##
import sigrokdecode as srd
+from common.srdhelper import SrdIntEnum
from .lists import *
WORD_SIZE = 8
annotation[index] = str(annotation[index] % self.name)
return annotation
+Ann = SrdIntEnum.from_str('Ann', 'READ WRITE MB REG_ADDRESS REG_DATA WARNING')
+
class Decoder(srd.Decoder):
api_version = 3
id = 'adxl345'
('warning', 'Warning'),
)
annotation_rows = (
- ('reg', 'Registers', (0, 1, 2, 3)),
- ('data', 'Data', (4, 5)),
+ ('reg', 'Registers', (Ann.READ, Ann.WRITE, Ann.MB, Ann.REG_ADDRESS)),
+ ('data', 'Data', (Ann.REG_DATA, Ann.WARNING)),
)
def __init__(self):
def handle_reg_with_scaling_factor(self, data, factor, name, unit, error_msg):
if data == 0 and error_msg is not None:
- self.putx([5, error_msg])
+ self.putx([Ann.WARNING, error_msg])
else:
result = (data * factor) / 1000
- self.putx([4, ['%s: %f %s' % (name, result, unit), '%f %s' % (result, unit)]])
+ self.putx([Ann.REG_DATA, ['%s: %f %s' % (name, result, unit), '%f %s' % (result, unit)]])
def handle_reg_bit_msg(self, bit, index, en_msg, dis_msg):
- self.putb([4, [en_msg if bit else dis_msg]], index)
+ self.putb([Ann.REG_DATA, [en_msg if bit else dis_msg]], index)
def interpret_bits(self, data, bits):
bits_values = []
continue
bit = bits[index]
bit.set_value(bits_values[index])
- self.putb([4, bit.get_bit_annotation()], index)
+ self.putb([Ann.REG_DATA, bit.get_bit_annotation()], index)
return list(reversed(bits_values))
data <<= 8
self.data |= data
self.put(self.start_index, self.es, self.out_ann,
- [4, ['%s: 0x%04X' % (axis, self.data), str(data)]])
+ [Ann.REG_DATA, ['%s: 0x%04X' % (axis, self.data), str(data)]])
self.data = -1
else:
- self.putx([4, [str(data)]])
+ self.putx([Ann.REG_DATA, [str(data)]])
def handle_reg_0x1D(self, data):
self.handle_reg_with_scaling_factor(data, 62.5, 'Threshold', 'g',
start_index, stop_index = 0, 3
rate = self.get_decimal_number(bits_values, start_index, start_index)
- self.putbs([4, ['%f' % rate_code[rate]]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, ['%f' % rate_code[rate]]], stop_index, start_index)
def handle_reg_0x2D(self, data):
bits = [Bit('', BitType.UNUSED),
start_index, stop_index = 0, 1
wakeup = self.get_decimal_number(bits_values, start_index, stop_index)
frequency = 2 ** (~wakeup & 0x03)
- self.putbs([4, ['%d Hz' % frequency]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, ['%d Hz' % frequency]], stop_index, start_index)
def handle_reg_0x2E(self, data):
bits = [Bit('DATA_READY', BitType.ENABLE),
start_index, stop_index = 0, 1
range_g = self.get_decimal_number(bits_values, start_index, stop_index)
result = 2 ** (range_g + 1)
- self.putbs([4, ['+/-%d g' % result]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, ['+/-%d g' % result]], stop_index, start_index)
def handle_reg_0x32(self, data):
self.data = data
- self.putx([4, [str(data)]])
+ self.putx([Ann.REG_DATA, [str(data)]])
def handle_reg_0x33(self, data):
self.get_axis_value(data, 'X')
start_index, stop_index = 6, 7
fifo = self.get_decimal_number(bits_values, start_index, stop_index)
- self.putbs([4, [fifo_modes[fifo]]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, [fifo_modes[fifo]]], stop_index, start_index)
start_index, stop_index = 0, 4
samples = self.get_decimal_number(bits_values, start_index, stop_index)
- self.putbs([4, ['Samples: %d' % samples, '%d' % samples]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, ['Samples: %d' % samples, '%d' % samples]], stop_index, start_index)
def handle_reg_0x39(self, data):
bits = [Bit('', BitType.OTHER, {1: ['Triggered', 'Trigg'], 0: ['Not triggered', 'Not trigg'],}),
start_index, stop_index = 0, 5
entries = self.get_decimal_number(bits_values, start_index, stop_index)
- self.putbs([4, ['Entries: %d' % entries, '%d' % entries]], stop_index, start_index)
+ self.putbs([Ann.REG_DATA, ['Entries: %d' % entries, '%d' % entries]], stop_index, start_index)
def get_bit(self, channel):
if (channel == Channel.MOSI and self.mosi is None) or \
# OPERATION BIT
op_bit = self.get_bit(Channel.MOSI)
self.put(op_bit[1], op_bit[2], self.out_ann,
- [0 if op_bit[0] else 1, operations[op_bit[0]]])
+ [Ann.READ if op_bit[0] else Ann.WRITE, operations[op_bit[0]]])
self.operation = Operation.READ if op_bit[0] else Operation.WRITE
# MULTIPLE-BYTE BIT
mb_bit = self.get_bit(Channel.MOSI)
- self.put(mb_bit[1], mb_bit[2], self.out_ann, [2, number_bytes[mb_bit[0]]])
+ self.put(mb_bit[1], mb_bit[2], self.out_ann, [Ann.MB, number_bytes[mb_bit[0]]])
# REGISTER 6-BIT ADDRESS
self.address = 0
self.address <<= 1
self.address >>= 1
self.put(start_sample, addr_bit[2], self.out_ann,
- [3, ['ADDRESS: 0x%02X' % self.address, 'ADDR: 0x%02X'
+ [Ann.REG_ADDRESS, ['ADDRESS: 0x%02X' % self.address, 'ADDR: 0x%02X'
% self.address, '0x%02X' % self.address]])
self.ss = -1
self.state = 'DATA'
self.start_index = self.ss
if 0x1D > self.address >= 0x00:
- self.put(self.ss, reg_bit[2], self.out_ann, [3, [str(self.address)]])
- self.put(self.ss, reg_bit[2], self.out_ann, [4, [str(reg_value)]])
+ self.put(self.ss, reg_bit[2], self.out_ann, [Ann.REG_ADDRESS, [str(self.address)]])
+ self.put(self.ss, reg_bit[2], self.out_ann, [Ann.REG_DATA, [str(reg_value)]])
else:
- self.put(self.ss, reg_bit[2], self.out_ann, [3, registers[self.address]])
+ self.put(self.ss, reg_bit[2], self.out_ann, [Ann.REG_ADDRESS, registers[self.address]])
handle_reg = getattr(self, 'handle_reg_0x%02X' % self.address)
handle_reg(reg_value)
projects / libsigrokdecode.git / commitdiff