[mhlo] Lower int->int cast to sign extension instead of zero extension

Signless does not mean unsigned here. Currently mhlo only has signed types.

PiperOrigin-RevId: 357561712
This commit is contained in:
Benjamin Kramer 2021-02-15 05:57:54 -08:00 committed by TensorFlow MLIR Team
parent 8672735e9a
commit 240a44de82
3 changed files with 32 additions and 3 deletions

View File

@ -316,9 +316,13 @@ inline Value MapLhloOpToStdScalarOp<lmhlo::ConvertOp>(
IntegerType res = targetType.cast<IntegerType>(); IntegerType res = targetType.cast<IntegerType>();
if (src.getWidth() > res.getWidth()) { if (src.getWidth() > res.getWidth()) {
return b->create<mlir::TruncateIOp>(loc, result_types, args, mlir::None); return b->create<mlir::TruncateIOp>(loc, result_types, args, mlir::None);
} else if (src.getWidth() < res.getWidth()) { } else if (src.getWidth() == 1) {
// Special case boolean values, so they get casted to `1` instead of `-1`.
return b->create<mlir::ZeroExtendIOp>(loc, result_types, args, return b->create<mlir::ZeroExtendIOp>(loc, result_types, args,
mlir::None); mlir::None);
} else if (src.getWidth() < res.getWidth()) {
return b->create<mlir::SignExtendIOp>(loc, result_types, args,
mlir::None);
} }
// No conversion is needed for the same width integers // No conversion is needed for the same width integers
return args.front(); return args.front();

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@ -662,6 +662,19 @@ func @convert_i1_to_f32(%input: tensor<2x2xi1>) -> tensor<2x2xf32> {
// ----- // -----
// CHECK-LABEL: func @convert_i1_to_i32
func @convert_i1_to_i32(%input: tensor<2x2xi1>) -> tensor<2x2xi32> {
%result = "mhlo.convert"(%input) : (tensor<2x2xi1>) -> tensor<2x2xi32>
return %result : tensor<2x2xi32>
}
// CHECK: linalg.init_tensor
// CHECK: linalg.generic
// CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i1, %{{.*}}: i32):
// CHECK-NEXT: %[[RESULT:.*]] = zexti %[[OPERAND_IN]] : i1 to i32
// CHECK-NEXT: linalg.yield %[[RESULT]] : i32
// -----
// CHECK-LABEL: func @convert_i32_to_f32 // CHECK-LABEL: func @convert_i32_to_f32
func @convert_i32_to_f32(%input: tensor<2x2xi32>) -> tensor<2x2xf32> { func @convert_i32_to_f32(%input: tensor<2x2xi32>) -> tensor<2x2xf32> {
%result = "mhlo.convert"(%input) : (tensor<2x2xi32>) -> tensor<2x2xf32> %result = "mhlo.convert"(%input) : (tensor<2x2xi32>) -> tensor<2x2xf32>
@ -683,7 +696,7 @@ func @convert_i16_to_i32(%input: tensor<2x2xi16>) -> tensor<2x2xi32> {
// CHECK: linalg.init_tensor // CHECK: linalg.init_tensor
// CHECK: linalg.generic // CHECK: linalg.generic
// CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i16, %{{.*}}: i32): // CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i16, %{{.*}}: i32):
// CHECK-NEXT: %[[RESULT:.*]] = zexti %[[OPERAND_IN]] : i16 to i32 // CHECK-NEXT: %[[RESULT:.*]] = sexti %[[OPERAND_IN]] : i16 to i32
// CHECK-NEXT: linalg.yield %[[RESULT]] : i32 // CHECK-NEXT: linalg.yield %[[RESULT]] : i32
// ----- // -----

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@ -419,6 +419,18 @@ func @convert_i1_to_f32(%input: memref<2x2xi1>, %result: memref<2x2xf32>) {
// ----- // -----
// CHECK-LABEL: func @convert_i1_to_i32
func @convert_i1_to_i32(%input: memref<2x2xi1>, %result: memref<2x2xi32>) {
"lmhlo.convert"(%input, %result) : (memref<2x2xi1>, memref<2x2xi32>) -> ()
return
}
// CHECK: linalg.generic
// CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i1, %[[RESULT_OUT:.*]]: i32):
// CHECK-NEXT: %[[RESULT:.*]] = zexti %[[OPERAND_IN]] : i1 to i32
// CHECK-NEXT: linalg.yield %[[RESULT]] : i32
// -----
// CHECK-LABEL: func @convert_i32_to_f32 // CHECK-LABEL: func @convert_i32_to_f32
func @convert_i32_to_f32(%input: memref<2x2xi32>, %result: memref<2x2xf32>) { func @convert_i32_to_f32(%input: memref<2x2xi32>, %result: memref<2x2xf32>) {
"lmhlo.convert"(%input, %result) : (memref<2x2xi32>, memref<2x2xf32>) -> () "lmhlo.convert"(%input, %result) : (memref<2x2xi32>, memref<2x2xf32>) -> ()
@ -439,7 +451,7 @@ func @convert_i16_to_i32(%input: memref<2x2xi16>,
} }
// CHECK: linalg.generic // CHECK: linalg.generic
// CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i16, %[[RESULT_OUT:.*]]: i32): // CHECK-NEXT: ^bb0(%[[OPERAND_IN:.*]]: i16, %[[RESULT_OUT:.*]]: i32):
// CHECK-NEXT: %[[RESULT:.*]] = zexti %[[OPERAND_IN]] : i16 to i32 // CHECK-NEXT: %[[RESULT:.*]] = sexti %[[OPERAND_IN]] : i16 to i32
// CHECK-NEXT: linalg.yield %[[RESULT]] : i32 // CHECK-NEXT: linalg.yield %[[RESULT]] : i32
// ----- // -----