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#!/usr/bin/env python
#
# Copyright 2014 Free Software Foundation, Inc.
#
# This file is part of GNU Radio
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
#
from __future__ import absolute_import
from gnuradio import gr, gr_unittest
from gnuradio import fec
from _qa_helper import _qa_helper
class test_fecapi_cc(gr_unittest.TestCase):
def setUp(self):
self.tb = gr.top_block()
def tearDown(self):
self.tb = None
def test_parallelism0_00(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = fec.cc_encoder_make(frame_size*8, k, rate, polys)
dec = fec.cc_decoder.make(frame_size*8, k, rate, polys)
threading = None
self.test = _qa_helper(4*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism0_01(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = fec.cc_encoder_make(frame_size*8, k, rate, polys)
dec = fec.cc_decoder.make(frame_size*8, k, rate, polys)
threading = 'ordinary'
self.test = _qa_helper(5*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism0_02(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = fec.cc_encoder_make(frame_size*8, k, rate, polys)
dec = fec.cc_decoder.make(frame_size*8, k, rate, polys)
threading = 'capillary'
self.test = _qa_helper(5*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_00(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys)), list(range(0,1))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys)), list(range(0,1))))
threading = None
self.test = _qa_helper(5*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_01(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys)), list(range(0,1))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys)), list(range(0,1))))
threading = 'ordinary'
self.test = _qa_helper(5*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_02(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys)), list(range(0,1))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys)), list(range(0,1))))
threading = 'capillary'
self.test = _qa_helper(5*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_03(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
mode = fec.CC_TERMINATED
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
threading = 'capillary'
self.test = _qa_helper(4*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_04(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
mode = fec.CC_TRUNCATED
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
threading = 'capillary'
self.test = _qa_helper(4*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
def test_parallelism1_05(self):
frame_size = 30
k = 7
rate = 2
polys = [109,79]
mode = fec.CC_TAILBITING
enc = list(map((lambda a: fec.cc_encoder_make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
dec = list(map((lambda a: fec.cc_decoder.make(frame_size*8, k, rate, polys, mode=mode)), list(range(0,4))))
threading = 'capillary'
self.test = _qa_helper(4*frame_size, enc, dec, threading)
self.tb.connect(self.test)
self.tb.run()
data_out = self.test.snk_output.data()
data_in = self.test.snk_input.data()[0:len(data_out)]
self.assertEqual(data_in, data_out)
if __name__ == '__main__':
gr_unittest.run(test_fecapi_cc, "test_fecapi_cc.xml")
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