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1// RUN: mlir-opt %s --transform-interpreter | FileCheck %s2 3// CHECK-LABEL: @vector_deinterleave_2d4// CHECK-SAME: %[[SRC:.*]]: vector<2x8xi32>) -> (vector<2x4xi32>, vector<2x4xi32>)5func.func @vector_deinterleave_2d(%a: vector<2x8xi32>) -> (vector<2x4xi32>, vector<2x4xi32>) {6 // CHECK: %[[CST:.*]] = arith.constant dense<0>7 // CHECK: %[[SRC_0:.*]] = vector.extract %[[SRC]][0]8 // CHECK: %[[UNZIP_0:.*]], %[[UNZIP_1:.*]] = vector.deinterleave %[[SRC_0]]9 // CHECK: %[[RES_0:.*]] = vector.insert %[[UNZIP_0]], %[[CST]] [0]10 // CHECK: %[[RES_1:.*]] = vector.insert %[[UNZIP_1]], %[[CST]] [0]11 // CHECK: %[[SRC_1:.*]] = vector.extract %[[SRC]][1]12 // CHECK: %[[UNZIP_2:.*]], %[[UNZIP_3:.*]] = vector.deinterleave %[[SRC_1]]13 // CHECK: %[[RES_2:.*]] = vector.insert %[[UNZIP_2]], %[[RES_0]] [1]14 // CHECK: %[[RES_3:.*]] = vector.insert %[[UNZIP_3]], %[[RES_1]] [1]15 // CHECK-NEXT: return %[[RES_2]], %[[RES_3]] : vector<2x4xi32>, vector<2x4xi32>16 %0, %1 = vector.deinterleave %a : vector<2x8xi32> -> vector<2x4xi32>17 return %0, %1 : vector<2x4xi32>, vector<2x4xi32>18}19 20// CHECK-LABEL: @vector_deinterleave_2d_scalable21// CHECK-SAME: %[[SRC:.*]]: vector<2x[8]xi32>) -> (vector<2x[4]xi32>, vector<2x[4]xi32>)22func.func @vector_deinterleave_2d_scalable(%a: vector<2x[8]xi32>) -> (vector<2x[4]xi32>, vector<2x[4]xi32>) {23 // CHECK: %[[CST:.*]] = arith.constant dense<0>24 // CHECK: %[[SRC_0:.*]] = vector.extract %[[SRC]][0]25 // CHECK: %[[UNZIP_0:.*]], %[[UNZIP_1:.*]] = vector.deinterleave %[[SRC_0]]26 // CHECK: %[[RES_0:.*]] = vector.insert %[[UNZIP_0]], %[[CST]] [0]27 // CHECK: %[[RES_1:.*]] = vector.insert %[[UNZIP_1]], %[[CST]] [0]28 // CHECK: %[[SRC_1:.*]] = vector.extract %[[SRC]][1]29 // CHECK: %[[UNZIP_2:.*]], %[[UNZIP_3:.*]] = vector.deinterleave %[[SRC_1]]30 // CHECK: %[[RES_2:.*]] = vector.insert %[[UNZIP_2]], %[[RES_0]] [1]31 // CHECK: %[[RES_3:.*]] = vector.insert %[[UNZIP_3]], %[[RES_1]] [1]32 // CHECK-NEXT: return %[[RES_2]], %[[RES_3]] : vector<2x[4]xi32>, vector<2x[4]xi32>33 %0, %1 = vector.deinterleave %a : vector<2x[8]xi32> -> vector<2x[4]xi32>34 return %0, %1 : vector<2x[4]xi32>, vector<2x[4]xi32>35}36 37// CHECK-LABEL: @vector_deinterleave_4d38// CHECK-SAME: %[[SRC:.*]]: vector<1x2x3x8xi64>) -> (vector<1x2x3x4xi64>, vector<1x2x3x4xi64>)39func.func @vector_deinterleave_4d(%a: vector<1x2x3x8xi64>) -> (vector<1x2x3x4xi64>, vector<1x2x3x4xi64>) {40 // CHECK: %[[SRC_0:.*]] = vector.extract %[[SRC]][0, 0, 0] : vector<8xi64> from vector<1x2x3x8xi64>41 // CHECK: %[[UNZIP_0:.*]], %[[UNZIP_1:.*]] = vector.deinterleave %[[SRC_0]] : vector<8xi64> -> vector<4xi64>42 // CHECK: %[[RES_0:.*]] = vector.insert %[[UNZIP_0]], %{{.*}} [0, 0, 0] : vector<4xi64> into vector<1x2x3x4xi64>43 // CHECK: %[[RES_1:.*]] = vector.insert %[[UNZIP_1]], %{{.*}} [0, 0, 0] : vector<4xi64> into vector<1x2x3x4xi64>44 // CHECK-COUNT-5: vector.deinterleave %{{.*}} : vector<8xi64> -> vector<4xi64>45 %0, %1 = vector.deinterleave %a : vector<1x2x3x8xi64> -> vector<1x2x3x4xi64>46 return %0, %1 : vector<1x2x3x4xi64>, vector<1x2x3x4xi64>47}48 49// CHECK-LABEL: @vector_deinterleave_nd_with_scalable_dim50func.func @vector_deinterleave_nd_with_scalable_dim(51 %a: vector<1x3x[2]x2x3x8xf16>) -> (vector<1x3x[2]x2x3x4xf16>, vector<1x3x[2]x2x3x4xf16>) {52 // The scalable dim blocks unrolling so only the first two dims are unrolled.53 // CHECK-COUNT-3: vector.deinterleave %{{.*}} : vector<[2]x2x3x8xf16>54 %0, %1 = vector.deinterleave %a: vector<1x3x[2]x2x3x8xf16> -> vector<1x3x[2]x2x3x4xf16>55 return %0, %1 : vector<1x3x[2]x2x3x4xf16>, vector<1x3x[2]x2x3x4xf16>56}57 58module attributes {transform.with_named_sequence} {59 transform.named_sequence @__transform_main(%module_op: !transform.any_op {transform.readonly}) {60 %f = transform.structured.match ops{["func.func"]} in %module_op61 : (!transform.any_op) -> !transform.any_op62 63 transform.apply_patterns to %f {64 transform.apply_patterns.vector.lower_interleave65 } : !transform.any_op66 transform.yield67 }68}69