/* genomicSuperDups.h was originally generated by the autoSql program, which also * generated genomicSuperDups.c and genomicSuperDups.sql. This header links the database and * the RAM representation of objects. */ #ifndef GENOMICSUPERDUPS_H #define GENOMICSUPERDUPS_H struct genomicSuperDups /* Summary of large genomic Duplications (>1KB >90% similar) */ { struct genomicSuperDups *next; /* Next in singly linked list. */ char *chrom; /* Human chromosome or FPC contig */ unsigned chromStart; /* Start position in chromosome */ unsigned chromEnd; /* End position in chromosome */ char *name; /* Other chromosome involved */ unsigned score; /* Score from 900-1000. 1000 is best */ char strand[2]; /* Value should be + or - */ char *otherChrom; /* Other Human chromosome or FPC contig */ unsigned otherStart; /* Start in other sequence */ unsigned otherEnd; /* End in other sequence */ unsigned otherSize; /* Total size of other sequence */ unsigned uid; /* unique id */ unsigned posBasesHit; /* HitPositive UnCovered */ char *testResult; /* HitPositive (yes or no) UnCovered (covered=0) */ char *verdict; /* Real or Allele */ char *chits; /* dup positive coverage */ char *ccov; /* clone coverage celera screened */ char *alignfile; /* alignment file path */ unsigned alignL; /* spaces/positions in alignment */ unsigned indelN; /* number of indels */ unsigned indelS; /* indel spaces */ unsigned alignB; /* bases Aligned */ unsigned matchB; /* aligned bases that match */ unsigned mismatchB; /* aligned bases that do not match */ unsigned transitionsB; /* number of transitions */ unsigned transversionsB; /* number of transversions */ float fracMatch; /* fraction of matching bases */ float fracMatchIndel; /* fraction of matching bases with indels */ float jcK; /* K-value calculated with Jukes-Cantor */ float k2K; /* Kimura K */ }; void genomicSuperDupsStaticLoad(char **row, struct genomicSuperDups *ret); /* Load a row from genomicSuperDups table into ret. The contents of ret will * be replaced at the next call to this function. */ struct genomicSuperDups *genomicSuperDupsLoad(char **row); /* Load a genomicSuperDups from row fetched with select * from genomicSuperDups * from database. Dispose of this with genomicSuperDupsFree(). */ struct genomicSuperDups *genomicSuperDupsLoadAll(char *fileName); /* Load all genomicSuperDups from a tab-separated file. * Dispose of this with genomicSuperDupsFreeList(). */ struct genomicSuperDups *genomicSuperDupsLoadWhere(struct sqlConnection *conn, char *table, char *where); /* Load all genomicSuperDups from table that satisfy where clause. The * where clause may be NULL in which case whole table is loaded * Dispose of this with genomicSuperDupsFreeList(). */ struct genomicSuperDups *genomicSuperDupsCommaIn(char **pS, struct genomicSuperDups *ret); /* Create a genomicSuperDups out of a comma separated string. * This will fill in ret if non-null, otherwise will * return a new genomicSuperDups */ void genomicSuperDupsFree(struct genomicSuperDups **pEl); /* Free a single dynamically allocated genomicSuperDups such as created * with genomicSuperDupsLoad(). */ void genomicSuperDupsFreeList(struct genomicSuperDups **pList); /* Free a list of dynamically allocated genomicSuperDups's */ void genomicSuperDupsOutput(struct genomicSuperDups *el, FILE *f, char sep, char lastSep); /* Print out genomicSuperDups. Separate fields with sep. Follow last field with lastSep. */ #define genomicSuperDupsTabOut(el,f) genomicSuperDupsOutput(el,f,'\t','\n'); /* Print out genomicSuperDups as a line in a tab-separated file. */ #define genomicSuperDupsCommaOut(el,f) genomicSuperDupsOutput(el,f,',',','); /* Print out genomicSuperDups as a comma separated list including final comma. */ #endif /* GENOMICSUPERDUPS_H */