Mercurial > public > ostc4
annotate Discovery/Src/data_central.c @ 415:e0907c7d8038 Improment_NVM
merged default into Improvment_NVM
author | Ideenmodellierer |
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date | Tue, 14 Jan 2020 21:52:15 +0100 |
parents | 95928ef3986f |
children | d784f281833a |
rev | line source |
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38 | 1 /** |
2 ****************************************************************************** | |
3 * @copyright heinrichs weikamp | |
4 * @file data_central.c | |
5 * @author heinrichs weikamp gmbh | |
6 * @date 10-November-2014 | |
7 * @version V1.0.2 | |
8 * @since 10-Nov-2014 | |
9 * @brief All the data EXCEPT | |
10 * - settings (settings.c) | |
11 * feste Werte, die nur an der Oberfl�che ge�ndert werden | |
12 * - dataIn and dataOut (data_exchange.h and data_exchange_main.c) | |
13 * Austausch mit Small CPU | |
14 * @bug | |
15 * @warning | |
16 @verbatim | |
17 ============================================================================== | |
18 ##### SDiveState Real and Sim ##### | |
19 ============================================================================== | |
20 [..] SDiveSettings | |
21 copy of parts of Settings that are necessary during the dive | |
22 and could be modified during the dive without post dive changes. | |
23 | |
24 [..] SLifeData | |
25 written in DataEX_copy_to_LifeData(); | |
26 block 1 "lifedata" set by SmallCPU in stateReal | |
27 block 2 "actualGas" set by main CPU from user input and send to Small CPU | |
28 block 3 "calculated data" set by main CPU based on "lifedata" | |
29 | |
30 [..] SVpm | |
31 | |
32 [..] SEvents | |
33 | |
34 [..] SDecoinfo | |
35 | |
36 [..] mode | |
37 set by SmallCPU in stateReal, can be surface, dive, ... | |
38 | |
39 [..] data_old__lost_connection_to_slave | |
40 set by DataEX_copy_to_LifeData(); | |
41 | |
42 ============================================================================== | |
43 ##### SDiveState Deco ##### | |
44 ============================================================================== | |
45 [..] kjbkldafj�lasdfjasdf | |
46 | |
47 ============================================================================== | |
48 ##### decoLock ##### | |
49 ============================================================================== | |
50 [..] The handler that synchronizes the data between IRQ copy and main deco loop | |
51 | |
52 | |
53 @endverbatim | |
54 ****************************************************************************** | |
55 * @attention | |
56 * | |
57 * <h2><center>© COPYRIGHT(c) 2015 heinrichs weikamp</center></h2> | |
58 * | |
59 ****************************************************************************** | |
60 */ | |
61 | |
62 /* Includes ------------------------------------------------------------------*/ | |
63 #include <string.h> | |
64 #include "data_central.h" | |
65 #include "calc_crush.h" | |
66 #include "decom.h" | |
67 #include "stm32f4xx_hal.h" | |
68 #include "settings.h" | |
69 #include "data_exchange_main.h" | |
70 #include "ostc.h" // for button adjust on hw testboard 1 | |
71 #include "tCCR.h" | |
72 #include "crcmodel.h" | |
73 | |
225
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74 static SDiveState stateReal = { 0 }; |
38 | 75 SDiveState stateSim = { 0 }; |
76 SDiveState stateDeco = { 0 }; | |
77 | |
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78 static SDevice stateDevice = |
38 | 79 { |
80 /* max is 0x7FFFFFFF, min is 0x80000000 but also defined in stdint.h :-) */ | |
81 | |
82 /* count, use 0 */ | |
83 .batteryChargeCompleteCycles.value_int32 = 0, | |
84 .batteryChargeCycles.value_int32 = 0, | |
85 .diveCycles.value_int32 = 0, | |
86 .hoursOfOperation.value_int32 = 0, | |
87 | |
88 /* max values, use min. */ | |
89 .temperatureMaximum.value_int32 = INT32_MIN, | |
90 .depthMaximum.value_int32 = INT32_MIN, | |
91 | |
92 /* min values, use max. */ | |
93 .temperatureMinimum.value_int32 = INT32_MAX, | |
94 .voltageMinimum.value_int32 = INT32_MAX, | |
95 }; | |
96 | |
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97 static SVpmRepetitiveData stateVPM = |
38 | 98 { |
99 .repetitive_variables_not_valid = 1, | |
100 .is_data_from_RTE_CPU = 0, | |
101 }; | |
102 | |
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103 const SDiveState *stateUsed = &stateReal; |
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104 SDiveState *stateUsedWrite = &stateReal; |
38 | 105 |
106 void set_stateUsedToReal(void) | |
107 { | |
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108 stateUsed = stateUsedWrite = &stateReal; |
38 | 109 } |
110 | |
111 void set_stateUsedToSim(void) | |
112 { | |
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113 stateUsed = stateUsedWrite = &stateSim; |
38 | 114 } |
115 | |
116 _Bool is_stateUsedSetToSim(void) | |
117 { | |
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118 return stateUsed == &stateSim; |
38 | 119 } |
120 | |
121 const SDiveState * stateRealGetPointer(void) | |
122 { | |
123 return &stateReal; | |
124 } | |
125 | |
126 SDiveState * stateRealGetPointerWrite(void) | |
127 { | |
128 return &stateReal; | |
129 } | |
130 | |
131 | |
132 const SDiveState * stateSimGetPointer(void) | |
133 { | |
134 return &stateSim; | |
135 } | |
136 | |
137 | |
138 SDiveState * stateSimGetPointerWrite(void) | |
139 { | |
140 return &stateSim; | |
141 } | |
142 | |
143 | |
144 const SDevice * stateDeviceGetPointer(void) | |
145 { | |
146 return &stateDevice; | |
147 } | |
148 | |
149 | |
150 SDevice * stateDeviceGetPointerWrite(void) | |
151 { | |
152 return &stateDevice; | |
153 } | |
154 | |
155 | |
156 const SVpmRepetitiveData * stateVpmRepetitiveDataGetPointer(void) | |
157 { | |
158 return &stateVPM; | |
159 } | |
160 | |
161 | |
162 SVpmRepetitiveData * stateVpmRepetitiveDataGetPointerWrite(void) | |
163 { | |
164 return &stateVPM; | |
165 } | |
166 | |
167 | |
168 uint32_t time_elapsed_ms(uint32_t ticksstart,uint32_t ticksnow) | |
169 { | |
170 if(ticksstart <= ticksnow) | |
171 return ticksnow - ticksstart; | |
172 else | |
173 return 0xFFFFFFFF - ticksstart + ticksnow; | |
174 } | |
175 | |
176 | |
177 uint8_t decoLock = DECO_CALC_undefined; | |
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178 |
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179 static int descent_rate_meter_per_min = 20; |
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180 static int max_depth = 70; |
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181 static int bottom_time = 10; |
38 | 182 |
183 _Bool vpm_crush(SDiveState* pDiveState); | |
184 void setSimulationValues(int _ascent_rate_meter_per_min, int _descent_rate_meter_per_min, int _max_depth, int _bottom_time ) | |
185 { | |
186 descent_rate_meter_per_min = _descent_rate_meter_per_min; | |
187 max_depth = _max_depth; | |
188 bottom_time = _bottom_time; | |
189 } | |
190 | |
191 int current_second(void) { | |
192 | |
193 return HAL_GetTick() / 1000; | |
194 } | |
195 | |
196 #define OXY_ONE_SIXTIETH_PART 0.0166667f | |
197 | |
198 uint8_t calc_MOD(uint8_t gasId) | |
199 { | |
200 int16_t oxygen, maxppO2, result; | |
201 SSettings *pSettings; | |
202 | |
203 pSettings = settingsGetPointer(); | |
204 | |
205 oxygen = (int16_t)(pSettings->gas[gasId].oxygen_percentage); | |
206 | |
207 if(pSettings->gas[gasId].note.ub.deco > 0) | |
208 maxppO2 =(int16_t)(pSettings->ppO2_max_deco); | |
209 else | |
210 maxppO2 =(int16_t)(pSettings->ppO2_max_std); | |
211 | |
212 result = 10 * maxppO2; | |
213 result /= oxygen; | |
214 result -= 10; | |
215 | |
216 if(result < 0) | |
217 return 0; | |
218 | |
219 if(result > 255) | |
220 return 255; | |
221 | |
222 return result; | |
223 } | |
224 | |
225 float get_ambiant_pressure_simulation(long dive_time_seconds, float surface_pressure_bar ) | |
226 { | |
227 static | |
228 long descent_time; | |
229 float depth_meter; | |
230 | |
231 descent_time = 60 * max_depth / descent_rate_meter_per_min; | |
232 | |
233 if(dive_time_seconds <= descent_time) | |
234 { | |
235 depth_meter = ((float)(dive_time_seconds * descent_rate_meter_per_min)) / 60; | |
236 return surface_pressure_bar + depth_meter / 10; | |
237 } | |
238 //else if(dive_time_seconds <= (descent_time + bottom_time * 60)) | |
239 return surface_pressure_bar + max_depth / 10; | |
240 | |
241 | |
242 | |
243 } | |
244 | |
245 void UpdateLifeDataTest(SDiveState * pDiveState) | |
246 { | |
247 static int last_second = -1; | |
248 int now = current_second(); | |
249 if(last_second == now) | |
250 return; | |
251 last_second = now; | |
252 | |
253 pDiveState->lifeData.dive_time_seconds += 1; | |
254 pDiveState->lifeData.pressure_ambient_bar = get_ambiant_pressure_simulation(pDiveState->lifeData.dive_time_seconds,pDiveState->lifeData.pressure_surface_bar); | |
255 | |
256 pDiveState->lifeData.depth_meter = (pDiveState->lifeData.pressure_ambient_bar - pDiveState->lifeData.pressure_surface_bar) * 10.0f; | |
257 if(pDiveState->lifeData.max_depth_meter < pDiveState->lifeData.depth_meter) | |
258 pDiveState->lifeData.max_depth_meter = pDiveState->lifeData.depth_meter; | |
259 decom_tissues_exposure(1, &pDiveState->lifeData); | |
260 pDiveState->lifeData.ppO2 = decom_calc_ppO2( pDiveState->lifeData.pressure_ambient_bar, &pDiveState->lifeData.actualGas); | |
261 decom_oxygen_calculate_cns(& pDiveState->lifeData.cns, pDiveState->lifeData.ppO2); | |
262 | |
263 vpm_crush(pDiveState); | |
264 } | |
265 | |
266 | |
267 _Bool vpm_crush(SDiveState* pDiveState) | |
268 { | |
269 int i = 0; | |
270 static float starting_ambient_pressure = 0; | |
271 static float ending_ambient_pressure = 0; | |
272 static float time_calc_begin = -1; | |
273 static float initial_helium_pressure[16]; | |
274 static float initial_nitrogen_pressure[16]; | |
275 ending_ambient_pressure = pDiveState->lifeData.pressure_ambient_bar * 10; | |
276 | |
277 if((pDiveState->lifeData.dive_time_seconds <= 4) || (starting_ambient_pressure >= ending_ambient_pressure)) | |
278 { | |
279 time_calc_begin = pDiveState->lifeData.dive_time_seconds; | |
280 starting_ambient_pressure = pDiveState->lifeData.pressure_ambient_bar * 10; | |
281 for( i = 0; i < 16; i++) | |
282 { | |
283 initial_helium_pressure[i] = pDiveState->lifeData.tissue_helium_bar[i] * 10; | |
284 initial_nitrogen_pressure[i] = pDiveState->lifeData.tissue_nitrogen_bar[i] * 10; | |
285 } | |
286 return false; | |
287 } | |
288 if(pDiveState->lifeData.dive_time_seconds - time_calc_begin >= 4) | |
289 { | |
290 if(ending_ambient_pressure > starting_ambient_pressure + 0.5f) | |
291 { | |
292 float rate = (ending_ambient_pressure - starting_ambient_pressure) * 60 / 4; | |
293 calc_crushing_pressure(&pDiveState->lifeData, &pDiveState->vpm, initial_helium_pressure, initial_nitrogen_pressure, starting_ambient_pressure, rate); | |
294 | |
295 time_calc_begin = pDiveState->lifeData.dive_time_seconds; | |
296 starting_ambient_pressure = pDiveState->lifeData.pressure_ambient_bar * 10; | |
297 for( i = 0; i < 16; i++) | |
298 { | |
299 initial_helium_pressure[i] = pDiveState->lifeData.tissue_helium_bar[i] * 10; | |
300 initial_nitrogen_pressure[i] = pDiveState->lifeData.tissue_nitrogen_bar[i] * 10; | |
301 } | |
302 | |
303 return true; | |
304 } | |
305 | |
306 } | |
307 return false; | |
308 }; | |
309 | |
310 | |
311 void createDiveSettings(void) | |
312 { | |
313 SSettings* pSettings = settingsGetPointer(); | |
314 | |
315 setActualGasFirst(&stateReal.lifeData); | |
316 | |
317 stateReal.diveSettings.compassHeading = pSettings->compassBearing; | |
318 stateReal.diveSettings.ascentRate_meterperminute = 10; | |
319 | |
320 stateReal.diveSettings.diveMode = pSettings->dive_mode; | |
321 stateReal.diveSettings.CCR_Mode = pSettings->CCR_Mode; | |
322 if(stateReal.diveSettings.diveMode == DIVEMODE_CCR) | |
323 stateReal.diveSettings.ccrOption = 1; | |
324 else | |
325 stateReal.diveSettings.ccrOption = 0; | |
326 memcpy(stateReal.diveSettings.gas, pSettings->gas,sizeof(pSettings->gas)); | |
327 memcpy(stateReal.diveSettings.setpoint, pSettings->setpoint,sizeof(pSettings->setpoint)); | |
328 stateReal.diveSettings.gf_high = pSettings->GF_high; | |
329 stateReal.diveSettings.gf_low = pSettings->GF_low; | |
330 stateReal.diveSettings.input_next_stop_increment_depth_bar = ((float)pSettings->stop_increment_depth_meter) / 10.0f; | |
331 stateReal.diveSettings.last_stop_depth_bar = ((float)pSettings->last_stop_depth_meter) / 10.0f; | |
332 stateReal.diveSettings.vpm_conservatism = pSettings->VPM_conservatism.ub.standard; | |
333 stateReal.diveSettings.deco_type.uw = pSettings->deco_type.uw; | |
334 stateReal.diveSettings.fallbackOption = pSettings->fallbackToFixedSetpoint; | |
335 stateReal.diveSettings.ppo2sensors_deactivated = pSettings->ppo2sensors_deactivated; | |
336 stateReal.diveSettings.future_TTS_minutes = pSettings->future_TTS; | |
337 | |
338 decom_CreateGasChangeList(&stateReal.diveSettings, &stateReal.lifeData); // decogaslist | |
339 stateReal.diveSettings.internal__pressure_first_stop_ambient_bar_as_upper_limit_for_gf_low_otherwise_zero = 0; | |
340 | |
341 /* for safety */ | |
342 stateReal.diveSettings.input_second_to_last_stop_depth_bar = stateReal.diveSettings.last_stop_depth_bar + stateReal.diveSettings.input_next_stop_increment_depth_bar; | |
343 /* and the proper calc */ | |
344 for(int i = 1; i <10; i++) | |
345 { | |
346 if(stateReal.diveSettings.input_next_stop_increment_depth_bar * i > stateReal.diveSettings.last_stop_depth_bar) | |
347 { | |
348 stateReal.diveSettings.input_second_to_last_stop_depth_bar = stateReal.diveSettings.input_next_stop_increment_depth_bar * i; | |
349 break; | |
350 } | |
351 } | |
352 } | |
353 | |
354 | |
355 void copyDiveSettingsToSim(void) | |
356 { | |
357 memcpy(&stateSim, &stateReal, sizeof(stateReal)); | |
358 } | |
359 | |
360 | |
361 void copyVpmRepetetiveDataToSim(void) | |
362 { | |
363 SDiveState * pSimData = stateSimGetPointerWrite(); | |
364 const SVpmRepetitiveData * pVpmData = stateVpmRepetitiveDataGetPointer(); | |
365 | |
366 if(pVpmData->is_data_from_RTE_CPU) | |
367 { | |
368 for(int i=0; i<16;i++) | |
369 { | |
370 pSimData->vpm.adjusted_critical_radius_he[i] = pVpmData->adjusted_critical_radius_he[i]; | |
371 pSimData->vpm.adjusted_critical_radius_n2[i] = pVpmData->adjusted_critical_radius_n2[i]; | |
372 | |
373 pSimData->vpm.adjusted_crushing_pressure_he[i] = pVpmData->adjusted_crushing_pressure_he[i]; | |
374 pSimData->vpm.adjusted_crushing_pressure_n2[i] = pVpmData->adjusted_crushing_pressure_n2[i]; | |
375 | |
376 pSimData->vpm.initial_allowable_gradient_he[i] = pVpmData->initial_allowable_gradient_he[i]; | |
377 pSimData->vpm.initial_allowable_gradient_n2[i] = pVpmData->initial_allowable_gradient_n2[i]; | |
378 | |
379 pSimData->vpm.max_actual_gradient[i] = pVpmData->max_actual_gradient[i]; | |
380 } | |
381 pSimData->vpm.repetitive_variables_not_valid = pVpmData->repetitive_variables_not_valid; | |
382 } | |
383 } | |
384 | |
385 | |
386 void updateSetpointStateUsed(void) | |
387 { | |
388 if(stateUsed->diveSettings.diveMode != DIVEMODE_CCR) | |
389 { | |
271
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390 stateUsedWrite->lifeData.actualGas.setPoint_cbar = 0; |
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391 stateUsedWrite->lifeData.ppO2 = decom_calc_ppO2(stateUsed->lifeData.pressure_ambient_bar, &stateUsed->lifeData.actualGas); |
38 | 392 } |
393 else | |
394 { | |
395 if(stateUsed->diveSettings.CCR_Mode == CCRMODE_Sensors) | |
396 { | |
271
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397 stateUsedWrite->lifeData.actualGas.setPoint_cbar = get_ppO2SensorWeightedResult_cbar(); |
38 | 398 } |
399 | |
400 if((stateUsed->lifeData.pressure_ambient_bar * 100) < stateUsed->lifeData.actualGas.setPoint_cbar) | |
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401 stateUsedWrite->lifeData.ppO2 = stateUsed->lifeData.pressure_ambient_bar; |
38 | 402 else |
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403 stateUsedWrite->lifeData.ppO2 = ((float)stateUsed->lifeData.actualGas.setPoint_cbar) / 100; |
38 | 404 } |
405 } | |
406 | |
407 void setActualGasFirst(SLifeData *lifeData) | |
408 { | |
409 SSettings* pSettings = settingsGetPointer(); | |
410 uint8_t start = 0; | |
411 uint8_t gasId = 0; | |
412 uint8_t setpoint_cbar = 0; | |
413 | |
414 if(pSettings->dive_mode == DIVEMODE_CCR) | |
415 { | |
416 setpoint_cbar = pSettings->setpoint[1].setpoint_cbar; | |
417 start = NUM_OFFSET_DILUENT+1; | |
418 } | |
419 else | |
420 { | |
421 setpoint_cbar = 0; | |
422 start = 1; | |
423 } | |
424 | |
425 gasId = start; | |
426 for(int i=start;i<=NUM_GASES+start;i++) | |
427 { | |
428 if(pSettings->gas[i].note.ub.first) | |
429 { | |
430 gasId = i; | |
431 break; | |
432 } | |
433 } | |
434 setActualGas(lifeData, gasId, setpoint_cbar); | |
435 } | |
436 | |
437 void setActualGasAir(SLifeData *lifeData) | |
438 { | |
439 uint8_t nitrogen; | |
440 nitrogen = 79; | |
441 lifeData->actualGas.GasIdInSettings = 0; | |
442 lifeData->actualGas.nitrogen_percentage = nitrogen; | |
443 lifeData->actualGas.helium_percentage =0; | |
444 lifeData->actualGas.setPoint_cbar = 0; | |
445 lifeData->actualGas.change_during_ascent_depth_meter_otherwise_zero = 0; | |
446 } | |
447 | |
448 | |
449 void setActualGas(SLifeData *lifeData, uint8_t gasId, uint8_t setpoint_cbar) | |
450 { | |
451 SSettings* pSettings = settingsGetPointer(); | |
452 uint8_t nitrogen; | |
453 | |
454 nitrogen = 100; | |
455 nitrogen -= pSettings->gas[gasId].oxygen_percentage; | |
456 nitrogen -= pSettings->gas[gasId].helium_percentage; | |
457 | |
458 lifeData->actualGas.GasIdInSettings = gasId; | |
459 lifeData->actualGas.nitrogen_percentage = nitrogen; | |
460 lifeData->actualGas.helium_percentage = pSettings->gas[gasId].helium_percentage; | |
461 lifeData->actualGas.setPoint_cbar = setpoint_cbar; | |
462 lifeData->actualGas.change_during_ascent_depth_meter_otherwise_zero = 0; | |
463 | |
464 if((pSettings->dive_mode == DIVEMODE_CCR) && (gasId > NUM_OFFSET_DILUENT)) | |
465 lifeData->lastDiluent_GasIdInSettings = gasId; | |
466 } | |
467 | |
468 | |
469 void setActualGas_DM(SLifeData *lifeData, uint8_t gasId, uint8_t setpoint_cbar) | |
470 { | |
471 if(stateUsed->diveSettings.ccrOption && gasId < 6) | |
472 { | |
473 if(lifeData->actualGas.GasIdInSettings != gasId) | |
474 { | |
475 SSettings* pSettings = settingsGetPointer(); | |
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476 stateUsedWrite->events.bailout = 1; |
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477 stateUsedWrite->events.info_bailoutO2 = pSettings->gas[gasId].oxygen_percentage; |
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478 stateUsedWrite->events.info_bailoutHe = pSettings->gas[gasId].helium_percentage; |
38 | 479 } |
480 } | |
481 else | |
482 { | |
483 if(lifeData->actualGas.GasIdInSettings != gasId) | |
484 { | |
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485 stateUsedWrite->events.gasChange = 1; |
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486 stateUsedWrite->events.info_GasChange = gasId; |
38 | 487 } |
488 if( lifeData->actualGas.setPoint_cbar != setpoint_cbar) | |
489 { | |
490 // setPoint_cbar = 255 -> change to sensor mode | |
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491 stateUsedWrite->events.setpointChange = 1; |
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492 stateUsedWrite->events.info_SetpointChange = setpoint_cbar; |
38 | 493 } |
494 } | |
495 setActualGas(lifeData, gasId, setpoint_cbar); | |
496 } | |
497 | |
498 void setActualGas_ExtraGas(SLifeData *lifeData, uint8_t oxygen, uint8_t helium, uint8_t setpoint_cbar) | |
499 { | |
500 uint8_t nitrogen; | |
501 | |
502 nitrogen = 100; | |
503 nitrogen -= oxygen; | |
504 nitrogen -= helium; | |
505 | |
506 if((lifeData->actualGas.nitrogen_percentage != nitrogen) || (lifeData->actualGas.helium_percentage != helium)) | |
507 { | |
281 | 508 stateUsedWrite->events.manualGasSet = 1; |
509 stateUsedWrite->events.info_manualGasSetHe = helium; | |
510 stateUsedWrite->events.info_manualGasSetO2 = oxygen; | |
38 | 511 } |
512 if( lifeData->actualGas.setPoint_cbar != setpoint_cbar) | |
513 { | |
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514 stateUsedWrite->events.setpointChange = 1; |
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515 stateUsedWrite->events.info_SetpointChange = setpoint_cbar; |
38 | 516 } |
517 lifeData->actualGas.GasIdInSettings = 0; | |
518 lifeData->actualGas.nitrogen_percentage = nitrogen; | |
519 lifeData->actualGas.helium_percentage = helium; | |
520 lifeData->actualGas.setPoint_cbar = setpoint_cbar; | |
521 lifeData->actualGas.change_during_ascent_depth_meter_otherwise_zero = 0; | |
522 | |
523 } | |
524 | |
525 void setButtonResponsiveness(uint8_t *ButtonSensitivyList) | |
526 { | |
527 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
528 | |
529 for(int i=0; i<4; i++) | |
530 { | |
531 pDataOut->data.buttonResponsiveness[i] = settingsHelperButtonSens_translate_percentage_to_hwOS_values(ButtonSensitivyList[i]); | |
532 } | |
533 pDataOut->setButtonSensitivityNow = 1; | |
534 } | |
535 | |
536 | |
537 void setDate(RTC_DateTypeDef Sdate) | |
538 { | |
539 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
540 | |
541 pDataOut->data.newDate = Sdate; | |
542 pDataOut->setDateNow = 1; | |
543 } | |
544 | |
545 | |
546 void setTime(RTC_TimeTypeDef Stime) | |
547 { | |
548 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
549 | |
550 pDataOut->data.newTime = Stime; | |
551 pDataOut->setTimeNow = 1; | |
552 } | |
553 | |
554 | |
555 void setBatteryPercentage(uint8_t newChargePercentage) | |
556 { | |
557 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
558 | |
559 pDataOut->data.newBatteryGaugePercentageFloat = settingsGetPointer()->lastKnownBatteryPercentage; | |
560 pDataOut->setBatteryGaugeNow = 1; | |
561 } | |
562 | |
563 | |
564 void calibrateCompass(void) | |
565 { | |
566 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
567 pDataOut->calibrateCompassNow = 1; | |
568 } | |
569 | |
570 | |
571 void clearDeco(void) | |
572 { | |
573 SDataReceiveFromMaster *pDataOut = dataOutGetPointer(); | |
574 pDataOut->clearDecoNow = 1; | |
575 | |
576 stateRealGetPointerWrite()->cnsHigh_at_the_end_of_dive = 0; | |
577 stateRealGetPointerWrite()->decoMissed_at_the_end_of_dive = 0; | |
578 } | |
579 | |
580 | |
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581 static int32_t helper_days_from_civil(int32_t y, uint32_t m, uint32_t d) |
38 | 582 { |
583 y += 2000; | |
584 y -= m <= 2; | |
585 int32_t era = (y >= 0 ? y : y-399) / 400; | |
586 uint32_t yoe = (uint32_t)(y - era * 400); // [0, 399] | |
587 uint32_t doy = (153*(m + (m > 2 ? -3 : 9)) + 2)/5 + d-1; // [0, 365] | |
588 uint32_t doe = yoe * 365 + yoe/4 - yoe/100 + doy; // [0, 146096] | |
589 return era * 146097 + (int32_t)(doe) - 719468; | |
590 } | |
591 | |
592 | |
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593 static uint8_t helper_weekday_from_days(int32_t z) |
38 | 594 { |
595 return (uint8_t)(z >= -4 ? (z+4) % 7 : (z+5) % 7 + 6); | |
596 } | |
597 | |
598 | |
599 void setWeekday(RTC_DateTypeDef *sDate) | |
600 { | |
601 uint8_t day; | |
602 // [0, 6] -> [Sun, Sat] | |
603 day = helper_weekday_from_days(helper_days_from_civil(sDate->Year, sDate->Month, sDate->Date)); | |
604 // [1, 7] -> [Mon, Sun] | |
605 if(day == 0) | |
606 day = 7; | |
607 sDate->WeekDay = day; | |
608 } | |
609 | |
610 | |
611 void translateDate(uint32_t datetmpreg, RTC_DateTypeDef *sDate) | |
612 { | |
613 datetmpreg = (uint32_t)(datetmpreg & RTC_DR_RESERVED_MASK); | |
614 | |
615 /* Fill the structure fields with the read parameters */ | |
616 sDate->Year = (uint8_t)((datetmpreg & (RTC_DR_YT | RTC_DR_YU)) >> 16); | |
617 sDate->Month = (uint8_t)((datetmpreg & (RTC_DR_MT | RTC_DR_MU)) >> 8); | |
618 sDate->Date = (uint8_t)(datetmpreg & (RTC_DR_DT | RTC_DR_DU)); | |
619 sDate->WeekDay = (uint8_t)((datetmpreg & (RTC_DR_WDU)) >> 13); | |
620 | |
621 /* Convert the date structure parameters to Binary format */ | |
622 sDate->Year = (uint8_t)RTC_Bcd2ToByte(sDate->Year); | |
623 sDate->Month = (uint8_t)RTC_Bcd2ToByte(sDate->Month); | |
624 sDate->Date = (uint8_t)RTC_Bcd2ToByte(sDate->Date); | |
625 } | |
626 | |
627 void translateTime(uint32_t tmpreg, RTC_TimeTypeDef *sTime) | |
628 { | |
629 tmpreg = (uint32_t)(tmpreg & RTC_TR_RESERVED_MASK); | |
630 | |
631 /* Fill the structure fields with the read parameters */ | |
632 sTime->Hours = (uint8_t)((tmpreg & (RTC_TR_HT | RTC_TR_HU)) >> 16); | |
633 sTime->Minutes = (uint8_t)((tmpreg & (RTC_TR_MNT | RTC_TR_MNU)) >>8); | |
634 sTime->Seconds = (uint8_t)(tmpreg & (RTC_TR_ST | RTC_TR_SU)); | |
635 sTime->TimeFormat = (uint8_t)((tmpreg & (RTC_TR_PM)) >> 16); | |
636 | |
637 /* Convert the time structure parameters to Binary format */ | |
638 sTime->Hours = (uint8_t)RTC_Bcd2ToByte(sTime->Hours); | |
639 sTime->Minutes = (uint8_t)RTC_Bcd2ToByte(sTime->Minutes); | |
640 sTime->Seconds = (uint8_t)RTC_Bcd2ToByte(sTime->Seconds); | |
641 sTime->SubSeconds = 0; | |
642 } | |
643 | |
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644 void resetEvents(const SDiveState *pStateUsed) |
38 | 645 { |
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646 memset((void *)&pStateUsed->events, 0, sizeof(SEvents)); |
38 | 647 } |
648 | |
649 | |
650 uint32_t CRC_CalcBlockCRC_moreThan768000(uint32_t *buffer1, uint32_t *buffer2, uint32_t words) | |
651 { | |
652 cm_t crc_model; | |
653 uint32_t word_to_do; | |
654 uint8_t byte_to_do; | |
655 int i; | |
656 | |
657 // Values for the STM32F generator. | |
658 | |
659 crc_model.cm_width = 32; // 32-bit CRC | |
660 crc_model.cm_poly = 0x04C11DB7; // CRC-32 polynomial | |
661 crc_model.cm_init = 0xFFFFFFFF; // CRC initialized to 1's | |
662 crc_model.cm_refin = FALSE; // CRC calculated MSB first | |
663 crc_model.cm_refot = FALSE; // Final result is not bit-reversed | |
664 crc_model.cm_xorot = 0x00000000; // Final result XOR'ed with this | |
665 | |
666 cm_ini(&crc_model); | |
667 | |
668 while (words--) | |
669 { | |
670 // The STM32F10x hardware does 32-bit words at a time!!! | |
671 if(words > (768000/4)) | |
672 word_to_do = *buffer2++; | |
673 else | |
674 word_to_do = *buffer1++; | |
675 | |
676 // Do all bytes in the 32-bit word. | |
677 | |
678 for (i = 0; i < sizeof(word_to_do); i++) | |
679 { | |
680 // We calculate a *byte* at a time. If the CRC is MSB first we | |
681 // do the next MS byte and vica-versa. | |
682 | |
683 if (crc_model.cm_refin == FALSE) | |
684 { | |
685 // MSB first. Do the next MS byte. | |
686 | |
687 byte_to_do = (uint8_t) ((word_to_do & 0xFF000000) >> 24); | |
688 word_to_do <<= 8; | |
689 } | |
690 else | |
691 { | |
692 // LSB first. Do the next LS byte. | |
693 | |
694 byte_to_do = (uint8_t) (word_to_do & 0x000000FF); | |
695 word_to_do >>= 8; | |
696 } | |
697 | |
698 cm_nxt(&crc_model, byte_to_do); | |
699 } | |
700 } | |
701 | |
702 // Return the final result. | |
703 | |
704 return (cm_crc(&crc_model)); | |
705 } | |
706 | |
707 | |
708 uint32_t CRC_CalcBlockCRC(uint32_t *buffer, uint32_t words) | |
709 { | |
710 cm_t crc_model; | |
711 uint32_t word_to_do; | |
712 uint8_t byte_to_do; | |
713 int i; | |
714 | |
715 // Values for the STM32F generator. | |
716 | |
717 crc_model.cm_width = 32; // 32-bit CRC | |
718 crc_model.cm_poly = 0x04C11DB7; // CRC-32 polynomial | |
719 crc_model.cm_init = 0xFFFFFFFF; // CRC initialized to 1's | |
720 crc_model.cm_refin = FALSE; // CRC calculated MSB first | |
721 crc_model.cm_refot = FALSE; // Final result is not bit-reversed | |
722 crc_model.cm_xorot = 0x00000000; // Final result XOR'ed with this | |
723 | |
724 cm_ini(&crc_model); | |
725 | |
726 while (words--) | |
727 { | |
728 // The STM32F10x hardware does 32-bit words at a time!!! | |
729 | |
730 word_to_do = *buffer++; | |
731 | |
732 // Do all bytes in the 32-bit word. | |
733 | |
734 for (i = 0; i < sizeof(word_to_do); i++) | |
735 { | |
736 // We calculate a *byte* at a time. If the CRC is MSB first we | |
737 // do the next MS byte and vica-versa. | |
738 | |
739 if (crc_model.cm_refin == FALSE) | |
740 { | |
741 // MSB first. Do the next MS byte. | |
742 | |
743 byte_to_do = (uint8_t) ((word_to_do & 0xFF000000) >> 24); | |
744 word_to_do <<= 8; | |
745 } | |
746 else | |
747 { | |
748 // LSB first. Do the next LS byte. | |
749 | |
750 byte_to_do = (uint8_t) (word_to_do & 0x000000FF); | |
751 word_to_do >>= 8; | |
752 } | |
753 | |
754 cm_nxt(&crc_model, byte_to_do); | |
755 } | |
756 } | |
757 | |
758 // Return the final result. | |
759 | |
760 return (cm_crc(&crc_model)); | |
761 } | |
762 | |
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763 // This code is also in RTE. Keep it in sync when editing |
38 | 764 _Bool is_ambient_pressure_close_to_surface(SLifeData *lifeData) |
765 { | |
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766 if (lifeData->pressure_ambient_bar > 1.16) |
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767 return false; |
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768 else if(lifeData->pressure_ambient_bar < (lifeData->pressure_surface_bar + 0.1f)) |
38 | 769 return true; |
770 else | |
771 return false; | |
772 } |