doc: update now published papers
[barvinok.git] / remove_equalities.c
blob9e0edd036d493267ef2dd427d7087621ddef5626
1 #include <assert.h>
2 #include <barvinok/util.h>
3 #include "remove_equalities.h"
5 static void transform(Polyhedron **P, Polyhedron **C, Matrix *CP, int free,
6 unsigned MaxRays)
8 Polyhedron *Q = *P;
9 Polyhedron *D = *C;
10 Matrix *T;
12 T = align_matrix(CP, Q->Dimension+1);
13 *P = Polyhedron_Preimage(Q, T, MaxRays);
14 if (free)
15 Polyhedron_Free(Q);
16 Matrix_Free(T);
17 if (!D)
18 return;
19 *C = Polyhedron_Preimage(D, CP, MaxRays);
20 if (free)
21 Polyhedron_Free(D);
24 static Matrix *compose_transformations(Matrix *first, Matrix *second)
26 Matrix *combined;
28 if (!first)
29 return second;
31 combined = Matrix_Alloc(first->NbRows, second->NbColumns);
32 Matrix_Product(first, second, combined);
33 Matrix_Free(first);
34 Matrix_Free(second);
35 return combined;
38 static Polyhedron *replace_by_empty_polyhedron(Polyhedron *Q, int free)
40 unsigned dim = Q->Dimension;
41 if (free)
42 Polyhedron_Free(Q);
43 return Empty_Polyhedron(dim);
46 static int first_parameter_equality(Polyhedron *Q, unsigned nparam)
48 int i;
50 if (emptyQ(Q))
51 return Q->NbEq;
53 for (i = 0; i < Q->NbEq; ++i)
54 if (First_Non_Zero(Q->Constraint[i]+1, Q->Dimension-nparam) == -1)
55 break;
57 return i;
60 static void remove_parameter_equalities(Polyhedron **Q, Polyhedron **D,
61 Matrix **CP, unsigned *nparam,
62 int free, unsigned MaxRays)
64 int i;
66 /* We need to loop until we can't find any more equalities
67 * because the transformation may enable a simplification of the
68 * constraints resulting in new implicit equalities.
70 while ((i = first_parameter_equality(*Q, *nparam)) < (*Q)->NbEq) {
71 Matrix *M = Matrix_Alloc((*Q)->NbEq, 1+*nparam+1);
72 Matrix *T;
73 int n = 0;
75 for (; i < (*Q)->NbEq; ++i) {
76 if (First_Non_Zero((*Q)->Constraint[i]+1, (*Q)->Dimension-*nparam) == -1)
77 Vector_Copy((*Q)->Constraint[i]+1+(*Q)->Dimension-*nparam,
78 M->p[n++]+1, *nparam+1);
80 M->NbRows = n;
81 T = compress_variables(M, 0);
82 Matrix_Free(M);
83 if (!T) {
84 *Q = replace_by_empty_polyhedron(*Q, free);
85 break;
86 } else {
87 transform(Q, D, T, free, MaxRays);
88 *nparam = T->NbColumns-1;
89 *CP = compose_transformations(*CP, T);
90 free = 1;
95 /* Remove all equalities in P and the context C (if not NULL).
96 * Does not destroy P (or C).
97 * Returns transformation on the parameters in the Matrix pointed to by CPP
98 * (unless NULL) and transformation on the variables in the Matrix pointed to
99 * by CVP (unless NULL).
100 * Each of these transformation matrices maps the new parameters/variables
101 * back to the original ones.
102 * If it can be shown that there is no integer point in P, then
103 * an empty polyhedron will be returned.
105 int remove_all_equalities(Polyhedron **P, Polyhedron **C, Matrix **CPP, Matrix **CVP,
106 unsigned nparam, unsigned MaxRays)
108 Matrix *CV = NULL;
109 Matrix *CP = NULL;
110 Polyhedron *Q = *P;
111 Polyhedron *D = NULL;
112 Polyhedron *R;
113 int changed;
114 Matrix M;
116 if (C) {
117 D = *C;
118 assert(D->Dimension == nparam);
121 if (Q->NbEq == 0 && (!D || D->NbEq == 0))
122 return 0;
124 if (D && D->NbEq) {
125 Polyhedron_Matrix_View(D, &M, D->NbEq);
126 CP = compress_variables(&M, 0);
127 transform(&Q, &D, CP, Q != *P, MaxRays);
128 nparam = CP->NbColumns-1;
131 /* compress_parms doesn't like equalities that only involve parameters */
132 remove_parameter_equalities(&Q, &D, &CP, &nparam, Q != *P, MaxRays);
134 if (!emptyQ2(Q) && Q->NbEq) {
135 Matrix *T;
136 Polyhedron_Matrix_View(Q, &M, Q->NbEq);
137 T = compress_parms(&M, nparam);
138 if (!T) {
139 Q = replace_by_empty_polyhedron(Q, Q != *P);
140 } else if (isIdentity(T)) {
141 Matrix_Free(T);
142 } else {
143 transform(&Q, &D, T, Q != *P, MaxRays);
144 CP = compose_transformations(CP, T);
145 nparam = CP->NbColumns-1;
146 remove_parameter_equalities(&Q, &D, &CP, &nparam, Q != *P, MaxRays);
150 /* We need to loop until we can't find any more equalities
151 * because the transformation may enable a simplification of the
152 * constraints resulting in new implicit equalities.
154 while (!emptyQ2(Q) && Q->NbEq) {
155 Matrix *T;
156 Polyhedron_Matrix_View(Q, &M, Q->NbEq);
157 T = compress_variables(&M, nparam);
158 if (!T) {
159 Q = replace_by_empty_polyhedron(Q, Q != *P);
160 } else if (isIdentity(T)) {
161 Matrix_Free(T);
162 } else {
163 R = Polyhedron_Preimage(Q, T, MaxRays);
164 CV = compose_transformations(CV, T);
165 if (Q != *P)
166 Polyhedron_Free(Q);
167 Q = R;
171 changed = *P != Q;
172 *P = Q;
173 if (C)
174 *C = D;
175 if (CPP)
176 *CPP = CP;
177 else if (CP)
178 Matrix_Free(CP);
179 if (CVP)
180 *CVP = CV;
181 else if (CV)
182 Matrix_Free(CV);
183 return changed;