ref: b4445fb25f9c4bc904a4782f9ad8a4fa1afd2b79
dir: /python/tests/test_peakpicker.py.old/
#! /usr/bin/env python from numpy.testing import TestCase, assert_equal, assert_almost_equal from aubio import peakpicker, fvec class aubio_peakpicker(TestCase): def test_members(self): o = peakpicker() def test_peakpicker_zeroes(self): o = peakpicker() assert_equal(o.get_thresholded_input(), 0.) def test_peakpick_set_threshold(self): o = peakpicker() new_threshold = threshold o.set_threshold(new_threshold) assert_almost_equal(new_threshold, o.get_threshold()) def test_peakpicker_get_threshold(self): o = peakpicker() new_threshold = o.get_threshold() o.set_threshold(new_threshold) assert_equal(new_threshold, o.get_threshold()) buf_size = 1024 slice_size = 5 delay = 1 threshold = .9 class aubio_peakpicker_peaks(TestCase): def setUp(self): self.o = peakpicker() self.o.set_threshold (threshold) self.vec = fvec(buf_size) def test_peakpicker_impulse(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. self.peaks = [a] def test_peakpicker_ramp_up(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. / 4. * 1. vec[a+1] = 1000. / 4. * 2. vec[a+2] = 1000. / 4. * 3. vec[a+3] = 1000. self.peaks = [a+1] def test_peakpicker_ramp_down(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. vec[a+1] = 1000. / 4. * 3. vec[a+2] = 1000. / 4. * 2. vec[a+3] = 1000. / 4. * 1. self.peaks = [a] def test_peakpicker_plateau(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. / 2 vec[a+1] = 1000. vec[a+2] = 1000. vec[a+3] = 1000. vec[a+4] = 1000. / 2 self.peaks = [a+1] def test_peakpicker_consecutive_peaks(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. / 2 vec[a+1] = 1000. vec[a+3] = 1000. vec[a+4] = 1000. / 2 self.peaks = [a] def test_peakpicker_distant_peaks(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. vec[a+7] = 1000. self.peaks = [a, a+7] def test_peakpicker_very_distant_peaks(self): vec = self.vec; o = self.o a = 345 vec[a] = 1000. vec[a+67] = 1000. self.peaks = [a, a+67] def tearDown(self): fpeaks = [] for index in range(0,buf_size-slice_size): sliced = self.vec[index:index+slice_size] findex = self.o(sliced) if findex: # we found a peak fpeak = index - findex - delay #print self.peaks, index, '-', findex, '-', delay, '=', fpeak if not round(index - findex - delay) in self.peaks: self.fail('missing peak ' + str(fpeak)) fpeaks.append(fpeak) if len(fpeaks) != len(self.peaks): self.fail('some peaks of ' + str(self.peaks) + 'were not found, got only ' + str(fpeaks)) #print #print fpeaks, self.peaks if __name__ == '__main__': from unittest import main main()