X-Git-Url: https://sigrok.org/gitweb/?p=libsigrokdecode.git;a=blobdiff_plain;f=decoders%2Fnunchuk%2Fpd.py;h=0861cba3574cdbb393fe63cba590f5b7c1adcdb1;hp=d4fe34afeb28dae8f07f5471f616b092503df7ca;hb=aac0ac249169a8774b30a2f3458a056ae2c80c63;hpb=c515eed7ef7a04a42b5b34abd308e08d6942835e diff --git a/decoders/nunchuk/pd.py b/decoders/nunchuk/pd.py index d4fe34a..0861cba 100644 --- a/decoders/nunchuk/pd.py +++ b/decoders/nunchuk/pd.py @@ -1,7 +1,7 @@ ## ## This file is part of the libsigrokdecode project. ## -## Copyright (C) 2010-2012 Uwe Hermann +## Copyright (C) 2010-2014 Uwe Hermann ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by @@ -21,7 +21,7 @@ import sigrokdecode as srd class Decoder(srd.Decoder): - api_version = 1 + api_version = 2 id = 'nunchuk' name = 'Nunchuk' longname = 'Nintendo Wii Nunchuk' @@ -29,62 +29,72 @@ class Decoder(srd.Decoder): license = 'gplv2+' inputs = ['i2c'] outputs = ['nunchuck'] - probes = [] - optional_probes = [] - options = {} - annotations = [ - ['text-verbose', 'Human-readable text (verbose)'], - ['text', 'Human-readable text'], - ['warnings', 'Human-readable warnings'], - ] + annotations = \ + tuple(('reg-0x%02X' % i, 'Register 0x%02X' % i) for i in range(6)) + ( + ('bit-bz', 'BZ bit'), + ('bit-bc', 'BC bit'), + ('bit-ax', 'AX bits'), + ('bit-ay', 'AY bits'), + ('bit-az', 'AZ bits'), + ('nunchuk-write', 'Nunchuk write'), + ('cmd-init', 'Init command'), + ('summary', 'Summary'), + ('warnings', 'Warnings'), + ) + annotation_rows = ( + ('regs', 'Registers', tuple(range(13))), + ('summary', 'Summary', (13,)), + ('warnings', 'Warnings', (14,)), + ) def __init__(self, **kwargs): self.state = 'IDLE' self.sx = self.sy = self.ax = self.ay = self.az = self.bz = self.bc = -1 self.databytecount = 0 self.reg = 0x00 + self.ss = self.es = self.ss_block = self.es_block = 0 self.init_seq = [] def start(self): - # self.out_python = self.register(srd.OUTPUT_PYTHON) self.out_ann = self.register(srd.OUTPUT_ANN) def putx(self, data): - # Helper for annotations which span exactly one I²C packet. self.put(self.ss, self.es, self.out_ann, data) def putb(self, data): - # Helper for annotations which span a block of I²C packets. - self.put(self.block_start_sample, self.block_end_sample, - self.out_ann, data) + self.put(self.ss_block, self.es_block, self.out_ann, data) + + def putd(self, bit1, bit2, data): + self.put(self.bits[bit1][1], self.bits[bit2][2], self.out_ann, data) def handle_reg_0x00(self, databyte): + self.ss_block = self.ss self.sx = databyte - self.putx([0, ['Analog stick X position: 0x%02x' % self.sx]]) - self.putx([1, ['SX: 0x%02x' % self.sx]]) + self.putx([0, ['Analog stick X position: 0x%02X' % self.sx, + 'SX: 0x%02X' % self.sx]]) def handle_reg_0x01(self, databyte): self.sy = databyte - self.putx([0, ['Analog stick Y position: 0x%02x' % self.sy]]) - self.putx([1, ['SY: 0x%02x' % self.sy]]) + self.putx([1, ['Analog stick Y position: 0x%02X' % self.sy, + 'SY: 0x%02X' % self.sy]]) def handle_reg_0x02(self, databyte): self.ax = databyte << 2 - self.putx([0, ['Accelerometer X value bits[9:2]: 0x%03x' % self.ax]]) - self.putx([1, ['AX[9:2]: 0x%03x' % self.ax]]) + self.putx([2, ['Accelerometer X value bits[9:2]: 0x%03X' % self.ax, + 'AX[9:2]: 0x%03X' % self.ax]]) def handle_reg_0x03(self, databyte): self.ay = databyte << 2 - self.putx([0, ['Accelerometer Y value bits[9:2]: 0x%03x' % self.ay]]) - self.putx([1, ['AY[9:2]: 0x%x' % self.ay]]) + self.putx([3, ['Accelerometer Y value bits[9:2]: 0x%03X' % self.ay, + 'AY[9:2]: 0x%03X' % self.ay]]) def handle_reg_0x04(self, databyte): self.az = databyte << 2 - self.putx([0, ['Accelerometer Z value bits[9:2]: 0x%03x' % self.az]]) - self.putx([1, ['AZ[9:2]: 0x%x' % self.az]]) + self.putx([4, ['Accelerometer Z value bits[9:2]: 0x%03X' % self.az, + 'AZ[9:2]: 0x%03X' % self.az]]) - # TODO: Bit-exact annotations. def handle_reg_0x05(self, databyte): + self.es_block = self.es self.bz = (databyte & (1 << 0)) >> 0 # Bits[0:0] self.bc = (databyte & (1 << 1)) >> 1 # Bits[1:1] ax_rest = (databyte & (3 << 2)) >> 2 # Bits[3:2] @@ -94,68 +104,64 @@ class Decoder(srd.Decoder): self.ay |= ay_rest self.az |= az_rest + # self.putx([5, ['Register 5', 'Reg 5', 'R5']]) + s = '' if (self.bz == 0) else 'not ' - self.putx([0, ['Z button: %spressed' % s]]) - self.putx([1, ['BZ: %d' % self.bz]]) + self.putd(0, 0, [6, ['Z: %spressed' % s, 'BZ: %d' % self.bz]]) s = '' if (self.bc == 0) else 'not ' - self.putx([0, ['C button: %spressed' % s]]) - self.putx([1, ['BC: %d' % self.bc]]) + self.putd(1, 1, [7, ['C: %spressed' % s, 'BC: %d' % self.bc]]) - self.putx([0, ['Accelerometer X value bits[1:0]: 0x%x' % ax_rest]]) - self.putx([1, ['AX[1:0]: 0x%x' % ax_rest]]) + self.putd(3, 2, [8, ['Accelerometer X value bits[1:0]: 0x%X' % ax_rest, + 'AX[1:0]: 0x%X' % ax_rest]]) - self.putx([0, ['Accelerometer Y value bits[1:0]: 0x%x' % ay_rest]]) - self.putx([1, ['AY[1:0]: 0x%x' % ay_rest]]) + self.putd(5, 4, [9, ['Accelerometer Y value bits[1:0]: 0x%X' % ay_rest, + 'AY[1:0]: 0x%X' % ay_rest]]) - self.putx([0, ['Accelerometer Z value bits[1:0]: 0x%x' % az_rest]]) - self.putx([1, ['AZ[1:0]: 0x%x' % az_rest]]) + self.putd(7, 6, [10, ['Accelerometer Z value bits[1:0]: 0x%X' % az_rest, + 'AZ[1:0]: 0x%X' % az_rest]]) + + self.reg = 0x00 def output_full_block_if_possible(self): - # For now, only output summary annotation if all values are available. + # For now, only output summary annotations if all values are available. t = (self.sx, self.sy, self.ax, self.ay, self.az, self.bz, self.bc) if -1 in t: return - - s = 'Analog stick X position: 0x%02x\n' % self.sx - s += 'Analog stick Y position: 0x%02x\n' % self.sy - s += 'Z button: %spressed\n' % ('' if (self.bz == 0) else 'not ') - s += 'C button: %spressed\n' % ('' if (self.bc == 0) else 'not ') - s += 'Accelerometer X value: 0x%03x\n' % self.ax - s += 'Accelerometer Y value: 0x%03x\n' % self.ay - s += 'Accelerometer Z value: 0x%03x\n' % self.az - self.put(self.block_start_sample, self.block_end_sample, - self.out_ann, [0, [s]]) - - s = 'SX = 0x%02x, SY = 0x%02x, AX = 0x%02x, AY = 0x%02x, ' \ - 'AZ = 0x%02x, BZ = 0x%02x, BC = 0x%02x' % (self.sx, \ - self.sy, self.ax, self.ay, self.az, self.bz, self.bc) - self.put(self.block_start_sample, self.block_end_sample, - self.out_ann, [1, [s]]) + bz = 'pressed' if self.bz == 0 else 'not pressed' + bc = 'pressed' if self.bc == 0 else 'not pressed' + s = 'Analog stick: %d/%d, accelerometer: %d/%d/%d, Z: %s, C: %s' % \ + (self.sx, self.sy, self.ax, self.ay, self.az, bz, bc) + self.putb([13, [s]]) def handle_reg_write(self, databyte): - self.putx([0, ['Nunchuk write: 0x%02x' % databyte]]) + self.putx([11, ['Nunchuk write: 0x%02X' % databyte]]) if len(self.init_seq) < 2: self.init_seq.append(databyte) def output_init_seq(self): if len(self.init_seq) != 2: - self.putb([2, ['Init sequence was %d bytes long (2 expected)' % \ + self.putb([14, ['Init sequence was %d bytes long (2 expected)' % \ len(self.init_seq)]]) + return - if self.init_seq != (0x40, 0x00): - self.putb([2, ['Unknown init sequence (expected: 0x40 0x00)']]) + if self.init_seq != [0x40, 0x00]: + self.putb([14, ['Unknown init sequence (expected: 0x40 0x00)']]) + return # TODO: Detect Nunchuk clones (they have different init sequences). - s = 'Initialized Nintendo Wii Nunchuk' - self.putb([0, [s]]) - self.putb([1, ['INIT']]) + self.putb([12, ['Initialize Nunchuk', 'Init Nunchuk', 'Init', 'I']]) def decode(self, ss, es, data): cmd, databyte = data - # Store the start/end samples of this I²C packet. + # Collect the 'BITS' packet, then return. The next packet is + # guaranteed to belong to these bits we just stored. + if cmd == 'BITS': + self.bits = databyte + return + self.ss, self.es = ss, es # State machine. @@ -164,7 +170,7 @@ class Decoder(srd.Decoder): if cmd != 'START': return self.state = 'GET SLAVE ADDR' - self.block_start_sample = ss + self.ss_block = ss elif self.state == 'GET SLAVE ADDR': # Wait for an address read/write operation. if cmd == 'ADDRESS READ': @@ -177,25 +183,22 @@ class Decoder(srd.Decoder): handle_reg(databyte) self.reg += 1 elif cmd == 'STOP': - self.block_end_sample = es + self.es_block = es self.output_full_block_if_possible() self.sx = self.sy = self.ax = self.ay = self.az = -1 self.bz = self.bc = -1 self.state = 'IDLE' else: - # self.putx([0, ['Ignoring: %s (data=%s)' % (cmd, databyte)]]) + # self.putx([14, ['Ignoring: %s (data=%s)' % (cmd, databyte)]]) pass elif self.state == 'WRITE REGS': if cmd == 'DATA WRITE': self.handle_reg_write(databyte) elif cmd == 'STOP': - self.block_end_sample = es + self.es_block = es self.output_init_seq() self.init_seq = [] self.state = 'IDLE' else: - # self.putx([0, ['Ignoring: %s (data=%s)' % (cmd, databyte)]]) + # self.putx([14, ['Ignoring: %s (data=%s)' % (cmd, databyte)]]) pass - else: - raise Exception('Invalid state: %s' % self.state) -