The lesser of two evils, part 2. Implement paths through audiodb_insert_datum_internal() for databases with O2_FLAG_LARGE_ADB, including in some of the helper functions. Most of the nasty stuff is concentrated in writing out the paths in what is now step 6, and everything else looks much as before, apart from a renumbering of the steps taken. Now we can implement audiodb_insert() for O2_FLAG_LARGE_ADB databases; we need to construct an adb_datum_internal_t from our adb_insert_t, but that's straightforward -- even just about straightforward enough to do it inline. Then audioDB::batchinsert() can be rewritten completely in terms of API functions, and doesn't need any kind of special treatment for the large case. Hooray. The real point of that is of course that we can now delete wodges of dead code, and move out audioDB::insert and audioDB::batchinsert into audioDB.cpp, because all they're doing now is dealing with command-line logic. This point marks the limit of what can be achieved in terms of "API inversion" at this time; the only remaining function, audiodb_query() / audioDB::query cannot be inverted because its API implementation is incomplete. Future plans, in some order: - merge this branch to trunk (check with current API/ABI clients); - complete audiodb_query() implementation; - invert audioDB::query / audiodb_query(); - MORE TESTS; - remove audioDB.cpp from list of files compiled into the library; - implement missing API functions (index, liszt, sample) directly; - source code rearrangement into library and command-line directories; - include bindings to library for some plausible candidate environments (Perl, Python, Lisp, Pd, Max/MSP) as examples; - API documentation.

#include "audioDB.h"

void audioDB::liszt(const char* dbName, unsigned offset, unsigned numLines, adb__lisztResponse* adbLisztResponse){
  if(!dbH) {
    initTables(dbName, 0);
  }

  assert(trackTable && fileTable);

  if(offset>dbH->numFiles){
    char tmpStr[MAXSTR];
    sprintf(tmpStr, "numFiles=%u, lisztOffset=%u", dbH->numFiles, offset);
    error("listKeys offset out of range", tmpStr);
  }

  if(!adbLisztResponse){
    for(Uns32T k=0; k<numLines && offset+k<dbH->numFiles; k++){
      fprintf(stdout, "[%d] %s (%d)\n", offset+k, fileTable+(offset+k)*O2_FILETABLE_ENTRY_SIZE, trackTable[offset+k]);
    }
  }
  else{
    adbLisztResponse->result.Rkey = new char*[numLines];
    adbLisztResponse->result.Rlen = new unsigned int[numLines];
    Uns32T k = 0;
    for( ; k<numLines && offset+k<dbH->numFiles; k++){    
      adbLisztResponse->result.Rkey[k] = new char[MAXSTR];
      snprintf(adbLisztResponse->result.Rkey[k], O2_MAXFILESTR, "%s", fileTable+(offset+k)*O2_FILETABLE_ENTRY_SIZE);
      adbLisztResponse->result.Rlen[k] = trackTable[offset+k];
    }
    adbLisztResponse->result.__sizeRkey = k;
    adbLisztResponse->result.__sizeRlen = k;
  }
  
}