),
- 4, I32:$x4
- )),
- 5, I32:$x5
- )),
- 6, I32:$x6
- )),
- 7, I32:$x7
- )),
- 8, I32:$x8
- )),
- 9, I32:$x9
- )),
- 10, I32:$x10
- )),
- 11, I32:$x11
- )),
- 12, I32:$x12
- )),
- 13, I32:$x13
- )),
- 14, I32:$x14
- )),
- 15, I32:$x15
- ))>;
-def : Pat<(v8i16 (build_vector
- (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3),
- (i32 I32:$x4), (i32 I32:$x5), (i32 I32:$x6), (i32 I32:$x7)
- )),
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (REPLACE_LANE_v8i16
- (v8i16 (SPLAT_v8i16 (i32 I32:$x0))),
- 1, I32:$x1
- )),
- 2, I32:$x2
- )),
- 3, I32:$x3
- )),
- 4, I32:$x4
- )),
- 5, I32:$x5
- )),
- 6, I32:$x6
- )),
- 7, I32:$x7
- ))>;
-def : Pat<(v4i32 (build_vector
- (i32 I32:$x0), (i32 I32:$x1), (i32 I32:$x2), (i32 I32:$x3)
- )),
- (v4i32 (REPLACE_LANE_v4i32
- (v4i32 (REPLACE_LANE_v4i32
- (v4i32 (REPLACE_LANE_v4i32
- (v4i32 (SPLAT_v4i32 (i32 I32:$x0))),
- 1, I32:$x1
- )),
- 2, I32:$x2
- )),
- 3, I32:$x3
- ))>;
-def : Pat<(v2i64 (build_vector (i64 I64:$x0), (i64 I64:$x1))),
- (v2i64 (REPLACE_LANE_v2i64
- (v2i64 (SPLAT_v2i64 (i64 I64:$x0))), 1, I64:$x1))>;
-def : Pat<(v4f32 (build_vector
- (f32 F32:$x0), (f32 F32:$x1), (f32 F32:$x2), (f32 F32:$x3)
- )),
- (v4f32 (REPLACE_LANE_v4f32
- (v4f32 (REPLACE_LANE_v4f32
- (v4f32 (REPLACE_LANE_v4f32
- (v4f32 (SPLAT_v4f32 (f32 F32:$x0))),
- 1, F32:$x1
- )),
- 2, F32:$x2
- )),
- 3, F32:$x3
- ))>;
-def : Pat<(v2f64 (build_vector (f64 F64:$x0), (f64 F64:$x1))),
- (v2f64 (REPLACE_LANE_v2f64
- (v2f64 (SPLAT_v2f64 (f64 F64:$x0))), 1, F64:$x1))>;
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