Annotation of OpenXM/src/Ti/tigers.c, Revision 1.1
1.1 ! maekawa 1: /*
! 2: ** tigers.c Birk Huber, 2/99
! 3: ** -- reverse search loop and main calling program for tigers.
! 4: **
! 5: **
! 6: ** TiGERS, Toric Groebner Basis Enumeration by Reverse Search
! 7: ** copyright (c) 1999 Birk Huber
! 8: **
! 9: */
! 10: #include<stdio.h>
! 11: #include<stdlib.h>
! 12: #include "utils.h"
! 13: #include "gset.h"
! 14: int rsearch_cache=TRUE;
! 15: extern int NT;
! 16:
! 17: /*
! 18: ** Output initial ideals and numbers of facets at each stage.
! 19: */
! 20: FILE *outfile;
! 21: int print_init=TRUE;
! 22: int print_tree=TRUE;
! 23:
! 24: int stats_minfacets=-1;
! 25: int stats_minelts=-1;
! 26: int stats_mindeg=-1;
! 27: int stats_maxfacets=0;
! 28: int stats_maxelts=0;
! 29: int stats_maxdeg=0;
! 30: int stats_tdepth=0;
! 31: int stats_ecounter=0;
! 32:
! 33: #define max(a,b) (((a)>(b))?(a):(b))
! 34: #define min(a,b) (((a)<(b))?(a):(b))
! 35: void vertex_print(gset g1){
! 36: if (NT == 1) {
! 37: gset_print(outfile,g1); fprintf(outfile," ,\n");
! 38: }else{
! 39: stats_maxfacets=max(gset_nfacets(g1),stats_maxfacets);
! 40: stats_maxelts=max(gset_nelts(g1),stats_maxelts);
! 41: stats_maxdeg=max(gset_deg(g1),stats_maxdeg);
! 42: if (stats_minfacets<0) stats_minfacets=gset_nfacets(g1);
! 43: else stats_minfacets=min(stats_minfacets,gset_nfacets(g1));
! 44: if (stats_minelts<0) stats_minelts=gset_nelts(g1);
! 45: else stats_minelts=min(stats_minelts,gset_nelts(g1));
! 46: if (stats_mindeg<0) stats_mindeg=gset_deg(g1);
! 47: else stats_mindeg=min(stats_mindeg,gset_deg(g1));
! 48: fprintf(outfile,"Vtx: %d (%d facets/%d binomials/degree %d)\n",
! 49: gset_id(g1),gset_nfacets(g1),gset_nelts(g1),gset_deg(g1));
! 50: if (print_init==TRUE){
! 51: fprintf(outfile," Initial ideal:");gset_init_print(outfile,g1);
! 52: fprintf(outfile,"\n Facet Binomials:");gset_facet_print(outfile,g1);
! 53: }
! 54: else gset_print(outfile,g1);
! 55: if (print_tree==TRUE && rsearch_cache==TRUE && gset_cache_vtx(g1)!=0){
! 56: fprintf(outfile,"\n Reducing Edge: [%d,%d]",
! 57: gset_id(g1),gset_id(gset_cache_vtx(g1)));
! 58: }
! 59: fprintf(outfile,"\n");
! 60: }
! 61: }
! 62:
! 63:
! 64: int rsearch(gset g1){
! 65: gset G1,G2=0;
! 66: binomial b=0,btmp;
! 67: int counter=0,done=FALSE, depth=0;
! 68:
! 69: stats_tdepth=0;
! 70: stats_ecounter=0;
! 71:
! 72: /* make copy of first grobner basis */
! 73: G1=gset_new();
! 74: for(b=gset_first(g1);b!=0;b=binomial_next(b)){
! 75: btmp=binomial_new();
! 76: binomial_copy(b,btmp);
! 77: gset_insert(G1,btmp);
! 78: }
! 79:
! 80:
! 81: /* Do groebner walk to grobner basis wrt default term order*/
! 82: while((b=gset_downedge(G1))!=0){
! 83: fprintf(stderr,"Warning: rsearch doing walk to get to root\n");
! 84: G2=gset_flip(G1,b);
! 85: gset_free(G1);
! 86: G1=G2;
! 87: }
! 88: btmp=(b=gset_first(G1));
! 89:
! 90: /* output first groebner basis*/
! 91: gset_setfacets(G1);
! 92: gset_id(G1)=++counter;
! 93: vertex_print(G1);
! 94:
! 95: while(done==FALSE){
! 96: while(b!=0){
! 97: if (gset_isfacet(G1,b)==TRUE && binomial_ordered(b)==TRUE){
! 98: stats_ecounter++;
! 99: G2=gset_flip(G1,b);
! 100: btmp=gset_downedge(G2);
! 101: if (monomial_equal(binomial_lead(b),binomial_trail(btmp))==TRUE &&
! 102: monomial_equal(binomial_trail(b),binomial_lead(btmp))==TRUE ){
! 103: if (rsearch_cache==TRUE){
! 104: gset_cache_vtx(G2)=G1;
! 105: gset_cache_edge(G2)=b->next;
! 106: }
! 107: else{
! 108: gset_free(G1);
! 109: }
! 110: G1=G2;
! 111: depth++;
! 112: if (stats_tdepth<depth) stats_tdepth=depth;
! 113: b=gset_first(G1);
! 114: gset_setfacets(G1);
! 115: gset_id(G1)=++counter;
! 116: vertex_print(G1);
! 117: }
! 118: else {
! 119: gset_free(G2);
! 120: b=binomial_next(b);
! 121: }
! 122: }
! 123: else b=binomial_next(b);
! 124: }
! 125: depth--;
! 126: if (rsearch_cache==TRUE){
! 127: b=gset_cache_edge(G1);
! 128: if ((G2=gset_cache_vtx(G1))==0) done=TRUE;
! 129: else{
! 130: gset_free(G1);
! 131: G1=G2;
! 132: }
! 133: }
! 134: else{
! 135: if ((btmp=gset_downedge(G1))==0) done=TRUE;
! 136: else{
! 137: G2=gset_flip(G1,btmp);
! 138: b=gset_first(G2);
! 139: while(monomial_equal(binomial_lead(b),binomial_trail(btmp))==FALSE){
! 140: b=binomial_next(b);
! 141: }
! 142: b=binomial_next(b);
! 143: gset_free(G1);
! 144: G1=G2;
! 145: }
! 146: }
! 147: }
! 148: gset_free(G1);
! 149: return counter;
! 150: }
! 151:
! 152:
! 153:
! 154:
! 155:
! 156:
! 157:
! 158:
! 159:
! 160:
! 161:
! 162:
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