evalue_isl.c: extract_base: rename "dim" parameter to "space"
[barvinok.git] / zsolve / linearsystem.c
blob0f0a9a49997325f618979014d1cd3167fea0b43a
1 /*
2 4ti2 -- A software package for algebraic, geometric and combinatorial
3 problems on linear spaces.
5 Copyright (C) 2006 4ti2 team.
6 Main author(s): Matthias Walter.
8 This program is free software; you can redistribute it and/or
9 modify it under the terms of the GNU General Public License
10 as published by the Free Software Foundation; either version 2
11 of the License, or (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
23 #include "linearsystem.h"
25 #include <assert.h>
26 #include <stdio.h>
27 #include <stdlib.h>
28 #include "defs.h"
30 // //
32 LinearSystem createLinearSystem()
34 LinearSystem system = (LinearSystem)malloc(sizeof(linearsystem_t));
36 if (system==NULL)
38 fprintf(stderr, "Fatal Error (%s/%d): Could not allocate memory for LinearSystem!\n", __FILE__, __LINE__);
39 exit(1);
42 system->Equations = 0;
43 system->Variables = 0;
44 system->A = NULL;
45 system->b = NULL;
46 system->EqProperties = NULL;
47 system->VarProperties = NULL;
49 return system;
52 // //
54 void deleteLinearSystem(LinearSystem system)
56 int i;
58 if (system)
60 for (i=0; i<system->Variables; i++)
61 deleteVector(system->A[i]);
62 free(system->A);
63 deleteVector(system->b);
64 deleteVariableProperties(system->VarProperties);
65 if (system->EqProperties)
66 free(system->EqProperties);
67 free(system);
71 // //
73 void setLinearSystemSize(LinearSystem system, int variables, int equations)
75 int i;
77 assert(system);
78 assert(variables>=0);
79 assert(equations>=0);
81 if (variables!=system->Variables || equations!=system->Equations)
83 if (system->A!=NULL)
85 for (i=0; i<system->Variables; i++)
86 deleteVector(system->A[i]);
87 free(system->A);
88 system->A = NULL;
91 if (variables>0)
93 system->A = (Vector *)malloc(variables*sizeof(Vector));
94 if (system->A==NULL)
96 fprintf(stderr, "Fatal Error (%s/%d): Could not allocate memory for LinearSystem->A!\n", __FILE__, __LINE__);
97 exit(1);
99 for (i=0; i<variables; i++)
100 system->A[i] = createVector(equations);
104 if (equations!=system->Equations)
106 if (system->b!=NULL)
108 deleteVector(system->b);
109 system->b = NULL;
110 free(system->EqProperties);
111 system->EqProperties = NULL;
113 if (equations>0)
115 system->b = createVector(equations);
116 system->EqProperties = (EquationProperties)malloc(equations*sizeof(equationproperty_t));
117 if (system->EqProperties==NULL)
119 fprintf(stderr, "Fatal Error (%s/%d): Could not allocate memory for LinearSystem->EqProperties!\n", __FILE__, __LINE__);
120 exit(1);
122 for (i=0; i<equations; i++)
124 system->EqProperties[i].Type = EQUATION_EQUAL;
125 system->EqProperties[i].Modulus = 0;
130 if (variables!=system->Variables)
132 if (system->VarProperties!=NULL)
134 deleteVariableProperties(system->VarProperties);
135 system->VarProperties = NULL;
137 if (variables>0)
138 system->VarProperties = createVariableProperties(variables);
141 system->Variables = variables;
142 system->Equations = equations;
145 // //
147 void setLinearSystemMatrix(LinearSystem system, Matrix matrix)
149 int i,j;
151 assert(system);
152 assert(matrix);
154 setLinearSystemSize(system, matrix->Width, matrix->Height);
156 for (i=0; i<system->Variables; i++)
157 for (j=0; j<system->Equations; j++)
158 system->A[i][j] = matrix->Data[i+j*system->Variables];
161 // //
163 void setLinearSystemRHS(LinearSystem system, Vector vector)
165 assert(system);
166 assert(vector);
168 if (system->b!=NULL)
170 deleteVector(system->b);
171 system->b = NULL;
174 if (system->Equations)
175 system->b = copyVector(vector, system->Equations);
178 // //
180 void setLinearSystemLimit(LinearSystem system, int id, int lower, int upper, bool free)
182 assert(system);
183 assert(lower<=0);
184 assert(upper>=0);
186 if (id>=0 && id<system->Variables)
188 system->VarProperties[id].Free = free;
189 system->VarProperties[id].Lower = lower;
190 system->VarProperties[id].Upper = upper;
192 else if (id==-1)
194 for (id=0; id<system->Variables; id++)
196 system->VarProperties[id].Free = free;
197 system->VarProperties[id].Lower = lower;
198 system->VarProperties[id].Upper = upper;
203 // //
205 void setLinearSystemBound(LinearSystem system, int id, char type, int value)
207 assert(system);
208 assert(id>=0);
209 assert(id<system->Variables);
210 assert(type == 'u' || type == 'l');
212 if (type == 'u')
213 system->VarProperties[id].Upper = value;
214 else if (type == 'l')
215 system->VarProperties[id].Lower = value;
218 // //
220 void setLinearSystemEquationType(LinearSystem system, int id, EquationType type, int modulus)
222 assert(system);
223 assert(type<=5);
224 assert(type || EQUATION_MODULO || modulus!=0);
226 if (id>=0)
228 system->EqProperties[id].Type = type;
229 system->EqProperties[id].Modulus = modulus;
231 else if (id==-1)
233 for (id=0; id<system->Equations; id++)
235 system->EqProperties[id].Type = type;
236 system->EqProperties[id].Modulus = modulus;
241 // //
243 int imax(int a, int b)
245 return a > b ? a : b;
248 // //
250 int numberSize(int value)
252 int result = 1;
254 if (value<0)
256 value *= -1;
257 result++;
260 while (value>=10)
262 value /= 10;
263 result++;
266 return result;
269 // //
271 int equationSize(EquationType type)
273 if (type<4)
274 return 1;
275 else
276 return 2;
279 // //
281 int propertySize(variableproperty_t property)
283 return (property.Free ? 1 : imax(
284 (property.Lower==-MAXINT ? 1 : numberSize(property.Lower)),
285 (property.Upper==MAXINT ? 1 : numberSize(property.Upper))
289 // //
291 void fprintLinearSystem(FILE *stream, LinearSystem system)
293 Vector space;
294 int i,j;
295 bool allfree = true;
297 if (!stream || !system)
299 fprintf(stderr, "Fatal Error (%s/%d): printLinearSystem was called with wrong arguments!\n", __FILE__, __LINE__);
300 exit(1);
303 space = createVector(system->Variables+2);
305 // Collect space need by all columns
306 for (i=0; i<system->Variables; i++)
308 if (!checkVariableFree(system->VarProperties, i))
309 allfree = false;
310 space[i] = propertySize(system->VarProperties[i]);
311 for (j=0; j<system->Equations; j++)
312 space[i] = imax(space[i], numberSize(system->A[i][j]));
314 space[system->Variables] = 0;
315 space[system->Variables+1] = 0;
316 for (i=0; i < system->Equations; i++)
318 space[system->Variables] = imax(space[system->Variables], equationSize(system->EqProperties[i].Type));
319 space[system->Variables+1] = imax(space[system->Variables+1], numberSize(system->b[i]));
322 // Print header
323 if (!allfree)
325 for (i=0; i<system->Variables; i++)
327 if (checkVariableFree(system->VarProperties, i))
328 fprintf(stream, "%*s ", space[i], "");
329 else if (system->VarProperties[i].Upper==MAXINT)
330 fprintf(stream, "%*s ", space[i], "+");
331 else
332 fprintf(stream, "%*d ", space[i], system->VarProperties[i].Upper);
334 fprintf(stream, "\n");
335 for (i=0; i<system->Variables; i++)
337 if (checkVariableFree(system->VarProperties, i))
338 fprintf(stream, "%*s ", space[i], "");
339 else if (system->VarProperties[i].Lower==-MAXINT)
340 fprintf(stream, "%*s ", space[i], "-");
341 else
342 fprintf(stream, "%*d ", space[i], system->VarProperties[i].Lower);
344 fprintf(stream, "\n\n");
347 for (i=0; i<system->Equations; i++)
349 for (j=0; j<system->Variables; j++)
350 fprintf(stream, "%*d ", space[j], system->A[j][i]);
351 switch (system->EqProperties[i].Type)
353 case EQUATION_EQUAL:
354 case EQUATION_MODULO:
355 fprintf(stream, "%*s ", space[system->Variables], "=");
356 break;
357 case EQUATION_LESSER:
358 fprintf(stream, "%*s ", space[system->Variables], "<");
359 break;
360 case EQUATION_LESSEREQUAL:
361 fprintf(stream, "%*s ", space[system->Variables], "<=");
362 break;
363 case EQUATION_GREATER:
364 fprintf(stream, "%*s ", space[system->Variables], ">");
365 break;
366 case EQUATION_GREATEREQUAL:
367 fprintf(stream, "%*s ", space[system->Variables], ">=");
368 break;
370 fprintf(stream, "%*d", space[system->Variables+1], system->b[i]);
371 if (system->EqProperties[i].Type==EQUATION_MODULO)
372 fprintf(stream, " (mod %d)", system->EqProperties[i].Modulus);
373 fprintf(stream, "\n");
376 deleteVector(space);
379 // //
381 void printLinearSystem(LinearSystem system)
383 fprintLinearSystem(stdout, system);
386 // //
388 LinearSystem homogenizeLinearSystem(LinearSystem old)
390 LinearSystem new;
391 int i,j,k;
393 if (old==NULL)
394 return NULL;
396 new = createLinearSystem();
398 new->Equations = old->Equations;
399 new->Variables = old->Variables;
401 // RHS stays temporarily the same
402 new->b = copyVector(old->b, old->Equations);
404 // Original matrix with properties
405 new->A = (Vector *)malloc(new->Variables*sizeof(Vector));
406 new->VarProperties = createVariableProperties(new->Variables);
407 for (i=0; i<new->Variables; i++)
409 new->A[i] = copyVector(old->A[i], old->Equations);
410 new->VarProperties[i] = old->VarProperties[i];
413 // transformation
414 for (i=0; i<old->Equations; i++)
416 if (old->EqProperties[i].Type==EQUATION_LESSER)
418 new->b[i]--;
420 if (old->EqProperties[i].Type==EQUATION_GREATER)
421 new->b[i]++;
422 switch (old->EqProperties[i].Type)
424 case EQUATION_LESSER:
425 case EQUATION_LESSEREQUAL:
426 k = 1;
427 break;
428 case EQUATION_GREATER:
429 case EQUATION_GREATEREQUAL:
430 k = -1;
431 break;
432 case EQUATION_MODULO:
433 k = old->EqProperties[i].Modulus;
434 break;
435 default:
436 k = 0;
437 break;
439 if (k!=0)
441 new->Variables++;
442 new->A = (Vector *)realloc(new->A, new->Variables*sizeof(Vector));
443 new->VarProperties = (VariableProperties)realloc(new->VarProperties, new->Variables*sizeof(variableproperty_t));
444 new->A[new->Variables-1] = createVector(new->Equations);
445 for (j=0; j<new->Equations; j++)
446 new->A[new->Variables-1][j] = (j==i ? k : 0);
447 new->VarProperties[new->Variables-1].Free = (old->EqProperties[i].Type==EQUATION_MODULO);
448 new->VarProperties[new->Variables-1].Upper = MAXINT;
449 new->VarProperties[new->Variables-1].Lower = (old->EqProperties[i].Type==EQUATION_MODULO ? -MAXINT : 0);
450 new->VarProperties[new->Variables-1].Column = -1;
454 // -rhs as a new row in [0;1]
455 if (normVector(new->b, old->Equations)>0)
457 new->Variables++;
458 new->A = (Vector *)realloc(new->A, new->Variables*sizeof(Vector));
459 new->VarProperties = (VariableProperties)realloc(new->VarProperties, new->Variables*sizeof(variableproperty_t));
461 new->A[new->Variables-1] = new->b;
462 for (i=0; i<old->Equations; i++)
463 new->A[new->Variables-1][i] *= -1;
464 new->VarProperties[new->Variables-1].Free = false;
465 new->VarProperties[new->Variables-1].Upper = 1;
466 new->VarProperties[new->Variables-1].Lower = 0;
467 new->VarProperties[new->Variables-1].Column = -2;
469 // recreate rhs as a zero-vector
470 new->b = createVector(new->Equations);
471 for (i=0; i<new->Equations; i++)
472 new->b[i] = 0;
475 // all are now equaitons
476 new->EqProperties = (EquationProperties)malloc(new->Equations*sizeof(equationproperty_t));
477 for (i=0; i<new->Equations; i++)
479 new->EqProperties[i].Type = EQUATION_EQUAL;
480 new->EqProperties[i].Modulus = 0;
483 return new;
486 // //