Lines Matching refs:vector
1 // RUN: mlir-opt %s --test-vector-scan-lowering | FileCheck %s
4 // CHECK-SAME: %[[ARG0:.*]]: vector<2xi32>,
5 // CHECK-SAME: %[[ARG1:.*]]: vector<i32>
6 // CHECK: %[[A:.*]] = arith.constant dense<0> : vector<2xi32>
7 …ECK: %[[B:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0], sizes = [1], strides …
8 …/ CHECK: %[[C:.*]] = vector.insert_strided_slice %[[B]], %[[A]] {offsets = [0], strides = [1]…
9 …ECK: %[[D:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [1], sizes = [1], strides …
10 // CHECK: %[[E:.*]] = arith.addi %[[B]], %[[D]] : vector<1xi32>
11 …/ CHECK: %[[F:.*]] = vector.insert_strided_slice %[[E]], %[[C]] {offsets = [1], strides = [1]…
12 // CHECK: %[[G:.*]] = vector.extract %[[E]][0] : vector<1xi32>
13 // CHECK: %[[H:.*]] = vector.broadcast %[[G]] : i32 to vector<i32>
14 // CHECK: return %[[F]], %[[H]] : vector<2xi32>, vector<i32>
15 func.func @scan1d_inc(%arg0 : vector<2xi32>, %arg1 : vector<i32>) -> (vector<2xi32>, vector<i32>) {
16 %0:2 = vector.scan <add>, %arg0, %arg1 {inclusive = true, reduction_dim = 0} :
17 vector<2xi32>, vector<i32>
18 return %0#0, %0#1 : vector<2xi32>, vector<i32>
22 // CHECK-SAME: %[[ARG0:.*]]: vector<2xi32>,
23 // CHECK-SAME: %[[ARG1:.*]]: vector<i32>
24 // CHECK: %[[A:.*]] = arith.constant dense<0> : vector<2xi32>
25 …ECK: %[[B:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0], sizes = [1], strides …
26 // CHECK: %[[C:.*]] = vector.broadcast %[[ARG1]] : vector<i32> to vector<1xi32>
27 …/ CHECK: %[[D:.*]] = vector.insert_strided_slice %[[C]], %[[A]] {offsets = [0], strides = [1]…
28 // CHECK: %[[E:.*]] = arith.addi %[[C]], %[[B]] : vector<1xi32>
29 …/ CHECK: %[[F:.*]] = vector.insert_strided_slice %[[E]], %[[D]] {offsets = [1], strides = [1]…
30 // CHECK: %[[G:.*]] = vector.extract %[[E]][0] : vector<1xi32>
31 // CHECK: %[[H:.*]] = vector.broadcast %[[G]] : i32 to vector<i32>
32 // CHECK: return %[[F]], %[[H]] : vector<2xi32>, vector<i32>
33 func.func @scan1d_exc(%arg0 : vector<2xi32>, %arg1 : vector<i32>) -> (vector<2xi32>, vector<i32>) {
34 %0:2 = vector.scan <add>, %arg0, %arg1 {inclusive = false, reduction_dim = 0} :
35 vector<2xi32>, vector<i32>
36 return %0#0, %0#1 : vector<2xi32>, vector<i32>
40 // CHECK-SAME: %[[ARG0:.*]]: vector<2x3xi32>,
41 // CHECK-SAME: %[[ARG1:.*]]: vector<3xi32>
42 // CHECK: %[[A:.*]] = arith.constant dense<0> : vector<2x3xi32>
43 … %[[B:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0, 0], sizes = [1, 3], strides…
44 …ECK: %[[C:.*]] = vector.insert_strided_slice %[[B]], %[[A]] {offsets = [0, 0], strides = [1, …
45 … %[[D:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [1, 0], sizes = [1, 3], strides…
46 // CHECK: %[[E:.*]] = arith.muli %[[B]], %[[D]] : vector<1x3xi32>
47 …ECK: %[[F:.*]] = vector.insert_strided_slice %[[E]], %[[C]] {offsets = [1, 0], strides = [1, …
48 // CHECK: %[[G:.*]] = vector.shape_cast %[[E]] : vector<1x3xi32> to vector<3xi32>
49 // CHECK: return %[[F]], %[[G]] : vector<2x3xi32>, vector<3xi32>
50 func.func @scan2d_mul_dim0(%arg0 : vector<2x3xi32>, %arg1 : vector<3xi32>) -> (vector<2x3xi32>, vec…
51 %0:2 = vector.scan <mul>, %arg0, %arg1 {inclusive = true, reduction_dim = 0} :
52 vector<2x3xi32>, vector<3xi32>
53 return %0#0, %0#1 : vector<2x3xi32>, vector<3xi32>
57 // CHECK-SAME: %[[ARG0:.*]]: vector<2x3xi32>,
58 // CHECK-SAME: %[[ARG1:.*]]: vector<2xi32>
59 // CHECK: %[[A:.*]] = arith.constant dense<0> : vector<2x3xi32>
60 … %[[B:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0, 0], sizes = [2, 1], strides…
61 …ECK: %[[C:.*]] = vector.insert_strided_slice %[[B]], %[[A]] {offsets = [0, 0], strides = [1, …
62 … %[[D:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0, 1], sizes = [2, 1], strides…
63 // CHECK: %[[E:.*]] = arith.muli %[[B]], %[[D]] : vector<2x1xi32>
64 …ECK: %[[F:.*]] = vector.insert_strided_slice %[[E]], %[[C]] {offsets = [0, 1], strides = [1, …
65 … %[[G:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0, 2], sizes = [2, 1], strides…
66 // CHECK: %[[H:.*]] = arith.muli %[[E]], %[[G]] : vector<2x1xi32>
67 …ECK: %[[I:.*]] = vector.insert_strided_slice %[[H]], %[[F]] {offsets = [0, 2], strides = [1, …
68 // CHECK: %[[J:.*]] = vector.shape_cast %[[H]] : vector<2x1xi32> to vector<2xi32>
69 // CHECK: return %[[I]], %[[J]] : vector<2x3xi32>, vector<2xi32>
70 func.func @scan2d_mul_dim1(%arg0 : vector<2x3xi32>, %arg1 : vector<2xi32>) -> (vector<2x3xi32>, vec…
71 %0:2 = vector.scan <mul>, %arg0, %arg1 {inclusive = true, reduction_dim = 1} :
72 vector<2x3xi32>, vector<2xi32>
73 return %0#0, %0#1 : vector<2x3xi32>, vector<2xi32>
77 // CHECK-SAME: %[[ARG0:.*]]: vector<4x2x3xf32>,
78 // CHECK-SAME: %[[ARG1:.*]]: vector<4x3xf32>
79 // CHECK: %[[A:.*]] = arith.constant dense<0.000000e+00> : vector<4x2x3xf32>
80 …[[B:.*]] = vector.extract_strided_slice %[[ARG0]] {offsets = [0, 0, 0], sizes = [4, 1, 3], strides…
81 // CHECK: %[[C:.*]] = vector.shape_cast %[[ARG1]] : vector<4x3xf32> to vector<4x1x3xf32>
82 … %[[D:.*]] = vector.insert_strided_slice %[[C]], %[[A]] {offsets = [0, 0, 0], strides = [1, 1…
83 // CHECK: %[[E:.*]] = arith.mulf %[[C]], %[[B]] : vector<4x1x3xf32>
84 … %[[F:.*]] = vector.insert_strided_slice %[[E]], %[[D]] {offsets = [0, 1, 0], strides = [1, 1…
85 // CHECK: %[[G:.*]] = vector.shape_cast %[[E]] : vector<4x1x3xf32> to vector<4x3xf32>
86 // CHECK: return %[[F]], %[[G]] : vector<4x2x3xf32>, vector<4x3xf32>
87 func.func @scan3d_mul_dim1(%arg0 : vector<4x2x3xf32>, %arg1 : vector<4x3xf32>) -> (vector<4x2x3xf32…
88 %0:2 = vector.scan <mul>, %arg0, %arg1 {inclusive = false, reduction_dim = 1} :
89 vector<4x2x3xf32>, vector<4x3xf32>
90 return %0#0, %0#1 : vector<4x2x3xf32>, vector<4x3xf32>