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diff --git a/gr-digital/python/qa_costas_loop_cc.py b/gr-digital/python/qa_costas_loop_cc.py
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+#!/usr/bin/env python
+#
+# Copyright 2011 Free Software Foundation, Inc.
+#
+# This file is part of GNU Radio
+#
+# GNU Radio is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 3, or (at your option)
+# any later version.
+#
+# GNU Radio is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with GNU Radio; see the file COPYING. If not, write to
+# the Free Software Foundation, Inc., 51 Franklin Street,
+# Boston, MA 02110-1301, USA.
+#
+
+from gnuradio import gr, gr_unittest
+import digital_swig, psk
+import random, cmath
+
+class test_costas_loop_cc(gr_unittest.TestCase):
+
+ def setUp (self):
+ self.tb = gr.top_block ()
+
+ def tearDown (self):
+ self.tb = None
+
+ def test01 (self):
+ # test basic functionality by setting all gains to 0
+ natfreq = 0.0
+ order = 2
+ self.test = digital_swig.costas_loop_cc(natfreq, order)
+
+ data = 100*[complex(1,0),]
+ self.src = gr.vector_source_c(data, False)
+ self.snk = gr.vector_sink_c()
+
+ self.tb.connect(self.src, self.test, self.snk)
+ self.tb.run()
+
+ expected_result = data
+ dst_data = self.snk.data()
+ self.assertComplexTuplesAlmostEqual (expected_result, dst_data, 5)
+
+ def test02 (self):
+ # Make sure it doesn't diverge given perfect data
+ natfreq = 0.25
+ order = 2
+ self.test = digital_swig.costas_loop_cc(natfreq, order)
+
+ data = [complex(2*random.randint(0,1)-1, 0) for i in xrange(100)]
+ self.src = gr.vector_source_c(data, False)
+ self.snk = gr.vector_sink_c()
+
+ self.tb.connect(self.src, self.test, self.snk)
+ self.tb.run()
+
+ expected_result = data
+ dst_data = self.snk.data()
+
+ self.assertComplexTuplesAlmostEqual (expected_result, dst_data, 5)
+
+ def test03 (self):
+ # BPSK Convergence test with static rotation
+ natfreq = 0.25
+ order = 2
+ self.test = digital_swig.costas_loop_cc(natfreq, order)
+
+ rot = cmath.exp(0.2j) # some small rotation
+ data = [complex(2*random.randint(0,1)-1, 0) for i in xrange(100)]
+
+ N = 40 # settling time
+ expected_result = data[N:]
+ data = [rot*d for d in data]
+
+ self.src = gr.vector_source_c(data, False)
+ self.snk = gr.vector_sink_c()
+
+ self.tb.connect(self.src, self.test, self.snk)
+ self.tb.run()
+
+ dst_data = self.snk.data()[N:]
+
+ # generously compare results; the loop will converge near to, but
+ # not exactly on, the target data
+ self.assertComplexTuplesAlmostEqual (expected_result, dst_data, 2)
+
+ def test04 (self):
+ # QPSK Convergence test with static rotation
+ natfreq = 0.25
+ order = 4
+ self.test = digital_swig.costas_loop_cc(natfreq, order)
+
+ rot = cmath.exp(0.2j) # some small rotation
+ data = [complex(2*random.randint(0,1)-1, 2*random.randint(0,1)-1)
+ for i in xrange(100)]
+
+ N = 40 # settling time
+ expected_result = data[N:]
+ data = [rot*d for d in data]
+
+ self.src = gr.vector_source_c(data, False)
+ self.snk = gr.vector_sink_c()
+
+ self.tb.connect(self.src, self.test, self.snk)
+ self.tb.run()
+
+ dst_data = self.snk.data()[N:]
+
+ # generously compare results; the loop will converge near to, but
+ # not exactly on, the target data
+ self.assertComplexTuplesAlmostEqual (expected_result, dst_data, 2)
+
+ def test05 (self):
+ # 8PSK Convergence test with static rotation
+ natfreq = 0.25
+ order = 8
+ self.test = digital_swig.costas_loop_cc(natfreq, order)
+
+ rot = cmath.exp(-cmath.pi/8.0j) # rotate to match Costas rotation
+ const = psk.psk_constellation(order)
+ data = [random.randint(0,7) for i in xrange(100)]
+ data = [2*rot*const.points()[d] for d in data]
+
+ N = 40 # settling time
+ expected_result = data[N:]
+
+ rot = cmath.exp(0.1j) # some small rotation
+ data = [rot*d for d in data]
+
+ self.src = gr.vector_source_c(data, False)
+ self.snk = gr.vector_sink_c()
+
+ self.tb.connect(self.src, self.test, self.snk)
+ self.tb.run()
+
+ dst_data = self.snk.data()[N:]
+
+ # generously compare results; the loop will converge near to, but
+ # not exactly on, the target data
+ self.assertComplexTuplesAlmostEqual (expected_result, dst_data, 2)
+
+if __name__ == '__main__':
+ gr_unittest.run(test_costas_loop_cc, "test_costas_loop_cc.xml")