mirror of https://github.com/arendst/Tasmota.git
433 lines
16 KiB
Python
Executable File
433 lines
16 KiB
Python
Executable File
#!/usr/bin/python
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"""Attempt an automatic analysis of IRremoteESP8266's Raw data output.
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Makes suggestions on key values and tried to break down the message
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into likely chunks."""
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#
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# Copyright 2018 David Conran
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import argparse
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import sys
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class RawIRMessage():
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"""Basic analyse functions & structure for raw IR messages."""
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# pylint: disable=too-many-instance-attributes
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def __init__(self, margin, timings, output=sys.stdout, verbose=True):
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self.hdr_mark = None
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self.hdr_space = None
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self.bit_mark = None
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self.zero_space = None
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self.one_space = None
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self.gaps = []
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self.margin = margin
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self.marks = []
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self.mark_buckets = {}
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self.spaces = []
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self.space_buckets = {}
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self.output = output
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self.verbose = verbose
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if len(timings) <= 3:
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raise ValueError("Too few message timings supplied.")
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self.timings = timings
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self._generate_timing_candidates()
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self._calc_values()
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def _generate_timing_candidates(self):
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"""Determine the likely values from the given data."""
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count = 0
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for usecs in self.timings:
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count = count + 1
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if count % 2:
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self.marks.append(usecs)
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else:
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self.spaces.append(usecs)
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self.marks, self.mark_buckets = self.reduce_list(self.marks)
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self.spaces, self.space_buckets = self.reduce_list(self.spaces)
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def reduce_list(self, items):
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"""Reduce a list of numbers into buckets that are at least margin apart."""
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result = []
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last = -1
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buckets = {}
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for item in sorted(items, reverse=True):
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if last == -1 or item < last - self.margin:
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result.append(item)
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last = item
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buckets[last] = [item]
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else:
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buckets[last].append(item)
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return result, buckets
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def _usec_compare(self, seen, expected):
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"""Compare two usec values and see if they match within a
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subtractive margin."""
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return expected - self.margin < seen <= expected
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def _usec_compares(self, usecs, expecteds):
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"""Compare a usec value to a list of values and return True
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if they are within a subtractive margin."""
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for expected in expecteds:
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if self._usec_compare(usecs, expected):
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return True
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return False
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def display_binary(self, binary_str):
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"""Display common representations of the suppied binary string."""
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num = int(binary_str, 2)
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bits = len(binary_str)
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rev_binary_str = binary_str[::-1]
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rev_num = int(rev_binary_str, 2)
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self.output.write("\n Bits: %d\n"
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" Hex: %s (MSB first)\n"
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" %s (LSB first)\n"
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" Dec: %s (MSB first)\n"
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" %s (LSB first)\n"
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" Bin: 0b%s (MSB first)\n"
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" 0b%s (LSB first)\n" %
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(bits, ("0x{0:0%dX}" % (bits / 4)).format(num),
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("0x{0:0%dX}" % (bits / 4)).format(rev_num), num,
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rev_num, binary_str, rev_binary_str))
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def add_data_code(self, bin_str, footer=True):
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"""Add the common "data" sequence of code to send the bulk of a message."""
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# pylint: disable=no-self-use
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code = []
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code.append(" // Data")
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code.append(" // e.g. data = 0x%X, nbits = %d" % (int(bin_str, 2),
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len(bin_str)))
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code.append(" sendData(kBitMark, kOneSpace, kBitMark, kZeroSpace, data, "
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"nbits, true);")
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if footer:
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code.append(" // Footer")
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code.append(" mark(kBitMark);")
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return code
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def _calc_values(self):
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"""Calculate the values which describe the standard timings
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for the protocol."""
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if self.verbose:
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self.output.write("Potential Mark Candidates:\n"
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"%s\n"
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"Potential Space Candidates:\n"
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"%s\n" % (str(self.marks), str(self.spaces)))
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# Largest mark is likely the kHdrMark
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self.hdr_mark = self.marks[0]
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# The bit mark is likely to be the smallest mark.
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self.bit_mark = self.marks[-1]
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if self.is_space_encoded() and len(self.spaces) >= 3:
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if self.verbose and len(self.marks) > 2:
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self.output.write("DANGER: Unexpected and unused mark timings!")
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# We should have 3 space candidates at least.
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# They should be: zero_space (smallest), one_space, & hdr_space (largest)
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spaces = list(self.spaces)
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self.zero_space = spaces.pop()
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self.one_space = spaces.pop()
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self.hdr_space = spaces.pop()
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# Rest are probably message gaps
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self.gaps = spaces
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def is_space_encoded(self):
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"""Make an educated guess if the message is space encoded."""
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return len(self.spaces) > len(self.marks)
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def is_hdr_mark(self, usec):
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"""Is usec the header mark?"""
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return self._usec_compare(usec, self.hdr_mark)
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def is_hdr_space(self, usec):
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"""Is usec the header space?"""
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return self._usec_compare(usec, self.hdr_space)
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def is_bit_mark(self, usec):
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"""Is usec the bit mark?"""
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return self._usec_compare(usec, self.bit_mark)
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def is_one_space(self, usec):
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"""Is usec the one space?"""
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return self._usec_compare(usec, self.one_space)
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def is_zero_space(self, usec):
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"""Is usec the zero_space?"""
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return self._usec_compare(usec, self.zero_space)
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def is_gap(self, usec):
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"""Is usec the a space gap?"""
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return self._usec_compares(usec, self.gaps)
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def avg_list(items):
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"""Return the average of a list of numbers."""
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if items:
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return int(sum(items) / len(items))
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return 0
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def add_bit(so_far, bit, output=sys.stdout):
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"""Add a bit to the end of the bits collected so far."""
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if bit == "reset":
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return ""
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output.write(str(bit)) # This effectively displays in LSB first order.
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return so_far + str(bit) # Storing it in MSB first order.
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def convert_rawdata(data_str):
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"""Parse a C++ rawdata declaration into a list of values."""
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start = data_str.find('{')
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end = data_str.find('}')
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if end == -1:
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end = len(data_str)
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if start > end:
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raise ValueError("Raw Data not parsible due to parentheses placement.")
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data_str = data_str[start + 1:end]
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results = []
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for timing in [x.strip() for x in data_str.split(',')]:
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try:
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results.append(int(timing))
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except ValueError:
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raise ValueError(
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"Raw Data contains a non-numeric value of '%s'." % timing)
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return results
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def dump_constants(message, defines, output=sys.stdout):
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"""Dump the key constants and generate the C++ #defines."""
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hdr_mark = avg_list(message.mark_buckets[message.hdr_mark])
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bit_mark = avg_list(message.mark_buckets[message.bit_mark])
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hdr_space = avg_list(message.space_buckets[message.hdr_space])
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one_space = avg_list(message.space_buckets[message.one_space])
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zero_space = avg_list(message.space_buckets[message.zero_space])
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output.write("Guessing key value:\n"
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"kHdrMark = %d\n"
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"kHdrSpace = %d\n"
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"kBitMark = %d\n"
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"kOneSpace = %d\n"
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"kZeroSpace = %d\n" % (hdr_mark, hdr_space, bit_mark, one_space,
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zero_space))
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defines.append("const uint16_t kHdrMark = %d;" % hdr_mark)
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defines.append("const uint16_t kBitMark = %d;" % bit_mark)
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defines.append("const uint16_t kHdrSpace = %d;" % hdr_space)
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defines.append("const uint16_t kOneSpace = %d;" % one_space)
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defines.append("const uint16_t kZeroSpace = %d;" % zero_space)
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avg_gaps = [avg_list(message.space_buckets[x]) for x in message.gaps]
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if len(message.gaps) == 1:
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output.write("kSpaceGap = %d\n" % avg_gaps[0])
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defines.append("const uint16_t kSpaceGap = %d;" % avg_gaps[0])
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else:
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count = 0
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for gap in avg_gaps:
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# We probably (still) have a gap in the protocol.
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count = count + 1
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output.write("kSpaceGap%d = %d\n" % (count, gap))
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defines.append("const uint16_t kSpaceGap%d = %d;" % (count, gap))
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def parse_and_report(rawdata_str, margin, gen_code=False, output=sys.stdout):
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"""Analyse the rawdata c++ definition of a IR message."""
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defines = []
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function_code = []
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# Parse the input.
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rawdata = convert_rawdata(rawdata_str)
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output.write("Found %d timing entries.\n" % len(rawdata))
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message = RawIRMessage(margin, rawdata, output)
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output.write("\nGuessing encoding type:\n")
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if message.is_space_encoded():
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output.write("Looks like it uses space encoding. Yay!\n\n")
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dump_constants(message, defines, output)
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else:
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output.write("Sorry, it looks like it is Mark encoded. "
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"I can't do that yet. Exiting.\n")
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sys.exit(1)
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total_bits = decode_data(message, defines, function_code, output)
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if gen_code:
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generate_irsend_code(defines, function_code, total_bits, output)
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def decode_data(message, defines, function_code, output=sys.stdout):
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"""Decode the data sequence with the given values in mind."""
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# pylint: disable=too-many-branches,too-many-statements
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# Now we have likely candidates for the key values, go through the original
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# sequence and break it up and indicate accordingly.
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output.write("\nDecoding protocol based on analysis so far:\n\n")
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state = ""
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count = 1
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total_bits = ""
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binary_value = add_bit("", "reset")
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function_code.extend([
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"// Function should be safe up to 64 bits.",
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"void IRsend::sendXyz(const uint64_t data, const uint16_t"
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" nbits, const uint16_t repeat) {",
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" enableIROut(38); // A guess. Most common frequency.",
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" for (uint16_t r = 0; r <= repeat; r++) {"
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])
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for usec in message.timings:
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if (message.is_hdr_mark(usec) and count % 2 and
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not message.is_bit_mark(usec)):
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state = "HM"
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if binary_value:
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message.display_binary(binary_value)
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function_code.extend(message.add_data_code(binary_value, False))
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total_bits = total_bits + binary_value
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binary_value = add_bit(binary_value, "reset")
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output.write("kHdrMark+")
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function_code.extend([" // Header", " mark(kHdrMark);"])
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elif message.is_hdr_space(usec) and not message.is_one_space(usec):
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if state != "HM":
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if binary_value:
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message.display_binary(binary_value)
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total_bits = total_bits + binary_value
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function_code.extend(message.add_data_code(binary_value))
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binary_value = add_bit(binary_value, "reset")
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output.write("UNEXPECTED->")
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state = "HS"
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output.write("kHdrSpace+")
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function_code.append(" space(kHdrSpace);")
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elif message.is_bit_mark(usec) and count % 2:
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if state not in ("HS", "BS"):
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output.write("kBitMark(UNEXPECTED)")
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state = "BM"
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elif message.is_zero_space(usec):
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if state != "BM":
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output.write("kZeroSpace(UNEXPECTED)")
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state = "BS"
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binary_value = add_bit(binary_value, 0, output)
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elif message.is_one_space(usec):
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if state != "BM":
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output.write("kOneSpace(UNEXPECTED)")
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state = "BS"
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binary_value = add_bit(binary_value, 1, output)
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elif message.is_gap(usec):
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if state != "BM":
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output.write("UNEXPECTED->")
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state = "GS"
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output.write("GAP(%d)" % usec)
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if binary_value:
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message.display_binary(binary_value)
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function_code.extend(message.add_data_code(binary_value))
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else:
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function_code.extend([" // Gap", " mark(kBitMark);"])
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function_code.append(" space(kSpaceGap);")
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total_bits = total_bits + binary_value
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binary_value = add_bit(binary_value, "reset")
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else:
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output.write("UNKNOWN(%d)" % usec)
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state = "UNK"
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count = count + 1
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if binary_value:
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message.display_binary(binary_value)
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function_code.extend(message.add_data_code(binary_value))
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function_code.extend([
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" space(100000); // A 100% made up guess of the gap"
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" between messages.", " }", "}"
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])
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total_bits = total_bits + binary_value
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output.write("\nTotal Nr. of suspected bits: %d\n" % len(total_bits))
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defines.append("const uint16_t kXyzBits = %d;" % len(total_bits))
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if len(total_bits) > 64:
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defines.append("const uint16_t kXyzStateLength = %d;" %
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(len(total_bits) / 8))
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return total_bits
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def generate_irsend_code(defines, normal, bits_str, output=sys.stdout):
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"""Output the estimated C++ code to reproduce the IR message."""
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output.write("\nGenerating a VERY rough code outline:\n\n"
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"// WARNING: This probably isn't directly usable."
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" It's a guide only.\n")
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for line in defines:
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output.write("%s\n" % line)
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if len(bits_str) > 64: # Will it fit in a uint64_t?
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output.write("// DANGER: More than 64 bits detected. A uint64_t for "
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"'data' won't work!\n")
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# Display the "normal" version's code incase there are some
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# oddities in it.
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for line in normal:
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output.write("%s\n" % line)
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if len(bits_str) > 64: # Will it fit in a uint64_t?
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output.write("\n\n// Alternative >64 bit Function\n"
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"void IRsend::sendXyz(uint8_t data[], uint16_t nbytes,"
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" uint16_t repeat) {\n"
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" // nbytes should typically be kXyzStateLength\n"
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" // data should typically be:\n"
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" // uint8_t data[kXyzStateLength] = {0x%s};\n"
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" // data[] is assumed to be in MSB order for this code.\n"
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" for (uint16_t r = 0; r <= repeat; r++) {\n"
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" sendGeneric(kHdrMark, kHdrSpace,\n"
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" kBitMark, kOneSpace,\n"
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" kBitMark, kZeroSpace,\n"
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" kBitMark,\n"
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" 100000, // 100%% made-up guess at the"
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" message gap.\n"
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" data, nbytes,\n"
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" 38000, // Complete guess of the modulation"
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" frequency.\n"
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" true, 0, 50);\n"
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" }\n"
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"}\n" % ", 0x".join("%02X" % int(bits_str[i:i + 8], 2)
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for i in range(0, len(bits_str), 8)))
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def main():
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"""Parse the commandline arguments and call the method."""
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arg_parser = argparse.ArgumentParser(
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description="Read an IRremoteESP8266 rawData declaration and tries to "
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"analyse it.",
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formatter_class=argparse.ArgumentDefaultsHelpFormatter)
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arg_parser.add_argument(
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"-g",
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"--code",
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action="store_true",
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default=False,
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dest="gen_code",
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help="Generate a C++ code outline to aid making an IRsend function.")
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arg_group = arg_parser.add_mutually_exclusive_group(required=True)
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arg_group.add_argument(
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"rawdata",
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help="A rawData line from IRrecvDumpV2. e.g. 'uint16_t rawbuf[37] = {"
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"7930, 3952, 494, 1482, 520, 1482, 494, 1508, 494, 520, 494, 1482, 494, "
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"520, 494, 1482, 494, 1482, 494, 3978, 494, 520, 494, 520, 494, 520, "
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"494, 520, 520, 520, 494, 520, 494, 520, 494, 520, 494};'",
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nargs="?")
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arg_group.add_argument(
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"-f", "--file", help="Read in a rawData line from the file.")
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arg_parser.add_argument(
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"-r",
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"--range",
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type=int,
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help="Max number of micro-seconds difference between values to consider"
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" it the same value.",
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dest="margin",
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default=200)
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arg_group.add_argument(
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"--stdin",
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help="Read in a rawData line from STDIN.",
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action="store_true",
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default=False)
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arg_options = arg_parser.parse_args()
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if arg_options.stdin:
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data = sys.stdin.read()
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elif arg_options.file:
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with open(arg_options.file) as input_file:
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data = input_file.read()
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else:
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data = arg_options.rawdata
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parse_and_report(data, arg_options.margin, arg_options.gen_code)
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if __name__ == '__main__':
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main()
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