mlir/test/Conversion/MathToLibm/convert-to-libm.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -convert-math-to-libm -canonicalize | FileCheck %s

 // CHECK-DAG: @erf(f64) -> f64
 // CHECK-DAG: @erff(f32) -> f32
 // CHECK-DAG: @expm1(f64) -> f64
 // CHECK-DAG: @expm1f(f32) -> f32
 // CHECK-DAG: @atan2(f64, f64) -> f64
 // CHECK-DAG: @atan2f(f32, f32) -> f32
 // CHECK-DAG: @tanh(f64) -> f64
 // CHECK-DAG: @tanhf(f32) -> f32

 // CHECK-LABEL: func @tanh_caller
 // CHECK-SAME: %[[FLOAT:.*]]: f32
 // CHECK-SAME: %[[DOUBLE:.*]]: f64
 func @tanh_caller(%float: f32, %double: f64) -> (f32, f64)  {
   // CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @tanhf(%[[FLOAT]]) : (f32) -> f32
   %float_result = math.tanh %float : f32
   // CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @tanh(%[[DOUBLE]]) : (f64) -> f64
   %double_result = math.tanh %double : f64
   // CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
   return %float_result, %double_result : f32, f64
 }


 // CHECK-LABEL: func @atan2_caller
 // CHECK-SAME: %[[FLOAT:.*]]: f32
 // CHECK-SAME: %[[DOUBLE:.*]]: f64
 func @atan2_caller(%float: f32, %double: f64) -> (f32, f64) {
   // CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @atan2f(%[[FLOAT]], %[[FLOAT]]) : (f32, f32) -> f32
   %float_result = math.atan2 %float, %float : f32
   // CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @atan2(%[[DOUBLE]], %[[DOUBLE]]) : (f64, f64) -> f64
   %double_result = math.atan2 %double, %double : f64
   // CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
   return %float_result, %double_result : f32, f64
 }

 // CHECK-LABEL: func @erf_caller
 // CHECK-SAME: %[[FLOAT:.*]]: f32
 // CHECK-SAME: %[[DOUBLE:.*]]: f64
 func @erf_caller(%float: f32, %double: f64) -> (f32, f64)  {
   // CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @erff(%[[FLOAT]]) : (f32) -> f32
   %float_result = math.erf %float : f32
   // CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @erf(%[[DOUBLE]]) : (f64) -> f64
   %double_result = math.erf %double : f64
   // CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
   return %float_result, %double_result : f32, f64
 }

 // CHECK-LABEL: func @expm1_caller
 // CHECK-SAME: %[[FLOAT:.*]]: f32
 // CHECK-SAME: %[[DOUBLE:.*]]: f64
 func @expm1_caller(%float: f32, %double: f64) -> (f32, f64) {
   // CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @expm1f(%[[FLOAT]]) : (f32) -> f32
   %float_result = math.expm1 %float : f32
   // CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @expm1(%[[DOUBLE]]) : (f64) -> f64
   %double_result = math.expm1 %double : f64
   // CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
   return %float_result, %double_result : f32, f64
 }

 func @expm1_vec_caller(%float: vector<2xf32>, %double: vector<2xf64>) -> (vector<2xf32>, vector<2xf64>) {
   %float_result = math.expm1 %float : vector<2xf32>
   %double_result = math.expm1 %double : vector<2xf64>
   return %float_result, %double_result : vector<2xf32>, vector<2xf64>
 }
 // CHECK-LABEL:   func @expm1_vec_caller(
 // CHECK-SAME:                           %[[VAL_0:.*]]: vector<2xf32>,
 // CHECK-SAME:                           %[[VAL_1:.*]]: vector<2xf64>) -> (vector<2xf32>, vector<2xf64>) {
 // CHECK-DAG:       %[[CVF:.*]] = arith.constant dense<0.000000e+00> : vector<2xf32>
 // CHECK-DAG:       %[[CVD:.*]] = arith.constant dense<0.000000e+00> : vector<2xf64>
 // CHECK:           %[[IN0_F32:.*]] = vector.extract %[[VAL_0]][0] : vector<2xf32>
 // CHECK:           %[[OUT0_F32:.*]] = call @expm1f(%[[IN0_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_8:.*]] = vector.insert %[[OUT0_F32]], %[[CVF]] [0] : f32 into vector<2xf32>
 // CHECK:           %[[IN1_F32:.*]] = vector.extract %[[VAL_0]][1] : vector<2xf32>
 // CHECK:           %[[OUT1_F32:.*]] = call @expm1f(%[[IN1_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_11:.*]] = vector.insert %[[OUT1_F32]], %[[VAL_8]] [1] : f32 into vector<2xf32>
 // CHECK:           %[[IN0_F64:.*]] = vector.extract %[[VAL_1]][0] : vector<2xf64>
 // CHECK:           %[[OUT0_F64:.*]] = call @expm1(%[[IN0_F64]]) : (f64) -> f64
 // CHECK:           %[[VAL_14:.*]] = vector.insert %[[OUT0_F64]], %[[CVD]] [0] : f64 into vector<2xf64>
 // CHECK:           %[[IN1_F64:.*]] = vector.extract %[[VAL_1]][1] : vector<2xf64>
 // CHECK:           %[[OUT1_F64:.*]] = call @expm1(%[[IN1_F64]]) : (f64) -> f64
 // CHECK:           %[[VAL_17:.*]] = vector.insert %[[OUT1_F64]], %[[VAL_14]] [1] : f64 into vector<2xf64>
 // CHECK:           return %[[VAL_11]], %[[VAL_17]] : vector<2xf32>, vector<2xf64>
 // CHECK:         }

 func @expm1_multidim_vec_caller(%float: vector<2x2xf32>) -> (vector<2x2xf32>) {
   %result = math.expm1 %float : vector<2x2xf32>
   return %result : vector<2x2xf32>
 }
 // CHECK-LABEL:   func @expm1_multidim_vec_caller(
 // CHECK-SAME:                           %[[VAL:.*]]: vector<2x2xf32>
 // CHECK-DAG:       %[[CVF:.*]] = arith.constant dense<0.000000e+00> : vector<2x2xf32>
 // CHECK:           %[[IN0_0_F32:.*]] = vector.extract %[[VAL]][0, 0] : vector<2x2xf32>
 // CHECK:           %[[OUT0_0_F32:.*]] = call @expm1f(%[[IN0_0_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_1:.*]] = vector.insert %[[OUT0_0_F32]], %[[CVF]] [0, 0] : f32 into vector<2x2xf32>
 // CHECK:           %[[IN0_1_F32:.*]] = vector.extract %[[VAL]][0, 1] : vector<2x2xf32>
 // CHECK:           %[[OUT0_1_F32:.*]] = call @expm1f(%[[IN0_1_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_2:.*]] = vector.insert %[[OUT0_1_F32]], %[[VAL_1]] [0, 1] : f32 into vector<2x2xf32>
 // CHECK:           %[[IN1_0_F32:.*]] = vector.extract %[[VAL]][1, 0] : vector<2x2xf32>
 // CHECK:           %[[OUT1_0_F32:.*]] = call @expm1f(%[[IN1_0_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_3:.*]] = vector.insert %[[OUT1_0_F32]], %[[VAL_2]] [1, 0] : f32 into vector<2x2xf32>
 // CHECK:           %[[IN1_1_F32:.*]] = vector.extract %[[VAL]][1, 1] : vector<2x2xf32>
 // CHECK:           %[[OUT1_1_F32:.*]] = call @expm1f(%[[IN1_1_F32]]) : (f32) -> f32
 // CHECK:           %[[VAL_4:.*]] = vector.insert %[[OUT1_1_F32]], %[[VAL_3]] [1, 1] : f32 into vector<2x2xf32>
 // CHECK:           return %[[VAL_4]] : vector<2x2xf32>
 // CHECK:         }
	// RUN: mlir-opt %s -convert-math-to-libm -canonicalize \| FileCheck %s

	// CHECK-DAG: @erf(f64) -> f64
	// CHECK-DAG: @erff(f32) -> f32
	// CHECK-DAG: @expm1(f64) -> f64
	// CHECK-DAG: @expm1f(f32) -> f32
	// CHECK-DAG: @atan2(f64, f64) -> f64
	// CHECK-DAG: @atan2f(f32, f32) -> f32
	// CHECK-DAG: @tanh(f64) -> f64
	// CHECK-DAG: @tanhf(f32) -> f32

	// CHECK-LABEL: func @tanh_caller
	// CHECK-SAME: %[[FLOAT:.*]]: f32
	// CHECK-SAME: %[[DOUBLE:.*]]: f64
	func @tanh_caller(%float: f32, %double: f64) -> (f32, f64) {
	// CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @tanhf(%[[FLOAT]]) : (f32) -> f32
	%float_result = math.tanh %float : f32
	// CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @tanh(%[[DOUBLE]]) : (f64) -> f64
	%double_result = math.tanh %double : f64
	// CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
	return %float_result, %double_result : f32, f64
	}


	// CHECK-LABEL: func @atan2_caller
	// CHECK-SAME: %[[FLOAT:.*]]: f32
	// CHECK-SAME: %[[DOUBLE:.*]]: f64
	func @atan2_caller(%float: f32, %double: f64) -> (f32, f64) {
	// CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @atan2f(%[[FLOAT]], %[[FLOAT]]) : (f32, f32) -> f32
	%float_result = math.atan2 %float, %float : f32
	// CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @atan2(%[[DOUBLE]], %[[DOUBLE]]) : (f64, f64) -> f64
	%double_result = math.atan2 %double, %double : f64
	// CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
	return %float_result, %double_result : f32, f64
	}

	// CHECK-LABEL: func @erf_caller
	// CHECK-SAME: %[[FLOAT:.*]]: f32
	// CHECK-SAME: %[[DOUBLE:.*]]: f64
	func @erf_caller(%float: f32, %double: f64) -> (f32, f64) {
	// CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @erff(%[[FLOAT]]) : (f32) -> f32
	%float_result = math.erf %float : f32
	// CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @erf(%[[DOUBLE]]) : (f64) -> f64
	%double_result = math.erf %double : f64
	// CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
	return %float_result, %double_result : f32, f64
	}

	// CHECK-LABEL: func @expm1_caller
	// CHECK-SAME: %[[FLOAT:.*]]: f32
	// CHECK-SAME: %[[DOUBLE:.*]]: f64
	func @expm1_caller(%float: f32, %double: f64) -> (f32, f64) {
	// CHECK-DAG: %[[FLOAT_RESULT:.*]] = call @expm1f(%[[FLOAT]]) : (f32) -> f32
	%float_result = math.expm1 %float : f32
	// CHECK-DAG: %[[DOUBLE_RESULT:.*]] = call @expm1(%[[DOUBLE]]) : (f64) -> f64
	%double_result = math.expm1 %double : f64
	// CHECK: return %[[FLOAT_RESULT]], %[[DOUBLE_RESULT]]
	return %float_result, %double_result : f32, f64
	}

	func @expm1_vec_caller(%float: vector<2xf32>, %double: vector<2xf64>) -> (vector<2xf32>, vector<2xf64>) {
	%float_result = math.expm1 %float : vector<2xf32>
	%double_result = math.expm1 %double : vector<2xf64>
	return %float_result, %double_result : vector<2xf32>, vector<2xf64>
	}
	// CHECK-LABEL: func @expm1_vec_caller(
	// CHECK-SAME: %[[VAL_0:.*]]: vector<2xf32>,
	// CHECK-SAME: %[[VAL_1:.*]]: vector<2xf64>) -> (vector<2xf32>, vector<2xf64>) {
	// CHECK-DAG: %[[CVF:.*]] = arith.constant dense<0.000000e+00> : vector<2xf32>
	// CHECK-DAG: %[[CVD:.*]] = arith.constant dense<0.000000e+00> : vector<2xf64>
	// CHECK: %[[IN0_F32:.*]] = vector.extract %[[VAL_0]][0] : vector<2xf32>
	// CHECK: %[[OUT0_F32:.*]] = call @expm1f(%[[IN0_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_8:.*]] = vector.insert %[[OUT0_F32]], %[[CVF]] [0] : f32 into vector<2xf32>
	// CHECK: %[[IN1_F32:.*]] = vector.extract %[[VAL_0]][1] : vector<2xf32>
	// CHECK: %[[OUT1_F32:.*]] = call @expm1f(%[[IN1_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_11:.*]] = vector.insert %[[OUT1_F32]], %[[VAL_8]] [1] : f32 into vector<2xf32>
	// CHECK: %[[IN0_F64:.*]] = vector.extract %[[VAL_1]][0] : vector<2xf64>
	// CHECK: %[[OUT0_F64:.*]] = call @expm1(%[[IN0_F64]]) : (f64) -> f64
	// CHECK: %[[VAL_14:.*]] = vector.insert %[[OUT0_F64]], %[[CVD]] [0] : f64 into vector<2xf64>
	// CHECK: %[[IN1_F64:.*]] = vector.extract %[[VAL_1]][1] : vector<2xf64>
	// CHECK: %[[OUT1_F64:.*]] = call @expm1(%[[IN1_F64]]) : (f64) -> f64
	// CHECK: %[[VAL_17:.*]] = vector.insert %[[OUT1_F64]], %[[VAL_14]] [1] : f64 into vector<2xf64>
	// CHECK: return %[[VAL_11]], %[[VAL_17]] : vector<2xf32>, vector<2xf64>
	// CHECK: }

	func @expm1_multidim_vec_caller(%float: vector<2x2xf32>) -> (vector<2x2xf32>) {
	%result = math.expm1 %float : vector<2x2xf32>
	return %result : vector<2x2xf32>
	}
	// CHECK-LABEL: func @expm1_multidim_vec_caller(
	// CHECK-SAME: %[[VAL:.*]]: vector<2x2xf32>
	// CHECK-DAG: %[[CVF:.*]] = arith.constant dense<0.000000e+00> : vector<2x2xf32>
	// CHECK: %[[IN0_0_F32:.*]] = vector.extract %[[VAL]][0, 0] : vector<2x2xf32>
	// CHECK: %[[OUT0_0_F32:.*]] = call @expm1f(%[[IN0_0_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_1:.*]] = vector.insert %[[OUT0_0_F32]], %[[CVF]] [0, 0] : f32 into vector<2x2xf32>
	// CHECK: %[[IN0_1_F32:.*]] = vector.extract %[[VAL]][0, 1] : vector<2x2xf32>
	// CHECK: %[[OUT0_1_F32:.*]] = call @expm1f(%[[IN0_1_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_2:.*]] = vector.insert %[[OUT0_1_F32]], %[[VAL_1]] [0, 1] : f32 into vector<2x2xf32>
	// CHECK: %[[IN1_0_F32:.*]] = vector.extract %[[VAL]][1, 0] : vector<2x2xf32>
	// CHECK: %[[OUT1_0_F32:.*]] = call @expm1f(%[[IN1_0_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_3:.*]] = vector.insert %[[OUT1_0_F32]], %[[VAL_2]] [1, 0] : f32 into vector<2x2xf32>
	// CHECK: %[[IN1_1_F32:.*]] = vector.extract %[[VAL]][1, 1] : vector<2x2xf32>
	// CHECK: %[[OUT1_1_F32:.*]] = call @expm1f(%[[IN1_1_F32]]) : (f32) -> f32
	// CHECK: %[[VAL_4:.*]] = vector.insert %[[OUT1_1_F32]], %[[VAL_3]] [1, 1] : f32 into vector<2x2xf32>
	// CHECK: return %[[VAL_4]] : vector<2x2xf32>
	// CHECK: }