github.com/jingcheng-WU/gonum@v0.9.1-0.20210323123734-f1a2a11a8f7b/graph/network/diffusion_test.go (about) 1 // Copyright ©2017 The Gonum Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package network 6 7 import ( 8 "math" 9 "testing" 10 11 "github.com/jingcheng-WU/gonum/floats/scalar" 12 "github.com/jingcheng-WU/gonum/graph" 13 "github.com/jingcheng-WU/gonum/graph/simple" 14 "github.com/jingcheng-WU/gonum/graph/spectral" 15 ) 16 17 var diffuseTests = []struct { 18 g []set 19 h map[int64]float64 20 t float64 21 22 wantTol float64 23 want map[bool]map[int64]float64 24 }{ 25 { 26 g: grid(5), 27 h: map[int64]float64{0: 1}, 28 t: 0.1, 29 30 wantTol: 1e-9, 31 want: map[bool]map[int64]float64{ 32 false: { 33 A: 0.826684055, B: 0.078548060, C: 0.003858840, D: 0.000127487, E: 0.000003233, 34 F: 0.078548060, G: 0.007463308, H: 0.000366651, I: 0.000012113, J: 0.000000307, 35 K: 0.003858840, L: 0.000366651, M: 0.000018012, N: 0.000000595, O: 0.000000015, 36 P: 0.000127487, Q: 0.000012113, R: 0.000000595, S: 0.000000020, T: 0.000000000, 37 U: 0.000003233, V: 0.000000307, W: 0.000000015, X: 0.000000000, Y: 0.000000000, 38 }, 39 true: { 40 A: 0.9063462486, B: 0.0369774705, C: 0.0006161414, D: 0.0000068453, E: 0.0000000699, 41 F: 0.0369774705, G: 0.0010670895, H: 0.0000148186, I: 0.0000001420, J: 0.0000000014, 42 K: 0.0006161414, L: 0.0000148186, M: 0.0000001852, N: 0.0000000016, O: 0.0000000000, 43 P: 0.0000068453, Q: 0.0000001420, R: 0.0000000016, S: 0.0000000000, T: 0.0000000000, 44 U: 0.0000000699, V: 0.0000000014, W: 0.0000000000, X: 0.0000000000, Y: 0.0000000000, 45 }, 46 }, 47 }, 48 { 49 g: grid(5), 50 h: map[int64]float64{0: 1}, 51 t: 1, 52 53 wantTol: 1e-9, 54 want: map[bool]map[int64]float64{ 55 false: { 56 A: 0.2743435076, B: 0.1615920872, C: 0.0639346641, D: 0.0188054933, E: 0.0051023569, 57 F: 0.1615920872, G: 0.0951799548, H: 0.0376583937, I: 0.0110766934, J: 0.0030053582, 58 K: 0.0639346641, L: 0.0376583937, M: 0.0148997194, N: 0.0043825455, O: 0.0011890840, 59 P: 0.0188054933, Q: 0.0110766934, R: 0.0043825455, S: 0.0012890649, T: 0.0003497525, 60 U: 0.0051023569, V: 0.0030053582, W: 0.0011890840, X: 0.0003497525, Y: 0.0000948958, 61 }, 62 true: { 63 A: 0.4323917545, B: 0.1660487336, C: 0.0270298904, D: 0.0029720194, E: 0.0003007247, 64 F: 0.1660487336, G: 0.0463974679, H: 0.0063556078, I: 0.0006056850, J: 0.0000589574, 65 K: 0.0270298904, L: 0.0063556078, M: 0.0007860810, N: 0.0000691647, O: 0.0000065586, 66 P: 0.0029720194, Q: 0.0006056850, R: 0.0000691647, S: 0.0000057466, T: 0.0000005475, 67 U: 0.0003007247, V: 0.0000589574, W: 0.0000065586, X: 0.0000005475, Y: 0.0000000555, 68 }, 69 }, 70 }, 71 { 72 g: grid(5), 73 h: map[int64]float64{0: 1}, 74 t: 10, 75 76 wantTol: 1e-9, 77 want: map[bool]map[int64]float64{ 78 false: { 79 A: 0.0432375924, B: 0.0426071834, C: 0.0415872351, D: 0.0405673794, E: 0.0399371202, 80 F: 0.0426071834, G: 0.0419859658, H: 0.0409808885, I: 0.0399759024, J: 0.0393548325, 81 K: 0.0415872351, L: 0.0409808885, M: 0.0399998711, N: 0.0390189428, O: 0.0384127403, 82 P: 0.0405673794, Q: 0.0399759024, R: 0.0390189428, S: 0.0380620700, T: 0.0374707336, 83 U: 0.0399371202, V: 0.0393548325, W: 0.0384127403, X: 0.0374707336, Y: 0.0368885843, 84 }, 85 true: { 86 A: 0.0532814862, B: 0.0594280160, C: 0.0462076361, D: 0.0330529557, E: 0.0211688130, 87 F: 0.0594280160, G: 0.0612529898, H: 0.0462850376, I: 0.0319891593, J: 0.0213123519, 88 K: 0.0462076361, L: 0.0462850376, M: 0.0340410963, N: 0.0229646704, O: 0.0152763556, 89 P: 0.0330529557, Q: 0.0319891593, R: 0.0229646704, S: 0.0153031853, T: 0.0103681461, 90 U: 0.0211688130, V: 0.0213123519, W: 0.0152763556, X: 0.0103681461, Y: 0.0068893147, 91 }, 92 }, 93 }, 94 { 95 g: grid(5), 96 h: func() map[int64]float64 { 97 m := make(map[int64]float64, 25) 98 for i := int64(A); i <= Y; i++ { 99 m[i] = 1 100 } 101 return m 102 }(), 103 t: 1, // FIXME(kortschak): Low t used due to instability in mat.Exp. 104 105 wantTol: 1e-1, // FIXME(kortschak): High tolerance used due to instability in mat.Exp. 106 want: map[bool]map[int64]float64{ 107 false: { 108 A: 1, B: 1, C: 1, D: 1, E: 1, 109 F: 1, G: 1, H: 1, I: 1, J: 1, 110 K: 1, L: 1, M: 1, N: 1, O: 1, 111 P: 1, Q: 1, R: 1, S: 1, T: 1, 112 U: 1, V: 1, W: 1, X: 1, Y: 1, 113 }, 114 true: { 115 // Output from the python implementation associated with doi:10.1371/journal.pcbi.1005598. 116 A: 0.98264450473308107, B: 1.002568278028513, C: 0.9958911385307706, D: 1.002568278028513, E: 0.98264450473308107, 117 F: 1.002568278028513, G: 1.0075291695232433, H: 1.0038067383118021, I: 1.0075291695232433, J: 1.002568278028513, 118 K: 0.9958911385307706, L: 1.0038067383118021, M: 1.0001850837547184, N: 1.0038067383118021, O: 0.9958911385307706, 119 P: 1.002568278028513, Q: 1.0075291695232433, R: 1.0038067383118021, S: 1.0075291695232433, T: 1.002568278028513, 120 U: 0.98264450473308107, V: 1.002568278028513, W: 0.9958911385307706, X: 1.002568278028513, Y: 0.98264450473308107, 121 }, 122 }, 123 }, 124 { 125 g: []set{ 126 A: linksTo(B, C), 127 B: linksTo(D), 128 C: nil, 129 D: nil, 130 E: linksTo(F), 131 F: nil, 132 }, 133 h: map[int64]float64{A: 1, E: 10}, 134 t: 0.1, 135 136 wantTol: 1e-9, 137 want: map[bool]map[int64]float64{ 138 false: { 139 A: 0.8270754166, B: 0.0822899600, C: 0.0863904410, D: 0.0042441824, E: 9.0936537654, F: 0.9063462346, 140 }, 141 true: { 142 A: 0.9082331512, B: 0.0453361743, C: 0.0640616812, D: 0.0016012085, E: 9.0936537654, F: 0.9063462346, 143 }, 144 }, 145 }, 146 } 147 148 func TestDiffuse(t *testing.T) { 149 for i, test := range diffuseTests { 150 g := simple.NewUndirectedGraph() 151 for u, e := range test.g { 152 // Add nodes that are not defined by an edge. 153 if g.Node(int64(u)) == nil { 154 g.AddNode(simple.Node(u)) 155 } 156 for v := range e { 157 g.SetEdge(simple.Edge{F: simple.Node(u), T: simple.Node(v)}) 158 } 159 } 160 for j, lfn := range []func(g graph.Undirected) spectral.Laplacian{spectral.NewLaplacian, spectral.NewSymNormLaplacian} { 161 normalize := j == 1 162 var wantTemp float64 163 for _, v := range test.h { 164 wantTemp += v 165 } 166 got := Diffuse(nil, test.h, lfn(g), test.t) 167 prec := 1 - int(math.Log10(test.wantTol)) 168 for n := range test.g { 169 if !scalar.EqualWithinAbsOrRel(got[int64(n)], test.want[normalize][int64(n)], test.wantTol, test.wantTol) { 170 t.Errorf("unexpected Diffuse result for test %d with normalize=%t:\ngot: %v\nwant:%v", 171 i, normalize, orderedFloats(got, prec), orderedFloats(test.want[normalize], prec)) 172 break 173 } 174 } 175 176 if j == 1 { 177 continue 178 } 179 180 var gotTemp float64 181 for _, v := range got { 182 gotTemp += v 183 } 184 gotTemp /= float64(len(got)) 185 wantTemp /= float64(len(got)) 186 if !scalar.EqualWithinAbsOrRel(gotTemp, wantTemp, test.wantTol, test.wantTol) { 187 t.Errorf("unexpected total heat for test %d with normalize=%t: got:%v want:%v", 188 i, normalize, gotTemp, wantTemp) 189 } 190 } 191 } 192 } 193 194 var diffuseToEquilibriumTests = []struct { 195 g []set 196 builder builder 197 h map[int64]float64 198 damp float64 199 tol float64 200 iter int 201 202 want map[int64]float64 203 wantOK bool 204 }{ 205 { 206 g: grid(5), 207 builder: simple.NewUndirectedGraph(), 208 h: map[int64]float64{0: 1}, 209 damp: 0.85, 210 tol: 1e-6, 211 iter: 1e4, 212 213 want: map[int64]float64{ 214 A: 0.025000, B: 0.037500, C: 0.037500, D: 0.037500, E: 0.025000, 215 F: 0.037500, G: 0.050000, H: 0.050000, I: 0.050000, J: 0.037500, 216 K: 0.037500, L: 0.050000, M: 0.050000, N: 0.050000, O: 0.037500, 217 P: 0.037500, Q: 0.050000, R: 0.050000, S: 0.050000, T: 0.037500, 218 U: 0.025000, V: 0.037500, W: 0.037500, X: 0.037500, Y: 0.025000, 219 }, 220 wantOK: true, 221 }, 222 { 223 // Example graph from http://en.wikipedia.org/wiki/File:PageRanks-Example.svg 16:17, 8 July 2009 224 g: []set{ 225 A: nil, 226 B: linksTo(C), 227 C: linksTo(B), 228 D: linksTo(A, B), 229 E: linksTo(D, B, F), 230 F: linksTo(B, E), 231 G: linksTo(B, E), 232 H: linksTo(B, E), 233 I: linksTo(B, E), 234 J: linksTo(E), 235 K: linksTo(E), 236 }, 237 builder: simple.NewDirectedGraph(), 238 h: map[int64]float64{ 239 A: 1. / 11., 240 B: 1. / 11., 241 C: 1. / 11., 242 D: 1. / 11., 243 E: 1. / 11., 244 F: 1. / 11., 245 G: 1. / 11., 246 H: 1. / 11., 247 I: 1. / 11., 248 J: 1. / 11., 249 K: 1. / 11., 250 }, 251 damp: 0.85, 252 tol: 1e-6, 253 iter: 1e4, 254 255 // This does not look like Page Rank because we do not 256 // do the random node hops. An alternative Laplacian 257 // value that does do that would replicate PageRank. This 258 // is left as an exercise for the reader. 259 want: map[int64]float64{ 260 A: 0.227273, 261 B: 0.386364, 262 C: 0.386364, 263 D: 0.000000, 264 E: 0.000000, 265 F: 0.000000, 266 G: 0.000000, 267 H: 0.000000, 268 I: 0.000000, 269 J: 0.000000, 270 K: 0.000000, 271 }, 272 wantOK: true, 273 }, 274 { 275 g: []set{ 276 A: linksTo(B, C), 277 B: linksTo(D, C), 278 C: nil, 279 D: nil, 280 E: linksTo(F), 281 F: nil, 282 }, 283 builder: simple.NewDirectedGraph(), 284 h: map[int64]float64{A: 1, E: -10}, 285 tol: 1e-6, 286 iter: 3, 287 288 want: map[int64]float64{ 289 A: 0, B: 0, C: 0.75, D: 0.25, E: 0, F: -10, 290 }, 291 wantOK: true, 292 }, 293 { 294 g: []set{ 295 A: linksTo(B, C), 296 B: linksTo(D, C), 297 C: nil, 298 D: nil, 299 E: linksTo(F), 300 F: nil, 301 }, 302 builder: simple.NewUndirectedGraph(), 303 h: map[int64]float64{A: 1, E: -10}, 304 damp: 0.85, 305 tol: 1e-6, 306 iter: 1e4, 307 308 want: map[int64]float64{ 309 A: 0.25, B: 0.375, C: 0.25, D: 0.125, E: -5, F: -5, 310 }, 311 wantOK: true, 312 }, 313 { 314 g: []set{ 315 A: linksTo(B), 316 B: linksTo(C), 317 C: nil, 318 }, 319 builder: simple.NewUndirectedGraph(), 320 h: map[int64]float64{B: 1}, 321 iter: 1, 322 tol: 1e-6, 323 want: map[int64]float64{ 324 A: 0.5, B: 0, C: 0.5, 325 }, 326 wantOK: false, 327 }, 328 { 329 g: []set{ 330 A: linksTo(B), 331 B: linksTo(C), 332 C: nil, 333 }, 334 builder: simple.NewUndirectedGraph(), 335 h: map[int64]float64{B: 1}, 336 iter: 2, 337 tol: 1e-6, 338 want: map[int64]float64{ 339 A: 0, B: 1, C: 0, 340 }, 341 wantOK: false, 342 }, 343 } 344 345 func TestDiffuseToEquilibrium(t *testing.T) { 346 for i, test := range diffuseToEquilibriumTests { 347 g := test.builder 348 for u, e := range test.g { 349 // Add nodes that are not defined by an edge. 350 if g.Node(int64(u)) == nil { 351 g.AddNode(simple.Node(u)) 352 } 353 for v := range e { 354 g.SetEdge(simple.Edge{F: simple.Node(u), T: simple.Node(v)}) 355 } 356 } 357 var wantTemp float64 358 for _, v := range test.h { 359 wantTemp += v 360 } 361 got, ok := DiffuseToEquilibrium(nil, test.h, spectral.NewRandomWalkLaplacian(g, test.damp), test.tol*test.tol, test.iter) 362 if ok != test.wantOK { 363 t.Errorf("unexpected success value for test %d: got:%t want:%t", i, ok, test.wantOK) 364 } 365 prec := -int(math.Log10(test.tol)) 366 for n := range test.g { 367 if !scalar.EqualWithinAbsOrRel(got[int64(n)], test.want[int64(n)], test.tol, test.tol) { 368 t.Errorf("unexpected DiffuseToEquilibrium result for test %d:\ngot: %v\nwant:%v", 369 i, orderedFloats(got, prec), orderedFloats(test.want, prec)) 370 break 371 } 372 } 373 374 var gotTemp float64 375 for _, v := range got { 376 gotTemp += v 377 } 378 gotTemp /= float64(len(got)) 379 wantTemp /= float64(len(got)) 380 if !scalar.EqualWithinAbsOrRel(gotTemp, wantTemp, test.tol, test.tol) { 381 t.Errorf("unexpected total heat for test %d: got:%v want:%v", 382 i, gotTemp, wantTemp) 383 } 384 } 385 } 386 387 type builder interface { 388 graph.Graph 389 graph.Builder 390 } 391 392 func grid(d int) []set { 393 dim := int64(d) 394 s := make([]set, dim*dim) 395 for i := range s { 396 s[i] = make(set) 397 } 398 for i := int64(0); i < dim*dim; i++ { 399 if i%dim != 0 { 400 s[i][i-1] = struct{}{} 401 } 402 if i/dim != 0 { 403 s[i][i-dim] = struct{}{} 404 } 405 } 406 return s 407 }