Mercurial > public > mk2
annotate code_part1/OSTC_code_asm_part1/isr.asm @ 295:1a15d75702f7
Menu3 marker bugfix
author | Heinrichsweikamp |
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date | Thu, 28 Apr 2011 18:14:02 +0200 |
parents | 4ec488f046f4 |
children | ceedf078b2d8 |
rev | line source |
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0 | 1 |
2 ; OSTC - diving computer code | |
3 ; Copyright (C) 2008 HeinrichsWeikamp GbR | |
4 | |
5 ; This program is free software: you can redistribute it and/or modify | |
6 ; it under the terms of the GNU General Public License as published by | |
7 ; the Free Software Foundation, either version 3 of the License, or | |
8 ; (at your option) any later version. | |
9 | |
10 ; This program is distributed in the hope that it will be useful, | |
11 ; but WITHOUT ANY WARRANTY; without even the implied warranty of | |
12 ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
13 ; GNU General Public License for more details. | |
14 | |
15 ; You should have received a copy of the GNU General Public License | |
16 ; along with this program. If not, see <http://www.gnu.org/licenses/>. | |
17 | |
18 | |
19 ; written by: Matthias Heinrichs, info@heinrichsweikamp.com | |
20 ; written: 10/30/05 | |
21 ; last updated: 05/16/08 | |
22 ; known bugs: | |
23 ; ToDo: | |
24 | |
25 ; the timer1 module interrupts every 62.5ms (16x/second) | |
26 ; temperature and pressure is averaged over 4 measurements | |
27 ; flag pressure_refresh is set every 500ms | |
28 ; and provides accurate pressure (+/-1mBar stable) and temperature (0.1C stable) | |
29 | |
30 uartint: | |
31 btfsc simulatormode_active ; are we in simulatormode? | |
32 bra simulator_int ; Yes, reading is depth in m! | |
33 | |
34 movff RCREG,uart1_temp | |
35 movlw d'96' | |
36 subwf uart1_temp,F | |
37 dcfsnz uart1_temp,F ; "a" | |
38 bsf dump_external_eeprom ; set flag | |
39 dcfsnz uart1_temp,F ; "b" | |
40 bsf uart_settime ; set flag | |
41 dcfsnz uart1_temp,F ; "c" | |
42 bsf simulatormode_active ; set flag | |
43 dcfsnz uart1_temp,F ; "d" | |
44 bsf internal_eeprom_write ; set flag | |
45 dcfsnz uart1_temp,F ; "e" | |
46 bsf uart_send_hash ; set flag | |
47 dcfsnz uart1_temp,F ; "f" | |
49 | 48 nop ; no longer used command "f" |
0 | 49 dcfsnz uart1_temp,F ; "g" |
50 bsf uart_send_int_eeprom ; set flag | |
51 dcfsnz uart1_temp,F ; "h" | |
52 bsf uart_reset_decodata ; set flag | |
53 dcfsnz uart1_temp,F ; "i" | |
54 bsf internal_eeprom_write2 ; set flag | |
55 dcfsnz uart1_temp,F ; "j" | |
56 bsf uart_send_int_eeprom2 ; set flag | |
57 dcfsnz uart1_temp,F ; "k" | |
58 bsf uart_store_tissue_data ; set flag | |
283
4ec488f046f4
Battery sign color coded, work on new uart-started 115200Baud bootloader (Do NOT use yet!)
heinrichsweikamp
parents:
266
diff
changeset
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59 |
4ec488f046f4
Battery sign color coded, work on new uart-started 115200Baud bootloader (Do NOT use yet!)
heinrichsweikamp
parents:
266
diff
changeset
|
60 movlw 0xC1 |
4ec488f046f4
Battery sign color coded, work on new uart-started 115200Baud bootloader (Do NOT use yet!)
heinrichsweikamp
parents:
266
diff
changeset
|
61 cpfseq RCREG ; 115200Baud Bootloader request? |
4ec488f046f4
Battery sign color coded, work on new uart-started 115200Baud bootloader (Do NOT use yet!)
heinrichsweikamp
parents:
266
diff
changeset
|
62 bra uartint1 ; No |
4ec488f046f4
Battery sign color coded, work on new uart-started 115200Baud bootloader (Do NOT use yet!)
heinrichsweikamp
parents:
266
diff
changeset
|
63 bsf uart_115200_bootloader ; Yes, set Flag |
0 | 64 |
65 | |
66 uartint1: | |
67 movf RCREG,w ; unload RCREG in stand-alone simulator mode | |
68 bcf PIR1,RCIF ; Clear flag | |
69 bcf RCSTA,CREN ; Clear receiver status | |
70 bsf RCSTA,CREN | |
71 return | |
72 | |
73 simulator_int: | |
74 btfsc standalone_simulator ; ignore in standalone simulator mode | |
75 bra uartint1 | |
76 | |
21 | 77 bsf LED_blue |
0 | 78 tstfsz RCREG ; =0x00? |
79 bra simulator_int1 ; No | |
80 incf RCREG,F ; Yes, so force RCREG=1 | |
81 | |
82 simulator_int1: | |
83 movf RCREG,w ; depth in m | |
84 mullw d'100' ; result will be mbar | |
85 movff PRODL,sim_pressure+0 ; stored for pressure overwrite | |
86 movff PRODH,sim_pressure+1 | |
87 bra uartint1 ; exit uart int | |
88 | |
238 | 89 switch_left_int: |
0 | 90 bcf INTCON,INT0IF ; Clear flag |
91 | |
92 btfsc T0CON,TMR0ON ; Timer0 running? | |
93 bra timer0_restart ; Yes, restart | |
94 | |
266 | 95 ; OSTC 2N has flipped screen and exchanged switches... |
96 movff win_flags,WREG ; Get into Bank0 | |
97 btfss WREG,0 | |
0 | 98 bsf switch_left ; Set flag, button press is OK |
266 | 99 btfsc WREG,0 |
100 bsf switch_right ; Set flag, button press is OK | |
0 | 101 |
102 bsf T0CON,TMR0ON ; Start Timer 0 | |
103 return | |
104 | |
105 | |
238 | 106 switch_right_int: |
0 | 107 bcf INTCON3,INT1IF ; Clear flag |
108 | |
109 btfsc T0CON,TMR0ON ; Timer0 running? | |
110 bra timer0_restart ; Yes, restart | |
111 | |
266 | 112 ; OSTC 2N has flipped screen and exchanged switches... |
113 movff win_flags,WREG ; Get into Bank0 | |
114 btfsc WREG,0 | |
115 bsf switch_left ; Set flag, button press is OK | |
116 btfss WREG,0 | |
0 | 117 bsf switch_right ; Set flag, button press is OK |
118 | |
119 bsf T0CON,TMR0ON ; Start Timer 0 | |
120 return | |
121 | |
122 timer0_restart: | |
123 bcf INTCON,TMR0IF ; Clear flag | |
124 clrf T0CON ; Timer0 | |
125 clrf TMR0H | |
126 clrf TMR0L | |
127 bsf T0CON,TMR0ON ; Start Timer 0 | |
128 return | |
129 | |
130 timer0int: | |
131 bcf INTCON,TMR0IF ; Clear flag | |
132 bcf T0CON,TMR0ON ; Stop Timer 0 | |
133 clrf TMR0H | |
134 clrf TMR0L | |
135 return | |
136 | |
137 timer1int: | |
138 bcf PIR1,TMR1IF ; Clear flag | |
139 | |
140 timer1int_debug: | |
21 | 141 bcf LED_red ; LEDr off (For charge indicator) |
0 | 142 |
143 movlw 0x08 ; Timer1 int after 62.5ms (=16/second) | |
144 cpfslt TMR1H ; Did we miss a 1/16 second? | |
145 incf timer1int_counter1,F ; Yes, add extra 1/16 second | |
146 | |
147 movlw 0x08 ; Timer1 int after 62.5ms (=16/second) | |
148 subwf TMR1H,F | |
149 | |
238 | 150 incf timer1int_counter1,F ; Increase timer1 counter |
151 | |
0 | 152 movlw d'15' ; One second 16 |
153 cpfsgt timer1int_counter1 | |
154 bra sensor_int_pre ; only pressure sensor | |
238 | 155 rcall RTCisr ; adjust time, then query pressure sensor |
0 | 156 |
157 sensor_int_pre: | |
238 | 158 btfsc sleepmode ; In sleepmode? |
159 return ; Yes | |
0 | 160 |
161 sensor_int: | |
162 btfsc no_sensor_int ; No sensor interrupt (because it's addressed during sleep) | |
163 return | |
164 | |
238 | 165 incf timer1int_counter2,F ; counts to eight for state maschine |
0 | 166 |
238 | 167 ; State 1: Clear flags and average registers, get temperature (51us) and start pressure integration (73,5us) |
168 ; State 2: Get pressure (51us), start temperature integration (73,5us) and calculate temperature compensated pressure (233us) | |
169 ; State 3: Get temperature (51us) and start pressure integration (73,5us) | |
170 ; State 4: Get pressure (51us), start temperature integration (73,5us) and calculate temperature compensated pressure (233us) | |
171 ; State 5: Get temperature (51us) and start pressure integration (73,5us) | |
172 ; State 6: Get pressure (51us), start temperature integration (73,5us) and calculate temperature compensated pressure (233us) | |
173 ; State 7: Get temperature (51us) and start pressure integration (73,5us) | |
174 ; State 8: Get pressure (51us), start temperature integration (73,5us), calculate temperature compensated pressure (233us) and build average for half-second update of tempperature and pressure | |
175 | |
176 movff timer1int_counter2,isr_divB ; isr_divB used as temp here... | |
177 dcfsnz isr_divB,F | |
178 bra sensor_int_state1_plus_restart ; Do State 1 | |
179 dcfsnz isr_divB,F | |
180 bra sensor_int_state2 ; Do State 2 | |
181 dcfsnz isr_divB,F | |
182 bra sensor_int_state1 ; Do State 3 | |
183 dcfsnz isr_divB,F | |
184 bra sensor_int_state2 ; Do State 4 | |
185 dcfsnz isr_divB,F | |
186 bra sensor_int_state1 ; Do State 5 | |
187 dcfsnz isr_divB,F | |
188 bra sensor_int_state2 ; Do State 6 | |
189 dcfsnz isr_divB,F | |
190 bra sensor_int_state1 ; Do State 7 | |
191 ; bra sensor_int2_plus_average ; Do State 8 | |
192 | |
193 ;sensor_int2_plus_average: | |
194 rcall sensor_int_state2 | |
195 sensor_int2_plus_average2: | |
0 | 196 bcf STATUS,C |
197 rrcf isr3_temp+1 ; isr3_temp / 2 | |
198 rrcf isr3_temp+0 | |
199 bcf STATUS,C | |
200 rrcf temperature_temp+1 ; temperature_temp /2 | |
201 rrcf temperature_temp+0 | |
238 | 202 |
203 bcf STATUS,C | |
204 rrcf isr3_temp+1 ; isr3_temp / 4 | |
205 rrcf isr3_temp+0 | |
206 bcf STATUS,C | |
207 rrcf temperature_temp+1 ; temperature_temp /4 | |
208 rrcf temperature_temp+0 | |
209 | |
0 | 210 movff isr3_temp+1,amb_pressure+1 ; copy into actual register |
211 movff isr3_temp+0,amb_pressure+0 | |
212 | |
213 movff temperature_temp+1,temperature+1 | |
214 movff temperature_temp+0,temperature+0 | |
215 | |
216 bsf pressure_refresh ; Set flag! Temp and pressure were updated! | |
238 | 217 clrf timer1int_counter2 ; Then reset State counter |
0 | 218 |
219 btfss simulatormode_active ; are we in simulator mode? | |
220 bra comp_air_pressure ; no | |
221 | |
222 comp_air_pressure0: | |
223 movlw LOW d'1000' ; yes, so simulate 1Bar surface pressure | |
224 movwf last_surfpressure+0 | |
225 movlw HIGH d'1000' | |
226 movwf last_surfpressure+1 | |
227 | |
228 comp_air_pressure: | |
229 bcf neg_flag | |
230 movf last_surfpressure+0,W ; compensate airpressure | |
231 subwf amb_pressure+0,W | |
238 | 232 movwf rel_pressure+0 ; rel_pressure stores depth! |
0 | 233 |
234 movf last_surfpressure+1,W | |
235 subwfb amb_pressure+1,W | |
236 movwf rel_pressure+1 | |
238 | 237 btfss STATUS,N ; result is below zero? |
238 return | |
239 clrf rel_pressure+0 ; Yes, do not display negative depths | |
240 clrf rel_pressure+1 ; e.g. when surface air pressure dropped during the dive | |
0 | 241 return |
238 | 242 |
243 | |
244 sensor_int_state1_plus_restart: | |
245 bcf pressure_refresh ; clear flags | |
246 clrf isr3_temp+0 ; pressure average registers | |
247 clrf isr3_temp+1 | |
248 clrf temperature_temp+0 | |
249 clrf temperature_temp+1 | |
250 | |
251 sensor_int_state1: | |
252 call get_temperature_value ; State 1: Get temperature | |
253 call get_pressure_start ; and start pressure integration. | |
254 return ; Done. | |
255 | |
256 sensor_int_state2: | |
257 call get_pressure_value ; State2: Get pressure (51us) | |
258 call get_temperature_start ; and start temperature integration (73,5us) | |
259 call calculate_compensation ; calculate temperature compensated pressure (233us) | |
260 movf amb_pressure+0,W | |
261 addwf isr3_temp+0 ; average pressure | |
262 movf amb_pressure+1,W | |
263 addwfc isr3_temp+1 | |
264 movf temperature+0,W | |
265 addwf temperature_temp+0 ; average temperature | |
266 movf temperature+1,W | |
267 addwfc temperature_temp+1 | |
268 return | |
269 | |
0 | 270 |
271 RTCisr: | |
272 clrf timer1int_counter1 ; counts to 16 (one second / 62.5ms) | |
273 bsf onesecupdate ; we have a new second! | |
274 | |
275 bcf STATUS,Z ; are we in dive mode? | |
276 btfss divemode | |
238 | 277 bra RTCisr2 ; No, must be surface or sleepmode |
0 | 278 |
279 incf samplesecs,F ; CF20 diving seconds done | |
280 decf samplesecs_value,W ; holds CF20 value (minus 1 into WREG) | |
281 cpfsgt samplesecs | |
238 | 282 bra RTCisr1 ; no |
0 | 283 |
284 clrf samplesecs ; clear counter... | |
285 bsf store_sample ; ...and set bit for profile storage | |
238 | 286 |
0 | 287 RTCisr1: |
288 ; Increase re-setable average depth divetime counter | |
111 | 289 incf average_divesecs+0,F ; increase stopwatch registers |
0 | 290 btfsc STATUS,Z |
111 | 291 incf average_divesecs+1,F ; increase stopwatch registers |
0 | 292 |
293 btfss divemode2 ; displayed divetime is running? | |
294 bra RTCisr2 ; No (e.g. too shallow) | |
295 | |
296 incf divesecs,F ; increase divetime registers | |
297 movlw d'59' | |
298 cpfsgt divesecs | |
299 bra RTCisr1a | |
238 | 300 |
0 | 301 clrf divesecs |
302 bsf realdive ; this bit is always set (again) if the dive is longer then one minute | |
303 | |
304 incf divemins+0,F ; increase divemins | |
305 btfsc STATUS,Z | |
306 incf divemins+1,F ; and now do the realtime clock routine anyway | |
307 | |
308 RTCisr1a: | |
309 btfss FLAG_apnoe_mode ; Are we in Apnoe mode? | |
310 bra RTCisr2 ; No, skip the following | |
311 | |
312 incf apnoe_secs,F ; increase descent registers | |
313 movlw d'59' | |
314 cpfsgt apnoe_secs | |
315 bra RTCisr2 | |
316 clrf apnoe_secs | |
317 | |
318 incf apnoe_mins,F ; increase descent mins | |
319 ; Now, do the RTC routine.... | |
320 RTCisr2: | |
321 incf secs,F ; adjusts seconds, minutes, hours, day, month and year. Checks for a leap year and works until 2099! | |
322 movlw d'59' | |
323 cpfsgt secs | |
324 return | |
325 clrf secs | |
326 bsf oneminupdate | |
327 incf mins,F | |
328 movlw d'59' | |
329 cpfsgt mins | |
330 return | |
331 clrf mins | |
332 incf hours,F | |
333 movlw d'23' | |
334 cpfsgt hours | |
335 return | |
336 clrf hours | |
13 | 337 incf day,F |
43 | 338 movff time_correction_value,secs ; Correct too slow clock |
13 | 339 |
0 | 340 check_date: |
341 movff month,isr_divB ; new month? | |
342 dcfsnz isr_divB,F | |
343 movlw .31 | |
344 dcfsnz isr_divB,F | |
345 movlw .28 | |
346 dcfsnz isr_divB,F | |
347 movlw .31 | |
348 dcfsnz isr_divB,F | |
349 movlw .30 | |
350 dcfsnz isr_divB,F | |
351 movlw .31 | |
352 dcfsnz isr_divB,F | |
353 movlw .30 | |
354 dcfsnz isr_divB,F | |
355 movlw .31 | |
356 dcfsnz isr_divB,F | |
357 movlw .31 | |
358 dcfsnz isr_divB,F | |
359 movlw .30 | |
360 dcfsnz isr_divB,F | |
361 movlw .31 | |
362 dcfsnz isr_divB,F | |
363 movlw .30 | |
364 dcfsnz isr_divB,F | |
365 movlw .31 | |
366 cpfsgt day,1 | |
367 return | |
368 movlw .1 | |
369 movwf day | |
370 incf month,F | |
371 movlw .12 | |
372 cpfsgt month,1 | |
373 return | |
374 movlw .1 | |
375 movwf month | |
376 incf year,F | |
377 return |