may: yetilab/matrix/test/test_matrix.yeti annotate

annotate yetilab/matrix/test/test_matrix.yeti @ 255:8043f7405eae

Add general enumerate, ensure zeros fed in to makeSparse are not retained in non-zero lists; test

author	Chris Cannam
date	Tue, 21 May 2013 21:58:34 +0100
parents	9fe3192cce38
children	f00ab8baa6d7

rev	line source
Chris@97	1
Chris@97	2 module yetilab.matrix.test.test_matrix;
Chris@97	3
Chris@97	4 mat = load yetilab.matrix.matrix;
Chris@222	5 vec = load yetilab.vector.vector;
Chris@97	6
Chris@222	7 load yetilab.vector.vectortype;
Chris@220	8 load yetilab.matrix.matrixtype;
Chris@220	9
Chris@98	10 import yeti.lang: FailureException;
Chris@98	11
Chris@158	12 { compare, compareUsing } = load yetilab.test.test;
Chris@97	13
Chris@158	14 compareMatrices = compareUsing mat.equal;
Chris@99	15
Chris@99	16 makeTests name flipper =
Chris@99	17 (constMatrix n s = flipper (mat.constMatrix n s);
Chris@99	18 zeroMatrix s = flipper (mat.zeroMatrix s);
Chris@99	19 randomMatrix s = flipper (mat.randomMatrix s);
Chris@99	20 identityMatrix s = flipper (mat.identityMatrix s);
Chris@99	21 generate f s = flipper (mat.generate f s);
Chris@218	22 newMatrix t d = flipper (mat.newMatrix t (map vec.fromList d));
Chris@97	23 [
Chris@97	24
Chris@99	25 "constMatrixEmpty-\(name)": \(
Chris@99	26 m = constMatrix 2 { rows = 0, columns = 0 };
Chris@210	27 compare (mat.size m) { columns = 0, rows = 0 }
Chris@97	28 ),
Chris@97	29
Chris@99	30 "constMatrixEmpty2-\(name)": \(
Chris@210	31 compare (mat.size (constMatrix 2 { rows = 0, columns = 4 })) { columns = 0, rows = 0 } and
Chris@210	32 compare (mat.size (constMatrix 2 { rows = 4, columns = 0 })) { columns = 0, rows = 0 }
Chris@97	33 ),
Chris@97	34
Chris@99	35 "constMatrix-\(name)": \(
Chris@99	36 m = constMatrix 2 { rows = 3, columns = 4 };
Chris@210	37 compare (mat.size m) { columns = 4, rows = 3 } and
Chris@218	38 all id (map do row: compare (vec.list (mat.getRow row m)) [2,2,2,2] done [0..2]) and
Chris@218	39 all id (map do col: compare (vec.list (mat.getColumn col m)) [2,2,2] done [0..3])
Chris@97	40 ),
Chris@97	41
Chris@99	42 "randomMatrixEmpty-\(name)": \(
Chris@99	43 m = randomMatrix { rows = 0, columns = 0 };
Chris@210	44 compare (mat.size m) { columns = 0, rows = 0 }
Chris@97	45 ),
Chris@97	46
Chris@99	47 "randomMatrix-\(name)": \(
Chris@99	48 m = randomMatrix { rows = 3, columns = 4 };
Chris@210	49 compare (mat.size m) { columns = 4, rows = 3 }
Chris@97	50 ),
Chris@97	51
Chris@99	52 "zeroMatrixEmpty-\(name)": \(
Chris@99	53 m = zeroMatrix { rows = 0, columns = 0 };
Chris@210	54 compare (mat.size m) { columns = 0, rows = 0 }
Chris@97	55 ),
Chris@97	56
Chris@99	57 "zeroMatrix-\(name)": \(
Chris@99	58 m = zeroMatrix { rows = 3, columns = 4 };
Chris@210	59 compare (mat.size m) { columns = 4, rows = 3 } and
Chris@218	60 all id (map do row: compare (vec.list (mat.getRow row m)) [0,0,0,0] done [0..2]) and
Chris@218	61 all id (map do col: compare (vec.list (mat.getColumn col m)) [0,0,0] done [0..3])
Chris@97	62 ),
Chris@97	63
Chris@99	64 "identityMatrixEmpty-\(name)": \(
Chris@99	65 m = identityMatrix { rows = 0, columns = 0 };
Chris@210	66 compare (mat.size m) { columns = 0, rows = 0 }
Chris@97	67 ),
Chris@97	68
Chris@99	69 "identityMatrix-\(name)": \(
Chris@99	70 m = identityMatrix { rows = 3, columns = 4 };
Chris@210	71 compare (mat.size m) { columns = 4, rows = 3 } and
Chris@218	72 all id (map do row: compare (vec.list (mat.getRow row m)) [1,1,1,1] done [0..2]) and
Chris@218	73 all id (map do col: compare (vec.list (mat.getColumn col m)) [1,1,1] done [0..3])
Chris@97	74 ),
Chris@97	75
Chris@99	76 "generateEmpty-\(name)": \(
Chris@99	77 m = generate do row col: 0 done { rows = 0, columns = 0 };
Chris@210	78 compare (mat.size m) { columns = 0, rows = 0 }
Chris@97	79 ),
Chris@97	80
Chris@99	81 "generate-\(name)": \(
Chris@99	82 m = generate do row col: row * 10 + col done { rows = 2, columns = 3 };
Chris@218	83 compare (vec.list (mat.getRow 0 m)) [0,1,2] and
Chris@218	84 compare (vec.list (mat.getRow 1 m)) [10,11,12]
Chris@97	85 ),
Chris@97	86
Chris@99	87 "widthAndHeight-\(name)": \(
Chris@99	88 m = constMatrix 2 { rows = 3, columns = 4 };
Chris@210	89 compare (mat.size m) { columns = mat.width m, rows = mat.height m }
Chris@97	90 ),
Chris@97	91
Chris@99	92 "equal-\(name)": \(
Chris@241	93 m = newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]];
Chris@100	94 n = m;
Chris@241	95 p = newMatrix (RowMajor ()) [[1,0,3],[4,5,6]];
Chris@241	96 q = newMatrix (ColumnMajor ()) [[1,0,3],[4,5,6]];
Chris@241	97 r = newMatrix (ColumnMajor ()) [[1,4],[0,5]];
Chris@100	98 compareMatrices m n and
Chris@100	99 compareMatrices m p and
Chris@100	100 compareMatrices n p and
Chris@159	101 not mat.equal m q and
Chris@159	102 not mat.equal m r
Chris@97	103 ),
Chris@97	104
Chris@229	105 "equalUnder-\(name)": \(
Chris@229	106 p = newMatrix (ColumnMajor ()) [[1,2,3],[4,5,6]];
Chris@229	107 q = newMatrix (ColumnMajor ()) [[1,2,3],[4,5,6]];
Chris@229	108 r = newMatrix (ColumnMajor ()) [[4,3,1],[3,1,2]];
Chris@241	109 s = newMatrix (ColumnMajor ()) [[1,4,5],[6,7,8]];
Chris@241	110 t = newMatrix (ColumnMajor ()) [[1,4,5],[6,7,9]];
Chris@229	111 mat.equalUnder (==) p p and
Chris@229	112 mat.equalUnder (==) p q and
Chris@229	113 mat.equalUnder (!=) p r and
Chris@229	114 mat.equalUnder do a b: a % 2 == b % 2 done p s and
Chris@229	115 not mat.equalUnder do a b: a % 2 == b % 2 done p t
Chris@229	116 ),
Chris@229	117
Chris@99	118 "getAt-\(name)": \(
Chris@97	119 generator row col = row * 10 + col;
Chris@99	120 m = generate generator { rows = 2, columns = 3 };
Chris@97	121 all id
Chris@97	122 (map do row: all id
Chris@210	123 (map do col: mat.getAt row col m == generator row col done [0..2])
Chris@97	124 done [0..1])
Chris@97	125 ),
Chris@97	126
Chris@99	127 "transposedEmpty-\(name)": \(
Chris@210	128 compare (mat.size (mat.transposed (constMatrix 2 { rows = 0, columns = 0 }))) { columns = 0, rows = 0 } and
Chris@210	129 compare (mat.size (mat.transposed (constMatrix 2 { rows = 0, columns = 4 }))) { columns = 0, rows = 0 } and
Chris@210	130 compare (mat.size (mat.transposed (constMatrix 2 { rows = 4, columns = 0 }))) { columns = 0, rows = 0 }
Chris@97	131 ),
Chris@97	132
Chris@99	133 "transposedSize-\(name)": \(
Chris@210	134 compare (mat.size (mat.transposed (constMatrix 2 { rows = 3, columns = 4 }))) { columns = 3, rows = 4 }
Chris@97	135 ),
Chris@97	136
Chris@99	137 "transposed-\(name)": \(
Chris@97	138 generator row col = row * 10 + col;
Chris@99	139 m = generate generator { rows = 2, columns = 3 };
Chris@97	140 m' = mat.transposed m;
Chris@97	141 all id
Chris@97	142 (map do row: all id
Chris@97	143 // like getAt test, but with col/row flipped
Chris@210	144 (map do col: mat.getAt col row m' == generator row col done [0..2])
Chris@97	145 done [0..1])
Chris@97	146 ),
Chris@97	147
Chris@100	148 "transposed-back-\(name)": \(
Chris@100	149 m = newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,6]];
Chris@100	150 compareMatrices m (mat.transposed (mat.transposed m)) and
Chris@100	151 not mat.equal m (mat.transposed m);
Chris@100	152 ),
Chris@100	153
Chris@100	154 "flipped-\(name)": \(
Chris@241	155 m = newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]];
Chris@99	156 m' = mat.flipped m;
Chris@241	157 m'' = newMatrix (RowMajor ()) [[1,0,3],[4,5,6]];
Chris@100	158 compareMatrices m m' and compareMatrices m m'' and compareMatrices m' m'';
Chris@98	159 ),
Chris@98	160
Chris@100	161 "flipped-back-\(name)": \(
Chris@241	162 m = newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]];
Chris@100	163 compareMatrices m (mat.flipped (mat.flipped m));
Chris@100	164 ),
Chris@100	165
Chris@100	166 "flipped-empty-\(name)": \(
Chris@99	167 m = constMatrix 2 { rows = 0, columns = 4 };
Chris@99	168 compareMatrices (mat.flipped m) (mat.flipped (constMatrix 0 { rows = 0, columns = 0 }));
Chris@98	169 ),
Chris@98	170
Chris@161	171 "toRowMajor-\(name)": \(
Chris@241	172 m = newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]];
Chris@161	173 m' = mat.toRowMajor m;
Chris@241	174 m'' = newMatrix (RowMajor ()) [[1,0,3],[4,5,6]];
Chris@161	175 m''' = mat.toRowMajor m'';
Chris@161	176 compareMatrices m m' and compareMatrices m m'' and compareMatrices m' m''
Chris@161	177 and compareMatrices m m''';
Chris@161	178 ),
Chris@161	179
Chris@161	180 "toColumnMajor-\(name)": \(
Chris@241	181 m = newMatrix (RowMajor ()) [[1,4],[0,5],[3,6]];
Chris@161	182 m' = mat.toColumnMajor m;
Chris@241	183 m'' = newMatrix (ColumnMajor ()) [[1,0,3],[4,5,6]];
Chris@161	184 m''' = mat.toColumnMajor m'';
Chris@161	185 compareMatrices m m' and compareMatrices m m'' and compareMatrices m' m''
Chris@161	186 and compareMatrices m m''';
Chris@161	187 ),
Chris@161	188
Chris@99	189 "scaled-\(name)": \(
Chris@99	190 compareMatrices
Chris@99	191 (mat.scaled 0.5 (constMatrix 2 { rows = 3, columns = 4 }))
Chris@99	192 (constMatrix 1 { rows = 3, columns = 4 }) and
Chris@99	193 compareMatrices
Chris@99	194 (mat.scaled 0.5 (constMatrix (-3) { rows = 3, columns = 4 }))
Chris@99	195 (constMatrix (-1.5) { rows = 3, columns = 4 }) and
Chris@99	196 compareMatrices
Chris@99	197 (mat.scaled 0.5 (constMatrix 2 { rows = 0, columns = 2 }))
Chris@99	198 (constMatrix 5 { rows = 0, columns = 0 })
Chris@99	199 ),
Chris@99	200
Chris@99	201 "sum-\(name)": \(
Chris@99	202 compareMatrices
Chris@99	203 (mat.sum (constMatrix 2 { rows = 3, columns = 4 })
Chris@99	204 (constMatrix 1 { rows = 3, columns = 4 }))
Chris@99	205 (constMatrix 3 { rows = 3, columns = 4 })
Chris@99	206 ),
Chris@99	207
Chris@99	208 "sumFail-\(name)": \(
Chris@98	209 try
Chris@99	210 \() (mat.sum (constMatrix 2 { rows = 3, columns = 4 })
Chris@99	211 (constMatrix 1 { rows = 3, columns = 5 }));
Chris@98	212 false;
Chris@98	213 catch FailureException e:
Chris@98	214 true
Chris@98	215 yrt
Chris@98	216 ),
Chris@98	217
Chris@229	218 "difference-\(name)": \(
Chris@229	219 compareMatrices
Chris@229	220 (mat.difference (constMatrix 2 { rows = 3, columns = 4 })
Chris@229	221 (constMatrix 1 { rows = 3, columns = 4 }))
Chris@229	222 (constMatrix 1 { rows = 3, columns = 4 })
Chris@229	223 ),
Chris@229	224
Chris@229	225 "differenceFail-\(name)": \(
Chris@229	226 try
Chris@229	227 \() (mat.difference (constMatrix 2 { rows = 3, columns = 4 })
Chris@229	228 (constMatrix 1 { rows = 3, columns = 5 }));
Chris@229	229 false;
Chris@229	230 catch FailureException e:
Chris@229	231 true
Chris@229	232 yrt
Chris@229	233 ),
Chris@229	234
Chris@229	235 "abs-\(name)": \(
Chris@229	236 compareMatrices
Chris@229	237 (mat.abs (newMatrix (ColumnMajor ()) [[-1,4],[2,-5],[-3,0]]))
Chris@229	238 (newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,0]])
Chris@229	239 ),
Chris@229	240
Chris@99	241 "product-\(name)": \(
Chris@99	242 compareMatrices
Chris@99	243 (mat.product (constMatrix 2 { rows = 4, columns = 2 })
Chris@99	244 (constMatrix 3 { rows = 2, columns = 3 }))
Chris@99	245 (constMatrix 12 { rows = 4, columns = 3 }) and
Chris@99	246 compareMatrices
Chris@99	247 (mat.product (newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,6]])
Chris@99	248 (newMatrix (ColumnMajor ()) [[7,9,11],[8,10,12]]))
Chris@99	249 (newMatrix (ColumnMajor ()) [[58,139],[64,154]])
Chris@98	250 ),
Chris@98	251
Chris@251	252 "sparseProduct-\(name)": \(
Chris@251	253 s = mat.newSparseMatrix (ColumnMajor ()) { rows = 2, columns = 3 } [
Chris@251	254 { i = 0, j = 0, v = 1 },
Chris@251	255 { i = 0, j = 2, v = 2 },
Chris@251	256 { i = 1, j = 1, v = 4 },
Chris@251	257 ];
Chris@251	258 t = mat.newSparseMatrix (ColumnMajor ()) { rows = 3, columns = 2 } [
Chris@251	259 { i = 0, j = 1, v = 7 },
Chris@251	260 { i = 1, j = 0, v = 5 },
Chris@251	261 { i = 2, j = 0, v = 6 },
Chris@251	262 ];
Chris@251	263 prod = mat.product s t;
Chris@251	264 mat.isSparse? prod and
Chris@251	265 compareMatrices prod (mat.product (mat.toDense s) t) and
Chris@251	266 compareMatrices prod (mat.product (mat.toDense s) (mat.toDense t)) and
Chris@251	267 compareMatrices prod (mat.product s (mat.toDense t)) and
Chris@251	268 compareMatrices prod
Chris@251	269 (mat.newSparseMatrix (RowMajor ()) { rows = 2, columns = 2 } [
Chris@251	270 { i = 0, j = 0, v = 12 },
Chris@251	271 { i = 0, j = 1, v = 7 },
Chris@251	272 { i = 1, j = 0, v = 20 },
Chris@251	273 ])
Chris@251	274 ),
Chris@251	275
Chris@99	276 "productFail-\(name)": \(
Chris@99	277 try
Chris@99	278 \() (mat.product (constMatrix 2 { rows = 4, columns = 2 })
Chris@99	279 (constMatrix 3 { rows = 3, columns = 2 }));
Chris@99	280 false;
Chris@99	281 catch FailureException e:
Chris@99	282 true
Chris@99	283 yrt
Chris@99	284 ),
Chris@97	285
Chris@158	286 "resizedTo-\(name)": \(
Chris@158	287 compareMatrices
Chris@158	288 (mat.resizedTo { rows = 2, columns = 2 }
Chris@158	289 (newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,6]]))
Chris@159	290 (newMatrix (ColumnMajor ()) [[1,4],[2,5]]) and
Chris@158	291 compareMatrices
Chris@158	292 (mat.resizedTo { rows = 3, columns = 4 }
Chris@158	293 (newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,6]]))
Chris@158	294 (newMatrix (ColumnMajor ()) [[1,4,0],[2,5,0],[3,6,0],[0,0,0]]) and
Chris@158	295 compareMatrices
Chris@158	296 (mat.resizedTo { rows = 1, columns = 1 }
Chris@158	297 (newMatrix (ColumnMajor ()) [[1,4],[2,5],[3,6]]))
Chris@202	298 (newMatrix (RowMajor ()) [[1]]) and
Chris@202	299 compareMatrices
Chris@202	300 (mat.resizedTo { rows = 2, columns = 3 }
Chris@202	301 (mat.zeroSizeMatrix ()))
Chris@202	302 (newMatrix (RowMajor ()) [[0,0,0],[0,0,0]])
Chris@158	303 ),
Chris@158	304
Chris@158	305 "zeroSizeMatrix-\(name)": \(
Chris@158	306 compareMatrices
Chris@158	307 (mat.zeroSizeMatrix ())
Chris@158	308 (newMatrix (ColumnMajor ()) [])
Chris@158	309 ),
Chris@158	310
Chris@161	311 "asRows-\(name)": \(
Chris@161	312 compare
Chris@218	313 (map vec.list
Chris@241	314 (mat.asRows (newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]])))
Chris@241	315 [[1,0,3],[4,5,6]];
Chris@161	316 ),
Chris@161	317
Chris@161	318 "asColumns-\(name)": \(
Chris@161	319 compare
Chris@218	320 (map vec.list
Chris@241	321 (mat.asColumns (newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]])))
Chris@241	322 [[1,4],[0,5],[3,6]];
Chris@161	323 ),
Chris@161	324
Chris@178	325 "concat-horiz-\(name)": \(
Chris@177	326 compareMatrices
Chris@177	327 (mat.concat (Horizontal ())
Chris@241	328 [(newMatrix (ColumnMajor ()) [[1,4],[0,5]]),
Chris@177	329 (newMatrix (RowMajor ()) [[3],[6]])])
Chris@241	330 (newMatrix (ColumnMajor ()) [[1,4],[0,5],[3,6]])
Chris@177	331 ),
Chris@177	332
Chris@178	333 "concatFail-horiz-\(name)": \(
Chris@178	334 try
Chris@178	335 \() (mat.concat (Horizontal ())
Chris@241	336 [(newMatrix (ColumnMajor ()) [[1,4],[0,5]]),
Chris@178	337 (newMatrix (ColumnMajor ()) [[3],[6]])]);
Chris@178	338 false
Chris@178	339 catch FailureException e:
Chris@178	340 true
Chris@178	341 yrt
Chris@178	342 ),
Chris@178	343
Chris@178	344 "concat-vert-\(name)": \(
Chris@178	345 compareMatrices
Chris@178	346 (mat.concat (Vertical ())
Chris@241	347 [(newMatrix (ColumnMajor ()) [[1,4],[0,5]]),
Chris@178	348 (newMatrix (RowMajor ()) [[3,6]])])
Chris@241	349 (newMatrix (ColumnMajor ()) [[1,4,3],[0,5,6]])
Chris@178	350 ),
Chris@178	351
Chris@178	352 "concatFail-vert-\(name)": \(
Chris@178	353 try
Chris@178	354 \() (mat.concat (Vertical ())
Chris@241	355 [(newMatrix (ColumnMajor ()) [[1,4],[0,5]]),
Chris@178	356 (newMatrix (RowMajor ()) [[3],[6]])]);
Chris@178	357 false
Chris@178	358 catch FailureException e:
Chris@178	359 true
Chris@178	360 yrt
Chris@178	361 ),
Chris@178	362
Chris@187	363 "rowSlice-\(name)": \(
Chris@187	364 compareMatrices
Chris@241	365 (mat.rowSlice 1 2 (newMatrix (RowMajor ()) [[1,0],[3,4],[0,6],[7,8]]))
Chris@241	366 (newMatrix (RowMajor ()) [[3,4],[0,6]])
Chris@187	367 ),
Chris@187	368
Chris@187	369 "columnSlice-\(name)": \(
Chris@187	370 compareMatrices
Chris@241	371 (mat.columnSlice 1 2 (newMatrix (RowMajor ()) [[1,0,3,4],[0,6,7,8]]))
Chris@241	372 (newMatrix (RowMajor ()) [[0,3],[6,7]])
Chris@187	373 ),
Chris@187	374
Chris@247	375 "density-\(name)": \(
Chris@247	376 compare (mat.density (newMatrix (ColumnMajor ()) [[1,2,0],[0,5,0]])) (3/6) and
Chris@247	377 compare (mat.density (newMatrix (ColumnMajor ()) [[1,2,3],[4,5,6]])) (6/6) and
Chris@247	378 compare (mat.density (newMatrix (ColumnMajor ()) [[0,0,0],[0,0,0]])) 0
Chris@242	379 ),
Chris@242	380
Chris@249	381 "nonZeroValues-\(name)": \(
Chris@249	382 compare (mat.nonZeroValues (newMatrix (ColumnMajor ()) [[1,2,0],[0,5,0]])) 3 and
Chris@249	383 compare (mat.nonZeroValues (newMatrix (ColumnMajor ()) [[1,2,3],[4,5,6]])) 6 and
Chris@249	384 compare (mat.nonZeroValues (newMatrix (ColumnMajor ()) [[0,0,0],[0,0,0]])) 0
Chris@249	385 ),
Chris@249	386
Chris@243	387 "toSparse-\(name)": \(
Chris@243	388 m = newMatrix (ColumnMajor ()) [[1,2,0],[-1,-4,6],[0,0,3]];
Chris@243	389 compareMatrices (mat.toSparse m) m and
Chris@243	390 compareMatrices (mat.toDense (mat.toSparse m)) m and
Chris@247	391 compare (mat.density (mat.toSparse m)) (6/9)
Chris@243	392 ),
Chris@243	393
Chris@243	394 "toDense-\(name)": \(
Chris@243	395 m = newMatrix (ColumnMajor ()) [[1,2,0],[-1,-4,6],[0,0,3]];
Chris@243	396 compareMatrices (mat.toDense m) m and
Chris@243	397 compareMatrices (mat.toSparse (mat.toDense m)) m
Chris@243	398 ),
Chris@243	399
Chris@243	400 "thresholded-\(name)": \(
Chris@243	401 m = newMatrix (ColumnMajor ()) [[1,2,0],[-1,-4,6],[0,0,3]];
Chris@243	402 compareMatrices
Chris@243	403 (mat.thresholded 2 m)
Chris@243	404 (newMatrix (ColumnMajor ()) [[0,0,0],[0,-4,6],[0,0,3]]) and
Chris@247	405 compare (mat.density (mat.thresholded 2 m)) (3/9)
Chris@243	406 ),
Chris@243	407
Chris@255	408 "newSparseMatrix-\(name)": \(
Chris@255	409 s = mat.newSparseMatrix (ColumnMajor ()) { rows = 2, columns = 3 } [
Chris@255	410 { i = 0, j = 0, v = 1 },
Chris@255	411 { i = 0, j = 2, v = 2 },
Chris@255	412 { i = 1, j = 1, v = 4 },
Chris@255	413 ];
Chris@255	414 // If there are zeros in the entries list, they should not end up
Chris@255	415 // in the sparse data
Chris@255	416 t = mat.newSparseMatrix (ColumnMajor ()) { rows = 2, columns = 3 } [
Chris@255	417 { i = 0, j = 0, v = 1 },
Chris@255	418 { i = 0, j = 2, v = 0 },
Chris@255	419 { i = 1, j = 1, v = 4 },
Chris@255	420 ];
Chris@255	421 compare (mat.density s) (3/6) and
Chris@255	422 compare (mat.density t) (2/6) and
Chris@255	423 compareMatrices s (newMatrix (RowMajor ()) [[1,0,2],[0,4,0]]) and
Chris@255	424 compareMatrices t (newMatrix (RowMajor ()) [[1,0,0],[0,4,0]])
Chris@255	425 ),
Chris@255	426
Chris@255	427 "enumerate-\(name)": \(
Chris@255	428 m = newMatrix (ColumnMajor ()) [[1,2,0],[-1,-4,6],[0,0,3]];
Chris@255	429 all = [
Chris@255	430 { i = 0, j = 0, v = 1 },
Chris@255	431 { i = 1, j = 0, v = 2 },
Chris@255	432 { i = 2, j = 0, v = 0 },
Chris@255	433 { i = 0, j = 1, v = -1 },
Chris@255	434 { i = 1, j = 1, v = -4 },
Chris@255	435 { i = 2, j = 1, v = 6 },
Chris@255	436 { i = 0, j = 2, v = 0 },
Chris@255	437 { i = 1, j = 2, v = 0 },
Chris@255	438 { i = 2, j = 2, v = 3 },
Chris@255	439 ];
Chris@255	440 sortEntries =
Chris@255	441 sortBy do a b:
Chris@255	442 if a.i == b.i then a.j < b.j else a.i < b.i fi
Chris@255	443 done;
Chris@255	444 compare
Chris@255	445 (sortEntries (mat.enumerate m))
Chris@255	446 (sortEntries
Chris@255	447 (if mat.isSparse? m then filter do d: d.v != 0 done all else all fi));
Chris@255	448 ),
Chris@255	449
Chris@99	450 ]);
Chris@99	451
Chris@238	452 colhash = makeTests "column-dense" id;
Chris@238	453 rowhash = makeTests "row-dense" mat.flipped;
Chris@243	454 sparsecolhash = makeTests "column-sparse" mat.toSparse;
Chris@241	455
Chris@241	456 // there are two possible orders for constructing a sparse row-major
Chris@241	457 // matrix from a dense col-major one, so test them both:
Chris@243	458 sparserowhash1 = makeTests "row-sparse-a" (mat.toSparse . mat.flipped);
Chris@243	459 sparserowhash2 = makeTests "row-sparse-b" (mat.flipped . mat.toSparse);
Chris@99	460
Chris@99	461 all = [:];
Chris@241	462 for [ colhash, rowhash, sparsecolhash, sparserowhash1, sparserowhash2 ] do h:
Chris@238	463 for (keys h) do k: all[k] := h[k] done;
Chris@238	464 done;
Chris@99	465
Chris@99	466 all is hash<string, () -> boolean>;
Chris@99	467
Chris@99	468

Mercurial > hg > may

annotate yetilab/matrix/test/test_matrix.yeti @ 255:8043f7405eae