FreeDATA/test/t48_8_short.py
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2021-12-20 11:15:32 +01:00

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Python

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# Unit test for FreeDV API resampler functions, from
# codec2/unittest/t48_8_short.c - generate a sine wave at 8 KHz,
# upsample to 48 kHz, add an interferer, then downsample back to 8 kHz
#
# You can listen to the output files with:
#
# aplay -f S16_LE in8.raw
# aplay -r 48000 -f S16_LE out48.raw
# aplay -f S16_LE out8.raw
#
# They should sound like clean sine waves
import ctypes
from ctypes import *
import pathlib
import argparse
import sys
sys.path.insert(0,'..')
from tnc import codec2
import numpy as np
# dig some constants out
FDMDV_OS_48 = codec2.api.FDMDV_OS_48
FDMDV_OS_TAPS_48K = codec2.api.FDMDV_OS_TAPS_48K
FDMDV_OS_TAPS_48_8K = codec2.api.FDMDV_OS_TAPS_48_8K
N8 = int(180) # processing buffer size at 8 kHz
N48 = int(N8*FDMDV_OS_48) # processing buffer size at 48 kHz
MEM8 = FDMDV_OS_TAPS_48_8K # 8kHz signal filter memory
MEM48 = FDMDV_OS_TAPS_48K # 48kHz signal filter memory
FRAMES = int(50) # number of frames to test
FS8 = 8000
FS48 = 48000
AMP = 16000 # sine wave amplitude
FTEST8 = 800 # input test frequency at FS=8kHz
FINTER48 = 10000 # interferer frequency at FS=48kHz
# Due to the design of these resamplers, the processing buffer (at 8kHz)
# must be an integer multiple of oversampling ratio
assert N8 % FDMDV_OS_48 == 0
# time indexes, we advance every frame
t = 0
t1 = 0
# output files to listen to/evaluate result
fin8 = open("in8.raw", mode='wb')
f48 = open("out48.raw", mode='wb')
fout8 = open("out8.raw", mode='wb')
resampler = codec2.resampler()
for f in range(FRAMES):
sine_in8k = (AMP*np.cos(2*np.pi*np.arange(t,t+N8)*FTEST8/FS8)).astype(np.int16)
t += N8
sine_in8k.tofile(fin8)
sine_out48k = resampler.resample8_to_48(sine_in8k)
sine_out48k.tofile(f48)
# add interfering sine wave (down sampling filter should remove)
sine_in48k = (sine_out48k + (AMP/2)*np.cos(2*np.pi*np.arange(t1,t1+N48)*FINTER48/FS48)).astype(np.int16)
t1 += N48
sine_out8k = resampler.resample48_to_8(sine_in48k)
sine_out8k.tofile(fout8)
fin8.close()
f48.close()
fout8.close()
# Automated test evaluation --------------------------------------------
# The input and output signals will not be time aligned due to the filter
# delays, so compare the magnitude spectrum
in8k = np.fromfile("in8.raw", dtype=np.int16)
out8k = np.fromfile("out8.raw", dtype=np.int16)
assert len(in8k) == len(out8k)
n = len(in8k)
h = np.hanning(len(in8k))
S1 = np.abs(np.fft.fft(in8k * h))
S2 = np.abs(np.fft.fft(out8k * h))
error = S1-S2
error_energy = np.dot(error,error)
ratio = error_energy/np.dot(S1,S1)
ratio_dB = 10*np.log10(ratio);
print("ratio_dB: %4.2f" % (ratio_dB));
threshdB = -40
if ratio_dB < threshdB:
print("PASS")
else:
print("FAIL")