From: Uwe Hermann Date: Fri, 7 Mar 2014 16:24:21 +0000 (+0100) Subject: ir_nec: Drop some unneeded options. X-Git-Tag: libsigrokdecode-0.3.0~57 X-Git-Url: https://sigrok.org/gitaction?a=commitdiff_plain;h=73fc79e094855b616fb6d6e392a87338ffe37a6b;p=libsigrokdecode.git ir_nec: Drop some unneeded options. The timing of the protocol is not really configurable, valid data in this protocol must always adhere to the same timing parameters, making them configurable should not be needed. Also: Only check for the "interesting" edges and simplify the code a bit. --- diff --git a/decoders/ir_nec/pd.py b/decoders/ir_nec/pd.py index 542139d..faeeb09 100644 --- a/decoders/ir_nec/pd.py +++ b/decoders/ir_nec/pd.py @@ -34,12 +34,6 @@ class Decoder(srd.Decoder): ] optional_probes = [] options = { - 'cnt_lc': ['Leader code time (µs)', 13500], - 'cnt_rc': ['Repeat code time (µs)', 11250], - 'cnt_rc_end': ['Repeat code end time (µs)', 562], - 'cnt_accuracy': ['Accuracy range (µs)', 100], - 'cnt_dazero': ['Data 0 time (µs)', 1125], - 'cnt_daone': ['Data 1 time (µs)', 2250], 'polarity': ['Polarity', 'active-low'], } annotations = [ @@ -60,38 +54,24 @@ class Decoder(srd.Decoder): self.put(self.ss_bit, self.samplenum, self.out_ann, data) def __init__(self, **kwargs): - self.ss_bit = 0 self.state = 'IDLE' - self.data = 0 - self.count = 0 - self.ss_start = 0 - self.act_polar = 0 + self.ss_bit = self.ss_start = 0 + self.data = self.count = self.active = self.old_ir = None def start(self): # self.out_python = self.register(srd.OUTPUT_PYTHON) self.out_ann = self.register(srd.OUTPUT_ANN) - self.act_polar = 1 if self.options['polarity'] == 'active-low' else 0 - self.old_ir = self.act_polar + self.active = 0 if self.options['polarity'] == 'active-low' else 1 + self.old_ir = 1 if self.active == 0 else 0 def metadata(self, key, value): if key == srd.SRD_CONF_SAMPLERATE: self.samplerate = value - samplerate = float(self.samplerate) - - x = float(self.options['cnt_accuracy']) / 1000000.0 - self.margin = int(samplerate * x) - 1 - x = float(self.options['cnt_lc']) / 1000000.0 - self.lc = int(samplerate * x) - 1 - x = float(self.options['cnt_rc']) / 1000000.0 - self.rc = int(samplerate * x) - 1 - x = float(self.options['cnt_rc_end']) / 1000000.0 - self.rc_end = int(samplerate * x) - 1 - x = float(self.options['cnt_dazero']) / 1000000.0 - self.dazero = int(samplerate * x) - 1 - x = float(self.options['cnt_daone']) / 1000000.0 - self.daone = int(samplerate * x) - 1 - x = float(10000) / 1000000.0 - self.end = int(samplerate * x) - 1 + self.margin = int(self.samplerate * 0.0001) - 1 # 0.1ms + self.lc = int(self.samplerate * 0.0135) - 1 # 13.5ms + self.rc = int(self.samplerate * 0.01125) - 1 # 11.25ms + self.dazero = int(self.samplerate * 0.001125) - 1 # 1.125ms + self.daone = int(self.samplerate * 0.00225) - 1 # 2.25ms def handle_bits(self, tick): ret = 0xff @@ -108,15 +88,12 @@ class Decoder(srd.Decoder): self.ss_bit = self.samplenum return ret - def data_judge(self, name): - buf = int((self.data & 0xff00) / 0x100) - nbuf = int(self.data & 0xff) - ret = buf & nbuf + def data_judge(self): + ret, name = (self.data >> 8) & (self.data & 0xff), self.state.title() if ret == 0: - self.putx([2, ['%s: 0x%02x' % (name, buf)]]) + self.putx([2, ['%s: 0x%02x' % (name, self.data >> 8)]]) else: - self.putx([3, ['%s Error: 0x%04x' % (name, self.data)]]) - + self.putx([3, ['%s error: 0x%04x' % (name, self.data)]]) self.data = self.count = 0 self.ss_bit = self.ss_start = self.samplenum return ret @@ -127,34 +104,32 @@ class Decoder(srd.Decoder): for (self.samplenum, pins) in data: self.ir = pins[0] - # Wait for any edge (rising or falling). - if self.old_ir == self.ir: + # Wait for an "active" edge (default: falling edge). + if self.old_ir == self.ir or self.ir != self.active: + self.old_ir = self.ir continue - if self.old_ir == self.act_polar: - b = self.samplenum - self.ss_bit - # State machine. - if self.state == 'IDLE': - if b in range(self.lc - self.margin, self.lc + self.margin): - self.putx([1, ['Leader code', 'Leader', 'LC', 'L']]) - self.data = self.count = 0 - self.state = 'ADDRESS' - elif b in range(self.rc - self.margin, self.rc + self.margin): - self.putx([1, ['Repeat code', 'Repeat', 'RC', 'R']]) - self.data = self.count = 0 - self.ss_bit = self.ss_start = self.samplenum - elif self.state == 'ADDRESS': - self.handle_bits(b) - if self.count > 15: - if self.data_judge(self.state) == 0: - self.state = 'COMMAND' - else: - self.state = 'IDLE' - elif self.state == 'COMMAND': - self.handle_bits(b) - if self.count > 15: - self.data_judge(self.state) - self.state = 'IDLE' + b = self.samplenum - self.ss_bit + + # State machine. + if self.state == 'IDLE': + if b in range(self.lc - self.margin, self.lc + self.margin): + self.putx([1, ['Leader code', 'Leader', 'LC', 'L']]) + self.data = self.count = 0 + self.state = 'ADDRESS' + elif b in range(self.rc - self.margin, self.rc + self.margin): + self.putx([1, ['Repeat code', 'Repeat', 'RC', 'R']]) + self.data = self.count = 0 + self.ss_bit = self.ss_start = self.samplenum + elif self.state == 'ADDRESS': + self.handle_bits(b) + if self.count > 15: + self.state = 'COMMAND' if self.data_judge() == 0 else 'IDLE' + elif self.state == 'COMMAND': + self.handle_bits(b) + if self.count > 15: + self.data_judge() + self.state = 'IDLE' self.old_ir = self.ir