854 lines
38 KiB
MLIR
854 lines
38 KiB
MLIR
// RUN: mlir-hlo-opt %s -pass-pipeline='func(canonicalize)' | FileCheck %s
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// CHECK-LABEL: add_fold
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func @add_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<[1, 2, 3, 4]> : tensor<4xi64>
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%1 = mhlo.constant dense<[5, 6, 7, 8]> : tensor<4xi64>
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// CHECK: mhlo.constant dense<[6, 8, 10, 12]>
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%2 = "mhlo.add"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: add_scalar_fold
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func @add_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<1> : tensor<4xi64>
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%1 = mhlo.constant dense<5> : tensor<4xi64>
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// CHECK: mhlo.constant dense<6>
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%2 = "mhlo.add"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: add_fold_float
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func @add_fold_float() -> tensor<4xf64> {
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%0 = mhlo.constant dense<[1.0, 2.0, 3.0, 4.0]> : tensor<4xf64>
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%1 = mhlo.constant dense<[5.0, 6.0, 7.0, 8.0]> : tensor<4xf64>
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// CHECK: mhlo.constant dense<[6.000000e+00, 8.000000e+00, 1.000000e+01, 1.200000e+01]>
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%2 = "mhlo.add"(%0, %1) : (tensor<4xf64>, tensor<4xf64>) -> (tensor<4xf64>)
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return %2 : tensor<4xf64>
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}
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// CHECK-LABEL: sub_scalar_fold
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func @sub_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<5> : tensor<4xi64>
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%1 = mhlo.constant dense<1> : tensor<4xi64>
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// CHECK: mhlo.constant dense<4>
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%2 = "mhlo.subtract"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: multiply_scalar_fold
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func @multiply_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<5> : tensor<4xi64>
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%1 = mhlo.constant dense<3> : tensor<4xi64>
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// CHECK: mhlo.constant dense<15>
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%2 = "mhlo.multiply"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: divide_scalar_fold
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func @divide_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<7> : tensor<4xi64>
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%1 = mhlo.constant dense<5> : tensor<4xi64>
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// CHECK: mhlo.constant dense<1>
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%2 = "mhlo.divide"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: divide_fold_float
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func @divide_fold_float() -> tensor<4xf64> {
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%0 = mhlo.constant dense<[5.0, 66.0, 5.0, 1.0]> : tensor<4xf64>
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%1 = mhlo.constant dense<[5.0, 3.0, 2.0, 4.0]> : tensor<4xf64>
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// CHECK: mhlo.constant dense<[1.000000e+00, 2.200000e+01, 2.500000e+00, 2.500000e-01]>
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%2 = "mhlo.divide"(%0, %1) : (tensor<4xf64>, tensor<4xf64>) -> (tensor<4xf64>)
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return %2 : tensor<4xf64>
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}
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// CHECK-LABEL: max_scalar_fold
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func @max_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<7> : tensor<4xi64>
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%1 = mhlo.constant dense<5> : tensor<4xi64>
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// CHECK: mhlo.constant dense<7>
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%2 = "mhlo.maximum"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: max_fold_float
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func @max_fold_float() -> tensor<4xf64> {
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%0 = mhlo.constant dense<[5.0, 66.0, 5.0, 1.0]> : tensor<4xf64>
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%1 = mhlo.constant dense<[5.0, 3.0, 2.0, 4.0]> : tensor<4xf64>
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// CHECK: mhlo.constant dense<[5.000000e+00, 6.600000e+01, 5.000000e+00, 4.000000e+00]>
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%2 = "mhlo.maximum"(%0, %1) : (tensor<4xf64>, tensor<4xf64>) -> (tensor<4xf64>)
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return %2 : tensor<4xf64>
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}
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// CHECK-LABEL: min_scalar_fold
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func @min_scalar_fold() -> tensor<4xi64> {
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%0 = mhlo.constant dense<7> : tensor<4xi64>
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%1 = mhlo.constant dense<-5> : tensor<4xi64>
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// CHECK: mhlo.constant dense<-5>
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%2 = "mhlo.minimum"(%0, %1) : (tensor<4xi64>, tensor<4xi64>) -> (tensor<4xi64>)
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return %2 : tensor<4xi64>
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}
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// CHECK-LABEL: min_fold_float
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func @min_fold_float() -> tensor<4xf64> {
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%0 = mhlo.constant dense<[5.0, 66.0, 5.0, 1.0]> : tensor<4xf64>
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%1 = mhlo.constant dense<[5.0, 3.0, 2.0, 4.0]> : tensor<4xf64>
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// CHECK: mhlo.constant dense<[5.000000e+00, 3.000000e+00, 2.000000e+00, 1.000000e+00]>
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%2 = "mhlo.minimum"(%0, %1) : (tensor<4xf64>, tensor<4xf64>) -> (tensor<4xf64>)
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return %2 : tensor<4xf64>
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}
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// CHECK-LABEL: concatenate_noop
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func @concatenate_noop(%arg0: tensor<4xi32>) -> tensor<4xi32> {
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// CHECK-SAME: [[ARG:%.+]]: tensor<4xi32>
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%0 = "mhlo.concatenate"(%arg0) { dimension = 0 : i64 } : (tensor<4xi32>) -> tensor<4xi32>
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// CHECK: return [[ARG]]
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return %0 : tensor<4xi32>
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}
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// CHECK-LABEL: concatenate_remove_operand
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func @concatenate_remove_operand(%arg0: tensor<4xi32>, %arg1: tensor<0xi32>) -> tensor<4xi32> {
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// CHECK-SAME: [[ARG0:%.+]]: tensor<4xi32>
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// CHECK-SAME: [[ARG1:%.+]]: tensor<0xi32>
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%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<4xi32>, tensor<0xi32>) -> tensor<4xi32>
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// CHECK: return [[ARG0]]
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return %0 : tensor<4xi32>
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}
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// CHECK-LABEL: concatenate_empty_bool
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func @concatenate_empty_bool(%arg0: tensor<0xi1>, %arg1: tensor<0xi1>) -> tensor<0xi1> {
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// CHECK: mhlo.constant
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%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<0xi1>, tensor<0xi1>) -> tensor<0xi1>
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return %0 : tensor<0xi1>
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}
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// CHECK-LABEL: concatenate_empty_int
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func @concatenate_empty_int(%arg0: tensor<0xi32>, %arg1: tensor<0xi32>) -> tensor<0xi32> {
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// CHECK: mhlo.constant
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%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<0xi32>, tensor<0xi32>) -> tensor<0xi32>
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return %0 : tensor<0xi32>
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}
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// CHECK-LABEL: concatenate_empty_float
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func @concatenate_empty_float(%arg0: tensor<0xf32>, %arg1: tensor<0xf32>) -> tensor<0xf32> {
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// CHECK: mhlo.constant
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%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<0xf32>, tensor<0xf32>) -> tensor<0xf32>
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return %0 : tensor<0xf32>
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}
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// CHECK-LABEL: concatenate_const_1D
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func @concatenate_const_1D() -> tensor<4xi32> {
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// CHECK: [[VAL:%.+]]= mhlo.constant dense<[0, 1, 2, 3]>
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%0 = mhlo.constant dense<[0, 1]> : tensor<2xi32>
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%1 = mhlo.constant dense<[2, 3]> : tensor<2xi32>
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%2 = "mhlo.concatenate"(%0, %1) { dimension = 0 : i64 } : (tensor<2xi32>, tensor<2xi32>) -> tensor<4xi32>
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// CHECK: return [[VAL]]
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return %2 : tensor<4xi32>
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}
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// CHECK-LABEL: concatenate_const_1D_float
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func @concatenate_const_1D_float() -> tensor<4xf32> {
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// CHECK: [[VAL:%.+]] = mhlo.constant dense<[0.000000e+00, 1.000000e+00, 2.000000e+00, 3.000000e+00]>
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%0 = mhlo.constant dense<[0.0, 1.0]> : tensor<2xf32>
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%1 = mhlo.constant dense<[2.0, 3.0]> : tensor<2xf32>
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%2 = "mhlo.concatenate"(%0, %1) { dimension = 0 : i64 } : (tensor<2xf32>, tensor<2xf32>) -> tensor<4xf32>
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// CHECK: return [[VAL]]
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return %2 : tensor<4xf32>
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}
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// CHECK-LABEL: concatenate_const_2D_vertical
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func @concatenate_const_2D_vertical() -> tensor<2x2xi32> {
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// CHECK: [[VAL:%.+]]= mhlo.constant dense<[
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// CHECK-SAME: [0, 1], [2, 3]
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// CHECK-SAME: ]>
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%0 = mhlo.constant dense<[[0, 1]]> : tensor<1x2xi32>
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%1 = mhlo.constant dense<[[2, 3]]> : tensor<1x2xi32>
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%2 = "mhlo.concatenate"(%0, %1) { dimension = 0 : i64 } : (tensor<1x2xi32>, tensor<1x2xi32>) -> tensor<2x2xi32>
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// CHECK: return [[VAL]]
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return %2 : tensor<2x2xi32>
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}
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// CHECK-LABEL: concatenate_const_2D_horizontal
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func @concatenate_const_2D_horizontal() -> tensor<2x2xi32> {
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// CHECK: [[VAL:%.+]]= mhlo.constant dense<[
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// CHECK-SAME: [0, 2], [1, 3]
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// CHECK-SAME: ]>
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%0 = mhlo.constant dense<[[0], [1]]> : tensor<2x1xi32>
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%1 = mhlo.constant dense<[[2], [3]]> : tensor<2x1xi32>
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%2 = "mhlo.concatenate"(%0, %1) { dimension = 1 : i64 } : (tensor<2x1xi32>, tensor<2x1xi32>) -> tensor<2x2xi32>
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// CHECK: return [[VAL]]
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return %2 : tensor<2x2xi32>
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}
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// CHECK-LABEL: constant_like_constant
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func @constant_like_constant(%arg0: tensor<3x4xi32>) -> tensor<3x4xf32> {
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// CHECK: mhlo.constant dense<3.200000e+00>
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%0 = "chlo.constant_like"(%arg0) { value = 3.2 : f32 } : (tensor<3x4xi32>) -> tensor<3x4xf32>
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return %0 : tensor<3x4xf32>
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}
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// CHECK-LABEL: constant_like_constant_dynamic
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func @constant_like_constant_dynamic(%arg0: tensor<*xi32>) -> tensor<*xf32> {
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// CHECK: chlo.constant_like
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%0 = "chlo.constant_like"(%arg0) { value = 3.2 : f32 } : (tensor<*xi32>) -> tensor<*xf32>
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return %0 : tensor<*xf32>
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}
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// CHECK-LABEL: dynamic_slice_variable_start
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func @dynamic_slice_variable_start(%arg0: tensor<3x4xi32>, %arg1: tensor<i64>, %arg2: tensor<i64>) -> tensor<1x4xi32> {
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// CHECK: "mhlo.dynamic-slice"
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%1 = "mhlo.dynamic-slice"(%arg0, %arg1, %arg2) {slice_sizes = dense<[1, 4]> : tensor<2xi64>} : (tensor<3x4xi32>, tensor<i64>, tensor<i64>) -> tensor<1x4xi32>
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return %1 : tensor<1x4xi32>
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}
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// CHECK-LABEL: dynamic_slice_constant_start
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func @dynamic_slice_constant_start(%arg0: tensor<4xi32>) -> tensor<2xi32> {
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// CHECK: %[[RESULT:.*]] = "mhlo.slice"(%arg0)
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// CHECK-DAG-SAME: limit_indices = dense<3> : tensor<1xi64>
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// CHECK-DAG-SAME: start_indices = dense<1> : tensor<1xi64>
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// CHECK-DAG-SAME: strides = dense<1> : tensor<1xi64>}
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// CHECK: return %[[RESULT]] : tensor<2xi32>
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%0 = mhlo.constant dense<1> : tensor<i64>
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%1 = "mhlo.dynamic-slice"(%arg0, %0) {slice_sizes = dense<2> : tensor<1xi64>} : (tensor<4xi32>, tensor<i64>) -> tensor<2xi32>
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return %1 : tensor<2xi32>
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}
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// CHECK-LABEL: dynamic_slice_constant_start_dynamic_shape
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func @dynamic_slice_constant_start_dynamic_shape(%arg0: tensor<?x4xi32>, %arg1: tensor<2xi64>) -> tensor<?x4xi32> {
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// CHECK: %[[RESULT:.*]] = "mhlo.slice"(%arg0)
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// CHECK-DAG-SAME: limit_indices = dense<[2, 4]> : tensor<2xi64>
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// CHECK-DAG-SAME: start_indices = dense<[1, 0]> : tensor<2xi64>
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// CHECK-DAG-SAME: strides = dense<1> : tensor<2xi64>
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// CHECK: return %[[RESULT]] : tensor<?x4xi32>
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%0 = mhlo.constant dense<1> : tensor<i64>
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%1 = mhlo.constant dense<0> : tensor<i64>
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%2 = "mhlo.dynamic-slice"(%arg0, %0, %1) {slice_sizes = dense<[1, 4]> : tensor<2xi64>} : (tensor<?x4xi32>, tensor<i64>, tensor<i64>) -> tensor<?x4xi32>
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return %2 : tensor<?x4xi32>
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}
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// CHECK-LABEL: slice_2D_noop
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// CHECK-SAME: [[ARG:%.+]]: tensor<2x2xi64>
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func @slice_2D_noop(%arg0: tensor<2x2xi64>) -> tensor<2x2xi64> {
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%0 = "mhlo.slice"(%arg0) { limit_indices = dense<[2, 2]> : tensor<2xi64>, start_indices = dense<[0, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<2x2xi64>) -> (tensor<2x2xi64>)
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// CHECK-NEXT: return [[ARG]]
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return %0 : tensor<2x2xi64>
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}
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// CHECK-LABEL: slice_1D_fold
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func @slice_1D_fold() -> tensor<2xi64> {
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%0 = mhlo.constant dense<[5, 7, 9, 10]> : tensor<4xi64>
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// CHECK: mhlo.constant dense<[7, 9]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[3]> : tensor<1xi64>, start_indices = dense<[1]> : tensor<1xi64>, strides = dense<1> : tensor<1xi64>} : (tensor<4xi64>) -> (tensor<2xi64>)
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return %1 : tensor<2xi64>
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}
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// CHECK-LABEL: slice_1D_fp
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func @slice_1D_fp() -> tensor<2xf32> {
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%0 = mhlo.constant dense<[5.0, 7.0, 9.0, 10.0]> : tensor<4xf32>
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// CHECK: mhlo.constant dense<[7.000000e+00, 9.000000e+00]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[3]> : tensor<1xi64>, start_indices = dense<[1]> : tensor<1xi64>, strides = dense<1> : tensor<1xi64>} : (tensor<4xf32>) -> (tensor<2xf32>)
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return %1 : tensor<2xf32>
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}
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// CHECK-LABEL: slice_1D_strided_fold
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func @slice_1D_strided_fold() -> tensor<2xi64> {
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%0 = mhlo.constant dense<[5, 7, 9, 10]> : tensor<4xi64>
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// CHECK: mhlo.constant dense<[7, 10]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[4]> : tensor<1xi64>, start_indices = dense<[1]> : tensor<1xi64>, strides = dense<2> : tensor<1xi64>} : (tensor<4xi64>) -> (tensor<2xi64>)
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return %1 : tensor<2xi64>
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}
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// CHECK-LABEL: slice_2D_fold
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func @slice_2D_fold() -> tensor<2x2xi64> {
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%0 = mhlo.constant dense<[[0, 1, 2, 3], [4, 5, 6, 7], [8, 9, 10, 11], [12, 13, 14, 15]]> : tensor<4x4xi64>
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// CHECK-NEXT: mhlo.constant dense<[
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// CHECK-SAME: [6, 7],
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// CHECK-SAME: [10, 11]
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// CHECK-SAME: ]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[3, 4]> : tensor<2xi64>, start_indices = dense<[1, 2]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<4x4xi64>) -> (tensor<2x2xi64>)
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return %1 : tensor<2x2xi64>
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}
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// CHECK-LABEL: slice_2D_fold_horizontal
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func @slice_2D_fold_horizontal() -> tensor<1x4xi64> {
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%0 = mhlo.constant dense<[[0, 1, 2, 3], [4, 5, 6, 7], [8, 9, 10, 11], [12, 13, 14, 15]]> : tensor<4x4xi64>
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// CHECK-NEXT: mhlo.constant dense<[
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// CHECK-SAME: [0, 1, 2, 3]
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// CHECK-SAME: ]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[1, 4]> : tensor<2xi64>, start_indices = dense<[0, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<4x4xi64>) -> (tensor<1x4xi64>)
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return %1 : tensor<1x4xi64>
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}
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// CHECK-LABEL: slice_2D_fold_vertical
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func @slice_2D_fold_vertical() -> tensor<4x1xi64> {
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%0 = mhlo.constant dense<[[0, 1, 2, 3], [4, 5, 6, 7], [8, 9, 10, 11], [12, 13, 14, 15]]> : tensor<4x4xi64>
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// CHECK-NEXT: mhlo.constant dense<[
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// CHECK-SAME: [2], [6], [10], [14]
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// CHECK-SAME: ]>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[4, 3]> : tensor<2xi64>, start_indices = dense<[0, 2]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<4x4xi64>) -> (tensor<4x1xi64>)
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return %1 : tensor<4x1xi64>
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}
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// CHECK-LABEL: slice_unknown_shape
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func @slice_unknown_shape(%arg0: tensor<*xf32>) -> tensor<*xf32> {
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// CHECK: "mhlo.slice"(%arg0) {limit_indices = dense<[1, 4]> : tensor<2xi64>, start_indices = dense<0> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<*xf32>) -> tensor<*xf32>
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%0 = "mhlo.slice"(%arg0) {limit_indices = dense<[1, 4]> : tensor<2xi64>, start_indices = dense<0> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<*xf32>) -> tensor<*xf32>
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return %0 : tensor<*xf32>
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}
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// CHECK-LABEL: slice_concat_fold_first
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func @slice_concat_fold_first(%arg0: tensor<1x5xf32>, %arg1: tensor<1x5xf32>) -> tensor<1x5xf32> {
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%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<1x5xf32>, tensor<1x5xf32>) -> tensor<2x5xf32>
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%1 = "mhlo.slice"(%0) { limit_indices = dense<[1, 5]> : tensor<2xi64>, start_indices = dense<[0, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<2x5xf32>) -> (tensor<1x5xf32>)
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// CHECK: return %arg0
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return %1 : tensor<1x5xf32>
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}
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// CHECK-LABEL: slice_concat_fold_second
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func @slice_concat_fold_second(%arg0: tensor<1x5xf32>, %arg1: tensor<1x5xf32>) -> tensor<1x5xf32> {
|
|
%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<1x5xf32>, tensor<1x5xf32>) -> tensor<2x5xf32>
|
|
%1 = "mhlo.slice"(%0) { limit_indices = dense<[2, 5]> : tensor<2xi64>, start_indices = dense<[1, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<2x5xf32>) -> (tensor<1x5xf32>)
|
|
// CHECK: return %arg1
|
|
return %1 : tensor<1x5xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: slice_concat_fold_second_with_slice
|
|
func @slice_concat_fold_second_with_slice(%arg0: tensor<1x5xf32>, %arg1: tensor<1x5xf32>) -> tensor<1x4xf32> {
|
|
%0 = "mhlo.concatenate"(%arg0, %arg1) { dimension = 0 : i64 } : (tensor<1x5xf32>, tensor<1x5xf32>) -> tensor<2x5xf32>
|
|
// CHECK: [[SLICE:%.+]] = "mhlo.slice"(%arg1) {limit_indices = dense<[1, 5]> : tensor<2xi64>, start_indices = dense<[0, 1]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<1x5xf32>) -> tensor<1x4xf32>
|
|
%1 = "mhlo.slice"(%0) { limit_indices = dense<[2, 5]> : tensor<2xi64>, start_indices = dense<[1, 1]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<2x5xf32>) -> (tensor<1x4xf32>)
|
|
|
|
// CHECK: return [[SLICE]]
|
|
return %1 : tensor<1x4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: slice_concat_fold_middle
|
|
func @slice_concat_fold_middle(%arg0: tensor<1x5xf32>, %arg1: tensor<2x5xf32>, %arg2: tensor<1x5xf32>) -> tensor<1x5xf32> {
|
|
%0 = "mhlo.concatenate"(%arg0, %arg1, %arg2) { dimension = 0 : i64 } : (tensor<1x5xf32>, tensor<2x5xf32>, tensor<1x5xf32>) -> tensor<4x5xf32>
|
|
// CHECK: [[SLICE:%.+]] = "mhlo.slice"(%arg1) {limit_indices = dense<[2, 5]> : tensor<2xi64>, start_indices = dense<[1, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>}
|
|
%1 = "mhlo.slice"(%0) { limit_indices = dense<[3, 5]> : tensor<2xi64>, start_indices = dense<[2, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<4x5xf32>) -> (tensor<1x5xf32>)
|
|
|
|
// CHECK: return [[SLICE]]
|
|
return %1 : tensor<1x5xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: slice_concat_fold_two
|
|
func @slice_concat_fold_two(%arg0: tensor<1x5xf32>, %arg1: tensor<2x5xf32>, %arg2: tensor<1x5xf32>) -> tensor<2x5xf32> {
|
|
// CHECK: [[CONCAT:%.+]] = "mhlo.concatenate"(%arg1, %arg2) {dimension = 0 : i64}
|
|
%0 = "mhlo.concatenate"(%arg0, %arg1, %arg2) { dimension = 0 : i64 } : (tensor<1x5xf32>, tensor<2x5xf32>, tensor<1x5xf32>) -> tensor<4x5xf32>
|
|
|
|
// CHECK: [[SLICE:%.+]] = "mhlo.slice"([[CONCAT]]) {limit_indices = dense<[3, 5]> : tensor<2xi64>, start_indices = dense<[1, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>}
|
|
%1 = "mhlo.slice"(%0) { limit_indices = dense<[4, 5]> : tensor<2xi64>, start_indices = dense<[2, 0]> : tensor<2xi64>, strides = dense<1> : tensor<2xi64>} : (tensor<4x5xf32>) -> (tensor<2x5xf32>)
|
|
|
|
// CHECK: return [[SLICE]]
|
|
return %1 : tensor<2x5xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @broadcast_in_dim_identity
|
|
func @broadcast_in_dim_identity(%arg0: tensor<2x3x4xf32>) -> tensor<2x3x4xf32> {
|
|
// CHECK: return %arg0
|
|
%0 = "mhlo.broadcast_in_dim"(%arg0) {broadcast_dimensions = dense<[0, 1, 2]> : tensor<3xi64>} : (tensor<2x3x4xf32>) -> tensor<2x3x4xf32>
|
|
return %0 : tensor<2x3x4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @broadcast_in_dim_not_identity_because_it_actually_broadcasts
|
|
func @broadcast_in_dim_not_identity_because_it_actually_broadcasts(%arg0: tensor<1x2xf32>) -> tensor<2x2xf32> {
|
|
// CHECK: mhlo.broadcast_in_dim
|
|
%0 = "mhlo.broadcast_in_dim"(%arg0) {broadcast_dimensions = dense<[0, 1]> : tensor<2xi64>} : (tensor<1x2xf32>) -> tensor<2x2xf32>
|
|
return %0 : tensor<2x2xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @broadcast_in_dim_not_identity_permutation
|
|
func @broadcast_in_dim_not_identity_permutation(%arg0: tensor<2x2xf32>) -> tensor<2x2xf32> {
|
|
// CHECK: mhlo.broadcast_in_dim
|
|
%0 = "mhlo.broadcast_in_dim"(%arg0) {broadcast_dimensions = dense<[1, 0]> : tensor<2xi64>} : (tensor<2x2xf32>) -> tensor<2x2xf32>
|
|
return %0 : tensor<2x2xf32>
|
|
}
|
|
|
|
|
|
// CHECK-LABEL: func @dynamic_broadcast_in_dim_op_not_actually_dynamic
|
|
func @dynamic_broadcast_in_dim_op_not_actually_dynamic(%arg0: tensor<4xf32>, %arg1: tensor<2xi64>) -> tensor<5x4xf32> {
|
|
// CHECK: %[[RESULT:.+]] = "mhlo.broadcast_in_dim"(%arg0) {broadcast_dimensions = dense<1> : tensor<1xi64>} : (tensor<4xf32>) -> tensor<5x4xf32>
|
|
%0 = "mhlo.dynamic_broadcast_in_dim"(%arg0, %arg1) { broadcast_dimensions = dense<1> : tensor<1xi64> } : (tensor<4xf32>, tensor<2xi64>) -> tensor<5x4xf32>
|
|
// CHECK: return %[[RESULT]] : tensor<5x4xf32>
|
|
return %0 : tensor<5x4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @dynamic_broadcast_in_dim_to_same_shape_1
|
|
func @dynamic_broadcast_in_dim_to_same_shape_1(%arg0: tensor<?xf32>) -> tensor<?xf32> {
|
|
// CHECK-SAME: %[[ARG:.*]]: tensor<?xf32>
|
|
%0 = shape.shape_of %arg0 : tensor<?xf32> -> tensor<1xindex>
|
|
%2 = "mhlo.dynamic_broadcast_in_dim"(%arg0, %0) { broadcast_dimensions = dense<0> : tensor<1xi64> } : (tensor<?xf32>, tensor<1xindex>) -> tensor<?xf32>
|
|
// CHECK: return %[[ARG]] : tensor<?xf32>
|
|
return %2 : tensor<?xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @dynamic_broadcast_in_dim_to_same_shape_2
|
|
func @dynamic_broadcast_in_dim_to_same_shape_2(%arg0: tensor<?xf32>) -> tensor<?xf32> {
|
|
// CHECK-SAME: %[[ARG:.*]]: tensor<?xf32>
|
|
%0 = shape.shape_of %arg0 : tensor<?xf32> -> !shape.shape
|
|
%1 = shape.to_extent_tensor %0 : !shape.shape -> tensor<1xindex>
|
|
%2 = "mhlo.dynamic_broadcast_in_dim"(%arg0, %1) { broadcast_dimensions = dense<0> : tensor<1xi64> } : (tensor<?xf32>, tensor<1xindex>) -> tensor<?xf32>
|
|
// CHECK: return %[[ARG]] : tensor<?xf32>
|
|
return %2 : tensor<?xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @broadcast_in_dim_constant_fold_0d
|
|
func @broadcast_in_dim_constant_fold_0d() -> tensor<1x64x224x224xf32> {
|
|
%cst = mhlo.constant dense<0.000000e+00> : tensor<f32>
|
|
%b = "mhlo.broadcast_in_dim"(%cst) {broadcast_dimensions = dense<[]> : tensor<0xi64>} : (tensor<f32>) -> tensor<1x64x224x224xf32>
|
|
return %b : tensor<1x64x224x224xf32>
|
|
}
|
|
// CHECK-NEXT: %[[CST:.*]] = mhlo.constant dense<0.000000e+00> : tensor<1x64x224x224xf32>
|
|
// CHECK-NEXT: return %[[CST]] : tensor<1x64x224x224xf32>
|
|
|
|
// CHECK-LABEL: func @broadcast_in_dim_constant_fold
|
|
func @broadcast_in_dim_constant_fold() -> tensor<1x64x4x4xf32> {
|
|
%cst = mhlo.constant dense<0.000000e+00> : tensor<4x4xf32>
|
|
%b = "mhlo.broadcast_in_dim"(%cst) {broadcast_dimensions = dense<[2, 3]> : tensor<2xi64>} : (tensor<4x4xf32>) -> tensor<1x64x4x4xf32>
|
|
return %b : tensor<1x64x4x4xf32>
|
|
}
|
|
// CHECK-NEXT: %[[CST:.*]] = mhlo.constant dense<0.000000e+00> : tensor<1x64x4x4xf32>
|
|
// CHECK-NEXT: return %[[CST]] : tensor<1x64x4x4xf32>
|
|
|
|
// CHECK-LABEL: @complex_expand_fold
|
|
func @complex_expand_fold(%arg0: tensor<4xf32>, %arg1: tensor<4xf32>) -> (tensor<4xf32>, tensor<4xf32>) {
|
|
%0 = "mhlo.complex"(%arg0, %arg1) : (tensor<4xf32>, tensor<4xf32>) -> (tensor<4xcomplex<f32>>)
|
|
%1 = "mhlo.real"(%0) : (tensor<4xcomplex<f32>>) -> (tensor<4xf32>)
|
|
%2 = "mhlo.imag"(%0) : (tensor<4xcomplex<f32>>) -> (tensor<4xf32>)
|
|
// CHECK: return %arg0, %arg1
|
|
return %1, %2 : tensor<4xf32>, tensor<4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: @complex_collapse_fold
|
|
func @complex_collapse_fold(%arg0: tensor<4xcomplex<f32>>) -> tensor<4xcomplex<f32>> {
|
|
%0 = "mhlo.real"(%arg0) : (tensor<4xcomplex<f32>>) -> (tensor<4xf32>)
|
|
%1 = "mhlo.imag"(%arg0) : (tensor<4xcomplex<f32>>) -> (tensor<4xf32>)
|
|
%2 = "mhlo.complex"(%0, %1) : (tensor<4xf32>, tensor<4xf32>) -> tensor<4xcomplex<f32>>
|
|
// CHECK: return %arg0
|
|
return %2 : tensor<4xcomplex<f32>>
|
|
}
|
|
|
|
// CHECK-LABEL: @dynamic_iota_is_static
|
|
func @dynamic_iota_is_static(%arg0 : tensor<1xindex>) -> tensor<4xi32> {
|
|
// CHECK: [[RESULT:%.*]] = "mhlo.iota"
|
|
// CHECK: return [[RESULT]]
|
|
%0 = "mhlo.dynamic_iota"(%arg0) {iota_dimension = 0 : i64} : (tensor<1xindex>) -> tensor<4xi32>
|
|
return %0 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @dynamic_iota_broadcast
|
|
func @dynamic_iota_broadcast(%arg0 : tensor<2xindex>) -> tensor<5x?xi32> {
|
|
// CHECK: [[IOTA:%.+]] = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<5xi32>
|
|
// CHECK: [[BROADCAST:%.+]] = "mhlo.dynamic_broadcast_in_dim"([[IOTA]], %arg0) {broadcast_dimensions = dense<0> : tensor<1xi64>} : (tensor<5xi32>, tensor<2xindex>) -> tensor<5x?xi32>
|
|
%0 = "mhlo.dynamic_iota"(%arg0) {iota_dimension = 0 : i64} : (tensor<2xindex>) -> tensor<5x?xi32>
|
|
|
|
// CHECK: return [[BROADCAST]]
|
|
return %0 : tensor<5x?xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @dynamic_iota_broadcast_second
|
|
func @dynamic_iota_broadcast_second(%arg0 : tensor<2xindex>) -> tensor<5x?xi32> {
|
|
// CHECK-NEXT: [[CAST1:%.+]] = index_cast %arg0 : tensor<2xindex> to tensor<2xi64>
|
|
// CHECK-NEXT: [[SLICE:%.+]] = "mhlo.slice"([[CAST1]]) {limit_indices = dense<2> : tensor<1xi64>, start_indices = dense<1> : tensor<1xi64>, strides = dense<1> : tensor<1xi64>} : (tensor<2xi64>) -> tensor<1xi64>
|
|
// CHECK-NEXT: [[CAST2:%.+]] = index_cast [[SLICE]] : tensor<1xi64> to tensor<1xindex>
|
|
// CHECK-NEXT: [[IOTA:%.+]] = "mhlo.dynamic_iota"([[CAST2]]) {iota_dimension = 0 : i64} : (tensor<1xindex>) -> tensor<?xi32>
|
|
// CHECK-NEXT: [[BROADCAST:%.+]] = "mhlo.dynamic_broadcast_in_dim"([[IOTA]], %arg0) {broadcast_dimensions = dense<1> : tensor<1xi64>} : (tensor<?xi32>, tensor<2xindex>) -> tensor<5x?xi32>
|
|
%0 = "mhlo.dynamic_iota"(%arg0) {iota_dimension = 1 : i64} : (tensor<2xindex>) -> tensor<5x?xi32>
|
|
|
|
// CHECK: return [[BROADCAST]]
|
|
return %0 : tensor<5x?xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @dynamic_iota_constant
|
|
func @dynamic_iota_constant(%arg0 : tensor<2xindex>) -> tensor<1x?xi32> {
|
|
// CHECK: [[IOTA:%.+]] = mhlo.constant dense<0> : tensor<1xi32>
|
|
// CHECK: [[BROADCAST:%.+]] = "mhlo.dynamic_broadcast_in_dim"([[IOTA]], %arg0) {broadcast_dimensions = dense<0> : tensor<1xi64>} : (tensor<1xi32>, tensor<2xindex>) -> tensor<1x?xi32>
|
|
%0 = "mhlo.dynamic_iota"(%arg0) {iota_dimension = 0 : i64} : (tensor<2xindex>) -> tensor<1x?xi32>
|
|
|
|
// CHECK: return [[BROADCAST]]
|
|
return %0 : tensor<1x?xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @iota_constant
|
|
func @iota_constant() -> tensor<1xi32> {
|
|
// CHECK: [[CONST:%.+]] = mhlo.constant dense<0> : tensor<1xi32>
|
|
%0 = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<1xi32>
|
|
|
|
// CHECK: return [[CONST]] : tensor<1xi32>
|
|
return %0 : tensor<1xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @iota_constant_multi
|
|
func @iota_constant_multi() -> tensor<1x4xi32> {
|
|
// CHECK: [[CONST:%.+]] = mhlo.constant dense<0> : tensor<1x4xi32>
|
|
%0 = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<1x4xi32>
|
|
|
|
// CHECK: return [[CONST]] : tensor<1x4xi32>
|
|
return %0 : tensor<1x4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @iota_not_lowered_to_constant
|
|
func @iota_not_lowered_to_constant() -> tensor<4xi32> {
|
|
// CHECK: [[RESULT:%.*]] = "mhlo.iota"
|
|
// CHECK: return [[RESULT]]
|
|
%0 = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<4xi32>
|
|
return %0 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @iota_broadcast
|
|
func @iota_broadcast() -> tensor<5x4xi32> {
|
|
// CHECK: [[IOTA:%.+]] = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<5xi32>
|
|
// CHECK: [[RESULT:%.+]] = "mhlo.broadcast_in_dim"([[IOTA]]) {broadcast_dimensions = dense<0> : tensor<1xi64>} : (tensor<5xi32>) -> tensor<5x4xi32>
|
|
%0 = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<5x4xi32>
|
|
|
|
return %0 : tensor<5x4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @iota_broadcast
|
|
func @iota_broadcast_second() -> tensor<5x4xi32> {
|
|
// CHECK: [[IOTA:%.+]] = "mhlo.iota"() {iota_dimension = 0 : i64} : () -> tensor<4xi32>
|
|
// CHECK: [[RESULT:%.+]] = "mhlo.broadcast_in_dim"([[IOTA]]) {broadcast_dimensions = dense<1> : tensor<1xi64>} : (tensor<4xi32>) -> tensor<5x4xi32>
|
|
%0 = "mhlo.iota"() {iota_dimension = 1 : i64} : () -> tensor<5x4xi32>
|
|
|
|
return %0 : tensor<5x4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: @unary_einsum
|
|
func @unary_einsum(%arg0: tensor<2x3xf32>) -> tensor<2x2xf32> {
|
|
// CHECK: %[[ONE:.*]] = mhlo.constant dense<1.000000e+00> : tensor<f32>
|
|
// CHECK: "mhlo.einsum"(%[[ONE]], %arg0) {einsum_config = ",ab->aa"}
|
|
%0 = "mhlo.unary_einsum"(%arg0) {einsum_config = "ab->aa"} : (tensor<2x3xf32>) -> tensor<2x2xf32>
|
|
return %0 : tensor<2x2xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_copy
|
|
// CHECK-SAME: [[ARG:%[a-zA-Z0-9]+]]
|
|
func @fold_copy(%arg : tensor<1x4xf32>) -> tensor<1x4xf32> {
|
|
// CHECK: return [[ARG]]
|
|
%0 = "mhlo.copy"(%arg) : (tensor<1x4xf32>) -> tensor<1x4xf32>
|
|
return %0 : tensor<1x4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @dynamic_reshape_not_actually_dynamic
|
|
func @dynamic_reshape_not_actually_dynamic(%arg0: tensor<4xf32>, %shape: tensor<2xindex>) -> tensor<4x1xf32> {
|
|
// CHECK: mhlo.reshape
|
|
%0 = "mhlo.dynamic_reshape"(%arg0, %shape) : (tensor<4xf32>, tensor<2xindex>) -> tensor<4x1xf32>
|
|
return %0 : tensor<4x1xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: do_not_dce_while_with_outfeed
|
|
func @do_not_dce_while_with_outfeed(%arg0: tensor<i64>) -> tensor<i64> {
|
|
// CHECK: mhlo.while
|
|
%0 = "mhlo.while"(%arg0) ( {
|
|
^bb0(%arg1: tensor<i64>):
|
|
%1 = "mhlo.compare"(%arg1, %arg1) {comparison_direction = "LT"} : (tensor<i64>, tensor<i64>) -> tensor<i1>
|
|
"mhlo.return"(%1) : (tensor<i1>) -> ()
|
|
}, {
|
|
^bb0(%arg1: tensor<i64>):
|
|
%1 = "mhlo.create_token"() : () -> !mhlo.token
|
|
// Side-effecting op outfeed present inside while.
|
|
%2 = "mhlo.outfeed"(%arg1, %1) {outfeed_config = ""} : (tensor<i64>, !mhlo.token) -> !mhlo.token
|
|
"mhlo.return"(%arg1) : (tensor<i64>) -> ()
|
|
}) : (tensor<i64>) -> tensor<i64>
|
|
|
|
return %arg0 : tensor<i64>
|
|
}
|
|
|
|
// CHECK-LABEL: dce_while_without_side_effect
|
|
func @dce_while_without_side_effect(%arg0: tensor<i64>) -> tensor<i64> {
|
|
// CHECK-NOT: mhlo.while
|
|
%0 = "mhlo.while"(%arg0) ( {
|
|
^bb0(%arg1: tensor<i64>):
|
|
%1 = "mhlo.compare"(%arg1, %arg1) {comparison_direction = "LT"} : (tensor<i64>, tensor<i64>) -> tensor<i1>
|
|
"mhlo.return"(%1) : (tensor<i1>) -> ()
|
|
}, {
|
|
^bb0(%arg1: tensor<i64>):
|
|
%1 = "mhlo.create_token"() : () -> !mhlo.token
|
|
"mhlo.return"(%arg1) : (tensor<i64>) -> ()
|
|
}) : (tensor<i64>) -> tensor<i64>
|
|
|
|
return %arg0 : tensor<i64>
|
|
}
|
|
|
|
// CHECK-LABEL: unpack_repack_same_tuple
|
|
// CHECK-SAME: ([[ARG0:%.*]]: tuple<tensor<i32>, !mhlo.token, tensor<f32>>)
|
|
func @unpack_repack_same_tuple(%arg0: tuple<tensor<i32>, !mhlo.token, tensor<f32>>) -> tuple<tensor<i32>, !mhlo.token, tensor<f32>> {
|
|
%0 = "mhlo.get_tuple_element"(%arg0) {index = 0 : i32} : (tuple<tensor<i32>, !mhlo.token, tensor<f32>>) -> tensor<i32>
|
|
%1 = "mhlo.get_tuple_element"(%arg0) {index = 1 : i32} : (tuple<tensor<i32>, !mhlo.token, tensor<f32>>) -> !mhlo.token
|
|
%2 = "mhlo.get_tuple_element"(%arg0) {index = 2 : i32} : (tuple<tensor<i32>, !mhlo.token, tensor<f32>>) -> tensor<f32>
|
|
%3 = "mhlo.tuple"(%0, %1, %2) : (tensor<i32>, !mhlo.token, tensor<f32>) -> tuple<tensor<i32>, !mhlo.token, tensor<f32>>
|
|
|
|
// CHECK: return [[ARG0]]
|
|
return %3 : tuple<tensor<i32>, !mhlo.token, tensor<f32>>
|
|
}
|
|
|
|
// CHECK-LABEL: unpack_repack_same_tuple_single_element
|
|
// CHECK-SAME: ([[ARG0:%.*]]: tuple<tensor<i32>>)
|
|
func @unpack_repack_same_tuple_single_element(%arg0: tuple<tensor<i32>>) -> tuple<tensor<i32>> {
|
|
%0 = "mhlo.get_tuple_element"(%arg0) {index = 0 : i32} : (tuple<tensor<i32>>) -> tensor<i32>
|
|
%3 = "mhlo.tuple"(%0) : (tensor<i32>) -> tuple<tensor<i32>>
|
|
|
|
// CHECK: return [[ARG0]]
|
|
return %3 : tuple<tensor<i32>>
|
|
}
|
|
|
|
// CHECK-LABEL: func @erase_dead_lhlo_constant
|
|
func @erase_dead_lhlo_constant() {
|
|
%M = alloc() : memref<256x1024xf32>
|
|
// CHECK-NEXT: return
|
|
"lmhlo.constant"(%M) {value = dense<0.0> : tensor<f32>} : (memref<256x1024xf32>) -> ()
|
|
dealloc %M : memref<256x1024xf32>
|
|
return
|
|
}
|
|
|
|
// A negative test for dead lhlo constant op erasure.
|
|
// CHECK-LABEL: func @erase_dead_lhlo_constant_negative
|
|
func @erase_dead_lhlo_constant_negative(%M : memref<4xf32>) -> memref<256x1024xf32> {
|
|
// CHECK-NEXT: lmhlo.constant
|
|
"lmhlo.constant"(%M) {value = dense<0.0> : tensor<f32>} : (memref<4xf32>) -> ()
|
|
// CHECK-NEXT: alloc
|
|
// CHECK-NEXT: lmhlo.constant
|
|
%N = alloc() : memref<256x1024xf32>
|
|
"lmhlo.constant"(%N) {value = dense<0.0> : tensor<f32>} : (memref<256x1024xf32>) -> ()
|
|
return %N : memref<256x1024xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_get_dimension_size
|
|
func @fold_get_dimension_size(%I : tensor<1x128x512xf32>) -> tensor<i32> {
|
|
%size = "mhlo.get_dimension_size"(%I) {dimension = 2 : i32} : (tensor<1x128x512xf32>) -> tensor<i32>
|
|
return %size : tensor<i32>
|
|
// CHECK-NEXT: %[[C:.*]] = mhlo.constant dense<512> : tensor<i32>
|
|
// CHECK-NEXT: return %[[C]]
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_select_same
|
|
func @fold_select_same(%arg0 : tensor<f32>, %arg1 : tensor<i1>) -> tensor<f32> {
|
|
%1 = "mhlo.select"(%arg1, %arg0, %arg0) : (tensor<i1>, tensor<f32>, tensor<f32>) -> tensor<f32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<f32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_select_first
|
|
func @fold_select_first(%arg0 : tensor<f32>, %arg1 : tensor<f32>) -> tensor<f32> {
|
|
%0 = mhlo.constant dense<1> : tensor<i1>
|
|
%1 = "mhlo.select"(%0, %arg0, %arg1) : (tensor<i1>, tensor<f32>, tensor<f32>) -> tensor<f32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<f32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_select_second
|
|
func @fold_select_second(%arg0 : tensor<f32>, %arg1 : tensor<f32>) -> tensor<f32> {
|
|
%0 = mhlo.constant dense<0> : tensor<i1>
|
|
%1 = "mhlo.select"(%0, %arg0, %arg1) : (tensor<i1>, tensor<f32>, tensor<f32>) -> tensor<f32>
|
|
// CHECK: return %arg1
|
|
return %1 : tensor<f32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_select_vector
|
|
func @fold_select_vector(%arg0 : tensor<4xf32>, %arg1 : tensor<4xf32>) -> tensor<4xf32> {
|
|
%0 = mhlo.constant dense<1> : tensor<4xi1>
|
|
%1 = "mhlo.select"(%0, %arg0, %arg1) : (tensor<4xi1>, tensor<4xf32>, tensor<4xf32>) -> tensor<4xf32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: gather_to_slice
|
|
func @gather_to_slice(%arg0: tensor<5x6x7xf32>) -> tensor<3x6x5xf32> {
|
|
%0 = constant dense<[1, 2]> : tensor<2xi32>
|
|
%1 = "mhlo.gather"(%arg0, %0) {
|
|
dimension_numbers = {collapsed_slice_dims = dense<> : tensor<0xi64>,
|
|
index_vector_dim = 0 : i64,
|
|
offset_dims = dense<[0, 1, 2]> : tensor<3xi64>,
|
|
start_index_map = dense<[0, 2]> : tensor<2xi64>},
|
|
indices_are_sorted = false,
|
|
slice_sizes = dense<[3, 6, 5]> : tensor<3xi64>} : (tensor<5x6x7xf32>, tensor<2xi32>) -> tensor<3x6x5xf32>
|
|
return %1 : tensor<3x6x5xf32>
|
|
// CHECK: %[[RET:.*]] = "mhlo.slice"(%arg0) {limit_indices = dense<[4, 6, 7]> : tensor<3xi64>, start_indices = dense<[1, 0, 2]> : tensor<3xi64>, strides = dense<1> : tensor<3xi64>} : (tensor<5x6x7xf32>) -> tensor<3x6x5xf32>
|
|
// CHECK: return %[[RET]] : tensor<3x6x5xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: gather_scalar_index_to_slice
|
|
func @gather_scalar_index_to_slice(%arg0: tensor<5x6x7xf32>) -> tensor<5x6x4xf32> {
|
|
%0 = constant dense<1> : tensor<i32>
|
|
%1 = "mhlo.gather"(%arg0, %0) {
|
|
dimension_numbers = {collapsed_slice_dims = dense<> : tensor<0xi64>,
|
|
index_vector_dim = 0 : i64,
|
|
offset_dims = dense<[0, 1, 2]> : tensor<3xi64>,
|
|
start_index_map = dense<[2]> : tensor<1xi64>},
|
|
indices_are_sorted = false,
|
|
slice_sizes = dense<[5, 6, 4]> : tensor<3xi64>} : (tensor<5x6x7xf32>, tensor<i32>) -> tensor<5x6x4xf32>
|
|
return %1 : tensor<5x6x4xf32>
|
|
// CHECK: %[[RET:.*]] = "mhlo.slice"(%arg0) {limit_indices = dense<[5, 6, 5]> : tensor<3xi64>, start_indices = dense<[0, 0, 1]> : tensor<3xi64>, strides = dense<1> : tensor<3xi64>} : (tensor<5x6x7xf32>) -> tensor<5x6x4xf32>
|
|
// CHECK: return %[[RET]] : tensor<5x6x4xf32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_and_same
|
|
func @fold_and_same(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = "mhlo.and"(%arg0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %0 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_and_ones
|
|
func @fold_and_ones(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<-1> : tensor<4xi32>
|
|
%1 = "mhlo.and"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_and_zeros
|
|
func @fold_and_zeros(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
%1 = "mhlo.and"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_and_constant
|
|
func @fold_and_constant(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<7> : tensor<4xi32>
|
|
// CHECK: mhlo.and
|
|
%1 = "mhlo.and"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_and_constants
|
|
func @fold_and_constants() -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<[0, 1, 6, 3]> : tensor<4xi32>
|
|
%1 = mhlo.constant dense<[7, 3, 7, 2]> : tensor<4xi32>
|
|
%2 = "mhlo.and"(%0, %1) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: %0 = mhlo.constant dense<[0, 1, 6, 2]> : tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %2 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_same
|
|
func @fold_or_same(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = "mhlo.or"(%arg0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %0 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_ones
|
|
func @fold_or_ones(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<-1> : tensor<4xi32>
|
|
%1 = "mhlo.or"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_zeros
|
|
func @fold_or_zeros(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
%1 = "mhlo.or"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_constant
|
|
func @fold_or_constant(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<7> : tensor<4xi32>
|
|
// CHECK: mhlo.or
|
|
%1 = "mhlo.or"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_zeros_right
|
|
func @fold_or_zeros_right(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
%1 = "mhlo.or"(%arg0, %0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_or_zeros_constants
|
|
func @fold_or_zeros_constants() -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<[0, 1, 6, 3]> : tensor<4xi32>
|
|
%1 = mhlo.constant dense<[7, 3, 7, 2]> : tensor<4xi32>
|
|
%2 = "mhlo.or"(%0, %1) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: %0 = mhlo.constant dense<[7, 3, 7, 3]> : tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %2 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_same
|
|
func @fold_xor_same(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = "mhlo.xor"(%arg0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: %0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %0 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_ones_left
|
|
func @fold_xor_ones_left(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<-1> : tensor<4xi32>
|
|
// CHECK: mhlo.xor
|
|
%1 = "mhlo.xor"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_ones_right
|
|
func @fold_xor_ones_right(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<-1> : tensor<4xi32>
|
|
// CHECK: mhlo.xor
|
|
%1 = "mhlo.xor"(%arg0, %0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_zeros_left
|
|
func @fold_xor_zeros_left(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
%1 = "mhlo.xor"(%0, %arg0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_zeros_right
|
|
func @fold_xor_zeros_right(%arg0 : tensor<4xi32>) -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<0> : tensor<4xi32>
|
|
%1 = "mhlo.xor"(%arg0, %0) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: return %arg0
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_xor_zeros_constants
|
|
func @fold_xor_zeros_constants() -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<[0, 1, 6, 3]> : tensor<4xi32>
|
|
%1 = mhlo.constant dense<[7, 3, 7, 2]> : tensor<4xi32>
|
|
%2 = "mhlo.xor"(%0, %1) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi32>
|
|
// CHECK: %0 = mhlo.constant dense<[7, 2, 1, 1]> : tensor<4xi32>
|
|
// CHECK: return %0
|
|
return %2 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_negate_int
|
|
func @fold_negate_int() -> tensor<4xi32> {
|
|
%0 = mhlo.constant dense<[0, 1, 6, -3]> : tensor<4xi32>
|
|
// CHECK: mhlo.constant dense<[0, -1, -6, 3]>
|
|
%1 = "mhlo.negate"(%0) : (tensor<4xi32>) -> tensor<4xi32>
|
|
return %1 : tensor<4xi32>
|
|
}
|
|
|
|
// CHECK-LABEL: func @fold_negate_float
|
|
func @fold_negate_float() -> tensor<4xf32> {
|
|
%0 = mhlo.constant dense<[0., 1., 6., -3.]> : tensor<4xf32>
|
|
// CHECK: mhlo.constant dense<[-0.000000e+00, -1.000000e+00, -6.000000e+00, 3.000000e+00]>
|
|
%1 = "mhlo.negate"(%0) : (tensor<4xf32>) -> tensor<4xf32>
|
|
return %1 : tensor<4xf32>
|
|
}
|
|
|