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1// RUN: mlir-opt %s | mlir-opt | FileCheck %s2// RUN: mlir-opt %s --mlir-print-op-generic | mlir-opt | FileCheck %s3 4 5// CHECK-LABEL: func @ops(6// CHECK-SAME:            %[[F:.*]]: f32) {7func.func @ops(%f: f32) {8  // CHECK: complex.constant [1.{{.*}}, -1.{{.*}}] : complex<f64>9  %cst_f64 = complex.constant [0.1, -1.0] : complex<f64>10 11  // CHECK: complex.constant [1.{{.*}} : f32, -1.{{.*}} : f32] : complex<f32>12  %cst_f32 = complex.constant [0.1 : f32, -1.0 : f32] : complex<f32>13 14  // CHECK: complex.constant [true, false] : complex<i1>15  %cst_i1 = complex.constant [1 : i1, 0 : i1] : complex<i1>16 17  // CHECK: %[[C:.*]] = complex.create %[[F]], %[[F]] : complex<f32>18  %complex = complex.create %f, %f : complex<f32>19 20  // CHECK: complex.re %[[C]] : complex<f32>21  %real = complex.re %complex : complex<f32>22 23  // CHECK: complex.im %[[C]] : complex<f32>24  %imag = complex.im %complex : complex<f32>25 26  // CHECK: complex.abs %[[C]] : complex<f32>27  %abs = complex.abs %complex : complex<f32>28 29  // CHECK: complex.add %[[C]], %[[C]] : complex<f32>30  %sum = complex.add %complex, %complex : complex<f32>31 32  // CHECK: complex.cos %[[C]] : complex<f32>33  %cos = complex.cos %complex : complex<f32>34 35  // CHECK: complex.div %[[C]], %[[C]] : complex<f32>36  %div = complex.div %complex, %complex : complex<f32>37 38  // CHECK: complex.eq %[[C]], %[[C]] : complex<f32>39  %eq = complex.eq %complex, %complex : complex<f32>40 41  // CHECK: complex.exp %[[C]] : complex<f32>42  %exp = complex.exp %complex : complex<f32>43 44  // CHECK: complex.expm1 %[[C]] : complex<f32>45  %expm1 = complex.expm1 %complex : complex<f32>46 47  // CHECK: complex.log %[[C]] : complex<f32>48  %log = complex.log %complex : complex<f32>49 50  // CHECK: complex.log1p %[[C]] : complex<f32>51  %log1p = complex.log1p %complex : complex<f32>52 53  // CHECK: complex.mul %[[C]], %[[C]] : complex<f32>54  %prod = complex.mul %complex, %complex : complex<f32>55 56  // CHECK: complex.neg %[[C]] : complex<f32>57  %neg = complex.neg %complex : complex<f32>58 59  // CHECK: complex.neq %[[C]], %[[C]] : complex<f32>60  %neq = complex.neq %complex, %complex : complex<f32>61 62  // CHECK: complex.sign %[[C]] : complex<f32>63  %sign = complex.sign %complex : complex<f32>64 65  // CHECK: complex.sin %[[C]] : complex<f32>66  %sin = complex.sin %complex : complex<f32>67 68  // CHECK: complex.sub %[[C]], %[[C]] : complex<f32>69  %diff = complex.sub %complex, %complex : complex<f32>70 71  // CHECK: complex.tanh %[[C]] : complex<f32>72  %tanh = complex.tanh %complex : complex<f32>73 74  // CHECK: complex.pow %[[C]], %[[C]] : complex<f32>75  %pow = complex.pow %complex, %complex : complex<f32>76 77  // CHECK: complex.sqrt %[[C]] : complex<f32>78  %sqrt = complex.sqrt %complex : complex<f32>79 80  // CHECK: complex.rsqrt %[[C]] : complex<f32>81  %rsqrt = complex.rsqrt %complex : complex<f32>82 83  // CHECK: complex.atan2 %[[C]], %[[C]] : complex<f32>84  %atan2 = complex.atan2 %complex, %complex : complex<f32>85 86  // CHECK: complex.tan %[[C]] : complex<f32>87  %tan = complex.tan %complex : complex<f32>88 89  // CHECK: complex.bitcast %[[C]]90  %i64 = complex.bitcast %complex : complex<f32> to i6491 92  return93}94