github.com/jingcheng-WU/gonum@v0.9.1-0.20210323123734-f1a2a11a8f7b/blas/cblas128/conv_symmetric_test.go (about) 1 // Code generated by "go generate github.com/jingcheng-WU/gonum/blas”; DO NOT EDIT. 2 3 // Copyright ©2015 The Gonum Authors. All rights reserved. 4 // Use of this source code is governed by a BSD-style 5 // license that can be found in the LICENSE file. 6 7 package cblas128 8 9 import ( 10 math "math/cmplx" 11 "testing" 12 13 "github.com/jingcheng-WU/gonum/blas" 14 ) 15 16 func newSymmetricFrom(a SymmetricCols) Symmetric { 17 t := Symmetric{ 18 N: a.N, 19 Stride: a.N, 20 Data: make([]complex128, a.N*a.N), 21 Uplo: a.Uplo, 22 } 23 t.From(a) 24 return t 25 } 26 27 func (m Symmetric) n() int { return m.N } 28 func (m Symmetric) at(i, j int) complex128 { 29 if m.Uplo == blas.Lower && i < j && j < m.N { 30 i, j = j, i 31 } 32 if m.Uplo == blas.Upper && i > j { 33 i, j = j, i 34 } 35 return m.Data[i*m.Stride+j] 36 } 37 func (m Symmetric) uplo() blas.Uplo { return m.Uplo } 38 39 func newSymmetricColsFrom(a Symmetric) SymmetricCols { 40 t := SymmetricCols{ 41 N: a.N, 42 Stride: a.N, 43 Data: make([]complex128, a.N*a.N), 44 Uplo: a.Uplo, 45 } 46 t.From(a) 47 return t 48 } 49 50 func (m SymmetricCols) n() int { return m.N } 51 func (m SymmetricCols) at(i, j int) complex128 { 52 if m.Uplo == blas.Lower && i < j { 53 i, j = j, i 54 } 55 if m.Uplo == blas.Upper && i > j && i < m.N { 56 i, j = j, i 57 } 58 return m.Data[i+j*m.Stride] 59 } 60 func (m SymmetricCols) uplo() blas.Uplo { return m.Uplo } 61 62 type symmetric interface { 63 n() int 64 at(i, j int) complex128 65 uplo() blas.Uplo 66 } 67 68 func sameSymmetric(a, b symmetric) bool { 69 an := a.n() 70 bn := b.n() 71 if an != bn { 72 return false 73 } 74 if a.uplo() != b.uplo() { 75 return false 76 } 77 for i := 0; i < an; i++ { 78 for j := 0; j < an; j++ { 79 if a.at(i, j) != b.at(i, j) || math.IsNaN(a.at(i, j)) != math.IsNaN(b.at(i, j)) { 80 return false 81 } 82 } 83 } 84 return true 85 } 86 87 var symmetricTests = []Symmetric{ 88 {N: 3, Stride: 3, Data: []complex128{ 89 1, 2, 3, 90 4, 5, 6, 91 7, 8, 9, 92 }}, 93 {N: 3, Stride: 5, Data: []complex128{ 94 1, 2, 3, 0, 0, 95 4, 5, 6, 0, 0, 96 7, 8, 9, 0, 0, 97 }}, 98 } 99 100 func TestConvertSymmetric(t *testing.T) { 101 for _, test := range symmetricTests { 102 for _, uplo := range []blas.Uplo{blas.Upper, blas.Lower} { 103 test.Uplo = uplo 104 colmajor := newSymmetricColsFrom(test) 105 if !sameSymmetric(colmajor, test) { 106 t.Errorf("unexpected result for row major to col major conversion:\n\tgot: %#v\n\tfrom:%#v", 107 colmajor, test) 108 } 109 rowmajor := newSymmetricFrom(colmajor) 110 if !sameSymmetric(rowmajor, test) { 111 t.Errorf("unexpected result for col major to row major conversion:\n\tgot: %#v\n\twant:%#v", 112 rowmajor, test) 113 } 114 } 115 } 116 } 117 func newSymmetricBandFrom(a SymmetricBandCols) SymmetricBand { 118 t := SymmetricBand{ 119 N: a.N, 120 K: a.K, 121 Stride: a.K + 1, 122 Data: make([]complex128, a.N*(a.K+1)), 123 Uplo: a.Uplo, 124 } 125 for i := range t.Data { 126 t.Data[i] = math.NaN() 127 } 128 t.From(a) 129 return t 130 } 131 132 func (m SymmetricBand) n() (n int) { return m.N } 133 func (m SymmetricBand) at(i, j int) complex128 { 134 b := Band{ 135 Rows: m.N, Cols: m.N, 136 Stride: m.Stride, 137 Data: m.Data, 138 } 139 switch m.Uplo { 140 default: 141 panic("cblas128: bad BLAS uplo") 142 case blas.Upper: 143 b.KU = m.K 144 if i > j { 145 i, j = j, i 146 } 147 case blas.Lower: 148 b.KL = m.K 149 if i < j { 150 i, j = j, i 151 } 152 } 153 return b.at(i, j) 154 } 155 func (m SymmetricBand) bandwidth() (k int) { return m.K } 156 func (m SymmetricBand) uplo() blas.Uplo { return m.Uplo } 157 158 func newSymmetricBandColsFrom(a SymmetricBand) SymmetricBandCols { 159 t := SymmetricBandCols{ 160 N: a.N, 161 K: a.K, 162 Stride: a.K + 1, 163 Data: make([]complex128, a.N*(a.K+1)), 164 Uplo: a.Uplo, 165 } 166 for i := range t.Data { 167 t.Data[i] = math.NaN() 168 } 169 t.From(a) 170 return t 171 } 172 173 func (m SymmetricBandCols) n() (n int) { return m.N } 174 func (m SymmetricBandCols) at(i, j int) complex128 { 175 b := BandCols{ 176 Rows: m.N, Cols: m.N, 177 Stride: m.Stride, 178 Data: m.Data, 179 } 180 switch m.Uplo { 181 default: 182 panic("cblas128: bad BLAS uplo") 183 case blas.Upper: 184 b.KU = m.K 185 if i > j { 186 i, j = j, i 187 } 188 case blas.Lower: 189 b.KL = m.K 190 if i < j { 191 i, j = j, i 192 } 193 } 194 return b.at(i, j) 195 } 196 func (m SymmetricBandCols) bandwidth() (k int) { return m.K } 197 func (m SymmetricBandCols) uplo() blas.Uplo { return m.Uplo } 198 199 type symmetricBand interface { 200 n() (n int) 201 at(i, j int) complex128 202 bandwidth() (k int) 203 uplo() blas.Uplo 204 } 205 206 func sameSymmetricBand(a, b symmetricBand) bool { 207 an := a.n() 208 bn := b.n() 209 if an != bn { 210 return false 211 } 212 if a.uplo() != b.uplo() { 213 return false 214 } 215 ak := a.bandwidth() 216 bk := b.bandwidth() 217 if ak != bk { 218 return false 219 } 220 for i := 0; i < an; i++ { 221 for j := 0; j < an; j++ { 222 if a.at(i, j) != b.at(i, j) || math.IsNaN(a.at(i, j)) != math.IsNaN(b.at(i, j)) { 223 return false 224 } 225 } 226 } 227 return true 228 } 229 230 var symmetricBandTests = []SymmetricBand{ 231 {N: 3, K: 0, Stride: 1, Uplo: blas.Upper, Data: []complex128{ 232 1, 233 2, 234 3, 235 }}, 236 {N: 3, K: 0, Stride: 1, Uplo: blas.Lower, Data: []complex128{ 237 1, 238 2, 239 3, 240 }}, 241 {N: 3, K: 1, Stride: 2, Uplo: blas.Upper, Data: []complex128{ 242 1, 2, 243 3, 4, 244 5, -1, 245 }}, 246 {N: 3, K: 1, Stride: 2, Uplo: blas.Lower, Data: []complex128{ 247 -1, 1, 248 2, 3, 249 4, 5, 250 }}, 251 {N: 3, K: 2, Stride: 3, Uplo: blas.Upper, Data: []complex128{ 252 1, 2, 3, 253 4, 5, -1, 254 6, -2, -3, 255 }}, 256 {N: 3, K: 2, Stride: 3, Uplo: blas.Lower, Data: []complex128{ 257 -2, -1, 1, 258 -3, 2, 4, 259 3, 5, 6, 260 }}, 261 262 {N: 3, K: 0, Stride: 5, Uplo: blas.Upper, Data: []complex128{ 263 1, 0, 0, 0, 0, 264 2, 0, 0, 0, 0, 265 3, 0, 0, 0, 0, 266 }}, 267 {N: 3, K: 0, Stride: 5, Uplo: blas.Lower, Data: []complex128{ 268 1, 0, 0, 0, 0, 269 2, 0, 0, 0, 0, 270 3, 0, 0, 0, 0, 271 }}, 272 {N: 3, K: 1, Stride: 5, Uplo: blas.Upper, Data: []complex128{ 273 1, 2, 0, 0, 0, 274 3, 4, 0, 0, 0, 275 5, -1, 0, 0, 0, 276 }}, 277 {N: 3, K: 1, Stride: 5, Uplo: blas.Lower, Data: []complex128{ 278 -1, 1, 0, 0, 0, 279 2, 3, 0, 0, 0, 280 4, 5, 0, 0, 0, 281 }}, 282 {N: 3, K: 2, Stride: 5, Uplo: blas.Upper, Data: []complex128{ 283 1, 2, 3, 0, 0, 284 4, 5, -1, 0, 0, 285 6, -2, -3, 0, 0, 286 }}, 287 {N: 3, K: 2, Stride: 5, Uplo: blas.Lower, Data: []complex128{ 288 -2, -1, 1, 0, 0, 289 -3, 2, 4, 0, 0, 290 3, 5, 6, 0, 0, 291 }}, 292 } 293 294 func TestConvertSymBand(t *testing.T) { 295 for _, test := range symmetricBandTests { 296 colmajor := newSymmetricBandColsFrom(test) 297 if !sameSymmetricBand(colmajor, test) { 298 t.Errorf("unexpected result for row major to col major conversion:\n\tgot: %#v\n\tfrom:%#v", 299 colmajor, test) 300 } 301 rowmajor := newSymmetricBandFrom(colmajor) 302 if !sameSymmetricBand(rowmajor, test) { 303 t.Errorf("unexpected result for col major to row major conversion:\n\tgot: %#v\n\twant:%#v", 304 rowmajor, test) 305 } 306 } 307 }