diff options
Diffstat (limited to '')
-rw-r--r-- | tests/correlator/correlator.grc | 175 | ||||
-rwxr-xr-x | tests/correlator/correlator.py | 9 | ||||
-rw-r--r-- | tests/correlator/epy_block_0.py | 1 | ||||
-rw-r--r-- | tests/correlator/epy_block_1.py | 14 | ||||
-rw-r--r-- | tests/correlator/epy_block_2.py | 33 |
5 files changed, 146 insertions, 86 deletions
diff --git a/tests/correlator/correlator.grc b/tests/correlator/correlator.grc index 9fc6699..555ad15 100644 --- a/tests/correlator/correlator.grc +++ b/tests/correlator/correlator.grc @@ -251,7 +251,7 @@ blocks: bus_sink: false bus_source: false bus_structure: null - coordinate: [512, 1252.0] + coordinate: [496, 1252.0] rotation: 0 state: true - name: blocks_stream_mux_0 @@ -273,24 +273,25 @@ blocks: coordinate: [288, 256.0] rotation: 0 state: enabled -- name: blocks_tagged_stream_align_0 - id: blocks_tagged_stream_align +- name: blocks_tag_debug_0 + id: blocks_tag_debug parameters: affinity: '' alias: '' comment: '' - lengthtagname: frame_start - maxoutbuf: '0' - minoutbuf: '0' + display: 'True' + filter: '""' + name: '' + num_inputs: '1' type: byte vlen: '1' states: bus_sink: false bus_source: false bus_structure: null - coordinate: [768, 1260.0] + coordinate: [744, 1164.0] rotation: 0 - state: true + state: disabled - name: blocks_throttle_0 id: blocks_throttle parameters: @@ -471,56 +472,57 @@ blocks: - name: epy_block_0 id: epy_block parameters: - _source_code: "import pmt\n\nimport numpy as np\nfrom gnuradio import gr\n\n\n\ - class blk(gr.sync_block):\n \"\"\"\n Apply phase and frequency correction\ - \ where there is a correlation peak tag.\n\n The correlation peak tags are\ - \ NOT propagated, and instead replaced with a\n frame_start tag.\n \"\"\ - \"\n def __init__(self):\n gr.sync_block.__init__(\n self,\n\ - \ name='Phase and Frequency Correction',\n in_sig=[np.complex64],\n\ - \ out_sig=[np.complex64]\n )\n\n # tags should not\ - \ be propagated, we then output our own tags\n self.set_tag_propagation_policy(gr.TPP_DONT)\n\ - \n # because we do block processing, we need to keep track of the last\ - \ tag\n # of the previous block to correct the first values of the next\ - \ block\n self.last = None\n self.lastfreq = 0\n self.lastnback\ - \ = 0\n self.lastnsamples = 0\n\n def block_phase(self, start, end):\n\ - \ \"\"\"\n Compute a vector for the phase and frequency correction\ - \ for the samples\n between two tags (start and end).\n\n @param\ - \ start Tag where the samples should start to be corrected\n @param end\ - \ Tag where to stop correcting\n\n @return A vector of phase values\ - \ for each sample. To correct the samples\n the data should be\ - \ multiplied with np.exp(-1j * phase)\n \"\"\"\n # compute number\ - \ of samples between tags\n nsamples = end.offset - start.offset\n\n\ - \ # debugging, see last lines of self.work()\n self.lastnsamples\ - \ = nsamples\n\n # unpack pmt values into start and end phase\n \ - \ sphase = pmt.to_python(start.value)\n ephase = pmt.to_python(end.value)\n\ - \n # compute frequency offset between start and end\n phasediff\ - \ = (ephase - sphase) % (2 * np.pi)\n freq = phasediff / nsamples\n\n\ - \ # save this one for the last block (see variable `end' in self.work)\n\ - \ self.lastfreq = freq\n\n # debugging\n print(f\"Correction\ - \ for chunk of {nsamples:2d} samples is \" \\\n f\"sphase={sphase:\ - \ .4f} rad and freq={freq*1e3: .4f}e-3 rad / sample\")\n\n # compute\ - \ chunk values\n return sphase * np.ones(nsamples) + freq * np.arange(0,\ - \ nsamples)\n\n def work(self, input_items, output_items):\n counter\ - \ = self.nitems_written(0)\n\n # nicer aliases\n inp = input_items[0]\n\ - \ out = output_items[0]\n\n # read phase tags\n is_phase\ - \ = lambda tag: pmt.to_python(tag.key) == \"phase_est\"\n tags = list(filter(is_phase,\ - \ self.get_tags_in_window(0, 0, len(inp))))\n\n if not tags:\n \ - \ print(f\"There were no tags in {len(inp)} samples!\")\n out[:]\ - \ = inp\n return len(out)\n\n # debugging\n print(f\"\ - Processing {len(tags)} tags = {tags[-1].offset - tags[0].offset} \" \\\n \ - \ f\"samples out of {len(inp)} input samples\")\n\n # compute\ - \ \"the middle\"\n enough_samples = lambda pair: ((pair[1].offset - pair[0].offset)\ - \ > 0)\n pairs = list(filter(enough_samples, zip(tags, tags[1:])))\n\ - \ chunks = [ self.block_phase(start, end) for (start, end) in pairs ]\n\ - \ middle = np.concatenate(chunks) if chunks else []\n\n # compute\ - \ values at the end, we do not have informations about the future\n #\ - \ but we can use the frequency of the last tag to approximate\n nback\ - \ = len(inp) - (tags[-1].offset - counter)\n print(f\"Processing {nback}\ - \ samples at the back of the buffer\")\n end = np.ones(nback) * pmt.to_python(tags[-1].value)\ - \ \\\n + self.lastfreq * np.arange(0, nback)\n\n\n # compute\ - \ the \"start\", using the last tag from the previous call\n nfront =\ - \ tags[0].offset - counter\n print(f\"Processing {nfront} samples at\ - \ the front of the buffer\")\n start = self.block_phase(self.last, tags[0])[-nfront:]\ + _source_code: "import pmt\n\nimport numpy as np\nfrom gnuradio import gr\n\nprint\ + \ = lambda x: None\n\nclass blk(gr.sync_block):\n \"\"\"\n Apply phase\ + \ and frequency correction where there is a correlation peak tag.\n\n The\ + \ correlation peak tags are NOT propagated, and instead replaced with a\n \ + \ frame_start tag.\n \"\"\"\n def __init__(self):\n gr.sync_block.__init__(\n\ + \ self,\n name='Phase and Frequency Correction',\n \ + \ in_sig=[np.complex64],\n out_sig=[np.complex64]\n \ + \ )\n\n # tags should not be propagated, we then output our own tags\n\ + \ self.set_tag_propagation_policy(gr.TPP_DONT)\n\n # because we\ + \ do block processing, we need to keep track of the last tag\n # of the\ + \ previous block to correct the first values of the next block\n self.last\ + \ = None\n self.lastfreq = 0\n self.lastnback = 0\n self.lastnsamples\ + \ = 0\n\n def block_phase(self, start, end):\n \"\"\"\n Compute\ + \ a vector for the phase and frequency correction for the samples\n between\ + \ two tags (start and end).\n\n @param start Tag where the samples should\ + \ start to be corrected\n @param end Tag where to stop correcting\n\ + \n @return A vector of phase values for each sample. To correct the samples\n\ + \ the data should be multiplied with np.exp(-1j * phase)\n \ + \ \"\"\"\n # compute number of samples between tags\n nsamples\ + \ = end.offset - start.offset\n\n # debugging, see last lines of self.work()\n\ + \ self.lastnsamples = nsamples\n\n # unpack pmt values into start\ + \ and end phase\n sphase = pmt.to_python(start.value)\n ephase\ + \ = pmt.to_python(end.value)\n\n # compute frequency offset between start\ + \ and end\n phasediff = (ephase - sphase) % (2 * np.pi)\n freq\ + \ = phasediff / nsamples\n\n # save this one for the last block (see\ + \ variable `end' in self.work)\n self.lastfreq = freq\n\n # debugging\n\ + \ print(f\"Correction for chunk of {nsamples:2d} samples is \" \\\n \ + \ f\"sphase={sphase: .4f} rad and freq={freq*1e3: .4f}e-3 rad /\ + \ sample\")\n\n # compute chunk values\n return sphase * np.ones(nsamples)\ + \ + freq * np.arange(0, nsamples)\n\n def work(self, input_items, output_items):\n\ + \ counter = self.nitems_written(0)\n\n # nicer aliases\n \ + \ inp = input_items[0]\n out = output_items[0]\n\n # read phase\ + \ tags\n is_phase = lambda tag: pmt.to_python(tag.key) == \"phase_est\"\ + \n tags = list(filter(is_phase, self.get_tags_in_window(0, 0, len(inp))))\n\ + \n if not tags:\n print(f\"There were no tags in {len(inp)}\ + \ samples!\")\n out[:] = inp\n return len(out)\n\n \ + \ # debugging\n print(f\"Processing {len(tags)} tags = {tags[-1].offset\ + \ - tags[0].offset} \" \\\n f\"samples out of {len(inp)} input\ + \ samples\")\n\n # compute \"the middle\"\n enough_samples = lambda\ + \ pair: ((pair[1].offset - pair[0].offset) > 0)\n pairs = list(filter(enough_samples,\ + \ zip(tags, tags[1:])))\n chunks = [ self.block_phase(start, end) for\ + \ (start, end) in pairs ]\n middle = np.concatenate(chunks) if chunks\ + \ else []\n\n # compute values at the end, we do not have informations\ + \ about the future\n # but we can use the frequency of the last tag to\ + \ approximate\n nback = len(inp) - (tags[-1].offset - counter)\n \ + \ print(f\"Processing {nback} samples at the back of the buffer\")\n \ + \ end = np.ones(nback) * pmt.to_python(tags[-1].value) \\\n \ + \ + self.lastfreq * np.arange(0, nback)\n\n\n # compute the \"start\"\ + , using the last tag from the previous call\n nfront = tags[0].offset\ + \ - counter\n print(f\"Processing {nfront} samples at the front of the\ + \ buffer\")\n start = self.block_phase(self.last, tags[0])[-nfront:]\ \ \\\n if self.last and nfront else np.zeros(nfront)\n\n \ \ # debugging\n if nfront + self.lastnback != self.lastnsamples:\n\ \ print(f\"Something went wrong: {self.lastnback + nfront} != self.lastnsamples\"\ @@ -549,27 +551,55 @@ blocks: - name: epy_block_1 id: epy_block parameters: - _source_code: "\"\"\"\nEmbedded Python Blocks:\n\nEach time this file is saved,\ - \ GRC will instantiate the first class it finds\nto get ports and parameters\ - \ of your block. The arguments to __init__ will\nbe the parameters. All of\ - \ them are required to have default values!\n\"\"\"\n\nimport numpy as np\n\ - from gnuradio import gr\n\nnp.set_printoptions(formatter={'int':hex})\n\nclass\ - \ blk(gr.sync_block):\n def __init__(self):\n gr.sync_block.__init__(\n\ - \ self,\n name='Printer',\n in_sig=[np.byte],\n\ - \ out_sig=[]\n )\n\n def work(self, input_items, output_items):\n\ - \ inp = np.array(input_items[0], dtype=np.uint8)\n print(f\"Decoded\ - \ {len(inp)} samples:\\n{inp}\")\n\n return len(inp)\n" + _source_code: "import numpy as np\nfrom gnuradio import gr\n\nnp.set_printoptions(formatter={'int':hex})\n\ + \nclass blk(gr.sync_block):\n def __init__(self, vlen=1):\n dt = np.byte\ + \ if vlen == 1 else (np.byte, vlen)\n\n gr.sync_block.__init__(\n \ + \ self,\n name='Printer',\n in_sig=[(np.byte,\ + \ vlen)],\n out_sig=[]\n )\n\n def work(self, input_items,\ + \ output_items):\n inp = np.array(input_items[0], dtype=np.uint8)\n \ + \ print(f\"Decoded {len(inp)} samples:\\n{inp}\")\n\n return len(inp)\n" + affinity: '' + alias: '' + comment: '' + maxoutbuf: '0' + minoutbuf: '0' + vlen: '20' + states: + _io_cache: ('Printer', 'blk', [('vlen', '1')], [('0', 'byte', 1)], [], '', []) + bus_sink: false + bus_source: false + bus_structure: null + coordinate: [952, 1260.0] + rotation: 0 + state: true +- name: epy_block_2 + id: epy_block + parameters: + _source_code: "import pmt\nimport numpy as np\nfrom gnuradio import gr\n\n\nclass\ + \ blk(gr.sync_block):\n\n def __init__(self, tag=\"frame_start\", vlen=1):\n\ + \ dt = np.byte if vlen == 1 else (np.byte, vlen)\n\n gr.sync_block.__init__(\n\ + \ self,\n name='Split at tag',\n in_sig=[np.byte],\n\ + \ out_sig=[(np.byte, vlen)]\n )\n\n self.tag = tag\n\ + \ self.vlen = vlen\n\n def work(self, input_items, output_items):\n\ + \ inp = input_items[0]\n\n is_frame_start = lambda tag: pmt.to_python(tag.key)\ + \ == self.tag\n tags = filter(is_frame_start, self.get_tags_in_window(0,\ + \ 0, len(inp)))\n\n counter = self.nitems_written(0)\n offsets\ + \ = map(lambda t: t.offset - counter, tags)\n\n print(list(offsets))\n\ + \n output_items[0][:] = inp\n return len(output_items[0])\n" affinity: '' alias: '' comment: '' maxoutbuf: '0' minoutbuf: '0' + tag: '''frame_start''' + vlen: '20' states: - _io_cache: ('Printer', 'blk', [], [('0', 'byte', 1)], [], '', []) + _io_cache: ('Split at tag', 'blk', [('tag', "'frame_start'"), ('vlen', '1')], + [('0', 'byte', 1)], [('0', 'byte', 1)], '', ['tag', 'vlen']) bus_sink: false bus_source: false bus_structure: null - coordinate: [1072, 1264.0] + coordinate: [752, 1252.0] rotation: 0 state: true - name: fir_filter_xxx_1 @@ -1349,9 +1379,9 @@ connections: - [blocks_complex_to_magphase_0_0, '1', blocks_null_sink_3, '0'] - [blocks_multiply_const_vxx_0_0, '0', qtgui_time_sink_x_2_0, '0'] - [blocks_null_source_0, '0', blocks_stream_mux_0, '0'] -- [blocks_repack_bits_bb_0, '0', blocks_tagged_stream_align_0, '0'] +- [blocks_repack_bits_bb_0, '0', blocks_tag_debug_0, '0'] +- [blocks_repack_bits_bb_0, '0', epy_block_2, '0'] - [blocks_stream_mux_0, '0', digital_constellation_modulator_0, '0'] -- [blocks_tagged_stream_align_0, '0', epy_block_1, '0'] - [blocks_throttle_0, '0', virtual_sink_0, '0'] - [blocks_vector_source_x_0, '0', blocks_stream_mux_0, '1'] - [channels_channel_model_0, '0', blocks_throttle_0, '0'] @@ -1370,6 +1400,7 @@ connections: - [digital_pfb_clock_sync_xxx_0, '0', digital_cma_equalizer_cc_0, '0'] - [epy_block_0, '0', qtgui_const_sink_x_0_0, '0'] - [epy_block_0, '0', virtual_sink_3, '0'] +- [epy_block_2, '0', epy_block_1, '0'] - [fir_filter_xxx_1, '0', blocks_complex_to_magphase_0_0, '0'] - [virtual_source_0, '0', digital_pfb_clock_sync_xxx_0, '0'] - [virtual_source_1, '0', digital_constellation_decoder_cb_0, '0'] diff --git a/tests/correlator/correlator.py b/tests/correlator/correlator.py index 3f3b8fc..c84e4d7 100755 --- a/tests/correlator/correlator.py +++ b/tests/correlator/correlator.py @@ -36,6 +36,7 @@ from gnuradio.eng_arg import eng_float, intx from gnuradio import eng_notation import epy_block_0 import epy_block_1 +import epy_block_2 import numpy as np from gnuradio import qtgui @@ -329,7 +330,8 @@ class correlator(gr.top_block, Qt.QWidget): self.top_grid_layout.setRowStretch(r, 1) for c in range(1, 2): self.top_grid_layout.setColumnStretch(c, 1) - self.epy_block_1 = epy_block_1.blk() + self.epy_block_2 = epy_block_2.blk(tag='frame_start', vlen=20) + self.epy_block_1 = epy_block_1.blk(vlen=20) self.epy_block_0 = epy_block_0.blk() self.digital_pfb_clock_sync_xxx_0 = digital.pfb_clock_sync_ccf(sps, timing_loop_bw, rrc_taps, nfilts, 16, 1.5, 1) self.digital_costas_loop_cc_0 = digital.costas_loop_cc(2 * 3.141592653589793 / 100, 4, False) @@ -353,7 +355,6 @@ class correlator(gr.top_block, Qt.QWidget): block_tags=False) self.blocks_vector_source_x_0 = blocks.vector_source_b(testvec * 500, True, 1, []) self.blocks_throttle_0 = blocks.throttle(gr.sizeof_gr_complex*1, samp_rate,True) - self.blocks_tagged_stream_align_0 = blocks.tagged_stream_align(gr.sizeof_char*1, 'frame_start') self.blocks_stream_mux_0 = blocks.stream_mux(gr.sizeof_char*1, [0, len(testvec)]) self.blocks_repack_bits_bb_0 = blocks.repack_bits_bb(2, 8, "", False, gr.GR_MSB_FIRST) self.blocks_null_source_0 = blocks.null_source(gr.sizeof_char*1) @@ -368,9 +369,8 @@ class correlator(gr.top_block, Qt.QWidget): self.connect((self.blocks_complex_to_magphase_0_0, 1), (self.blocks_null_sink_3, 0)) self.connect((self.blocks_complex_to_magphase_0_0, 0), (self.qtgui_time_sink_x_0_0, 0)) self.connect((self.blocks_null_source_0, 0), (self.blocks_stream_mux_0, 0)) - self.connect((self.blocks_repack_bits_bb_0, 0), (self.blocks_tagged_stream_align_0, 0)) + self.connect((self.blocks_repack_bits_bb_0, 0), (self.epy_block_2, 0)) self.connect((self.blocks_stream_mux_0, 0), (self.digital_constellation_modulator_0, 0)) - self.connect((self.blocks_tagged_stream_align_0, 0), (self.epy_block_1, 0)) self.connect((self.blocks_throttle_0, 0), (self.digital_pfb_clock_sync_xxx_0, 0)) self.connect((self.blocks_vector_source_x_0, 0), (self.blocks_stream_mux_0, 1)) self.connect((self.channels_channel_model_0, 0), (self.blocks_throttle_0, 0)) @@ -387,6 +387,7 @@ class correlator(gr.top_block, Qt.QWidget): self.connect((self.digital_pfb_clock_sync_xxx_0, 0), (self.digital_cma_equalizer_cc_0, 0)) self.connect((self.epy_block_0, 0), (self.digital_constellation_decoder_cb_0, 0)) self.connect((self.epy_block_0, 0), (self.qtgui_const_sink_x_0_0, 0)) + self.connect((self.epy_block_2, 0), (self.epy_block_1, 0)) def closeEvent(self, event): diff --git a/tests/correlator/epy_block_0.py b/tests/correlator/epy_block_0.py index 7821b3e..e32d72b 100644 --- a/tests/correlator/epy_block_0.py +++ b/tests/correlator/epy_block_0.py @@ -3,6 +3,7 @@ import pmt import numpy as np from gnuradio import gr +print = lambda x: None class blk(gr.sync_block): """ diff --git a/tests/correlator/epy_block_1.py b/tests/correlator/epy_block_1.py index d30c2eb..7e722fc 100644 --- a/tests/correlator/epy_block_1.py +++ b/tests/correlator/epy_block_1.py @@ -1,22 +1,16 @@ -""" -Embedded Python Blocks: - -Each time this file is saved, GRC will instantiate the first class it finds -to get ports and parameters of your block. The arguments to __init__ will -be the parameters. All of them are required to have default values! -""" - import numpy as np from gnuradio import gr np.set_printoptions(formatter={'int':hex}) class blk(gr.sync_block): - def __init__(self): + def __init__(self, vlen=1): + dt = np.byte if vlen == 1 else (np.byte, vlen) + gr.sync_block.__init__( self, name='Printer', - in_sig=[np.byte], + in_sig=[(np.byte, vlen)], out_sig=[] ) diff --git a/tests/correlator/epy_block_2.py b/tests/correlator/epy_block_2.py new file mode 100644 index 0000000..210be12 --- /dev/null +++ b/tests/correlator/epy_block_2.py @@ -0,0 +1,33 @@ +import pmt +import numpy as np +from gnuradio import gr + + +class blk(gr.sync_block): + + def __init__(self, tag="frame_start", vlen=1): + dt = np.byte if vlen == 1 else (np.byte, vlen) + + gr.sync_block.__init__( + self, + name='Split at tag', + in_sig=[np.byte], + out_sig=[(np.byte, vlen)] + ) + + self.tag = tag + self.vlen = vlen + + def work(self, input_items, output_items): + inp = input_items[0] + + is_frame_start = lambda tag: pmt.to_python(tag.key) == self.tag + tags = filter(is_frame_start, self.get_tags_in_window(0, 0, len(inp))) + + counter = self.nitems_written(0) + offsets = map(lambda t: t.offset - counter, tags) + + print(list(offsets)) + + output_items[0][:] = inp + return len(output_items[0]) |