d983323cd2570af1cf3971763d14ef2d88c06fe4 jcasper Wed Feb 19 17:00:19 2025 -0800 sqlTableSize needs to support tables with more than 2B rows (rarely, but it does), refs #35262 diff --git src/hg/oneShot/findToFixBedGraphLimits/findToFixBedGraphLimits.c src/hg/oneShot/findToFixBedGraphLimits/findToFixBedGraphLimits.c index c8d20e6dc1a..da66f635914 100644 --- src/hg/oneShot/findToFixBedGraphLimits/findToFixBedGraphLimits.c +++ src/hg/oneShot/findToFixBedGraphLimits/findToFixBedGraphLimits.c @@ -1,116 +1,116 @@ /* findToFixBedGraphLimits - Scan through ra file of bedGraphs and calculate limits.. */ /* Copyright (C) 2013 The Regents of the University of California * See kent/LICENSE or http://genome.ucsc.edu/license/ for licensing information. */ #include "common.h" #include "linefile.h" #include "hash.h" #include "options.h" #include "ra.h" #include "jksql.h" void usage() /* Explain usage and exit. */ { errAbort( "findToFixBedGraphLimits - Scan through ra file of bedGraphs and calculate limits.\n" "usage:\n" " findToFixBedGraphLimits input.ra output.ra\n" "options:\n" " -xxx=XXX\n" ); } static struct optionSpec options[] = { {NULL, 0}, }; static char *mustFindVal(struct slPair *list, char *tag, struct lineFile *lf) /* Look for tag in list and return value. If none complain and abort. */ { char *val = slPairFindVal(list, tag); if (val == NULL) errAbort("missing required %s tag near line %d of %s", tag, lf->lineIx, lf->fileName); return val; } void findToFixBedGraphLimits(char *input, char *output) /* findToFixBedGraphLimits - Scan through ra file of bedGraphs and calculate limits.. */ { struct lineFile *lf = lineFileOpen(input, TRUE); FILE *f = mustOpen(output, "w"); struct slPair *el, *list; while ((list = raNextRecordAsSlPairList(lf)) != NULL) { /* Find required fields for calcs. */ char *db = mustFindVal(list, "db", lf); char *track = mustFindVal(list, "track", lf); char *type = cloneString(mustFindVal(list, "type", lf)); /* Parse out type value, which should be "bedGraph 4" and put the 4 or whatever other number * in dataFieldIndex. */ char *typeWords[3]; int typeWordCount = chopLine(type, typeWords); if (typeWordCount != 2 || !sameString(typeWords[0], "bedGraph")) errAbort("Not well formed bedGraph type line %d of %s", lf->lineIx, lf->fileName); int dataFieldIndex = sqlUnsigned(typeWords[1]); /* Figure out field corresponding to dataFieldIndex. */ struct sqlConnection *conn = sqlConnect(db); struct slName *fieldList = sqlFieldNames(conn, track); struct slName *pastBin = fieldList; if (sameString(pastBin->name, "bin")) pastBin = pastBin->next; struct slName *fieldName = slElementFromIx(pastBin, dataFieldIndex - 1); if (fieldName == NULL) errAbort("%s doesn't have enough fields", track); char *field = fieldName->name; assert(sqlFieldIndex(conn, track, field) >= 0); /* Print reassuring status message */ - verbose(1, "%s.%s has %d elements. Data field is %s\n", db, track, sqlTableSize(conn, track), field); + verbose(1, "%s.%s has %ld elements. Data field is %s\n", db, track, sqlTableSize(conn, track), field); /* Get min/max dataValues in fields. Do it ourselves rather than using SQL min/max because sometimes * the data field is a name column.... */ char query[512]; sqlSafef(query, sizeof(query), "select %s from %s", field, track); struct sqlResult *sr = sqlGetResult(conn, query); char **row; row = sqlNextRow(sr); assert(row != NULL); double val = sqlDouble(row[0]); double minLimit = val, maxLimit = val; while ((row = sqlNextRow(sr)) != 0) { double val = sqlDouble(row[0]); if (val < minLimit) minLimit = val; if (val > maxLimit) maxLimit = val; } sqlFreeResult(&sr); verbose(1, " %g %g\n", minLimit, maxLimit); /* Output original table plus new minLimit/maxLimit. */ for (el = list; el != NULL; el = el->next) fprintf(f, "%s %s\n", el->name, (char *)el->val); fprintf(f, "minLimit %g\n", minLimit); fprintf(f, "maxLimit %g\n", maxLimit); fprintf(f, "\n"); sqlDisconnect(&conn); slFreeList(&fieldList); slPairFreeValsAndList(&list); } lineFileClose(&lf); carefulClose(&f); } int main(int argc, char *argv[]) /* Process command line. */ { optionInit(&argc, argv, options); if (argc != 3) usage(); findToFixBedGraphLimits(argv[1], argv[2]); return 0; }