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view xthresh.c @ 405:ef4792df8f93 api-inversion

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invert audioDB::insert / audiodb_insert(). Start off by removing audioDB::insertDatum, and essentially reusing it as audiodb_insert. We now ignore the fact that the command-line parsing code has "helpfully" opened a std::ifstream for the times file and an fd for the power file, and simply go ahead and do our own dirty work. We can delete audioDB::insertDatum entirely, but unfortunately we can't delete audioDB::insertPowerData and audioDB::insertTimestamps, because the index and query code respectively use them. Instead, move the two methods closer to their single uses. audiodb_insert() is perhaps not as short and simple as it might have been hoped given the existence of audiodb_insert_datum(); some of that is C and its terribly way of making you pay every time you use dynamic memory; some of it is the fact that the three different files (feature, times, power) each requires slightly different treatment. Hey ho. We can implement audiodb_batchinsert() in terms of audiodb_insert(); the function is pleasingly small. We can't quite use it for audioDB::batchinsert yet, as we have to deal with the O2_FLAG_LARGE_ADB case (which codepath is untested in libtests/). This means that we can delete whole swathes of hideous code from audioDB.cpp, including not just the versions of audiodb_insert() and audiodb_batchinsert() but also an entire audioDB constructor. Yay. (audioDB::unitNormAndInsertL2 has also died a deserved death).
author mas01cr
date Fri, 05 Dec 2008 22:32:49 +0000
parents 3be15407e814
children
line wrap: on
line source
#include <gsl/gsl_sf.h>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>

int main(int argc, char *argv[]) {
  if(argc != 4) {
    fprintf(stderr, "Wrong number of arguments: %d\n", argc);
    exit(1);
  }

  long int meanN = strtol(argv[1], NULL, 10);

  double d = strtod(argv[2], NULL);
  double sigma2 = strtod(argv[3], NULL);

  double logw = (2 / d) * gsl_sf_log(-gsl_sf_log(0.99));
  double logxthresh = gsl_sf_log(sigma2) + logw
    - (2 / d) * gsl_sf_log(meanN)
    - gsl_sf_log(d/2)
    - (2 / d) * gsl_sf_log(2 / d)
    + (2 / d) * gsl_sf_lngamma(d / 2);

  printf("w: %f\n", exp(logw));
  printf("x_thresh: %f\n", exp(logxthresh));
  exit(0);
}