* @brief Optimal reductions and helper functions.
* @date 28.12.2009
* @author Sebastian Buchwald
- * @version $Id$
*/
#include "config.h"
if (pbqp->dump_file) {
char txt[100];
sprintf(txt, "Merging n%d into n%d", src_node->index, tgt_node->index);
- dump_section(pbqp->dump_file, 3, txt);
+ pbqp_dump_section(pbqp->dump_file, 3, txt);
}
#endif
if (pbqp->dump_file) {
char txt[100];
sprintf(txt, "Merging n%d into n%d", tgt_node->index, src_node->index);
- dump_section(pbqp->dump_file, 3, txt);
+ pbqp_dump_section(pbqp->dump_file, 3, txt);
}
#endif
if (pbqp->dump_file) {
char txt[100];
sprintf(txt, "Simplification of Edge n%d-n%d", src_node->index, tgt_node->index);
- dump_section(pbqp->dump_file, 3, txt);
+ pbqp_dump_section(pbqp->dump_file, 3, txt);
}
#endif
#if KAPS_DUMP
if (pbqp->dump_file) {
fputs("Input:<br>\n", pbqp->dump_file);
- dump_simplifyedge(pbqp, edge);
+ pbqp_dump_simplifyedge(pbqp, edge);
}
#endif
#if KAPS_DUMP
if (pbqp->dump_file) {
fputs("<br>\nOutput:<br>\n", pbqp->dump_file);
- dump_simplifyedge(pbqp, edge);
+ pbqp_dump_simplifyedge(pbqp, edge);
}
#endif
#if KAPS_DUMP
if (pbqp->dump_file) {
pbqp_dump_input(pbqp);
- dump_section(pbqp->dump_file, 1, "2. Simplification of Cost Matrices");
+ pbqp_dump_section(pbqp->dump_file, 1, "2. Simplification of Cost Matrices");
}
#endif
file = pbqp->dump_file;
if (file) {
- dump_section(file, 1, "4. Determine Solution/Minimum");
- dump_section(file, 2, "4.1. Trivial Solution");
+ pbqp_dump_section(file, 1, "4. Determine Solution/Minimum");
+ pbqp_dump_section(file, 2, "4.1. Trivial Solution");
}
#endif
#if KAPS_DUMP
if (file) {
fprintf(file, "node n%d is set to %d<br>\n", node->index, node->solution);
- dump_node(file, node);
+ pbqp_dump_node(file, node);
}
#endif
}
#if KAPS_DUMP
if (file) {
- dump_section(file, 2, "Minimum");
+ pbqp_dump_section(file, 2, "Minimum");
#if KAPS_USE_UNSIGNED
fprintf(file, "Minimum is equal to %u.", solution);
#else
#if KAPS_DUMP
if (pbqp->dump_file) {
- dump_section(pbqp->dump_file, 2, "Back Propagation");
+ pbqp_dump_section(pbqp->dump_file, 2, "Back Propagation");
}
#endif
if (pbqp->dump_file) {
char txt[100];
sprintf(txt, "RI-Reduction of Node n%d", node->index);
- dump_section(pbqp->dump_file, 2, txt);
+ pbqp_dump_section(pbqp->dump_file, 2, txt);
pbqp_dump_graph(pbqp);
fputs("<br>\nBefore reduction:<br>\n", pbqp->dump_file);
- dump_node(pbqp->dump_file, node);
- dump_node(pbqp->dump_file, other_node);
- dump_edge(pbqp->dump_file, edge);
+ pbqp_dump_node(pbqp->dump_file, node);
+ pbqp_dump_node(pbqp->dump_file, other_node);
+ pbqp_dump_edge(pbqp->dump_file, edge);
}
#endif
#if KAPS_DUMP
if (pbqp->dump_file) {
fputs("<br>\nAfter reduction:<br>\n", pbqp->dump_file);
- dump_node(pbqp->dump_file, other_node);
+ pbqp_dump_node(pbqp->dump_file, other_node);
}
#endif
if (pbqp->dump_file) {
char txt[100];
sprintf(txt, "RII-Reduction of Node n%d", node->index);
- dump_section(pbqp->dump_file, 2, txt);
+ pbqp_dump_section(pbqp->dump_file, 2, txt);
pbqp_dump_graph(pbqp);
fputs("<br>\nBefore reduction:<br>\n", pbqp->dump_file);
- dump_node(pbqp->dump_file, src_node);
- dump_edge(pbqp->dump_file, src_edge);
- dump_node(pbqp->dump_file, node);
- dump_edge(pbqp->dump_file, tgt_edge);
- dump_node(pbqp->dump_file, tgt_node);
+ pbqp_dump_node(pbqp->dump_file, src_node);
+ pbqp_dump_edge(pbqp->dump_file, src_edge);
+ pbqp_dump_node(pbqp->dump_file, node);
+ pbqp_dump_edge(pbqp->dump_file, tgt_edge);
+ pbqp_dump_node(pbqp->dump_file, tgt_node);
}
#endif
#if KAPS_DUMP
if (pbqp->dump_file) {
fputs("<br>\nAfter reduction:<br>\n", pbqp->dump_file);
- dump_edge(pbqp->dump_file, edge);
+ pbqp_dump_edge(pbqp->dump_file, edge);
}
#endif