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516 lines
13 KiB
Python
516 lines
13 KiB
Python
#!/usr/bin/env python
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# irrp.py
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# 2015-12-21
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# Public Domain
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"""
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A utility to record and then playback IR remote control codes.
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To record use
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./irrp.py -r -g4 -fcodes 1 2 3 4 5 6
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where
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-r record
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-g the GPIO connected to the IR receiver
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-f the file to store the codes
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and 1 2 3 4 5 6 is a list of codes to record.
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To playback use
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./irrp.py -p -g17 -fcodes 2 3 4
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where
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-p playback
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-g the GPIO connected to the IR transmitter
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-f the file storing the codes to transmit
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and 2 3 4 is a list of codes to transmit.
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OPTIONS
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-r record
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-p playback
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-g GPIO (receiver for record, transmitter for playback)
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-f file
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id1 id2 id3 list of ids to record or transmit
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RECORD
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--glitch ignore edges shorter than glitch microseconds, default 100 us
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--post expect post milliseconds of silence after code, default 15 ms
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--pre expect pre milliseconds of silence before code, default 200 ms
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--short reject codes with less than short pulses, default 10
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--tolerance consider pulses the same if within tolerance percent, default 15
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--no-confirm don't require a code to be repeated during record
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TRANSMIT
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--freq IR carrier frequency, default 38 kHz
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--gap gap in milliseconds between transmitted codes, default 100 ms
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"""
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import time
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import json
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import os
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import argparse
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import pigpio # http://abyz.co.uk/rpi/pigpio/python.html
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p = argparse.ArgumentParser()
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g = p.add_mutually_exclusive_group(required=True)
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g.add_argument("-p", "--play", help="play keys", action="store_true")
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g.add_argument("-r", "--record", help="record keys", action="store_true")
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p.add_argument("-g", "--gpio", help="GPIO for RX/TX", required=True, type=int)
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# p.add_argument("-f", "--file", help="Filename", required=True)
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p.add_argument("--irdata", help="IR Data")
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p.add_argument('id', nargs='+', type=str, help='IR codes')
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p.add_argument("--freq", help="frequency kHz", type=float, default=38.0)
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p.add_argument("--gap", help="key gap ms", type=int, default=100)
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p.add_argument("--glitch", help="glitch us", type=int, default=100)
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p.add_argument("--post", help="postamble ms", type=int, default=15)
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p.add_argument("--pre", help="preamble ms", type=int, default=200)
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p.add_argument("--short", help="short code length", type=int, default=10)
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p.add_argument("--tolerance", help="tolerance percent", type=int, default=15)
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p.add_argument("-v", "--verbose", help="Be verbose", action="store_true")
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p.add_argument("--no-confirm", help="No confirm needed", action="store_true")
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args = p.parse_args()
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GPIO = args.gpio
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# FILE = args.file
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IRDATA = args.irdata
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GLITCH = args.glitch
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PRE_MS = args.pre
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POST_MS = args.post
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FREQ = args.freq
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VERBOSE = args.verbose
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SHORT = args.short
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GAP_MS = args.gap
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NO_CONFIRM = args.no_confirm
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TOLERANCE = args.tolerance
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POST_US = POST_MS * 1000
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PRE_US = PRE_MS * 1000
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GAP_S = GAP_MS / 1000.0
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CONFIRM = not NO_CONFIRM
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TOLER_MIN = (100 - TOLERANCE) / 100.0
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TOLER_MAX = (100 + TOLERANCE) / 100.0
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last_tick = 0
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in_code = False
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code = []
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fetching_code = False
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def backup(f):
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"""
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f -> f.bak -> f.bak1 -> f.bak2
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"""
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try:
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os.rename(os.path.realpath(f)+".bak1", os.path.realpath(f)+".bak2")
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except:
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pass
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try:
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os.rename(os.path.realpath(f)+".bak", os.path.realpath(f)+".bak1")
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except:
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pass
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try:
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os.rename(os.path.realpath(f), os.path.realpath(f)+".bak")
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except:
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pass
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def carrier(gpio, frequency, micros):
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"""
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Generate carrier square wave.
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"""
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wf = []
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cycle = 1000.0 / frequency
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cycles = int(round(micros/cycle))
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on = int(round(cycle / 2.0))
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sofar = 0
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for c in range(cycles):
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target = int(round((c+1)*cycle))
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sofar += on
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off = target - sofar
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sofar += off
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wf.append(pigpio.pulse(1<<gpio, 0, on))
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wf.append(pigpio.pulse(0, 1<<gpio, off))
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return wf
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def normalise(c):
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"""
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Typically a code will be made up of two or three distinct
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marks (carrier) and spaces (no carrier) of different lengths.
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Because of transmission and reception errors those pulses
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which should all be x micros long will have a variance around x.
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This function identifies the distinct pulses and takes the
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average of the lengths making up each distinct pulse. Marks
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and spaces are processed separately.
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This makes the eventual generation of waves much more efficient.
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Input
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M S M S M S M S M S M
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9000 4500 600 540 620 560 590 1660 620 1690 615
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Distinct marks
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9000 average 9000
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600 620 590 620 615 average 609
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Distinct spaces
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4500 average 4500
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540 560 average 550
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1660 1690 average 1675
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Output
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M S M S M S M S M S M
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9000 4500 609 550 609 550 609 1675 609 1675 609
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"""
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if VERBOSE:
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print("before normalise", c, flush=True)
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entries = len(c)
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p = [0]*entries # Set all entries not processed.
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for i in range(entries):
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if not p[i]: # Not processed?
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v = c[i]
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tot = v
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similar = 1.0
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# Find all pulses with similar lengths to the start pulse.
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for j in range(i+2, entries, 2):
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if not p[j]: # Unprocessed.
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if (c[j]*TOLER_MIN) < v < (c[j]*TOLER_MAX): # Similar.
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tot = tot + c[j]
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similar += 1.0
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# Calculate the average pulse length.
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newv = round(tot / similar, 2)
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c[i] = newv
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# Set all similar pulses to the average value.
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for j in range(i+2, entries, 2):
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if not p[j]: # Unprocessed.
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if (c[j]*TOLER_MIN) < v < (c[j]*TOLER_MAX): # Similar.
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c[j] = newv
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p[j] = 1
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if VERBOSE:
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print("after normalise", c, flush=True)
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def compare(p1, p2):
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"""
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Check that both recodings correspond in pulse length to within
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TOLERANCE%. If they do average the two recordings pulse lengths.
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Input
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M S M S M S M S M S M
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1: 9000 4500 600 560 600 560 600 1700 600 1700 600
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2: 9020 4570 590 550 590 550 590 1640 590 1640 590
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Output
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A: 9010 4535 595 555 595 555 595 1670 595 1670 595
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"""
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if len(p1) != len(p2):
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return False
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for i in range(len(p1)):
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v = p1[i] / p2[i]
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if (v < TOLER_MIN) or (v > TOLER_MAX):
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return False
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for i in range(len(p1)):
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p1[i] = int(round((p1[i]+p2[i])/2.0))
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if VERBOSE:
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print("after compare", p1, flush=True)
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return True
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def tidy_mark_space(records, base):
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ms = {}
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# Find all the unique marks (base=0) or spaces (base=1)
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# and count the number of times they appear,
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for rec in records:
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rl = len(records[rec])
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for i in range(base, rl, 2):
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if records[rec][i] in ms:
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ms[records[rec][i]] += 1
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else:
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ms[records[rec][i]] = 1
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if VERBOSE:
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print("t_m_s A", ms, flush=True)
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v = None
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for plen in sorted(ms):
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# Now go through in order, shortest first, and collapse
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# pulses which are the same within a tolerance to the
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# same value. The value is the weighted average of the
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# occurences.
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#
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# E.g. 500x20 550x30 600x30 1000x10 1100x10 1700x5 1750x5
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#
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# becomes 556(x80) 1050(x20) 1725(x10)
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#
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if v == None:
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e = [plen]
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v = plen
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tot = plen * ms[plen]
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similar = ms[plen]
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elif plen < (v*TOLER_MAX):
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e.append(plen)
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tot += (plen * ms[plen])
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similar += ms[plen]
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else:
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v = int(round(tot/float(similar)))
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# set all previous to v
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for i in e:
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ms[i] = v
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e = [plen]
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v = plen
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tot = plen * ms[plen]
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similar = ms[plen]
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v = int(round(tot/float(similar)))
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# set all previous to v
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for i in e:
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ms[i] = v
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if VERBOSE:
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print("t_m_s B", ms, flush=True)
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for rec in records:
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rl = len(records[rec])
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for i in range(base, rl, 2):
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records[rec][i] = ms[records[rec][i]]
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def tidy(records):
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tidy_mark_space(records, 0) # Marks.
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tidy_mark_space(records, 1) # Spaces.
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def end_of_code():
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global code, fetching_code
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if len(code) > SHORT:
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normalise(code)
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fetching_code = False
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else:
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code = []
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print("Short code, probably a repeat, try again", flush=True)
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def cbf(gpio, level, tick):
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global last_tick, in_code, code, fetching_code
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if level != pigpio.TIMEOUT:
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edge = pigpio.tickDiff(last_tick, tick)
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last_tick = tick
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if fetching_code:
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if (edge > PRE_US) and (not in_code): # Start of a code.
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in_code = True
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pi.set_watchdog(GPIO, POST_MS) # Start watchdog.
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elif (edge > POST_US) and in_code: # End of a code.
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in_code = False
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pi.set_watchdog(GPIO, 0) # Cancel watchdog.
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end_of_code()
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elif in_code:
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code.append(edge)
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else:
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pi.set_watchdog(GPIO, 0) # Cancel watchdog.
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if in_code:
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in_code = False
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end_of_code()
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pi = pigpio.pi() # Connect to Pi.
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if not pi.connected:
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exit(0)
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if args.record: # Record.
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# try:
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# f = open(FILE, "r")
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# records = json.load(f)
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# f.close()
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# except:
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# records = {}
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records = {}
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pi.set_mode(GPIO, pigpio.INPUT) # IR RX connected to this GPIO.
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pi.set_glitch_filter(GPIO, GLITCH) # Ignore glitches.
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cb = pi.callback(GPIO, pigpio.EITHER_EDGE, cbf)
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# Process each id
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print("読み取り開始:", flush=True)
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for arg in args.id:
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print("リモコンのボタンを押してください。", flush=True)
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code = []
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fetching_code = True
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while fetching_code:
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time.sleep(0.1)
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print("OK", flush=True)
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time.sleep(0.5)
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if CONFIRM:
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press_1 = code[:]
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done = False
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tries = 0
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while not done:
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print("確認のためもう一度同じボタンを押してください。", flush=True)
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code = []
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fetching_code = True
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while fetching_code:
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time.sleep(0.1)
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press_2 = code[:]
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the_same = compare(press_1, press_2)
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if the_same:
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done = True
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records[arg] = press_1[:]
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print("OK", flush=True)
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time.sleep(0.5)
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else:
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tries += 1
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if tries <= 3:
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print("信号が一致しません。", flush=True)
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else:
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print("信号が一致しませんでした。終了します。", flush=True)
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done = True
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time.sleep(0.5)
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else: # No confirm.
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records[arg] = code[:]
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pi.set_glitch_filter(GPIO, 0) # Cancel glitch filter.
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pi.set_watchdog(GPIO, 0) # Cancel watchdog.
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tidy(records)
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# backup(FILE)
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# f = open(FILE, "w")
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# f.write(json.dumps(records, sort_keys=True).replace("],", "],\n")+"\n")
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# f.close()
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# print('\n', flush=True)
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print(json.dumps(records), flush=True)
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else: # Playback.
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# try:
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# f = open(FILE, "r")
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# except:
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# print("Can't open: {}".format(FILE))
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# exit(0)
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# print(FILE, flush=True)
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records = json.loads(IRDATA)
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# records = json.loads(FILE)
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# print(records, flush=True)
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# f.close()
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pi.set_mode(GPIO, pigpio.OUTPUT) # IR TX connected to this GPIO.
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pi.wave_add_new()
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emit_time = time.time()
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if VERBOSE:
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print("送信中", flush=True)
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for arg in args.id:
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if arg in records:
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code = records[arg]
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# Create wave
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marks_wid = {}
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spaces_wid = {}
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wave = [0]*len(code)
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for i in range(0, len(code)):
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ci = code[i]
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if i & 1: # Space
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if ci not in spaces_wid:
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pi.wave_add_generic([pigpio.pulse(0, 0, ci)])
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spaces_wid[ci] = pi.wave_create()
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wave[i] = spaces_wid[ci]
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else: # Mark
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if ci not in marks_wid:
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wf = carrier(GPIO, FREQ, ci)
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pi.wave_add_generic(wf)
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marks_wid[ci] = pi.wave_create()
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wave[i] = marks_wid[ci]
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delay = emit_time - time.time()
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if delay > 0.0:
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time.sleep(delay)
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pi.wave_chain(wave)
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if VERBOSE:
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print("key " + arg, flush=True)
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while pi.wave_tx_busy():
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time.sleep(0.002)
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emit_time = time.time() + GAP_S
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for i in marks_wid:
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pi.wave_delete(marks_wid[i])
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marks_wid = {}
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for i in spaces_wid:
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pi.wave_delete(spaces_wid[i])
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spaces_wid = {}
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print("Id: {}".format(arg), flush=True)
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else:
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print("Id {} not found".format(arg), flush=True)
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pi.stop() # Disconnect from Pi.
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