/* pseudoGeneLink.c was originally generated by the autoSql program, which also * generated pseudoGeneLink.h and pseudoGeneLink.sql. This module links the database and * the RAM representation of objects. */ /* Copyright (C) 2014 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 "dystring.h" #include "jksql.h" #include "pseudoGeneLink.h" struct pseudoGeneLink *pseudoGeneLinkLoad(char **row) /* Load a pseudoGeneLink from row fetched with select * from pseudoGeneLink * from database. Dispose of this with pseudoGeneLinkFree(). */ { struct pseudoGeneLink *ret; AllocVar(ret); ret->blockCount = sqlSigned(row[9]); ret->chrom = cloneString(row[0]); ret->chromStart = sqlUnsigned(row[1]); ret->chromEnd = sqlUnsigned(row[2]); ret->name = cloneString(row[3]); ret->score = sqlUnsigned(row[4]); strcpy(ret->strand, row[5]); ret->thickStart = sqlUnsigned(row[6]); ret->thickEnd = sqlUnsigned(row[7]); ret->reserved = sqlUnsigned(row[8]); { int sizeOne; sqlSignedDynamicArray(row[10], &ret->blockSizes, &sizeOne); assert(sizeOne == ret->blockCount); } { int sizeOne; sqlSignedDynamicArray(row[11], &ret->chromStarts, &sizeOne); assert(sizeOne == ret->blockCount); } ret->trfRatio = atof(row[12]); ret->type = cloneString(row[13]); ret->axtScore = sqlSigned(row[14]); ret->gChrom = cloneString(row[15]); ret->gStart = sqlSigned(row[16]); ret->gEnd = sqlSigned(row[17]); strcpy(ret->gStrand, row[18]); ret->exonCount = sqlUnsigned(row[19]); ret->geneOverlap = sqlUnsigned(row[20]); ret->polyA = sqlUnsigned(row[21]); ret->polyAstart = sqlSigned(row[22]); ret->exonCover = sqlSigned(row[23]); ret->intronCount = sqlUnsigned(row[24]); ret->bestAliCount = sqlUnsigned(row[25]); ret->matches = sqlUnsigned(row[26]); ret->qSize = sqlUnsigned(row[27]); ret->qEnd = sqlUnsigned(row[28]); ret->tReps = sqlUnsigned(row[29]); ret->overlapRhesus = sqlSigned(row[30]); ret->overlapMouse = sqlSigned(row[31]); ret->coverage = sqlUnsigned(row[32]); ret->label = sqlSigned(row[33]); ret->milliBad = sqlUnsigned(row[34]); ret->oldScore = sqlUnsigned(row[35]); ret->oldIntronCount = sqlSigned(row[36]); ret->processedIntrons = sqlSigned(row[37]); ret->conservedSpliceSites = sqlSigned(row[38]); ret->maxOverlap = sqlSigned(row[39]); ret->refSeq = cloneString(row[40]); ret->rStart = sqlSigned(row[41]); ret->rEnd = sqlSigned(row[42]); ret->mgc = cloneString(row[43]); ret->mStart = sqlSigned(row[44]); ret->mEnd = sqlSigned(row[45]); ret->kgName = cloneString(row[46]); ret->kStart = sqlSigned(row[47]); ret->kEnd = sqlSigned(row[48]); ret->overName = cloneString(row[49]); ret->overStart = sqlSigned(row[50]); ret->overEnd = sqlSigned(row[51]); strcpy(ret->overStrand, row[52]); ret->overlapDog = sqlSigned(row[53]); ret->posConf = atof(row[54]); ret->polyAlen = sqlUnsigned(row[55]); return ret; } struct pseudoGeneLink *pseudoGeneLinkLoadAll(char *fileName) /* Load all pseudoGeneLink from a whitespace-separated file. * Dispose of this with pseudoGeneLinkFreeList(). */ { struct pseudoGeneLink *list = NULL, *el; struct lineFile *lf = lineFileOpen(fileName, TRUE); char *row[56]; while (lineFileRow(lf, row)) { el = pseudoGeneLinkLoad(row); slAddHead(&list, el); } lineFileClose(&lf); slReverse(&list); return list; } struct pseudoGeneLink *pseudoGeneLinkLoadAllByChar(char *fileName, char chopper) /* Load all pseudoGeneLink from a chopper separated file. * Dispose of this with pseudoGeneLinkFreeList(). */ { struct pseudoGeneLink *list = NULL, *el; struct lineFile *lf = lineFileOpen(fileName, TRUE); char *row[56]; while (lineFileNextCharRow(lf, chopper, row, ArraySize(row))) { el = pseudoGeneLinkLoad(row); slAddHead(&list, el); } lineFileClose(&lf); slReverse(&list); return list; } struct pseudoGeneLink *pseudoGeneLinkCommaIn(char **pS, struct pseudoGeneLink *ret) /* Create a pseudoGeneLink out of a comma separated string. * This will fill in ret if non-null, otherwise will * return a new pseudoGeneLink */ { char *s = *pS; if (ret == NULL) AllocVar(ret); ret->chrom = sqlStringComma(&s); ret->chromStart = sqlUnsignedComma(&s); ret->chromEnd = sqlUnsignedComma(&s); ret->name = sqlStringComma(&s); ret->score = sqlUnsignedComma(&s); sqlFixedStringComma(&s, ret->strand, sizeof(ret->strand)); ret->thickStart = sqlUnsignedComma(&s); ret->thickEnd = sqlUnsignedComma(&s); ret->reserved = sqlUnsignedComma(&s); ret->blockCount = sqlSignedComma(&s); { int i; s = sqlEatChar(s, '{'); AllocArray(ret->blockSizes, ret->blockCount); for (i=0; iblockCount; ++i) { ret->blockSizes[i] = sqlSignedComma(&s); } s = sqlEatChar(s, '}'); s = sqlEatChar(s, ','); } { int i; s = sqlEatChar(s, '{'); AllocArray(ret->chromStarts, ret->blockCount); for (i=0; iblockCount; ++i) { ret->chromStarts[i] = sqlSignedComma(&s); } s = sqlEatChar(s, '}'); s = sqlEatChar(s, ','); } ret->trfRatio = sqlFloatComma(&s); ret->type = sqlStringComma(&s); ret->axtScore = sqlSignedComma(&s); ret->gChrom = sqlStringComma(&s); ret->gStart = sqlSignedComma(&s); ret->gEnd = sqlSignedComma(&s); sqlFixedStringComma(&s, ret->gStrand, sizeof(ret->gStrand)); ret->exonCount = sqlUnsignedComma(&s); ret->geneOverlap = sqlUnsignedComma(&s); ret->polyA = sqlUnsignedComma(&s); ret->polyAstart = sqlSignedComma(&s); ret->exonCover = sqlSignedComma(&s); ret->intronCount = sqlUnsignedComma(&s); ret->bestAliCount = sqlUnsignedComma(&s); ret->matches = sqlUnsignedComma(&s); ret->qSize = sqlUnsignedComma(&s); ret->qEnd = sqlUnsignedComma(&s); ret->tReps = sqlUnsignedComma(&s); ret->overlapRhesus = sqlSignedComma(&s); ret->overlapMouse = sqlSignedComma(&s); ret->coverage = sqlUnsignedComma(&s); ret->label = sqlSignedComma(&s); ret->milliBad = sqlUnsignedComma(&s); ret->oldScore = sqlUnsignedComma(&s); ret->oldIntronCount = sqlSignedComma(&s); ret->processedIntrons = sqlSignedComma(&s); ret->conservedSpliceSites = sqlSignedComma(&s); ret->maxOverlap = sqlSignedComma(&s); ret->refSeq = sqlStringComma(&s); ret->rStart = sqlSignedComma(&s); ret->rEnd = sqlSignedComma(&s); ret->mgc = sqlStringComma(&s); ret->mStart = sqlSignedComma(&s); ret->mEnd = sqlSignedComma(&s); ret->kgName = sqlStringComma(&s); ret->kStart = sqlSignedComma(&s); ret->kEnd = sqlSignedComma(&s); ret->overName = sqlStringComma(&s); ret->overStart = sqlSignedComma(&s); ret->overEnd = sqlSignedComma(&s); sqlFixedStringComma(&s, ret->overStrand, sizeof(ret->overStrand)); ret->overlapDog = sqlSignedComma(&s); ret->posConf = sqlFloatComma(&s); ret->polyAlen = sqlUnsignedComma(&s); *pS = s; return ret; } void pseudoGeneLinkFree(struct pseudoGeneLink **pEl) /* Free a single dynamically allocated pseudoGeneLink such as created * with pseudoGeneLinkLoad(). */ { struct pseudoGeneLink *el; if ((el = *pEl) == NULL) return; freeMem(el->chrom); freeMem(el->name); freeMem(el->blockSizes); freeMem(el->chromStarts); freeMem(el->type); freeMem(el->gChrom); freeMem(el->refSeq); freeMem(el->mgc); freeMem(el->kgName); freeMem(el->overName); freez(pEl); } void pseudoGeneLinkFreeList(struct pseudoGeneLink **pList) /* Free a list of dynamically allocated pseudoGeneLink's */ { struct pseudoGeneLink *el, *next; for (el = *pList; el != NULL; el = next) { next = el->next; pseudoGeneLinkFree(&el); } *pList = NULL; } void pseudoGeneLinkOutput(struct pseudoGeneLink *el, FILE *f, char sep, char lastSep) /* Print out pseudoGeneLink. Separate fields with sep. Follow last field with lastSep. */ { if (sep == ',') fputc('"',f); fprintf(f, "%s", el->chrom); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%u", el->chromStart); fputc(sep,f); fprintf(f, "%u", el->chromEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->name); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%u", el->score); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->strand); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%u", el->thickStart); fputc(sep,f); fprintf(f, "%u", el->thickEnd); fputc(sep,f); fprintf(f, "%u", el->reserved); fputc(sep,f); fprintf(f, "%d", el->blockCount); fputc(sep,f); { int i; if (sep == ',') fputc('{',f); for (i=0; iblockCount; ++i) { fprintf(f, "%d", el->blockSizes[i]); fputc(',', f); } if (sep == ',') fputc('}',f); } fputc(sep,f); { int i; if (sep == ',') fputc('{',f); for (i=0; iblockCount; ++i) { fprintf(f, "%d", el->chromStarts[i]); fputc(',', f); } if (sep == ',') fputc('}',f); } fputc(sep,f); fprintf(f, "%g", el->trfRatio); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->type); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->axtScore); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->gChrom); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->gStart); fputc(sep,f); fprintf(f, "%d", el->gEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->gStrand); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%u", el->exonCount); fputc(sep,f); fprintf(f, "%u", el->geneOverlap); fputc(sep,f); fprintf(f, "%u", el->polyA); fputc(sep,f); fprintf(f, "%d", el->polyAstart); fputc(sep,f); fprintf(f, "%d", el->exonCover); fputc(sep,f); fprintf(f, "%u", el->intronCount); fputc(sep,f); fprintf(f, "%u", el->bestAliCount); fputc(sep,f); fprintf(f, "%u", el->matches); fputc(sep,f); fprintf(f, "%u", el->qSize); fputc(sep,f); fprintf(f, "%u", el->qEnd); fputc(sep,f); fprintf(f, "%u", el->tReps); fputc(sep,f); fprintf(f, "%d", el->overlapRhesus); fputc(sep,f); fprintf(f, "%d", el->overlapMouse); fputc(sep,f); fprintf(f, "%u", el->coverage); fputc(sep,f); fprintf(f, "%d", el->label); fputc(sep,f); fprintf(f, "%u", el->milliBad); fputc(sep,f); fprintf(f, "%u", el->oldScore); fputc(sep,f); fprintf(f, "%d", el->oldIntronCount); fputc(sep,f); fprintf(f, "%d", el->processedIntrons); fputc(sep,f); fprintf(f, "%d", el->conservedSpliceSites); fputc(sep,f); fprintf(f, "%d", el->maxOverlap); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->refSeq); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->rStart); fputc(sep,f); fprintf(f, "%d", el->rEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->mgc); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->mStart); fputc(sep,f); fprintf(f, "%d", el->mEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->kgName); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->kStart); fputc(sep,f); fprintf(f, "%d", el->kEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->overName); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->overStart); fputc(sep,f); fprintf(f, "%d", el->overEnd); fputc(sep,f); if (sep == ',') fputc('"',f); fprintf(f, "%s", el->overStrand); if (sep == ',') fputc('"',f); fputc(sep,f); fprintf(f, "%d", el->overlapDog); fputc(sep,f); fprintf(f, "%g", el->posConf); fputc(sep,f); fprintf(f, "%u", el->polyAlen); fputc(lastSep,f); } /* -------------------------------- End autoSql Generated Code -------------------------------- */