26 files changed, 3638 insertions, 0 deletions

diff --git a/gr-digital/python/.gitignore b/gr-digital/python/.gitignore
new file mode 100644
index 000000000..604b402c5
--- /dev/null
+++ b/gr-digital/python/.gitignore
@@ -0,0 +1,3 @@
+/Makefile
+/Makefile.in
+/run_tests
diff --git a/gr-digital/python/Makefile.am b/gr-digital/python/Makefile.am
new file mode 100644
index 000000000..392ce45c1
--- /dev/null
+++ b/gr-digital/python/Makefile.am
@@ -0,0 +1,54 @@
+#
+# 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.
+# 
+
+include $(top_srcdir)/Makefile.common
+
+TESTS =
+EXTRA_DIST += run_tests.in
+
+if PYTHON
+SUBDIRS = utils
+TESTS += run_tests
+
+digitaldir = $(grpythondir)/digital
+
+noinst_PYTHON = \
+	qa_digital.py			\
+	qa_constellation.py		\
+	qa_constellation_receiver.py	\
+	qa_costas_loop_cc.py
+
+digital_PYTHON = \
+	__init__.py	\
+	psk.py		\
+	dbpsk.py	\
+	dqpsk.py	\
+	d8psk.py	\
+	psk2.py		\
+	generic_mod_demod.py	\
+	qam.py		\
+	bpsk.py		\
+	qpsk.py		\
+	ofdm.py		\
+	pkt.py		\
+	modulation_utils2.py
+
+endif
diff --git a/gr-digital/python/__init__.py b/gr-digital/python/__init__.py
new file mode 100644
index 000000000..3d0be3865
--- /dev/null
+++ b/gr-digital/python/__init__.py
@@ -0,0 +1,32 @@
+#
+# 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.
+# 
+
+# The presence of this file turns this directory into a Python package
+
+from digital_swig import *
+from dbpsk import *
+from dqpsk import *
+from d8psk import *
+from psk2 import *
+from qam import *
+from ofdm import *
+from pkt import *
+from modulation_utils2 import *
diff --git a/gr-digital/python/bpsk.py b/gr-digital/python/bpsk.py
new file mode 100644
index 000000000..6d2eb5d6d
--- /dev/null
+++ b/gr-digital/python/bpsk.py
@@ -0,0 +1,98 @@
+#
+# Copyright 2005,2006,2011 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.
+# 
+
+"""
+BPSK modulation and demodulation.
+"""
+
+from math import pi, log
+from cmath import exp
+
+from gnuradio import gr, modulation_utils2
+from gnuradio.digital.generic_mod_demod import generic_mod, generic_demod
+
+# Default number of points in constellation.
+_def_constellation_points = 2
+# Whether differential coding is used.
+_def_differential = True
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           BPSK constellation
+# /////////////////////////////////////////////////////////////////////////////
+
+def bpsk_constellation(m=_def_constellation_points):
+    if m != _def_constellation_points:
+        raise ValueError("BPSK can only have 2 constellation points.")
+    return gr.constellation_bpsk()
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           BPSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class bpsk_mod(generic_mod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered BPSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_mod block for list of parameters.
+	"""
+
+        constellation = gr.constellation_bpsk()
+        if constellation_points != 2:
+            raise ValueError('Number of constellation points must be 2 for BPSK.')
+        super(bpsk_mod, self).__init__(constellation, *args, **kwargs)
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           BPSK demodulator
+#
+# /////////////////////////////////////////////////////////////////////////////
+
+class bpsk_demod(generic_demod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered BPSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_demod block for list of parameters.
+        """
+
+        constellation = gr.constellation_bpsk()
+        if constellation_points != 2:
+            raise ValueError('Number of constellation points must be 2 for BPSK.')
+        super(bpsk_demod, self).__init__(constellation, *args, **kwargs)
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('bpsk', bpsk_mod)
+modulation_utils2.add_type_1_demod('bpsk', bpsk_demod)
+modulation_utils2.add_type_1_constellation('bpsk', bpsk_constellation)
diff --git a/gr-digital/python/d8psk.py b/gr-digital/python/d8psk.py
new file mode 100644
index 000000000..8bed395a7
--- /dev/null
+++ b/gr-digital/python/d8psk.py
@@ -0,0 +1,369 @@
+#
+# Copyright 2005,2006,2007,2011 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.
+# 
+
+# See gnuradio-examples/python/digital for examples
+
+"""
+differential 8PSK modulation and demodulation.
+"""
+
+from gnuradio import gr, modulation_utils2
+from math import pi, sqrt
+import digital_swig, psk
+import cmath
+from pprint import pprint
+
+# default values (used in __init__ and add_options)
+_def_samples_per_symbol = 3
+_def_excess_bw = 0.35
+_def_gray_code = True
+_def_verbose = False
+_def_log = False
+
+_def_freq_alpha = 0.010
+_def_phase_damping = 0.4
+_def_phase_natfreq = 0.25
+_def_timing_alpha = 0.100
+_def_timing_beta = 0.010
+_def_timing_max_dev = 1.5
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           D8PSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class d8psk_mod(gr.hier_block2):
+
+    def __init__(self,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log):
+        """
+	Hierarchical block for RRC-filtered differential 8PSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: integer
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param log: Log modulation data to files?
+        @type log: bool
+	"""
+
+	gr.hier_block2.__init__(self, "d8psk_mod",
+				gr.io_signature(1, 1, gr.sizeof_char),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+				
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._gray_code = gray_code
+
+        if not isinstance(samples_per_symbol, int) or samples_per_symbol < 2:
+            raise TypeError, ("sbp must be an integer >= 2, is %d" % samples_per_symbol)
+
+        arity = pow(2,self.bits_per_symbol())
+
+        # turn bytes into k-bit vectors
+        self.bytes2chunks = \
+          gr.packed_to_unpacked_bb(self.bits_per_symbol(), gr.GR_MSB_FIRST)
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_gray[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_ungray[arity])
+            
+        self.diffenc = gr.diff_encoder_bb(arity)
+
+        rot = 1
+        rotated_const = map(lambda pt: pt * rot, psk.constellation[arity])
+        self.chunks2symbols = gr.chunks_to_symbols_bc(rotated_const)
+
+        # pulse shaping filter
+        nfilts = 32
+        ntaps = 11 * int(nfilts * self._samples_per_symbol)  # make nfilts filters of ntaps each
+        self.rrc_taps = gr.firdes.root_raised_cosine(
+            nfilts,          # gain
+            nfilts,          # sampling rate based on 32 filters in resampler
+            1.0,             # symbol rate
+            self._excess_bw, # excess bandwidth (roll-off factor)
+            ntaps)
+        self.rrc_filter = gr.pfb_arb_resampler_ccf(self._samples_per_symbol, self.rrc_taps)
+
+        if verbose:
+            self._print_verbage()
+        
+        if log:
+            self._setup_logging()
+            
+	# Connect & Initialize base class
+        self.connect(self, self.bytes2chunks, self.symbol_mapper, self.diffenc,
+            	     self.chunks2symbols, self.rrc_filter, self)
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # staticmethod that's also callable on an instance
+        return 3
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def _print_verbage(self):
+        print "\nModulator:"
+        print "bits per symbol:     %d" % self.bits_per_symbol()
+        print "Gray code:           %s" % self._gray_code
+        print "RRC roll-off factor: %f" % self._excess_bw
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.bytes2chunks,
+                     gr.file_sink(gr.sizeof_char, "tx_bytes2chunks.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "tx_graycoder.dat"))
+        self.connect(self.diffenc,
+                     gr.file_sink(gr.sizeof_char, "tx_diffenc.dat"))        
+        self.connect(self.chunks2symbols,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_chunks2symbols.dat"))
+        self.connect(self.rrc_filter,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_rrc_filter.dat"))
+
+    def add_options(parser):
+        """
+        Adds 8PSK modulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default] (PSK)")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=_def_gray_code,
+                          help="disable gray coding on modulated bits (PSK)")
+    add_options=staticmethod(add_options)
+
+
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(d8psk_mod.__init__,
+                                                             ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           D8PSK demodulator
+#
+# Differentially coherent detection of differentially encoded 8psk
+# /////////////////////////////////////////////////////////////////////////////
+
+class d8psk_demod(gr.hier_block2):
+
+    def __init__(self,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 freq_alpha=_def_freq_alpha,
+                 phase_damping=_def_phase_damping,
+                 phase_natfreq=_def_phase_natfreq,
+                 timing_alpha=_def_timing_alpha,
+                 timing_max_dev=_def_timing_max_dev,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log,
+                 sync_out=False):
+        """
+	Hierarchical block for RRC-filtered DQPSK demodulation
+
+	The input is the complex modulated signal at baseband.
+	The output is a stream of bits packed 1 bit per byte (LSB)
+
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: float
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param freq_alpha: loop filter gain for frequency recovery
+        @type freq_alpha: float
+        @param phase_damping: loop filter damping factor for phase/fine frequency recovery
+        @type phase_damping: float
+        @param phase_natfreq: loop filter natural frequency for phase/fine frequency recovery
+        @type phase_natfreq: float
+        @param timing_alpha: timing loop alpha gain
+        @type timing_alpha: float
+        @param timing_max: timing loop maximum rate deviations
+        @type timing_max: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param debug: Print modualtion data to files?
+        @type debug: bool
+	"""
+	if sync_out: io_sig_out = gr.io_signaturev(2, 2, (gr.sizeof_char, gr.sizeof_gr_complex))
+	else: io_sig_out = gr.io_signature(1, 1, gr.sizeof_char)
+	
+	gr.hier_block2.__init__(self, "d8psk_demod",
+			        gr.io_signature(1, 1, gr.sizeof_gr_complex), # Input signature
+			        io_sig_out)       # Output signature
+
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._freq_alpha = freq_alpha
+        self._freq_beta = 0.25*self._freq_alpha**2
+        self._phase_damping = phase_damping
+        self._phase_natfreq = phase_natfreq
+        self._timing_alpha = timing_alpha
+        self._timing_beta = _def_timing_beta
+        self._timing_max_dev=timing_max_dev
+        self._gray_code = gray_code
+
+        if samples_per_symbol < 2:
+            raise TypeError, "sbp must be >= 2, is %d" % samples_per_symbol
+
+        arity = pow(2,self.bits_per_symbol())
+ 
+        # Automatic gain control
+        self.agc = gr.agc2_cc(0.6e-1, 1e-3, 1, 1, 100)
+        #self.agc = gr.feedforward_agc_cc(16, 2.0)
+
+        # Frequency correction
+        self.freq_recov = gr.fll_band_edge_cc(self._samples_per_symbol, self._excess_bw,
+                                              11*int(self._samples_per_symbol),
+                                              self._freq_alpha, self._freq_beta)
+
+        # symbol timing recovery with RRC data filter
+        nfilts = 32
+        ntaps = 11 * int(samples_per_symbol*nfilts)
+        taps = gr.firdes.root_raised_cosine(1.41*nfilts, nfilts,
+                                            1.0/float(self._samples_per_symbol),
+                                            self._excess_bw, ntaps)
+        self.time_recov = gr.pfb_clock_sync_ccf(self._samples_per_symbol,
+                                                self._timing_alpha,
+                                                taps, nfilts, nfilts/2, self._timing_max_dev)
+        self.time_recov.set_beta(self._timing_beta)
+
+        # Perform phase / fine frequency correction
+        self.phase_recov = digital_swig.costas_loop_cc(self._phase_damping,
+                                                       self._phase_natfreq,
+                                                       arity)
+        
+        # Perform Differential decoding on the constellation
+        self.diffdec = gr.diff_phasor_cc()
+
+        # find closest constellation point
+        rot = cmath.exp(1j*cmath.pi/8.0)
+        rotated_const = map(lambda pt: pt * rot, psk.constellation[arity])
+        self.slicer = gr.constellation_decoder_cb(rotated_const, range(arity))
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.gray_to_binary[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.ungray_to_binary[arity])
+        
+        # unpack the k bit vector into a stream of bits
+        self.unpack = gr.unpack_k_bits_bb(self.bits_per_symbol())
+
+        if verbose:
+            self._print_verbage()
+        
+        if log:
+            self._setup_logging()
+ 
+        # Connect
+        self.connect(self, self.agc, 
+                     self.freq_recov, self.time_recov, self.phase_recov,
+                     self.diffdec, self.slicer, self.symbol_mapper, self.unpack, self)
+        if sync_out: self.connect(self.phase_recov, (self, 1))
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # staticmethod that's also callable on an instance
+        return 3
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def _print_verbage(self):
+        print "\nDemodulator:"
+        print "bits per symbol:     %d"   % self.bits_per_symbol()
+        print "Gray code:           %s"   % self._gray_code
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+        print "FLL gain:            %.2f" % self._freq_alpha
+        print "Timing alpha gain:   %.2f" % self._timing_alpha
+        print "Timing beta gain:    %.2f" % self._timing_beta
+        print "Timing max dev:      %.2f" % self._timing_max_dev
+        print "Phase track alpha:   %.2e" % self._phase_alpha
+        print "Phase track beta:    %.2e" % self._phase_beta
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.agc,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_agc.dat"))
+        self.connect(self.freq_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_freq_recov.dat"))
+        self.connect(self.time_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_time_recov.dat"))
+        self.connect(self.phase_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_phase_recov.dat"))
+        self.connect(self.diffdec,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_diffdec.dat"))        
+        self.connect(self.slicer,
+                     gr.file_sink(gr.sizeof_char, "rx_slicer.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "rx_gray_decoder.dat"))
+        self.connect(self.unpack,
+                     gr.file_sink(gr.sizeof_char, "rx_unpack.dat"))
+
+    def add_options(parser):
+        """
+        Adds D8PSK demodulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default] (PSK)")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=_def_gray_code,
+                          help="disable gray coding on modulated bits (PSK)")
+        parser.add_option("", "--freq-alpha", type="float", default=_def_freq_alpha,
+                          help="set frequency lock loop alpha gain value [default=%default] (PSK)")
+        parser.add_option("", "--phase-alpha", type="float", default=_def_phase_alpha,
+                          help="set phase tracking loop alpha value [default=%default] (PSK)")
+        parser.add_option("", "--timing-alpha", type="float", default=_def_timing_alpha,
+                          help="set timing symbol sync loop gain alpha value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-beta", type="float", default=_def_timing_beta,
+                          help="set timing symbol sync loop gain beta value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-max-dev", type="float", default=_def_timing_max_dev,
+                          help="set timing symbol sync loop maximum deviation [default=%default] (GMSK/PSK)")
+    add_options=staticmethod(add_options)
+
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(
+            d8psk_demod.__init__, ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('d8psk', d8psk_mod)
+modulation_utils2.add_type_1_demod('d8psk', d8psk_demod)
diff --git a/gr-digital/python/dbpsk.py b/gr-digital/python/dbpsk.py
new file mode 100644
index 000000000..2e9b756e6
--- /dev/null
+++ b/gr-digital/python/dbpsk.py
@@ -0,0 +1,370 @@
+#
+# Copyright 2009,2010,2011 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.
+# 
+
+# See gnuradio-examples/python/digital for examples
+
+"""
+differential BPSK modulation and demodulation.
+"""
+
+from gnuradio import gr, modulation_utils2
+from math import pi, sqrt, ceil
+import digital_swig, psk
+import cmath
+from pprint import pprint
+
+# default values (used in __init__ and add_options)
+_def_samples_per_symbol = 2
+_def_excess_bw = 0.35
+_def_gray_code = True
+_def_verbose = False
+_def_log = False
+
+_def_freq_alpha = 0.010
+_def_phase_damping = 0.4
+_def_phase_natfreq = 0.25
+_def_timing_alpha = 0.100
+_def_timing_beta = 0.010
+_def_timing_max_dev = 1.5
+
+
+# /////////////////////////////////////////////////////////////////////////////
+#                             DBPSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class dbpsk_mod(gr.hier_block2):
+
+    def __init__(self,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log):
+        """
+	Hierarchical block for RRC-filtered differential BPSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+        
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: integer
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param log: Log modulation data to files?
+        @type log: bool
+	"""
+
+	gr.hier_block2.__init__(self, "dbpsk_mod",
+				gr.io_signature(1, 1, gr.sizeof_char),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._gray_code = gray_code
+
+        if self._samples_per_symbol < 2:
+            raise TypeError, ("sbp must be an integer >= 2, is %d" % self._samples_per_symbol)
+        
+        arity = pow(2,self.bits_per_symbol())
+        
+        # turn bytes into k-bit vectors
+        self.bytes2chunks = \
+          gr.packed_to_unpacked_bb(self.bits_per_symbol(), gr.GR_MSB_FIRST)
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_gray[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_ungray[arity])
+
+        self.diffenc = gr.diff_encoder_bb(arity)
+
+        self.chunks2symbols = gr.chunks_to_symbols_bc(psk.constellation[arity])
+
+        # pulse shaping filter
+        nfilts = 32
+        ntaps = nfilts * 11 * int(self._samples_per_symbol)    # make nfilts filters of ntaps each
+        self.rrc_taps = gr.firdes.root_raised_cosine(
+            nfilts,          # gain
+            nfilts,          # sampling rate based on 32 filters in resampler
+            1.0,             # symbol rate
+            self._excess_bw, # excess bandwidth (roll-off factor)
+            ntaps)
+        self.rrc_filter = gr.pfb_arb_resampler_ccf(self._samples_per_symbol, self.rrc_taps)
+
+	# Connect
+        self.connect(self, self.bytes2chunks, self.symbol_mapper, self.diffenc,
+                     self.chunks2symbols, self.rrc_filter, self)
+
+        if verbose:
+            self._print_verbage()
+            
+        if log:
+            self._setup_logging()
+            
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # static method that's also callable on an instance
+        return 1
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def add_options(parser):
+        """
+        Adds DBPSK modulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default]")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=True,
+                          help="disable gray coding on modulated bits (PSK)")
+    add_options=staticmethod(add_options)
+
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(dbpsk_mod.__init__,
+                                                            ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+
+    def _print_verbage(self):
+        print "\nModulator:"
+        print "bits per symbol:     %d" % self.bits_per_symbol()
+        print "Gray code:           %s" % self._gray_code
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.bytes2chunks,
+                     gr.file_sink(gr.sizeof_char, "tx_bytes2chunks.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "tx_graycoder.dat"))
+        self.connect(self.diffenc,
+                     gr.file_sink(gr.sizeof_char, "tx_diffenc.dat"))
+        self.connect(self.chunks2symbols,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_chunks2symbols.dat"))
+        self.connect(self.rrc_filter,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_rrc_filter.dat"))
+              
+
+# /////////////////////////////////////////////////////////////////////////////
+#                             DBPSK demodulator
+#
+#      Differentially coherent detection of differentially encoded BPSK
+# /////////////////////////////////////////////////////////////////////////////
+
+class dbpsk_demod(gr.hier_block2):
+
+    def __init__(self,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 freq_alpha=_def_freq_alpha,
+                 phase_damping=_def_phase_damping,
+                 phase_natfreq=_def_phase_natfreq,
+                 timing_alpha=_def_timing_alpha,
+                 timing_max_dev=_def_timing_max_dev,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log,
+                 sync_out=False):
+        """
+	Hierarchical block for RRC-filtered differential BPSK demodulation
+
+	The input is the complex modulated signal at baseband.
+	The output is a stream of bits packed 1 bit per byte (LSB)
+
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: float
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param freq_alpha: loop filter gain for frequency recovery
+        @type freq_alpha: float
+        @param phase_damping: loop filter damping factor for phase/fine frequency recovery
+        @type phase_damping: float
+        @param phase_natfreq: loop filter natural frequency for phase/fine frequency recovery
+        @type phase_natfreq: float
+        @param timing_alpha: loop alpha gain for timing recovery
+        @type timing_alpha: float
+        @param timing_max: timing loop maximum rate deviations
+        @type timing_max: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param log: Print modualtion data to files?
+        @type log: bool
+        @param sync_out: Output a sync signal on :1?
+        @type sync_out: bool
+	"""
+	if sync_out: io_sig_out = gr.io_signaturev(2, 2, (gr.sizeof_char, gr.sizeof_gr_complex))
+	else: io_sig_out = gr.io_signature(1, 1, gr.sizeof_char)
+
+	gr.hier_block2.__init__(self, "dbpsk_demod",
+			        gr.io_signature(1, 1, gr.sizeof_gr_complex), # Input signature
+			        io_sig_out)       # Output signature
+
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._freq_alpha = freq_alpha
+        self._freq_beta = 0.10*self._freq_alpha
+        self._phase_damping = phase_damping
+        self._phase_natfreq = phase_natfreq
+        self._timing_alpha = timing_alpha
+        self._timing_beta = _def_timing_beta
+        self._timing_max_dev=timing_max_dev
+        self._gray_code = gray_code
+        
+        if samples_per_symbol < 2:
+            raise TypeError, "samples_per_symbol must be >= 2, is %r" % (samples_per_symbol,)
+
+        arity = pow(2,self.bits_per_symbol())
+
+        # Automatic gain control
+        self.agc = gr.agc2_cc(0.6e-1, 1e-3, 1, 1, 100)
+        #self.agc = gr.feedforward_agc_cc(16, 1.0)
+
+        # Frequency correction
+        self.freq_recov = gr.fll_band_edge_cc(self._samples_per_symbol, self._excess_bw,
+                                              11*int(self._samples_per_symbol),
+                                              self._freq_alpha, self._freq_beta)
+
+        # symbol timing recovery with RRC data filter
+        nfilts = 32
+        ntaps = 11 * int(self._samples_per_symbol*nfilts)
+        taps = gr.firdes.root_raised_cosine(nfilts, nfilts,
+                                            1.0/float(self._samples_per_symbol),
+                                            self._excess_bw, ntaps)
+        self.time_recov = gr.pfb_clock_sync_ccf(self._samples_per_symbol,
+                                                self._timing_alpha,
+                                                taps, nfilts, nfilts/2, self._timing_max_dev)
+        self.time_recov.set_beta(self._timing_beta)
+
+        # Perform phase / fine frequency correction
+        self.phase_recov = digital_swig.costas_loop_cc(self._phase_damping,
+                                                       self._phase_natfreq,
+                                                       arity)
+
+        # Do differential decoding based on phase change of symbols
+        self.diffdec = gr.diff_phasor_cc()
+
+        # find closest constellation point
+        rot = 1
+        rotated_const = map(lambda pt: pt * rot, psk.constellation[arity])
+        self.slicer = gr.constellation_decoder_cb(rotated_const, range(arity))
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.gray_to_binary[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.ungray_to_binary[arity])
+        
+        # unpack the k bit vector into a stream of bits
+        self.unpack = gr.unpack_k_bits_bb(self.bits_per_symbol())
+
+        if verbose:
+            self._print_verbage()
+
+        if log:
+            self._setup_logging()
+
+        # Connect
+        self.connect(self, self.agc,
+                     self.freq_recov, self.time_recov, self.phase_recov,
+                     self.diffdec, self.slicer, self.symbol_mapper, self.unpack, self)
+        if sync_out: self.connect(self.phase_recov, (self, 1))
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # staticmethod that's also callable on an instance
+        return 1
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def _print_verbage(self):
+        print "\nDemodulator:"
+        print "bits per symbol:     %d"   % self.bits_per_symbol()
+        print "Gray code:           %s"   % self._gray_code
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+        print "FLL gain:            %.2e" % self._freq_alpha
+        print "Timing alpha gain:   %.2e" % self._timing_alpha
+        print "Timing beta gain:    %.2e" % self._timing_beta
+        print "Timing max dev:      %.2f" % self._timing_max_dev
+        print "Phase track alpha:   %.2e" % self._phase_alpha
+        print "Phase track beta:    %.2e" % self._phase_beta
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.agc,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_agc.dat"))
+        self.connect(self.freq_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_freq_recov.dat"))
+        self.connect(self.time_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_time_recov.dat"))
+        self.connect(self.phase_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_phase_recov.dat"))
+        self.connect(self.diffdec,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_diffdec.dat"))        
+        self.connect(self.slicer,
+                     gr.file_sink(gr.sizeof_char, "rx_slicer.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "rx_symbol_mapper.dat"))
+        self.connect(self.unpack,
+                     gr.file_sink(gr.sizeof_char, "rx_unpack.dat"))
+        
+    def add_options(parser):
+        """
+        Adds DBPSK demodulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default] (PSK)")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=_def_gray_code,
+                          help="disable gray coding on modulated bits (PSK)")
+        parser.add_option("", "--freq-alpha", type="float", default=_def_freq_alpha,
+                          help="set frequency lock loop alpha gain value [default=%default] (PSK)")
+        parser.add_option("", "--phase-alpha", type="float", default=_def_phase_alpha,
+                          help="set phase tracking loop alpha value [default=%default] (PSK)")
+        parser.add_option("", "--timing-alpha", type="float", default=_def_timing_alpha,
+                          help="set timing symbol sync loop gain alpha value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-beta", type="float", default=_def_timing_beta,
+                          help="set timing symbol sync loop gain beta value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-max-dev", type="float", default=_def_timing_max_dev,
+                          help="set timing symbol sync loop maximum deviation [default=%default] (GMSK/PSK)")
+    add_options=staticmethod(add_options)
+    
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(
+                 dbpsk_demod.__init__, ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('dbpsk3', dbpsk_mod)
+modulation_utils2.add_type_1_demod('dbpsk3', dbpsk_demod)
diff --git a/gr-digital/python/dqpsk.py b/gr-digital/python/dqpsk.py
new file mode 100644
index 000000000..29afd5530
--- /dev/null
+++ b/gr-digital/python/dqpsk.py
@@ -0,0 +1,374 @@
+#
+# Copyright 2009,2010,2011 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.
+# 
+
+# See gnuradio-examples/python/digital for examples
+
+"""
+differential QPSK modulation and demodulation.
+"""
+
+from gnuradio import gr, modulation_utils2
+from math import pi, sqrt
+import digital_swig, psk
+import cmath
+from pprint import pprint
+
+# default values (used in __init__ and add_options)
+_def_samples_per_symbol = 2
+_def_excess_bw = 0.35
+_def_gray_code = True
+_def_verbose = False
+_def_log = False
+
+_def_freq_alpha = 0.010
+_def_phase_damping = 0.4
+_def_phase_natfreq = 0.25
+_def_timing_alpha = 0.100
+_def_timing_beta = 0.010
+_def_timing_max_dev = 1.5
+
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           DQPSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class dqpsk_mod(gr.hier_block2):
+
+    def __init__(self,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log):
+        """
+	Hierarchical block for RRC-filtered QPSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: integer
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param debug: Print modualtion data to files?
+        @type debug: bool
+	"""
+
+	gr.hier_block2.__init__(self, "dqpsk_mod",
+				gr.io_signature(1, 1, gr.sizeof_char),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._gray_code = gray_code
+
+        if samples_per_symbol < 2:
+            raise TypeError, ("sbp must be >= 2, is %f" % samples_per_symbol)
+
+        arity = pow(2,self.bits_per_symbol())
+
+        # turn bytes into k-bit vectors
+        self.bytes2chunks = \
+          gr.packed_to_unpacked_bb(self.bits_per_symbol(), gr.GR_MSB_FIRST)
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_gray[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.binary_to_ungray[arity])
+            
+        self.diffenc = gr.diff_encoder_bb(arity)
+
+        rot = .707 + .707j
+        rotated_const = map(lambda pt: pt * rot, psk.constellation[arity])
+        self.chunks2symbols = gr.chunks_to_symbols_bc(rotated_const)
+
+        # pulse shaping filter
+        nfilts = 32
+        ntaps = 11 * int(nfilts * self._samples_per_symbol)  # make nfilts filters of ntaps each
+        self.rrc_taps = gr.firdes.root_raised_cosine(
+            nfilts,          # gain
+            nfilts,          # sampling rate based on 32 filters in resampler
+            1.0,             # symbol rate
+            self._excess_bw, # excess bandwidth (roll-off factor)
+            ntaps)
+        self.rrc_filter = gr.pfb_arb_resampler_ccf(self._samples_per_symbol, self.rrc_taps)
+
+        if verbose:
+            self._print_verbage()
+        
+        if log:
+            self._setup_logging()
+            
+	# Connect & Initialize base class
+        self.connect(self, self.bytes2chunks, self.symbol_mapper, self.diffenc,
+                     self.chunks2symbols, self.rrc_filter, self)
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # staticmethod that's also callable on an instance
+        return 2
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def _print_verbage(self):
+        print "\nModulator:"
+        print "bits per symbol:     %d" % self.bits_per_symbol()
+        print "Gray code:           %s" % self._gray_code
+        print "RRC roll-off factor: %f" % self._excess_bw
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.bytes2chunks,
+                     gr.file_sink(gr.sizeof_char, "tx_bytes2chunks.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "tx_graycoder.dat"))
+        self.connect(self.diffenc,
+                     gr.file_sink(gr.sizeof_char, "tx_diffenc.dat"))        
+        self.connect(self.chunks2symbols,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_chunks2symbols.dat"))
+        self.connect(self.rrc_filter,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_rrc_filter.dat"))
+
+    def add_options(parser):
+        """
+        Adds QPSK modulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default] (PSK)")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=_def_gray_code,
+                          help="disable gray coding on modulated bits (PSK)")
+    add_options=staticmethod(add_options)
+
+
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(dqpsk_mod.__init__,
+                                                             ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           DQPSK demodulator
+#
+# Differentially coherent detection of differentially encoded qpsk
+# /////////////////////////////////////////////////////////////////////////////
+
+class dqpsk_demod(gr.hier_block2):
+
+    def __init__(self, 
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 freq_alpha=_def_freq_alpha,
+                 phase_damping=_def_phase_damping,
+                 phase_natfreq=_def_phase_natfreq,
+                 timing_alpha=_def_timing_alpha,
+                 timing_max_dev=_def_timing_max_dev,
+                 gray_code=_def_gray_code,
+                 verbose=_def_verbose,
+                 log=_def_log,
+                 sync_out=False):
+        """
+	Hierarchical block for RRC-filtered DQPSK demodulation
+
+	The input is the complex modulated signal at baseband.
+	The output is a stream of bits packed 1 bit per byte (LSB)
+
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: float
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param freq_alpha: loop filter gain for frequency recovery
+        @type freq_alpha: float
+        @param phase_damping: loop filter damping factor for phase/fine frequency recovery
+        @type phase_damping: float
+        @param phase_natfreq: loop filter natural frequency for phase/fine frequency recovery
+        @type phase_natfreq: float
+        @param timing_alpha: timing loop alpha gain
+        @type timing_alpha: float
+        @param timing_max: timing loop maximum rate deviations
+        @type timing_max: float
+        @param gray_code: Tell modulator to Gray code the bits
+        @type gray_code: bool
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param log: Print modualtion data to files?
+        @type log: bool
+        @param sync_out: Output a sync signal on :1?
+        @type sync_out: bool
+	"""
+	if sync_out: io_sig_out = gr.io_signaturev(2, 2, (gr.sizeof_char, gr.sizeof_gr_complex))
+	else: io_sig_out = gr.io_signature(1, 1, gr.sizeof_char)
+
+	gr.hier_block2.__init__(self, "dqpsk_demod",
+			        gr.io_signature(1, 1, gr.sizeof_gr_complex), # Input signature
+			        io_sig_out)       # Output signature
+
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._freq_alpha = freq_alpha
+        self._freq_beta = 0.25*self._freq_alpha**2
+        self._phase_damping = phase_damping
+        self._phase_natfreq = phase_natfreq
+        self._timing_alpha = timing_alpha
+        self._timing_beta = _def_timing_beta
+        self._timing_max_dev=timing_max_dev
+        self._gray_code = gray_code
+
+        if samples_per_symbol < 2:
+            raise TypeError, "sbp must be >= 2, is %d" % samples_per_symbol
+
+        arity = pow(2,self.bits_per_symbol())
+ 
+        # Automatic gain control
+        self.agc = gr.agc2_cc(0.6e-1, 1e-3, 1, 1, 100)
+        #self.agc = gr.feedforward_agc_cc(16, 2.0)
+
+        # Frequency correction
+        self.freq_recov = gr.fll_band_edge_cc(self._samples_per_symbol, self._excess_bw,
+                                              11*int(self._samples_per_symbol),
+                                              self._freq_alpha, self._freq_beta)
+
+
+        # symbol timing recovery with RRC data filter
+        nfilts = 32
+        ntaps = 11 * int(samples_per_symbol*nfilts)
+        taps = gr.firdes.root_raised_cosine(nfilts, nfilts,
+                                            1.0/float(self._samples_per_symbol),
+                                            self._excess_bw, ntaps)
+        self.time_recov = gr.pfb_clock_sync_ccf(self._samples_per_symbol,
+                                                self._timing_alpha,
+                                                taps, nfilts, nfilts/2, self._timing_max_dev)
+        self.time_recov.set_beta(self._timing_beta)
+        
+
+        # Perform phase / fine frequency correction
+        self.phase_recov = digital_swig.costas_loop_cc(self._phase_damping,
+                                                       self._phase_natfreq,
+                                                       arity)
+
+        # Perform Differential decoding on the constellation
+        self.diffdec = gr.diff_phasor_cc()
+        
+        # find closest constellation point
+        rot = 1
+        rotated_const = map(lambda pt: pt * rot, psk.constellation[arity])
+        self.slicer = gr.constellation_decoder_cb(rotated_const, range(arity))
+
+        if self._gray_code:
+            self.symbol_mapper = gr.map_bb(psk.gray_to_binary[arity])
+        else:
+            self.symbol_mapper = gr.map_bb(psk.ungray_to_binary[arity])
+        
+        # unpack the k bit vector into a stream of bits
+        self.unpack = gr.unpack_k_bits_bb(self.bits_per_symbol())
+
+        if verbose:
+            self._print_verbage()
+        
+        if log:
+            self._setup_logging()
+ 
+        # Connect
+        self.connect(self, self.agc, 
+                     self.freq_recov, self.time_recov, self.phase_recov,
+                     self.diffdec, self.slicer, self.symbol_mapper, self.unpack, self)
+        if sync_out: self.connect(self.phase_recov, (self, 1))
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self=None):   # staticmethod that's also callable on an instance
+        return 2
+    bits_per_symbol = staticmethod(bits_per_symbol)      # make it a static method.  RTFM
+
+    def _print_verbage(self):
+        print "\nDemodulator:"
+        print "bits per symbol:     %d"   % self.bits_per_symbol()
+        print "Gray code:           %s"   % self._gray_code
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+        print "FLL gain:            %.2f" % self._freq_alpha
+        print "Timing alpha gain:   %.2f" % self._timing_alpha
+        print "Timing beta gain:    %.2f" % self._timing_beta
+        print "Timing max dev:      %.2f" % self._timing_max_dev
+        print "Phase track alpha:   %.2e" % self._phase_alpha
+        print "Phase track beta:    %.2e" % self._phase_beta
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.agc,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_agc.dat"))
+        self.connect(self.freq_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_freq_recov.dat"))
+        self.connect(self.time_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_time_recov.dat"))
+        self.connect(self.phase_recov,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_phase_recov.dat"))
+        self.connect(self.diffdec,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_diffdec.dat"))        
+        self.connect(self.slicer,
+                     gr.file_sink(gr.sizeof_char, "rx_slicer.dat"))
+        self.connect(self.symbol_mapper,
+                     gr.file_sink(gr.sizeof_char, "rx_gray_decoder.dat"))
+        self.connect(self.unpack,
+                     gr.file_sink(gr.sizeof_char, "rx_unpack.dat"))
+
+    def add_options(parser):
+        """
+        Adds DQPSK demodulation-specific options to the standard parser
+        """
+        parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                          help="set RRC excess bandwith factor [default=%default] (PSK)")
+        parser.add_option("", "--no-gray-code", dest="gray_code",
+                          action="store_false", default=_def_gray_code,
+                          help="disable gray coding on modulated bits (PSK)")
+        parser.add_option("", "--freq-alpha", type="float", default=_def_freq_alpha,
+                          help="set frequency lock loop alpha gain value [default=%default] (PSK)")
+        parser.add_option("", "--phase-alpha", type="float", default=_def_phase_alpha,
+                          help="set phase tracking loop alpha value [default=%default] (PSK)")
+        parser.add_option("", "--timing-alpha", type="float", default=_def_timing_alpha,
+                          help="set timing symbol sync loop gain alpha value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-beta", type="float", default=_def_timing_beta,
+                          help="set timing symbol sync loop gain beta value [default=%default] (GMSK/PSK)")
+        parser.add_option("", "--timing-max-dev", type="float", default=_def_timing_max_dev,
+                          help="set timing symbol sync loop maximum deviation [default=%default] (GMSK/PSK)")
+    add_options=staticmethod(add_options)
+
+    def extract_kwargs_from_options(options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return modulation_utils2.extract_kwargs_from_options(
+            dqpsk_demod.__init__, ('self',), options)
+    extract_kwargs_from_options=staticmethod(extract_kwargs_from_options)
+
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('dqpsk', dqpsk_mod)
+modulation_utils2.add_type_1_demod('dqpsk', dqpsk_demod)
diff --git a/gr-digital/python/generic_mod_demod.py b/gr-digital/python/generic_mod_demod.py
new file mode 100644
index 000000000..f8051db0a
--- /dev/null
+++ b/gr-digital/python/generic_mod_demod.py
@@ -0,0 +1,397 @@
+#
+# Copyright 2005,2006,2007,2009,2011 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.
+# 
+
+# See gnuradio-examples/python/digital for examples
+
+"""
+Generic modulation and demodulation.
+"""
+
+from gnuradio import gr
+from modulation_utils2 import extract_kwargs_from_options_for_class
+#from gnuradio.digital.utils import mod_codes
+from utils import mod_codes
+import digital_swig
+
+# default values (used in __init__ and add_options)
+_def_samples_per_symbol = 2
+_def_excess_bw = 0.35
+_def_verbose = False
+_def_log = False
+
+# Frequency correction
+_def_freq_alpha = 0.010
+# Symbol timing recovery 
+_def_timing_alpha = 0.100
+_def_timing_beta = 0.010
+_def_timing_max_dev = 1.5
+# Fine frequency / Phase correction
+_def_phase_alpha = 0.1
+# Number of points in constellation
+_def_constellation_points = 16
+# Whether differential coding is used.
+_def_differential = True
+
+def add_common_options(parser):
+    """
+    Sets options common to both modulator and demodulator.
+    """
+    parser.add_option("-p", "--constellation-points", type="int", default=_def_constellation_points,
+                      help="set the number of constellation points (must be a power of 2 (power of 4 for QAM) [default=%default]")
+    parser.add_option("", "--differential", action="store_true", dest="differential", default=True,
+                      help="use differential encoding [default=%default]")
+    parser.add_option("", "--not-differential", action="store_false", dest="differential",
+                      help="do not use differential encoding [default=%default]")
+    parser.add_option("", "--mod-code", type="choice", choices=mod_codes.codes,
+                      default=mod_codes.NO_CODE,
+                      help="Select modulation code from: %s [default=%%default]"
+                            % (', '.join(mod_codes.codes),))
+    parser.add_option("", "--excess-bw", type="float", default=_def_excess_bw,
+                      help="set RRC excess bandwith factor [default=%default]")
+    
+
+# /////////////////////////////////////////////////////////////////////////////
+#                             Generic modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class generic_mod(gr.hier_block2):
+
+    def __init__(self, constellation,
+                 differential=_def_differential,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 excess_bw=_def_excess_bw,
+                 verbose=_def_verbose,
+                 log=_def_log):
+        """
+	Hierarchical block for RRC-filtered differential generic modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+        
+	@param constellation: determines the modulation type
+	@type constellation: gnuradio.digital.gr_constellation
+	@param samples_per_symbol: samples per baud >= 2
+	@type samples_per_symbol: integer
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param log: Log modulation data to files?
+        @type log: bool
+	"""
+
+	gr.hier_block2.__init__(self, "generic_mod",
+				gr.io_signature(1, 1, gr.sizeof_char),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+
+        self._constellation = constellation.base()
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._differential = differential
+ 
+        if not isinstance(self._samples_per_symbol, int) or self._samples_per_symbol < 2:
+            raise TypeError, ("sbp must be an integer >= 2, is %d" % self._samples_per_symbol)
+        
+	ntaps = 11 * self._samples_per_symbol
+
+        arity = pow(2,self.bits_per_symbol())
+        
+        # turn bytes into k-bit vectors
+        self.bytes2chunks = \
+          gr.packed_to_unpacked_bb(self.bits_per_symbol(), gr.GR_MSB_FIRST)
+
+        if self._constellation.apply_pre_diff_code():
+            self.symbol_mapper = gr.map_bb(self._constellation.pre_diff_code())
+
+        if differential:
+            self.diffenc = gr.diff_encoder_bb(arity)
+
+        self.chunks2symbols = gr.chunks_to_symbols_bc(self._constellation.points())
+
+        # pulse shaping filter
+	self.rrc_taps = gr.firdes.root_raised_cosine(
+	    self._samples_per_symbol,   # gain (samples_per_symbol since we're
+                                        # interpolating by samples_per_symbol)
+	    self._samples_per_symbol,   # sampling rate
+	    1.0,		        # symbol rate
+	    self._excess_bw,            # excess bandwidth (roll-off factor)
+            ntaps)
+	self.rrc_filter = gr.interp_fir_filter_ccf(self._samples_per_symbol,
+                                                   self.rrc_taps)
+
+	# Connect
+        blocks = [self, self.bytes2chunks]
+        if self._constellation.apply_pre_diff_code():
+            blocks.append(self.symbol_mapper)
+        if differential:
+            blocks.append(self.diffenc)
+        blocks += [self.chunks2symbols, self.rrc_filter, self]
+        self.connect(*blocks)
+
+        if verbose:
+            self._print_verbage()
+            
+        if log:
+            self._setup_logging()
+            
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self):   # static method that's also callable on an instance
+        return self._constellation.bits_per_symbol()
+
+    def add_options(parser):
+        """
+        Adds generic modulation options to the standard parser
+        """
+        add_common_options(parser)
+    add_options=staticmethod(add_options)
+
+    def extract_kwargs_from_options(cls, options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return extract_kwargs_from_options_for_class(cls, options)
+    extract_kwargs_from_options=classmethod(extract_kwargs_from_options)
+
+
+    def _print_verbage(self):
+        print "\nModulator:"
+        print "bits per symbol:     %d" % self.bits_per_symbol()
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.bytes2chunks,
+                     gr.file_sink(gr.sizeof_char, "tx_bytes2chunks.dat"))
+        if self._constellation.apply_pre_diff_code():
+            self.connect(self.symbol_mapper,
+                         gr.file_sink(gr.sizeof_char, "tx_symbol_mapper.dat"))
+        if self._differential:
+            self.connect(self.diffenc,
+                         gr.file_sink(gr.sizeof_char, "tx_diffenc.dat"))
+        self.connect(self.chunks2symbols,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_chunks2symbols.dat"))
+        self.connect(self.rrc_filter,
+                     gr.file_sink(gr.sizeof_gr_complex, "tx_rrc_filter.dat"))
+              
+
+# /////////////////////////////////////////////////////////////////////////////
+#                             Generic demodulator
+#
+#      Differentially coherent detection of differentially encoded generically
+#      modulated signal.
+# /////////////////////////////////////////////////////////////////////////////
+
+class generic_demod(gr.hier_block2):
+
+    def __init__(self, constellation,
+                 samples_per_symbol=_def_samples_per_symbol,
+                 differential=_def_differential,
+                 excess_bw=_def_excess_bw,
+                 freq_alpha=_def_freq_alpha,
+                 timing_alpha=_def_timing_alpha,
+                 timing_max_dev=_def_timing_max_dev,
+                 phase_alpha=_def_phase_alpha,
+                 verbose=_def_verbose,
+                 log=_def_log):
+        """
+	Hierarchical block for RRC-filtered differential generic demodulation.
+
+	The input is the complex modulated signal at baseband.
+	The output is a stream of bits packed 1 bit per byte (LSB)
+
+	@param constellation: determines the modulation type
+	@type constellation: gnuradio.digital.gr_constellation
+	@param samples_per_symbol: samples per symbol >= 2
+	@type samples_per_symbol: float
+	@param excess_bw: Root-raised cosine filter excess bandwidth
+	@type excess_bw: float
+        @param freq_alpha: loop filter gain for frequency recovery
+        @type freq_alpha: float
+        @param timing_alpha: loop alpha gain for timing recovery
+        @type timing_alpha: float
+        @param timing_max_dev: timing loop maximum rate deviations
+        @type timing_max_dev: float
+        @param phase_alpha: loop filter gain in phase loop
+        @type phase_alphas: float
+        @param verbose: Print information about modulator?
+        @type verbose: bool
+        @param debug: Print modualtion data to files?
+        @type debug: bool
+	"""
+        
+	gr.hier_block2.__init__(self, "generic_demod",
+				gr.io_signature(1, 1, gr.sizeof_gr_complex), # Input signature
+				gr.io_signature(1, 1, gr.sizeof_char))       # Output signature
+				
+        self._constellation = constellation.base()
+        self._samples_per_symbol = samples_per_symbol
+        self._excess_bw = excess_bw
+        self._phase_alpha = phase_alpha
+        self._freq_alpha = freq_alpha
+        self._freq_beta = 0.10*self._freq_alpha
+        self._timing_alpha = timing_alpha
+        self._timing_beta = _def_timing_beta
+        self._timing_max_dev=timing_max_dev
+        self._differential = differential
+
+        if not isinstance(self._samples_per_symbol, int) or self._samples_per_symbol < 2:
+            raise TypeError, ("sbp must be an integer >= 2, is %d" % self._samples_per_symbol)
+
+        arity = pow(2,self.bits_per_symbol())
+
+        # Automatic gain control
+        self.agc = gr.agc2_cc(0.6e-1, 1e-3, 1, 1, 100)
+
+        # Frequency correction
+        self.freq_recov = gr.fll_band_edge_cc(self._samples_per_symbol, self._excess_bw,
+                                              11*int(self._samples_per_symbol),
+                                              self._freq_alpha, self._freq_beta)
+
+        # symbol timing recovery with RRC data filter
+        nfilts = 32
+        ntaps = 11 * int(self._samples_per_symbol*nfilts)
+        taps = gr.firdes.root_raised_cosine(nfilts, nfilts,
+                                            1.0/float(self._samples_per_symbol),
+                                            self._excess_bw, ntaps)
+        self.time_recov = gr.pfb_clock_sync_ccf(self._samples_per_symbol,
+                                                self._timing_alpha,
+                                                taps, nfilts, nfilts/2, self._timing_max_dev)
+        self.time_recov.set_beta(self._timing_beta)
+
+        #self._phase_beta  = 0.25 * self._phase_alpha * self._phase_alpha
+        self._phase_beta  = 0.25 * self._phase_alpha * self._phase_alpha
+        fmin = -0.25
+        fmax = 0.25
+        
+        self.receiver = digital_swig.constellation_receiver_cb(
+            self._constellation,
+            self._phase_alpha, self._phase_beta,
+            fmin, fmax)
+        
+        # Do differential decoding based on phase change of symbols
+        if differential:
+            self.diffdec = gr.diff_decoder_bb(arity)
+
+        if self._constellation.apply_pre_diff_code():
+            self.symbol_mapper = gr.map_bb(
+                mod_codes.invert_code(self._constellation.pre_diff_code()))
+
+        # unpack the k bit vector into a stream of bits
+        self.unpack = gr.unpack_k_bits_bb(self.bits_per_symbol())
+
+        if verbose:
+            self._print_verbage()
+
+        if log:
+            self._setup_logging()
+
+        # Connect and Initialize base class
+        blocks = [self, self.agc, self.freq_recov, self.time_recov, self.receiver]
+        if differential:
+            blocks.append(self.diffdec)
+        if self._constellation.apply_pre_diff_code():
+            blocks.append(self.symbol_mapper)
+        blocks += [self.unpack, self]
+        self.connect(*blocks)
+
+    def samples_per_symbol(self):
+        return self._samples_per_symbol
+
+    def bits_per_symbol(self):   # staticmethod that's also callable on an instance
+        return self._constellation.bits_per_symbol()
+
+    def _print_verbage(self):
+        print "\nDemodulator:"
+        print "bits per symbol:     %d"   % self.bits_per_symbol()
+        print "RRC roll-off factor: %.2f" % self._excess_bw
+        print "FLL gain:            %.2e" % self._freq_alpha
+        print "Timing alpha gain:   %.2e" % self._timing_alpha
+        print "Timing beta gain:    %.2e" % self._timing_beta
+        print "Timing max dev:      %.2f" % self._timing_max_dev
+        print "Phase track alpha:   %.2e" % self._phase_alpha
+        print "Phase track beta:    %.2e" % self._phase_beta
+
+    def _setup_logging(self):
+        print "Modulation logging turned on."
+        self.connect(self.agc,
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_agc.dat"))
+        self.connect((self.freq_recov, 0),
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_freq_recov.dat"))
+        self.connect((self.freq_recov, 1),
+                     gr.file_sink(gr.sizeof_float, "rx_freq_recov_freq.dat"))
+        self.connect((self.freq_recov, 2),
+                     gr.file_sink(gr.sizeof_float, "rx_freq_recov_phase.dat"))
+        self.connect((self.freq_recov, 3),
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_freq_recov_error.dat"))
+        self.connect((self.time_recov, 0),
+                     gr.file_sink(gr.sizeof_gr_complex, "rx_time_recov.dat"))
+        self.connect((self.time_recov, 1),
+                     gr.file_sink(gr.sizeof_float, "rx_time_recov_error.dat"))
+        self.connect((self.time_recov, 2),
+                     gr.file_sink(gr.sizeof_float, "rx_time_recov_rate.dat"))
+        self.connect((self.time_recov, 3),
+                     gr.file_sink(gr.sizeof_float, "rx_time_recov_phase.dat"))
+        self.connect((self.receiver, 0),
+                     gr.file_sink(gr.sizeof_char, "rx_receiver.dat"))
+        self.connect((self.receiver, 1),
+                     gr.file_sink(gr.sizeof_float, "rx_receiver_error.dat"))
+        self.connect((self.receiver, 2),
+                     gr.file_sink(gr.sizeof_float, "rx_receiver_phase.dat"))
+        self.connect((self.receiver, 3),
+                     gr.file_sink(gr.sizeof_float, "rx_receiver_freq.dat"))
+        if self._differential:
+            self.connect(self.diffdec,
+                         gr.file_sink(gr.sizeof_char, "rx_diffdec.dat"))        
+        if self._constellation.apply_pre_diff_code():
+            self.connect(self.symbol_mapper,
+                         gr.file_sink(gr.sizeof_char, "rx_symbol_mapper.dat"))        
+        self.connect(self.unpack,
+                     gr.file_sink(gr.sizeof_char, "rx_unpack.dat"))
+        
+    def add_options(parser):
+        """
+        Adds generic demodulation options to the standard parser
+        """
+        # Add options shared with modulator.
+        add_common_options(parser)
+        # Add options specific to demodulator.
+        parser.add_option("", "--freq-alpha", type="float", default=_def_freq_alpha,
+                          help="set frequency lock loop alpha gain value [default=%default]")
+        parser.add_option("", "--phase-alpha", type="float", default=_def_phase_alpha,
+                          help="set phase tracking loop alpha value [default=%default]")
+        parser.add_option("", "--timing-alpha", type="float", default=_def_timing_alpha,
+                          help="set timing symbol sync loop gain alpha value [default=%default]")
+        parser.add_option("", "--timing-beta", type="float", default=_def_timing_beta,
+                          help="set timing symbol sync loop gain beta value [default=%default]")
+        parser.add_option("", "--timing-max-dev", type="float", default=_def_timing_max_dev,
+                          help="set timing symbol sync loop maximum deviation [default=%default]")
+    add_options=staticmethod(add_options)
+    
+    def extract_kwargs_from_options(cls, options):
+        """
+        Given command line options, create dictionary suitable for passing to __init__
+        """
+        return extract_kwargs_from_options_for_class(cls, options)
+    extract_kwargs_from_options=classmethod(extract_kwargs_from_options)
+
diff --git a/gr-digital/python/modulation_utils2.py b/gr-digital/python/modulation_utils2.py
new file mode 100644
index 000000000..f30055f4a
--- /dev/null
+++ b/gr-digital/python/modulation_utils2.py
@@ -0,0 +1,101 @@
+#
+# Copyright 2010 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 this program; if not, write to the Free Software Foundation, Inc.,
+# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
+#
+
+"""
+Miscellaneous utilities for managing mods and demods, as well as other items
+useful in dealing with generalized handling of different modulations and demods.
+"""
+
+import inspect
+
+
+# Type 1 modulators accept a stream of bytes on their input and produce complex baseband output
+_type_1_modulators = {}
+
+def type_1_mods():
+    return _type_1_modulators
+
+def add_type_1_mod(name, mod_class):
+    _type_1_modulators[name] = mod_class
+
+
+# Type 1 demodulators accept complex baseband input and produce a stream of bits, packed
+# 1 bit / byte as their output.  Their output is completely unambiguous.  There is no need
+# to resolve phase or polarity ambiguities.
+_type_1_demodulators = {}
+
+def type_1_demods():
+    return _type_1_demodulators
+
+def add_type_1_demod(name, demod_class):
+    _type_1_demodulators[name] = demod_class
+
+# Also record the constellation making functions of the modulations
+_type_1_constellations = {}
+
+def type_1_constellations():
+    return _type_1_constellations
+
+def add_type_1_constellation(name, constellation):
+    _type_1_constellations[name] = constellation
+
+
+def extract_kwargs_from_options(function, excluded_args, options):
+    """
+    Given a function, a list of excluded arguments and the result of
+    parsing command line options, create a dictionary of key word
+    arguments suitable for passing to the function.  The dictionary
+    will be populated with key/value pairs where the keys are those
+    that are common to the function's argument list (minus the
+    excluded_args) and the attributes in options.  The values are the
+    corresponding values from options unless that value is None.
+    In that case, the corresponding dictionary entry is not populated.
+
+    (This allows different modulations that have the same parameter
+    names, but different default values to coexist.  The downside is
+    that --help in the option parser will list the default as None,
+    but in that case the default provided in the __init__ argument
+    list will be used since there is no kwargs entry.)
+
+    @param function: the function whose parameter list will be examined
+    @param excluded_args: function arguments that are NOT to be added to the dictionary
+    @type excluded_args: sequence of strings
+    @param options: result of command argument parsing
+    @type options: optparse.Values
+    """
+    # Try this in C++ ;)
+    args, varargs, varkw, defaults = inspect.getargspec(function)
+    d = {}
+    for kw in [a for a in args if a not in excluded_args]:
+        if hasattr(options, kw):
+            if getattr(options, kw) is not None:
+                d[kw] = getattr(options, kw)
+    return d
+
+def extract_kwargs_from_options_for_class(cls, options):
+    """
+    Given command line options, create dictionary suitable for passing to __init__
+    """
+    d = extract_kwargs_from_options(
+        cls.__init__, ('self',), options)
+    for base in cls.__bases__:
+        if hasattr(base, 'extract_kwargs_from_options'):
+            d.update(base.extract_kwargs_from_options(options))
+    return d
diff --git a/gr-digital/python/ofdm.py b/gr-digital/python/ofdm.py
new file mode 100644
index 000000000..e05f074f4
--- /dev/null
+++ b/gr-digital/python/ofdm.py
@@ -0,0 +1,295 @@
+#!/usr/bin/env python
+#
+# Copyright 2006,2007,2008 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 math
+from gnuradio import gr, ofdm_packet_utils, modulation_utils2
+import gnuradio.gr.gr_threading as _threading
+import psk, qam
+
+from gnuradio.blks2impl.ofdm_receiver import ofdm_receiver
+
+def _add_common_options(normal, expert):
+    """
+    Adds OFDM-specific options to the Options Parser that are common
+    both to the modulator and demodulator.
+    """
+    mods_list = ", ".join(modulation_utils2.type_1_constellations().keys())
+    print dir(modulation_utils2)
+    print "MODS LIST: ", mods_list
+    print modulation_utils2.type_1_mods()
+    normal.add_option("-m", "--modulation", type="string", default="psk",
+                      help="set modulation type (" + mods_list + ") [default=%default]")
+    normal.add_option("-c", "--constellation-points", type="int", default=2,
+                      help="set number of constellation points [default=%default]")
+    expert.add_option("", "--fft-length", type="intx", default=512,
+                      help="set the number of FFT bins [default=%default]")
+    expert.add_option("", "--occupied-tones", type="intx", default=200,
+                      help="set the number of occupied FFT bins [default=%default]")
+    expert.add_option("", "--cp-length", type="intx", default=128,
+                      help="set the number of bits in the cyclic prefix [default=%default]")
+
+# /////////////////////////////////////////////////////////////////////////////
+#                   mod/demod with packets as i/o
+# /////////////////////////////////////////////////////////////////////////////
+
+class ofdm_mod(gr.hier_block2):
+    """
+    Modulates an OFDM stream. Based on the options fft_length, occupied_tones, and
+    cp_length, this block creates OFDM symbols using a specified modulation option.
+    
+    Send packets by calling send_pkt
+    """
+    def __init__(self, options, msgq_limit=2, pad_for_usrp=True):
+        """
+	Hierarchical block for sending packets
+
+        Packets to be sent are enqueued by calling send_pkt.
+        The output is the complex modulated signal at baseband.
+
+        @param options: pass modulation options from higher layers (fft length, occupied tones, etc.)
+        @param msgq_limit: maximum number of messages in message queue
+        @type msgq_limit: int
+        @param pad_for_usrp: If true, packets are padded such that they end up a multiple of 128 samples
+        """
+
+	gr.hier_block2.__init__(self, "ofdm_mod",
+				gr.io_signature(0, 0, 0),       # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+
+        self._pad_for_usrp = pad_for_usrp
+        self._modulation = options.modulation
+        self._fft_length = options.fft_length
+        self._occupied_tones = options.occupied_tones
+        self._cp_length = options.cp_length
+
+        print (options)
+        arity = options.constellation_points
+
+        win = [] #[1 for i in range(self._fft_length)]
+
+        # Use freq domain to get doubled-up known symbol for correlation in time domain
+        zeros_on_left = int(math.ceil((self._fft_length - self._occupied_tones)/2.0))
+        ksfreq = known_symbols_4512_3[0:self._occupied_tones]
+        for i in range(len(ksfreq)):
+            if((zeros_on_left + i) & 1):
+                ksfreq[i] = 0
+
+        # hard-coded known symbols
+        preambles = (ksfreq,)
+                
+        padded_preambles = list()
+        for pre in preambles:
+            padded = self._fft_length*[0,]
+            padded[zeros_on_left : zeros_on_left + self._occupied_tones] = pre
+            padded_preambles.append(padded)
+            
+        symbol_length = options.fft_length + options.cp_length
+        
+        print modulation_utils2.type_1_constellations
+        const = modulation_utils2.type_1_constellations()[self._modulation](arity).points()
+
+        self._pkt_input = gr.ofdm_mapper_bcv(const, msgq_limit,
+                                             options.occupied_tones, options.fft_length)
+        
+        self.preambles = gr.ofdm_insert_preamble(self._fft_length, padded_preambles)
+        self.ifft = gr.fft_vcc(self._fft_length, False, win, True)
+        self.cp_adder = gr.ofdm_cyclic_prefixer(self._fft_length, symbol_length)
+        self.scale = gr.multiply_const_cc(1.0 / math.sqrt(self._fft_length))
+        
+        self.connect((self._pkt_input, 0), (self.preambles, 0))
+        self.connect((self._pkt_input, 1), (self.preambles, 1))
+        self.connect(self.preambles, self.ifft, self.cp_adder, self.scale, self)
+        
+        if options.verbose:
+            self._print_verbage()
+
+        if options.log:
+            self.connect(self._pkt_input, gr.file_sink(gr.sizeof_gr_complex*options.fft_length,
+                                                       "ofdm_mapper_c.dat"))
+            self.connect(self.preambles, gr.file_sink(gr.sizeof_gr_complex*options.fft_length,
+                                                      "ofdm_preambles.dat"))
+            self.connect(self.ifft, gr.file_sink(gr.sizeof_gr_complex*options.fft_length,
+                                                 "ofdm_ifft_c.dat"))
+            self.connect(self.cp_adder, gr.file_sink(gr.sizeof_gr_complex,
+                                                     "ofdm_cp_adder_c.dat"))
+
+    def send_pkt(self, payload='', eof=False):
+        """
+        Send the payload.
+
+        @param payload: data to send
+        @type payload: string
+        """
+        if eof:
+            msg = gr.message(1) # tell self._pkt_input we're not sending any more packets
+        else:
+            # print "original_payload =", string_to_hex_list(payload)
+            pkt = ofdm_packet_utils.make_packet(payload, 1, 1, self._pad_for_usrp, whitening=True)
+            
+            #print "pkt =", string_to_hex_list(pkt)
+            msg = gr.message_from_string(pkt)
+        self._pkt_input.msgq().insert_tail(msg)
+
+    def add_options(normal, expert):
+        """
+        Adds OFDM-specific options to the Options Parser
+        """
+        _add_common_options(normal, expert)
+        for mod in modulation_utils2.type_1_mods().values():
+            mod.add_options(expert)
+
+    # Make a static method to call before instantiation
+    add_options = staticmethod(add_options)
+
+    def _print_verbage(self):
+        """
+        Prints information about the OFDM modulator
+        """
+        print "\nOFDM Modulator:"
+        print "Modulation Type: %s"    % (self._modulation)
+        print "FFT length:      %3d"   % (self._fft_length)
+        print "Occupied Tones:  %3d"   % (self._occupied_tones)
+        print "CP length:       %3d"   % (self._cp_length)
+
+
+class ofdm_demod(gr.hier_block2):
+    """
+    Demodulates a received OFDM stream. Based on the options fft_length, occupied_tones, and
+    cp_length, this block performs synchronization, FFT, and demodulation of incoming OFDM
+    symbols and passes packets up the a higher layer.
+
+    The input is complex baseband.  When packets are demodulated, they are passed to the
+    app via the callback.
+    """
+
+    def __init__(self, options, callback=None):
+        """
+	Hierarchical block for demodulating and deframing packets.
+
+	The input is the complex modulated signal at baseband.
+        Demodulated packets are sent to the handler.
+
+        @param options: pass modulation options from higher layers (fft length, occupied tones, etc.)
+        @param callback:  function of two args: ok, payload
+        @type callback: ok: bool; payload: string
+	"""
+	gr.hier_block2.__init__(self, "ofdm_demod",
+				gr.io_signature(1, 1, gr.sizeof_gr_complex), # Input signature
+				gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
+
+
+        self._rcvd_pktq = gr.msg_queue()          # holds packets from the PHY
+
+        self._modulation = options.modulation
+        self._fft_length = options.fft_length
+        self._occupied_tones = options.occupied_tones
+        self._cp_length = options.cp_length
+        self._snr = options.snr
+
+        arity = options.constellation_points
+        print("con points is %s" % options.constellation_points)
+        
+        # Use freq domain to get doubled-up known symbol for correlation in time domain
+        zeros_on_left = int(math.ceil((self._fft_length - self._occupied_tones)/2.0))
+        ksfreq = known_symbols_4512_3[0:self._occupied_tones]
+        for i in range(len(ksfreq)):
+            if((zeros_on_left + i) & 1):
+                ksfreq[i] = 0
+
+        # hard-coded known symbols
+        preambles = (ksfreq,)
+        
+        symbol_length = self._fft_length + self._cp_length
+        self.ofdm_recv = ofdm_receiver(self._fft_length, self._cp_length,
+                                       self._occupied_tones, self._snr, preambles,
+                                       options.log)
+
+        constell = modulation_utils2.type_1_constellations()[self._modulation](arity)
+
+        phgain = 0.25
+        frgain = phgain*phgain / 4.0
+        self.ofdm_demod = gr.ofdm_frame_sink2(constell.base(),
+                                             self._rcvd_pktq,
+                                             self._occupied_tones,
+                                             phgain, frgain)
+
+        self.connect(self, self.ofdm_recv)
+        self.connect((self.ofdm_recv, 0), (self.ofdm_demod, 0))
+        self.connect((self.ofdm_recv, 1), (self.ofdm_demod, 1))
+
+        # added output signature to work around bug, though it might not be a bad
+        # thing to export, anyway
+        self.connect(self.ofdm_recv.chan_filt, self)
+
+        if options.log:
+            self.connect(self.ofdm_demod, gr.file_sink(gr.sizeof_gr_complex*self._occupied_tones, "ofdm_frame_sink_c.dat"))
+        else:
+            self.connect(self.ofdm_demod, gr.null_sink(gr.sizeof_gr_complex*self._occupied_tones))
+
+        if options.verbose:
+            self._print_verbage()
+            
+        self._watcher = _queue_watcher_thread(self._rcvd_pktq, callback)
+
+    def add_options(normal, expert):
+        """
+        Adds OFDM-specific options to the Options Parser
+        """
+        _add_common_options(normal, expert)
+        for mod in modulation_utils2.type_1_mods().values():
+            mod.add_options(expert)
+    # Make a static method to call before instantiation
+    add_options = staticmethod(add_options)
+
+    def _print_verbage(self):
+        """
+        Prints information about the OFDM demodulator
+        """
+        print "\nOFDM Demodulator:"
+        print "Modulation Type: %s"    % (self._modulation)
+        print "FFT length:      %3d"   % (self._fft_length)
+        print "Occupied Tones:  %3d"   % (self._occupied_tones)
+        print "CP length:       %3d"   % (self._cp_length)
+
+
+
+class _queue_watcher_thread(_threading.Thread):
+    def __init__(self, rcvd_pktq, callback):
+        _threading.Thread.__init__(self)
+        self.setDaemon(1)
+        self.rcvd_pktq = rcvd_pktq
+        self.callback = callback
+        self.keep_running = True
+        self.start()
+
+
+    def run(self):
+        while self.keep_running:
+            msg = self.rcvd_pktq.delete_head()
+            ok, payload = ofdm_packet_utils.unmake_packet(msg.to_string())
+            if self.callback:
+                self.callback(ok, payload)
+
+# Generating known symbols with:
+# i = [2*random.randint(0,1)-1 for i in range(4512)]
+
+known_symbols_4512_3 = [-1, -1, 1, -1, 1, 1, -1, -1, 1, -1, 1, 1, -1, 1, -1, -1, 1, -1, 1, -1, 1, 1, -1, -1, -1, 1, -1, 1, 1, -1, 1, -1, -1, -1, -1, -1, -1, -1, 1, 1, -1, -1, 1, 1, 1, -1, 1, -1, -1, -1, 1, 1, 1, 1, 1, 1, 1, -1, -1, 1, -1, 1, -1, -1, 1, -1, 1, 1, 1, 1, -1, 1, -1, 1, -1, 1, -1, -1, -1, 1, -1, -1, -1, 1, 1, 1, -1, -1, -1, -1, -1, -1, -1, 1, -1, -1, 1, -1, 1, 1, 1, -1, -1, -1, -1, -1, -1, 1, -1, -1, -1, -1, 1, -1, 1, 1, 1, 1, 1, 1, 1, 1, 1, -1, -1, -1, 1, 1, 1, 1, -1, -1, 1, -1, 1, -1, 1, 1, 1, 1, -1, -1, 1, -1, 1, 1, 1, 1, -1, 1, -1, -1, 1, -1, 1, 1, 1, -1, -1, -1, 1, 1, 1, 1, 1, 1, -1, -1, 1, 1, 1, -1, -1, 1, -1, -1, 1, 1, 1, -1, -1, 1, 1, -1, 1, -1, -1, -1, -1, -1, -1, 1, 1, -1, -1, 1, -1, -1, 1, -1, 1, -1, -1, 1, 1, -1, 1, 1, 1, 1, -1, 1, 1, 1, -1, 1, -1, 1, 1, 1, -1, 1, 1, -1, 1, 1, 1, -1, 1, 1, 1, 1, -1, 1, -1, -1, 1, -1, -1, 1, 1, 1, -1, 1, -1, -1, -1, -1, -1, 1, -1, 1, -1, 1, 1, 1, 1, -1, 1, -1, -1, -1, 1, -1, 1, 1, -1, -1, -1, 1, 1, -1, -1, 1, 1, 1, 1, 1, 1, 1, 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-1, 1, -1, 1, -1, 1, 1, 1, -1, 1, 1, -1, 1, 1, -1, -1, -1, -1, 1, -1, 1, 1, -1, -1, 1, 1, -1, 1, -1, -1, -1, 1, 1, 1, -1, -1, 1, -1, -1, -1, 1, 1, 1, 1, -1, -1, -1, 1, -1, 1, 1, 1, -1, 1, 1, 1, -1, -1, -1, 1, 1, -1, -1, 1, 1, -1, 1, -1, -1, 1, -1, -1, -1, 1, 1, -1, 1, -1, -1, 1, 1, -1, 1, -1, -1, 1, -1, -1, -1, 1, 1, -1, 1, 1, -1, 1, -1, -1, -1, -1, 1, -1, -1, 1, 1, -1, 1, 1, 1, 1, 1, -1, 1, -1, 1, 1, 1, 1, -1, -1, 1, 1, -1, 1, -1, 1, -1, -1, 1, -1, -1, -1, 1, -1, -1, -1, 1, 1, 1, -1, -1, 1, 1, -1, -1, -1, -1, 1, -1, 1, -1, 1, 1, 1, -1, 1, 1, -1, 1, -1, 1, -1, -1, 1, -1, -1, -1, -1, 1, 1, -1, -1, 1, -1, -1, 1, 1, 1, -1, -1, -1, -1, 1, -1, -1, 1, -1, 1, 1, 1, 1, 1, -1, -1, -1, -1, 1, -1, -1, -1, 1, 1, 1, 1, -1, -1, -1, -1, 1, -1, -1, 1, 1, 1, -1, 1, -1, 1, -1, 1, 1, -1, -1, -1, 1, 1, 1, 1, -1, -1, -1, 1, 1, -1, 1, 1, 1, 1, 1, -1, 1, 1, -1, 1, 1, 1, -1, 1, -1, -1, 1, 1, -1, 1, -1, 1, -1, 1, 1, -1, -1, -1, 1, 1, -1, 1, -1, 1, -1, -1, -1, -1, 1, 1, 1, 1, -1, 1, -1, 1, -1, -1, -1, 1, -1, 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diff --git a/gr-digital/python/pkt.py b/gr-digital/python/pkt.py
new file mode 100644
index 000000000..aa720d1a5
--- /dev/null
+++ b/gr-digital/python/pkt.py
@@ -0,0 +1,184 @@
+#
+# Copyright 2005, 2006, 2007 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 math import pi
+from gnuradio import gr, packet_utils
+import gnuradio.gr.gr_threading as _threading
+
+
+# /////////////////////////////////////////////////////////////////////////////
+#                   mod/demod with packets as i/o
+# /////////////////////////////////////////////////////////////////////////////
+
+class mod_pkts(gr.hier_block2):
+    """
+    Wrap an arbitrary digital modulator in our packet handling framework.
+
+    Send packets by calling send_pkt
+    """
+    def __init__(self, modulator, access_code=None, msgq_limit=2, pad_for_usrp=True, use_whitener_offset=False,
+                 modulate=True):
+        """
+	Hierarchical block for sending packets
+
+        Packets to be sent are enqueued by calling send_pkt.
+        The output is the complex modulated signal at baseband.
+
+        @param modulator: instance of modulator class (gr_block or hier_block2)
+        @type modulator: complex baseband out
+        @param access_code: AKA sync vector
+        @type access_code: string of 1's and 0's between 1 and 64 long
+        @param msgq_limit: maximum number of messages in message queue
+        @type msgq_limit: int
+        @param pad_for_usrp: If true, packets are padded such that they end up a multiple of 128 samples
+        @param use_whitener_offset: If true, start of whitener XOR string is incremented each packet
+        @param modulate: If false, no modulation will be performed.
+        
+        See gmsk_mod for remaining parameters
+        """
+        if modulate:
+            output_size = gr.sizeof_gr_complex
+        else:
+            output_size = gr.sizeof_char
+
+	gr.hier_block2.__init__(self, "mod_pkts",
+				gr.io_signature(0, 0, 0),                    # Input signature
+				gr.io_signature(1, 1, output_size))          # Output signature
+
+        self._modulator = modulator
+        self._pad_for_usrp = pad_for_usrp
+        self._use_whitener_offset = use_whitener_offset
+        self._whitener_offset = 0
+        
+        if access_code is None:
+            access_code = packet_utils.default_access_code
+        if not packet_utils.is_1_0_string(access_code):
+            raise ValueError, "Invalid access_code %r. Must be string of 1's and 0's" % (access_code,)
+        self._access_code = access_code
+
+        # accepts messages from the outside world
+        self._pkt_input = gr.message_source(gr.sizeof_char, msgq_limit)
+        if modulate:
+            self.connect(self._pkt_input, self._modulator, self)
+        else:
+            self.connect(self._pkt_input, self)
+
+    def send_pkt(self, payload='', eof=False):
+        """
+        Send the payload.
+
+        @param payload: data to send
+        @type payload: string
+        """
+        if eof:
+            msg = gr.message(1) # tell self._pkt_input we're not sending any more packets
+        else:
+            # print "original_payload =", string_to_hex_list(payload)
+            pkt = packet_utils.make_packet(payload,
+                                           self._modulator.samples_per_symbol(),
+                                           self._modulator.bits_per_symbol(),
+                                           self._access_code,
+                                           self._pad_for_usrp,
+                                           self._whitener_offset)
+            #print "pkt =", string_to_hex_list(pkt)
+            msg = gr.message_from_string(pkt)
+            if self._use_whitener_offset is True:
+                self._whitener_offset = (self._whitener_offset + 1) % 16
+                
+        self._pkt_input.msgq().insert_tail(msg)
+
+
+
+class demod_pkts(gr.hier_block2):
+    """
+    Wrap an arbitrary digital demodulator in our packet handling framework.
+
+    The input is complex baseband.  When packets are demodulated, they are passed to the
+    app via the callback.
+    """
+
+    def __init__(self, demodulator, access_code=None, callback=None, threshold=-1, demodulate=True):
+        """
+	Hierarchical block for demodulating and deframing packets.
+
+	The input is the complex modulated signal at baseband.
+        Demodulated packets are sent to the handler.
+
+        If demodulator is None it is assumed the input is already demodulated.
+
+        @param demodulator: instance of demodulator class (gr_block or hier_block2)
+        @type demodulator: complex baseband in
+        @param access_code: AKA sync vector
+        @type access_code: string of 1's and 0's
+        @param callback:  function of two args: ok, payload
+        @type callback: ok: bool; payload: string
+        @param threshold: detect access_code with up to threshold bits wrong (-1 -> use default)
+        @type threshold: int
+	"""
+
+        if demodulator is not None:
+            input_size = gr.sizeof_gr_complex
+        else:
+            input_size = gr.sizeof_char
+
+	gr.hier_block2.__init__(self, "demod_pkts",
+				gr.io_signature(1, 1, input_size), # Input signature
+				gr.io_signature(0, 0, 0))          # Output signature
+
+        self._demodulator = demodulator
+        if access_code is None:
+            access_code = packet_utils.default_access_code
+        if not packet_utils.is_1_0_string(access_code):
+            raise ValueError, "Invalid access_code %r. Must be string of 1's and 0's" % (access_code,)
+        self._access_code = access_code
+
+        if threshold == -1:
+            threshold = 12              # FIXME raise exception
+
+        self._rcvd_pktq = gr.msg_queue()          # holds packets from the PHY
+        self.correlator = gr.correlate_access_code_bb(access_code, threshold)
+
+        self.framer_sink = gr.framer_sink_1(self._rcvd_pktq)
+        if self._demodulator is not None:
+            self.connect(self, self._demodulator, self.correlator, self.framer_sink)
+        else:
+            self.connect(self, self.correlator, self.framer_sink)
+        
+        if callback is not None:
+            self._watcher = _queue_watcher_thread(self._rcvd_pktq, callback)
+
+
+class _queue_watcher_thread(_threading.Thread):
+    def __init__(self, rcvd_pktq, callback):
+        _threading.Thread.__init__(self)
+        self.setDaemon(1)
+        self.rcvd_pktq = rcvd_pktq
+        self.callback = callback
+        self.keep_running = True
+        self.start()
+
+
+    def run(self):
+        while self.keep_running:
+            msg = self.rcvd_pktq.delete_head()
+            ok, payload = packet_utils.unmake_packet(msg.to_string(), int(msg.arg1()))
+            if self.callback:
+                self.callback(ok, payload)
diff --git a/gr-digital/python/psk.py b/gr-digital/python/psk.py
new file mode 100644
index 000000000..acedf3b69
--- /dev/null
+++ b/gr-digital/python/psk.py
@@ -0,0 +1,94 @@
+#
+# Copyright 2005,2006 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 math import pi, sqrt, log10
+import math, cmath
+
+# The following algorithm generates Gray coded constellations for M-PSK for M=[2,4,8]
+def make_gray_constellation(m):
+    # number of bits/symbol (log2(M))
+    k = int(log10(m) / log10(2.0))
+
+    coeff = 1
+    const_map = []
+    bits = [0]*3
+    for i in range(m):
+        # get a vector of the k bits to use in this mapping
+        bits[3-k:3] = [((i&(0x01 << k-j-1)) >> k-j-1) for j in range(k)]
+
+        theta = -(2*bits[0]-1)*(2*pi/m)*(bits[0]+abs(bits[1]-bits[2])+2*bits[1])
+        re = math.cos(theta)
+        im = math.sin(theta)
+        const_map.append(complex(re, im))   # plug it into the constellation
+    
+    # return the constellation; by default, it is normalized
+    return const_map
+
+# This makes a constellation that increments around the unit circle
+def make_constellation(m):
+    return [cmath.exp(i * 2 * pi / m * 1j) for i in range(m)]
+
+# Common definition of constellations for Tx and Rx
+constellation = {
+    2 : make_constellation(2),           # BPSK
+    4 : make_constellation(4),           # QPSK
+    8 : make_constellation(8)            # 8PSK
+    }
+
+gray_constellation = {
+    2 : make_gray_constellation(2),           # BPSK
+    4 : make_gray_constellation(4),           # QPSK
+    8 : make_gray_constellation(8)            # 8PSK
+    }
+
+# -----------------------
+# Do Gray code
+# -----------------------
+# binary to gray coding -- constellation does Gray coding
+binary_to_gray = {
+    2 : range(2),
+    4 : [0,1,3,2],
+    8 : [0, 1, 3, 2, 7, 6, 4, 5]
+    }
+
+# gray to binary
+gray_to_binary = {
+    2 : range(2),
+    4 : [0,1,3,2],
+    8 : [0, 1, 3, 2, 6, 7, 5, 4]
+    }
+
+# -----------------------
+# Don't Gray code
+# -----------------------
+# identity mapping
+binary_to_ungray = {
+    2 : range(2),
+    4 : range(4),
+    8 : range(8)
+    }
+
+# identity mapping
+ungray_to_binary = {
+    2 : range(2),
+    4 : range(4),
+    8 : range(8)
+    }
diff --git a/gr-digital/python/psk2.py b/gr-digital/python/psk2.py
new file mode 100644
index 000000000..778c1e5e5
--- /dev/null
+++ b/gr-digital/python/psk2.py
@@ -0,0 +1,123 @@
+#
+# Copyright 2005,2006,2011 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.
+# 
+
+"""
+PSK modulation and demodulation.
+"""
+
+from math import pi, log
+from cmath import exp
+
+from gnuradio import gr
+import digital_swig
+import modulation_utils2
+from utils import mod_codes, gray_code
+from generic_mod_demod import generic_mod, generic_demod
+
+# Default number of points in constellation.
+_def_constellation_points = 4
+# The default encoding (e.g. gray-code, set-partition)
+_def_mod_code = mod_codes.GRAY_CODE
+
+def create_encodings(mod_code, arity):
+    post_diff_code = None
+    if mod_code not in mod_codes.codes:
+        raise ValueError('That modulation code does not exist.')
+    if mod_code == mod_codes.GRAY_CODE:
+        pre_diff_code = gray_code.gray_code(arity)
+    elif mod_code == mod_codes.SET_PARTITION_CODE:
+        pre_diff_code = set_partition_code.set_partition_code(arity) 
+    elif mod_code == mod_codes.NO_CODE:
+        pre_diff_code = []
+    else:
+        raise ValueError('That modulation code is not implemented for this constellation.')
+    return (pre_diff_code, post_diff_code)
+    
+# /////////////////////////////////////////////////////////////////////////////
+#                           PSK constellation
+# /////////////////////////////////////////////////////////////////////////////
+
+def psk_constellation(m=_def_constellation_points, mod_code=_def_mod_code):
+    """
+    Creates a PSK constellation object.
+    """
+    k = log(m) / log(2.0)
+    if (k != int(k)):
+        raise StandardError('Number of constellation points must be a power of two.')
+    points = [exp(2*pi*(0+1j)*i/m) for i in range(0,m)]
+    pre_diff_code, post_diff_code = create_encodings(mod_code, m)
+    if post_diff_code is not None:
+        inverse_post_diff_code = mod_codes.invert_code(post_diff_code)
+        points = [points[x] for x in inverse_post_diff_code]
+    constellation = digital_swig.constellation_psk(points, pre_diff_code, m)
+    return constellation
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           PSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class psk_mod(generic_mod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 mod_code=_def_mod_code,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered PSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_mod block for list of parameters.
+	"""
+
+        constellation = psk_constellation(constellation_points, mod_code)
+        super(psk_mod, self).__init__(constellation, *args, **kwargs)
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           PSK demodulator
+#
+# /////////////////////////////////////////////////////////////////////////////
+
+class psk_demod(generic_demod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 mod_code=_def_mod_code,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered PSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_demod block for list of parameters.
+        """
+
+        constellation = psk_constellation(constellation_points, mod_code)
+        super(psk_demod, self).__init__(constellation, *args, **kwargs)
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('psk', psk_mod)
+modulation_utils2.add_type_1_demod('psk', psk_demod)
+modulation_utils2.add_type_1_constellation('psk', psk_constellation)
diff --git a/gr-digital/python/qa_constellation.py b/gr-digital/python/qa_constellation.py
new file mode 100755
index 000000000..02afb8d2d
--- /dev/null
+++ b/gr-digital/python/qa_constellation.py
@@ -0,0 +1,205 @@
+#!/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")
diff --git a/gr-digital/python/qa_constellation_receiver.py b/gr-digital/python/qa_constellation_receiver.py
new file mode 100755
index 000000000..70b62c7aa
--- /dev/null
+++ b/gr-digital/python/qa_constellation_receiver.py
@@ -0,0 +1,136 @@
+#!/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 gnuradio import gr, blks2, packet_utils, gr_unittest
+from utils import mod_codes, alignment
+import digital_swig
+from generic_mod_demod import generic_mod, generic_demod
+
+from qa_constellation import tested_constellations, twod_constell
+
+
+# Set a seed so that if errors turn up they are reproducible.
+# 1234 fails
+random.seed(1239)
+
+# TESTING PARAMETERS
+# The number of symbols to test with.
+# We need this many to let the frequency recovery block converge.
+DATA_LENGTH = 200000
+# Test fails if fraction of output that is correct is less than this.
+REQ_CORRECT = 0.8
+
+# CHANNEL PARAMETERS
+NOISE_VOLTAGE = 0.01
+FREQUENCY_OFFSET = 0.01
+TIMING_OFFSET = 1.0
+
+# RECEIVER PARAMETERS
+# Increased from normal default of 0.01 to speed things up.
+FREQ_ALPHA = 0.02
+# Decreased from normal default of 0.1 is required for the constellations
+# with smaller point separations.
+PHASE_ALPHA = 0.02
+
+
+class test_constellation_receiver (gr_unittest.TestCase):
+    
+    # We ignore the first half of the output data since often it takes
+    # a while for the receiver to lock on.
+    ignore_fraction = 0.8
+    seed = 1234
+    max_data_length = DATA_LENGTH * 6
+    max_num_samples = 1000
+    
+    def test_basic(self):
+        """
+        Tests a bunch of different constellations by using generic
+        modulation, a channel, and generic demodulation.  The generic
+        demodulation uses constellation_receiver which is what
+        we're really trying to test.
+        """
+
+        # Assumes not more than 64 points in a constellation
+        # Generates some random input data to use.
+        self.src_data = tuple(
+            [random.randint(0,1) for i in range(0, self.max_data_length)])
+        # Generates some random indices to use for comparing input and
+        # output data (a full comparison is too slow in python).
+        self.indices = alignment.random_sample(
+            self.max_data_length, self.max_num_samples, self.seed)
+
+        for constellation, differential in tested_constellations():
+            # The constellation_receiver doesn't work for constellations
+            # of multple dimensions (i.e. multiple complex numbers to a
+            # single symbol).
+            # That is not implemented since the receiver has no way of
+            # knowing where the beginning of a symbol is.
+            # It also doesn't work for non-differential modulation.
+            if constellation.dimensionality() != 1 or not differential:
+                continue
+            data_length = DATA_LENGTH * constellation.bits_per_symbol()
+            tb = rec_test_tb(constellation, differential,
+                             src_data=self.src_data[:data_length])
+            tb.run()
+            data = tb.dst.data()
+            d1 = tb.src_data[:int(len(tb.src_data)*self.ignore_fraction)]
+            d2 = data[:int(len(data)*self.ignore_fraction)]
+            correct, overlap, offset, indices = alignment.align_sequences(
+                d1, d2, indices=self.indices)
+            self.assertTrue(correct > REQ_CORRECT)
+            
+
+class rec_test_tb (gr.top_block):
+    """
+    Takes a constellation an runs a generic modulation, channel,
+    and generic demodulation.
+    """
+    def __init__(self, constellation, differential,
+                 data_length=None, src_data=None):
+        """
+        constellation -- a constellation object
+        differential -- whether differential encoding is used
+        data_length -- the number of bits of data to use
+        src_data -- a list of the bits to use
+        """
+        super(rec_test_tb, self).__init__()
+        # Transmission Blocks
+        if src_data is None:
+            self.src_data = tuple([random.randint(0,1) for i in range(0, data_length)])
+        else:
+            self.src_data = src_data
+        packer = gr.unpacked_to_packed_bb(1, gr.GR_MSB_FIRST)
+        src = gr.vector_source_b(self.src_data)
+        mod = generic_mod(constellation, differential=differential)
+        # Channel
+        channel = gr.channel_model(NOISE_VOLTAGE, FREQUENCY_OFFSET, TIMING_OFFSET)
+        # Receiver Blocks
+        demod = generic_demod(constellation, differential=differential,
+                              freq_alpha=FREQ_ALPHA,
+                              phase_alpha=PHASE_ALPHA)
+        self.dst = gr.vector_sink_b()
+        self.connect(src, packer, mod, channel, demod, self.dst)
+
+if __name__ == '__main__':
+    gr_unittest.run(test_constellation_receiver, "test_constellation_receiver.xml")
diff --git a/gr-digital/python/qa_costas_loop_cc.py b/gr-digital/python/qa_costas_loop_cc.py
new file mode 100755
index 000000000..368704093
--- /dev/null
+++ b/gr-digital/python/qa_costas_loop_cc.py
@@ -0,0 +1,156 @@
+#!/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, blks2, gr_unittest
+import digital_swig
+import random, cmath
+
+class test_digital(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
+        damp = 0.4
+        natfreq = 0.25
+        order = 2
+        self.test = digital_swig.costas_loop_cc(damp, 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
+        damp = 0.4
+        natfreq = 0.25
+        order = 2
+        self.test = digital_swig.costas_loop_cc(damp, 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
+        damp = 0.4
+        natfreq = 0.25
+        order = 2
+        self.test = digital_swig.costas_loop_cc(damp, 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
+        damp = 0.4
+        natfreq = 0.25
+        order = 4
+        self.test = digital_swig.costas_loop_cc(damp, 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
+        damp = 0.5
+        natfreq = 0.5
+        order = 8
+        self.test = digital_swig.costas_loop_cc(damp, natfreq, order)
+
+        rot = cmath.exp(-cmath.pi/8.0j) # rotate to match Costas rotation
+        const = blks2.psk.make_constellation(order)
+        data = [random.randint(0,7) for i in xrange(100)]
+        data = [2*rot*const[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_digital, "test_digital.xml")
diff --git a/gr-digital/python/qa_digital.py b/gr-digital/python/qa_digital.py
new file mode 100755
index 000000000..97e35da56
--- /dev/null
+++ b/gr-digital/python/qa_digital.py
@@ -0,0 +1,35 @@
+#!/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
+
+class test_digital(gr_unittest.TestCase):
+
+    def setUp (self):
+        self.tb = gr.top_block ()
+
+    def tearDown (self):
+        self.tb = None
+
+if __name__ == '__main__':
+    gr_unittest.run(test_digital, "test_digital.xml")
diff --git a/gr-digital/python/qam.py b/gr-digital/python/qam.py
new file mode 100644
index 000000000..ee2b1e416
--- /dev/null
+++ b/gr-digital/python/qam.py
@@ -0,0 +1,227 @@
+#
+# Copyright 2005,2006,2011 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.
+# 
+
+"""
+QAM modulation and demodulation.
+"""
+
+from math import pi, sqrt, log
+
+from gnuradio import gr
+import modulation_utils2
+from generic_mod_demod import generic_mod, generic_demod
+from utils.gray_code import gray_code
+from utils import mod_codes
+
+# Default number of points in constellation.
+_def_constellation_points = 16
+# Whether the quadrant bits are coded differentially.
+_def_differential = True
+# Whether gray coding is used.  If differential is True then gray
+# coding is used within but not between each quadrant.
+_def_mod_code = mod_codes.NO_CODE
+
+def is_power_of_four(x):
+    v = log(x)/log(4)
+    return int(v) == v
+
+def get_bit(x, n):
+    """ Get the n'th bit of integer x (from little end)."""
+    return (x&(0x01 << n)) >> n
+
+def get_bits(x, n, k):
+    """ Get the k bits of integer x starting at bit n(from little end)."""
+    # Remove the n smallest bits
+    v = x >> n 
+    # Remove all bits bigger than n+k-1
+    return v % pow(2, k)
+
+def make_differential_constellation(m, gray_coded):
+    """
+    Create a constellation with m possible symbols where m must be
+    a power of 4.
+
+    Points are laid out in a square grid.
+
+    Bits referring to the quadrant are differentilly encoded,
+    remaining bits are gray coded.
+
+    """
+    sqrtm = pow(m, 0.5)
+    if (not isinstance(m, int) or m < 4 or not is_power_of_four(m)):
+        raise ValueError("m must be a power of 4 integer.")
+    # Each symbol holds k bits.
+    k = int(log(m) / log(2.0))
+    # First create a constellation for one quadrant containing m/4 points.
+    # The quadrant has 'side' points along each side of a quadrant.
+    side = int(sqrtm/2)
+    if gray_coded:
+        # Number rows and columns using gray codes.
+        gcs = gray_code(side)
+        # Get inverse gray codes.
+        i_gcs = dict([(v, key) for key, v in enumerate(gcs)])
+    else:
+        i_gcs = dict([(i, i) for i in range(0, side)])
+    # The distance between points is found.
+    step = 1/(side-0.5)
+
+    gc_to_x = [(i_gcs[gc]+0.5)*step for gc in range(0, side)]
+
+    # Takes the (x, y) location of the point with the quadrant along
+    # with the quadrant number. (x, y) are integers referring to which
+    # point within the quadrant it is.
+    # A complex number representing this location of this point is returned.
+    def get_c(gc_x, gc_y, quad):
+        if quad == 0:
+            return complex(gc_to_x[gc_x], gc_to_x[gc_y])
+        if quad == 1:
+            return complex(-gc_to_x[gc_y], gc_to_x[gc_x])
+        if quad == 2:
+            return complex(-gc_to_x[gc_x], -gc_to_x[gc_y])
+        if quad == 3:
+            return complex(gc_to_x[gc_y], -gc_to_x[gc_x])
+        raise StandardError("Impossible!")
+
+    # First two bits determine quadrant.
+    # Next (k-2)/2 bits determine x position.
+    # Following (k-2)/2 bits determine y position.
+    # How x and y relate to real and imag depends on quadrant (see get_c function).
+    const_map = []
+    for i in range(m):
+        y = get_bits(i, 0, (k-2)/2)
+        x = get_bits(i, (k-2)/2, (k-2)/2)
+        quad = get_bits(i, k-2, 2)
+        const_map.append(get_c(x, y, quad))
+
+    return const_map
+
+def make_not_differential_constellation(m, gray_coded):
+    side = int(pow(m, 0.5))
+    if (not isinstance(m, int) or m < 4 or not is_power_of_four(m)):
+        raise ValueError("m must be a power of 4 integer.")
+    # Each symbol holds k bits.
+    k = int(log(m) / log(2.0))
+    if gray_coded:
+        # Number rows and columns using gray codes.
+        gcs = gray_code(side)
+        # Get inverse gray codes.
+        i_gcs = mod_codes.invert_code(gcs)
+    else:
+        i_gcs = range(0, side)
+    # The distance between points is found.
+    step = 2.0/(side-1)
+
+    gc_to_x = [-1 + i_gcs[gc]*step for gc in range(0, side)]
+    # First k/2 bits determine x position.
+    # Following k/2 bits determine y position.
+    const_map = []
+    for i in range(m):
+        y = gc_to_x[get_bits(i, 0, k/2)]
+        x = gc_to_x[get_bits(i, k/2, k/2)]
+        const_map.append(complex(x,y))
+    return const_map
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           QAM constellation
+# /////////////////////////////////////////////////////////////////////////////
+
+def qam_constellation(constellation_points=_def_constellation_points,
+                      differential=_def_differential,
+                      mod_code=_def_mod_code):
+    """
+    Creates a QAM constellation object.
+    """
+    if mod_code == mod_codes.GRAY_CODE:
+        gray_coded = True
+    elif mod_code == mod_codes.NO_CODE:
+        gray_coded = False
+    else:
+        raise ValueError("Mod code is not implemented for QAM")
+    if differential:
+        points = make_differential_constellation(constellation_points, gray_coded)
+    else:
+        points = make_not_differential_constellation(constellation_points, gray_coded)
+    side = int(sqrt(constellation_points))
+    width = 2.0/(side-1)
+    # No pre-diff code
+    # Should add one so that we can gray-code the quadrant bits too.
+    pre_diff_code = []
+    constellation = gr.constellation_rect(points, pre_diff_code, 4, side, side, width, width)
+    return constellation
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           QAM modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class qam_mod(generic_mod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 differential=_def_differential,
+                 mod_code=_def_mod_code,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered QAM modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_mod block for list of parameters.
+	"""
+
+        constellation = qam_constellation(constellation_points, differential, mod_code)
+        # We take care of the gray coding in the constellation generation so it doesn't 
+        # need to be done in the block.
+        super(qam_mod, self).__init__(constellation, differential=differential,
+                                      *args, **kwargs)
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           QAM demodulator
+#
+# /////////////////////////////////////////////////////////////////////////////
+
+class qam_demod(generic_demod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 differential=_def_differential,
+                 mod_code=_def_mod_code,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered QAM modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_demod block for list of parameters.
+        """
+        constellation = qam_constellation(constellation_points, differential, mod_code)
+        # We take care of the gray coding in the constellation generation so it doesn't 
+        # need to be done in the block.
+        super(qam_demod, self).__init__(constellation, differential=differential,
+                                        *args, **kwargs)
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('qam', qam_mod)
+modulation_utils2.add_type_1_demod('qam', qam_demod)
+modulation_utils2.add_type_1_constellation('qam', qam_constellation)
diff --git a/gr-digital/python/qpsk.py b/gr-digital/python/qpsk.py
new file mode 100644
index 000000000..ea1724424
--- /dev/null
+++ b/gr-digital/python/qpsk.py
@@ -0,0 +1,79 @@
+#
+# Copyright 2005,2006,2011 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.
+# 
+
+"""
+QPSK modulation.
+
+Demodulation is not included since the generic_mod_demod
+doesn't work for non-differential encodings.
+"""
+
+from gnuradio import gr, modulation_utils2
+from gnuradio.digital.generic_mod_demod import generic_mod
+
+
+# Default number of points in constellation.
+_def_constellation_points = 4
+# Whether differential coding is used.
+_def_differential = False
+_def_gray_coded = True
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           QPSK constellation
+# /////////////////////////////////////////////////////////////////////////////
+
+def qpsk_constellation(m=_def_constellation_points): 
+    if m != _def_constellation_points:
+        raise ValueError("QPSK can only have 4 constellation points.")
+    return gr.constellation_qpsk()
+
+# /////////////////////////////////////////////////////////////////////////////
+#                           QPSK modulator
+# /////////////////////////////////////////////////////////////////////////////
+
+class qpsk_mod(generic_mod):
+
+    def __init__(self, constellation_points=_def_constellation_points,
+                 differential=_def_differential,
+                 gray_coded=_def_gray_coded,
+                 *args, **kwargs):
+
+        """
+	Hierarchical block for RRC-filtered QPSK modulation.
+
+	The input is a byte stream (unsigned char) and the
+	output is the complex modulated signal at baseband.
+
+        See generic_mod block for list of parameters.
+	"""
+
+        constellation = gr.constellation_qpsk()
+        if constellation_points != 4:
+            raise ValueError("QPSK can only have 4 constellation points.")
+        if differential or not gray_coded:
+            raise ValueError("This QPSK mod/demod works only for gray-coded, non-differential.")
+        super(qpsk_mod, self).__init__(constellation, differential, gray_coded, *args, **kwargs)
+
+#
+# Add these to the mod/demod registry
+#
+modulation_utils2.add_type_1_mod('qpsk', qpsk_mod)
+modulation_utils2.add_type_1_constellation('qpsk', qpsk_constellation)
diff --git a/gr-digital/python/run_tests.in b/gr-digital/python/run_tests.in
new file mode 100644
index 000000000..b39e7e847
--- /dev/null
+++ b/gr-digital/python/run_tests.in
@@ -0,0 +1,10 @@
+#!/bin/sh
+
+# 1st parameter is absolute path to component source directory
+# 2nd parameter is absolute path to component build directory
+# 3rd parameter is path to Python QA directory
+
+@top_builddir@/run_tests.sh \
+    @abs_top_srcdir@/gr-digital \
+    @abs_top_builddir@/gr-digital \
+    @srcdir@
diff --git a/gr-digital/python/utils/.gitignore b/gr-digital/python/utils/.gitignore
new file mode 100644
index 000000000..60c81fdce
--- /dev/null
+++ b/gr-digital/python/utils/.gitignore
@@ -0,0 +1,3 @@
+run_tests
+Makefile
+Makefile.in
diff --git a/gr-digital/python/utils/Makefile.am b/gr-digital/python/utils/Makefile.am
new file mode 100644
index 000000000..6da4d61dd
--- /dev/null
+++ b/gr-digital/python/utils/Makefile.am
@@ -0,0 +1,34 @@
+#
+# 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.
+# 
+
+include $(top_srcdir)/Makefile.common
+
+if PYTHON
+utilspythondir = $(grpythondir)/digital/utils
+
+TESTS = 
+
+utilspython_PYTHON = \
+	__init__.py \
+	gray_code.py \
+	mod_codes.py \
+	alignment.py
+endif
\ No newline at end of file
diff --git a/gr-digital/python/utils/__init__.py b/gr-digital/python/utils/__init__.py
new file mode 100644
index 000000000..b3e997f9f
--- /dev/null
+++ b/gr-digital/python/utils/__init__.py
@@ -0,0 +1,21 @@
+#!/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.
+# 
diff --git a/gr-digital/python/utils/alignment.py b/gr-digital/python/utils/alignment.py
new file mode 100644
index 000000000..d32365866
--- /dev/null
+++ b/gr-digital/python/utils/alignment.py
@@ -0,0 +1,139 @@
+#!/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.
+# 
+"""
+This module contains functions for aligning sequences.
+
+>>> import random
+>>> random.seed(1234)
+>>> ran_seq = [random.randint(0,1) for i in range(0, 100)]
+>>> offset_seq = [0] * 20 + ran_seq
+>>> correct, overlap, offset = align_sequences(ran_seq, offset_seq)
+>>> print(correct, overlap, offset)
+(1.0, 100, -20)
+>>> offset_err_seq = []
+>>> for bit in offset_seq:
+...     if random.randint(0,4) == 4:
+...         offset_err_seq.append(random.randint(0,1))
+...     else:
+...         offset_err_seq.append(bit)
+>>> correct, overlap, offset = align_sequences(ran_seq, offset_err_seq)
+>>> print(overlap, offset)
+(100, -20)
+
+"""
+
+import random
+
+# DEFAULT PARAMETERS
+# If the fraction of matching bits between two sequences is greater than
+# this the sequences are assumed to be aligned.
+def_correct_cutoff = 0.9
+# The maximum offset to test during sequence alignment.
+def_max_offset = 500
+# The maximum number of samples to take from two sequences to check alignment.
+def_num_samples = 1000
+
+def compare_sequences(d1, d2, offset, sample_indices=None):
+    """
+    Takes two binary sequences and an offset and returns the number of
+    matching entries and the number of compared entries.
+    d1 & d2 -- sequences
+    offset -- offset of d2 relative to d1
+    sample_indices -- a list of indices to use for the comparison
+    """
+    max_index = min(len(d1), len(d2)+offset)
+    if sample_indices is None:
+        sample_indices = range(0, max_index)
+    correct = 0
+    total = 0
+    for i in sample_indices:
+        if i >= max_index:
+            break
+        if d1[i] == d2[i-offset]:
+            correct += 1
+        total += 1
+    return (correct, total)
+
+def random_sample(size, num_samples=def_num_samples, seed=None):
+    """
+    Returns a set of random integers between 0 and (size-1).
+    The set contains no more than num_samples integers.
+    """
+    random.seed(seed)
+    if num_samples > size:
+        indices = set(range(0, size))
+    else:
+        if num_samples > size/2:
+            num_samples = num_samples/2
+        indices = set([])
+        while len(indices) < num_samples:
+            index = random.randint(0, size-1)
+            indices.add(index)
+    indices = list(indices)
+    indices.sort()
+    return indices
+
+def align_sequences(d1, d2,
+                    num_samples=def_num_samples,
+                    max_offset=def_max_offset,
+                    correct_cutoff=def_correct_cutoff,
+                    seed=None,
+                    indices=None):
+    """
+    Takes two sequences and finds the offset and which the two sequences best
+    match.  It returns the fraction correct, the number of entries compared,
+    the offset.
+    d1 & d2 -- sequences to compare
+    num_samples -- the maximum number of entries to compare
+    max_offset -- the maximum offset between the sequences that is checked
+    correct_cutoff -- If the fraction of bits correct is greater than this then
+                      the offset is assumed to optimum.
+    seed -- a random number seed
+    indices -- an explicit list of the indices used to compare the two sequences
+    """
+    max_overlap = max(len(d1), len(d2))
+    if indices is None:
+        indices = random_sample(max_overlap, num_samples, seed)
+    max_frac_correct = 0
+    best_offset = None
+    best_compared = None
+    best_correct = None
+    pos_range = range(0, min(len(d1), max_offset))
+    neg_range = range(-1, -min(len(d2), max_offset), -1)
+    # Interleave the positive and negative offsets.
+    int_range = [item for items in zip(pos_range, neg_range) for item in items]
+    for offset in int_range:
+        correct, compared = compare_sequences(d1, d2, offset, indices)
+        frac_correct = 1.0*correct/compared
+        if frac_correct > max_frac_correct:
+            max_frac_correct = frac_correct
+            best_offset = offset
+            best_compared = compared
+            best_correct = correct
+            if frac_correct > correct_cutoff:
+                break
+    return max_frac_correct, best_compared, best_offset, indices
+    
+if __name__ == "__main__":
+    import doctest
+    doctest.testmod()
+    
diff --git a/gr-digital/python/utils/gray_code.py b/gr-digital/python/utils/gray_code.py
new file mode 100644
index 000000000..926a1ded1
--- /dev/null
+++ b/gr-digital/python/utils/gray_code.py
@@ -0,0 +1,66 @@
+#!/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.
+# 
+
+class GrayCodeGenerator(object):
+    """
+    Generates and caches gray codes.
+    """
+
+    def __init__(self):
+        self.gcs = [0, 1]
+        # The last power of two passed through.
+        self.lp2 = 2
+        # The next power of two that will be passed through.
+        self.np2 = 4
+        # Curent index
+        self.i = 2
+
+    def get_gray_code(self, length):
+        """
+        Returns a list of gray code of given length.
+        """
+        if len(self.gcs) < length:
+            self.generate_new_gray_code(length)
+        return self.gcs[:length]
+    
+    def generate_new_gray_code(self, length):
+        """
+        Generates new gray code and places into cache.
+        """
+        while len(self.gcs) < length:
+            if self.i == self.lp2:
+                # if i is a power of two then gray number is of form 1100000...
+                result = self.i + self.i/2
+            else:
+                # if not we take advantage of the symmetry of all but the last bit
+                # around a power of two.
+                result = self.gcs[2*self.lp2-1-self.i] + self.lp2
+            self.gcs.append(result)
+            self.i += 1
+            if self.i == self.np2:
+                self.lp2 = self.i
+                self.np2 = self.i*2
+
+_gray_code_generator = GrayCodeGenerator()
+
+gray_code = _gray_code_generator.get_gray_code
+
diff --git a/gr-digital/python/utils/mod_codes.py b/gr-digital/python/utils/mod_codes.py
new file mode 100644
index 000000000..caacda5cc
--- /dev/null
+++ b/gr-digital/python/utils/mod_codes.py
@@ -0,0 +1,33 @@
+#!/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.
+# 
+
+GRAY_CODE = 'gray'
+SET_PARTITION_CODE = 'set-partition'
+NO_CODE = 'none'
+
+codes = (GRAY_CODE, SET_PARTITION_CODE, NO_CODE)
+
+def invert_code(code):
+    c = enumerate(code)
+    ic = [(b, a) for (a, b) in c]
+    ic.sort()
+    return [a for (b, a) in ic]