// RUN: mlir-opt -split-input-file -convert-arith-to-spirv=enable-fast-math -verify-diagnostics %s | FileCheck %s module attributes { spirv.target_env = #spirv.target_env<#spirv.vce, #spirv.resource_limits<>> } { // CHECK-LABEL: @cmpf_ordered // CHECK-SAME: %[[LHS:.+]]: f32, %[[RHS:.+]]: f32 func.func @cmpf_ordered(%arg0 : f32, %arg1 : f32) -> i1 { // CHECK: %[[T:.+]] = spirv.Constant true %0 = arith.cmpf ord, %arg0, %arg1 : f32 // CHECK: return %[[T]] return %0: i1 } // CHECK-LABEL: @cmpf_unordered // CHECK-SAME: %[[LHS:.+]]: vector<4xf32>, %[[RHS:.+]]: vector<4xf32> func.func @cmpf_unordered(%arg0 : vector<4xf32>, %arg1 : vector<4xf32>) -> vector<4xi1> { // CHECK: %[[F:.+]] = spirv.Constant dense %0 = arith.cmpf uno, %arg0, %arg1 : vector<4xf32> // CHECK: return %[[F]] return %0: vector<4xi1> } } // end module // ----- module attributes { spirv.target_env = #spirv.target_env<#spirv.vce, #spirv.resource_limits<>> } { // CHECK-LABEL: @minimumf // CHECK-SAME: %[[LHS:.+]]: f32, %[[RHS:.+]]: f32 func.func @minimumf(%arg0 : f32, %arg1 : f32) -> f32 { // CHECK: %[[F:.+]] = spirv.GL.FMin %[[LHS]], %[[RHS]] %0 = arith.minimumf %arg0, %arg1 : f32 // CHECK: return %[[F]] return %0: f32 } // CHECK-LABEL: @maximumf // CHECK-SAME: %[[LHS:.+]]: vector<4xf32>, %[[RHS:.+]]: vector<4xf32> func.func @maximumf(%arg0 : vector<4xf32>, %arg1 : vector<4xf32>) -> vector<4xf32> { // CHECK: %[[F:.+]] = spirv.GL.FMax %[[LHS]], %[[RHS]] %0 = arith.maximumf %arg0, %arg1 : vector<4xf32> // CHECK: return %[[F]] return %0: vector<4xf32> } // CHECK-LABEL: @minnumf // CHECK-SAME: %[[LHS:.+]]: f32, %[[RHS:.+]]: f32 func.func @minnumf(%arg0 : f32, %arg1 : f32) -> f32 { // CHECK: %[[F:.+]] = spirv.GL.FMin %[[LHS]], %[[RHS]] %0 = arith.minnumf %arg0, %arg1 : f32 // CHECK: return %[[F]] return %0: f32 } // CHECK-LABEL: @maxnumf // CHECK-SAME: %[[LHS:.+]]: vector<4xf32>, %[[RHS:.+]]: vector<4xf32> func.func @maxnumf(%arg0 : vector<4xf32>, %arg1 : vector<4xf32>) -> vector<4xf32> { // CHECK: %[[F:.+]] = spirv.GL.FMax %[[LHS]], %[[RHS]] %0 = arith.maxnumf %arg0, %arg1 : vector<4xf32> // CHECK: return %[[F]] return %0: vector<4xf32> } } // end module