// RUN: mlir-opt %s -test-math-algebraic-simplification | FileCheck %s --dump-input=always // CHECK-LABEL: @pow_noop func @pow_noop(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: return %arg0, %arg1 %c = arith.constant 1.0 : f32 %v = arith.constant dense <1.0> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> } // CHECK-LABEL: @pow_square func @pow_square(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: %[[SCALAR:.*]] = arith.mulf %arg0, %arg0 // CHECK: %[[VECTOR:.*]] = arith.mulf %arg1, %arg1 // CHECK: return %[[SCALAR]], %[[VECTOR]] %c = arith.constant 2.0 : f32 %v = arith.constant dense <2.0> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> } // CHECK-LABEL: @pow_cube func @pow_cube(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: %[[TMP_S:.*]] = arith.mulf %arg0, %arg0 // CHECK: %[[SCALAR:.*]] = arith.mulf %arg0, %[[TMP_S]] // CHECK: %[[TMP_V:.*]] = arith.mulf %arg1, %arg1 // CHECK: %[[VECTOR:.*]] = arith.mulf %arg1, %[[TMP_V]] // CHECK: return %[[SCALAR]], %[[VECTOR]] %c = arith.constant 3.0 : f32 %v = arith.constant dense <3.0> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> } // CHECK-LABEL: @pow_recip func @pow_recip(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: %[[CST_S:.*]] = arith.constant 1.0{{.*}} : f32 // CHECK: %[[CST_V:.*]] = arith.constant dense<1.0{{.*}}> : vector<4xf32> // CHECK: %[[SCALAR:.*]] = arith.divf %[[CST_S]], %arg0 // CHECK: %[[VECTOR:.*]] = arith.divf %[[CST_V]], %arg1 // CHECK: return %[[SCALAR]], %[[VECTOR]] %c = arith.constant -1.0 : f32 %v = arith.constant dense <-1.0> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> } // CHECK-LABEL: @pow_sqrt func @pow_sqrt(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: %[[SCALAR:.*]] = math.sqrt %arg0 // CHECK: %[[VECTOR:.*]] = math.sqrt %arg1 // CHECK: return %[[SCALAR]], %[[VECTOR]] %c = arith.constant 0.5 : f32 %v = arith.constant dense <0.5> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> } // CHECK-LABEL: @pow_rsqrt func @pow_rsqrt(%arg0: f32, %arg1 : vector<4xf32>) -> (f32, vector<4xf32>) { // CHECK: %[[SCALAR:.*]] = math.rsqrt %arg0 // CHECK: %[[VECTOR:.*]] = math.rsqrt %arg1 // CHECK: return %[[SCALAR]], %[[VECTOR]] %c = arith.constant -0.5 : f32 %v = arith.constant dense <-0.5> : vector<4xf32> %0 = math.powf %arg0, %c : f32 %1 = math.powf %arg1, %v : vector<4xf32> return %0, %1 : f32, vector<4xf32> }