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1// RUN: mlir-opt %s --sparse-reinterpret-map --sparsification -cse -sparse-vectorization="vl=16" -scf-for-loop-peeling -canonicalize -cse | \2// RUN:   FileCheck %s3 4#SparseVector = #sparse_tensor.encoding<{5  map = (d0) -> (d0 : compressed),6  posWidth = 32,7  crdWidth = 328}>9 10#trait_mul_s = {11  indexing_maps = [12    affine_map<(i) -> (i)>,  // a13    affine_map<(i) -> (i)>,  // b14    affine_map<(i) -> (i)>   // x (out)15  ],16  iterator_types = ["parallel"],17  doc = "x(i) = a(i) * b(i)"18}19 20// CHECK-DAG:   #[[$map0:.*]] = affine_map<()[s0, s1] -> (s0 + ((-s0 + s1) floordiv 16) * 16)>21// CHECK-DAG:   #[[$map1:.*]] = affine_map<(d0)[s0] -> (-d0 + s0)>22// CHECK-LABEL: func @mul_s23// CHECK-DAG:   %[[c0:.*]] = arith.constant 0 : index24// CHECK-DAG:   %[[c1:.*]] = arith.constant 1 : index25// CHECK-DAG:   %[[c16:.*]] = arith.constant 16 : index26// CHECK-DAG:   %[[mask:.*]] = arith.constant dense<true> : vector<16xi1>27// CHECK:       %[[p:.*]] = memref.load %{{.*}}[%[[c0]]] : memref<?xi32>28// CHECK:       %[[a:.*]] = arith.extui %[[p]] : i32 to i6429// CHECK:       %[[q:.*]] = arith.index_cast %[[a]] : i64 to index30// CHECK:       %[[r:.*]] = memref.load %{{.*}}[%[[c1]]] : memref<?xi32>31// CHECK:       %[[b:.*]] = arith.extui %[[r]] : i32 to i6432// CHECK:       %[[s:.*]] = arith.index_cast %[[b]] : i64 to index33// CHECK:       %[[boundary:.*]] = affine.apply #[[$map0]]()[%[[q]], %[[s]]]34// CHECK:       scf.for %[[i:.*]] = %[[q]] to %[[boundary]] step %[[c16]] {35// CHECK:         %[[li:.*]] = vector.load %{{.*}}[%[[i]]] : memref<?xi32>, vector<16xi32>36// CHECK:         %[[zi:.*]] = arith.extui %[[li]] : vector<16xi32> to vector<16xi64>37// CHECK:         %[[la:.*]] = vector.load %{{.*}}[%[[i]]] : memref<?xf32>, vector<16xf32>38// CHECK:         %[[lb:.*]] = vector.gather %{{.*}}[%[[c0]]] [%[[zi]]], %[[mask]], %{{.*}} : memref<1024xf32>, vector<16xi64>, vector<16xi1>, vector<16xf32> into vector<16xf32>39// CHECK:         %[[m:.*]] = arith.mulf %[[la]], %[[lb]] : vector<16xf32>40// CHECK:         vector.scatter %{{.*}}[%[[c0]]] [%[[zi]]], %[[mask]], %[[m]] : memref<1024xf32>, vector<16xi64>, vector<16xi1>, vector<16xf32>41// CHECK:       }42// CHECK:       scf.for %[[i2:.*]] = %[[boundary]] to %[[s]] step %[[c16]] {43// CHECK:         %[[sub:.*]] = affine.apply #[[$map1]](%[[i2]])[%[[s]]]44// CHECK:         %[[mask2:.*]] = vector.create_mask %[[sub]] : vector<16xi1>45// CHECK:         %[[li2:.*]] = vector.maskedload %{{.*}}[%[[i2]]], %[[mask2]], %{{.*}} : memref<?xi32>, vector<16xi1>, vector<16xi32> into vector<16xi32>46// CHECK:         %[[zi2:.*]] = arith.extui %[[li2]] : vector<16xi32> to vector<16xi64>47// CHECK:         %[[la2:.*]] = vector.maskedload %{{.*}}[%[[i2]]], %[[mask2]], %{{.*}} : memref<?xf32>, vector<16xi1>, vector<16xf32> into vector<16xf32>48// CHECK:         %[[lb2:.*]] = vector.gather %{{.*}}[%[[c0]]] [%[[zi2]]], %[[mask2]], %{{.*}} : memref<1024xf32>, vector<16xi64>, vector<16xi1>, vector<16xf32> into vector<16xf32>49// CHECK:         %[[m2:.*]] = arith.mulf %[[la2]], %[[lb2]] : vector<16xf32>50// CHECK:         vector.scatter %{{.*}}[%[[c0]]] [%[[zi2]]], %[[mask2]], %[[m2]] : memref<1024xf32>, vector<16xi64>, vector<16xi1>, vector<16xf32>51// CHECK:       }52// CHECK:       return53//54func.func @mul_s(%arga: tensor<1024xf32, #SparseVector>, %argb: tensor<1024xf32>, %argx: tensor<1024xf32>) -> tensor<1024xf32> {55  %0 = linalg.generic #trait_mul_s56    ins(%arga, %argb: tensor<1024xf32, #SparseVector>, tensor<1024xf32>)57    outs(%argx: tensor<1024xf32>) {58      ^bb(%a: f32, %b: f32, %x: f32):59        %0 = arith.mulf %a, %b : f3260        linalg.yield %0 : f3261  } -> tensor<1024xf32>62  return %0 : tensor<1024xf32>63}64