1// RUN: mlir-opt %s -scf-bufferize | FileCheck %s
2
3// CHECK-LABEL:   func @if(
4// CHECK-SAME:             %[[PRED:.*]]: i1,
5// CHECK-SAME:             %[[TRUE_TENSOR:.*]]: tensor<?xf32>,
6// CHECK-SAME:             %[[FALSE_TENSOR:.*]]: tensor<?xf32>) -> tensor<?xf32> {
7// CHECK:           %[[TRUE_MEMREF:.*]] = bufferization.to_memref %[[TRUE_TENSOR]] : memref<?xf32>
8// CHECK:           %[[FALSE_MEMREF:.*]] = bufferization.to_memref %[[FALSE_TENSOR]] : memref<?xf32>
9// CHECK:           %[[RESULT_MEMREF:.*]] = scf.if %[[PRED]] -> (memref<?xf32>) {
10// CHECK:             scf.yield %[[TRUE_MEMREF]] : memref<?xf32>
11// CHECK:           } else {
12// CHECK:             scf.yield %[[FALSE_MEMREF]] : memref<?xf32>
13// CHECK:           }
14// CHECK:           %[[RESULT_TENSOR:.*]] = bufferization.to_tensor %[[RESULT_MEMREF:.*]] : memref<?xf32>
15// CHECK:           return %[[RESULT_TENSOR]] : tensor<?xf32>
16// CHECK:         }
17func.func @if(%pred: i1, %true_val: tensor<?xf32>, %false_val: tensor<?xf32>) -> tensor<?xf32> {
18  %0 = scf.if %pred -> (tensor<?xf32>) {
19    scf.yield %true_val : tensor<?xf32>
20  } else {
21    scf.yield %false_val : tensor<?xf32>
22  }
23  return %0 : tensor<?xf32>
24}
25
26// CHECK-LABEL:   func @for(
27// CHECK-SAME:              %[[TENSOR:.*]]: tensor<f32>,
28// CHECK-SAME:              %[[LB:.*]]: index, %[[UB:.*]]: index,
29// CHECK-SAME:              %[[STEP:.*]]: index) -> tensor<f32> {
30// CHECK:           %[[MEMREF:.*]] = bufferization.to_memref %[[TENSOR]] : memref<f32>
31// CHECK:           %[[RESULT_MEMREF:.*]] = scf.for %[[VAL_6:.*]] = %[[LB]] to %[[UB]] step %[[STEP]] iter_args(%[[ITER:.*]] = %[[MEMREF]]) -> (memref<f32>) {
32// CHECK:             scf.yield %[[ITER]] : memref<f32>
33// CHECK:           } {some_attr}
34// CHECK:           %[[VAL_8:.*]] = bufferization.to_tensor %[[VAL_9:.*]] : memref<f32>
35// CHECK:           return %[[VAL_8]] : tensor<f32>
36// CHECK:         }
37func.func @for(%arg0: tensor<f32>, %lb: index, %ub: index, %step: index) -> tensor<f32> {
38  %ret = scf.for %iv = %lb to %ub step %step iter_args(%iter = %arg0) -> tensor<f32> {
39    scf.yield %iter : tensor<f32>
40  } {some_attr}
41  return %ret : tensor<f32>
42}
43
44// Check whether this converts at all.
45//
46// It would previously fail altogether.
47// CHECK-LABEL:   func @if_correct_recursive_legalization_behavior
48// CHECK: "test.munge_tensor"
49func.func @if_correct_recursive_legalization_behavior(%pred: i1, %tensor: tensor<f32>) -> tensor<f32> {
50  %0 = scf.if %pred -> (tensor<f32>) {
51    %1 = "test.munge_tensor"(%tensor) : (tensor<f32>) -> (tensor<f32>)
52    scf.yield %1: tensor<f32>
53  } else {
54    %1 = "test.munge_tensor"(%tensor) : (tensor<f32>) -> (tensor<f32>)
55    scf.yield %1 : tensor<f32>
56  }
57  return %0 : tensor<f32>
58}
59
60// CHECK-LABEL:   func @for_correct_recursive_legalization_behavior(
61// CHECK-SAME:                                                      %[[TENSOR:.*]]: tensor<f32>,
62// CHECK-SAME:                                                      %[[INDEX:.*]]: index) -> tensor<f32> {
63// CHECK:           %[[MEMREF:.*]] = bufferization.to_memref %[[TENSOR]] : memref<f32>
64// CHECK:           %[[RESULT:.*]] = scf.for %[[IV:.*]] = %[[INDEX]] to %[[INDEX]] step %[[INDEX]] iter_args(%[[MEMREF_ITER:.*]] = %[[MEMREF]]) -> (memref<f32>) {
65// CHECK:             %[[TENSOR_ITER:.*]] = bufferization.to_tensor %[[MEMREF_ITER]] : memref<f32>
66// CHECK:             %[[TENSOR_MUNGED:.*]] = "test.munge_tensor"(%[[TENSOR_ITER]]) : (tensor<f32>) -> tensor<f32>
67// CHECK:             %[[MEMREF_MUNGED:.*]] = bufferization.to_memref %[[TENSOR_MUNGED]] : memref<f32>
68// CHECK:             scf.yield %[[MEMREF_MUNGED]] : memref<f32>
69// CHECK:           }
70// CHECK:           %[[TENSOR:.*]] = bufferization.to_tensor %[[RESULT:.*]] : memref<f32>
71// CHECK:           return %[[TENSOR]] : tensor<f32>
72// CHECK:         }
73func.func @for_correct_recursive_legalization_behavior(%arg0: tensor<f32>, %index: index) -> tensor<f32> {
74  %ret = scf.for %iv = %index to %index step %index iter_args(%iter = %arg0) -> tensor<f32> {
75    %0 = "test.munge_tensor"(%iter) : (tensor<f32>) -> (tensor<f32>)
76    scf.yield %0 : tensor<f32>
77  }
78  return %ret : tensor<f32>
79}
80
81// CHECK-LABEL:   func @bufferize_while(
82// CHECK-SAME: %[[ARG0:.*]]: i64, %[[ARG1:.*]]: i64, %[[ARG2:.*]]: tensor<f32>
83// CHECK: %[[M:.*]] = bufferization.to_memref %[[ARG2]] : memref<f32>
84// CHECK: %[[RES1:.*]]:3 = scf.while (%{{.*}} = %[[ARG0]], %{{.*}} = %[[M]]) : (i64, memref<f32>) -> (i64, i64, memref<f32>)
85// CHECK: scf.condition(%{{.*}}) %{{.*}}, %{{.*}}, %{{.*}} : i64, i64, memref<f32>
86// CHECK: ^bb0(%{{.*}}: i64, %{{.*}}: i64, %{{.*}}: memref<f32>):
87// CHECK: scf.yield %{{.*}}, %{{.*}} : i64, memref<f32>
88// CHECK:  %[[RES2:.*]] = bufferization.to_tensor %[[RES1]]#2 : memref<f32>
89// CHECK:  return %[[RES1]]#1, %[[RES2]] : i64, tensor<f32>
90func.func @bufferize_while(%arg0: i64, %arg1: i64, %arg2: tensor<f32>) -> (i64, tensor<f32>) {
91  %c2_i64 = arith.constant 2 : i64
92  %0:3 = scf.while (%arg3 = %arg0, %arg4 = %arg2) : (i64, tensor<f32>) -> (i64, i64, tensor<f32>) {
93    %1 = arith.cmpi slt, %arg3, %arg1 : i64
94    scf.condition(%1) %arg3, %arg3, %arg4 : i64, i64, tensor<f32>
95  } do {
96  ^bb0(%arg5: i64, %arg6: i64, %arg7: tensor<f32>):
97    %1 = arith.muli %arg6, %c2_i64 : i64
98    scf.yield %1, %arg7 : i64, tensor<f32>
99  }
100  return %0#1, %0#2 : i64, tensor<f32>
101}
102