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view liszt.cpp @ 404:1fb8bee777e5 api-inversion

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Begin working towards inverting audioDB::insert() / audiodb_insert(). New data type audiodb_datum_t, roughly corresponding to a "track" in current audioDB parlance; it contains exactly the feature information and metadata to record. New function audiodb_insert_datum() to insert one of these audiodb_datum_t objects into the database; the intention is that not only can insertion of feature files be implemented in terms of this function, but that it will be a useful function in its own right, callable perhaps from PD, Max/MSP, and/or a VAMP plugin. This function is complicated enough that it actually gets a comment. Implement audioDB::insert() in terms of audiodb_insert_datum(), via a wrapper which handles the slightly wacky error/non-error case of attempting to insert features with a key that already exists in the database. Delete whole rafts of code. We can't quite delete everything because there's batchinsert / batchinsert_large_adb to sort out; the good news is that the batchinsert operation can simply be implemented as a loop around audiodb_insert_datum() without loss of efficiency. (There's also a stray extra audiodb_insert() in libtests/0027/, found through an earlier iteration of this patch.)
author mas01cr
date Fri, 05 Dec 2008 22:32:43 +0000
parents 4ded52b104e6
children e18843dc0aea
line wrap: on
line source
#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;
  }
  
}