Mercurial > hg > aimc

annotate src/Modules/BMM/ModuleGammatone_test.py @ 21:d386805133f1

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-Added necessary header files for linux build -Temporarily commented out the test target in order to prevent loads of warnings from SCons.
author tomwalters
date Mon, 22 Feb 2010 18:10:55 +0000
parents 2a5354042241
children c5f5e9569863
rev   line source
tomwalters@5 1 #!/usr/bin/env python
tomwalters@5 2 # encoding: utf-8
tomwalters@5 3 #
tomwalters@5 4 # AIM-C: A C++ implementation of the Auditory Image Model
tomwalters@5 5 # http://www.acousticscale.org/AIMC
tomwalters@5 6 #
tomwalters@5 7 # This program is free software: you can redistribute it and/or modify
tomwalters@5 8 # it under the terms of the GNU General Public License as published by
tomwalters@5 9 # the Free Software Foundation, either version 3 of the License, or
tomwalters@5 10 # (at your option) any later version.
tomwalters@5 11 #
tomwalters@5 12 # This program is distributed in the hope that it will be useful,
tomwalters@5 13 # but WITHOUT ANY WARRANTY; without even the implied warranty of
tomwalters@5 14 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
tomwalters@5 15 # GNU General Public License for more details.
tomwalters@5 16 #
tomwalters@5 17 # You should have received a copy of the GNU General Public License
tomwalters@5 18 # along with this program. If not, see <http://www.gnu.org/licenses/>.
tomwalters@5 19 """
tomwalters@5 20 ModuleGammatone_test.py
tomwalters@5 21
tomwalters@5 22 Created by Thomas Walters on 2010-02-15.
tomwalters@5 23 Copyright 2010 Thomas Walters <tom@acousticscale.org>
tomwalters@5 24 Test for the Slaney IIR gammatone.
tomwalters@5 25 """
tomwalters@5 26
tomwalters@5 27 import aimc
tomwalters@5 28 from scipy import io
tomwalters@16 29 import wave
tomwalters@16 30 import scipy
tomwalters@5 31
tomwalters@5 32 def main():
tomwalters@5 33 data_file = "src/Modules/BMM/testdata/gammatone.mat"
tomwalters@5 34 data = io.loadmat(data_file)
tomwalters@5 35
tomwalters@5 36 # The margin of error allowed between the returned values from AIM-C and
tomwalters@5 37 # the stored MATLAB values.
tomwalters@5 38 epsilon = 0.000001;
tomwalters@5 39
tomwalters@5 40 input_wave = data["input_wave"]
tomwalters@5 41 sample_rate = data["sample_rate"]
tomwalters@5 42 centre_frequencies = data["centre_frequencies"]
tomwalters@5 43 expected_output = data["expected_output"]
tomwalters@5 44
tomwalters@16 45 (channel_count, frame_count) = expected_output.shape
tomwalters@16 46 buffer_length = 20000;
tomwalters@5 47
tomwalters@5 48 input_sig = aimc.SignalBank()
tomwalters@16 49 input_sig.Initialize(1, buffer_length, 48000)
tomwalters@5 50 parameters = aimc.Parameters()
tomwalters@16 51 parameters.Load("src/Modules/BMM/testdata/gammatone.cfg")
tomwalters@5 52 mod_gt = aimc.ModuleGammatone(parameters)
tomwalters@5 53 mod_gt.Initialize(input_sig)
tomwalters@5 54
tomwalters@5 55 correct_count = 0;
tomwalters@5 56 incorrect_count = 0;
tomwalters@16 57
tomwalters@16 58 out = scipy.zeros((channel_count, buffer_length))
tomwalters@16 59
tomwalters@16 60 cfs = scipy.zeros((channel_count))
tomwalters@16 61
tomwalters@16 62 for i in range(0, buffer_length):
tomwalters@16 63 input_sig.set_sample(0, i, input_wave[i][0])
tomwalters@16 64 mod_gt.Process(input_sig)
tomwalters@16 65 out_sig = mod_gt.GetOutputBank()
tomwalters@16 66 for ch in range(0, out_sig.channel_count()):
tomwalters@16 67 cfs[ch] = out_sig.centre_frequency(ch);
tomwalters@16 68 for i in range(0, buffer_length):
tomwalters@16 69 out[ch, i] = out_sig.sample(ch, i)
tomwalters@16 70
tomwalters@16 71 outmat = dict(filterbank_out=out, centre_frequencies_out=cfs)
tomwalters@16 72 io.savemat("src/Modules/BMM/testdata/out_v2.mat", outmat)
tomwalters@5 73
tomwalters@5 74 pass
tomwalters@5 75
tomwalters@5 76
tomwalters@5 77 if __name__ == '__main__':
tomwalters@5 78 main()