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author | Uwe Hermann <uwe@hermann-uwe.de> | 2011-11-23 23:08:39 +0100 |
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committer | Uwe Hermann <uwe@hermann-uwe.de> | 2011-11-23 23:08:39 +0100 |
commit | b41ae47fa350bc0b6c81f0411cc12b9741a7e4e0 (patch) | |
tree | 78db4f212e258d527bab93da080eb702701c7ad7 /decoders/transitioncounter.py | |
parent | 81370309fbf8453b19c8ddfa09ed65064fd72c6e (diff) | |
download | libsigrokdecode-b41ae47fa350bc0b6c81f0411cc12b9741a7e4e0.tar.gz libsigrokdecode-b41ae47fa350bc0b6c81f0411cc12b9741a7e4e0.zip |
transitioncounter.py: Convert to new API.
This is still work-in-progress, but at least it runs and outputs stuff now.
Diffstat (limited to 'decoders/transitioncounter.py')
-rw-r--r-- | decoders/transitioncounter.py | 158 |
1 files changed, 87 insertions, 71 deletions
diff --git a/decoders/transitioncounter.py b/decoders/transitioncounter.py index d3fa732..1b10518 100644 --- a/decoders/transitioncounter.py +++ b/decoders/transitioncounter.py @@ -18,81 +18,95 @@ ## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ## -import sigrok +class Sample(): + def __init__(self, data): + self.data = data + def probe(self, probe): + s = ord(self.data[probe / 8]) & (1 << (probe % 8)) + return True if s else False + +def sampleiter(data, unitsize): + for i in range(0, len(data), unitsize): + yield(Sample(data[i:i+unitsize])) + +class Decoder(): + name = 'Transition counter' + longname = '...' + desc = 'Counts rising/falling edges in the signal.' + longdesc = '...' + author = 'Uwe Hermann' + email = 'uwe@hermann-uwe.de' + license = 'gplv2+' + inputs = ['logic'] + outputs = ['transitioncounts'] + probes = {} + options = {} + + def __init__(self, unitsize, **kwargs): + # Metadata comes in here, we don't care for now. + # print kwargs + self.unitsize = unitsize + + self.probes = Decoder.probes.copy() + + # TODO: Don't hardcode the number of channels. + self.channels = 8 + + self.lastsample = None + self.oldbit = [0] * self.channels + self.transitions = [0] * self.channels + self.rising = [0] * self.channels + self.falling = [0] * self.channels + + def report(self): + pass + + def decode(self, data): + """Counts the low->high and high->low transitions in the specified + channel(s) of the signal.""" -lastsample = None -oldbit = None -transitions = None -rising = None -falling = None - -def decode(sampledata): - """Counts the low->high and high->low transitions in the specified - channel(s) of the signal.""" - global lastsample - global oldbit, transitions, rising, falling - - # TODO: Don't hardcode the number of channels. - channels = 8 - - # FIXME: Get the data in the correct format in the first place. - inbuf = [ord(x) for x in sampledata['data']] - - if lastsample == None: - oldbit = [0] * channels - transitions = [0] * channels - rising = [0] * channels - falling = [0] * channels - - # Initial values. - lastsample = inbuf[0] - for i in range(channels): - oldbit[i] = (lastsample & (1 << i)) >> i - - # TODO: Handle LAs with more/less than 8 channels. - for s in inbuf: - # Optimization: Skip identical bytes (no transitions). - if lastsample != s: - for i in range(channels): + # We should accept a list of samples and iterate... + for sample in sampleiter(data["data"], self.unitsize): + + # TODO: Eliminate the need for ord(). + s = ord(sample.data) + + # Optimization: Skip identical samples (no transitions). + if self.lastsample == s: + continue + + # Upon the first sample, store the initial values. + if self.lastsample == None: + self.lastsample = s + for i in range(self.channels): + self.oldbit[i] = (self.lastsample & (1 << i)) >> i + + # Iterate over all channels/probes in this sample. + # Count rising and falling edges for each channel. + for i in range(self.channels): curbit = (s & (1 << i)) >> i # Optimization: Skip identical bits (no transitions). - if oldbit[i] == curbit: + if self.oldbit[i] == curbit: continue - elif (oldbit[i] == 0 and curbit == 1): - rising[i] += 1 - elif (oldbit[i] == 1 and curbit == 0): - falling[i] += 1 - oldbit[i] = curbit - - # Total number of transitions is the sum of rising and falling edges. - for i in range(channels): - transitions[i] = rising[i] + falling[i] - - lastsample = s - print(transitions) - - sigrok.put(sampledata) - -register = { - 'id': 'transitioncounter', - 'name': 'Transition counter', - 'longname': '...', - 'desc': 'Counts rising/falling edges in the signal.', - 'longdesc': '...', - 'author': 'Uwe Hermann', - 'email': 'uwe@hermann-uwe.de', - 'license': 'gplv2+', - 'in': ['logic'], - 'out': ['transitioncounts'], - 'probes': [ - # All probes. - ], - 'options': { - # No options so far. - }, - # 'start': start, - # 'report': report, -} + elif (self.oldbit[i] == 0 and curbit == 1): + self.rising[i] += 1 + elif (self.oldbit[i] == 1 and curbit == 0): + self.falling[i] += 1 + self.oldbit[i] = curbit + + # Save the current sample as 'lastsample' for the next round. + self.lastsample = s + + # Total number of transitions = rising + falling edges. + for i in range(self.channels): + self.transitions[i] = self.rising[i] + self.falling[i] + + # TODO: Which output format? + # TODO: How to only output something after the last chunk of data? + outdata = [] + for i in range(self.channels): + outdata += [[self.transitions[i], self.rising[i], self.falling[i]]] + sigrok.put(outdata) # Use psyco (if available) as it results in huge performance improvements. try: @@ -101,3 +115,5 @@ try: except ImportError: pass +import sigrok + |