| blob | 9f6a462fe8502814dbdd63c13866079ac09907f7 |
1 /*
2 * Copyright 2010 INRIA Saclay
3 *
4 * Use of this software is governed by the GNU LGPLv2.1 license
5 *
6 * Written by Sven Verdoolaege, INRIA Saclay - Ile-de-France,
7 * Parc Club Orsay Universite, ZAC des vignes, 4 rue Jacques Monod,
8 * 91893 Orsay, France
9 */
11 #include <isl_map_private.h>
12 #include <isl/set.h>
13 #include <isl_space_private.h>
14 #include <isl/seq.h>
16 /*
17 * Let C be a cone and define
18 *
19 * C' := { y | forall x in C : y x >= 0 }
20 *
21 * C' contains the coefficients of all linear constraints
22 * that are valid for C.
23 * Furthermore, C'' = C.
24 *
25 * If C is defined as { x | A x >= 0 }
26 * then any element in C' must be a non-negative combination
27 * of the rows of A, i.e., y = t A with t >= 0. That is,
28 *
29 * C' = { y | exists t >= 0 : y = t A }
30 *
31 * If any of the rows in A actually represents an equality, then
32 * also negative combinations of this row are allowed and so the
33 * non-negativity constraint on the corresponding element of t
34 * can be dropped.
35 *
36 * A polyhedron P = { x | b + A x >= 0 } can be represented
37 * in homogeneous coordinates by the cone
38 * C = { [z,x] | b z + A x >= and z >= 0 }
39 * The valid linear constraints on C correspond to the valid affine
40 * constraints on P.
41 * This is essentially Farkas' lemma.
42 *
43 * Let A' = [b A], then, since
44 * [ 1 0 ]
45 * [ w y ] = [t_0 t] [ b A ]
46 *
47 * we have
48 *
49 * C' = { w, y | exists t_0, t >= 0 : y = t A' and w = t_0 + t b }
50 * or
51 *
52 * C' = { w, y | exists t >= 0 : y = t A' and w - t b >= 0 }
53 *
54 * In practice, we introduce an extra variable (w), shifting all
55 * other variables to the right, and an extra inequality
56 * (w - t b >= 0) corresponding to the positivity constraint on
57 * the homogeneous coordinate.
58 *
59 * When going back from coefficients to solutions, we immediately
60 * plug in 1 for z, which corresponds to shifting all variables
61 * to the left, with the leftmost ending up in the constant position.
62 */
64 /* Add the given prefix to all named isl_dim_set dimensions in "dim".
65 */
68 {
97 }
100 error:
103 }
105 /* Given a dimension specification of the solutions space, construct
106 * a dimension specification for the space of coefficients.
107 *
108 * In particular transform
109 *
110 * [params] -> { S }
111 *
112 * to
113 *
114 * { coefficients[[cst, params] -> S] }
115 *
116 * and prefix each dimension name with "c_".
117 */
119 {
141 }
143 /* Drop the given prefix from all named dimensions of type "type" in "dim".
144 */
147 {
164 }
167 }
169 /* Given a dimension specification of the space of coefficients, construct
170 * a dimension specification for the space of solutions.
171 *
172 * In particular transform
173 *
174 * { coefficients[[cst, params] -> S] }
175 *
176 * to
177 *
178 * [params] -> { S }
179 *
180 * and drop the "c_" prefix from the dimension names.
181 */
183 {
195 }
197 /* Compute the dual of "bset" by applying Farkas' lemma.
198 * As explained above, we add an extra dimension to represent
199 * the coefficient of the constant term when going from solutions
200 * to coefficients (shift == 1) and we drop the extra dimension when going
201 * in the opposite direction (shift == -1). "dim" is the space in which
202 * the dual should be created.
203 */
206 {
222 }
236 }
245 }
259 }
267 error:
271 }
273 /* Construct a basic set containing the tuples of coefficients of all
274 * valid affine constraints on the given basic set.
275 */
278 {
292 error:
295 }
297 /* Construct a basic set containing the elements that satisfy all
298 * affine constraints whose coefficient tuples are
299 * contained in the given basic set.
300 */
303 {
317 error:
320 }
322 /* Construct a basic set containing the tuples of coefficients of all
323 * valid affine constraints on the given set.
324 */
326 {
339 }
348 }
352 }
354 /* Construct a basic set containing the elements that satisfy all
355 * affine constraints whose coefficient tuples are
356 * contained in the given set.
357 */
359 {
372 }
381 }
385 }