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diff --git a/gr-digital/python/qa_constellation.py b/gr-digital/python/qa_constellation.py
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+++ b/gr-digital/python/qa_constellation.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.
+# 
+
+import random
+from cmath import exp, pi, log
+
+from gnuradio import gr, gr_unittest, blks2
+from utils import mod_codes
+import digital_swig
+
+# import from local folder
+import psk2
+import qam
+
+tested_mod_codes = (mod_codes.NO_CODE, mod_codes.GRAY_CODE)
+
+# A list of the constellations to test.
+# Each constellation is given by a 3-tuple.
+# First item is a function to generate the constellation
+# Second item is a dictionary of arguments for function with lists of
+# possible values.
+# Third item is whether differential encoding should be tested.
+# Fourth item is the name of the argument to constructor that specifices
+# whether differential encoding is used.
+
+def twod_constell():
+    """
+    
+    """
+    points = ((1+0j), (0+1j),
+              (-1+0j), (0-1j))
+    rot_sym = 2
+    dim = 2
+    return digital_swig.constellation_calcdist(points, [], rot_sym, dim)
+
+def threed_constell():
+    oned_points = ((1+0j), (0+1j), (-1+0j), (0-1j))
+    points = []
+    r4 = range(0, 4)
+    for ia in r4:
+        for ib in r4:
+            for ic in r4:
+                points += [oned_points[ia], oned_points[ib], oned_points[ic]]
+    rot_sym = 4
+    dim = 3
+    return digital_swig.constellation_calcdist(points, [], rot_sym, dim)
+
+tested_constellation_info = (
+    (psk2.psk_constellation,
+     {'m': (2, 4, 8, 16, 32, 64),
+      'mod_code': tested_mod_codes, },
+     True, None),
+    (digital_swig.constellation_bpsk, {}, True, None),
+    # No differential testing for qpsk because it is gray-coded.
+    # This is because soft decision making is simpler if we can assume
+    # gray coding.
+    (digital_swig.constellation_qpsk, {}, False, None),
+    (digital_swig.constellation_8psk, {}, False, None),
+    (twod_constell, {}, True, None),
+    (threed_constell, {}, True, None),
+    )
+
+def tested_constellations():
+    """
+    Generator to produce (constellation, differential) tuples for testing purposes.
+    """
+    for constructor, poss_args, differential, diff_argname in tested_constellation_info:
+        if differential:
+            diff_poss = (True, False)
+        else:
+            diff_poss = (False,)
+        poss_args = [[argname, argvalues, 0] for argname, argvalues in poss_args.items()]
+        for current_diff in diff_poss:
+            # Add an index into args to keep track of current position in argvalues
+            while True:
+                current_args = dict([(argname, argvalues[argindex])
+                                     for argname, argvalues, argindex in poss_args])
+                if diff_argname is not None:
+                    current_args[diff_argname] = current_diff
+                constellation = constructor(**current_args)
+                yield (constellation, current_diff)
+                for this_poss_arg in poss_args:
+                    argname, argvalues, argindex = this_poss_arg
+                    if argindex < len(argvalues) - 1:
+                        this_poss_arg[2] += 1
+                        break
+                    else:
+                        this_poss_arg[2] = 0
+                if sum([argindex for argname, argvalues, argindex in poss_args]) == 0:
+                    break
+            
+
+class test_constellation (gr_unittest.TestCase):
+
+    src_length = 256
+
+    def setUp(self):
+        # Generate a list of random bits.
+        self.src_data = tuple([random.randint(0,1) for i in range(0, self.src_length)])
+
+    def tearDown(self):
+        pass
+
+    def test_hard_decision(self):
+        for constellation, differential in tested_constellations():
+            if differential:
+                rs = constellation.rotational_symmetry()
+                rotations = [exp(i*2*pi*(0+1j)/rs) for i in range(0, rs)] 
+            else:
+                rotations = [None]
+            for rotation in rotations:
+                src = gr.vector_source_b(self.src_data)
+                content = mod_demod(constellation, differential, rotation)
+                dst = gr.vector_sink_b()
+                self.tb = gr.top_block()
+                self.tb.connect(src, content, dst)
+                self.tb.run()
+                data = dst.data()
+                # Don't worry about cut off data for now.
+                first = constellation.bits_per_symbol()
+                self.assertEqual (self.src_data[first:len(data)], data[first:])
+
+
+class mod_demod(gr.hier_block2):
+    def __init__(self, constellation, differential, rotation):
+        if constellation.arity() > 256:
+            # If this becomes limiting some of the blocks should be generalised so that they can work
+            # with shorts and ints as well as chars.
+            raise ValueError("Constellation cannot contain more than 256 points.")
+
+	gr.hier_block2.__init__(self, "mod_demod",
+				gr.io_signature(1, 1, gr.sizeof_char),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_char))       # Output signature
+
+        arity = constellation.arity()
+
+        # TX
+        self.constellation = constellation
+        self.differential = differential
+        self.blocks = [self]
+        # We expect a stream of unpacked bits.
+        # First step is to pack them.
+        self.blocks.append(
+            gr.unpacked_to_packed_bb(1, gr.GR_MSB_FIRST))
+        # Second step we unpack them such that we have k bits in each byte where
+        # each constellation symbol hold k bits.
+        self.blocks.append(
+            gr.packed_to_unpacked_bb(self.constellation.bits_per_symbol(),
+                                     gr.GR_MSB_FIRST))
+        # Apply any pre-differential coding
+        # Gray-coding is done here if we're also using differential coding.
+        if self.constellation.apply_pre_diff_code():
+            self.blocks.append(gr.map_bb(self.constellation.pre_diff_code()))
+        # Differential encoding.
+        if self.differential:
+            self.blocks.append(gr.diff_encoder_bb(arity))
+        # Convert to constellation symbols.
+        self.blocks.append(gr.chunks_to_symbols_bc(self.constellation.points(), self.constellation.dimensionality()))
+        # CHANNEL
+        # Channel just consists of a rotation to check differential coding.
+        if rotation is not None:
+            self.blocks.append(gr.multiply_const_cc(rotation))
+
+        # RX
+        # Convert the constellation symbols back to binary values.
+        self.blocks.append(digital_swig.constellation_decoder_cb(self.constellation.base()))
+        # Differential decoding.
+        if self.differential:
+            self.blocks.append(gr.diff_decoder_bb(arity))
+        # Decode any pre-differential coding.
+        if self.constellation.apply_pre_diff_code():
+            self.blocks.append(gr.map_bb(
+                mod_codes.invert_code(self.constellation.pre_diff_code())))
+        # unpack the k bit vector into a stream of bits            
+        self.blocks.append(gr.unpack_k_bits_bb(
+                self.constellation.bits_per_symbol()))
+        # connect to block output
+        check_index = len(self.blocks)
+        self.blocks = self.blocks[:check_index]
+        self.blocks.append(self)
+
+        self.connect(*self.blocks)
+
+        
+if __name__ == '__main__':
+    gr_unittest.run(test_constellation, "test_constellation.xml")