/* mkDSTree.c */
#include "../GPart.h"
#include "../../DSTree.h"
#include "../../MSMD.h"
#include "../../BKL.h"
#include "../../ETree.h"
#include "../../Perm.h"
#include "../../IV.h"
#include "../../timings.h"
/*--------------------------------------------------------------------*/
int
main ( int argc, char *argv[] )
/*
---------------------------------------------------------------
test the recursive bisection algorithm that uses
(1) fishnet to get the domain decomposition
(2) domain/segment BKL to get the two set partition
(3) Dulmadge-Mendelsohn decomposition to smooth the bisector
the output is a DSTree object to hold the domain/separator tree
created -- 96mar09, cca
---------------------------------------------------------------
*/
{
char *inGraphFileName, *msgFileName, *outDSTreeFileName ;
DSTree *dstree ;
DDsepInfo *info ;
double alpha, freeze, msCPU, t1, t2 ;
FILE *msgFile ;
GPart *gpart ;
Graph *gf ;
int DDoption, maxdomweight, maxweight, minweight, msglvl,
nlayer, nvtx, rc, seed ;
if ( argc != 13 ) {
fprintf(stdout,
"\n\n usage : %s msglvl msgFile inGraphFile seed"
"\n minweight maxweight freeze alpha maxdomwght "
"\n DDoption nlayer outDSTreeFileName"
"\n msglvl -- message level"
"\n msgFile -- message file"
"\n inGraphFile -- input file, must be *.graphf or *.graphb"
"\n seed -- random number seed"
"\n minweight -- minimum domain weight"
"\n maxweight -- maximum domain weight"
"\n freeze -- cutoff multiplier for nodes of high degree"
"\n alpha -- cost function parameter"
"\n maxdomweight -- maximum subgraph weight"
"\n DDoption -- option for domain decomposition"
"\n 1 --> fishnet for each subgraph"
"\n 2 --> fishnet for graph, projection for each subgraph"
"\n nlayer -- number of layers for max flow improvement"
"\n outDSTreeFileName -- output file, must be *.dstreef"
"\n or *.dstreeb"
"\n", argv[0]) ;
return(0) ;
}
msglvl = atoi(argv[1]) ;
msgFileName = argv[2] ;
if ( strcmp(msgFileName, "stdout") == 0 ) {
msgFile = stdout ;
} else if ( (msgFile = fopen(msgFileName, "a")) == NULL ) {
fprintf(stderr, "\n fatal error in %s"
"\n unable to open file %s\n",
argv[0], msgFileName) ;
return(-1) ;
}
inGraphFileName = argv[3] ;
seed = atoi(argv[4]) ;
minweight = atoi(argv[5]) ;
maxweight = atoi(argv[6]) ;
freeze = atof(argv[7]) ;
alpha = atof(argv[8]) ;
maxdomweight = atoi(argv[9]) ;
DDoption = atoi(argv[10]) ;
nlayer = atoi(argv[11]) ;
outDSTreeFileName = argv[12] ;
fprintf(msgFile,
"\n %s : "
"\n msglvl -- %d"
"\n msgFile -- %s"
"\n inGraphFile -- %s"
"\n seed -- %d"
"\n minweight -- %d"
"\n maxweight -- %d"
"\n freeze -- %f"
"\n alpha -- %f"
"\n maxdomweight -- %d"
"\n DDoption -- %d"
"\n nlayer -- %d"
"\n outDSTreeFile -- %s"
"\n", argv[0], msglvl, msgFileName, inGraphFileName, seed,
minweight, maxweight, freeze, alpha, maxdomweight, DDoption,
nlayer, outDSTreeFileName) ;
fflush(msgFile) ;
/*
---------------------------------------
initialize the DDsep information object
---------------------------------------
*/
info = DDsepInfo_new() ;
info->seed = seed ;
info->minweight = minweight ;
info->maxweight = maxweight ;
info->freeze = freeze ;
info->alpha = alpha ;
info->DDoption = DDoption ;
info->maxcompweight = maxdomweight ;
info->nlayer = nlayer ;
info->msglvl = msglvl ;
info->msgFile = msgFile ;
/*
------------------------
read in the Graph object
------------------------
*/
if ( strcmp(inGraphFileName, "none") == 0 ) {
fprintf(msgFile, "\n no file to read from") ;
exit(0) ;
}
MARKTIME(t1) ;
gf = Graph_new() ;
Graph_setDefaultFields(gf) ;
if ( (rc = Graph_readFromFile(gf, inGraphFileName)) != 1 ) {
fprintf(msgFile, "\n return value %d from Graph_readFromFile(%p,%s)",
rc, gf, inGraphFileName) ;
exit(-1) ;
}
MARKTIME(t2) ;
fprintf(msgFile, "\n CPU %9.5f : read in graph from file %s",
t2 - t1, inGraphFileName) ;
nvtx = gf->nvtx ;
if ( msglvl < 4 ) {
Graph_writeStats(gf, msgFile) ;
fflush(msgFile) ;
} else {
Graph_writeForHumanEye(gf, msgFile) ;
fflush(msgFile) ;
}
/*
-----------------------
create the GPart object
-----------------------
*/
MARKTIME(t1) ;
gpart = GPart_new() ;
GPart_init(gpart, gf) ;
GPart_setMessageInfo(gpart, msglvl, msgFile) ;
MARKTIME(t2) ;
/*
------------------------------------------
get the DSTree object that represents the
domain/separator partition of the vertices
------------------------------------------
*/
MARKTIME(t1) ;
dstree = GPart_RBviaDDsep(gpart, info) ;
MARKTIME(t2) ;
msCPU = t2 - t1 ;
fprintf(msgFile, "\n\n CPU %9.5f : find subgraph tree ", msCPU) ;
DDsepInfo_writeCpuTimes(info, msgFile) ;
if ( msglvl > 0 ) {
fprintf(msgFile, "\n # subgraphs = %d", dstree->tree->n) ;
fflush(msgFile) ;
}
if ( msglvl > 2 ) {
fprintf(msgFile, "\n DSTree subgraph tree") ;
DSTree_writeForHumanEye(dstree, msgFile) ;
fflush(msgFile) ;
}
if ( msglvl > 2 ) {
fprintf(msgFile, "\n map from vertices to subgraphs") ;
IV_writeForHumanEye(dstree->mapIV, msgFile) ;
fflush(msgFile) ;
}
DDsepInfo_free(info) ;
/*
--------------------------------------------
renumber the tree via a post-order traversal
--------------------------------------------
*/
DSTree_renumberViaPostOT(dstree) ;
if ( msglvl > 2 ) {
fprintf(msgFile, "\n renumbered DSTree subgraph tree") ;
DSTree_writeForHumanEye(dstree, msgFile) ;
fflush(msgFile) ;
}
/*
--------------------------------------------
optionally write the DSTree object to a file
--------------------------------------------
*/
if ( strcmp(outDSTreeFileName, "none") != 0 ) {
DSTree_writeToFile(dstree, outDSTreeFileName) ;
}
/*
----------------------------
free all the working storage
----------------------------
*/
Graph_free(gpart->g) ;
GPart_free(gpart) ;
DSTree_free(dstree) ;
fprintf(msgFile, "\n") ;
fclose(msgFile) ;
return(1) ; }
/*--------------------------------------------------------------------*/
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