- def get_parity_bit(self, rxtx, signal):
- # If no parity is used/configured, skip to the next state immediately.
- if self.options['parity_type'] == 'none':
- self.state[rxtx] = 'GET STOP BITS'
- return
+ def format_value(self, v):
+ # Format value 'v' according to configured options.
+ # Reflects the user selected kind of representation, as well as
+ # the number of data bits in the UART frames.
+
+ fmt, bits = self.options['format'], self.options['num_data_bits']
+
+ # Assume "is printable" for values from 32 to including 126,
+ # below 32 is "control" and thus not printable, above 127 is
+ # "not ASCII" in its strict sense, 127 (DEL) is not printable,
+ # fall back to hex representation for non-printables.
+ if fmt == 'ascii':
+ if v in range(32, 126 + 1):
+ return chr(v)
+ hexfmt = "[{:02X}]" if bits <= 8 else "[{:03X}]"
+ return hexfmt.format(v)
+
+ # Mere number to text conversion without prefix and padding
+ # for the "decimal" output format.
+ if fmt == 'dec':
+ return "{:d}".format(v)
+
+ # Padding with leading zeroes for hex/oct/bin formats, but
+ # without a prefix for density -- since the format is user
+ # specified, there is no ambiguity.
+ if fmt == 'hex':
+ digits = (bits + 4 - 1) // 4
+ fmtchar = "X"
+ elif fmt == 'oct':
+ digits = (bits + 3 - 1) // 3
+ fmtchar = "o"
+ elif fmt == 'bin':
+ digits = bits
+ fmtchar = "b"
+ else:
+ fmtchar = None
+ if fmtchar is not None:
+ fmt = "{{:0{:d}{:s}}}".format(digits, fmtchar)
+ return fmt.format(v)
+
+ return None