1 /*---------------------------------------------------------------------------------------------------------------------------------------------------
2 * irmp.c - infrared multi-protocol decoder, supports several remote control protocols
4 * Copyright (c) 2009-2014 Frank Meyer - frank(at)fli4l.de
6 * $Id: irmp.c,v 1.165 2014/09/18 09:18:45 fm Exp $
8 * Supported AVR mikrocontrollers:
13 * ATmega8, ATmega16, ATmega32
15 * ATmega164, ATmega324, ATmega644, ATmega644P, ATmega1284, ATmega1284P
16 * ATmega88, ATmega88P, ATmega168, ATmega168P, ATmega328P
18 * This program is free software; you can redistribute it and/or modify
19 * it under the terms of the GNU General Public License as published by
20 * the Free Software Foundation; either version 2 of the License, or
21 * (at your option) any later version.
22 *---------------------------------------------------------------------------------------------------------------------------------------------------
27 #if IRMP_SUPPORT_GRUNDIG_PROTOCOL == 1 || IRMP_SUPPORT_NOKIA_PROTOCOL == 1 || IRMP_SUPPORT_IR60_PROTOCOL == 1
28 # define IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL 1
30 # define IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL 0
33 #if IRMP_SUPPORT_SIEMENS_PROTOCOL == 1 || IRMP_SUPPORT_RUWIDO_PROTOCOL == 1
34 # define IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL 1
36 # define IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL 0
39 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 || \
40 IRMP_SUPPORT_RC6_PROTOCOL == 1 || \
41 IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1 || \
42 IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1 || \
43 IRMP_SUPPORT_IR60_PROTOCOL == 1 || \
44 IRMP_SUPPORT_A1TVBOX_PROTOCOL == 1 || \
45 IRMP_SUPPORT_ORTEK_PROTOCOL == 1
46 # define IRMP_SUPPORT_MANCHESTER 1
48 # define IRMP_SUPPORT_MANCHESTER 0
51 #if IRMP_SUPPORT_NETBOX_PROTOCOL == 1
52 # define IRMP_SUPPORT_SERIAL 1
54 # define IRMP_SUPPORT_SERIAL 0
57 #define IRMP_KEY_REPETITION_LEN (uint16_t)(F_INTERRUPTS * 150.0e-3 + 0.5) // autodetect key repetition within 150 msec
59 #define MIN_TOLERANCE_00 1.0 // -0%
60 #define MAX_TOLERANCE_00 1.0 // +0%
62 #define MIN_TOLERANCE_05 0.95 // -5%
63 #define MAX_TOLERANCE_05 1.05 // +5%
65 #define MIN_TOLERANCE_10 0.9 // -10%
66 #define MAX_TOLERANCE_10 1.1 // +10%
68 #define MIN_TOLERANCE_15 0.85 // -15%
69 #define MAX_TOLERANCE_15 1.15 // +15%
71 #define MIN_TOLERANCE_20 0.8 // -20%
72 #define MAX_TOLERANCE_20 1.2 // +20%
74 #define MIN_TOLERANCE_30 0.7 // -30%
75 #define MAX_TOLERANCE_30 1.3 // +30%
77 #define MIN_TOLERANCE_40 0.6 // -40%
78 #define MAX_TOLERANCE_40 1.4 // +40%
80 #define MIN_TOLERANCE_50 0.5 // -50%
81 #define MAX_TOLERANCE_50 1.5 // +50%
83 #define MIN_TOLERANCE_60 0.4 // -60%
84 #define MAX_TOLERANCE_60 1.6 // +60%
86 #define MIN_TOLERANCE_70 0.3 // -70%
87 #define MAX_TOLERANCE_70 1.7 // +70%
89 #define SIRCS_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
90 #define SIRCS_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
91 #define SIRCS_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
92 #if IRMP_SUPPORT_NETBOX_PROTOCOL // only 5% to avoid conflict with NETBOX:
93 # define SIRCS_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5))
94 #else // only 5% + 1 to avoid conflict with RC6:
95 # define SIRCS_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
97 #define SIRCS_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIRCS_1_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
98 #define SIRCS_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_1_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
99 #define SIRCS_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIRCS_0_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
100 #define SIRCS_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_0_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
101 #define SIRCS_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIRCS_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
102 #define SIRCS_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIRCS_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
104 #define NEC_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_START_BIT_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
105 #define NEC_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_START_BIT_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
106 #define NEC_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_START_BIT_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
107 #define NEC_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_START_BIT_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
108 #define NEC_REPEAT_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_REPEAT_START_BIT_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
109 #define NEC_REPEAT_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_REPEAT_START_BIT_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
110 #define NEC_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
111 #define NEC_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
112 #define NEC_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
113 #define NEC_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
114 #define NEC_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NEC_0_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
115 #define NEC_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NEC_0_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
116 // autodetect nec repetition frame within 50 msec:
117 // NEC seems to send the first repetition frame after 40ms, further repetition frames after 100 ms
119 #define NEC_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * NEC_FRAME_REPEAT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5)
121 #define NEC_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * 100.0e-3 * MAX_TOLERANCE_20 + 0.5)
124 #define SAMSUNG_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
125 #define SAMSUNG_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
126 #define SAMSUNG_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
127 #define SAMSUNG_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
128 #define SAMSUNG_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SAMSUNG_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
129 #define SAMSUNG_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SAMSUNG_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
130 #define SAMSUNG_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SAMSUNG_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
131 #define SAMSUNG_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SAMSUNG_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
132 #define SAMSUNG_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SAMSUNG_0_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
133 #define SAMSUNG_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SAMSUNG_0_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
135 #define MATSUSHITA_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
136 #define MATSUSHITA_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
137 #define MATSUSHITA_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
138 #define MATSUSHITA_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
139 #define MATSUSHITA_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * MATSUSHITA_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
140 #define MATSUSHITA_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * MATSUSHITA_PULSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
141 #define MATSUSHITA_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * MATSUSHITA_1_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
142 #define MATSUSHITA_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * MATSUSHITA_1_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
143 #define MATSUSHITA_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * MATSUSHITA_0_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
144 #define MATSUSHITA_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * MATSUSHITA_0_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
146 #define KASEIKYO_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
147 #define KASEIKYO_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
148 #define KASEIKYO_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
149 #define KASEIKYO_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
150 #define KASEIKYO_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KASEIKYO_PULSE_TIME * MIN_TOLERANCE_50 + 0.5) - 1)
151 #define KASEIKYO_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KASEIKYO_PULSE_TIME * MAX_TOLERANCE_50 + 0.5) + 1)
152 #define KASEIKYO_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KASEIKYO_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
153 #define KASEIKYO_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KASEIKYO_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
154 #define KASEIKYO_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KASEIKYO_0_PAUSE_TIME * MIN_TOLERANCE_50 + 0.5) - 1)
155 #define KASEIKYO_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KASEIKYO_0_PAUSE_TIME * MAX_TOLERANCE_50 + 0.5) + 1)
157 #define RECS80_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
158 #define RECS80_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
159 #define RECS80_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
160 #define RECS80_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
161 #define RECS80_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
162 #define RECS80_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
163 #define RECS80_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
164 #define RECS80_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
165 #define RECS80_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
166 #define RECS80_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
169 #if IRMP_SUPPORT_BOSE_PROTOCOL == 1 // BOSE conflicts with RC5, so keep tolerance for RC5 minimal here:
170 #define RC5_START_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
171 #define RC5_START_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
173 #define RC5_START_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
174 #define RC5_START_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
177 #define RC5_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
178 #define RC5_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC5_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
180 #define DENON_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * DENON_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
181 #define DENON_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * DENON_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
182 #define DENON_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * DENON_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
183 #define DENON_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * DENON_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
184 // RUWIDO (see t-home-mediareceiver-15kHz.txt) conflicts here with DENON
185 #define DENON_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * DENON_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
186 #define DENON_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * DENON_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
187 #define DENON_AUTO_REPETITION_PAUSE_LEN ((uint16_t)(F_INTERRUPTS * DENON_AUTO_REPETITION_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
189 #define THOMSON_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * THOMSON_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
190 #define THOMSON_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * THOMSON_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
191 #define THOMSON_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * THOMSON_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
192 #define THOMSON_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * THOMSON_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
193 #define THOMSON_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * THOMSON_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
194 #define THOMSON_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * THOMSON_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
196 #define RC6_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC6_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
197 #define RC6_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC6_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
198 #define RC6_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC6_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
199 #define RC6_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC6_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
200 #define RC6_TOGGLE_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC6_TOGGLE_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
201 #define RC6_TOGGLE_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC6_TOGGLE_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
202 #define RC6_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC6_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
203 #define RC6_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC6_BIT_TIME * MAX_TOLERANCE_60 + 0.5) + 1) // pulses: 300 - 800
204 #define RC6_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RC6_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
205 #define RC6_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RC6_BIT_TIME * MAX_TOLERANCE_20 + 0.5) + 1) // pauses: 300 - 600
207 #define RECS80EXT_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
208 #define RECS80EXT_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
209 #define RECS80EXT_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
210 #define RECS80EXT_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
211 #define RECS80EXT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80EXT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
212 #define RECS80EXT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80EXT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
213 #define RECS80EXT_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80EXT_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
214 #define RECS80EXT_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80EXT_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
215 #define RECS80EXT_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RECS80EXT_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
216 #define RECS80EXT_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RECS80EXT_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
218 #define NUBERT_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
219 #define NUBERT_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
220 #define NUBERT_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
221 #define NUBERT_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
222 #define NUBERT_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_1_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
223 #define NUBERT_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_1_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
224 #define NUBERT_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
225 #define NUBERT_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
226 #define NUBERT_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_0_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
227 #define NUBERT_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_0_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
228 #define NUBERT_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NUBERT_0_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
229 #define NUBERT_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NUBERT_0_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
231 #define SPEAKER_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
232 #define SPEAKER_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
233 #define SPEAKER_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
234 #define SPEAKER_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
235 #define SPEAKER_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_1_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
236 #define SPEAKER_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_1_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
237 #define SPEAKER_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
238 #define SPEAKER_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
239 #define SPEAKER_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_0_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
240 #define SPEAKER_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_0_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
241 #define SPEAKER_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SPEAKER_0_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
242 #define SPEAKER_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SPEAKER_0_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
244 #define BANG_OLUFSEN_START_BIT1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
245 #define BANG_OLUFSEN_START_BIT1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
246 #define BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
247 #define BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
248 #define BANG_OLUFSEN_START_BIT2_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
249 #define BANG_OLUFSEN_START_BIT2_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
250 #define BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
251 #define BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
252 #define BANG_OLUFSEN_START_BIT3_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
253 #define BANG_OLUFSEN_START_BIT3_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
254 #define BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
255 #define BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MAX ((PAUSE_LEN)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1) // value must be below IRMP_TIMEOUT
256 #define BANG_OLUFSEN_START_BIT4_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT4_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
257 #define BANG_OLUFSEN_START_BIT4_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT4_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
258 #define BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT4_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
259 #define BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT4_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
260 #define BANG_OLUFSEN_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
261 #define BANG_OLUFSEN_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
262 #define BANG_OLUFSEN_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
263 #define BANG_OLUFSEN_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
264 #define BANG_OLUFSEN_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
265 #define BANG_OLUFSEN_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
266 #define BANG_OLUFSEN_R_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_R_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
267 #define BANG_OLUFSEN_R_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_R_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
268 #define BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_TRAILER_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
269 #define BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_TRAILER_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
271 #define IR60_TIMEOUT_LEN ((uint8_t)(F_INTERRUPTS * IR60_TIMEOUT_TIME * 0.5))
272 #define GRUNDIG_NOKIA_IR60_START_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
273 #define GRUNDIG_NOKIA_IR60_START_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
274 #define GRUNDIG_NOKIA_IR60_BIT_LEN_MIN ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
275 #define GRUNDIG_NOKIA_IR60_BIT_LEN_MAX ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
276 #define GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_PRE_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) + 1)
277 #define GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_PRE_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
279 #define SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
280 #define SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
281 #define SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
282 #define SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
283 #define SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
284 #define SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
285 #define SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
286 #define SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
288 #define FDC_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * FDC_START_BIT_PULSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1) // 5%: avoid conflict with NETBOX
289 #define FDC_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * FDC_START_BIT_PULSE_TIME * MAX_TOLERANCE_05 + 0.5))
290 #define FDC_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * FDC_START_BIT_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
291 #define FDC_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * FDC_START_BIT_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5))
292 #define FDC_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * FDC_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
293 #define FDC_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * FDC_PULSE_TIME * MAX_TOLERANCE_50 + 0.5) + 1)
294 #define FDC_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * FDC_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
295 #define FDC_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * FDC_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
297 #define FDC_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * FDC_0_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1) // could be negative: 255
299 #define FDC_0_PAUSE_LEN_MIN (1) // simply use 1
301 #define FDC_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * FDC_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
303 #define RCCAR_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
304 #define RCCAR_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
305 #define RCCAR_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
306 #define RCCAR_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
307 #define RCCAR_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCCAR_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
308 #define RCCAR_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCCAR_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
309 #define RCCAR_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCCAR_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
310 #define RCCAR_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCCAR_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
311 #define RCCAR_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCCAR_0_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
312 #define RCCAR_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCCAR_0_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
314 #define JVC_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * JVC_START_BIT_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
315 #define JVC_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * JVC_START_BIT_PULSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
316 #define JVC_REPEAT_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * (JVC_FRAME_REPEAT_PAUSE_TIME - IRMP_TIMEOUT_TIME) * MIN_TOLERANCE_40 + 0.5) - 1) // HACK!
317 #define JVC_REPEAT_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * (JVC_FRAME_REPEAT_PAUSE_TIME - IRMP_TIMEOUT_TIME) * MAX_TOLERANCE_70 + 0.5) - 1) // HACK!
318 #define JVC_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * JVC_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
319 #define JVC_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * JVC_PULSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
320 #define JVC_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * JVC_1_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
321 #define JVC_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * JVC_1_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
322 #define JVC_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * JVC_0_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
323 #define JVC_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * JVC_0_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
324 // autodetect JVC repetition frame within 50 msec:
325 #define JVC_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * JVC_FRAME_REPEAT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5)
327 #define NIKON_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NIKON_START_BIT_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
328 #define NIKON_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NIKON_START_BIT_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
329 #define NIKON_START_BIT_PAUSE_LEN_MIN ((uint16_t)(F_INTERRUPTS * NIKON_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
330 #define NIKON_START_BIT_PAUSE_LEN_MAX ((uint16_t)(F_INTERRUPTS * NIKON_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
331 #define NIKON_REPEAT_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NIKON_REPEAT_START_BIT_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
332 #define NIKON_REPEAT_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NIKON_REPEAT_START_BIT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
333 #define NIKON_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NIKON_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
334 #define NIKON_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NIKON_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
335 #define NIKON_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NIKON_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
336 #define NIKON_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NIKON_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
337 #define NIKON_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NIKON_0_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
338 #define NIKON_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NIKON_0_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
339 #define NIKON_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * NIKON_FRAME_REPEAT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5)
341 #define KATHREIN_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
342 #define KATHREIN_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
343 #define KATHREIN_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
344 #define KATHREIN_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
345 #define KATHREIN_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_1_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
346 #define KATHREIN_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_1_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
347 #define KATHREIN_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_1_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
348 #define KATHREIN_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_1_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
349 #define KATHREIN_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_0_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
350 #define KATHREIN_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_0_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
351 #define KATHREIN_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_0_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
352 #define KATHREIN_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_0_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
353 #define KATHREIN_SYNC_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * KATHREIN_SYNC_BIT_PAUSE_LEN_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
354 #define KATHREIN_SYNC_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * KATHREIN_SYNC_BIT_PAUSE_LEN_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
356 #define NETBOX_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NETBOX_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
357 #define NETBOX_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NETBOX_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
358 #define NETBOX_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * NETBOX_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
359 #define NETBOX_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * NETBOX_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
360 #define NETBOX_PULSE_LEN ((uint8_t)(F_INTERRUPTS * NETBOX_PULSE_TIME))
361 #define NETBOX_PAUSE_LEN ((uint8_t)(F_INTERRUPTS * NETBOX_PAUSE_TIME))
362 #define NETBOX_PULSE_REST_LEN ((uint8_t)(F_INTERRUPTS * NETBOX_PULSE_TIME / 4))
363 #define NETBOX_PAUSE_REST_LEN ((uint8_t)(F_INTERRUPTS * NETBOX_PAUSE_TIME / 4))
365 #define LEGO_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
366 #define LEGO_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PULSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
367 #define LEGO_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
368 #define LEGO_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
369 #define LEGO_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * LEGO_PULSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
370 #define LEGO_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * LEGO_PULSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
371 #define LEGO_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * LEGO_1_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
372 #define LEGO_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * LEGO_1_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
373 #define LEGO_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * LEGO_0_PAUSE_TIME * MIN_TOLERANCE_40 + 0.5) - 1)
374 #define LEGO_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * LEGO_0_PAUSE_TIME * MAX_TOLERANCE_40 + 0.5) + 1)
376 #define BOSE_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BOSE_START_BIT_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
377 #define BOSE_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BOSE_START_BIT_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
378 #define BOSE_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BOSE_START_BIT_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
379 #define BOSE_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BOSE_START_BIT_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
380 #define BOSE_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BOSE_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
381 #define BOSE_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BOSE_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
382 #define BOSE_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BOSE_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
383 #define BOSE_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BOSE_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
384 #define BOSE_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * BOSE_0_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
385 #define BOSE_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * BOSE_0_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
386 #define BOSE_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * 100.0e-3 * MAX_TOLERANCE_20 + 0.5)
388 #define A1TVBOX_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
389 #define A1TVBOX_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
390 #define A1TVBOX_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
391 #define A1TVBOX_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
392 #define A1TVBOX_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
393 #define A1TVBOX_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
394 #define A1TVBOX_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
395 #define A1TVBOX_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
397 #define ORTEK_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ORTEK_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
398 #define ORTEK_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ORTEK_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
399 #define ORTEK_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ORTEK_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
400 #define ORTEK_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ORTEK_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
401 #define ORTEK_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ORTEK_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
402 #define ORTEK_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ORTEK_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
403 #define ORTEK_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ORTEK_BIT_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
404 #define ORTEK_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ORTEK_BIT_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
406 #define TELEFUNKEN_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
407 #define TELEFUNKEN_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
408 #define TELEFUNKEN_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * (TELEFUNKEN_START_BIT_PAUSE_TIME) * MIN_TOLERANCE_10 + 0.5) - 1)
409 #define TELEFUNKEN_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * (TELEFUNKEN_START_BIT_PAUSE_TIME) * MAX_TOLERANCE_10 + 0.5) - 1)
410 #define TELEFUNKEN_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_PULSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
411 #define TELEFUNKEN_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_PULSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
412 #define TELEFUNKEN_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_1_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
413 #define TELEFUNKEN_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_1_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
414 #define TELEFUNKEN_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_0_PAUSE_TIME * MIN_TOLERANCE_30 + 0.5) - 1)
415 #define TELEFUNKEN_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * TELEFUNKEN_0_PAUSE_TIME * MAX_TOLERANCE_30 + 0.5) + 1)
416 // autodetect TELEFUNKEN repetition frame within 50 msec:
417 // #define TELEFUNKEN_FRAME_REPEAT_PAUSE_LEN_MAX (uint16_t)(F_INTERRUPTS * TELEFUNKEN_FRAME_REPEAT_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5)
419 #define ROOMBA_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
420 #define ROOMBA_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
421 #define ROOMBA_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
422 #define ROOMBA_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
423 #define ROOMBA_1_PAUSE_LEN_EXACT ((uint8_t)(F_INTERRUPTS * ROOMBA_1_PAUSE_TIME + 0.5))
424 #define ROOMBA_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_1_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
425 #define ROOMBA_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_1_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
426 #define ROOMBA_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
427 #define ROOMBA_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
428 #define ROOMBA_0_PAUSE_LEN ((uint8_t)(F_INTERRUPTS * ROOMBA_0_PAUSE_TIME))
429 #define ROOMBA_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_0_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
430 #define ROOMBA_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_0_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
431 #define ROOMBA_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * ROOMBA_0_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
432 #define ROOMBA_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * ROOMBA_0_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
434 #define RCMM32_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_START_BIT_PULSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
435 #define RCMM32_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_START_BIT_PULSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
436 #define RCMM32_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_START_BIT_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
437 #define RCMM32_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_START_BIT_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
438 #define RCMM32_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_PULSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
439 #define RCMM32_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_PULSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
440 #define RCMM32_BIT_00_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_00_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
441 #define RCMM32_BIT_00_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_00_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
442 #define RCMM32_BIT_01_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_01_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
443 #define RCMM32_BIT_01_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_01_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
444 #define RCMM32_BIT_10_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_10_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
445 #define RCMM32_BIT_10_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_10_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
446 #define RCMM32_BIT_11_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RCMM32_11_PAUSE_TIME * MIN_TOLERANCE_05 + 0.5) - 1)
447 #define RCMM32_BIT_11_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RCMM32_11_PAUSE_TIME * MAX_TOLERANCE_05 + 0.5) + 1)
449 #define RADIO1_START_BIT_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_START_BIT_PULSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
450 #define RADIO1_START_BIT_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_START_BIT_PULSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
451 #define RADIO1_START_BIT_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_START_BIT_PAUSE_TIME * MIN_TOLERANCE_10 + 0.5) - 1)
452 #define RADIO1_START_BIT_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_START_BIT_PAUSE_TIME * MAX_TOLERANCE_10 + 0.5) + 1)
453 #define RADIO1_1_PAUSE_LEN_EXACT ((uint8_t)(F_INTERRUPTS * RADIO1_1_PAUSE_TIME + 0.5))
454 #define RADIO1_1_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_1_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
455 #define RADIO1_1_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_1_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
456 #define RADIO1_1_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_1_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
457 #define RADIO1_1_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_1_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
458 #define RADIO1_0_PAUSE_LEN ((uint8_t)(F_INTERRUPTS * RADIO1_0_PAUSE_TIME))
459 #define RADIO1_0_PULSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_0_PULSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
460 #define RADIO1_0_PULSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_0_PULSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
461 #define RADIO1_0_PAUSE_LEN_MIN ((uint8_t)(F_INTERRUPTS * RADIO1_0_PAUSE_TIME * MIN_TOLERANCE_20 + 0.5) - 1)
462 #define RADIO1_0_PAUSE_LEN_MAX ((uint8_t)(F_INTERRUPTS * RADIO1_0_PAUSE_TIME * MAX_TOLERANCE_20 + 0.5) + 1)
464 #define AUTO_FRAME_REPETITION_LEN (uint16_t)(F_INTERRUPTS * AUTO_FRAME_REPETITION_TIME + 0.5) // use uint16_t!
467 # define ANALYZE_PUTCHAR(a) { if (! silent) { putchar (a); } }
468 # define ANALYZE_ONLY_NORMAL_PUTCHAR(a) { if (! silent && !verbose) { putchar (a); } }
469 # define ANALYZE_PRINTF(...) { if (verbose) { printf (__VA_ARGS__); } }
470 # define ANALYZE_ONLY_NORMAL_PRINTF(...) { if (! silent && !verbose) { printf (__VA_ARGS__); } }
471 # define ANALYZE_NEWLINE() { if (verbose) { putchar ('\n'); } }
473 static int time_counter
;
476 /******************************* not every PIC compiler knows variadic macros :-(
478 # define ANALYZE_PUTCHAR(a)
479 # define ANALYZE_ONLY_NORMAL_PUTCHAR(a)
480 # define ANALYZE_PRINTF(...)
481 # define ANALYZE_ONLY_NORMAL_PRINTF(...)
483 # define ANALYZE_NEWLINE()
484 *********************************/
487 #if IRMP_USE_CALLBACK == 1
488 static void (*irmp_callback_ptr
) (uint8_t);
489 #endif // IRMP_USE_CALLBACK == 1
491 #define PARITY_CHECK_OK 1
492 #define PARITY_CHECK_FAILED 0
494 /*---------------------------------------------------------------------------------------------------------------------------------------------------
496 *---------------------------------------------------------------------------------------------------------------------------------------------------
498 #if defined(UNIX_OR_WINDOWS) || IRMP_PROTOCOL_NAMES == 1
499 static const char proto_unknown
[] PROGMEM
= "UNKNOWN";
500 static const char proto_sircs
[] PROGMEM
= "SIRCS";
501 static const char proto_nec
[] PROGMEM
= "NEC";
502 static const char proto_samsung
[] PROGMEM
= "SAMSUNG";
503 static const char proto_matsushita
[] PROGMEM
= "MATSUSH";
504 static const char proto_kaseikyo
[] PROGMEM
= "KASEIKYO";
505 static const char proto_recs80
[] PROGMEM
= "RECS80";
506 static const char proto_rc5
[] PROGMEM
= "RC5";
507 static const char proto_denon
[] PROGMEM
= "DENON";
508 static const char proto_rc6
[] PROGMEM
= "RC6";
509 static const char proto_samsung32
[] PROGMEM
= "SAMSG32";
510 static const char proto_apple
[] PROGMEM
= "APPLE";
511 static const char proto_recs80ext
[] PROGMEM
= "RECS80EX";
512 static const char proto_nubert
[] PROGMEM
= "NUBERT";
513 static const char proto_bang_olufsen
[] PROGMEM
= "BANG OLU";
514 static const char proto_grundig
[] PROGMEM
= "GRUNDIG";
515 static const char proto_nokia
[] PROGMEM
= "NOKIA";
516 static const char proto_siemens
[] PROGMEM
= "SIEMENS";
517 static const char proto_fdc
[] PROGMEM
= "FDC";
518 static const char proto_rccar
[] PROGMEM
= "RCCAR";
519 static const char proto_jvc
[] PROGMEM
= "JVC";
520 static const char proto_rc6a
[] PROGMEM
= "RC6A";
521 static const char proto_nikon
[] PROGMEM
= "NIKON";
522 static const char proto_ruwido
[] PROGMEM
= "RUWIDO";
523 static const char proto_ir60
[] PROGMEM
= "IR60";
524 static const char proto_kathrein
[] PROGMEM
= "KATHREIN";
525 static const char proto_netbox
[] PROGMEM
= "NETBOX";
526 static const char proto_nec16
[] PROGMEM
= "NEC16";
527 static const char proto_nec42
[] PROGMEM
= "NEC42";
528 static const char proto_lego
[] PROGMEM
= "LEGO";
529 static const char proto_thomson
[] PROGMEM
= "THOMSON";
530 static const char proto_bose
[] PROGMEM
= "BOSE";
531 static const char proto_a1tvbox
[] PROGMEM
= "A1TVBOX";
532 static const char proto_ortek
[] PROGMEM
= "ORTEK";
533 static const char proto_telefunken
[] PROGMEM
= "TELEFUNKEN";
534 static const char proto_roomba
[] PROGMEM
= "ROOMBA";
535 static const char proto_rcmm32
[] PROGMEM
= "RCMM32";
536 static const char proto_rcmm24
[] PROGMEM
= "RCMM24";
537 static const char proto_rcmm12
[] PROGMEM
= "RCMM12";
538 static const char proto_speaker
[] PROGMEM
= "SPEAKER";
539 static const char proto_lgair
[] PROGMEM
= "LGAIR";
540 static const char proto_samsung48
[] PROGMEM
= "SAMSG48";
542 static const char proto_radio1
[] PROGMEM
= "RADIO1";
545 irmp_protocol_names
[IRMP_N_PROTOCOLS
+ 1] PROGMEM
=
595 /*---------------------------------------------------------------------------------------------------------------------------------------------------
597 *---------------------------------------------------------------------------------------------------------------------------------------------------
599 #if IRMP_LOGGING == 1 // logging via UART
601 #if defined(ARM_STM32F4XX)
602 # define STM32_GPIO_CLOCK RCC_AHB1Periph_GPIOA // UART2 on PA2
603 # define STM32_UART_CLOCK RCC_APB1Periph_USART2
604 # define STM32_GPIO_PORT GPIOA
605 # define STM32_GPIO_PIN GPIO_Pin_2
606 # define STM32_GPIO_SOURCE GPIO_PinSource2
607 # define STM32_UART_AF GPIO_AF_USART2
608 # define STM32_UART_COM USART2
609 # define STM32_UART_BAUD 115200 // 115200 Baud
610 # include "stm32f4xx_usart.h"
611 #elif defined(ARM_STM32F10X)
612 # define STM32_UART_COM USART3 // UART3 on PB10
613 # include "stm32f10x_usart.h"
615 # if IRMP_EXT_LOGGING == 1 // use external logging
616 # include "irmpextlog.h"
617 # else // normal UART log (IRMP_EXT_LOGGING == 0)
619 # ifndef UNIX_OR_WINDOWS
620 # include <util/setbaud.h>
625 #define UART0_UBRRH UBRR0H
626 #define UART0_UBRRL UBRR0L
627 #define UART0_UCSRA UCSR0A
628 #define UART0_UCSRB UCSR0B
629 #define UART0_UCSRC UCSR0C
630 #define UART0_UDRE_BIT_VALUE (1<<UDRE0)
631 #define UART0_UCSZ1_BIT_VALUE (1<<UCSZ01)
632 #define UART0_UCSZ0_BIT_VALUE (1<<UCSZ00)
634 #define UART0_URSEL_BIT_VALUE (1<<URSEL0)
636 #define UART0_URSEL_BIT_VALUE (0)
638 #define UART0_TXEN_BIT_VALUE (1<<TXEN0)
639 #define UART0_UDR UDR0
640 #define UART0_U2X U2X0
644 #define UART0_UBRRH UBRRH
645 #define UART0_UBRRL UBRRL
646 #define UART0_UCSRA UCSRA
647 #define UART0_UCSRB UCSRB
648 #define UART0_UCSRC UCSRC
649 #define UART0_UDRE_BIT_VALUE (1<<UDRE)
650 #define UART0_UCSZ1_BIT_VALUE (1<<UCSZ1)
651 #define UART0_UCSZ0_BIT_VALUE (1<<UCSZ0)
653 #define UART0_URSEL_BIT_VALUE (1<<URSEL)
655 #define UART0_URSEL_BIT_VALUE (0)
657 #define UART0_TXEN_BIT_VALUE (1<<TXEN)
658 #define UART0_UDR UDR
659 #define UART0_U2X U2X
662 #endif //IRMP_EXT_LOGGING
663 #endif //ARM_STM32F4XX
665 /*---------------------------------------------------------------------------------------------------------------------------------------------------
667 * @details Initializes UART
668 *---------------------------------------------------------------------------------------------------------------------------------------------------
671 irmp_uart_init (void)
673 #ifndef UNIX_OR_WINDOWS
674 #if defined(ARM_STM32F4XX)
675 GPIO_InitTypeDef GPIO_InitStructure
;
676 USART_InitTypeDef USART_InitStructure
;
678 // Clock enable vom TX Pin
679 RCC_AHB1PeriphClockCmd(STM32_GPIO_CLOCK
, ENABLE
);
681 // Clock enable der UART
682 RCC_APB1PeriphClockCmd(STM32_UART_CLOCK
, ENABLE
);
684 // UART Alternative-Funktion mit dem IO-Pin verbinden
685 GPIO_PinAFConfig(STM32_GPIO_PORT
,STM32_GPIO_SOURCE
,STM32_UART_AF
);
687 // UART als Alternative-Funktion mit PushPull
688 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_AF
;
689 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_100MHz
;
690 GPIO_InitStructure
.GPIO_OType
= GPIO_OType_PP
;
691 GPIO_InitStructure
.GPIO_PuPd
= GPIO_PuPd_UP
;
694 GPIO_InitStructure
.GPIO_Pin
= STM32_GPIO_PIN
;
695 GPIO_Init(STM32_GPIO_PORT
, &GPIO_InitStructure
);
698 USART_OverSampling8Cmd(STM32_UART_COM
, ENABLE
);
700 // init mit Baudrate, 8Databits, 1Stopbit, keine Parität, kein RTS+CTS
701 USART_InitStructure
.USART_BaudRate
= STM32_UART_BAUD
;
702 USART_InitStructure
.USART_WordLength
= USART_WordLength_8b
;
703 USART_InitStructure
.USART_StopBits
= USART_StopBits_1
;
704 USART_InitStructure
.USART_Parity
= USART_Parity_No
;
705 USART_InitStructure
.USART_HardwareFlowControl
= USART_HardwareFlowControl_None
;
706 USART_InitStructure
.USART_Mode
= USART_Mode_Tx
;
707 USART_Init(STM32_UART_COM
, &USART_InitStructure
);
710 USART_Cmd(STM32_UART_COM
, ENABLE
);
712 #elif defined(ARM_STM32F10X)
713 GPIO_InitTypeDef GPIO_InitStructure
;
714 USART_InitTypeDef USART_InitStructure
;
716 // Clock enable vom TX Pin
717 RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB
, ENABLE
); // UART3 an PB10
719 // Clock enable der UART
720 RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART3
, ENABLE
);
722 // UART als Alternative-Funktion mit PushPull
723 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_AF_PP
;
724 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_50MHz
;
727 GPIO_InitStructure
.GPIO_Pin
= GPIO_Pin_10
;
728 GPIO_Init(GPIOB
, &GPIO_InitStructure
);
731 USART_OverSampling8Cmd(STM32_UART_COM
, ENABLE
);
733 // init mit Baudrate, 8Databits, 1Stopbit, keine Parität, kein RTS+CTS
734 USART_InitStructure
.USART_BaudRate
= 115200;
735 USART_InitStructure
.USART_WordLength
= USART_WordLength_8b
;
736 USART_InitStructure
.USART_StopBits
= USART_StopBits_1
;
737 USART_InitStructure
.USART_Parity
= USART_Parity_No
;
738 USART_InitStructure
.USART_HardwareFlowControl
= USART_HardwareFlowControl_None
;
739 USART_InitStructure
.USART_Mode
= USART_Mode_Tx
;
740 USART_Init(STM32_UART_COM
, &USART_InitStructure
);
743 USART_Cmd(STM32_UART_COM
, ENABLE
);
746 #if (IRMP_EXT_LOGGING == 0) // use UART
747 UART0_UBRRH
= UBRRH_VALUE
; // set baud rate
748 UART0_UBRRL
= UBRRL_VALUE
;
751 UART0_UCSRA
|= (1<<UART0_U2X
);
753 UART0_UCSRA
&= ~(1<<UART0_U2X
);
756 UART0_UCSRC
= UART0_UCSZ1_BIT_VALUE
| UART0_UCSZ0_BIT_VALUE
| UART0_URSEL_BIT_VALUE
;
757 UART0_UCSRB
|= UART0_TXEN_BIT_VALUE
; // enable UART TX
758 #else // other log method
760 #endif //IRMP_EXT_LOGGING
761 #endif //ARM_STM32F4XX
762 #endif // UNIX_OR_WINDOWS
765 /*---------------------------------------------------------------------------------------------------------------------------------------------------
767 * @details Sends character
768 * @param ch character to be transmitted
769 *---------------------------------------------------------------------------------------------------------------------------------------------------
772 irmp_uart_putc (unsigned char ch
)
774 #ifndef UNIX_OR_WINDOWS
775 #if defined(ARM_STM32F4XX) || defined(ARM_STM32F10X)
776 // warten bis altes Byte gesendet wurde
777 while (USART_GetFlagStatus(STM32_UART_COM
, USART_FLAG_TXE
) == RESET
)
782 USART_SendData(STM32_UART_COM
, ch
);
786 while (USART_GetFlagStatus(STM32_UART_COM
, USART_FLAG_TXE
) == RESET
);
787 USART_SendData(STM32_UART_COM
, '\r');
791 #if (IRMP_EXT_LOGGING == 0)
793 while (!(UART0_UCSRA
& UART0_UDRE_BIT_VALUE
))
802 sendextlog(ch
); // use external log
804 #endif //IRMP_EXT_LOGGING
805 #endif //ARM_STM32F4XX
808 #endif // UNIX_OR_WINDOWS
811 /*---------------------------------------------------------------------------------------------------------------------------------------------------
813 *---------------------------------------------------------------------------------------------------------------------------------------------------
816 #define STARTCYCLES 2 // min count of zeros before start of logging
817 #define ENDBITS 1000 // number of sequenced highbits to detect end
818 #define DATALEN 700 // log buffer size
821 irmp_log (uint8_t val
)
823 static uint8_t buf
[DATALEN
]; // logging buffer
824 static uint16_t buf_idx
; // index
825 static uint8_t startcycles
; // current number of start-zeros
826 static uint16_t cnt
; // counts sequenced highbits - to detect end
827 static uint8_t last_val
= 1;
829 if (! val
&& (startcycles
< STARTCYCLES
) && !buf_idx
) // prevent that single random zeros init logging
837 if (! val
|| buf_idx
!= 0) // start or continue logging on "0", "1" cannot init logging
843 if (val
&& cnt
> ENDBITS
) // if high received then look at log-stop condition
844 { // if stop condition is true, output on uart
851 for (i8
= 0; i8
< STARTCYCLES
; i8
++)
853 irmp_uart_putc ('0'); // the ignored starting zeros
856 for (i
= 0; i
< buf_idx
; i
++)
865 d
|= ((uint16_t) buf
[i
] << 8);
868 for (j
= 0; j
< d
; j
++)
873 v
= (v
== '1') ? '0' : '1';
876 for (i8
= 0; i8
< 20; i8
++)
878 irmp_uart_putc ('1');
881 irmp_uart_putc ('\n');
887 else if (buf_idx
< DATALEN
- 3)
891 buf
[buf_idx
++] = 0xff;
892 buf
[buf_idx
++] = (cnt
& 0xff);
893 buf
[buf_idx
] = (cnt
>> 8);
909 #define irmp_log(val)
910 #endif //IRMP_LOGGING
914 uint8_t protocol
; // ir protocol
915 uint8_t pulse_1_len_min
; // minimum length of pulse with bit value 1
916 uint8_t pulse_1_len_max
; // maximum length of pulse with bit value 1
917 uint8_t pause_1_len_min
; // minimum length of pause with bit value 1
918 uint8_t pause_1_len_max
; // maximum length of pause with bit value 1
919 uint8_t pulse_0_len_min
; // minimum length of pulse with bit value 0
920 uint8_t pulse_0_len_max
; // maximum length of pulse with bit value 0
921 uint8_t pause_0_len_min
; // minimum length of pause with bit value 0
922 uint8_t pause_0_len_max
; // maximum length of pause with bit value 0
923 uint8_t address_offset
; // address offset
924 uint8_t address_end
; // end of address
925 uint8_t command_offset
; // command offset
926 uint8_t command_end
; // end of command
927 uint8_t complete_len
; // complete length of frame
928 uint8_t stop_bit
; // flag: frame has stop bit
929 uint8_t lsb_first
; // flag: LSB first
930 uint8_t flags
; // some flags
933 #if IRMP_SUPPORT_SIRCS_PROTOCOL == 1
935 static const PROGMEM IRMP_PARAMETER sircs_param
=
937 IRMP_SIRCS_PROTOCOL
, // protocol: ir protocol
938 SIRCS_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
939 SIRCS_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
940 SIRCS_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
941 SIRCS_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
942 SIRCS_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
943 SIRCS_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
944 SIRCS_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
945 SIRCS_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
946 SIRCS_ADDRESS_OFFSET
, // address_offset: address offset
947 SIRCS_ADDRESS_OFFSET
+ SIRCS_ADDRESS_LEN
, // address_end: end of address
948 SIRCS_COMMAND_OFFSET
, // command_offset: command offset
949 SIRCS_COMMAND_OFFSET
+ SIRCS_COMMAND_LEN
, // command_end: end of command
950 SIRCS_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
951 SIRCS_STOP_BIT
, // stop_bit: flag: frame has stop bit
952 SIRCS_LSB
, // lsb_first: flag: LSB first
953 SIRCS_FLAGS
// flags: some flags
958 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
960 static const PROGMEM IRMP_PARAMETER nec_param
=
962 IRMP_NEC_PROTOCOL
, // protocol: ir protocol
963 NEC_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
964 NEC_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
965 NEC_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
966 NEC_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
967 NEC_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
968 NEC_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
969 NEC_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
970 NEC_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
971 NEC_ADDRESS_OFFSET
, // address_offset: address offset
972 NEC_ADDRESS_OFFSET
+ NEC_ADDRESS_LEN
, // address_end: end of address
973 NEC_COMMAND_OFFSET
, // command_offset: command offset
974 NEC_COMMAND_OFFSET
+ NEC_COMMAND_LEN
, // command_end: end of command
975 NEC_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
976 NEC_STOP_BIT
, // stop_bit: flag: frame has stop bit
977 NEC_LSB
, // lsb_first: flag: LSB first
978 NEC_FLAGS
// flags: some flags
981 static const PROGMEM IRMP_PARAMETER nec_rep_param
=
983 IRMP_NEC_PROTOCOL
, // protocol: ir protocol
984 NEC_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
985 NEC_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
986 NEC_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
987 NEC_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
988 NEC_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
989 NEC_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
990 NEC_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
991 NEC_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
992 0, // address_offset: address offset
993 0, // address_end: end of address
994 0, // command_offset: command offset
995 0, // command_end: end of command
996 0, // complete_len: complete length of frame
997 NEC_STOP_BIT
, // stop_bit: flag: frame has stop bit
998 NEC_LSB
, // lsb_first: flag: LSB first
999 NEC_FLAGS
// flags: some flags
1004 #if IRMP_SUPPORT_NEC42_PROTOCOL == 1
1006 static const PROGMEM IRMP_PARAMETER nec42_param
=
1008 IRMP_NEC42_PROTOCOL
, // protocol: ir protocol
1009 NEC_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1010 NEC_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1011 NEC_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1012 NEC_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1013 NEC_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1014 NEC_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1015 NEC_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1016 NEC_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1017 NEC42_ADDRESS_OFFSET
, // address_offset: address offset
1018 NEC42_ADDRESS_OFFSET
+ NEC42_ADDRESS_LEN
, // address_end: end of address
1019 NEC42_COMMAND_OFFSET
, // command_offset: command offset
1020 NEC42_COMMAND_OFFSET
+ NEC42_COMMAND_LEN
, // command_end: end of command
1021 NEC42_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1022 NEC_STOP_BIT
, // stop_bit: flag: frame has stop bit
1023 NEC_LSB
, // lsb_first: flag: LSB first
1024 NEC_FLAGS
// flags: some flags
1029 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
1031 static const PROGMEM IRMP_PARAMETER lgair_param
=
1033 IRMP_LGAIR_PROTOCOL
, // protocol: ir protocol
1034 NEC_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1035 NEC_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1036 NEC_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1037 NEC_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1038 NEC_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1039 NEC_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1040 NEC_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1041 NEC_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1042 LGAIR_ADDRESS_OFFSET
, // address_offset: address offset
1043 LGAIR_ADDRESS_OFFSET
+ LGAIR_ADDRESS_LEN
, // address_end: end of address
1044 LGAIR_COMMAND_OFFSET
, // command_offset: command offset
1045 LGAIR_COMMAND_OFFSET
+ LGAIR_COMMAND_LEN
, // command_end: end of command
1046 LGAIR_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1047 NEC_STOP_BIT
, // stop_bit: flag: frame has stop bit
1048 NEC_LSB
, // lsb_first: flag: LSB first
1049 NEC_FLAGS
// flags: some flags
1054 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
1056 static const PROGMEM IRMP_PARAMETER samsung_param
=
1058 IRMP_SAMSUNG_PROTOCOL
, // protocol: ir protocol
1059 SAMSUNG_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1060 SAMSUNG_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1061 SAMSUNG_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1062 SAMSUNG_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1063 SAMSUNG_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1064 SAMSUNG_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1065 SAMSUNG_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1066 SAMSUNG_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1067 SAMSUNG_ADDRESS_OFFSET
, // address_offset: address offset
1068 SAMSUNG_ADDRESS_OFFSET
+ SAMSUNG_ADDRESS_LEN
, // address_end: end of address
1069 SAMSUNG_COMMAND_OFFSET
, // command_offset: command offset
1070 SAMSUNG_COMMAND_OFFSET
+ SAMSUNG_COMMAND_LEN
, // command_end: end of command
1071 SAMSUNG_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1072 SAMSUNG_STOP_BIT
, // stop_bit: flag: frame has stop bit
1073 SAMSUNG_LSB
, // lsb_first: flag: LSB first
1074 SAMSUNG_FLAGS
// flags: some flags
1079 #if IRMP_SUPPORT_TELEFUNKEN_PROTOCOL == 1
1081 static const PROGMEM IRMP_PARAMETER telefunken_param
=
1083 IRMP_TELEFUNKEN_PROTOCOL
, // protocol: ir protocol
1084 TELEFUNKEN_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1085 TELEFUNKEN_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1086 TELEFUNKEN_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1087 TELEFUNKEN_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1088 TELEFUNKEN_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1089 TELEFUNKEN_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1090 TELEFUNKEN_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1091 TELEFUNKEN_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1092 TELEFUNKEN_ADDRESS_OFFSET
, // address_offset: address offset
1093 TELEFUNKEN_ADDRESS_OFFSET
+ TELEFUNKEN_ADDRESS_LEN
, // address_end: end of address
1094 TELEFUNKEN_COMMAND_OFFSET
, // command_offset: command offset
1095 TELEFUNKEN_COMMAND_OFFSET
+ TELEFUNKEN_COMMAND_LEN
, // command_end: end of command
1096 TELEFUNKEN_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1097 TELEFUNKEN_STOP_BIT
, // stop_bit: flag: frame has stop bit
1098 TELEFUNKEN_LSB
, // lsb_first: flag: LSB first
1099 TELEFUNKEN_FLAGS
// flags: some flags
1104 #if IRMP_SUPPORT_MATSUSHITA_PROTOCOL == 1
1106 static const PROGMEM IRMP_PARAMETER matsushita_param
=
1108 IRMP_MATSUSHITA_PROTOCOL
, // protocol: ir protocol
1109 MATSUSHITA_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1110 MATSUSHITA_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1111 MATSUSHITA_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1112 MATSUSHITA_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1113 MATSUSHITA_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1114 MATSUSHITA_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1115 MATSUSHITA_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1116 MATSUSHITA_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1117 MATSUSHITA_ADDRESS_OFFSET
, // address_offset: address offset
1118 MATSUSHITA_ADDRESS_OFFSET
+ MATSUSHITA_ADDRESS_LEN
, // address_end: end of address
1119 MATSUSHITA_COMMAND_OFFSET
, // command_offset: command offset
1120 MATSUSHITA_COMMAND_OFFSET
+ MATSUSHITA_COMMAND_LEN
, // command_end: end of command
1121 MATSUSHITA_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1122 MATSUSHITA_STOP_BIT
, // stop_bit: flag: frame has stop bit
1123 MATSUSHITA_LSB
, // lsb_first: flag: LSB first
1124 MATSUSHITA_FLAGS
// flags: some flags
1129 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
1131 static const PROGMEM IRMP_PARAMETER kaseikyo_param
=
1133 IRMP_KASEIKYO_PROTOCOL
, // protocol: ir protocol
1134 KASEIKYO_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1135 KASEIKYO_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1136 KASEIKYO_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1137 KASEIKYO_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1138 KASEIKYO_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1139 KASEIKYO_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1140 KASEIKYO_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1141 KASEIKYO_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1142 KASEIKYO_ADDRESS_OFFSET
, // address_offset: address offset
1143 KASEIKYO_ADDRESS_OFFSET
+ KASEIKYO_ADDRESS_LEN
, // address_end: end of address
1144 KASEIKYO_COMMAND_OFFSET
, // command_offset: command offset
1145 KASEIKYO_COMMAND_OFFSET
+ KASEIKYO_COMMAND_LEN
, // command_end: end of command
1146 KASEIKYO_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1147 KASEIKYO_STOP_BIT
, // stop_bit: flag: frame has stop bit
1148 KASEIKYO_LSB
, // lsb_first: flag: LSB first
1149 KASEIKYO_FLAGS
// flags: some flags
1154 #if IRMP_SUPPORT_RECS80_PROTOCOL == 1
1156 static const PROGMEM IRMP_PARAMETER recs80_param
=
1158 IRMP_RECS80_PROTOCOL
, // protocol: ir protocol
1159 RECS80_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1160 RECS80_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1161 RECS80_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1162 RECS80_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1163 RECS80_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1164 RECS80_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1165 RECS80_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1166 RECS80_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1167 RECS80_ADDRESS_OFFSET
, // address_offset: address offset
1168 RECS80_ADDRESS_OFFSET
+ RECS80_ADDRESS_LEN
, // address_end: end of address
1169 RECS80_COMMAND_OFFSET
, // command_offset: command offset
1170 RECS80_COMMAND_OFFSET
+ RECS80_COMMAND_LEN
, // command_end: end of command
1171 RECS80_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1172 RECS80_STOP_BIT
, // stop_bit: flag: frame has stop bit
1173 RECS80_LSB
, // lsb_first: flag: LSB first
1174 RECS80_FLAGS
// flags: some flags
1179 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
1181 static const PROGMEM IRMP_PARAMETER rc5_param
=
1183 IRMP_RC5_PROTOCOL
, // protocol: ir protocol
1184 RC5_BIT_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1185 RC5_BIT_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1186 RC5_BIT_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1187 RC5_BIT_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1188 0, // pulse_0_len_min: here: not used
1189 0, // pulse_0_len_max: here: not used
1190 0, // pause_0_len_min: here: not used
1191 0, // pause_0_len_max: here: not used
1192 RC5_ADDRESS_OFFSET
, // address_offset: address offset
1193 RC5_ADDRESS_OFFSET
+ RC5_ADDRESS_LEN
, // address_end: end of address
1194 RC5_COMMAND_OFFSET
, // command_offset: command offset
1195 RC5_COMMAND_OFFSET
+ RC5_COMMAND_LEN
, // command_end: end of command
1196 RC5_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1197 RC5_STOP_BIT
, // stop_bit: flag: frame has stop bit
1198 RC5_LSB
, // lsb_first: flag: LSB first
1199 RC5_FLAGS
// flags: some flags
1204 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
1206 static const PROGMEM IRMP_PARAMETER denon_param
=
1208 IRMP_DENON_PROTOCOL
, // protocol: ir protocol
1209 DENON_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1210 DENON_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1211 DENON_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1212 DENON_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1213 DENON_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1214 DENON_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1215 DENON_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1216 DENON_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1217 DENON_ADDRESS_OFFSET
, // address_offset: address offset
1218 DENON_ADDRESS_OFFSET
+ DENON_ADDRESS_LEN
, // address_end: end of address
1219 DENON_COMMAND_OFFSET
, // command_offset: command offset
1220 DENON_COMMAND_OFFSET
+ DENON_COMMAND_LEN
, // command_end: end of command
1221 DENON_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1222 DENON_STOP_BIT
, // stop_bit: flag: frame has stop bit
1223 DENON_LSB
, // lsb_first: flag: LSB first
1224 DENON_FLAGS
// flags: some flags
1229 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
1231 static const PROGMEM IRMP_PARAMETER rc6_param
=
1233 IRMP_RC6_PROTOCOL
, // protocol: ir protocol
1235 RC6_BIT_PULSE_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1236 RC6_BIT_PULSE_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1237 RC6_BIT_PAUSE_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1238 RC6_BIT_PAUSE_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1239 0, // pulse_0_len_min: here: not used
1240 0, // pulse_0_len_max: here: not used
1241 0, // pause_0_len_min: here: not used
1242 0, // pause_0_len_max: here: not used
1243 RC6_ADDRESS_OFFSET
, // address_offset: address offset
1244 RC6_ADDRESS_OFFSET
+ RC6_ADDRESS_LEN
, // address_end: end of address
1245 RC6_COMMAND_OFFSET
, // command_offset: command offset
1246 RC6_COMMAND_OFFSET
+ RC6_COMMAND_LEN
, // command_end: end of command
1247 RC6_COMPLETE_DATA_LEN_SHORT
, // complete_len: complete length of frame
1248 RC6_STOP_BIT
, // stop_bit: flag: frame has stop bit
1249 RC6_LSB
, // lsb_first: flag: LSB first
1250 RC6_FLAGS
// flags: some flags
1255 #if IRMP_SUPPORT_RECS80EXT_PROTOCOL == 1
1257 static const PROGMEM IRMP_PARAMETER recs80ext_param
=
1259 IRMP_RECS80EXT_PROTOCOL
, // protocol: ir protocol
1260 RECS80EXT_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1261 RECS80EXT_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1262 RECS80EXT_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1263 RECS80EXT_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1264 RECS80EXT_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1265 RECS80EXT_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1266 RECS80EXT_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1267 RECS80EXT_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1268 RECS80EXT_ADDRESS_OFFSET
, // address_offset: address offset
1269 RECS80EXT_ADDRESS_OFFSET
+ RECS80EXT_ADDRESS_LEN
, // address_end: end of address
1270 RECS80EXT_COMMAND_OFFSET
, // command_offset: command offset
1271 RECS80EXT_COMMAND_OFFSET
+ RECS80EXT_COMMAND_LEN
, // command_end: end of command
1272 RECS80EXT_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1273 RECS80EXT_STOP_BIT
, // stop_bit: flag: frame has stop bit
1274 RECS80EXT_LSB
, // lsb_first: flag: LSB first
1275 RECS80EXT_FLAGS
// flags: some flags
1280 #if IRMP_SUPPORT_NUBERT_PROTOCOL == 1
1282 static const PROGMEM IRMP_PARAMETER nubert_param
=
1284 IRMP_NUBERT_PROTOCOL
, // protocol: ir protocol
1285 NUBERT_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1286 NUBERT_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1287 NUBERT_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1288 NUBERT_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1289 NUBERT_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1290 NUBERT_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1291 NUBERT_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1292 NUBERT_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1293 NUBERT_ADDRESS_OFFSET
, // address_offset: address offset
1294 NUBERT_ADDRESS_OFFSET
+ NUBERT_ADDRESS_LEN
, // address_end: end of address
1295 NUBERT_COMMAND_OFFSET
, // command_offset: command offset
1296 NUBERT_COMMAND_OFFSET
+ NUBERT_COMMAND_LEN
, // command_end: end of command
1297 NUBERT_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1298 NUBERT_STOP_BIT
, // stop_bit: flag: frame has stop bit
1299 NUBERT_LSB
, // lsb_first: flag: LSB first
1300 NUBERT_FLAGS
// flags: some flags
1305 #if IRMP_SUPPORT_SPEAKER_PROTOCOL == 1
1307 static const PROGMEM IRMP_PARAMETER speaker_param
=
1309 IRMP_SPEAKER_PROTOCOL
, // protocol: ir protocol
1310 SPEAKER_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1311 SPEAKER_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1312 SPEAKER_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1313 SPEAKER_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1314 SPEAKER_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1315 SPEAKER_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1316 SPEAKER_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1317 SPEAKER_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1318 SPEAKER_ADDRESS_OFFSET
, // address_offset: address offset
1319 SPEAKER_ADDRESS_OFFSET
+ SPEAKER_ADDRESS_LEN
, // address_end: end of address
1320 SPEAKER_COMMAND_OFFSET
, // command_offset: command offset
1321 SPEAKER_COMMAND_OFFSET
+ SPEAKER_COMMAND_LEN
, // command_end: end of command
1322 SPEAKER_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1323 SPEAKER_STOP_BIT
, // stop_bit: flag: frame has stop bit
1324 SPEAKER_LSB
, // lsb_first: flag: LSB first
1325 SPEAKER_FLAGS
// flags: some flags
1330 #if IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
1332 static const PROGMEM IRMP_PARAMETER bang_olufsen_param
=
1334 IRMP_BANG_OLUFSEN_PROTOCOL
, // protocol: ir protocol
1335 BANG_OLUFSEN_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1336 BANG_OLUFSEN_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1337 BANG_OLUFSEN_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1338 BANG_OLUFSEN_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1339 BANG_OLUFSEN_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1340 BANG_OLUFSEN_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1341 BANG_OLUFSEN_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1342 BANG_OLUFSEN_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1343 BANG_OLUFSEN_ADDRESS_OFFSET
, // address_offset: address offset
1344 BANG_OLUFSEN_ADDRESS_OFFSET
+ BANG_OLUFSEN_ADDRESS_LEN
, // address_end: end of address
1345 BANG_OLUFSEN_COMMAND_OFFSET
, // command_offset: command offset
1346 BANG_OLUFSEN_COMMAND_OFFSET
+ BANG_OLUFSEN_COMMAND_LEN
, // command_end: end of command
1347 BANG_OLUFSEN_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1348 BANG_OLUFSEN_STOP_BIT
, // stop_bit: flag: frame has stop bit
1349 BANG_OLUFSEN_LSB
, // lsb_first: flag: LSB first
1350 BANG_OLUFSEN_FLAGS
// flags: some flags
1355 #if IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1
1357 static uint8_t first_bit
;
1359 static const PROGMEM IRMP_PARAMETER grundig_param
=
1361 IRMP_GRUNDIG_PROTOCOL
, // protocol: ir protocol
1363 GRUNDIG_NOKIA_IR60_BIT_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1364 GRUNDIG_NOKIA_IR60_BIT_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1365 GRUNDIG_NOKIA_IR60_BIT_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1366 GRUNDIG_NOKIA_IR60_BIT_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1367 0, // pulse_0_len_min: here: not used
1368 0, // pulse_0_len_max: here: not used
1369 0, // pause_0_len_min: here: not used
1370 0, // pause_0_len_max: here: not used
1371 GRUNDIG_ADDRESS_OFFSET
, // address_offset: address offset
1372 GRUNDIG_ADDRESS_OFFSET
+ GRUNDIG_ADDRESS_LEN
, // address_end: end of address
1373 GRUNDIG_COMMAND_OFFSET
, // command_offset: command offset
1374 GRUNDIG_COMMAND_OFFSET
+ GRUNDIG_COMMAND_LEN
+ 1, // command_end: end of command (USE 1 bit MORE to STORE NOKIA DATA!)
1375 NOKIA_COMPLETE_DATA_LEN
, // complete_len: complete length of frame, here: NOKIA instead of GRUNDIG!
1376 GRUNDIG_NOKIA_IR60_STOP_BIT
, // stop_bit: flag: frame has stop bit
1377 GRUNDIG_NOKIA_IR60_LSB
, // lsb_first: flag: LSB first
1378 GRUNDIG_NOKIA_IR60_FLAGS
// flags: some flags
1383 #if IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1
1385 static const PROGMEM IRMP_PARAMETER ruwido_param
=
1387 IRMP_RUWIDO_PROTOCOL
, // protocol: ir protocol
1388 SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1389 SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1390 SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1391 SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1392 0, // pulse_0_len_min: here: not used
1393 0, // pulse_0_len_max: here: not used
1394 0, // pause_0_len_min: here: not used
1395 0, // pause_0_len_max: here: not used
1396 RUWIDO_ADDRESS_OFFSET
, // address_offset: address offset
1397 RUWIDO_ADDRESS_OFFSET
+ RUWIDO_ADDRESS_LEN
, // address_end: end of address
1398 RUWIDO_COMMAND_OFFSET
, // command_offset: command offset
1399 RUWIDO_COMMAND_OFFSET
+ RUWIDO_COMMAND_LEN
, // command_end: end of command
1400 SIEMENS_COMPLETE_DATA_LEN
, // complete_len: complete length of frame, here: SIEMENS instead of RUWIDO!
1401 SIEMENS_OR_RUWIDO_STOP_BIT
, // stop_bit: flag: frame has stop bit
1402 SIEMENS_OR_RUWIDO_LSB
, // lsb_first: flag: LSB first
1403 SIEMENS_OR_RUWIDO_FLAGS
// flags: some flags
1408 #if IRMP_SUPPORT_FDC_PROTOCOL == 1
1410 static const PROGMEM IRMP_PARAMETER fdc_param
=
1412 IRMP_FDC_PROTOCOL
, // protocol: ir protocol
1413 FDC_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1414 FDC_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1415 FDC_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1416 FDC_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1417 FDC_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1418 FDC_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1419 FDC_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1420 FDC_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1421 FDC_ADDRESS_OFFSET
, // address_offset: address offset
1422 FDC_ADDRESS_OFFSET
+ FDC_ADDRESS_LEN
, // address_end: end of address
1423 FDC_COMMAND_OFFSET
, // command_offset: command offset
1424 FDC_COMMAND_OFFSET
+ FDC_COMMAND_LEN
, // command_end: end of command
1425 FDC_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1426 FDC_STOP_BIT
, // stop_bit: flag: frame has stop bit
1427 FDC_LSB
, // lsb_first: flag: LSB first
1428 FDC_FLAGS
// flags: some flags
1433 #if IRMP_SUPPORT_RCCAR_PROTOCOL == 1
1435 static const PROGMEM IRMP_PARAMETER rccar_param
=
1437 IRMP_RCCAR_PROTOCOL
, // protocol: ir protocol
1438 RCCAR_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1439 RCCAR_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1440 RCCAR_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1441 RCCAR_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1442 RCCAR_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1443 RCCAR_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1444 RCCAR_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1445 RCCAR_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1446 RCCAR_ADDRESS_OFFSET
, // address_offset: address offset
1447 RCCAR_ADDRESS_OFFSET
+ RCCAR_ADDRESS_LEN
, // address_end: end of address
1448 RCCAR_COMMAND_OFFSET
, // command_offset: command offset
1449 RCCAR_COMMAND_OFFSET
+ RCCAR_COMMAND_LEN
, // command_end: end of command
1450 RCCAR_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1451 RCCAR_STOP_BIT
, // stop_bit: flag: frame has stop bit
1452 RCCAR_LSB
, // lsb_first: flag: LSB first
1453 RCCAR_FLAGS
// flags: some flags
1458 #if IRMP_SUPPORT_NIKON_PROTOCOL == 1
1460 static const PROGMEM IRMP_PARAMETER nikon_param
=
1462 IRMP_NIKON_PROTOCOL
, // protocol: ir protocol
1463 NIKON_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1464 NIKON_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1465 NIKON_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1466 NIKON_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1467 NIKON_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1468 NIKON_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1469 NIKON_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1470 NIKON_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1471 NIKON_ADDRESS_OFFSET
, // address_offset: address offset
1472 NIKON_ADDRESS_OFFSET
+ NIKON_ADDRESS_LEN
, // address_end: end of address
1473 NIKON_COMMAND_OFFSET
, // command_offset: command offset
1474 NIKON_COMMAND_OFFSET
+ NIKON_COMMAND_LEN
, // command_end: end of command
1475 NIKON_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1476 NIKON_STOP_BIT
, // stop_bit: flag: frame has stop bit
1477 NIKON_LSB
, // lsb_first: flag: LSB first
1478 NIKON_FLAGS
// flags: some flags
1483 #if IRMP_SUPPORT_KATHREIN_PROTOCOL == 1
1485 static const PROGMEM IRMP_PARAMETER kathrein_param
=
1487 IRMP_KATHREIN_PROTOCOL
, // protocol: ir protocol
1488 KATHREIN_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1489 KATHREIN_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1490 KATHREIN_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1491 KATHREIN_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1492 KATHREIN_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1493 KATHREIN_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1494 KATHREIN_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1495 KATHREIN_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1496 KATHREIN_ADDRESS_OFFSET
, // address_offset: address offset
1497 KATHREIN_ADDRESS_OFFSET
+ KATHREIN_ADDRESS_LEN
, // address_end: end of address
1498 KATHREIN_COMMAND_OFFSET
, // command_offset: command offset
1499 KATHREIN_COMMAND_OFFSET
+ KATHREIN_COMMAND_LEN
, // command_end: end of command
1500 KATHREIN_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1501 KATHREIN_STOP_BIT
, // stop_bit: flag: frame has stop bit
1502 KATHREIN_LSB
, // lsb_first: flag: LSB first
1503 KATHREIN_FLAGS
// flags: some flags
1508 #if IRMP_SUPPORT_NETBOX_PROTOCOL == 1
1510 static const PROGMEM IRMP_PARAMETER netbox_param
=
1512 IRMP_NETBOX_PROTOCOL
, // protocol: ir protocol
1513 NETBOX_PULSE_LEN
, // pulse_1_len_min: minimum length of pulse with bit value 1, here: exact value
1514 NETBOX_PULSE_REST_LEN
, // pulse_1_len_max: maximum length of pulse with bit value 1, here: rest value
1515 NETBOX_PAUSE_LEN
, // pause_1_len_min: minimum length of pause with bit value 1, here: exact value
1516 NETBOX_PAUSE_REST_LEN
, // pause_1_len_max: maximum length of pause with bit value 1, here: rest value
1517 NETBOX_PULSE_LEN
, // pulse_0_len_min: minimum length of pulse with bit value 0, here: exact value
1518 NETBOX_PULSE_REST_LEN
, // pulse_0_len_max: maximum length of pulse with bit value 0, here: rest value
1519 NETBOX_PAUSE_LEN
, // pause_0_len_min: minimum length of pause with bit value 0, here: exact value
1520 NETBOX_PAUSE_REST_LEN
, // pause_0_len_max: maximum length of pause with bit value 0, here: rest value
1521 NETBOX_ADDRESS_OFFSET
, // address_offset: address offset
1522 NETBOX_ADDRESS_OFFSET
+ NETBOX_ADDRESS_LEN
, // address_end: end of address
1523 NETBOX_COMMAND_OFFSET
, // command_offset: command offset
1524 NETBOX_COMMAND_OFFSET
+ NETBOX_COMMAND_LEN
, // command_end: end of command
1525 NETBOX_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1526 NETBOX_STOP_BIT
, // stop_bit: flag: frame has stop bit
1527 NETBOX_LSB
, // lsb_first: flag: LSB first
1528 NETBOX_FLAGS
// flags: some flags
1533 #if IRMP_SUPPORT_LEGO_PROTOCOL == 1
1535 static const PROGMEM IRMP_PARAMETER lego_param
=
1537 IRMP_LEGO_PROTOCOL
, // protocol: ir protocol
1538 LEGO_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1539 LEGO_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1540 LEGO_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1541 LEGO_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1542 LEGO_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1543 LEGO_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1544 LEGO_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1545 LEGO_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1546 LEGO_ADDRESS_OFFSET
, // address_offset: address offset
1547 LEGO_ADDRESS_OFFSET
+ LEGO_ADDRESS_LEN
, // address_end: end of address
1548 LEGO_COMMAND_OFFSET
, // command_offset: command offset
1549 LEGO_COMMAND_OFFSET
+ LEGO_COMMAND_LEN
, // command_end: end of command
1550 LEGO_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1551 LEGO_STOP_BIT
, // stop_bit: flag: frame has stop bit
1552 LEGO_LSB
, // lsb_first: flag: LSB first
1553 LEGO_FLAGS
// flags: some flags
1558 #if IRMP_SUPPORT_THOMSON_PROTOCOL == 1
1560 static const PROGMEM IRMP_PARAMETER thomson_param
=
1562 IRMP_THOMSON_PROTOCOL
, // protocol: ir protocol
1563 THOMSON_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1564 THOMSON_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1565 THOMSON_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1566 THOMSON_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1567 THOMSON_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1568 THOMSON_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1569 THOMSON_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1570 THOMSON_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1571 THOMSON_ADDRESS_OFFSET
, // address_offset: address offset
1572 THOMSON_ADDRESS_OFFSET
+ THOMSON_ADDRESS_LEN
, // address_end: end of address
1573 THOMSON_COMMAND_OFFSET
, // command_offset: command offset
1574 THOMSON_COMMAND_OFFSET
+ THOMSON_COMMAND_LEN
, // command_end: end of command
1575 THOMSON_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1576 THOMSON_STOP_BIT
, // stop_bit: flag: frame has stop bit
1577 THOMSON_LSB
, // lsb_first: flag: LSB first
1578 THOMSON_FLAGS
// flags: some flags
1583 #if IRMP_SUPPORT_BOSE_PROTOCOL == 1
1585 static const PROGMEM IRMP_PARAMETER bose_param
=
1587 IRMP_BOSE_PROTOCOL
, // protocol: ir protocol
1588 BOSE_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1589 BOSE_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1590 BOSE_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1591 BOSE_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1592 BOSE_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1593 BOSE_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1594 BOSE_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1595 BOSE_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1596 BOSE_ADDRESS_OFFSET
, // address_offset: address offset
1597 BOSE_ADDRESS_OFFSET
+ BOSE_ADDRESS_LEN
, // address_end: end of address
1598 BOSE_COMMAND_OFFSET
, // command_offset: command offset
1599 BOSE_COMMAND_OFFSET
+ BOSE_COMMAND_LEN
, // command_end: end of command
1600 BOSE_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1601 BOSE_STOP_BIT
, // stop_bit: flag: frame has stop bit
1602 BOSE_LSB
, // lsb_first: flag: LSB first
1603 BOSE_FLAGS
// flags: some flags
1608 #if IRMP_SUPPORT_A1TVBOX_PROTOCOL == 1
1610 static const PROGMEM IRMP_PARAMETER a1tvbox_param
=
1612 IRMP_A1TVBOX_PROTOCOL
, // protocol: ir protocol
1614 A1TVBOX_BIT_PULSE_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1615 A1TVBOX_BIT_PULSE_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1616 A1TVBOX_BIT_PAUSE_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1617 A1TVBOX_BIT_PAUSE_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1618 0, // pulse_0_len_min: here: not used
1619 0, // pulse_0_len_max: here: not used
1620 0, // pause_0_len_min: here: not used
1621 0, // pause_0_len_max: here: not used
1622 A1TVBOX_ADDRESS_OFFSET
, // address_offset: address offset
1623 A1TVBOX_ADDRESS_OFFSET
+ A1TVBOX_ADDRESS_LEN
, // address_end: end of address
1624 A1TVBOX_COMMAND_OFFSET
, // command_offset: command offset
1625 A1TVBOX_COMMAND_OFFSET
+ A1TVBOX_COMMAND_LEN
, // command_end: end of command
1626 A1TVBOX_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1627 A1TVBOX_STOP_BIT
, // stop_bit: flag: frame has stop bit
1628 A1TVBOX_LSB
, // lsb_first: flag: LSB first
1629 A1TVBOX_FLAGS
// flags: some flags
1634 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
1636 static const PROGMEM IRMP_PARAMETER ortek_param
=
1638 IRMP_ORTEK_PROTOCOL
, // protocol: ir protocol
1640 ORTEK_BIT_PULSE_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1641 ORTEK_BIT_PULSE_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1642 ORTEK_BIT_PAUSE_LEN_MIN
, // pause_1_len_min: here: minimum length of short pause
1643 ORTEK_BIT_PAUSE_LEN_MAX
, // pause_1_len_max: here: maximum length of short pause
1644 0, // pulse_0_len_min: here: not used
1645 0, // pulse_0_len_max: here: not used
1646 0, // pause_0_len_min: here: not used
1647 0, // pause_0_len_max: here: not used
1648 ORTEK_ADDRESS_OFFSET
, // address_offset: address offset
1649 ORTEK_ADDRESS_OFFSET
+ ORTEK_ADDRESS_LEN
, // address_end: end of address
1650 ORTEK_COMMAND_OFFSET
, // command_offset: command offset
1651 ORTEK_COMMAND_OFFSET
+ ORTEK_COMMAND_LEN
, // command_end: end of command
1652 ORTEK_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1653 ORTEK_STOP_BIT
, // stop_bit: flag: frame has stop bit
1654 ORTEK_LSB
, // lsb_first: flag: LSB first
1655 ORTEK_FLAGS
// flags: some flags
1660 #if IRMP_SUPPORT_ROOMBA_PROTOCOL == 1
1662 static const PROGMEM IRMP_PARAMETER roomba_param
=
1664 IRMP_ROOMBA_PROTOCOL
, // protocol: ir protocol
1665 ROOMBA_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1666 ROOMBA_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1667 ROOMBA_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1668 ROOMBA_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1669 ROOMBA_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1670 ROOMBA_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1671 ROOMBA_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1672 ROOMBA_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1673 ROOMBA_ADDRESS_OFFSET
, // address_offset: address offset
1674 ROOMBA_ADDRESS_OFFSET
+ ROOMBA_ADDRESS_LEN
, // address_end: end of address
1675 ROOMBA_COMMAND_OFFSET
, // command_offset: command offset
1676 ROOMBA_COMMAND_OFFSET
+ ROOMBA_COMMAND_LEN
, // command_end: end of command
1677 ROOMBA_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1678 ROOMBA_STOP_BIT
, // stop_bit: flag: frame has stop bit
1679 ROOMBA_LSB
, // lsb_first: flag: LSB first
1680 ROOMBA_FLAGS
// flags: some flags
1685 #if IRMP_SUPPORT_RCMM_PROTOCOL == 1
1687 static const PROGMEM IRMP_PARAMETER rcmm_param
=
1689 IRMP_RCMM32_PROTOCOL
, // protocol: ir protocol
1691 RCMM32_BIT_PULSE_LEN_MIN
, // pulse_1_len_min: here: minimum length of short pulse
1692 RCMM32_BIT_PULSE_LEN_MAX
, // pulse_1_len_max: here: maximum length of short pulse
1693 0, // pause_1_len_min: here: minimum length of short pause
1694 0, // pause_1_len_max: here: maximum length of short pause
1695 RCMM32_BIT_PULSE_LEN_MIN
, // pulse_0_len_min: here: not used
1696 RCMM32_BIT_PULSE_LEN_MAX
, // pulse_0_len_max: here: not used
1697 0, // pause_0_len_min: here: not used
1698 0, // pause_0_len_max: here: not used
1699 RCMM32_ADDRESS_OFFSET
, // address_offset: address offset
1700 RCMM32_ADDRESS_OFFSET
+ RCMM32_ADDRESS_LEN
, // address_end: end of address
1701 RCMM32_COMMAND_OFFSET
, // command_offset: command offset
1702 RCMM32_COMMAND_OFFSET
+ RCMM32_COMMAND_LEN
, // command_end: end of command
1703 RCMM32_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1704 RCMM32_STOP_BIT
, // stop_bit: flag: frame has stop bit
1705 RCMM32_LSB
, // lsb_first: flag: LSB first
1706 RCMM32_FLAGS
// flags: some flags
1711 #if IRMP_SUPPORT_RADIO1_PROTOCOL == 1
1713 static const PROGMEM IRMP_PARAMETER radio1_param
=
1715 IRMP_RADIO1_PROTOCOL
, // protocol: ir protocol
1717 RADIO1_1_PULSE_LEN_MIN
, // pulse_1_len_min: minimum length of pulse with bit value 1
1718 RADIO1_1_PULSE_LEN_MAX
, // pulse_1_len_max: maximum length of pulse with bit value 1
1719 RADIO1_1_PAUSE_LEN_MIN
, // pause_1_len_min: minimum length of pause with bit value 1
1720 RADIO1_1_PAUSE_LEN_MAX
, // pause_1_len_max: maximum length of pause with bit value 1
1721 RADIO1_0_PULSE_LEN_MIN
, // pulse_0_len_min: minimum length of pulse with bit value 0
1722 RADIO1_0_PULSE_LEN_MAX
, // pulse_0_len_max: maximum length of pulse with bit value 0
1723 RADIO1_0_PAUSE_LEN_MIN
, // pause_0_len_min: minimum length of pause with bit value 0
1724 RADIO1_0_PAUSE_LEN_MAX
, // pause_0_len_max: maximum length of pause with bit value 0
1725 RADIO1_ADDRESS_OFFSET
, // address_offset: address offset
1726 RADIO1_ADDRESS_OFFSET
+ RADIO1_ADDRESS_LEN
, // address_end: end of address
1727 RADIO1_COMMAND_OFFSET
, // command_offset: command offset
1728 RADIO1_COMMAND_OFFSET
+ RADIO1_COMMAND_LEN
, // command_end: end of command
1729 RADIO1_COMPLETE_DATA_LEN
, // complete_len: complete length of frame
1730 RADIO1_STOP_BIT
, // stop_bit: flag: frame has stop bit
1731 RADIO1_LSB
, // lsb_first: flag: LSB first
1732 RADIO1_FLAGS
// flags: some flags
1737 static uint8_t irmp_bit
; // current bit position
1738 static IRMP_PARAMETER irmp_param
;
1740 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
1741 static IRMP_PARAMETER irmp_param2
;
1744 static volatile uint8_t irmp_ir_detected
= FALSE
;
1745 static volatile uint8_t irmp_protocol
;
1746 static volatile uint16_t irmp_address
;
1747 static volatile uint16_t irmp_command
;
1748 static volatile uint16_t irmp_id
; // only used for SAMSUNG protocol
1749 static volatile uint8_t irmp_flags
;
1750 // static volatile uint8_t irmp_busy_flag;
1753 #define input(x) (x)
1754 static uint8_t IRMP_PIN
;
1755 static uint8_t radio
;
1758 /*---------------------------------------------------------------------------------------------------------------------------------------------------
1759 * Initialize IRMP decoder
1760 * @details Configures IRMP input pin
1761 *---------------------------------------------------------------------------------------------------------------------------------------------------
1767 #if defined(PIC_CCS) || defined(PIC_C18) // PIC: do nothing
1768 #elif defined (ARM_STM32) // STM32
1769 GPIO_InitTypeDef GPIO_InitStructure
;
1771 /* GPIOx clock enable */
1772 #if defined (ARM_STM32L1XX)
1773 RCC_AHBPeriphClockCmd(IRMP_PORT_RCC
, ENABLE
);
1774 #elif defined (ARM_STM32F10X)
1775 RCC_APB2PeriphClockCmd(IRMP_PORT_RCC
, ENABLE
);
1776 #elif defined (ARM_STM32F4XX)
1777 RCC_AHB1PeriphClockCmd(IRMP_PORT_RCC
, ENABLE
);
1780 /* GPIO Configuration */
1781 GPIO_InitStructure
.GPIO_Pin
= IRMP_BIT
;
1782 #if defined (ARM_STM32L1XX) || defined (ARM_STM32F4XX)
1783 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_IN
;
1784 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_2MHz
;
1785 GPIO_InitStructure
.GPIO_OType
= GPIO_OType_PP
;
1786 GPIO_InitStructure
.GPIO_PuPd
= GPIO_PuPd_NOPULL
;
1787 #elif defined (ARM_STM32F10X)
1788 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_2MHz
;
1789 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_IN_FLOATING
;
1791 GPIO_Init(IRMP_PORT
, &GPIO_InitStructure
);
1792 #elif defined(STELLARIS_ARM_CORTEX_M4)
1793 // Enable the GPIO port
1794 ROM_SysCtlPeripheralEnable(IRMP_PORT_PERIPH
);
1797 ROM_GPIODirModeSet(IRMP_PORT_BASE
, IRMP_PORT_PIN
, GPIO_DIR_MODE_IN
);
1798 ROM_GPIOPadConfigSet(IRMP_PORT_BASE
, IRMP_PORT_PIN
,
1800 GPIO_PIN_TYPE_STD_WPU
);
1802 IRMP_PORT
&= ~(1<<IRMP_BIT
); // deactivate pullup
1803 IRMP_DDR
&= ~(1<<IRMP_BIT
); // set pin to input
1806 #if IRMP_LOGGING == 1
1811 /*---------------------------------------------------------------------------------------------------------------------------------------------------
1813 * @details gets decoded IRMP data
1814 * @param pointer in order to store IRMP data
1815 * @return TRUE: successful, FALSE: failed
1816 *---------------------------------------------------------------------------------------------------------------------------------------------------
1819 irmp_get_data (IRMP_DATA
* irmp_data_p
)
1821 uint8_t rtc
= FALSE
;
1823 if (irmp_ir_detected
)
1825 switch (irmp_protocol
)
1827 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
1828 case IRMP_SAMSUNG_PROTOCOL
:
1829 if ((irmp_command
>> 8) == (~irmp_command
& 0x00FF))
1831 irmp_command
&= 0xff;
1832 irmp_command
|= irmp_id
<< 8;
1837 #if IRMP_SUPPORT_SAMSUNG48_PROTOCOL == 1
1838 case IRMP_SAMSUNG48_PROTOCOL
:
1839 irmp_command
= (irmp_command
& 0x00FF) | ((irmp_id
& 0x00FF) << 8);
1845 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
1846 case IRMP_NEC_PROTOCOL
:
1847 if ((irmp_command
>> 8) == (~irmp_command
& 0x00FF))
1849 irmp_command
&= 0xff;
1852 else if (irmp_address
== 0x87EE)
1855 ANALYZE_PRINTF ("Switching to APPLE protocol\n");
1857 irmp_protocol
= IRMP_APPLE_PROTOCOL
;
1858 irmp_address
= (irmp_command
& 0xFF00) >> 8;
1859 irmp_command
&= 0x00FF;
1864 #if IRMP_SUPPORT_BOSE_PROTOCOL == 1
1865 case IRMP_BOSE_PROTOCOL
:
1866 if ((irmp_command
>> 8) == (~irmp_command
& 0x00FF))
1868 irmp_command
&= 0xff;
1873 #if IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1
1874 case IRMP_SIEMENS_PROTOCOL
:
1875 case IRMP_RUWIDO_PROTOCOL
:
1876 if (((irmp_command
>> 1) & 0x0001) == (~irmp_command
& 0x0001))
1883 #if IRMP_SUPPORT_KATHREIN_PROTOCOL == 1
1884 case IRMP_KATHREIN_PROTOCOL
:
1885 if (irmp_command
!= 0x0000)
1891 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
1892 case IRMP_RC5_PROTOCOL
:
1893 irmp_address
&= ~0x20; // clear toggle bit
1897 #if IRMP_SUPPORT_IR60_PROTOCOL == 1
1898 case IRMP_IR60_PROTOCOL
:
1899 if (irmp_command
!= 0x007d) // 0x007d (== 62<<1 + 1) is start instruction frame
1906 ANALYZE_PRINTF("Info IR60: got start instruction frame\n");
1911 #if IRMP_SUPPORT_RCCAR_PROTOCOL == 1
1912 case IRMP_RCCAR_PROTOCOL
:
1913 // frame in irmp_data:
1914 // Bit 12 11 10 9 8 7 6 5 4 3 2 1 0
1915 // V D7 D6 D5 D4 D3 D2 D1 D0 A1 A0 C1 C0 // 10 9 8 7 6 5 4 3 2 1 0
1916 irmp_address
= (irmp_command
& 0x000C) >> 2; // addr: 0 0 0 0 0 0 0 0 0 A1 A0
1917 irmp_command
= ((irmp_command
& 0x1000) >> 2) | // V-Bit: V 0 0 0 0 0 0 0 0 0 0
1918 ((irmp_command
& 0x0003) << 8) | // C-Bits: 0 C1 C0 0 0 0 0 0 0 0 0
1919 ((irmp_command
& 0x0FF0) >> 4); // D-Bits: D7 D6 D5 D4 D3 D2 D1 D0
1920 rtc
= TRUE
; // Summe: V C1 C0 D7 D6 D5 D4 D3 D2 D1 D0
1924 #if IRMP_SUPPORT_NETBOX_PROTOCOL == 1 // squeeze code to 8 bit, upper bit indicates release-key
1925 case IRMP_NETBOX_PROTOCOL
:
1926 if (irmp_command
& 0x1000) // last bit set?
1928 if ((irmp_command
& 0x1f) == 0x15) // key pressed: 101 01 (LSB)
1931 irmp_command
&= 0x7F;
1934 else if ((irmp_command
& 0x1f) == 0x10) // key released: 000 01 (LSB)
1937 irmp_command
|= 0x80;
1943 ANALYZE_PRINTF("error NETBOX: bit6/7 must be 0/1\n");
1950 ANALYZE_PRINTF("error NETBOX: last bit not set\n");
1955 #if IRMP_SUPPORT_LEGO_PROTOCOL == 1
1956 case IRMP_LEGO_PROTOCOL
:
1958 uint8_t crc
= 0x0F ^ ((irmp_command
& 0xF000) >> 12) ^ ((irmp_command
& 0x0F00) >> 8) ^ ((irmp_command
& 0x00F0) >> 4);
1960 if ((irmp_command
& 0x000F) == crc
)
1968 ANALYZE_PRINTF ("CRC error in LEGO protocol\n");
1970 // rtc = TRUE; // don't accept codes with CRC errors
1985 irmp_data_p
->protocol
= irmp_protocol
;
1986 irmp_data_p
->address
= irmp_address
;
1987 irmp_data_p
->command
= irmp_command
;
1988 irmp_data_p
->flags
= irmp_flags
;
1994 irmp_ir_detected
= FALSE
;
2001 // irmp_is_busy (void)
2003 // return irmp_busy_flag;
2006 #if IRMP_USE_CALLBACK == 1
2008 irmp_set_callback_ptr (void (*cb
)(uint8_t))
2010 irmp_callback_ptr
= cb
;
2012 #endif // IRMP_USE_CALLBACK == 1
2014 // these statics must not be volatile, because they are only used by irmp_store_bit(), which is called by irmp_ISR()
2015 static uint16_t irmp_tmp_address
; // ir address
2016 static uint16_t irmp_tmp_command
; // ir command
2018 #if (IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)) || IRMP_SUPPORT_NEC42_PROTOCOL == 1
2019 static uint16_t irmp_tmp_address2
; // ir address
2020 static uint16_t irmp_tmp_command2
; // ir command
2023 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
2024 static uint16_t irmp_lgair_address
; // ir address
2025 static uint16_t irmp_lgair_command
; // ir command
2028 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
2029 static uint16_t irmp_tmp_id
; // ir id (only SAMSUNG)
2031 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
2032 static uint8_t xor_check
[6]; // check kaseikyo "parity" bits
2033 static uint8_t genre2
; // save genre2 bits here, later copied to MSB in flags
2036 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
2037 static uint8_t parity
; // number of '1' of the first 14 bits, check if even.
2040 /*---------------------------------------------------------------------------------------------------------------------------------------------------
2042 * @details store bit in temp address or temp command
2043 * @param value to store: 0 or 1
2044 *---------------------------------------------------------------------------------------------------------------------------------------------------
2046 // verhindert, dass irmp_store_bit() inline compiliert wird:
2047 // static void irmp_store_bit (uint8_t) __attribute__ ((noinline));
2050 irmp_store_bit (uint8_t value
)
2052 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
2053 if (irmp_param
.protocol
== IRMP_ORTEK_PROTOCOL
)
2062 else if (irmp_bit
== 14)
2064 if (value
) // value == 1: even parity
2068 parity
= PARITY_CHECK_FAILED
;
2072 parity
= PARITY_CHECK_OK
;
2077 if (parity
& 0x01) // value == 0: odd parity
2079 parity
= PARITY_CHECK_OK
;
2083 parity
= PARITY_CHECK_FAILED
;
2090 #if IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1
2091 if (irmp_bit
== 0 && irmp_param
.protocol
== IRMP_GRUNDIG_PROTOCOL
)
2098 if (irmp_bit
>= irmp_param
.address_offset
&& irmp_bit
< irmp_param
.address_end
)
2100 if (irmp_param
.lsb_first
)
2102 irmp_tmp_address
|= (((uint16_t) (value
)) << (irmp_bit
- irmp_param
.address_offset
)); // CV wants cast
2106 irmp_tmp_address
<<= 1;
2107 irmp_tmp_address
|= value
;
2110 else if (irmp_bit
>= irmp_param
.command_offset
&& irmp_bit
< irmp_param
.command_end
)
2112 if (irmp_param
.lsb_first
)
2114 #if IRMP_SUPPORT_SAMSUNG48_PROTOCOL == 1
2115 if (irmp_param
.protocol
== IRMP_SAMSUNG48_PROTOCOL
&& irmp_bit
>= 32)
2117 irmp_tmp_id
|= (((uint16_t) (value
)) << (irmp_bit
- 32)); // CV wants cast
2122 irmp_tmp_command
|= (((uint16_t) (value
)) << (irmp_bit
- irmp_param
.command_offset
)); // CV wants cast
2127 irmp_tmp_command
<<= 1;
2128 irmp_tmp_command
|= value
;
2132 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
2133 if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
|| irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
)
2137 irmp_lgair_address
<<= 1; // LGAIR uses MSB
2138 irmp_lgair_address
|= value
;
2140 else if (irmp_bit
< 24)
2142 irmp_lgair_command
<<= 1; // LGAIR uses MSB
2143 irmp_lgair_command
|= value
;
2149 #if IRMP_SUPPORT_NEC42_PROTOCOL == 1
2150 if (irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
&& irmp_bit
>= 13 && irmp_bit
< 26)
2152 irmp_tmp_address2
|= (((uint16_t) (value
)) << (irmp_bit
- 13)); // CV wants cast
2157 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
2158 if (irmp_param
.protocol
== IRMP_SAMSUNG_PROTOCOL
&& irmp_bit
>= SAMSUNG_ID_OFFSET
&& irmp_bit
< SAMSUNG_ID_OFFSET
+ SAMSUNG_ID_LEN
)
2160 irmp_tmp_id
|= (((uint16_t) (value
)) << (irmp_bit
- SAMSUNG_ID_OFFSET
)); // store with LSB first
2165 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
2166 if (irmp_param
.protocol
== IRMP_KASEIKYO_PROTOCOL
)
2168 if (irmp_bit
>= 20 && irmp_bit
< 24)
2170 irmp_tmp_command
|= (((uint16_t) (value
)) << (irmp_bit
- 8)); // store 4 system bits (genre 1) in upper nibble with LSB first
2172 else if (irmp_bit
>= 24 && irmp_bit
< 28)
2174 genre2
|= (((uint8_t) (value
)) << (irmp_bit
- 20)); // store 4 system bits (genre 2) in upper nibble with LSB first
2177 if (irmp_bit
< KASEIKYO_COMPLETE_DATA_LEN
)
2181 xor_check
[irmp_bit
/ 8] |= 1 << (irmp_bit
% 8);
2185 xor_check
[irmp_bit
/ 8] &= ~(1 << (irmp_bit
% 8));
2198 /*---------------------------------------------------------------------------------------------------------------------------------------------------
2200 * @details store bit in temp address or temp command
2201 * @param value to store: 0 or 1
2202 *---------------------------------------------------------------------------------------------------------------------------------------------------
2204 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
2206 irmp_store_bit2 (uint8_t value
)
2210 if (irmp_param
.protocol
)
2212 irmp_bit2
= irmp_bit
- 2;
2216 irmp_bit2
= irmp_bit
- 1;
2219 if (irmp_bit2
>= irmp_param2
.address_offset
&& irmp_bit2
< irmp_param2
.address_end
)
2221 irmp_tmp_address2
|= (((uint16_t) (value
)) << (irmp_bit2
- irmp_param2
.address_offset
)); // CV wants cast
2223 else if (irmp_bit2
>= irmp_param2
.command_offset
&& irmp_bit2
< irmp_param2
.command_end
)
2225 irmp_tmp_command2
|= (((uint16_t) (value
)) << (irmp_bit2
- irmp_param2
.command_offset
)); // CV wants cast
2228 #endif // IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
2230 /*---------------------------------------------------------------------------------------------------------------------------------------------------
2232 * @details ISR routine, called 10000 times per second
2233 *---------------------------------------------------------------------------------------------------------------------------------------------------
2238 static uint8_t irmp_start_bit_detected
; // flag: start bit detected
2239 static uint8_t wait_for_space
; // flag: wait for data bit space
2240 static uint8_t wait_for_start_space
; // flag: wait for start bit space
2241 static uint8_t irmp_pulse_time
; // count bit time for pulse
2242 static PAUSE_LEN irmp_pause_time
; // count bit time for pause
2243 static uint16_t last_irmp_address
= 0xFFFF; // save last irmp address to recognize key repetition
2244 static uint16_t last_irmp_command
= 0xFFFF; // save last irmp command to recognize key repetition
2245 static uint16_t key_repetition_len
; // SIRCS repeats frame 2-5 times with 45 ms pause
2246 static uint8_t repetition_frame_number
;
2247 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
2248 static uint16_t last_irmp_denon_command
; // save last irmp command to recognize DENON frame repetition
2249 static uint16_t denon_repetition_len
= 0xFFFF; // denon repetition len of 2nd auto generated frame
2251 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
2252 static uint8_t rc5_cmd_bit6
; // bit 6 of RC5 command is the inverted 2nd start bit
2254 #if IRMP_SUPPORT_MANCHESTER == 1
2255 static PAUSE_LEN last_pause
; // last pause value
2257 #if IRMP_SUPPORT_MANCHESTER == 1 || IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
2258 static uint8_t last_value
; // last bit value
2260 uint8_t irmp_input
; // input value
2266 irmp_input
= input(IRMP_PIN
);
2268 #if IRMP_USE_CALLBACK == 1
2269 if (irmp_callback_ptr
)
2271 static uint8_t last_inverted_input
;
2273 if (last_inverted_input
!= !irmp_input
)
2275 (*irmp_callback_ptr
) (! irmp_input
);
2276 last_inverted_input
= !irmp_input
;
2279 #endif // IRMP_USE_CALLBACK == 1
2281 irmp_log(irmp_input
); // log ir signal, if IRMP_LOGGING defined
2283 if (! irmp_ir_detected
) // ir code already detected?
2285 if (! irmp_start_bit_detected
) // start bit detected?
2287 if (! irmp_input
) // receiving burst?
2289 // irmp_busy_flag = TRUE;
2291 if (! irmp_pulse_time
)
2293 ANALYZE_PRINTF("%8.3fms [starting pulse]\n", (double) (time_counter
* 1000) / F_INTERRUPTS
);
2296 irmp_pulse_time
++; // increment counter
2300 if (irmp_pulse_time
) // it's dark....
2301 { // set flags for counting the time of darkness...
2302 irmp_start_bit_detected
= 1;
2303 wait_for_start_space
= 1;
2305 irmp_tmp_command
= 0;
2306 irmp_tmp_address
= 0;
2307 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
2310 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
2314 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1) || IRMP_SUPPORT_NEC42_PROTOCOL == 1
2315 irmp_tmp_command2
= 0;
2316 irmp_tmp_address2
= 0;
2318 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
2319 irmp_lgair_command
= 0;
2320 irmp_lgair_address
= 0;
2323 irmp_pause_time
= 1; // 1st pause: set to 1, not to 0!
2324 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
2325 rc5_cmd_bit6
= 0; // fm 2010-03-07: bugfix: reset it after incomplete RC5 frame!
2330 if (key_repetition_len
< 0xFFFF) // avoid overflow of counter
2332 key_repetition_len
++;
2334 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
2335 if (denon_repetition_len
< 0xFFFF) // avoid overflow of counter
2337 denon_repetition_len
++;
2339 if (denon_repetition_len
>= DENON_AUTO_REPETITION_PAUSE_LEN
&& last_irmp_denon_command
!= 0)
2342 ANALYZE_PRINTF ("%8.3fms warning: did not receive inverted command repetition\n",
2343 (double) (time_counter
* 1000) / F_INTERRUPTS
);
2345 last_irmp_denon_command
= 0;
2346 denon_repetition_len
= 0xFFFF;
2349 #endif // IRMP_SUPPORT_DENON_PROTOCOL == 1
2356 if (wait_for_start_space
) // we have received start bit...
2357 { // ...and are counting the time of darkness
2358 if (irmp_input
) // still dark?
2360 irmp_pause_time
++; // increment counter
2362 #if IRMP_SUPPORT_NIKON_PROTOCOL == 1
2363 if (((irmp_pulse_time
< NIKON_START_BIT_PULSE_LEN_MIN
|| irmp_pulse_time
> NIKON_START_BIT_PULSE_LEN_MAX
) && irmp_pause_time
> IRMP_TIMEOUT_LEN
) ||
2364 irmp_pause_time
> IRMP_TIMEOUT_NIKON_LEN
)
2366 if (irmp_pause_time
> IRMP_TIMEOUT_LEN
) // timeout?
2369 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
2370 if (irmp_protocol
== IRMP_JVC_PROTOCOL
) // don't show eror if JVC protocol, irmp_pulse_time has been set below!
2375 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
2378 ANALYZE_PRINTF ("%8.3fms error 1: pause after start bit pulse %d too long: %d\n", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_pulse_time
, irmp_pause_time
);
2379 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
2383 irmp_start_bit_detected
= 0; // reset flags, let's wait for another start bit
2384 irmp_pulse_time
= 0;
2385 irmp_pause_time
= 0;
2389 { // receiving first data pulse!
2390 IRMP_PARAMETER
* irmp_param_p
;
2391 irmp_param_p
= (IRMP_PARAMETER
*) 0;
2393 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
2394 irmp_param2
.protocol
= 0;
2398 ANALYZE_PRINTF ("%8.3fms [start-bit: pulse = %2d, pause = %2d]\n", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_pulse_time
, irmp_pause_time
);
2401 #if IRMP_SUPPORT_SIRCS_PROTOCOL == 1
2402 if (irmp_pulse_time
>= SIRCS_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= SIRCS_START_BIT_PULSE_LEN_MAX
&&
2403 irmp_pause_time
>= SIRCS_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= SIRCS_START_BIT_PAUSE_LEN_MAX
)
2406 ANALYZE_PRINTF ("protocol = SIRCS, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2407 SIRCS_START_BIT_PULSE_LEN_MIN
, SIRCS_START_BIT_PULSE_LEN_MAX
,
2408 SIRCS_START_BIT_PAUSE_LEN_MIN
, SIRCS_START_BIT_PAUSE_LEN_MAX
);
2410 irmp_param_p
= (IRMP_PARAMETER
*) (IRMP_PARAMETER
*) &sircs_param
;
2413 #endif // IRMP_SUPPORT_SIRCS_PROTOCOL == 1
2415 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
2416 if (irmp_protocol
== IRMP_JVC_PROTOCOL
&& // last protocol was JVC, awaiting repeat frame
2417 irmp_pulse_time
>= JVC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= JVC_START_BIT_PULSE_LEN_MAX
&&
2418 irmp_pause_time
>= JVC_REPEAT_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= JVC_REPEAT_START_BIT_PAUSE_LEN_MAX
)
2421 ANALYZE_PRINTF ("protocol = NEC or JVC (type 1) repeat frame, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2422 JVC_START_BIT_PULSE_LEN_MIN
, JVC_START_BIT_PULSE_LEN_MAX
,
2423 JVC_REPEAT_START_BIT_PAUSE_LEN_MIN
, JVC_REPEAT_START_BIT_PAUSE_LEN_MAX
);
2425 irmp_param_p
= (IRMP_PARAMETER
*) &nec_param
;
2428 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
2430 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
2431 if (irmp_pulse_time
>= NEC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NEC_START_BIT_PULSE_LEN_MAX
&&
2432 irmp_pause_time
>= NEC_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NEC_START_BIT_PAUSE_LEN_MAX
)
2434 #if IRMP_SUPPORT_NEC42_PROTOCOL == 1
2436 ANALYZE_PRINTF ("protocol = NEC42, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2437 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
,
2438 NEC_START_BIT_PAUSE_LEN_MIN
, NEC_START_BIT_PAUSE_LEN_MAX
);
2440 irmp_param_p
= (IRMP_PARAMETER
*) &nec42_param
;
2443 ANALYZE_PRINTF ("protocol = NEC, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2444 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
,
2445 NEC_START_BIT_PAUSE_LEN_MIN
, NEC_START_BIT_PAUSE_LEN_MAX
);
2447 irmp_param_p
= (IRMP_PARAMETER
*) &nec_param
;
2450 else if (irmp_pulse_time
>= NEC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NEC_START_BIT_PULSE_LEN_MAX
&&
2451 irmp_pause_time
>= NEC_REPEAT_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NEC_REPEAT_START_BIT_PAUSE_LEN_MAX
)
2453 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
2454 if (irmp_protocol
== IRMP_JVC_PROTOCOL
) // last protocol was JVC, awaiting repeat frame
2455 { // some jvc remote controls use nec repetition frame for jvc repetition frame
2457 ANALYZE_PRINTF ("protocol = JVC repeat frame type 2, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2458 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
,
2459 NEC_REPEAT_START_BIT_PAUSE_LEN_MIN
, NEC_REPEAT_START_BIT_PAUSE_LEN_MAX
);
2461 irmp_param_p
= (IRMP_PARAMETER
*) &nec_param
;
2464 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
2467 ANALYZE_PRINTF ("protocol = NEC (repetition frame), start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2468 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
,
2469 NEC_REPEAT_START_BIT_PAUSE_LEN_MIN
, NEC_REPEAT_START_BIT_PAUSE_LEN_MAX
);
2472 irmp_param_p
= (IRMP_PARAMETER
*) &nec_rep_param
;
2477 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
2478 if (irmp_protocol
== IRMP_JVC_PROTOCOL
&& // last protocol was JVC, awaiting repeat frame
2479 irmp_pulse_time
>= NEC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NEC_START_BIT_PULSE_LEN_MAX
&&
2480 irmp_pause_time
>= NEC_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= NEC_0_PAUSE_LEN_MAX
)
2481 { // it's JVC repetition type 3
2483 ANALYZE_PRINTF ("protocol = JVC repeat frame type 3, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2484 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
,
2485 NEC_0_PAUSE_LEN_MIN
, NEC_0_PAUSE_LEN_MAX
);
2487 irmp_param_p
= (IRMP_PARAMETER
*) &nec_param
;
2490 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
2492 #endif // IRMP_SUPPORT_NEC_PROTOCOL == 1
2494 #if IRMP_SUPPORT_TELEFUNKEN_PROTOCOL == 1
2495 if (irmp_pulse_time
>= TELEFUNKEN_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= TELEFUNKEN_START_BIT_PULSE_LEN_MAX
&&
2496 irmp_pause_time
>= TELEFUNKEN_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= TELEFUNKEN_START_BIT_PAUSE_LEN_MAX
)
2499 ANALYZE_PRINTF ("protocol = TELEFUNKEN, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2500 TELEFUNKEN_START_BIT_PULSE_LEN_MIN
, TELEFUNKEN_START_BIT_PULSE_LEN_MAX
,
2501 TELEFUNKEN_START_BIT_PAUSE_LEN_MIN
, TELEFUNKEN_START_BIT_PAUSE_LEN_MAX
);
2503 irmp_param_p
= (IRMP_PARAMETER
*) &telefunken_param
;
2506 #endif // IRMP_SUPPORT_TELEFUNKEN_PROTOCOL == 1
2508 #if IRMP_SUPPORT_ROOMBA_PROTOCOL == 1
2509 if (irmp_pulse_time
>= ROOMBA_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= ROOMBA_START_BIT_PULSE_LEN_MAX
&&
2510 irmp_pause_time
>= ROOMBA_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= ROOMBA_START_BIT_PAUSE_LEN_MAX
)
2513 ANALYZE_PRINTF ("protocol = ROOMBA, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2514 ROOMBA_START_BIT_PULSE_LEN_MIN
, ROOMBA_START_BIT_PULSE_LEN_MAX
,
2515 ROOMBA_START_BIT_PAUSE_LEN_MIN
, ROOMBA_START_BIT_PAUSE_LEN_MAX
);
2517 irmp_param_p
= (IRMP_PARAMETER
*) &roomba_param
;
2520 #endif // IRMP_SUPPORT_ROOMBA_PROTOCOL == 1
2522 #if IRMP_SUPPORT_NIKON_PROTOCOL == 1
2523 if (irmp_pulse_time
>= NIKON_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NIKON_START_BIT_PULSE_LEN_MAX
&&
2524 irmp_pause_time
>= NIKON_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NIKON_START_BIT_PAUSE_LEN_MAX
)
2527 ANALYZE_PRINTF ("protocol = NIKON, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2528 NIKON_START_BIT_PULSE_LEN_MIN
, NIKON_START_BIT_PULSE_LEN_MAX
,
2529 NIKON_START_BIT_PAUSE_LEN_MIN
, NIKON_START_BIT_PAUSE_LEN_MAX
);
2531 irmp_param_p
= (IRMP_PARAMETER
*) &nikon_param
;
2534 #endif // IRMP_SUPPORT_NIKON_PROTOCOL == 1
2536 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
2537 if (irmp_pulse_time
>= SAMSUNG_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= SAMSUNG_START_BIT_PULSE_LEN_MAX
&&
2538 irmp_pause_time
>= SAMSUNG_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= SAMSUNG_START_BIT_PAUSE_LEN_MAX
)
2541 ANALYZE_PRINTF ("protocol = SAMSUNG, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2542 SAMSUNG_START_BIT_PULSE_LEN_MIN
, SAMSUNG_START_BIT_PULSE_LEN_MAX
,
2543 SAMSUNG_START_BIT_PAUSE_LEN_MIN
, SAMSUNG_START_BIT_PAUSE_LEN_MAX
);
2545 irmp_param_p
= (IRMP_PARAMETER
*) &samsung_param
;
2548 #endif // IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
2550 #if IRMP_SUPPORT_MATSUSHITA_PROTOCOL == 1
2551 if (irmp_pulse_time
>= MATSUSHITA_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= MATSUSHITA_START_BIT_PULSE_LEN_MAX
&&
2552 irmp_pause_time
>= MATSUSHITA_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= MATSUSHITA_START_BIT_PAUSE_LEN_MAX
)
2553 { // it's MATSUSHITA
2555 ANALYZE_PRINTF ("protocol = MATSUSHITA, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2556 MATSUSHITA_START_BIT_PULSE_LEN_MIN
, MATSUSHITA_START_BIT_PULSE_LEN_MAX
,
2557 MATSUSHITA_START_BIT_PAUSE_LEN_MIN
, MATSUSHITA_START_BIT_PAUSE_LEN_MAX
);
2559 irmp_param_p
= (IRMP_PARAMETER
*) &matsushita_param
;
2562 #endif // IRMP_SUPPORT_MATSUSHITA_PROTOCOL == 1
2564 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
2565 if (irmp_pulse_time
>= KASEIKYO_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= KASEIKYO_START_BIT_PULSE_LEN_MAX
&&
2566 irmp_pause_time
>= KASEIKYO_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= KASEIKYO_START_BIT_PAUSE_LEN_MAX
)
2569 ANALYZE_PRINTF ("protocol = KASEIKYO, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2570 KASEIKYO_START_BIT_PULSE_LEN_MIN
, KASEIKYO_START_BIT_PULSE_LEN_MAX
,
2571 KASEIKYO_START_BIT_PAUSE_LEN_MIN
, KASEIKYO_START_BIT_PAUSE_LEN_MAX
);
2573 irmp_param_p
= (IRMP_PARAMETER
*) &kaseikyo_param
;
2576 #endif // IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
2578 #if IRMP_SUPPORT_RADIO1_PROTOCOL == 1
2579 if (irmp_pulse_time
>= RADIO1_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RADIO1_START_BIT_PULSE_LEN_MAX
&&
2580 irmp_pause_time
>= RADIO1_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RADIO1_START_BIT_PAUSE_LEN_MAX
)
2583 ANALYZE_PRINTF ("protocol = RADIO1, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2584 RADIO1_START_BIT_PULSE_LEN_MIN
, RADIO1_START_BIT_PULSE_LEN_MAX
,
2585 RADIO1_START_BIT_PAUSE_LEN_MIN
, RADIO1_START_BIT_PAUSE_LEN_MAX
);
2587 irmp_param_p
= (IRMP_PARAMETER
*) &radio1_param
;
2590 #endif // IRMP_SUPPORT_RRADIO1_PROTOCOL == 1
2592 #if IRMP_SUPPORT_RECS80_PROTOCOL == 1
2593 if (irmp_pulse_time
>= RECS80_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RECS80_START_BIT_PULSE_LEN_MAX
&&
2594 irmp_pause_time
>= RECS80_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RECS80_START_BIT_PAUSE_LEN_MAX
)
2597 ANALYZE_PRINTF ("protocol = RECS80, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2598 RECS80_START_BIT_PULSE_LEN_MIN
, RECS80_START_BIT_PULSE_LEN_MAX
,
2599 RECS80_START_BIT_PAUSE_LEN_MIN
, RECS80_START_BIT_PAUSE_LEN_MAX
);
2601 irmp_param_p
= (IRMP_PARAMETER
*) &recs80_param
;
2604 #endif // IRMP_SUPPORT_RECS80_PROTOCOL == 1
2606 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
2607 if (((irmp_pulse_time
>= RC5_START_BIT_LEN_MIN
&& irmp_pulse_time
<= RC5_START_BIT_LEN_MAX
) ||
2608 (irmp_pulse_time
>= 2 * RC5_START_BIT_LEN_MIN
&& irmp_pulse_time
<= 2 * RC5_START_BIT_LEN_MAX
)) &&
2609 ((irmp_pause_time
>= RC5_START_BIT_LEN_MIN
&& irmp_pause_time
<= RC5_START_BIT_LEN_MAX
) ||
2610 (irmp_pause_time
>= 2 * RC5_START_BIT_LEN_MIN
&& irmp_pause_time
<= 2 * RC5_START_BIT_LEN_MAX
)))
2612 #if IRMP_SUPPORT_FDC_PROTOCOL == 1
2613 if (irmp_pulse_time
>= FDC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= FDC_START_BIT_PULSE_LEN_MAX
&&
2614 irmp_pause_time
>= FDC_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_START_BIT_PAUSE_LEN_MAX
)
2617 ANALYZE_PRINTF ("protocol = RC5 or FDC\n");
2618 ANALYZE_PRINTF ("FDC start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2619 FDC_START_BIT_PULSE_LEN_MIN
, FDC_START_BIT_PULSE_LEN_MAX
,
2620 FDC_START_BIT_PAUSE_LEN_MIN
, FDC_START_BIT_PAUSE_LEN_MAX
);
2621 ANALYZE_PRINTF ("RC5 start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2622 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
,
2623 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
);
2625 memcpy_P (&irmp_param2
, &fdc_param
, sizeof (IRMP_PARAMETER
));
2628 #endif // IRMP_SUPPORT_FDC_PROTOCOL == 1
2630 #if IRMP_SUPPORT_RCCAR_PROTOCOL == 1
2631 if (irmp_pulse_time
>= RCCAR_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RCCAR_START_BIT_PULSE_LEN_MAX
&&
2632 irmp_pause_time
>= RCCAR_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_START_BIT_PAUSE_LEN_MAX
)
2635 ANALYZE_PRINTF ("protocol = RC5 or RCCAR\n");
2636 ANALYZE_PRINTF ("RCCAR start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2637 RCCAR_START_BIT_PULSE_LEN_MIN
, RCCAR_START_BIT_PULSE_LEN_MAX
,
2638 RCCAR_START_BIT_PAUSE_LEN_MIN
, RCCAR_START_BIT_PAUSE_LEN_MAX
);
2639 ANALYZE_PRINTF ("RC5 start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2640 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
,
2641 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
);
2643 memcpy_P (&irmp_param2
, &rccar_param
, sizeof (IRMP_PARAMETER
));
2646 #endif // IRMP_SUPPORT_RCCAR_PROTOCOL == 1
2649 ANALYZE_PRINTF ("protocol = RC5, start bit timings: pulse: %3d - %3d, pause: %3d - %3d or pulse: %3d - %3d, pause: %3d - %3d\n",
2650 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
,
2651 2 * RC5_START_BIT_LEN_MIN
, 2 * RC5_START_BIT_LEN_MAX
,
2652 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
,
2653 2 * RC5_START_BIT_LEN_MIN
, 2 * RC5_START_BIT_LEN_MAX
);
2657 irmp_param_p
= (IRMP_PARAMETER
*) &rc5_param
;
2658 last_pause
= irmp_pause_time
;
2660 if ((irmp_pulse_time
> RC5_START_BIT_LEN_MAX
&& irmp_pulse_time
<= 2 * RC5_START_BIT_LEN_MAX
) ||
2661 (irmp_pause_time
> RC5_START_BIT_LEN_MAX
&& irmp_pause_time
<= 2 * RC5_START_BIT_LEN_MAX
))
2664 rc5_cmd_bit6
= 1<<6;
2672 #endif // IRMP_SUPPORT_RC5_PROTOCOL == 1
2674 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
2675 if ( (irmp_pulse_time
>= DENON_PULSE_LEN_MIN
&& irmp_pulse_time
<= DENON_PULSE_LEN_MAX
) &&
2676 ((irmp_pause_time
>= DENON_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= DENON_1_PAUSE_LEN_MAX
) ||
2677 (irmp_pause_time
>= DENON_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= DENON_0_PAUSE_LEN_MAX
)))
2680 ANALYZE_PRINTF ("protocol = DENON, start bit timings: pulse: %3d - %3d, pause: %3d - %3d or %3d - %3d\n",
2681 DENON_PULSE_LEN_MIN
, DENON_PULSE_LEN_MAX
,
2682 DENON_1_PAUSE_LEN_MIN
, DENON_1_PAUSE_LEN_MAX
,
2683 DENON_0_PAUSE_LEN_MIN
, DENON_0_PAUSE_LEN_MAX
);
2685 irmp_param_p
= (IRMP_PARAMETER
*) &denon_param
;
2688 #endif // IRMP_SUPPORT_DENON_PROTOCOL == 1
2690 #if IRMP_SUPPORT_THOMSON_PROTOCOL == 1
2691 if ( (irmp_pulse_time
>= THOMSON_PULSE_LEN_MIN
&& irmp_pulse_time
<= THOMSON_PULSE_LEN_MAX
) &&
2692 ((irmp_pause_time
>= THOMSON_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= THOMSON_1_PAUSE_LEN_MAX
) ||
2693 (irmp_pause_time
>= THOMSON_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= THOMSON_0_PAUSE_LEN_MAX
)))
2696 ANALYZE_PRINTF ("protocol = THOMSON, start bit timings: pulse: %3d - %3d, pause: %3d - %3d or %3d - %3d\n",
2697 THOMSON_PULSE_LEN_MIN
, THOMSON_PULSE_LEN_MAX
,
2698 THOMSON_1_PAUSE_LEN_MIN
, THOMSON_1_PAUSE_LEN_MAX
,
2699 THOMSON_0_PAUSE_LEN_MIN
, THOMSON_0_PAUSE_LEN_MAX
);
2701 irmp_param_p
= (IRMP_PARAMETER
*) &thomson_param
;
2704 #endif // IRMP_SUPPORT_THOMSON_PROTOCOL == 1
2706 #if IRMP_SUPPORT_BOSE_PROTOCOL == 1
2707 if (irmp_pulse_time
>= BOSE_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= BOSE_START_BIT_PULSE_LEN_MAX
&&
2708 irmp_pause_time
>= BOSE_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= BOSE_START_BIT_PAUSE_LEN_MAX
)
2711 ANALYZE_PRINTF ("protocol = BOSE, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2712 BOSE_START_BIT_PULSE_LEN_MIN
, BOSE_START_BIT_PULSE_LEN_MAX
,
2713 BOSE_START_BIT_PAUSE_LEN_MIN
, BOSE_START_BIT_PAUSE_LEN_MAX
);
2715 irmp_param_p
= (IRMP_PARAMETER
*) &bose_param
;
2718 #endif // IRMP_SUPPORT_BOSE_PROTOCOL == 1
2720 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
2721 if (irmp_pulse_time
>= RC6_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RC6_START_BIT_PULSE_LEN_MAX
&&
2722 irmp_pause_time
>= RC6_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RC6_START_BIT_PAUSE_LEN_MAX
)
2725 ANALYZE_PRINTF ("protocol = RC6, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2726 RC6_START_BIT_PULSE_LEN_MIN
, RC6_START_BIT_PULSE_LEN_MAX
,
2727 RC6_START_BIT_PAUSE_LEN_MIN
, RC6_START_BIT_PAUSE_LEN_MAX
);
2729 irmp_param_p
= (IRMP_PARAMETER
*) &rc6_param
;
2734 #endif // IRMP_SUPPORT_RC6_PROTOCOL == 1
2736 #if IRMP_SUPPORT_RECS80EXT_PROTOCOL == 1
2737 if (irmp_pulse_time
>= RECS80EXT_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RECS80EXT_START_BIT_PULSE_LEN_MAX
&&
2738 irmp_pause_time
>= RECS80EXT_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RECS80EXT_START_BIT_PAUSE_LEN_MAX
)
2741 ANALYZE_PRINTF ("protocol = RECS80EXT, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2742 RECS80EXT_START_BIT_PULSE_LEN_MIN
, RECS80EXT_START_BIT_PULSE_LEN_MAX
,
2743 RECS80EXT_START_BIT_PAUSE_LEN_MIN
, RECS80EXT_START_BIT_PAUSE_LEN_MAX
);
2745 irmp_param_p
= (IRMP_PARAMETER
*) &recs80ext_param
;
2748 #endif // IRMP_SUPPORT_RECS80EXT_PROTOCOL == 1
2750 #if IRMP_SUPPORT_NUBERT_PROTOCOL == 1
2751 if (irmp_pulse_time
>= NUBERT_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NUBERT_START_BIT_PULSE_LEN_MAX
&&
2752 irmp_pause_time
>= NUBERT_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NUBERT_START_BIT_PAUSE_LEN_MAX
)
2755 ANALYZE_PRINTF ("protocol = NUBERT, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2756 NUBERT_START_BIT_PULSE_LEN_MIN
, NUBERT_START_BIT_PULSE_LEN_MAX
,
2757 NUBERT_START_BIT_PAUSE_LEN_MIN
, NUBERT_START_BIT_PAUSE_LEN_MAX
);
2759 irmp_param_p
= (IRMP_PARAMETER
*) &nubert_param
;
2762 #endif // IRMP_SUPPORT_NUBERT_PROTOCOL == 1
2764 #if IRMP_SUPPORT_SPEAKER_PROTOCOL == 1
2765 if (irmp_pulse_time
>= SPEAKER_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= SPEAKER_START_BIT_PULSE_LEN_MAX
&&
2766 irmp_pause_time
>= SPEAKER_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= SPEAKER_START_BIT_PAUSE_LEN_MAX
)
2769 ANALYZE_PRINTF ("protocol = SPEAKER, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2770 SPEAKER_START_BIT_PULSE_LEN_MIN
, SPEAKER_START_BIT_PULSE_LEN_MAX
,
2771 SPEAKER_START_BIT_PAUSE_LEN_MIN
, SPEAKER_START_BIT_PAUSE_LEN_MAX
);
2773 irmp_param_p
= (IRMP_PARAMETER
*) &speaker_param
;
2776 #endif // IRMP_SUPPORT_SPEAKER_PROTOCOL == 1
2778 #if IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
2779 if (irmp_pulse_time
>= BANG_OLUFSEN_START_BIT1_PULSE_LEN_MIN
&& irmp_pulse_time
<= BANG_OLUFSEN_START_BIT1_PULSE_LEN_MAX
&&
2780 irmp_pause_time
>= BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MAX
)
2781 { // it's BANG_OLUFSEN
2783 ANALYZE_PRINTF ("protocol = BANG_OLUFSEN\n");
2784 ANALYZE_PRINTF ("start bit 1 timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2785 BANG_OLUFSEN_START_BIT1_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT1_PULSE_LEN_MAX
,
2786 BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MAX
);
2787 ANALYZE_PRINTF ("start bit 2 timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2788 BANG_OLUFSEN_START_BIT2_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT2_PULSE_LEN_MAX
,
2789 BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MAX
);
2790 ANALYZE_PRINTF ("start bit 3 timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2791 BANG_OLUFSEN_START_BIT3_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT3_PULSE_LEN_MAX
,
2792 BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MAX
);
2793 ANALYZE_PRINTF ("start bit 4 timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2794 BANG_OLUFSEN_START_BIT4_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT4_PULSE_LEN_MAX
,
2795 BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MAX
);
2797 irmp_param_p
= (IRMP_PARAMETER
*) &bang_olufsen_param
;
2801 #endif // IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
2803 #if IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1
2804 if (irmp_pulse_time
>= GRUNDIG_NOKIA_IR60_START_BIT_LEN_MIN
&& irmp_pulse_time
<= GRUNDIG_NOKIA_IR60_START_BIT_LEN_MAX
&&
2805 irmp_pause_time
>= GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MIN
&& irmp_pause_time
<= GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MAX
)
2808 ANALYZE_PRINTF ("protocol = GRUNDIG, pre bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2809 GRUNDIG_NOKIA_IR60_START_BIT_LEN_MIN
, GRUNDIG_NOKIA_IR60_START_BIT_LEN_MAX
,
2810 GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MIN
, GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MAX
);
2812 irmp_param_p
= (IRMP_PARAMETER
*) &grundig_param
;
2813 last_pause
= irmp_pause_time
;
2817 #endif // IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1
2819 #if IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1
2820 if (((irmp_pulse_time
>= SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX
) ||
2821 (irmp_pulse_time
>= 2 * SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= 2 * SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX
)) &&
2822 ((irmp_pause_time
>= SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX
) ||
2823 (irmp_pause_time
>= 2 * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= 2 * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX
)))
2824 { // it's RUWIDO or SIEMENS
2826 ANALYZE_PRINTF ("protocol = RUWIDO, start bit timings: pulse: %3d - %3d or %3d - %3d, pause: %3d - %3d or %3d - %3d\n",
2827 SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN
, SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX
,
2828 2 * SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN
, 2 * SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX
,
2829 SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN
, SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX
,
2830 2 * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN
, 2 * SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX
);
2832 irmp_param_p
= (IRMP_PARAMETER
*) &ruwido_param
;
2833 last_pause
= irmp_pause_time
;
2837 #endif // IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1
2839 #if IRMP_SUPPORT_FDC_PROTOCOL == 1
2840 if (irmp_pulse_time
>= FDC_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= FDC_START_BIT_PULSE_LEN_MAX
&&
2841 irmp_pause_time
>= FDC_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_START_BIT_PAUSE_LEN_MAX
)
2844 ANALYZE_PRINTF ("protocol = FDC, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2845 FDC_START_BIT_PULSE_LEN_MIN
, FDC_START_BIT_PULSE_LEN_MAX
,
2846 FDC_START_BIT_PAUSE_LEN_MIN
, FDC_START_BIT_PAUSE_LEN_MAX
);
2848 irmp_param_p
= (IRMP_PARAMETER
*) &fdc_param
;
2851 #endif // IRMP_SUPPORT_FDC_PROTOCOL == 1
2853 #if IRMP_SUPPORT_RCCAR_PROTOCOL == 1
2854 if (irmp_pulse_time
>= RCCAR_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RCCAR_START_BIT_PULSE_LEN_MAX
&&
2855 irmp_pause_time
>= RCCAR_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_START_BIT_PAUSE_LEN_MAX
)
2858 ANALYZE_PRINTF ("protocol = RCCAR, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2859 RCCAR_START_BIT_PULSE_LEN_MIN
, RCCAR_START_BIT_PULSE_LEN_MAX
,
2860 RCCAR_START_BIT_PAUSE_LEN_MIN
, RCCAR_START_BIT_PAUSE_LEN_MAX
);
2862 irmp_param_p
= (IRMP_PARAMETER
*) &rccar_param
;
2865 #endif // IRMP_SUPPORT_RCCAR_PROTOCOL == 1
2867 #if IRMP_SUPPORT_KATHREIN_PROTOCOL == 1
2868 if (irmp_pulse_time
>= KATHREIN_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= KATHREIN_START_BIT_PULSE_LEN_MAX
&&
2869 irmp_pause_time
>= KATHREIN_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= KATHREIN_START_BIT_PAUSE_LEN_MAX
)
2872 ANALYZE_PRINTF ("protocol = KATHREIN, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2873 KATHREIN_START_BIT_PULSE_LEN_MIN
, KATHREIN_START_BIT_PULSE_LEN_MAX
,
2874 KATHREIN_START_BIT_PAUSE_LEN_MIN
, KATHREIN_START_BIT_PAUSE_LEN_MAX
);
2876 irmp_param_p
= (IRMP_PARAMETER
*) &kathrein_param
;
2879 #endif // IRMP_SUPPORT_KATHREIN_PROTOCOL == 1
2881 #if IRMP_SUPPORT_NETBOX_PROTOCOL == 1
2882 if (irmp_pulse_time
>= NETBOX_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= NETBOX_START_BIT_PULSE_LEN_MAX
&&
2883 irmp_pause_time
>= NETBOX_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NETBOX_START_BIT_PAUSE_LEN_MAX
)
2886 ANALYZE_PRINTF ("protocol = NETBOX, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2887 NETBOX_START_BIT_PULSE_LEN_MIN
, NETBOX_START_BIT_PULSE_LEN_MAX
,
2888 NETBOX_START_BIT_PAUSE_LEN_MIN
, NETBOX_START_BIT_PAUSE_LEN_MAX
);
2890 irmp_param_p
= (IRMP_PARAMETER
*) &netbox_param
;
2893 #endif // IRMP_SUPPORT_NETBOX_PROTOCOL == 1
2895 #if IRMP_SUPPORT_LEGO_PROTOCOL == 1
2896 if (irmp_pulse_time
>= LEGO_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= LEGO_START_BIT_PULSE_LEN_MAX
&&
2897 irmp_pause_time
>= LEGO_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= LEGO_START_BIT_PAUSE_LEN_MAX
)
2900 ANALYZE_PRINTF ("protocol = LEGO, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2901 LEGO_START_BIT_PULSE_LEN_MIN
, LEGO_START_BIT_PULSE_LEN_MAX
,
2902 LEGO_START_BIT_PAUSE_LEN_MIN
, LEGO_START_BIT_PAUSE_LEN_MAX
);
2904 irmp_param_p
= (IRMP_PARAMETER
*) &lego_param
;
2907 #endif // IRMP_SUPPORT_LEGO_PROTOCOL == 1
2909 #if IRMP_SUPPORT_A1TVBOX_PROTOCOL == 1
2910 if (irmp_pulse_time
>= A1TVBOX_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= A1TVBOX_START_BIT_PULSE_LEN_MAX
&&
2911 irmp_pause_time
>= A1TVBOX_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= A1TVBOX_START_BIT_PAUSE_LEN_MAX
)
2914 ANALYZE_PRINTF ("protocol = A1TVBOX, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2915 A1TVBOX_START_BIT_PULSE_LEN_MIN
, A1TVBOX_START_BIT_PULSE_LEN_MAX
,
2916 A1TVBOX_START_BIT_PAUSE_LEN_MIN
, A1TVBOX_START_BIT_PAUSE_LEN_MAX
);
2918 irmp_param_p
= (IRMP_PARAMETER
*) &a1tvbox_param
;
2923 #endif // IRMP_SUPPORT_A1TVBOX_PROTOCOL == 1
2925 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
2926 if (irmp_pulse_time
>= ORTEK_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= ORTEK_START_BIT_PULSE_LEN_MAX
&&
2927 irmp_pause_time
>= ORTEK_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= ORTEK_START_BIT_PAUSE_LEN_MAX
)
2928 { // it's ORTEK (Hama)
2930 ANALYZE_PRINTF ("protocol = ORTEK, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2931 ORTEK_START_BIT_PULSE_LEN_MIN
, ORTEK_START_BIT_PULSE_LEN_MAX
,
2932 ORTEK_START_BIT_PAUSE_LEN_MIN
, ORTEK_START_BIT_PAUSE_LEN_MAX
);
2934 irmp_param_p
= (IRMP_PARAMETER
*) &ortek_param
;
2940 #endif // IRMP_SUPPORT_ORTEK_PROTOCOL == 1
2942 #if IRMP_SUPPORT_RCMM_PROTOCOL == 1
2943 if (irmp_pulse_time
>= RCMM32_START_BIT_PULSE_LEN_MIN
&& irmp_pulse_time
<= RCMM32_START_BIT_PULSE_LEN_MAX
&&
2944 irmp_pause_time
>= RCMM32_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCMM32_START_BIT_PAUSE_LEN_MAX
)
2947 ANALYZE_PRINTF ("protocol = RCMM, start bit timings: pulse: %3d - %3d, pause: %3d - %3d\n",
2948 RCMM32_START_BIT_PULSE_LEN_MIN
, RCMM32_START_BIT_PULSE_LEN_MAX
,
2949 RCMM32_START_BIT_PAUSE_LEN_MIN
, RCMM32_START_BIT_PAUSE_LEN_MAX
);
2951 irmp_param_p
= (IRMP_PARAMETER
*) &rcmm_param
;
2954 #endif // IRMP_SUPPORT_RCMM_PROTOCOL == 1
2957 ANALYZE_PRINTF ("protocol = UNKNOWN\n");
2959 irmp_start_bit_detected
= 0; // wait for another start bit...
2962 if (irmp_start_bit_detected
)
2964 memcpy_P (&irmp_param
, irmp_param_p
, sizeof (IRMP_PARAMETER
));
2966 if (! (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
))
2969 ANALYZE_PRINTF ("pulse_1: %3d - %3d\n", irmp_param
.pulse_1_len_min
, irmp_param
.pulse_1_len_max
);
2970 ANALYZE_PRINTF ("pause_1: %3d - %3d\n", irmp_param
.pause_1_len_min
, irmp_param
.pause_1_len_max
);
2976 ANALYZE_PRINTF ("pulse: %3d - %3d or %3d - %3d\n", irmp_param
.pulse_1_len_min
, irmp_param
.pulse_1_len_max
,
2977 2 * irmp_param
.pulse_1_len_min
, 2 * irmp_param
.pulse_1_len_max
);
2978 ANALYZE_PRINTF ("pause: %3d - %3d or %3d - %3d\n", irmp_param
.pause_1_len_min
, irmp_param
.pause_1_len_max
,
2979 2 * irmp_param
.pause_1_len_min
, 2 * irmp_param
.pause_1_len_max
);
2983 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
2984 if (irmp_param2
.protocol
)
2987 ANALYZE_PRINTF ("pulse_0: %3d - %3d\n", irmp_param2
.pulse_0_len_min
, irmp_param2
.pulse_0_len_max
);
2988 ANALYZE_PRINTF ("pause_0: %3d - %3d\n", irmp_param2
.pause_0_len_min
, irmp_param2
.pause_0_len_max
);
2989 ANALYZE_PRINTF ("pulse_1: %3d - %3d\n", irmp_param2
.pulse_1_len_min
, irmp_param2
.pulse_1_len_max
);
2990 ANALYZE_PRINTF ("pause_1: %3d - %3d\n", irmp_param2
.pause_1_len_min
, irmp_param2
.pause_1_len_max
);
2996 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
2997 if (irmp_param
.protocol
== IRMP_RC6_PROTOCOL
)
3000 ANALYZE_PRINTF ("pulse_toggle: %3d - %3d\n", RC6_TOGGLE_BIT_LEN_MIN
, RC6_TOGGLE_BIT_LEN_MAX
);
3005 if (! (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
))
3008 ANALYZE_PRINTF ("pulse_0: %3d - %3d\n", irmp_param
.pulse_0_len_min
, irmp_param
.pulse_0_len_max
);
3009 ANALYZE_PRINTF ("pause_0: %3d - %3d\n", irmp_param
.pause_0_len_min
, irmp_param
.pause_0_len_max
);
3015 ANALYZE_PRINTF ("pulse: %3d - %3d or %3d - %3d\n", irmp_param
.pulse_0_len_min
, irmp_param
.pulse_0_len_max
,
3016 2 * irmp_param
.pulse_0_len_min
, 2 * irmp_param
.pulse_0_len_max
);
3017 ANALYZE_PRINTF ("pause: %3d - %3d or %3d - %3d\n", irmp_param
.pause_0_len_min
, irmp_param
.pause_0_len_max
,
3018 2 * irmp_param
.pause_0_len_min
, 2 * irmp_param
.pause_0_len_max
);
3023 #if IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
3024 if (irmp_param
.protocol
== IRMP_BANG_OLUFSEN_PROTOCOL
)
3026 ANALYZE_PRINTF ("pulse_r: %3d - %3d\n", irmp_param
.pulse_0_len_min
, irmp_param
.pulse_0_len_max
);
3027 ANALYZE_PRINTF ("pause_r: %3d - %3d\n", BANG_OLUFSEN_R_PAUSE_LEN_MIN
, BANG_OLUFSEN_R_PAUSE_LEN_MAX
);
3031 ANALYZE_PRINTF ("command_offset: %2d\n", irmp_param
.command_offset
);
3032 ANALYZE_PRINTF ("command_len: %3d\n", irmp_param
.command_end
- irmp_param
.command_offset
);
3033 ANALYZE_PRINTF ("complete_len: %3d\n", irmp_param
.complete_len
);
3034 ANALYZE_PRINTF ("stop_bit: %3d\n", irmp_param
.stop_bit
);
3040 #if IRMP_SUPPORT_MANCHESTER == 1
3041 if ((irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
) &&
3042 irmp_param
.protocol
!= IRMP_RUWIDO_PROTOCOL
&& // Manchester, but not RUWIDO
3043 irmp_param
.protocol
!= IRMP_RC6_PROTOCOL
) // Manchester, but not RC6
3045 if (irmp_pause_time
> irmp_param
.pulse_1_len_max
&& irmp_pause_time
<= 2 * irmp_param
.pulse_1_len_max
)
3048 ANALYZE_PRINTF ("%8.3fms [bit %2d: pulse = %3d, pause = %3d] ", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3049 ANALYZE_PUTCHAR ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? '0' : '1');
3052 irmp_store_bit ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? 0 : 1);
3054 else if (! last_value
) // && irmp_pause_time >= irmp_param.pause_1_len_min && irmp_pause_time <= irmp_param.pause_1_len_max)
3057 ANALYZE_PRINTF ("%8.3fms [bit %2d: pulse = %3d, pause = %3d] ", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3058 ANALYZE_PUTCHAR ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? '1' : '0');
3061 irmp_store_bit ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? 1 : 0);
3065 #endif // IRMP_SUPPORT_MANCHESTER == 1
3067 #if IRMP_SUPPORT_SERIAL == 1
3068 if (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_SERIAL
)
3073 #endif // IRMP_SUPPORT_SERIAL == 1
3076 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
3077 if (irmp_param
.protocol
== IRMP_DENON_PROTOCOL
)
3080 ANALYZE_PRINTF ("%8.3fms [bit %2d: pulse = %3d, pause = %3d] ", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3083 if (irmp_pause_time
>= DENON_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= DENON_1_PAUSE_LEN_MAX
)
3084 { // pause timings correct for "1"?
3086 ANALYZE_PUTCHAR ('1'); // yes, store 1
3091 else // if (irmp_pause_time >= DENON_0_PAUSE_LEN_MIN && irmp_pause_time <= DENON_0_PAUSE_LEN_MAX)
3092 { // pause timings correct for "0"?
3094 ANALYZE_PUTCHAR ('0'); // yes, store 0
3101 #endif // IRMP_SUPPORT_DENON_PROTOCOL == 1
3102 #if IRMP_SUPPORT_THOMSON_PROTOCOL == 1
3103 if (irmp_param
.protocol
== IRMP_THOMSON_PROTOCOL
)
3106 ANALYZE_PRINTF ("%8.3fms [bit %2d: pulse = %3d, pause = %3d] ", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3109 if (irmp_pause_time
>= THOMSON_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= THOMSON_1_PAUSE_LEN_MAX
)
3110 { // pause timings correct for "1"?
3112 ANALYZE_PUTCHAR ('1'); // yes, store 1
3117 else // if (irmp_pause_time >= THOMSON_0_PAUSE_LEN_MIN && irmp_pause_time <= THOMSON_0_PAUSE_LEN_MAX)
3118 { // pause timings correct for "0"?
3120 ANALYZE_PUTCHAR ('0'); // yes, store 0
3127 #endif // IRMP_SUPPORT_THOMSON_PROTOCOL == 1
3129 ; // else do nothing
3132 irmp_pulse_time
= 1; // set counter to 1, not 0
3133 irmp_pause_time
= 0;
3134 wait_for_start_space
= 0;
3137 else if (wait_for_space
) // the data section....
3138 { // counting the time of darkness....
3139 uint8_t got_light
= FALSE
;
3141 if (irmp_input
) // still dark?
3143 if (irmp_bit
== irmp_param
.complete_len
&& irmp_param
.stop_bit
== 1)
3146 #if IRMP_SUPPORT_MANCHESTER == 1
3147 (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
) ||
3149 #if IRMP_SUPPORT_SERIAL == 1
3150 (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_SERIAL
) ||
3152 (irmp_pulse_time
>= irmp_param
.pulse_0_len_min
&& irmp_pulse_time
<= irmp_param
.pulse_0_len_max
))
3155 if (! (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
))
3157 ANALYZE_PRINTF ("stop bit detected\n");
3160 irmp_param
.stop_bit
= 0;
3165 ANALYZE_PRINTF ("error: stop bit timing wrong, irmp_bit = %d, irmp_pulse_time = %d, pulse_0_len_min = %d, pulse_0_len_max = %d\n",
3166 irmp_bit
, irmp_pulse_time
, irmp_param
.pulse_0_len_min
, irmp_param
.pulse_0_len_max
);
3168 irmp_start_bit_detected
= 0; // wait for another start bit...
3169 irmp_pulse_time
= 0;
3170 irmp_pause_time
= 0;
3175 irmp_pause_time
++; // increment counter
3177 #if IRMP_SUPPORT_SIRCS_PROTOCOL == 1
3178 if (irmp_param
.protocol
== IRMP_SIRCS_PROTOCOL
&& // Sony has a variable number of bits:
3179 irmp_pause_time
> SIRCS_PAUSE_LEN_MAX
&& // minimum is 12
3180 irmp_bit
>= 12 - 1) // pause too long?
3181 { // yes, break and close this frame
3182 irmp_param
.complete_len
= irmp_bit
+ 1; // set new complete length
3183 got_light
= TRUE
; // this is a lie, but helps (generates stop bit)
3184 irmp_tmp_address
|= (irmp_bit
- SIRCS_MINIMUM_DATA_LEN
+ 1) << 8; // new: store number of additional bits in upper byte of address!
3185 irmp_param
.command_end
= irmp_param
.command_offset
+ irmp_bit
+ 1; // correct command length
3186 irmp_pause_time
= SIRCS_PAUSE_LEN_MAX
- 1; // correct pause length
3190 #if IRMP_SUPPORT_SERIAL == 1
3191 // NETBOX generates no stop bit, here is the timeout condition:
3192 if ((irmp_param
.flags
& IRMP_PARAM_FLAG_IS_SERIAL
) && irmp_param
.protocol
== IRMP_NETBOX_PROTOCOL
&&
3193 irmp_pause_time
>= NETBOX_PULSE_LEN
* (NETBOX_COMPLETE_DATA_LEN
- irmp_bit
))
3195 got_light
= TRUE
; // this is a lie, but helps (generates stop bit)
3199 #if IRMP_SUPPORT_GRUNDIG_NOKIA_IR60_PROTOCOL == 1
3200 if (irmp_param
.protocol
== IRMP_GRUNDIG_PROTOCOL
&& !irmp_param
.stop_bit
)
3202 if (irmp_pause_time
> IR60_TIMEOUT_LEN
&& (irmp_bit
== 5 || irmp_bit
== 6))
3205 ANALYZE_PRINTF ("Switching to IR60 protocol\n");
3207 got_light
= TRUE
; // this is a lie, but generates a stop bit ;-)
3208 irmp_param
.stop_bit
= TRUE
; // set flag
3210 irmp_param
.protocol
= IRMP_IR60_PROTOCOL
; // change protocol
3211 irmp_param
.complete_len
= IR60_COMPLETE_DATA_LEN
; // correct complete len
3212 irmp_param
.address_offset
= IR60_ADDRESS_OFFSET
;
3213 irmp_param
.address_end
= IR60_ADDRESS_OFFSET
+ IR60_ADDRESS_LEN
;
3214 irmp_param
.command_offset
= IR60_COMMAND_OFFSET
;
3215 irmp_param
.command_end
= IR60_COMMAND_OFFSET
+ IR60_COMMAND_LEN
;
3217 irmp_tmp_command
<<= 1;
3218 irmp_tmp_command
|= first_bit
;
3220 else if (irmp_pause_time
>= 2 * irmp_param
.pause_1_len_max
&& irmp_bit
>= GRUNDIG_COMPLETE_DATA_LEN
- 2)
3221 { // special manchester decoder
3222 irmp_param
.complete_len
= GRUNDIG_COMPLETE_DATA_LEN
; // correct complete len
3223 got_light
= TRUE
; // this is a lie, but generates a stop bit ;-)
3224 irmp_param
.stop_bit
= TRUE
; // set flag
3226 else if (irmp_bit
>= GRUNDIG_COMPLETE_DATA_LEN
)
3229 ANALYZE_PRINTF ("Switching to NOKIA protocol\n");
3231 irmp_param
.protocol
= IRMP_NOKIA_PROTOCOL
; // change protocol
3232 irmp_param
.address_offset
= NOKIA_ADDRESS_OFFSET
;
3233 irmp_param
.address_end
= NOKIA_ADDRESS_OFFSET
+ NOKIA_ADDRESS_LEN
;
3234 irmp_param
.command_offset
= NOKIA_COMMAND_OFFSET
;
3235 irmp_param
.command_end
= NOKIA_COMMAND_OFFSET
+ NOKIA_COMMAND_LEN
;
3237 if (irmp_tmp_command
& 0x300)
3239 irmp_tmp_address
= (irmp_tmp_command
>> 8);
3240 irmp_tmp_command
&= 0xFF;
3246 #if IRMP_SUPPORT_SIEMENS_OR_RUWIDO_PROTOCOL == 1
3247 if (irmp_param
.protocol
== IRMP_RUWIDO_PROTOCOL
&& !irmp_param
.stop_bit
)
3249 if (irmp_pause_time
>= 2 * irmp_param
.pause_1_len_max
&& irmp_bit
>= RUWIDO_COMPLETE_DATA_LEN
- 2)
3250 { // special manchester decoder
3251 irmp_param
.complete_len
= RUWIDO_COMPLETE_DATA_LEN
; // correct complete len
3252 got_light
= TRUE
; // this is a lie, but generates a stop bit ;-)
3253 irmp_param
.stop_bit
= TRUE
; // set flag
3255 else if (irmp_bit
>= RUWIDO_COMPLETE_DATA_LEN
)
3258 ANALYZE_PRINTF ("Switching to SIEMENS protocol\n");
3260 irmp_param
.protocol
= IRMP_SIEMENS_PROTOCOL
; // change protocol
3261 irmp_param
.address_offset
= SIEMENS_ADDRESS_OFFSET
;
3262 irmp_param
.address_end
= SIEMENS_ADDRESS_OFFSET
+ SIEMENS_ADDRESS_LEN
;
3263 irmp_param
.command_offset
= SIEMENS_COMMAND_OFFSET
;
3264 irmp_param
.command_end
= SIEMENS_COMMAND_OFFSET
+ SIEMENS_COMMAND_LEN
;
3267 // RUWIDO: AAAAAAAAACCCCCCCp
3268 // SIEMENS: AAAAAAAAAAACCCCCCCCCCp
3269 irmp_tmp_address
<<= 2;
3270 irmp_tmp_address
|= (irmp_tmp_command
>> 6);
3271 irmp_tmp_command
&= 0x003F;
3272 // irmp_tmp_command <<= 4;
3273 irmp_tmp_command
|= last_value
;
3278 #if IRMP_SUPPORT_ROOMBA_PROTOCOL == 1
3279 if (irmp_param
.protocol
== IRMP_ROOMBA_PROTOCOL
&& // Roomba has no stop bit
3280 irmp_bit
>= ROOMBA_COMPLETE_DATA_LEN
- 1) // it's the last data bit...
3281 { // break and close this frame
3282 if (irmp_pulse_time
>= ROOMBA_1_PULSE_LEN_MIN
&& irmp_pulse_time
<= ROOMBA_1_PULSE_LEN_MAX
)
3284 irmp_pause_time
= ROOMBA_1_PAUSE_LEN_EXACT
;
3286 else if (irmp_pulse_time
>= ROOMBA_0_PULSE_LEN_MIN
&& irmp_pulse_time
<= ROOMBA_0_PULSE_LEN_MAX
)
3288 irmp_pause_time
= ROOMBA_0_PAUSE_LEN
;
3291 got_light
= TRUE
; // this is a lie, but helps (generates stop bit)
3295 #if IRMP_SUPPORT_MANCHESTER == 1
3296 if ((irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
) &&
3297 irmp_pause_time
>= 2 * irmp_param
.pause_1_len_max
&& irmp_bit
>= irmp_param
.complete_len
- 2 && !irmp_param
.stop_bit
)
3298 { // special manchester decoder
3299 got_light
= TRUE
; // this is a lie, but generates a stop bit ;-)
3300 irmp_param
.stop_bit
= TRUE
; // set flag
3303 #endif // IRMP_SUPPORT_MANCHESTER == 1
3304 if (irmp_pause_time
> IRMP_TIMEOUT_LEN
) // timeout?
3306 if (irmp_bit
== irmp_param
.complete_len
- 1 && irmp_param
.stop_bit
== 0)
3310 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
3311 else if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
&& (irmp_bit
== 16 || irmp_bit
== 17)) // it was a JVC stop bit
3314 ANALYZE_PRINTF ("Switching to JVC protocol, irmp_bit = %d\n", irmp_bit
);
3316 irmp_param
.stop_bit
= TRUE
; // set flag
3317 irmp_param
.protocol
= IRMP_JVC_PROTOCOL
; // switch protocol
3318 irmp_param
.complete_len
= irmp_bit
; // patch length: 16 or 17
3319 irmp_tmp_command
= (irmp_tmp_address
>> 4); // set command: upper 12 bits are command bits
3320 irmp_tmp_address
= irmp_tmp_address
& 0x000F; // lower 4 bits are address bits
3321 irmp_start_bit_detected
= 1; // tricky: don't wait for another start bit...
3323 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
3324 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
3325 else if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
&& (irmp_bit
== 28 || irmp_bit
== 29)) // it was a LGAIR stop bit
3328 ANALYZE_PRINTF ("Switching to LGAIR protocol, irmp_bit = %d\n", irmp_bit
);
3330 irmp_param
.stop_bit
= TRUE
; // set flag
3331 irmp_param
.protocol
= IRMP_LGAIR_PROTOCOL
; // switch protocol
3332 irmp_param
.complete_len
= irmp_bit
; // patch length: 16 or 17
3333 irmp_tmp_command
= irmp_lgair_command
; // set command: upper 8 bits are command bits
3334 irmp_tmp_address
= irmp_lgair_address
; // lower 4 bits are address bits
3335 irmp_start_bit_detected
= 1; // tricky: don't wait for another start bit...
3337 #endif // IRMP_SUPPORT_LGAIR_PROTOCOL == 1
3339 #if IRMP_SUPPORT_NEC42_PROTOCOL == 1
3340 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
3341 else if (irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
&& irmp_bit
== 32) // it was a NEC stop bit
3344 ANALYZE_PRINTF ("Switching to NEC protocol\n");
3346 irmp_param
.stop_bit
= TRUE
; // set flag
3347 irmp_param
.protocol
= IRMP_NEC_PROTOCOL
; // switch protocol
3348 irmp_param
.complete_len
= irmp_bit
; // patch length: 16 or 17
3350 // 0123456789ABC0123456789ABC0123456701234567
3351 // NEC42: AAAAAAAAAAAAAaaaaaaaaaaaaaCCCCCCCCcccccccc
3352 // NEC: AAAAAAAAaaaaaaaaCCCCCCCCcccccccc
3353 irmp_tmp_address
|= (irmp_tmp_address2
& 0x0007) << 13; // fm 2012-02-13: 12 -> 13
3354 irmp_tmp_command
= (irmp_tmp_address2
>> 3) | (irmp_tmp_command
<< 10);
3356 #endif // IRMP_SUPPORT_NEC_PROTOCOL == 1
3357 #if IRMP_SUPPORT_LGAIR_PROTOCOL == 1
3358 else if (irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
&& irmp_bit
== 28) // it was a NEC stop bit
3361 ANALYZE_PRINTF ("Switching to LGAIR protocol\n");
3363 irmp_param
.stop_bit
= TRUE
; // set flag
3364 irmp_param
.protocol
= IRMP_LGAIR_PROTOCOL
; // switch protocol
3365 irmp_param
.complete_len
= irmp_bit
; // patch length: 16 or 17
3366 irmp_tmp_address
= irmp_lgair_address
;
3367 irmp_tmp_command
= irmp_lgair_command
;
3369 #endif // IRMP_SUPPORT_LGAIR_PROTOCOL == 1
3370 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
3371 else if (irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
&& (irmp_bit
== 16 || irmp_bit
== 17)) // it was a JVC stop bit
3374 ANALYZE_PRINTF ("Switching to JVC protocol, irmp_bit = %d\n", irmp_bit
);
3376 irmp_param
.stop_bit
= TRUE
; // set flag
3377 irmp_param
.protocol
= IRMP_JVC_PROTOCOL
; // switch protocol
3378 irmp_param
.complete_len
= irmp_bit
; // patch length: 16 or 17
3380 // 0123456789ABC0123456789ABC0123456701234567
3381 // NEC42: AAAAAAAAAAAAAaaaaaaaaaaaaaCCCCCCCCcccccccc
3382 // JVC: AAAACCCCCCCCCCCC
3383 irmp_tmp_command
= (irmp_tmp_address
>> 4) | (irmp_tmp_address2
<< 9); // set command: upper 12 bits are command bits
3384 irmp_tmp_address
= irmp_tmp_address
& 0x000F; // lower 4 bits are address bits
3386 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
3387 #endif // IRMP_SUPPORT_NEC42_PROTOCOL == 1
3389 #if IRMP_SUPPORT_SAMSUNG48_PROTOCOL == 1
3390 else if (irmp_param
.protocol
== IRMP_SAMSUNG48_PROTOCOL
&& irmp_bit
== 32) // it was a SAMSUNG32 stop bit
3393 ANALYZE_PRINTF ("Switching to SAMSUNG32 protocol\n");
3395 irmp_param
.protocol
= IRMP_SAMSUNG32_PROTOCOL
;
3396 irmp_param
.command_offset
= SAMSUNG32_COMMAND_OFFSET
;
3397 irmp_param
.command_end
= SAMSUNG32_COMMAND_OFFSET
+ SAMSUNG32_COMMAND_LEN
;
3398 irmp_param
.complete_len
= SAMSUNG32_COMPLETE_DATA_LEN
;
3400 #endif // IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
3402 #if IRMP_SUPPORT_RCMM_PROTOCOL == 1
3403 else if (irmp_param
.protocol
== IRMP_RCMM32_PROTOCOL
&& (irmp_bit
== 12 || irmp_bit
== 24)) // it was a RCMM stop bit
3407 irmp_tmp_command
= (irmp_tmp_address
& 0xFF); // set command: lower 8 bits are command bits
3408 irmp_tmp_address
>>= 8; // upper 4 bits are address bits
3411 ANALYZE_PRINTF ("Switching to RCMM12 protocol, irmp_bit = %d\n", irmp_bit
);
3413 irmp_param
.protocol
= IRMP_RCMM12_PROTOCOL
; // switch protocol
3415 else // if ((irmp_bit == 24)
3418 ANALYZE_PRINTF ("Switching to RCMM24 protocol, irmp_bit = %d\n", irmp_bit
);
3420 irmp_param
.protocol
= IRMP_RCMM24_PROTOCOL
; // switch protocol
3422 irmp_param
.stop_bit
= TRUE
; // set flag
3423 irmp_param
.complete_len
= irmp_bit
; // patch length
3425 #endif // IRMP_SUPPORT_RCMM_PROTOCOL == 1
3429 ANALYZE_PRINTF ("error 2: pause %d after data bit %d too long\n", irmp_pause_time
, irmp_bit
);
3430 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3432 irmp_start_bit_detected
= 0; // wait for another start bit...
3433 irmp_pulse_time
= 0;
3434 irmp_pause_time
= 0;
3447 ANALYZE_PRINTF ("%8.3fms [bit %2d: pulse = %3d, pause = %3d] ", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3450 #if IRMP_SUPPORT_MANCHESTER == 1
3451 if ((irmp_param
.flags
& IRMP_PARAM_FLAG_IS_MANCHESTER
)) // Manchester
3454 if (irmp_pulse_time
> irmp_param
.pulse_1_len_max
/* && irmp_pulse_time <= 2 * irmp_param.pulse_1_len_max */)
3455 #else // better, but some IR-RCs use asymmetric timings :-/
3456 if (irmp_pulse_time
> irmp_param
.pulse_1_len_max
&& irmp_pulse_time
<= 2 * irmp_param
.pulse_1_len_max
&&
3457 irmp_pause_time
<= 2 * irmp_param
.pause_1_len_max
)
3460 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
3461 if (irmp_param
.protocol
== IRMP_RC6_PROTOCOL
&& irmp_bit
== 4 && irmp_pulse_time
> RC6_TOGGLE_BIT_LEN_MIN
) // RC6 toggle bit
3464 ANALYZE_PUTCHAR ('T');
3466 if (irmp_param
.complete_len
== RC6_COMPLETE_DATA_LEN_LONG
) // RC6 mode 6A
3481 #endif // IRMP_SUPPORT_RC6_PROTOCOL == 1
3484 ANALYZE_PUTCHAR ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? '0' : '1');
3486 irmp_store_bit ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? 0 : 1 );
3488 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
3489 if (irmp_param
.protocol
== IRMP_RC6_PROTOCOL
&& irmp_bit
== 4 && irmp_pulse_time
> RC6_TOGGLE_BIT_LEN_MIN
) // RC6 toggle bit
3492 ANALYZE_PUTCHAR ('T');
3496 if (irmp_pause_time
> 2 * irmp_param
.pause_1_len_max
)
3509 #endif // IRMP_SUPPORT_RC6_PROTOCOL == 1
3512 ANALYZE_PUTCHAR ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? '1' : '0');
3514 irmp_store_bit ((irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? 1 : 0 );
3515 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
3516 if (! irmp_param2
.protocol
)
3523 last_value
= (irmp_param
.flags
& IRMP_PARAM_FLAG_1ST_PULSE_IS_1
) ? 1 : 0;
3527 else if (irmp_pulse_time
>= irmp_param
.pulse_1_len_min
&& irmp_pulse_time
<= irmp_param
.pulse_1_len_max
3528 /* && irmp_pause_time <= 2 * irmp_param.pause_1_len_max */)
3530 uint8_t manchester_value
;
3532 if (last_pause
> irmp_param
.pause_1_len_max
&& last_pause
<= 2 * irmp_param
.pause_1_len_max
)
3534 manchester_value
= last_value
? 0 : 1;
3535 last_value
= manchester_value
;
3539 manchester_value
= last_value
;
3543 ANALYZE_PUTCHAR (manchester_value
+ '0');
3546 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && (IRMP_SUPPORT_FDC_PROTOCOL == 1 || IRMP_SUPPORT_RCCAR_PROTOCOL == 1)
3547 if (! irmp_param2
.protocol
)
3555 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
3556 if (irmp_param
.protocol
== IRMP_RC6_PROTOCOL
&& irmp_bit
== 1 && manchester_value
== 1) // RC6 mode != 0 ???
3559 ANALYZE_PRINTF ("Switching to RC6A protocol\n");
3561 irmp_param
.complete_len
= RC6_COMPLETE_DATA_LEN_LONG
;
3562 irmp_param
.address_offset
= 5;
3563 irmp_param
.address_end
= irmp_param
.address_offset
+ 15;
3564 irmp_param
.command_offset
= irmp_param
.address_end
+ 1; // skip 1 system bit, changes like a toggle bit
3565 irmp_param
.command_end
= irmp_param
.command_offset
+ 16 - 1;
3566 irmp_tmp_address
= 0;
3568 #endif // IRMP_SUPPORT_RC6_PROTOCOL == 1
3570 irmp_store_bit (manchester_value
);
3574 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && IRMP_SUPPORT_FDC_PROTOCOL == 1
3575 if (irmp_param2
.protocol
== IRMP_FDC_PROTOCOL
&&
3576 irmp_pulse_time
>= FDC_PULSE_LEN_MIN
&& irmp_pulse_time
<= FDC_PULSE_LEN_MAX
&&
3577 ((irmp_pause_time
>= FDC_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_1_PAUSE_LEN_MAX
) ||
3578 (irmp_pause_time
>= FDC_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_0_PAUSE_LEN_MAX
)))
3581 ANALYZE_PUTCHAR ('?');
3583 irmp_param
.protocol
= 0; // switch to FDC, see below
3586 #endif // IRMP_SUPPORT_FDC_PROTOCOL == 1
3587 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && IRMP_SUPPORT_RCCAR_PROTOCOL == 1
3588 if (irmp_param2
.protocol
== IRMP_RCCAR_PROTOCOL
&&
3589 irmp_pulse_time
>= RCCAR_PULSE_LEN_MIN
&& irmp_pulse_time
<= RCCAR_PULSE_LEN_MAX
&&
3590 ((irmp_pause_time
>= RCCAR_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_1_PAUSE_LEN_MAX
) ||
3591 (irmp_pause_time
>= RCCAR_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_0_PAUSE_LEN_MAX
)))
3594 ANALYZE_PUTCHAR ('?');
3596 irmp_param
.protocol
= 0; // switch to RCCAR, see below
3599 #endif // IRMP_SUPPORT_RCCAR_PROTOCOL == 1
3602 ANALYZE_PUTCHAR ('?');
3604 ANALYZE_PRINTF ("error 3 manchester: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3605 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3607 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3608 irmp_pause_time
= 0;
3612 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && IRMP_SUPPORT_FDC_PROTOCOL == 1
3613 if (irmp_param2
.protocol
== IRMP_FDC_PROTOCOL
&& irmp_pulse_time
>= FDC_PULSE_LEN_MIN
&& irmp_pulse_time
<= FDC_PULSE_LEN_MAX
)
3615 if (irmp_pause_time
>= FDC_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_1_PAUSE_LEN_MAX
)
3618 ANALYZE_PRINTF (" 1 (FDC)\n");
3620 irmp_store_bit2 (1);
3622 else if (irmp_pause_time
>= FDC_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= FDC_0_PAUSE_LEN_MAX
)
3625 ANALYZE_PRINTF (" 0 (FDC)\n");
3627 irmp_store_bit2 (0);
3630 if (! irmp_param
.protocol
)
3633 ANALYZE_PRINTF ("Switching to FDC protocol\n");
3635 memcpy (&irmp_param
, &irmp_param2
, sizeof (IRMP_PARAMETER
));
3636 irmp_param2
.protocol
= 0;
3637 irmp_tmp_address
= irmp_tmp_address2
;
3638 irmp_tmp_command
= irmp_tmp_command2
;
3641 #endif // IRMP_SUPPORT_FDC_PROTOCOL == 1
3642 #if IRMP_SUPPORT_RC5_PROTOCOL == 1 && IRMP_SUPPORT_RCCAR_PROTOCOL == 1
3643 if (irmp_param2
.protocol
== IRMP_RCCAR_PROTOCOL
&& irmp_pulse_time
>= RCCAR_PULSE_LEN_MIN
&& irmp_pulse_time
<= RCCAR_PULSE_LEN_MAX
)
3645 if (irmp_pause_time
>= RCCAR_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_1_PAUSE_LEN_MAX
)
3648 ANALYZE_PRINTF (" 1 (RCCAR)\n");
3650 irmp_store_bit2 (1);
3652 else if (irmp_pause_time
>= RCCAR_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCCAR_0_PAUSE_LEN_MAX
)
3655 ANALYZE_PRINTF (" 0 (RCCAR)\n");
3657 irmp_store_bit2 (0);
3660 if (! irmp_param
.protocol
)
3663 ANALYZE_PRINTF ("Switching to RCCAR protocol\n");
3665 memcpy (&irmp_param
, &irmp_param2
, sizeof (IRMP_PARAMETER
));
3666 irmp_param2
.protocol
= 0;
3667 irmp_tmp_address
= irmp_tmp_address2
;
3668 irmp_tmp_command
= irmp_tmp_command2
;
3671 #endif // IRMP_SUPPORT_RCCAR_PROTOCOL == 1
3673 last_pause
= irmp_pause_time
;
3677 #endif // IRMP_SUPPORT_MANCHESTER == 1
3679 #if IRMP_SUPPORT_SERIAL == 1
3680 if (irmp_param
.flags
& IRMP_PARAM_FLAG_IS_SERIAL
)
3682 while (irmp_bit
< irmp_param
.complete_len
&& irmp_pulse_time
> irmp_param
.pulse_1_len_max
)
3685 ANALYZE_PUTCHAR ('1');
3689 if (irmp_pulse_time
>= irmp_param
.pulse_1_len_min
)
3691 irmp_pulse_time
-= irmp_param
.pulse_1_len_min
;
3695 irmp_pulse_time
= 0;
3699 while (irmp_bit
< irmp_param
.complete_len
&& irmp_pause_time
> irmp_param
.pause_1_len_max
)
3702 ANALYZE_PUTCHAR ('0');
3706 if (irmp_pause_time
>= irmp_param
.pause_1_len_min
)
3708 irmp_pause_time
-= irmp_param
.pause_1_len_min
;
3712 irmp_pause_time
= 0;
3721 #endif // IRMP_SUPPORT_SERIAL == 1
3723 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
3724 if (irmp_param
.protocol
== IRMP_SAMSUNG_PROTOCOL
&& irmp_bit
== 16) // Samsung: 16th bit
3726 if (irmp_pulse_time
>= SAMSUNG_PULSE_LEN_MIN
&& irmp_pulse_time
<= SAMSUNG_PULSE_LEN_MAX
&&
3727 irmp_pause_time
>= SAMSUNG_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= SAMSUNG_START_BIT_PAUSE_LEN_MAX
)
3730 ANALYZE_PRINTF ("SYNC\n");
3735 else if (irmp_pulse_time
>= SAMSUNG_PULSE_LEN_MIN
&& irmp_pulse_time
<= SAMSUNG_PULSE_LEN_MAX
)
3737 #if IRMP_SUPPORT_SAMSUNG48_PROTOCOL == 1
3739 ANALYZE_PRINTF ("Switching to SAMSUNG48 protocol ");
3741 irmp_param
.protocol
= IRMP_SAMSUNG48_PROTOCOL
;
3742 irmp_param
.command_offset
= SAMSUNG48_COMMAND_OFFSET
;
3743 irmp_param
.command_end
= SAMSUNG48_COMMAND_OFFSET
+ SAMSUNG48_COMMAND_LEN
;
3744 irmp_param
.complete_len
= SAMSUNG48_COMPLETE_DATA_LEN
;
3747 ANALYZE_PRINTF ("Switching to SAMSUNG32 protocol ");
3749 irmp_param
.protocol
= IRMP_SAMSUNG32_PROTOCOL
;
3750 irmp_param
.command_offset
= SAMSUNG32_COMMAND_OFFSET
;
3751 irmp_param
.command_end
= SAMSUNG32_COMMAND_OFFSET
+ SAMSUNG32_COMMAND_LEN
;
3752 irmp_param
.complete_len
= SAMSUNG32_COMPLETE_DATA_LEN
;
3754 if (irmp_pause_time
>= SAMSUNG_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= SAMSUNG_1_PAUSE_LEN_MAX
)
3757 ANALYZE_PUTCHAR ('1');
3766 ANALYZE_PUTCHAR ('0');
3774 { // timing incorrect!
3776 ANALYZE_PRINTF ("error 3 Samsung: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3777 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3779 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3780 irmp_pause_time
= 0;
3784 #endif // IRMP_SUPPORT_SAMSUNG_PROTOCOL
3786 #if IRMP_SUPPORT_NEC16_PROTOCOL
3787 #if IRMP_SUPPORT_NEC42_PROTOCOL == 1
3788 if (irmp_param
.protocol
== IRMP_NEC42_PROTOCOL
&&
3789 #else // IRMP_SUPPORT_NEC_PROTOCOL instead
3790 if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
&&
3791 #endif // IRMP_SUPPORT_NEC42_PROTOCOL == 1
3792 irmp_bit
== 8 && irmp_pause_time
>= NEC_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= NEC_START_BIT_PAUSE_LEN_MAX
)
3795 ANALYZE_PRINTF ("Switching to NEC16 protocol\n");
3797 irmp_param
.protocol
= IRMP_NEC16_PROTOCOL
;
3798 irmp_param
.address_offset
= NEC16_ADDRESS_OFFSET
;
3799 irmp_param
.address_end
= NEC16_ADDRESS_OFFSET
+ NEC16_ADDRESS_LEN
;
3800 irmp_param
.command_offset
= NEC16_COMMAND_OFFSET
;
3801 irmp_param
.command_end
= NEC16_COMMAND_OFFSET
+ NEC16_COMMAND_LEN
;
3802 irmp_param
.complete_len
= NEC16_COMPLETE_DATA_LEN
;
3806 #endif // IRMP_SUPPORT_NEC16_PROTOCOL
3808 #if IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
3809 if (irmp_param
.protocol
== IRMP_BANG_OLUFSEN_PROTOCOL
)
3811 if (irmp_pulse_time
>= BANG_OLUFSEN_PULSE_LEN_MIN
&& irmp_pulse_time
<= BANG_OLUFSEN_PULSE_LEN_MAX
)
3813 if (irmp_bit
== 1) // Bang & Olufsen: 3rd bit
3815 if (irmp_pause_time
>= BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MAX
)
3818 ANALYZE_PRINTF ("3rd start bit\n");
3824 { // timing incorrect!
3826 ANALYZE_PRINTF ("error 3a B&O: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3827 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3829 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3830 irmp_pause_time
= 0;
3833 else if (irmp_bit
== 19) // Bang & Olufsen: trailer bit
3835 if (irmp_pause_time
>= BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN_MAX
)
3838 ANALYZE_PRINTF ("trailer bit\n");
3844 { // timing incorrect!
3846 ANALYZE_PRINTF ("error 3b B&O: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3847 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3849 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3850 irmp_pause_time
= 0;
3855 if (irmp_pause_time
>= BANG_OLUFSEN_1_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_1_PAUSE_LEN_MAX
)
3856 { // pulse & pause timings correct for "1"?
3858 ANALYZE_PUTCHAR ('1');
3865 else if (irmp_pause_time
>= BANG_OLUFSEN_0_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_0_PAUSE_LEN_MAX
)
3866 { // pulse & pause timings correct for "0"?
3868 ANALYZE_PUTCHAR ('0');
3875 else if (irmp_pause_time
>= BANG_OLUFSEN_R_PAUSE_LEN_MIN
&& irmp_pause_time
<= BANG_OLUFSEN_R_PAUSE_LEN_MAX
)
3878 ANALYZE_PUTCHAR (last_value
+ '0');
3881 irmp_store_bit (last_value
);
3885 { // timing incorrect!
3887 ANALYZE_PRINTF ("error 3c B&O: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3888 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3890 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3891 irmp_pause_time
= 0;
3896 { // timing incorrect!
3898 ANALYZE_PRINTF ("error 3d B&O: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
3899 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
3901 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
3902 irmp_pause_time
= 0;
3906 #endif // IRMP_SUPPORT_BANG_OLUFSEN_PROTOCOL
3908 #if IRMP_SUPPORT_RCMM_PROTOCOL == 1
3909 if (irmp_param
.protocol
== IRMP_RCMM32_PROTOCOL
)
3911 if (irmp_pause_time
>= RCMM32_BIT_00_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCMM32_BIT_00_PAUSE_LEN_MAX
)
3914 ANALYZE_PUTCHAR ('0');
3915 ANALYZE_PUTCHAR ('0');
3920 else if (irmp_pause_time
>= RCMM32_BIT_01_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCMM32_BIT_01_PAUSE_LEN_MAX
)
3923 ANALYZE_PUTCHAR ('0');
3924 ANALYZE_PUTCHAR ('1');
3929 else if (irmp_pause_time
>= RCMM32_BIT_10_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCMM32_BIT_10_PAUSE_LEN_MAX
)
3932 ANALYZE_PUTCHAR ('1');
3933 ANALYZE_PUTCHAR ('0');
3938 else if (irmp_pause_time
>= RCMM32_BIT_11_PAUSE_LEN_MIN
&& irmp_pause_time
<= RCMM32_BIT_11_PAUSE_LEN_MAX
)
3941 ANALYZE_PUTCHAR ('1');
3942 ANALYZE_PUTCHAR ('1');
3948 ANALYZE_PRINTF ("\n");
3955 if (irmp_pulse_time
>= irmp_param
.pulse_1_len_min
&& irmp_pulse_time
<= irmp_param
.pulse_1_len_max
&&
3956 irmp_pause_time
>= irmp_param
.pause_1_len_min
&& irmp_pause_time
<= irmp_param
.pause_1_len_max
)
3957 { // pulse & pause timings correct for "1"?
3959 ANALYZE_PUTCHAR ('1');
3965 else if (irmp_pulse_time
>= irmp_param
.pulse_0_len_min
&& irmp_pulse_time
<= irmp_param
.pulse_0_len_max
&&
3966 irmp_pause_time
>= irmp_param
.pause_0_len_min
&& irmp_pause_time
<= irmp_param
.pause_0_len_max
)
3967 { // pulse & pause timings correct for "0"?
3969 ANALYZE_PUTCHAR ('0');
3976 #if IRMP_SUPPORT_KATHREIN_PROTOCOL
3978 if (irmp_param
.protocol
== IRMP_KATHREIN_PROTOCOL
&&
3979 irmp_pulse_time
>= KATHREIN_1_PULSE_LEN_MIN
&& irmp_pulse_time
<= KATHREIN_1_PULSE_LEN_MAX
&&
3980 (((irmp_bit
== 8 || irmp_bit
== 6) &&
3981 irmp_pause_time
>= KATHREIN_SYNC_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= KATHREIN_SYNC_BIT_PAUSE_LEN_MAX
) ||
3983 irmp_pause_time
>= KATHREIN_START_BIT_PAUSE_LEN_MIN
&& irmp_pause_time
<= KATHREIN_START_BIT_PAUSE_LEN_MAX
)))
3990 ANALYZE_PUTCHAR ('S');
3993 irmp_tmp_command
<<= 1;
3998 ANALYZE_PUTCHAR ('S');
4006 #endif // IRMP_SUPPORT_KATHREIN_PROTOCOL
4007 { // timing incorrect!
4009 ANALYZE_PRINTF ("error 3: timing not correct: data bit %d, pulse: %d, pause: %d\n", irmp_bit
, irmp_pulse_time
, irmp_pause_time
);
4010 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
4012 irmp_start_bit_detected
= 0; // reset flags and wait for next start bit
4013 irmp_pause_time
= 0;
4016 irmp_pulse_time
= 1; // set counter to 1, not 0
4020 { // counting the pulse length ...
4021 if (! irmp_input
) // still light?
4023 irmp_pulse_time
++; // increment counter
4027 wait_for_space
= 1; // let's count the time (see above)
4028 irmp_pause_time
= 1; // set pause counter to 1, not 0
4032 if (irmp_start_bit_detected
&& irmp_bit
== irmp_param
.complete_len
&& irmp_param
.stop_bit
== 0) // enough bits received?
4034 if (last_irmp_command
== irmp_tmp_command
&& key_repetition_len
< AUTO_FRAME_REPETITION_LEN
)
4036 repetition_frame_number
++;
4040 repetition_frame_number
= 0;
4043 #if IRMP_SUPPORT_SIRCS_PROTOCOL == 1
4044 // if SIRCS protocol and the code will be repeated within 50 ms, we will ignore 2nd and 3rd repetition frame
4045 if (irmp_param
.protocol
== IRMP_SIRCS_PROTOCOL
&& (repetition_frame_number
== 1 || repetition_frame_number
== 2))
4048 ANALYZE_PRINTF ("code skipped: SIRCS auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4049 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4051 key_repetition_len
= 0;
4056 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
4057 // if ORTEK protocol and the code will be repeated within 50 ms, we will ignore 2nd repetition frame
4058 if (irmp_param
.protocol
== IRMP_ORTEK_PROTOCOL
&& repetition_frame_number
== 1)
4061 ANALYZE_PRINTF ("code skipped: ORTEK auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4062 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4064 key_repetition_len
= 0;
4069 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
4070 // if KASEIKYO protocol and the code will be repeated within 50 ms, we will ignore 2nd repetition frame
4071 if (irmp_param
.protocol
== IRMP_KASEIKYO_PROTOCOL
&& repetition_frame_number
== 1)
4074 ANALYZE_PRINTF ("code skipped: KASEIKYO auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4075 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4077 key_repetition_len
= 0;
4082 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
4083 // if SAMSUNG32 or SAMSUNG48 protocol and the code will be repeated within 50 ms, we will ignore every 2nd frame
4084 if ((irmp_param
.protocol
== IRMP_SAMSUNG32_PROTOCOL
|| irmp_param
.protocol
== IRMP_SAMSUNG48_PROTOCOL
) && (repetition_frame_number
& 0x01))
4087 ANALYZE_PRINTF ("code skipped: SAMSUNG32/SAMSUNG48 auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4088 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4090 key_repetition_len
= 0;
4095 #if IRMP_SUPPORT_NUBERT_PROTOCOL == 1
4096 // if NUBERT protocol and the code will be repeated within 50 ms, we will ignore every 2nd frame
4097 if (irmp_param
.protocol
== IRMP_NUBERT_PROTOCOL
&& (repetition_frame_number
& 0x01))
4100 ANALYZE_PRINTF ("code skipped: NUBERT auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4101 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4103 key_repetition_len
= 0;
4108 #if IRMP_SUPPORT_SPEAKER_PROTOCOL == 1
4109 // if SPEAKER protocol and the code will be repeated within 50 ms, we will ignore every 2nd frame
4110 if (irmp_param
.protocol
== IRMP_SPEAKER_PROTOCOL
&& (repetition_frame_number
& 0x01))
4113 ANALYZE_PRINTF ("code skipped: SPEAKER auto repetition frame #%d, counter = %d, auto repetition len = %d\n",
4114 repetition_frame_number
+ 1, key_repetition_len
, AUTO_FRAME_REPETITION_LEN
);
4116 key_repetition_len
= 0;
4123 ANALYZE_PRINTF ("%8.3fms code detected, length = %d\n", (double) (time_counter
* 1000) / F_INTERRUPTS
, irmp_bit
);
4125 irmp_ir_detected
= TRUE
;
4127 #if IRMP_SUPPORT_DENON_PROTOCOL == 1
4128 if (irmp_param
.protocol
== IRMP_DENON_PROTOCOL
)
4129 { // check for repetition frame
4130 if ((~irmp_tmp_command
& 0x3FF) == last_irmp_denon_command
) // command bits must be inverted
4132 irmp_tmp_command
= last_irmp_denon_command
; // use command received before!
4133 last_irmp_denon_command
= 0;
4135 irmp_protocol
= irmp_param
.protocol
; // store protocol
4136 irmp_address
= irmp_tmp_address
; // store address
4137 irmp_command
= irmp_tmp_command
; // store command
4141 if ((irmp_tmp_command
& 0x01) == 0x00)
4144 ANALYZE_PRINTF ("%8.3fms info Denon: waiting for inverted command repetition\n", (double) (time_counter
* 1000) / F_INTERRUPTS
);
4146 last_irmp_denon_command
= irmp_tmp_command
;
4147 denon_repetition_len
= 0;
4148 irmp_ir_detected
= FALSE
;
4153 ANALYZE_PRINTF ("%8.3fms warning Denon: got unexpected inverted command, ignoring it\n", (double) (time_counter
* 1000) / F_INTERRUPTS
);
4155 last_irmp_denon_command
= 0;
4156 irmp_ir_detected
= FALSE
;
4161 #endif // IRMP_SUPPORT_DENON_PROTOCOL
4163 #if IRMP_SUPPORT_GRUNDIG_PROTOCOL == 1
4164 if (irmp_param
.protocol
== IRMP_GRUNDIG_PROTOCOL
&& irmp_tmp_command
== 0x01ff)
4165 { // Grundig start frame?
4167 ANALYZE_PRINTF ("Detected GRUNDIG start frame, ignoring it\n");
4169 irmp_ir_detected
= FALSE
;
4172 #endif // IRMP_SUPPORT_GRUNDIG_PROTOCOL
4174 #if IRMP_SUPPORT_NOKIA_PROTOCOL == 1
4175 if (irmp_param
.protocol
== IRMP_NOKIA_PROTOCOL
&& irmp_tmp_address
== 0x00ff && irmp_tmp_command
== 0x00fe)
4176 { // Nokia start frame?
4178 ANALYZE_PRINTF ("Detected NOKIA start frame, ignoring it\n");
4180 irmp_ir_detected
= FALSE
;
4183 #endif // IRMP_SUPPORT_NOKIA_PROTOCOL
4185 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
4186 if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
&& irmp_bit
== 0) // repetition frame
4188 if (key_repetition_len
< NEC_FRAME_REPEAT_PAUSE_LEN_MAX
)
4191 ANALYZE_PRINTF ("Detected NEC repetition frame, key_repetition_len = %d\n", key_repetition_len
);
4192 ANALYZE_ONLY_NORMAL_PRINTF("REPETETION FRAME ");
4194 irmp_tmp_address
= last_irmp_address
; // address is last address
4195 irmp_tmp_command
= last_irmp_command
; // command is last command
4196 irmp_flags
|= IRMP_FLAG_REPETITION
;
4197 key_repetition_len
= 0;
4202 ANALYZE_PRINTF ("Detected NEC repetition frame, ignoring it: timeout occured, key_repetition_len = %d > %d\n",
4203 key_repetition_len
, NEC_FRAME_REPEAT_PAUSE_LEN_MAX
);
4205 irmp_ir_detected
= FALSE
;
4208 #endif // IRMP_SUPPORT_NEC_PROTOCOL
4210 #if IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
4211 if (irmp_param
.protocol
== IRMP_KASEIKYO_PROTOCOL
)
4215 xor_value
= (xor_check
[0] & 0x0F) ^ ((xor_check
[0] & 0xF0) >> 4) ^ (xor_check
[1] & 0x0F) ^ ((xor_check
[1] & 0xF0) >> 4);
4217 if (xor_value
!= (xor_check
[2] & 0x0F))
4220 ANALYZE_PRINTF ("error 4: wrong XOR check for customer id: 0x%1x 0x%1x\n", xor_value
, xor_check
[2] & 0x0F);
4222 irmp_ir_detected
= FALSE
;
4225 xor_value
= xor_check
[2] ^ xor_check
[3] ^ xor_check
[4];
4227 if (xor_value
!= xor_check
[5])
4230 ANALYZE_PRINTF ("error 5: wrong XOR check for data bits: 0x%02x 0x%02x\n", xor_value
, xor_check
[5]);
4232 irmp_ir_detected
= FALSE
;
4235 irmp_flags
|= genre2
; // write the genre2 bits into MSB of the flag byte
4237 #endif // IRMP_SUPPORT_KASEIKYO_PROTOCOL == 1
4239 #if IRMP_SUPPORT_ORTEK_PROTOCOL == 1
4240 if (irmp_param
.protocol
== IRMP_ORTEK_PROTOCOL
)
4242 if (parity
== PARITY_CHECK_FAILED
)
4245 ANALYZE_PRINTF ("error 6: parity check failed\n");
4247 irmp_ir_detected
= FALSE
;
4250 if ((irmp_tmp_address
& 0x03) == 0x02)
4253 ANALYZE_PRINTF ("code skipped: ORTEK end of transmission frame (key release)\n");
4255 irmp_ir_detected
= FALSE
;
4257 irmp_tmp_address
>>= 2;
4259 #endif // IRMP_SUPPORT_ORTEK_PROTOCOL == 1
4261 #if IRMP_SUPPORT_RC6_PROTOCOL == 1
4262 if (irmp_param
.protocol
== IRMP_RC6_PROTOCOL
&& irmp_param
.complete_len
== RC6_COMPLETE_DATA_LEN_LONG
) // RC6 mode = 6?
4264 irmp_protocol
= IRMP_RC6A_PROTOCOL
;
4267 #endif // IRMP_SUPPORT_RC6_PROTOCOL == 1
4269 irmp_protocol
= irmp_param
.protocol
;
4272 #if IRMP_SUPPORT_FDC_PROTOCOL == 1
4273 if (irmp_param
.protocol
== IRMP_FDC_PROTOCOL
)
4275 if (irmp_tmp_command
& 0x000F) // released key?
4277 irmp_tmp_command
= (irmp_tmp_command
>> 4) | 0x80; // yes, set bit 7
4281 irmp_tmp_command
>>= 4; // no, it's a pressed key
4283 irmp_tmp_command
|= (irmp_tmp_address
<< 2) & 0x0F00; // 000000CCCCAAAAAA -> 0000CCCC00000000
4284 irmp_tmp_address
&= 0x003F;
4288 irmp_address
= irmp_tmp_address
; // store address
4289 #if IRMP_SUPPORT_NEC_PROTOCOL == 1
4290 if (irmp_param
.protocol
== IRMP_NEC_PROTOCOL
)
4292 last_irmp_address
= irmp_tmp_address
; // store as last address, too
4296 #if IRMP_SUPPORT_RC5_PROTOCOL == 1
4297 if (irmp_param
.protocol
== IRMP_RC5_PROTOCOL
)
4299 irmp_tmp_command
|= rc5_cmd_bit6
; // store bit 6
4302 irmp_command
= irmp_tmp_command
; // store command
4304 #if IRMP_SUPPORT_SAMSUNG_PROTOCOL == 1
4305 irmp_id
= irmp_tmp_id
;
4310 if (irmp_ir_detected
)
4312 if (last_irmp_command
== irmp_tmp_command
&&
4313 last_irmp_address
== irmp_tmp_address
&&
4314 key_repetition_len
< IRMP_KEY_REPETITION_LEN
)
4316 irmp_flags
|= IRMP_FLAG_REPETITION
;
4319 last_irmp_address
= irmp_tmp_address
; // store as last address, too
4320 last_irmp_command
= irmp_tmp_command
; // store as last command, too
4322 key_repetition_len
= 0;
4327 ANALYZE_ONLY_NORMAL_PUTCHAR ('\n');
4331 irmp_start_bit_detected
= 0; // and wait for next start bit
4332 irmp_tmp_command
= 0;
4333 irmp_pulse_time
= 0;
4334 irmp_pause_time
= 0;
4336 #if IRMP_SUPPORT_JVC_PROTOCOL == 1
4337 if (irmp_protocol
== IRMP_JVC_PROTOCOL
) // the stop bit of JVC frame is also start bit of next frame
4338 { // set pulse time here!
4339 irmp_pulse_time
= ((uint8_t)(F_INTERRUPTS
* JVC_START_BIT_PULSE_TIME
));
4341 #endif // IRMP_SUPPORT_JVC_PROTOCOL == 1
4346 #if defined(STELLARIS_ARM_CORTEX_M4)
4347 // Clear the timer interrupt
4348 TimerIntClear(TIMER1_BASE
, TIMER_TIMA_TIMEOUT
);
4351 return (irmp_ir_detected
);
4356 /*---------------------------------------------------------------------------------------------------------------------------------------------------
4357 * main functions - for Unix/Linux + Windows only!
4361 * Compile it under linux with:
4364 * usage: ./irmp [-v|-s|-a|-l|-p] < file
4370 * -l list pulse/pauses
4372 *---------------------------------------------------------------------------------------------------------------------------------------------------
4376 print_timings (void)
4378 printf ("IRMP_TIMEOUT_LEN: %d [%d byte(s)]\n", IRMP_TIMEOUT_LEN
, sizeof (PAUSE_LEN
));
4379 printf ("IRMP_KEY_REPETITION_LEN %d\n", IRMP_KEY_REPETITION_LEN
);
4381 printf ("PROTOCOL S S-PULSE S-PAUSE PULSE-0 PAUSE-0 PULSE-1 PAUSE-1\n");
4382 printf ("====================================================================================\n");
4383 printf ("SIRCS 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4384 SIRCS_START_BIT_PULSE_LEN_MIN
, SIRCS_START_BIT_PULSE_LEN_MAX
, SIRCS_START_BIT_PAUSE_LEN_MIN
, SIRCS_START_BIT_PAUSE_LEN_MAX
,
4385 SIRCS_0_PULSE_LEN_MIN
, SIRCS_0_PULSE_LEN_MAX
, SIRCS_PAUSE_LEN_MIN
, SIRCS_PAUSE_LEN_MAX
,
4386 SIRCS_1_PULSE_LEN_MIN
, SIRCS_1_PULSE_LEN_MAX
, SIRCS_PAUSE_LEN_MIN
, SIRCS_PAUSE_LEN_MAX
);
4388 printf ("NEC 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4389 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
, NEC_START_BIT_PAUSE_LEN_MIN
, NEC_START_BIT_PAUSE_LEN_MAX
,
4390 NEC_PULSE_LEN_MIN
, NEC_PULSE_LEN_MAX
, NEC_0_PAUSE_LEN_MIN
, NEC_0_PAUSE_LEN_MAX
,
4391 NEC_PULSE_LEN_MIN
, NEC_PULSE_LEN_MAX
, NEC_1_PAUSE_LEN_MIN
, NEC_1_PAUSE_LEN_MAX
);
4393 printf ("NEC (rep) 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4394 NEC_START_BIT_PULSE_LEN_MIN
, NEC_START_BIT_PULSE_LEN_MAX
, NEC_REPEAT_START_BIT_PAUSE_LEN_MIN
, NEC_REPEAT_START_BIT_PAUSE_LEN_MAX
,
4395 NEC_PULSE_LEN_MIN
, NEC_PULSE_LEN_MAX
, NEC_0_PAUSE_LEN_MIN
, NEC_0_PAUSE_LEN_MAX
,
4396 NEC_PULSE_LEN_MIN
, NEC_PULSE_LEN_MAX
, NEC_1_PAUSE_LEN_MIN
, NEC_1_PAUSE_LEN_MAX
);
4398 printf ("SAMSUNG 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4399 SAMSUNG_START_BIT_PULSE_LEN_MIN
, SAMSUNG_START_BIT_PULSE_LEN_MAX
, SAMSUNG_START_BIT_PAUSE_LEN_MIN
, SAMSUNG_START_BIT_PAUSE_LEN_MAX
,
4400 SAMSUNG_PULSE_LEN_MIN
, SAMSUNG_PULSE_LEN_MAX
, SAMSUNG_0_PAUSE_LEN_MIN
, SAMSUNG_0_PAUSE_LEN_MAX
,
4401 SAMSUNG_PULSE_LEN_MIN
, SAMSUNG_PULSE_LEN_MAX
, SAMSUNG_1_PAUSE_LEN_MIN
, SAMSUNG_1_PAUSE_LEN_MAX
);
4403 printf ("MATSUSHITA 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4404 MATSUSHITA_START_BIT_PULSE_LEN_MIN
, MATSUSHITA_START_BIT_PULSE_LEN_MAX
, MATSUSHITA_START_BIT_PAUSE_LEN_MIN
, MATSUSHITA_START_BIT_PAUSE_LEN_MAX
,
4405 MATSUSHITA_PULSE_LEN_MIN
, MATSUSHITA_PULSE_LEN_MAX
, MATSUSHITA_0_PAUSE_LEN_MIN
, MATSUSHITA_0_PAUSE_LEN_MAX
,
4406 MATSUSHITA_PULSE_LEN_MIN
, MATSUSHITA_PULSE_LEN_MAX
, MATSUSHITA_1_PAUSE_LEN_MIN
, MATSUSHITA_1_PAUSE_LEN_MAX
);
4408 printf ("KASEIKYO 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4409 KASEIKYO_START_BIT_PULSE_LEN_MIN
, KASEIKYO_START_BIT_PULSE_LEN_MAX
, KASEIKYO_START_BIT_PAUSE_LEN_MIN
, KASEIKYO_START_BIT_PAUSE_LEN_MAX
,
4410 KASEIKYO_PULSE_LEN_MIN
, KASEIKYO_PULSE_LEN_MAX
, KASEIKYO_0_PAUSE_LEN_MIN
, KASEIKYO_0_PAUSE_LEN_MAX
,
4411 KASEIKYO_PULSE_LEN_MIN
, KASEIKYO_PULSE_LEN_MAX
, KASEIKYO_1_PAUSE_LEN_MIN
, KASEIKYO_1_PAUSE_LEN_MAX
);
4413 printf ("RECS80 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4414 RECS80_START_BIT_PULSE_LEN_MIN
, RECS80_START_BIT_PULSE_LEN_MAX
, RECS80_START_BIT_PAUSE_LEN_MIN
, RECS80_START_BIT_PAUSE_LEN_MAX
,
4415 RECS80_PULSE_LEN_MIN
, RECS80_PULSE_LEN_MAX
, RECS80_0_PAUSE_LEN_MIN
, RECS80_0_PAUSE_LEN_MAX
,
4416 RECS80_PULSE_LEN_MIN
, RECS80_PULSE_LEN_MAX
, RECS80_1_PAUSE_LEN_MIN
, RECS80_1_PAUSE_LEN_MAX
);
4418 printf ("RC5 1 %3d - %3d %3d - %3d %3d - %3d\n",
4419 RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
, RC5_START_BIT_LEN_MIN
, RC5_START_BIT_LEN_MAX
,
4420 RC5_BIT_LEN_MIN
, RC5_BIT_LEN_MAX
);
4422 printf ("DENON 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4423 DENON_PULSE_LEN_MIN
, DENON_PULSE_LEN_MAX
,
4424 DENON_PULSE_LEN_MIN
, DENON_PULSE_LEN_MAX
, DENON_0_PAUSE_LEN_MIN
, DENON_0_PAUSE_LEN_MAX
,
4425 DENON_PULSE_LEN_MIN
, DENON_PULSE_LEN_MAX
, DENON_1_PAUSE_LEN_MIN
, DENON_1_PAUSE_LEN_MAX
);
4427 printf ("THOMSON 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4428 THOMSON_PULSE_LEN_MIN
, THOMSON_PULSE_LEN_MAX
,
4429 THOMSON_PULSE_LEN_MIN
, THOMSON_PULSE_LEN_MAX
, THOMSON_0_PAUSE_LEN_MIN
, THOMSON_0_PAUSE_LEN_MAX
,
4430 THOMSON_PULSE_LEN_MIN
, THOMSON_PULSE_LEN_MAX
, THOMSON_1_PAUSE_LEN_MIN
, THOMSON_1_PAUSE_LEN_MAX
);
4432 printf ("RC6 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4433 RC6_START_BIT_PULSE_LEN_MIN
, RC6_START_BIT_PULSE_LEN_MAX
, RC6_START_BIT_PAUSE_LEN_MIN
, RC6_START_BIT_PAUSE_LEN_MAX
,
4434 RC6_BIT_PULSE_LEN_MIN
, RC6_BIT_PULSE_LEN_MAX
, RC6_BIT_PAUSE_LEN_MIN
, RC6_BIT_PAUSE_LEN_MAX
);
4436 printf ("RECS80EXT 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4437 RECS80EXT_START_BIT_PULSE_LEN_MIN
, RECS80EXT_START_BIT_PULSE_LEN_MAX
, RECS80EXT_START_BIT_PAUSE_LEN_MIN
, RECS80EXT_START_BIT_PAUSE_LEN_MAX
,
4438 RECS80EXT_PULSE_LEN_MIN
, RECS80EXT_PULSE_LEN_MAX
, RECS80EXT_0_PAUSE_LEN_MIN
, RECS80EXT_0_PAUSE_LEN_MAX
,
4439 RECS80EXT_PULSE_LEN_MIN
, RECS80EXT_PULSE_LEN_MAX
, RECS80EXT_1_PAUSE_LEN_MIN
, RECS80EXT_1_PAUSE_LEN_MAX
);
4441 printf ("NUBERT 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4442 NUBERT_START_BIT_PULSE_LEN_MIN
, NUBERT_START_BIT_PULSE_LEN_MAX
, NUBERT_START_BIT_PAUSE_LEN_MIN
, NUBERT_START_BIT_PAUSE_LEN_MAX
,
4443 NUBERT_0_PULSE_LEN_MIN
, NUBERT_0_PULSE_LEN_MAX
, NUBERT_0_PAUSE_LEN_MIN
, NUBERT_0_PAUSE_LEN_MAX
,
4444 NUBERT_1_PULSE_LEN_MIN
, NUBERT_1_PULSE_LEN_MAX
, NUBERT_1_PAUSE_LEN_MIN
, NUBERT_1_PAUSE_LEN_MAX
);
4446 printf ("SPEAKER 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4447 SPEAKER_START_BIT_PULSE_LEN_MIN
, SPEAKER_START_BIT_PULSE_LEN_MAX
, SPEAKER_START_BIT_PAUSE_LEN_MIN
, SPEAKER_START_BIT_PAUSE_LEN_MAX
,
4448 SPEAKER_0_PULSE_LEN_MIN
, SPEAKER_0_PULSE_LEN_MAX
, SPEAKER_0_PAUSE_LEN_MIN
, SPEAKER_0_PAUSE_LEN_MAX
,
4449 SPEAKER_1_PULSE_LEN_MIN
, SPEAKER_1_PULSE_LEN_MAX
, SPEAKER_1_PAUSE_LEN_MIN
, SPEAKER_1_PAUSE_LEN_MAX
);
4451 printf ("BANG_OLUFSEN 1 %3d - %3d %3d - %3d\n",
4452 BANG_OLUFSEN_START_BIT1_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT1_PULSE_LEN_MAX
,
4453 BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT1_PAUSE_LEN_MAX
);
4455 printf ("BANG_OLUFSEN 2 %3d - %3d %3d - %3d\n",
4456 BANG_OLUFSEN_START_BIT2_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT2_PULSE_LEN_MAX
,
4457 BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT2_PAUSE_LEN_MAX
);
4459 printf ("BANG_OLUFSEN 3 %3d - %3d %3d - %3d\n",
4460 BANG_OLUFSEN_START_BIT3_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT3_PULSE_LEN_MAX
,
4461 BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT3_PAUSE_LEN_MAX
);
4463 printf ("BANG_OLUFSEN 4 %3d - %3d %3d - %3d\n",
4464 BANG_OLUFSEN_START_BIT4_PULSE_LEN_MIN
, BANG_OLUFSEN_START_BIT4_PULSE_LEN_MAX
,
4465 BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MIN
, BANG_OLUFSEN_START_BIT4_PAUSE_LEN_MAX
);
4467 printf ("BANG_OLUFSEN - %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4468 BANG_OLUFSEN_PULSE_LEN_MIN
, BANG_OLUFSEN_PULSE_LEN_MAX
, BANG_OLUFSEN_0_PAUSE_LEN_MIN
, BANG_OLUFSEN_0_PAUSE_LEN_MAX
,
4469 BANG_OLUFSEN_PULSE_LEN_MIN
, BANG_OLUFSEN_PULSE_LEN_MAX
, BANG_OLUFSEN_1_PAUSE_LEN_MIN
, BANG_OLUFSEN_1_PAUSE_LEN_MAX
);
4471 printf ("GRUNDIG/NOKIA 1 %3d - %3d %3d - %3d %3d - %3d\n",
4472 GRUNDIG_NOKIA_IR60_START_BIT_LEN_MIN
, GRUNDIG_NOKIA_IR60_START_BIT_LEN_MAX
,
4473 GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MIN
, GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN_MAX
,
4474 GRUNDIG_NOKIA_IR60_BIT_LEN_MIN
, GRUNDIG_NOKIA_IR60_BIT_LEN_MAX
);
4476 printf ("SIEMENS/RUWIDO 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4477 SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MIN
, SIEMENS_OR_RUWIDO_START_BIT_PULSE_LEN_MAX
,
4478 SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MIN
, SIEMENS_OR_RUWIDO_START_BIT_PAUSE_LEN_MAX
,
4479 SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MIN
, SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MAX
,
4480 SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MIN
, SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MAX
,
4481 2 * SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MIN
, 2 * SIEMENS_OR_RUWIDO_BIT_PULSE_LEN_MAX
,
4482 2 * SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MIN
, 2 * SIEMENS_OR_RUWIDO_BIT_PAUSE_LEN_MAX
);
4484 printf ("FDC 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4485 FDC_START_BIT_PULSE_LEN_MIN
, FDC_START_BIT_PULSE_LEN_MAX
, FDC_START_BIT_PAUSE_LEN_MIN
, FDC_START_BIT_PAUSE_LEN_MAX
,
4486 FDC_PULSE_LEN_MIN
, FDC_PULSE_LEN_MAX
, FDC_0_PAUSE_LEN_MIN
, FDC_0_PAUSE_LEN_MAX
,
4487 FDC_PULSE_LEN_MIN
, FDC_PULSE_LEN_MAX
, FDC_1_PAUSE_LEN_MIN
, FDC_1_PAUSE_LEN_MAX
);
4489 printf ("RCCAR 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4490 RCCAR_START_BIT_PULSE_LEN_MIN
, RCCAR_START_BIT_PULSE_LEN_MAX
, RCCAR_START_BIT_PAUSE_LEN_MIN
, RCCAR_START_BIT_PAUSE_LEN_MAX
,
4491 RCCAR_PULSE_LEN_MIN
, RCCAR_PULSE_LEN_MAX
, RCCAR_0_PAUSE_LEN_MIN
, RCCAR_0_PAUSE_LEN_MAX
,
4492 RCCAR_PULSE_LEN_MIN
, RCCAR_PULSE_LEN_MAX
, RCCAR_1_PAUSE_LEN_MIN
, RCCAR_1_PAUSE_LEN_MAX
);
4494 printf ("NIKON 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4495 NIKON_START_BIT_PULSE_LEN_MIN
, NIKON_START_BIT_PULSE_LEN_MAX
, NIKON_START_BIT_PAUSE_LEN_MIN
, NIKON_START_BIT_PAUSE_LEN_MAX
,
4496 NIKON_PULSE_LEN_MIN
, NIKON_PULSE_LEN_MAX
, NIKON_0_PAUSE_LEN_MIN
, NIKON_0_PAUSE_LEN_MAX
,
4497 NIKON_PULSE_LEN_MIN
, NIKON_PULSE_LEN_MAX
, NIKON_1_PAUSE_LEN_MIN
, NIKON_1_PAUSE_LEN_MAX
);
4499 printf ("LEGO 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4500 LEGO_START_BIT_PULSE_LEN_MIN
, LEGO_START_BIT_PULSE_LEN_MAX
, LEGO_START_BIT_PAUSE_LEN_MIN
, LEGO_START_BIT_PAUSE_LEN_MAX
,
4501 LEGO_PULSE_LEN_MIN
, LEGO_PULSE_LEN_MAX
, LEGO_0_PAUSE_LEN_MIN
, LEGO_0_PAUSE_LEN_MAX
,
4502 LEGO_PULSE_LEN_MIN
, LEGO_PULSE_LEN_MAX
, LEGO_1_PAUSE_LEN_MIN
, LEGO_1_PAUSE_LEN_MAX
);
4505 printf ("PROTOCOL S S-PULSE S-PAUSE PULSE PAUSE-00 PAUSE-01 PAUSE-10 PAUSE-11\n");
4506 printf ("================================================================================================\n");
4507 printf ("RCMM 1 %3d %3d %3d %3d %3d %3d %3d\n",
4508 (uint8_t)(F_INTERRUPTS
* RCMM32_START_BIT_PULSE_TIME
), (uint8_t)(F_INTERRUPTS
* RCMM32_START_BIT_PAUSE_TIME
),
4509 (uint8_t)(F_INTERRUPTS
* RCMM32_PULSE_TIME
),
4510 (uint8_t)(F_INTERRUPTS
* RCMM32_00_PAUSE_TIME
), (uint8_t)(F_INTERRUPTS
* RCMM32_01_PAUSE_TIME
),
4511 (uint8_t)(F_INTERRUPTS
* RCMM32_10_PAUSE_TIME
), (uint8_t)(F_INTERRUPTS
* RCMM32_11_PAUSE_TIME
));
4512 printf ("RCMM 1 %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d %3d - %3d\n",
4513 RCMM32_START_BIT_PULSE_LEN_MIN
, RCMM32_START_BIT_PULSE_LEN_MAX
, RCMM32_START_BIT_PAUSE_LEN_MIN
, RCMM32_START_BIT_PAUSE_LEN_MAX
,
4514 RCMM32_BIT_PULSE_LEN_MIN
, RCMM32_BIT_PULSE_LEN_MAX
, RCMM32_BIT_00_PAUSE_LEN_MIN
, RCMM32_BIT_00_PAUSE_LEN_MAX
,
4515 RCMM32_BIT_01_PAUSE_LEN_MIN
, RCMM32_BIT_01_PAUSE_LEN_MAX
, RCMM32_BIT_10_PAUSE_LEN_MIN
, RCMM32_BIT_10_PAUSE_LEN_MAX
,
4516 RCMM32_BIT_11_PAUSE_LEN_MIN
, RCMM32_BIT_11_PAUSE_LEN_MAX
);
4520 print_spectrum (char * text
, int * buf
, int is_pulse
)
4533 puts ("-------------------------------------------------------------------------------");
4534 printf ("%s:\n", text
);
4536 for (i
= 0; i
< 256; i
++)
4538 if (buf
[i
] > max_value
)
4544 for (i
= 1; i
< 200; i
++)
4549 value
= (buf
[i
] * 60) / max_value
;
4551 for (j
= 0; j
< value
; j
++)
4555 printf (" %d\n", buf
[i
]);
4566 average
= (float) sum
/ (float) counter
;
4577 printf ("avg: %4.1f=%6.1f us, ", average
, (1000000. * average
) / (float) F_INTERRUPTS
);
4578 printf ("min: %2d=%6.1f us, ", min
, (1000000. * min
) / (float) F_INTERRUPTS
);
4579 printf ("max: %2d=%6.1f us, ", max
, (1000000. * max
) / (float) F_INTERRUPTS
);
4581 tolerance
= (max
- average
);
4583 if (average
- min
> tolerance
)
4585 tolerance
= average
- min
;
4588 tolerance
= tolerance
* 100 / average
;
4589 printf ("tol: %4.1f%%\n", tolerance
);
4599 #define STATE_LEFT_SHIFT 0x01
4600 #define STATE_RIGHT_SHIFT 0x02
4601 #define STATE_LEFT_CTRL 0x04
4602 #define STATE_LEFT_ALT 0x08
4603 #define STATE_RIGHT_ALT 0x10
4605 #define KEY_ESCAPE 0x1B // keycode = 0x006e
4606 #define KEY_MENUE 0x80 // keycode = 0x0070
4607 #define KEY_BACK 0x81 // keycode = 0x0071
4608 #define KEY_FORWARD 0x82 // keycode = 0x0072
4609 #define KEY_ADDRESS 0x83 // keycode = 0x0073
4610 #define KEY_WINDOW 0x84 // keycode = 0x0074
4611 #define KEY_1ST_PAGE 0x85 // keycode = 0x0075
4612 #define KEY_STOP 0x86 // keycode = 0x0076
4613 #define KEY_MAIL 0x87 // keycode = 0x0077
4614 #define KEY_FAVORITES 0x88 // keycode = 0x0078
4615 #define KEY_NEW_PAGE 0x89 // keycode = 0x0079
4616 #define KEY_SETUP 0x8A // keycode = 0x007a
4617 #define KEY_FONT 0x8B // keycode = 0x007b
4618 #define KEY_PRINT 0x8C // keycode = 0x007c
4619 #define KEY_ON_OFF 0x8E // keycode = 0x007c
4621 #define KEY_INSERT 0x90 // keycode = 0x004b
4622 #define KEY_DELETE 0x91 // keycode = 0x004c
4623 #define KEY_LEFT 0x92 // keycode = 0x004f
4624 #define KEY_HOME 0x93 // keycode = 0x0050
4625 #define KEY_END 0x94 // keycode = 0x0051
4626 #define KEY_UP 0x95 // keycode = 0x0053
4627 #define KEY_DOWN 0x96 // keycode = 0x0054
4628 #define KEY_PAGE_UP 0x97 // keycode = 0x0055
4629 #define KEY_PAGE_DOWN 0x98 // keycode = 0x0056
4630 #define KEY_RIGHT 0x99 // keycode = 0x0059
4631 #define KEY_MOUSE_1 0x9E // keycode = 0x0400
4632 #define KEY_MOUSE_2 0x9F // keycode = 0x0800
4635 get_fdc_key (uint16_t cmd
)
4637 static uint8_t key_table
[128] =
4639 // 0 1 2 3 4 5 6 7 8 9 A B C D E F
4640 0, '^', '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', 'ß', '´', 0, '\b',
4641 '\t','q', 'w', 'e', 'r', 't', 'z', 'u', 'i', 'o', 'p', 'ü', '+', 0, 0, 'a',
4642 's', 'd', 'f', 'g', 'h', 'j', 'k', 'l', 'ö', 'ä', '#', '\r', 0, '<', 'y', 'x',
4643 'c', 'v', 'b', 'n', 'm', ',', '.', '-', 0, 0, 0, 0, 0, ' ', 0, 0,
4645 0, '°', '!', '"', '§', '$', '%', '&', '/', '(', ')', '=', '?', '`', 0, '\b',
4646 '\t','Q', 'W', 'E', 'R', 'T', 'Z', 'U', 'I', 'O', 'P', 'Ü', '*', 0, 0, 'A',
4647 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', 'Ö', 'Ä', '\'','\r', 0, '>', 'Y', 'X',
4648 'C', 'V', 'B', 'N', 'M', ';', ':', '_', 0, 0, 0, 0, 0, ' ', 0, 0
4650 static uint8_t state
;
4656 case 0x002C: state
|= STATE_LEFT_SHIFT
; break; // pressed left shift
4657 case 0x00AC: state
&= ~STATE_LEFT_SHIFT
; break; // released left shift
4658 case 0x0039: state
|= STATE_RIGHT_SHIFT
; break; // pressed right shift
4659 case 0x00B9: state
&= ~STATE_RIGHT_SHIFT
; break; // released right shift
4660 case 0x003A: state
|= STATE_LEFT_CTRL
; break; // pressed left ctrl
4661 case 0x00BA: state
&= ~STATE_LEFT_CTRL
; break; // released left ctrl
4662 case 0x003C: state
|= STATE_LEFT_ALT
; break; // pressed left alt
4663 case 0x00BC: state
&= ~STATE_LEFT_ALT
; break; // released left alt
4664 case 0x003E: state
|= STATE_RIGHT_ALT
; break; // pressed left alt
4665 case 0x00BE: state
&= ~STATE_RIGHT_ALT
; break; // released left alt
4667 case 0x006e: key
= KEY_ESCAPE
; break;
4668 case 0x004b: key
= KEY_INSERT
; break;
4669 case 0x004c: key
= KEY_DELETE
; break;
4670 case 0x004f: key
= KEY_LEFT
; break;
4671 case 0x0050: key
= KEY_HOME
; break;
4672 case 0x0051: key
= KEY_END
; break;
4673 case 0x0053: key
= KEY_UP
; break;
4674 case 0x0054: key
= KEY_DOWN
; break;
4675 case 0x0055: key
= KEY_PAGE_UP
; break;
4676 case 0x0056: key
= KEY_PAGE_DOWN
; break;
4677 case 0x0059: key
= KEY_RIGHT
; break;
4678 case 0x0400: key
= KEY_MOUSE_1
; break;
4679 case 0x0800: key
= KEY_MOUSE_2
; break;
4683 if (!(cmd
& 0x80)) // pressed key
4685 if (cmd
>= 0x70 && cmd
<= 0x7F) // function keys
4687 key
= cmd
+ 0x10; // 7x -> 8x
4689 else if (cmd
< 64) // key listed in key_table
4691 if (state
& (STATE_LEFT_ALT
| STATE_RIGHT_ALT
))
4695 case 0x0003: key
= '²'; break;
4696 case 0x0008: key
= '{'; break;
4697 case 0x0009: key
= '['; break;
4698 case 0x000A: key
= ']'; break;
4699 case 0x000B: key
= '}'; break;
4700 case 0x000C: key
= '\\'; break;
4701 case 0x001C: key
= '~'; break;
4702 case 0x002D: key
= '|'; break;
4703 case 0x0034: key
= 0xB5; break; // Mu
4706 else if (state
& (STATE_LEFT_CTRL
))
4708 if (key_table
[cmd
] >= 'a' && key_table
[cmd
] <= 'z')
4710 key
= key_table
[cmd
] - 'a' + 1;
4714 key
= key_table
[cmd
];
4719 int idx
= cmd
+ ((state
& (STATE_LEFT_SHIFT
| STATE_RIGHT_SHIFT
)) ? 64 : 0);
4723 key
= key_table
[idx
];
4735 static int analyze
= FALSE
;
4736 static int list
= FALSE
;
4737 static IRMP_DATA irmp_data
;
4738 static int expected_protocol
;
4739 static int expected_address
;
4740 static int expected_command
;
4741 static int do_check_expected_values
;
4746 if (! analyze
&& ! list
)
4750 if (irmp_get_data (&irmp_data
))
4754 ANALYZE_ONLY_NORMAL_PUTCHAR (' ');
4758 printf ("%8.3fms ", (double) (time_counter
* 1000) / F_INTERRUPTS
);
4761 if (irmp_data
.protocol
== IRMP_FDC_PROTOCOL
&& (key
= get_fdc_key (irmp_data
.command
)) != 0)
4763 if ((key
>= 0x20 && key
< 0x7F) || key
>= 0xA0)
4765 printf ("p=%2d (%s), a=0x%04x, c=0x%04x, f=0x%02x, asc=0x%02x, key='%c'",
4766 irmp_data
.protocol
, irmp_protocol_names
[irmp_data
.protocol
], irmp_data
.address
, irmp_data
.command
, irmp_data
.flags
, key
, key
);
4768 else if (key
== '\r' || key
== '\t' || key
== KEY_ESCAPE
|| (key
>= 0x80 && key
<= 0x9F)) // function keys
4770 char * p
= (char *) NULL
;
4774 case '\t' : p
= "TAB"; break;
4775 case '\r' : p
= "CR"; break;
4776 case KEY_ESCAPE
: p
= "ESCAPE"; break;
4777 case KEY_MENUE
: p
= "MENUE"; break;
4778 case KEY_BACK
: p
= "BACK"; break;
4779 case KEY_FORWARD
: p
= "FORWARD"; break;
4780 case KEY_ADDRESS
: p
= "ADDRESS"; break;
4781 case KEY_WINDOW
: p
= "WINDOW"; break;
4782 case KEY_1ST_PAGE
: p
= "1ST_PAGE"; break;
4783 case KEY_STOP
: p
= "STOP"; break;
4784 case KEY_MAIL
: p
= "MAIL"; break;
4785 case KEY_FAVORITES
: p
= "FAVORITES"; break;
4786 case KEY_NEW_PAGE
: p
= "NEW_PAGE"; break;
4787 case KEY_SETUP
: p
= "SETUP"; break;
4788 case KEY_FONT
: p
= "FONT"; break;
4789 case KEY_PRINT
: p
= "PRINT"; break;
4790 case KEY_ON_OFF
: p
= "ON_OFF"; break;
4792 case KEY_INSERT
: p
= "INSERT"; break;
4793 case KEY_DELETE
: p
= "DELETE"; break;
4794 case KEY_LEFT
: p
= "LEFT"; break;
4795 case KEY_HOME
: p
= "HOME"; break;
4796 case KEY_END
: p
= "END"; break;
4797 case KEY_UP
: p
= "UP"; break;
4798 case KEY_DOWN
: p
= "DOWN"; break;
4799 case KEY_PAGE_UP
: p
= "PAGE_UP"; break;
4800 case KEY_PAGE_DOWN
: p
= "PAGE_DOWN"; break;
4801 case KEY_RIGHT
: p
= "RIGHT"; break;
4802 case KEY_MOUSE_1
: p
= "KEY_MOUSE_1"; break;
4803 case KEY_MOUSE_2
: p
= "KEY_MOUSE_2"; break;
4804 default : p
= "<UNKNWON>"; break;
4807 printf ("p=%2d (%s), a=0x%04x, c=0x%04x, f=0x%02x, asc=0x%02x, key=%s",
4808 irmp_data
.protocol
, irmp_protocol_names
[irmp_data
.protocol
], irmp_data
.address
, irmp_data
.command
, irmp_data
.flags
, key
, p
);
4812 printf ("p=%2d (%s), a=0x%04x, c=0x%04x, f=0x%02x, asc=0x%02x",
4813 irmp_data
.protocol
, irmp_protocol_names
[irmp_data
.protocol
], irmp_data
.address
, irmp_data
.command
, irmp_data
.flags
, key
);
4818 printf ("p=%2d (%s), a=0x%04x, c=0x%04x, f=0x%02x",
4819 irmp_data
.protocol
, irmp_protocol_names
[irmp_data
.protocol
], irmp_data
.address
, irmp_data
.command
, irmp_data
.flags
);
4822 if (do_check_expected_values
)
4824 if (irmp_data
.protocol
!= expected_protocol
||
4825 irmp_data
.address
!= expected_address
||
4826 irmp_data
.command
!= expected_command
)
4828 printf ("\nerror 7: expected values differ: p=%2d (%s), a=0x%04x, c=0x%04x\n",
4829 expected_protocol
, irmp_protocol_names
[expected_protocol
], expected_address
, expected_command
);
4833 printf (" checked!\n");
4835 do_check_expected_values
= FALSE
; // only check 1st frame in a line!
4846 main (int argc
, char ** argv
)
4854 int start_pulses
[256];
4855 int start_pauses
[256];
4859 int first_pulse
= TRUE
;
4860 int first_pause
= TRUE
;
4864 if (! strcmp (argv
[1], "-v"))
4868 else if (! strcmp (argv
[1], "-l"))
4872 else if (! strcmp (argv
[1], "-a"))
4876 else if (! strcmp (argv
[1], "-s"))
4880 else if (! strcmp (argv
[1], "-p"))
4885 else if (! strcmp (argv
[1], "-r"))
4891 for (i
= 0; i
< 256; i
++)
4893 start_pulses
[i
] = 0;
4894 start_pauses
[i
] = 0;
4901 while ((ch
= getchar ()) != EOF
)
4903 if (ch
== '_' || ch
== '0')
4911 printf ("pause: %d\n", pause
);
4920 start_pauses
[pause
]++;
4922 first_pause
= FALSE
;
4938 else if (ch
== 0xaf || ch
== '-' || ch
== '1')
4944 printf ("pulse: %d ", pulse
);
4953 start_pulses
[pulse
]++;
4955 first_pulse
= FALSE
;
4971 else if (ch
== '\n')
4976 if (list
&& pause
> 0)
4978 printf ("pause: %d\n", pause
);
4984 for (i
= 0; i
< (int) ((10000.0 * F_INTERRUPTS
) / 10000); i
++) // newline: long pause of 10000 msec
4998 while ((ch
= getchar()) != '\n' && ch
!= EOF
)
5009 puts ("-------------------------------------------------------------------");
5013 while ((ch
= getchar()) != '\n' && ch
!= EOF
)
5015 if (ch
!= '\r') // ignore CR in DOS/Windows files
5017 if (ch
== '[' && idx
== -1)
5025 do_check_expected_values
= FALSE
;
5029 expected_protocol
= atoi (buf
);
5031 if (expected_protocol
> 0)
5040 if (sscanf (p
, "%x", &expected_address
) == 1)
5042 do_check_expected_values
= TRUE
;
5049 if (do_check_expected_values
)
5051 do_check_expected_values
= FALSE
;
5059 if (sscanf (p
, "%x", &expected_command
) == 1)
5061 do_check_expected_values
= TRUE
;
5068 if (do_check_expected_values
)
5070 // printf ("!%2d %04x %04x!\n", expected_protocol, expected_address, expected_command);
5075 else if (idx
< 1024 - 2)
5095 print_spectrum ("START PULSES", start_pulses
, TRUE
);
5096 print_spectrum ("START PAUSES", start_pauses
, FALSE
);
5097 print_spectrum ("PULSES", pulses
, TRUE
);
5098 print_spectrum ("PAUSES", pauses
, FALSE
);
5099 puts ("-------------------------------------------------------------------------------");