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view Discovery/Src/test_vpm.c @ 506:998529b3e142
Added new top level menu for customization of views
In the previous versions all menus were occupied by menu option. To indroduce the selection views for data visualization a new tab had to be added.
The menu "Customize views" has been moded to the new tab but not yet removed from the previous one. In addition a view for selection of big font options has been added (including multilanguage strings and other infrastructure)
author | Ideenmodellierer |
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date | Sun, 30 Aug 2020 17:19:23 +0200 |
parents | 54d14bc2083c |
children | aa6006975e76 |
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/////////////////////////////////////////////////////////////////////////////// /// -*- coding: UTF-8 -*- /// /// \file Discovery/Src/test_vpm.c /// \brief test 101 /// \author Heinrichs Weikamp /// \date 26-Oct-2014 /// /// \details /// /// $Id$ /////////////////////////////////////////////////////////////////////////////// /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh /// /// This program is free software: you can redistribute it and/or modify /// it under the terms of the GNU General Public License as published by /// the Free Software Foundation, either version 3 of the License, or /// (at your option) any later version. /// /// This program is distributed in the hope that it will be useful, /// but WITHOUT ANY WARRANTY; without even the implied warranty of /// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the /// GNU General Public License for more details. /// /// You should have received a copy of the GNU General Public License /// along with this program. If not, see <http://www.gnu.org/licenses/>. ////////////////////////////////////////////////////////////////////////////// #include <stdio.h> #include <stdint.h> //#include "LED.h" //#include "Keyboard.h" //#include "stm32f4xx_hal.h" #include "buehlmann.h" #include "calc_crush.h" #include "vpm.h" #include "display.h" #include "test_vpm.h" #include "math.h" #include "data_central.h" #include "decom.h" #include "logbook.h" #include "tInfoLog.h" #define true 1 #define false 0 //#define uint8_t unsigned char extern SSettings Settings; _Bool simulate_descent(SDiveState* pInput, float ending_depth_meter, float rate_meter_per_minutes); void init_buehlmann(SDiveState* pInput); _Bool test1(void); uint8_t test2_unapproved(void); uint8_t test3_unapproved(void); _Bool simulate_descent(SDiveState* pInput, float ending_depth_meter, float rate_meter_per_minutes) { int i =0; static float initial_helium_pressure[16]; static float initial_nitrogen_pressure[16]; static float initial_inspired_he_pressure; static float initial_inspired_n2_pressure; static float fraction_nitrogen_begin; static float fraction_nitrogen_end; static float fraction_helium_begin; static float fraction_helium_end; static float nitrogen_rate; static float helium_rate; static float time; extern const float WATER_VAPOR_PRESSURE; extern const float HELIUM_TIME_CONSTANT[]; extern const float NITROGEN_TIME_CONSTANT[]; float starting_ambient_pressure = pInput->lifeData.pressure_ambient_bar * 10; float ending_ambient_pressure = ending_depth_meter + pInput->lifeData.pressure_surface_bar * 10; if((rate_meter_per_minutes <= 0) || (starting_ambient_pressure >= ending_ambient_pressure)) return 0; for(i=0; i<16; i++) { initial_helium_pressure[i] = pInput->lifeData.tissue_helium_bar[i] * 10.0f; initial_nitrogen_pressure[i] = pInput->lifeData.tissue_nitrogen_bar[i] * 10.0f; } //New time = (ending_ambient_pressure - starting_ambient_pressure) / rate_meter_per_minutes; decom_get_inert_gases(starting_ambient_pressure / 10, &pInput->lifeData.actualGas, &fraction_nitrogen_begin, &fraction_helium_begin ); decom_get_inert_gases(ending_ambient_pressure / 10, &pInput->lifeData.actualGas, &fraction_nitrogen_end, &fraction_helium_end ); initial_inspired_he_pressure = (starting_ambient_pressure - WATER_VAPOR_PRESSURE) * fraction_helium_begin; initial_inspired_n2_pressure = (starting_ambient_pressure - WATER_VAPOR_PRESSURE) * fraction_nitrogen_begin; helium_rate = ((ending_ambient_pressure - WATER_VAPOR_PRESSURE)* fraction_helium_end - initial_inspired_he_pressure)/time; nitrogen_rate = ((ending_ambient_pressure - WATER_VAPOR_PRESSURE)* fraction_nitrogen_end - initial_inspired_n2_pressure)/time; pInput->lifeData.pressure_ambient_bar = ending_ambient_pressure/10; for( i = 0; i < 16; i++) { pInput->lifeData.tissue_helium_bar[i] = schreiner_equation__2(&initial_inspired_he_pressure, &helium_rate, &time, &HELIUM_TIME_CONSTANT[i], &initial_helium_pressure[i])/10.0f; pInput->lifeData.tissue_nitrogen_bar[i] = schreiner_equation__2(&initial_inspired_n2_pressure, &nitrogen_rate, &time, &NITROGEN_TIME_CONSTANT[i], &initial_nitrogen_pressure[i]) / 10.0f; } calc_crushing_pressure(&pInput->lifeData, &pInput->vpm,initial_helium_pressure,initial_nitrogen_pressure,starting_ambient_pressure, rate_meter_per_minutes); pInput->lifeData.dive_time_seconds += ((ending_ambient_pressure - starting_ambient_pressure)/rate_meter_per_minutes) * 60; return 1; } void init_buehlmann(SDiveState* pInput) { pInput->diveSettings.internal__pressure_first_stop_ambient_bar_as_upper_limit_for_gf_low_otherwise_zero = 0; pInput->lifeData.dive_time_seconds = 0; for(int i=0;i<BUEHLMANN_STRUCT_MAX_GASES;i++) { pInput->diveSettings.decogaslist[i].change_during_ascent_depth_meter_otherwise_zero = 0; pInput->diveSettings.decogaslist[i].nitrogen_percentage = 79 - i; pInput->diveSettings.decogaslist[i].helium_percentage = i; pInput->diveSettings.decogaslist[i].setPoint_cbar = 0; } pInput->lifeData.actualGas = pInput->diveSettings.decogaslist[0]; pInput->diveSettings.last_stop_depth_bar = 0.3f; pInput->diveSettings.input_next_stop_increment_depth_bar = 0.3f; pInput->decolistVPM.output_time_to_surface_seconds = 0; pInput->decolistFutureVPM.output_time_to_surface_seconds = 0; pInput->decolistBuehlmann.output_time_to_surface_seconds = 0; pInput->decolistFutureBuehlmann.output_time_to_surface_seconds = 0; for(int i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { pInput->decolistVPM.output_stop_length_seconds[i] = 0; pInput->decolistFutureVPM.output_stop_length_seconds[i] = 0; pInput->decolistBuehlmann.output_stop_length_seconds[i] = 0; pInput->decolistFutureBuehlmann.output_stop_length_seconds[i] = 0; } for(int i=0;i<16;i++) { pInput->lifeData.tissue_nitrogen_bar[i] = 0.750927f; pInput->lifeData.tissue_helium_bar[i] = 0; } pInput->diveSettings.gf_high = 80; pInput->diveSettings.gf_low = 20; pInput->diveSettings.vpm_conservatism = 2; pInput->lifeData.pressure_surface_bar = 1.0f; pInput->lifeData.pressure_ambient_bar = 1.0f; pInput->warnings.decoMissed = 0; pInput->events.gasChange = 0; pInput->events.info_GasChange = 0; pInput->events.info_manualGasSetO2 = 0; pInput->events.info_manualGasSetHe = 0; pInput->events.manualGasSet = 0; pInput->warnings.ppO2High = 0; pInput->warnings.ppO2Low = 0; pInput->warnings.slowWarning = 0; //pInput->decolistVPM.UNUSED_input_necessary_stop_length_seconds_otherwise_zero[i] = 0; /*for(i=0;i<BUEHLMANN_STRUCT_MAX_ASCENDRATES;i++) { pInput->lifeData.ascentrate[i].rate_bar_per_minute = 1.2f; pInput->lifeData.ascentrate[i].use_from_depth_bar = 0; // only one ascendrate at the moment }*/ //pInput->diveSettings.input_second_stop_depth_bar = 0.6f; //pInput->lifeData.actual_gas_id = 0; //pInput->lifeData.actual_setpoint_bar_if_rebreather_otherwise_zero = 0; //pInput->lifeData.distance_used_below_stop_levels_bar = 0; // pInput->lifeData.pressure_first_stop_ambient_bar_as_upper_limit_for_gf_low_otherwise_zero = 0; } void init_buehlmann2(SDiveState* pInput) { pInput->diveSettings.internal__pressure_first_stop_ambient_bar_as_upper_limit_for_gf_low_otherwise_zero = 0; pInput->lifeData.dive_time_seconds = 0; int i=0; for(i=0;i<BUEHLMANN_STRUCT_MAX_GASES;i++) { pInput->diveSettings.decogaslist[i].change_during_ascent_depth_meter_otherwise_zero = 0; pInput->diveSettings.decogaslist[i].nitrogen_percentage = 20; pInput->diveSettings.decogaslist[i].helium_percentage = 70; pInput->diveSettings.decogaslist[i].setPoint_cbar = 0; } pInput->lifeData.actualGas = pInput->diveSettings.decogaslist[0]; /*for(i=0;i<BUEHLMANN_STRUCT_MAX_ASCENDRATES;i++) { pInput->lifeData.ascentrate[i].rate_bar_per_minute = 1.2f; pInput->lifeData.ascentrate[i].use_from_depth_bar = 0; // only one ascendrate at the moment }*/ pInput->diveSettings.last_stop_depth_bar = 0.3f; //pInput->diveSettings.input_second_stop_depth_bar = 0.6f; pInput->diveSettings.input_next_stop_increment_depth_bar = 0.3f; pInput->decolistVPM.output_time_to_surface_seconds = 0; pInput->decolistFutureVPM.output_time_to_surface_seconds = 0; pInput->decolistBuehlmann.output_time_to_surface_seconds = 0; pInput->decolistFutureBuehlmann.output_time_to_surface_seconds = 0; for(int i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { pInput->decolistVPM.output_stop_length_seconds[i] = 0; pInput->decolistFutureVPM.output_stop_length_seconds[i] = 0; pInput->decolistBuehlmann.output_stop_length_seconds[i] = 0; pInput->decolistFutureBuehlmann.output_stop_length_seconds[i] = 0; } for(i=0;i<16;i++) { pInput->lifeData.tissue_nitrogen_bar[i] = 0.750927f; pInput->lifeData.tissue_helium_bar[i] = 0; } // pInput->lifeData.distance_used_below_stop_levels_bar = 0; pInput->diveSettings.gf_high = 80; pInput->diveSettings.gf_low = 20; pInput->diveSettings.vpm_conservatism = 2; // pInput->lifeData.pressure_first_stop_ambient_bar_as_upper_limit_for_gf_low_otherwise_zero = 0; pInput->lifeData.pressure_surface_bar = 1.0f; pInput->lifeData.pressure_ambient_bar = 1.0f; } _Bool test1() { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; //static float decotable_minutes[DECOINFO_STRUCT_MAX_STOPS]; /* all the rest */ SDiveState input; init_buehlmann(&input); //vpm conservatism = 0, repetitive = false, vpm_init(&input.vpm,0,false,0); //runter auf 70 meter mit 26 meter/minute simulate_descent(&input, 70.0f, 26.0f); //10 minuten settigung //buehlmann__test__saturate_tissues(&input, 10 * 60); decom_tissues_exposure(10 * 60, &input.lifeData); //buehlmann_calc_deco(&input); vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM), DECOSTOPS); //Check time to surface 46 min +- 0.6 // MultiDeco hw: 42 min output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 46) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 46.0f) >= 0.6f) return false; /* for(i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { if(decotable_minutes[i] != ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f) { counter2++; decotable_minutes[i] = ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f; } } i = i;*/ vpm_saturation_after_ascent(&input.lifeData); input.vpm.decomode_vpm_plus_conservatism_last_dive = input.diveSettings.vpm_conservatism; //Pause 60 min decom_tissues_exposure(60 * 60, &input.lifeData ); //buehlmann__test__saturate_tissues(&input, 60 * 60); vpm_init(&input.vpm,0,true, 60 * 60); //runter auf 70 meter mit 26 meter/minute simulate_descent(&input, 70.0f, 26.0f); //10 minuten settigung //buehlmann__test__saturate_tissues(&input, 10 * 60); decom_tissues_exposure(10 * 60, &input.lifeData); vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM), DECOSTOPS); //Check time to surface 46 min +- 0.6 // MultiDeco hw: 42 min output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 57.0f) >= 0.6f) return false; return true; } uint8_t test2_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; static float decotable_minutes[DECOINFO_STRUCT_MAX_STOPS]; static int32_t counter2 = 0; /* all the rest */ SDiveState input; int i; init_buehlmann(&input); //vpm conservatism = 3, repetitive = false, vpm_init(&(input.vpm),3,false,0); //runter auf 70 meter mit 26 meter/minute simulate_descent(&input, 70.0f, 26.0f); //30 minuten saetigung //buehlmann__test__saturate_tissues(&input, 30 * 60); decom_tissues_exposure(30 * 60, &input.lifeData ); //buehlmann_calc_deco(&input); vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM), DECOSTOPS); //Check time to surface 179.833 min (Peter Version 140415) +- 0.6, MultiDeco is 195 min output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 180) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 180.0f) >= 0.6f) return false; for(i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { if(decotable_minutes[i] != ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f) { counter2++; decotable_minutes[i] = ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f; } } return true; } /** ****************************************************************************** * @brief test 3 * Trimix 10/70 * everything else identical to test1 by Peter Ryser * @version V0.0.1 * @date 19-April-2014 * @retval 1 for result is similar to DRx code, 0 otherwise ****************************************************************************** */ uint8_t test3_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; static float decotable_minutes[DECOINFO_STRUCT_MAX_STOPS]; static int32_t counter2 = 0; /* all the rest */ SDiveState input; int i; init_buehlmann2(&input); //vpm conservatism = 0, repetitive = false, vpm_init(&(input.vpm),0,false,0); //runter auf 70 meter mit 26 meter/minute simulate_descent(&input, 70.0f, 26.0f); //10 minuten settigung decom_tissues_exposure(10 * 60, &input.lifeData); //buehlmann__test__saturate_tissues(&input, 10 * 60); //buehlmann_calc_deco(&input); vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM), DECOSTOPS); //Check time to surface 46 min +- 0.6 output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 46) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 46.0f) >= 0.6f) return false; for(i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { if(decotable_minutes[i] != ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f) { counter2++; decotable_minutes[i] = ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f; } } return true; } /** ****************************************************************************** * @brief test 4 - find the limit * Trimix 10/70 * 200 Meter, 30 Minuten * @version V0.0.1 * @date 19-April-2014 * @retval 1 for result is similar to DRx code, 0 otherwise ****************************************************************************** */ uint8_t test4_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; static float decotable_minutes[DECOINFO_STRUCT_MAX_STOPS]; static int32_t counter2 = 0; /* all the rest */ SDiveState input; int i; init_buehlmann2(&input); //vpm conservatism = 0, repetitive = false, vpm_init(&input.vpm,0,false,0); //runter auf 70 meter mit 26 meter/minute simulate_descent(&input, 200.0f, 26.0f); //10 minuten settigung decom_tissues_exposure(10 * 60, &input.lifeData ); //buehlmann__test__saturate_tissues(&input, 30 * 60); //buehlmann_calc_deco(&input); vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM), DECOSTOPS); //Check time to surface 1270 min // Multi Deco 1270 Minuten output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 1270) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 1270.0f) >= 0.6f) return false; for(i=0;i<DECOINFO_STRUCT_MAX_STOPS;i++) { if(decotable_minutes[i] != ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f) { counter2++; decotable_minutes[i] = ((float)input.decolistVPM.output_stop_length_seconds[i]) / 60.0f; } } return true; } /*uint8_t test5_unapproved(uint32_t frame1, uint32_t frame2, uint32_t frame3, uint32_t frame4)*/ uint8_t test5_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; // static int32_t counter2 = 0; /* all the rest */ SDiveState input; //uint32_t frame[5]; uint8_t vpm_count; /* frame[0] = frame1; frame[1] = frame2; frame[2] = frame3; frame[3] = frame4; frame[4] = frame[0]; */ init_buehlmann(&input); vpm_init(&input.vpm,0,false,0); logbook_initNewdiveProfile(&input,&Settings); setSimulationValues(12, 26 , 70, 30); long time = 60 * 70 / 26 + 10 *60; vpm_count = 0; while(input.lifeData.dive_time_seconds < time ) { /* frame[4] = frame[0]; frame[0] = frame[1]; frame[1] = frame[2]; frame[2] = frame[3]; frame[3] = frame[4];*/ UpdateLifeDataTest(&input); vpm_count++; if(vpm_count > 20) { vpm_calc(&input.lifeData, &(input.diveSettings),&input.vpm, &input.decolistVPM, DECOSTOPS); vpm_count = 0; } /* #ifdef VGAOUT tVGA_refresh(frame[1], &input); GFX_VGA_transform(frame[1],frame[0]); GFX_SetFrameBuffer(frame[0], TOP_LAYER); GFX_clear_buffer(frame[3]); // frame[3] is the previous frame[0] #endif */ if(input.lifeData.dive_time_seconds == 60 *5) { input.events.gasChange = 1; input.events.info_GasChange = 2; } else { input.events.gasChange = 0; input.events.info_GasChange = 0; } logbook_writeSample(&input); } volatile SLogbookHeader* logbookHeader = logbook_getCurrentHeader(); logbookHeader->total_diveTime_seconds = input.lifeData.dive_time_seconds; logbookHeader->maxDepth = input.lifeData.max_depth_meter * 100; logbook_EndDive(); output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 46) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 46.0f) >= 0.6f) return false; return true; } uint8_t test6_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; // static int32_t counter2 = 0; /* all the rest */ SDiveState input; //uint32_t frame[5]; uint8_t vpm_count; init_buehlmann(&input); vpm_init(&input.vpm,0,false,0); logbook_initNewdiveProfile(&input,&Settings); setSimulationValues(12, 26 , 65, 15); long time = 60 * 70 / 26 + 10 *60; vpm_count = 0; while(input.lifeData.dive_time_seconds < time ) { UpdateLifeDataTest(&input); vpm_count++; if(vpm_count > 20) { vpm_calc(&input.lifeData, &(input.diveSettings),&input.vpm, &input.decolistVPM, DECOSTOPS); vpm_count = 0; } if(input.lifeData.dive_time_seconds == 60 *5) { input.events.gasChange = 1; input.events.info_GasChange = 2; } else { input.events.gasChange = 0; input.events.info_GasChange = 0; } logbook_writeSample(&input); } volatile SLogbookHeader* logbookHeader = logbook_getCurrentHeader(); logbookHeader->total_diveTime_seconds = input.lifeData.dive_time_seconds; logbookHeader->maxDepth = input.lifeData.max_depth_meter * 100; logbook_EndDive(); output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 46) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 46.0f) >= 0.6f) return false; return true; } uint8_t test7_unapproved(void) { /* debug code with watch */ static int32_t output_time_to_surface_minutes; static int32_t counter = 0; // static int32_t counter2 = 0; /* all the rest */ SDiveState input; //uint32_t frame[5]; uint8_t vpm_count; init_buehlmann(&input); vpm_init(&input.vpm,0,false,0); logbook_initNewdiveProfile(&input,&Settings); setSimulationValues(12, 26 , 40, 45); long time = 60 * 70 / 26 + 10 *60; vpm_count = 0; while(input.lifeData.dive_time_seconds < time ) { UpdateLifeDataTest(&input); vpm_count++; if(vpm_count > 20) { vpm_calc(&input.lifeData,&input.diveSettings, &input.vpm, &input.decolistVPM, DECOSTOPS); vpm_count = 0; } if(input.lifeData.dive_time_seconds == 60 *5) { input.events.gasChange = 1; input.events.info_GasChange = 2; } else { input.events.gasChange = 0; input.events.info_GasChange = 0; } logbook_writeSample(&input); } volatile SLogbookHeader* logbookHeader = logbook_getCurrentHeader(); logbookHeader->total_diveTime_seconds = input.lifeData.dive_time_seconds; logbookHeader->maxDepth = input.lifeData.max_depth_meter * 100; logbook_EndDive(); output_time_to_surface_minutes = input.decolistVPM.output_time_to_surface_seconds / 60; if (output_time_to_surface_minutes != 46) counter = 0; else counter++; if(fabsf( ((float)input.decolistVPM.output_time_to_surface_seconds / 60.0f) - 46.0f) >= 0.6f) return false; return true; } void test_log_only(uint8_t max_depth_meter, uint16_t divetime_minutes) { SDiveState input; float ascendrate_seconds; float descendrate_seconds; uint32_t divetime_seconds; uint32_t divetime_start_ascend; init_buehlmann(&input); input.lifeData.max_depth_meter = 0.0; input.lifeData.depth_meter = 0.0; input.lifeData.temperature_celsius = 22.7; ascendrate_seconds = 12.0 / 60.0; descendrate_seconds = 20.0 / 60.0; divetime_seconds = divetime_minutes * 60; divetime_start_ascend = divetime_seconds - (uint32_t)(max_depth_meter / ascendrate_seconds); logbook_initNewdiveProfile(&input,&Settings); while(input.lifeData.dive_time_seconds < divetime_seconds ) { input.lifeData.dive_time_seconds += 1; if(input.lifeData.max_depth_meter < (float)max_depth_meter) { input.lifeData.depth_meter += descendrate_seconds; input.lifeData.max_depth_meter = input.lifeData.depth_meter; } else if((input.lifeData.dive_time_seconds >= divetime_start_ascend) && (input.lifeData.depth_meter > 0)) { input.lifeData.depth_meter -= ascendrate_seconds; if(input.lifeData.depth_meter < 0) input.lifeData.depth_meter = 0; } logbook_writeSample(&input); } volatile SLogbookHeader* logbookHeader = logbook_getCurrentHeader(); logbookHeader->total_diveTime_seconds = input.lifeData.dive_time_seconds; logbookHeader->maxDepth = input.lifeData.max_depth_meter * 100; logbook_EndDive(); } /** ****************************************************************************** * @brief test 101 * a) for air * b) air + oxygen * c) Trimix 10/70 + oxygen * 65 Meter, 42 Minuten with descent * @version V0.0.1 * @date 26-Oct-2014 * @retval ToDo: 1 for result is similar to MultiDeco ****************************************************************************** */ uint8_t test101_buehlmann_unapproved(void) { /* all the rest */ SDiveState input; init_buehlmann(&input); //Gas Change at 6 meter to oxygin //input.diveSettings.decogaslist[1].change_during_ascent_depth_bar_otherwise_zero = 0.6f; //input.diveSettings.decogaslist[1].nitrogen_percentage = 0; //input.diveSettings.decogaslist[1].helium_percentage = 0; input.diveSettings.gf_high = 100; input.diveSettings.gf_low = 100; input.diveSettings.ascentRate_meterperminute = 10.0f; input.diveSettings.last_stop_depth_bar = 0.3f; // input.diveSettings.last_stop_depth_bar = 0.6f; /* ist egal bei oxygen */ //runter auf 65 meter mit 20 meter/minute simulate_descent(&input, 65.0f, 20.0f); //38min 45sec saettigung == 2325 sec decom_tissues_exposure(30*60, &input.lifeData ); // decom_tissues_exposure(2325, &input.lifeData ); //vpm_calc(&(input.lifeData),&(input.diveSettings),&(input.vpm),&(input.decolistVPM)); buehlmann_calc_deco(&input.lifeData,&input.diveSettings,&input.decolistBuehlmann); //Check time to surface MultiDeco 4.04 // 308 min with Air // 190,5 min with Air + 6m last stop with oxygen // 538 min with Trimix 10/70 and oxygen at 6m // ... return true; }