Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/divemode.asm @ 57:152fbe7f121d
small update simulator
author | heinrichsweikamp |
---|---|
date | Tue, 03 Aug 2010 21:42:43 +0200 |
parents | cd5b650920f6 |
children | fee7c62b4de1 |
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; OSTC - diving computer code ; Copyright (C) 2008 HeinrichsWeikamp GbR ; 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/>. ; Mainroutines for divemode ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 10/01/05 ; last updated: 15/05/08 ; known bugs: ; ToDo: diveloop: call diveloop_boot ; Boot tasks for all modes ; Startup Tasks for all modes ostc_debug 'R' ; Sends debug-information to screen if debugmode active call PLED_ClearScreen ; clean up OLED call PLED_divemode_mask ; Display mask call PLED_active_gas_divemode ; Display gas, if required call PLED_temp_divemode ; Displays temperature btfsc FLAG_apnoe_mode bsf realdive ; Set Realdive flag in Apnoe mode btfsc gauge_mode bra diveloop_loop ; Skip in gauge mode btfsc FLAG_apnoe_mode bra diveloop_loop ; Skip in apnoe mode ; Startup Tasks for deco modes call PLED_display_ndl_mask ; display "no stop" if not in gauge or apnoe mode diveloop_loop: ; The diveloop starts here btfss onesecupdate ; tasks any new second bra diveloop_loop2 btfsc gauge_mode ; Only in gauge mode bra diveloop_loop1a ; One Second Tasks in Gauge mode btfsc FLAG_apnoe_mode ; Only in apnoe mode bra diveloop_loop1b ; One Second Tasks in Apnoe mode btfsc FLAG_const_ppO2_mode ; only in const_ppO2_mode bra diveloop_loop1c ; One Second Tasks in const_ppO2 mode ; Tasks only for OC modes call check_ppO2 ; check ppO2 and displays warning if required call calc_deko_divemode ; calculate decompression and display result (any two seconds) bra diveloop_loop1x ; Common Tasks ; Tasks only for Gauge mode diveloop_loop1a: btfss premenu ; Is the divemode menu active? call PLED_divemins ; display (new) divetime! call timeout_divemode ; dive finished? This routine sets the required flags btfsc stopwatch_active ; =1: Show Average Depth instead of Temperature call PLED_stopwatch_show ; Show stopwatch only in Average mode btfsc twosecupdate ; two seconds after the last call bra diveloop_loop1a2 ; Common Tasks bsf twosecupdate ; Routines used in the "other second" call calc_average_depth ; calculate average depth bra diveloop_loop1x ; Common Tasks diveloop_loop1a2: bcf twosecupdate bra diveloop_loop1x ; Common Tasks ; Tasks only for Apnoe mode diveloop_loop1b: call divemode_apnoe_tasks ; 1 sec. Apnoe tasks bra diveloop_loop1x ; Common Tasks ; Tasks only for ppO2 mode diveloop_loop1c: call PLED_const_ppO2_value ; display const ppO2 setting in [Bar] call calc_deko_divemode ; calculate decompression and display result (any two seconds) btfsc is_bailout ; Are we in Bailout mode? call check_ppO2_bail ; Yes, display ppO2 (If required) bra diveloop_loop1x ; Common Tasks ; Common Tasks for all modes diveloop_loop1x: call timeout_divemode ; dive finished? This routine sets the required flags btfsc low_battery_state ; If battery is low, then... call update_batt_voltage_divemode ; Display Battery Symbol/Voltage! btfsc premenu ; is Menu? displayed? call timeout_premenu_divemode ; No, so check for timeout premenu btfsc menubit ; is the Dive mode menu displayed? call timeout_divemenu ; Yes, so check for timeout divemenu call set_leds_divemode ; Sets warnings, if required. Also Sets buzzer btfsc enter_error_sleep ; Enter Fatal Error Routine? call fatal_error_sleep ; Yes (In Sleepmode_vxx.asm!) btfsc stopwatch_active ; =1: Show Average Depth instead of Temperature call PLED_stopwatch_show ; Show stopwatch only in Average mode bcf onesecupdate ; one seconds update done GETCUSTOM8 d'38' ; Show seconds (=1?) movwf lo movlw d'1' cpfseq lo ; =1? bra diveloop_loop2 ; No, minutes only bsf update_divetime ; Set Update flag diveloop_loop2: btfss update_divetime ; display new divetime? bra diveloop_loop3 ; No btfsc premenu ; Is the divemode menu active? bra diveloop_loop2a ; Yes call PLED_divemins ; Display (new) divetime! btfsc FLAG_const_ppO2_mode ; only in const_ppO2_mode call PLED_const_ppO2_value ; display const ppO2 setting in [Bar] btfsc ppO2_show_value ; show ppO2? call check_ppO2 ; check ppO2 and displays warning if required diveloop_loop2a: bcf update_divetime ; clear flag diveloop_loop3: btfss menubit ; Divemode menu active? call test_switches_divemode ; No, Check switches normal btfsc menubit ; Divemode menu active? call test_switches_divemode_menu ; Yes, check switches divemode menu btfss divemode ; Dive finished? bra end_dive ; Dive finished! btfsc pressure_refresh ; new pressure available? call update_divemode1 ; Yes, display new depth bcf pressure_refresh ; until new pressure is available btfsc oneminupdate ; one minute tasks call update_divemode60 ; Update clock, etc. btfsc store_sample ; store new sample? call store_dive_data ; Store profile data btfsc menubit ; Sleep only with inactive menu... bra diveloop_loop4 btfsc simulatormode_active ; Do not sleep in Simualtor mode bra diveloop_loop4 sleep nop diveloop_loop4: bra diveloop_loop ; Loop the divemode timeout_premenu_divemode: incf timeout_counter3,F ; Yes... GETCUSTOM8 d'4' ; loads premenu_timeout into WREG cpfsgt timeout_counter3 ; ... longer then premenu_timeout return ; No! bcf premenu ; Yes, so clear "Menu?" and clear pre_menu bit call PLED_menu_clear ; Remove "Menu?" return divemode_apnoe_tasks: ; 1 sec. Apnoe tasks call PLED_display_apnoe_descent ; Show descent timer btfsc divemode2 ; Time running? bra divemode_apnoe_tasks2 ; New descent, reset data if flag is set call PLED_display_apnoe_surface incf apnoe_surface_secs,F movlw d'60' cpfseq apnoe_surface_secs bra divemode_apnoe_tasks1 clrf apnoe_surface_secs incf apnoe_surface_mins,F divemode_apnoe_tasks1: bcf FLAG_active_descent ; Clear flag btfsc divemode2 ; Time running? return ; Yes, return bsf FLAG_active_descent ; Set Flag return divemode_apnoe_tasks2: btfss FLAG_active_descent ; Are descending? return ; No, We are at the surface rcall apnoe_calc_maxdepth ; Yes! divemode_apnoe_tasks3: call PLED_apnoe_clear_surface ; Clear Surface timer clrf apnoe_timeout_counter ; Delete timeout clrf apnoe_surface_secs clrf apnoe_surface_mins clrf apnoe_secs clrf apnoe_mins ; Reset Descent time clrf max_pressure+0 clrf max_pressure+1 ; Reset Max. Depth bcf FLAG_active_descent ; Clear flag return apnoe_calc_maxdepth: movff apnoe_max_pressure+0,sub_a+0 movff apnoe_max_pressure+1,sub_a+1 movff max_pressure+0,sub_b+0 movff max_pressure+1,sub_b+1 call sub16 ; sub_c = sub_a - sub_b ; apnoe_max_pressure<max_pressure -> neg_flag=1 ; max_pressure<=apnoe_max_pressure -> neg_flag=0 btfss neg_flag return ;apnoe_max_pressure<max_pressure movff max_pressure+0,apnoe_max_pressure+0 movff max_pressure+1,apnoe_max_pressure+1 return set_leds_divemode: bcf LED_red ; LEDy OFF movff char_O_gradient_factor,lo ; gradient factor absolute GETCUSTOM8 d'14' ; threshold for LED warning cpfslt lo ; call warn_gf1 ; show warning, set flags btfsc ppO2_warn_value ; warn because of too high ppO2? bsf LED_red ; Yes movff char_I_deco_model,lo decfsz lo,W ; jump over return if char_I_deco_model == 1 return movff char_O_relative_gradient_GF,lo ; gradient factor relative (GF model) GETCUSTOM8 d'14' ; threshold for LED warning cpfslt lo ; call warn_gf1 ; show warning, set flags btfsc ppO2_warn_value ; warn because of too high ppO2? bsf LED_red ; Yes return warn_gf1: bsf LED_red ; LED Yellow on movlw d'2' ; Type of Alarm movwf AlarmType ; Copy to Alarm Register bsf event_occured ; Set Event Flag return calc_deko_divemode: btfsc twosecupdate ; two seconds after the last call bra calc_deko_divemode2 ; Yes, calculate and display deco data ("first second") bsf twosecupdate ; No, but next second! ; Routines used in the "other second" call calc_average_depth ; calculate average depth call calc_velocity ; calculate vertical velocity and display if > threshold (every two seconds) ; calculate ppO2 in 0.1Bar (e.g. 150 = 1.50Bar ppO2) movff amb_pressure+0,xA+0 movff amb_pressure+1,xA+1 movlw d'10' movwf xB+0 clrf xB+1 call div16x16 ; xC=p_amb/10 movff xC+0,xA+0 movff xC+1,xA+1 movff char_I_O2_ratio,xB+0 clrf xB+1 call mult16x16 ; char_I_O2_ratio * p_amb/10 movff xC+0,xA+0 movff xC+1,xA+1 movlw d'100' movwf xB+0 clrf xB+1 call div16x16 ; xC=(char_I_O2_ratio * p_amb/10)/100 ; Copy ppO2 for CNS calculation movff xC+0, char_I_actual_ppO2 ; copy last ppO2 to buffer register btfsc FLAG_const_ppO2_mode ; do in const_ppO2_mode movff char_I_const_ppO2, char_I_actual_ppO2 ; copy last ppO2 to buffer register ; Calculate CNS call main_calc_CNS_fraction ; calculate CNS movlb b'00000001' ; rambank 1 selected ; Check if CNS should be displayed movff char_O_CNS_fraction,lo ; copy into bank1 GETCUSTOM8 d'27' ; cns_display_high subwf lo,W btfsc STATUS,C call PLED_display_cns ; Show CNS call check_gas_change ; Checks if a better gas should be selected (by user) ; Check for decompression gases if in decomode btfss dekostop_active bra reset_decompression_gases ; While in NDL, do not set deompression gas divemode_check_decogases: ; CALLed from Simulator ; Copy active gases to char_I_deco_N2_ratio and char_I_deco_He_ratio read_int_eeprom d'97' ; Read He ratio movff EEDATA,char_I_deco_He_ratio5 ; And copy into hold register read_int_eeprom d'96' ; Read O2 ratio movff char_I_deco_He_ratio5, wait_temp ; copy into bank1 register bsf STATUS,C ; movlw d'100' ; 100% subfwb wait_temp,W ; minus He subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_deco_N2_ratio5; = N2! read_int_eeprom d'101' ; Read He ratio movff EEDATA,char_I_deco_He_ratio4 ; And copy into hold register read_int_eeprom d'100' ; Read O2 ratio movff char_I_deco_He_ratio4, wait_temp ; copy into bank1 register bsf STATUS,C ; movlw d'100' ; 100% subfwb wait_temp,W ; minus He subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_deco_N2_ratio4; = N2! read_int_eeprom d'105' ; Read He ratio movff EEDATA,char_I_deco_He_ratio3 ; And copy into hold register read_int_eeprom d'104' ; Read O2 ratio movff char_I_deco_He_ratio3, wait_temp ; copy into bank1 register bsf STATUS,C ; movlw d'100' ; 100% subfwb wait_temp,W ; minus He subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_deco_N2_ratio3; = N2! read_int_eeprom d'109' ; Read He ratio movff EEDATA,char_I_deco_He_ratio2 ; And copy into hold register read_int_eeprom d'108' ; Read O2 ratio movff char_I_deco_He_ratio2, wait_temp ; copy into bank1 register bsf STATUS,C ; movlw d'100' ; 100% subfwb wait_temp,W ; minus He subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_deco_N2_ratio2; = N2! read_int_eeprom d'113' ; Read He ratio movff EEDATA,char_I_deco_He_ratio ; And copy into hold register read_int_eeprom d'112' ; Read O2 ratio movff char_I_deco_He_ratio, wait_temp ; copy into bank1 register bsf STATUS,C ; movlw d'100' ; 100% subfwb wait_temp,W ; minus He subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_deco_N2_ratio; = N2! ; Now, set change depth. Inactive gases have depth=0! read_int_eeprom d'118' ; read gas_change_depth Gas1 movff EEDATA,char_I_deco_gas_change5 read_int_eeprom d'119' ; read gas_change_depth Gas2 movff EEDATA,char_I_deco_gas_change4 read_int_eeprom d'120' ; read gas_change_depth Gas3 movff EEDATA,char_I_deco_gas_change3 read_int_eeprom d'121' ; read gas_change_depth Gas4 movff EEDATA,char_I_deco_gas_change2 read_int_eeprom d'122' ; read gas_change_depth Gas5 movff EEDATA,char_I_deco_gas_change ; Debugger ; call enable_rs232 ; movff char_I_deco_He_ratio5,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_N2_ratio5,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_He_ratio4,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_N2_ratio4,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_He_ratio3,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_N2_ratio3,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_He_ratio2,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_N2_ratio2,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_He_ratio,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_N2_ratio,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_gas_change5,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_gas_change4,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_gas_change3,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_gas_change2,TXREG ; call rs232_wait_tx ; wait for UART ; movff char_I_deco_gas_change,TXREG ; call rs232_wait_tx ; wait for UART return reset_decompression_gases: ; reset the deco gas while in NDL ostc_debug 'F' ; Sends debug-information to screen if debugmode active clrf lo movff lo,char_I_deco_gas_change5 movff lo,char_I_deco_gas_change4 movff lo,char_I_deco_gas_change3 movff lo,char_I_deco_gas_change2 movff lo,char_I_deco_gas_change ; clear return calc_deko_divemode2: bcf twosecupdate btfsc gauge_mode ; ignore decompression calculation in gauge mode return btfsc FLAG_apnoe_mode ; ignore decompression calculation in apnoe mode return ostc_debug 'B' ; Sends debug-information to screen if debugmode active call divemode_prepare_flags_for_deco movlw d'0' movff WREG,char_I_step_is_1min ; 2 second deco mode call deco_main_calc_hauptroutine ; calc_tissue movlb b'00000001' ; rambank 1 selected ostc_debug 'C' ; Sends debug-information to screen if debugmode active movff char_O_deco_status,deco_status ; tstfsz deco_status ; deco_status=0 if decompression calculation done return ; calculation not yet finished! movff char_O_array_decodepth+0,wait_temp ; copy ceiling to temp register tstfsz wait_temp ; Ceiling<0m? bra calc_deko_divemode3 ; Yes! btfsc dekostop_active call PLED_display_ndl_mask ; Clear deco data, display nostop time bcf dekostop_active ; clear flag clrf decodata+0 ; for profile memory movff char_O_nullzeit,decodata+1 ; nostop time call PLED_display_ndl ; display no deco limit return divemode_prepare_flags_for_deco: movff amb_pressure+0,int_I_pres_respiration+0 ; lo and copy result to deco routine movff amb_pressure+1,int_I_pres_respiration+1 ; hi GETCUSTOM8 d'11' ; Saturation multiplier % movwf wait_temp movff wait_temp,char_I_saturation_multiplier GETCUSTOM8 d'12' ; Desaturation multiplier % movwf wait_temp movff wait_temp,char_I_desaturation_multiplier GETCUSTOM8 d'16' ; Deco distance to decostop in 1/10 meter for simulation movwf wait_temp movff wait_temp,char_I_deco_distance GETCUSTOM8 d'29' ; Depth Last Deco in meter for simulation movwf wait_temp movff wait_temp,char_I_depth_last_deco call restart_set_modes_and_flags ; Sets decomode (char_I_deco_model) and flags (again) return calc_deko_divemode3: btfss dekostop_active call PLED_display_deko_mask ; clear nostop time, display decodata bsf dekostop_active ; Set flag movff char_O_array_decodepth+0,decodata+0 ; ceiling movff char_O_array_decotime,decodata+1 ; length of first stop in minues call PLED_display_deko ; display decodata return store_dive_data: ; CF20 seconds gone bcf store_sample ; update only any CF20 seconds bsf update_divetime ; update divemins every CF20 seconds bcf LED_red ; LEDr off (Marker) btfsc simulatormode_active ; Are we in simulator mode? return ; Yes, discard everything btfsc header_stored ; Header already stored? bra store_dive_data2 ; Yes, store only profile data bsf header_stored ; Store header movff eeprom_address+0, eeprom_header_address+0 ; store startposition movff eeprom_address+1, eeprom_header_address+1 ; store startposition ; shift address for header ; the header will be stored after the dive incf_eeprom_address d'47' ; Macro, that adds 8Bit to eeprom_address:2 with banking at 0x8000 store_dive_data2: movf rel_pressure+0,W ; store depth with every sample call write_external_eeprom movf rel_pressure+1,W call write_external_eeprom ;First, find out how many bytes will append to this sample.... clrf ProfileFlagByte ; clear number of bytes to append ; Check Extented informations decfsz divisor_temperature,W ; Check divisor bra check_extended1 movlw d'2' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended1: decfsz divisor_deco,W ; Check divisor bra check_extended2 movlw d'2' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended2: decfsz divisor_tank,W ; Check divisor bra check_extended3 movlw d'2' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended3: decfsz divisor_ppo2,W ; Check divisor bra check_extended4 movlw d'3' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended4: decfsz divisor_deco_debug,W; Check divisor bra check_extended5 movlw d'9' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended5: decfsz divisor_nuy2,W ; Check divisor bra check_extended6 movlw d'0' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte check_extended6: ; Second, check global event flag btfss event_occured ; Check global event flag bra store_dive_data3 ; No Event movlw d'1' addwf ProfileFlagByte,F ; add one byte (The EventByte) clrf EventByte ; reset EventByte movf AlarmType,W ; Type of Alarm Bit 0-3 addwf EventByte,F ; Copy to EventByte Bit 0-3 clrf AlarmType ; Reset AlarmType ; Third, check events and add aditional bytes btfss manual_gas_changed ; Check flag bra check_event1 movlw d'2' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte bsf EventByte,4 ; Also set Flag in EventByte! check_event1: btfss stored_gas_changed ; Check flag bra check_event2 movlw d'1' ; Information length addwf ProfileFlagByte,F ; add to ProfileFlagByte bsf EventByte,5 ; Also set Flag in EventByte! check_event2: bsf ProfileFlagByte,7 ; Set EventByte Flag in ProfileFlagByte store_dive_data3: movf ProfileFlagByte,W ; finally, write ProfileFlagByte! call write_external_eeprom btfss event_occured ; Check global event flag (again) bra store_dive_data4 ; No Event ; Store the EventByte + additional bytes now movf EventByte,W call write_external_eeprom btfss manual_gas_changed ; Check flag bra store_dive_data3a read_int_eeprom d'24' ; % O2 Gas6 movf EEDATA,W call write_external_eeprom read_int_eeprom d'25' ; % He Gas6 movf EEDATA,W call write_external_eeprom store_dive_data3a: btfss stored_gas_changed ; Check flag bra store_dive_data3b movf active_gas,W ; Store active gas call write_external_eeprom store_dive_data3b: store_dive_data4: bcf event_occured ; Clear the global event flag bcf manual_gas_changed ; Clear all events bcf stored_gas_changed ; Clear all events ; Store extended informations decfsz divisor_temperature,F ; Check divisor bra store_extended1 rcall store_dive_temperature store_extended1: decfsz divisor_deco,F ; Check divisor bra store_extended2 rcall store_dive_decodata store_extended2: decfsz divisor_tank,F ; Check divisor bra store_extended3 rcall store_dive_tankdata store_extended3: decfsz divisor_ppo2,F ; Check divisor bra store_extended4 rcall store_dive_ppo2 store_extended4: decfsz divisor_deco_debug,F; Check divisor bra store_extended5 rcall store_dive_decodebug store_extended5: decfsz divisor_nuy2,F ; Check divisor bra store_extended6 rcall store_dive_nuy2 store_extended6: ; The next block is required to take care of "store never" btfsc divisor_temperature,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_temperature ; And clear register again, so it will never reach zero... btfsc divisor_deco,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_deco ; And clear register again, so it will never reach zero... btfsc divisor_tank,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_tank ; And clear register again, so it will never reach zero... btfsc divisor_ppo2,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_ppo2 ; And clear register again, so it will never reach zero... btfsc divisor_deco_debug,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_deco_debug ; And clear register again, so it will never reach zero... btfsc divisor_nuy2,7 ; Test highest Bit (Register must have been zero before the "decfsz" command!) clrf divisor_nuy2 ; And clear register again, so it will never reach zero... ostc_debug 'D' ; Sends debug-information to screen if debugmode active return ; Done. store_dive_nuy2: GETCUSTOM8 d'26' movwf divisor_nuy2 ; Reload divisor from CF return store_dive_decodebug: movff 0x931,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x930,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x933,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x932,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x935,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x934,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x937,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x936,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM movff 0x938,divisor_deco_debug ; Used as temp movf divisor_deco_debug,W ; copy to WREG call write_external_eeprom ; Store in EEPROM GETCUSTOM8 d'25' movwf divisor_deco_debug ; Reload divisor from CF return store_dive_ppo2: movlw 0x00 ; Dummy call write_external_eeprom movlw 0x00 ; Dummy call write_external_eeprom movlw 0x00 ; Dummy call write_external_eeprom GETCUSTOM8 d'24' movwf divisor_ppo2 ; Reload divisor from CF return store_dive_tankdata: movlw d'0' ; Dummy Tank1 call write_external_eeprom movlw d'0' ; Dummy Tank2 call write_external_eeprom GETCUSTOM8 d'23' movwf divisor_tank ; Reload divisor from CF return store_dive_decodata: movf decodata+0,W ; =0:no stop dive, if in deco mode: ceiling in m call write_external_eeprom movf decodata+1,W ; no stop time of length of first stop call write_external_eeprom GETCUSTOM8 d'22' movwf divisor_deco ; Reload divisor from CF return store_dive_temperature: movf temperature+0,W ; append temperature to current sample! call write_external_eeprom movf temperature+1,W call write_external_eeprom GETCUSTOM8 d'21' movwf divisor_temperature ; Reload divisor from CF return calc_velocity: ; called every two seconds btfss divemode bra do_not_display_velocity ; display velocity only in divemode calc_velocity2: movff amb_pressure+0,sub_a+0 movff amb_pressure+1,sub_a+1 movff last_pressure+0,sub_b+0 movff last_pressure+1,sub_b+1 movff amb_pressure+0,last_pressure+0 ; store old value for velocity movff amb_pressure+1,last_pressure+1 call sub16 ; sub_c = amb_pressure - last_pressure movff sub_c+0,xA+0 movff sub_c+1,xA+1 movlw d'39' ;77 when called every second.... movwf xB+0 clrf xB+1 call mult16x16 ; differential pressure in mBar*77... movff xC+0,divA+0 movff xC+1,divA+1 movlw d'7' movwf divB call div16 ; devided by 2^7 equals velocity in m/min movlw d'99' cpfsgt divA bra calc_velocity3 movwf divA ; divA=99 calc_velocity3: GETCUSTOM8 d'5' ; threshold for display vertical velocity subwf divA+0,W ; btfss STATUS,C bra do_not_display_velocity update_velocity: bsf display_velocity call PLED_display_velocity return do_not_display_velocity: btfss display_velocity ; Velocity was not displayed, do not delete return bcf display_velocity ; Velocity was displayed, delete velocity now call PLED_display_velocity_clear return check_ppO2: ; check current ppO2 and display warning if required btfsc FLAG_const_ppO2_mode ; ignore in ppO2 mode.... return check_ppO2_bail: ; In CC mode but bailout active! movff amb_pressure+0,xA+0 movff amb_pressure+1,xA+1 movlw d'10' movwf xB+0 clrf xB+1 call div16x16 ; xC=p_amb/10 movff xC+0,xA+0 movff xC+1,xA+1 movff char_I_O2_ratio,xB+0 clrf xB+1 call mult16x16 ; char_I_O2_ratio * p_amb/10 ; Check if ppO2 should be displayed movff xC+0,sub_b+0 movff xC+1,sub_b+1 GETCUSTOM8 d'19' ; ppo2_display_high mullw d'100' ; ppo2_display_high*100 movff PRODL,sub_a+0 movff PRODH,sub_a+1 call sub16 bcf ppO2_show_value ; clear flag btfsc neg_flag bsf ppO2_show_value ; set flag if required ;check if we are within our warning thresholds! bcf ppO2_warn_value ; clear flag movff xC+0,sub_b+0 movff xC+1,sub_b+1 GETCUSTOM8 d'18' ; ppo2_warning_high mullw d'100' ; ppo2_warning_high*100 movff PRODL,sub_a+0 movff PRODH,sub_a+1 call sub16 btfss neg_flag bra check_ppO2_0 ; Not too high bsf ppO2_warn_value ; set flag movlw d'5' ; Type of Alarm movwf AlarmType ; Copy to Alarm Register bsf event_occured ; Set Event Flag check_ppO2_0: movff xC+0,sub_b+0 movff xC+1,sub_b+1 GETCUSTOM8 d'17' ; ppo2_warning_low mullw d'100' ; ppo2_warning_low*100 movff PRODL,sub_a+0 movff PRODH,sub_a+1 call sub16 btfsc neg_flag bra check_ppO2_1 ; Not too low bsf ppO2_warn_value ; set flag bsf ppO2_show_value ; show ppO2 if below threshold! movlw d'4' ; Type of Alarm movwf AlarmType ; Copy to Alarm Register bsf event_occured ; Set Event Flag check_ppO2_1: btfsc ppO2_show_value ; show value? bra check_ppO2_2 ; yes! btfss ppO2_display_active ; is the value displayed? bra check_ppO2_3 ; No, so clear not required call PLED_show_ppO2_clear; Clear ppO2 value bcf ppO2_display_active ; clear flag bra check_ppO2_3 ; done check_ppO2_2: call PLED_show_ppO2 ; Display ppO2 (stored in xC) bsf ppO2_display_active ; Set flag check_ppO2_3: return ; done check_gas_change: ; Checks if a better gas should be selected (by user) bcf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode movff rel_pressure+0,xA+0 movff rel_pressure+1,xA+1 movlw d'100' movwf xB+0 clrf xB+1 call div16x16 ; compute depth in full m -> result in xC+0 check_gas_change1: ; check gas1 read_int_eeprom d'27' ; read flag register btfss EEDATA,0 ; check active flag bra check_gas_change2 ; skip inactive gases! movlw d'1' cpfseq active_gas ; is this gas currently selected? bra check_gas_change1x ; No... bra check_gas_change2 ; Yes, skip depth check check_gas_change1x: read_int_eeprom d'28' ; read gas_change_depth movlw d'3' cpfsgt EEDATA ; Change depth>3m? bra check_gas_change2 ; No, Change depth not deep enough, skip! movf xC+0,W ; load depth in m into WREG cpfsgt EEDATA ; gas_change_depth < current depth? bra check_gas_change2 ; No, check next gas movlw d'3' subwf EEDATA,W ; Change depth-3m cpfslt xC+0 ; current depth<Change depth-3m? bsf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode check_gas_change2: ; check gas2 read_int_eeprom d'27' ; read flag register btfss EEDATA,1 ; check active flag bra check_gas_change3 ; skip inactive gases! movlw d'2' cpfseq active_gas ; is this gas currently selected? bra check_gas_change2x ; No... bra check_gas_change3 ; Yes, skip depth check check_gas_change2x: read_int_eeprom d'29' ; read gas_change_depth movlw d'3' cpfsgt EEDATA ; Change depth>3m? bra check_gas_change3 ; No, Change depth not deep enough, skip! movf xC+0,W ; load depth in m into WREG cpfsgt EEDATA ; gas_change_depth < current depth? bra check_gas_change3 ; No, check next gas movlw d'3' subwf EEDATA,W ; Change depth-3m cpfslt xC+0 ; current depth<Change depth-3m? bsf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode check_gas_change3: ; check gas3 read_int_eeprom d'27' ; read flag register btfss EEDATA,2 ; check active flag bra check_gas_change4 ; skip inactive gases! movlw d'3' cpfseq active_gas ; is this gas currently selected? bra check_gas_change3x ; No... bra check_gas_change4 ; Yes, skip depth check check_gas_change3x: read_int_eeprom d'30' ; read gas_change_depth movlw d'3' cpfsgt EEDATA ; Change depth>3m? bra check_gas_change4 ; No, Change depth not deep enough, skip! movf xC+0,W ; load depth in m into WREG cpfsgt EEDATA ; gas_change_depth < current depth? bra check_gas_change4 ; No, check next gas movlw d'3' subwf EEDATA,W ; Change depth-3m cpfslt xC+0 ; current depth<Change depth-3m? bsf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode check_gas_change4: ; check gas4 read_int_eeprom d'27' ; read flag register btfss EEDATA,3 ; check active flag bra check_gas_change5 ; skip inactive gases! movlw d'4' cpfseq active_gas ; is this gas currently selected? bra check_gas_change4x ; No... bra check_gas_change5 ; Yes, skip depth check check_gas_change4x: read_int_eeprom d'31' ; read gas_change_depth cpfsgt EEDATA ; Change depth>3m? bra check_gas_change5 ; No, Change depth not deep enough, skip! movf xC+0,W ; load depth in m into WREG cpfsgt EEDATA ; gas_change_depth < current depth? bra check_gas_change5 ; No, check next gas movlw d'3' subwf EEDATA,W ; Change depth-3m cpfslt xC+0 ; current depth<Change depth-3m? bsf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode check_gas_change5: ; check gas5 read_int_eeprom d'27' ; read flag register btfss EEDATA,4 ; check active flag bra check_gas_change6 ; skip inactive gases! movlw d'5' cpfseq active_gas ; is this gas currently selected? bra check_gas_change5x ; No... bra check_gas_change6 ; Yes, skip depth check check_gas_change5x: read_int_eeprom d'32' ; read gas_change_depth cpfsgt EEDATA ; Change depth>3m? bra check_gas_change6 ; No, Change depth not deep enough, skip! movf xC+0,W ; load depth in m into WREG cpfsgt EEDATA ; gas_change_depth < current depth? bra check_gas_change6 ; No, check next gas movlw d'3' subwf EEDATA,W ; Change depth-3m cpfslt xC+0 ; current depth<Change depth-3m? bsf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode check_gas_change6: ;Done call PLED_active_gas_divemode ; Display gas, if required (and with "*" if irequired...) return calculate_noflytime: ; calculate nofly time movff int_O_desaturation_time+0,xA+0 movff int_O_desaturation_time+1,xA+1 tstfsz xA+0 ; Desat=0? bra calculate_noflytime2 tstfsz xA+1 ; Desat=0? bra calculate_noflytime2 ; Desaturation time = zero movlw d'1' movwf nofly_time+0 ; Clear nofly time clrf nofly_time+1 ; Clear nofly time bcf nofly_active ; Clear flag return calculate_noflytime2: movff xA+0,int_I_temp+0 movff xA+1,int_I_temp+1 GETCUSTOM8 .13 ; nofly_time_ratio movwf xB+0 movff xB,char_I_temp ostc_debug 'K' ; Sends debug-information to screen if debugmode active call main_calc_percentage movlb b'00000001' ; select ram bank 1 ostc_debug 'L' ; Sends debug-information to screen if debugmode active movff int_I_temp+0,xA+0 movff int_I_temp+1,xA+1 tstfsz xA+0 ; Desat=0? bra calculate_noflytime_2_final tstfsz xA+1 ; Desat=0? bra calculate_noflytime_2_final ; noflytime = zero movlw d'1' movwf nofly_time+0 ; Clear nofly time clrf nofly_time+1 ; Clear nofly time bcf nofly_active ; Clear flag return calculate_noflytime_2_final: movff xA+0,nofly_time+0 movff xA+1,nofly_time+1 bsf nofly_active ; Set flag return end_dive: btfss realdive ; dive longer then one minute goto end_dive_common ; No, discard everything btfsc simulatormode_active ; Are we in simulator mode? goto end_dive_common ; Yes, discard everything ; Dive finished (and longer then one minute or Apnoe timeout occured) btfsc FLAG_apnoe_mode ; Calc max. depth (again) for very short apnoe dives rcall apnoe_calc_maxdepth ; calculate desaturation time movff last_surfpressure_30min+0,int_I_pres_respiration+0 ; copy surface air pressure to deco routine movff last_surfpressure_30min+1,int_I_pres_respiration+1 ; 30min old values GETCUSTOM8 d'12' ; Desaturation multiplier % movwf wait_temp movff wait_temp,char_I_desaturation_multiplier ostc_debug 'G' ; Sends debug-information to screen if debugmode active call deco_main_calc_desaturation_time ; calculate desaturation time movlb b'00000001' ; select ram bank 1 rcall calculate_noflytime ; Calc NoFly time ostc_debug 'H' ; Sends debug-information to screen if debugmode active ; store header and ... movlw 0xFD ; .... End-of-Profile Bytes call write_external_eeprom movlw 0xFD call write_external_eeprom movlw 0xFE ; This positon will be overwritten for the next profile call write_external_eeprom ; and is required to find the newest dive after a firmware reset movff eeprom_header_address+0, eeprom_address+0 ; set header adress movff eeprom_header_address+1, eeprom_address+1 ; write header movlw 0xFA ; Header start call write_external_eeprom movlw 0xFA call write_external_eeprom movlw logbook_profile_version ; Defined in definitions_vxyy.asm call write_external_eeprom movf month,W ; Date call write_external_eeprom movf day,W call write_external_eeprom movf year,W call write_external_eeprom movf hours,W ; End of dive time call write_external_eeprom movf mins,W call write_external_eeprom btfss FLAG_apnoe_mode ; Store apnoe max or normal max (Which is only max from the last descent) bra end_dive1 ; Store normal depth movff apnoe_max_pressure+0,lo movff apnoe_max_pressure+1,hi call adjust_depth_with_salinity ; computes salinity setting into lo:hi [mBar] movff lo,apnoe_max_pressure+0 movff hi,apnoe_max_pressure+1 movf apnoe_max_pressure+0,W ; Max. depth call write_external_eeprom movf apnoe_max_pressure+1,W call write_external_eeprom bra end_dive2 ; skip end_dive1: movff max_pressure+0,lo movff max_pressure+1,hi call adjust_depth_with_salinity ; computes salinity setting into lo:hi [mBar] movff lo,max_pressure+0 movff hi,max_pressure+1 movf max_pressure+0,W ; Max. depth call write_external_eeprom movf max_pressure+1,W call write_external_eeprom end_dive2: movf divemins+0,W ; divetime minutes call write_external_eeprom movf divemins+1,W call write_external_eeprom movf divesecs,W ; divetime seconds call write_external_eeprom movf mintemp+0,W ; minimum temperature call write_external_eeprom movf mintemp+1,W call write_external_eeprom movf last_surfpressure_30min+0,W ; airpressure before dive call write_external_eeprom movf last_surfpressure_30min+1,W call write_external_eeprom movff int_O_desaturation_time+0,lo ; movff int_O_desaturation_time+1,hi movf lo,W ; desaturation time in minutes call write_external_eeprom movf hi,W ; call write_external_eeprom ; Gases.... read_int_eeprom d'6' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'7' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'10' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'11' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'14' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'15' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'18' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'19' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'22' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'23' ; Read byte (stored in EEDATA) movf EEDATA,W call write_external_eeprom read_int_eeprom d'24' ; % O2 Gas6 movf EEDATA,W call write_external_eeprom read_int_eeprom d'25' ; % He Gas6 movf EEDATA,W call write_external_eeprom read_int_eeprom d'33' ; start gas movf EEDATA,W call write_external_eeprom movlw softwareversion_x ; Firmware version call write_external_eeprom movlw softwareversion_y call write_external_eeprom movf batt_voltage+0,W ; Battery voltage call write_external_eeprom movf batt_voltage+1,W call write_external_eeprom GETCUSTOM8 d'20' ; sampling rate in WREG btfsc FLAG_apnoe_mode ; Apnoe mode? movlw d'1' ; Apnoe sampling rate call write_external_eeprom movlw d'2' ; information size temperature movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'21' ; Divisor temperature addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom movlw d'2' ; information size deco movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'22' ; Divisor deco addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom movlw d'2' ; information size tank movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'23' ; Divisor Tank addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom movlw d'3' ; information size pp02 movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'24' ; Divisor pp02 addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom movlw d'9' ; information size Decodebug movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'25' ; Divisor Decodebug addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom movlw d'0' ; information size nuy2 movwf temp1 ; copy to bits 0-3 swapf temp1,F ; swap nibbels 0-3 with 4-7 GETCUSTOM8 d'26' ; Divisor nuy2 addwf temp1,W ; copy to bits 0-3, result in WREG call write_external_eeprom read_int_eeprom d'26' ; Read Salinity from EEPROM movf EEDATA,W call write_external_eeprom ; Store Salinity to Dive movlw d'0' ; Spare call write_external_eeprom movlw 0xFB ; Header stop call write_external_eeprom movlw 0xFB call write_external_eeprom ; Increase total dive counter read_int_eeprom d'2' ; Read byte (stored in EEDATA) movff EEDATA,temp1 ; Low byte read_int_eeprom d'3' ; Read byte (stored in EEDATA) movff EEDATA,temp2 ; high byte bcf STATUS,C movlw d'1' addwf temp1 movlw d'0' addwfc temp2 movff temp1,EEDATA write_int_eeprom d'2' ; write byte stored in EEDATA movff temp2,EEDATA write_int_eeprom d'3' ; write byte stored in EEDATA GETCUSTOM15 .28 ; Logbook Offset -> lo, hi tstfsz lo ; lo=0? bra change_logbook_offset1 ; No, adjust offset tstfsz hi ; hi=0? bra change_logbook_offset1 ; No, adjust offset bra change_logbook_offset2 ; lo=0 and hi=0 -> skip Offset routine change_logbook_offset1: movlw d'1' addwf lo movlw d'0' addwfc hi movlw d'112' ; CF28 *4 Bytes... addlw 0x82 movwf EEADR movff lo,EEDATA call write_eeprom ; Lowbyte movlw d'112' ; CF28 *4 Bytes... addlw 0x83 movwf EEADR movff hi,EEDATA call write_eeprom ; Highbyte change_logbook_offset2: bcf LED_blue end_dive_common: bcf simulatormode_active ; if we were in simulator mode btfsc restore_deco_data ; Restore decodata? call simulator_restore_tissue_data ; Yes! call deco_main_gradient_array movlb b'00000001' ; select ram bank 1 clrf surface_interval+0 clrf surface_interval+1 ; Clear surface interval timer goto surfloop ; and return to surfaceloop timeout_divemode: btfss realdive ; Dive longer then one minute return btfsc FLAG_apnoe_mode ; In Apnoe mode? bra timeout_divemode2 ; Yes, use CF30 [min] for timeout btfsc simulatormode_active ; In Simulator mode? bra timeout_divemode3 ; Yes, use fixed 5 seconds timeout bcf divemode incf timeout_counter,F GETCUSTOM8 d'2' ; diveloop_timeout addlw d'2' ; adds two seconds in case timout=zero! btfsc STATUS,C ; > 255? movlw d'255' ; Set to 255... decf WREG,F ; Limit to 254 cpfsgt timeout_counter bsf divemode return timeout_divemode2: incf timeout_counter,F ; seconds... movlw d'60' cpfseq timeout_counter ; timeout_counter=60? return ; No. clrf timeout_counter bcf divemode incf apnoe_timeout_counter,F GETCUSTOM8 d'30' ; apnoe timeout [min] cpfseq apnoe_timeout_counter bsf divemode return timeout_divemode3: bcf divemode incf timeout_counter,F movlw d'5' ; Fixed timeout of 5 seconds cpfsgt timeout_counter bsf divemode return update_divemode1: ; update any second call set_dive_modes ; tests if depth>threshold btfsc divemode call set_max_depth ; update max. depth if required btfsc divemode call set_min_temp ; store min. temp if required bcf temp_changed ; Display temperature? movf temperature+0,W cpfseq last_temperature+0 bsf temp_changed ; Yes movf temperature+1,W cpfseq last_temperature+1 bsf temp_changed ; Yes btfsc temp_changed call PLED_temp_divemode ; Displays temperature bcf pres_changed ; Display new depth? movf amb_pressure+0,W cpfseq last_pressure+0 bsf pres_changed ; Yes movf amb_pressure+1,W cpfseq last_pressure+1 bsf pres_changed ; Yes btfsc simulatormode_active ; always update depth when in simulator mode bsf pres_changed btfsc pres_changed call PLED_depth ; Displays new depth return update_divemode60: ; update any minute call get_battery_voltage ; gets battery voltage call set_powersafe ; red LED blinking if battery is low call PLED_max_pressure ; No, use normal max. depth call check_temp_extrema ; check for new temperature extremas bcf oneminupdate return set_max_depth: movff max_pressure+0,sub_a+0 movff max_pressure+1,sub_a+1 movff rel_pressure+0,sub_b+0 movff rel_pressure+1,sub_b+1 call sub16 ; sub_c = sub_a - sub_b ; max_pressure<rel_pressure -> neg_flag=1 ; rel_pressure<=max_pressure -> neg_flag=0 btfss neg_flag return ;max_pressure<rel_pressure movff rel_pressure+0,max_pressure+0 movff rel_pressure+1,max_pressure+1 call PLED_max_pressure ; No, use normal max. depth return set_min_temp: movff mintemp+0,sub_a+0 movff mintemp+1,sub_a+1 movff temperature+0,sub_b+0 movff temperature+1,sub_b+1 call sub16 ; sub_c = sub_a - sub_b ; mintemp<T -> neg_flag=1 ; T<=mintemp -> neg_flag=0 btfsc neg_flag return ;mintemp>=T movff temperature+0,mintemp+0 movff temperature+1,mintemp+1 return set_dive_modes: bcf divemode2 ; Stop time GETCUSTOM8 .0 ; loads dive_threshold in WREG movwf sub_a+0 ; dive_treshold is in cm clrf sub_a+1 movff rel_pressure+0,sub_b+0 movff rel_pressure+1,sub_b+1 call sub16 ; sub_c = sub_a - sub_b btfss neg_flag bra set_dive_modes2 ; too shallow (rel_pressure<dive_threshold) btfsc realdive ; Dive longer than one minute? clrf timeout_counter bsf divemode bsf divemode2 ; displayed divetime is running return set_dive_modes2: btfss realdive ; dive longer then one minute? bcf divemode ; no -> this was no real dive return set_powersafe: btfsc low_battery_state ; battery warning alread active? bra set_powersafe2 ; Yes, but is it still required? ; battery voltage in mV (value*256+Lowbyte=actual treshold) movlw d'12' ; 3,328V cpfsgt batt_voltage+1 bra set_powersafe1 return set_powersafe1: movlw d'7' ; Type of Alarm (Battery Low) movwf AlarmType ; Copy to Alarm Register bsf event_occured ; Set Event Flag bsf low_battery_state ; set flag for battery warning return ; return set_powersafe2: movlw d'13' ; 3,584V cpfsgt batt_voltage+1 bra set_powersafe1 ; Still to low bcf low_battery_state ; clear flag for battery warning mode return calc_average_depth: ; 1. Add new 2xdepth to the Sum of depths registers movff rel_pressure+0,b0_lo movff rel_pressure+1,b0_hi movf b0_lo,w addwf average_depth_hold+0,F movf b0_hi,w addwfc average_depth_hold+1,F movlw d'0' addwfc average_depth_hold+2,F addwfc average_depth_hold+3,F ; Will work up to 9999mBar*60*60*24=863913600mBar movf b0_lo,w addwf average_depth_hold+0,F movf b0_hi,w addwfc average_depth_hold+1,F movlw d'0' addwfc average_depth_hold+2,F addwfc average_depth_hold+3,F ; Will work up to 9999mBar*60*60*24=863913600mBar ; 2. Compute Average Depth on base of average_divesecs:2 movff average_divesecs+0,xB+0 movff average_divesecs+1,xB+1 ; Copy movff average_depth_hold+0,xC+0 movff average_depth_hold+1,xC+1 movff average_depth_hold+2,xC+2 movff average_depth_hold+3,xC+3 call div32x16 ; xC:4 / xB:2 = xC+3:xC+2 with xC+1:xC+0 as remainder movff xC+0,avr_rel_pressure+0 movff xC+1,avr_rel_pressure+1 return diveloop_boot: ostc_debug 'Q' ; Sends debug-information to screen if debugmode active clrf max_pressure+0 ; clear some variables clrf max_pressure+1 clrf avr_rel_pressure+0 clrf avr_rel_pressure+1 call PLED_brightness_low read_int_eeprom d'90' ; Brightness offset? (Dim>0, Normal = 0) movlw d'0' cpfsgt EEDATA call PLED_brightness_full clrf average_depth_hold+0 clrf average_depth_hold+1 clrf average_depth_hold+2 clrf average_depth_hold+3 ; Clear average depth register movlw d'1' movwf average_divesecs+0 clrf average_divesecs+1 movlw d'1' movwf apnoe_max_pressure+0 clrf apnoe_max_pressure+1 clrf apnoe_surface_mins clrf apnoe_surface_secs clrf apnoe_mins clrf apnoe_secs clrf divemins+0 clrf divemins+1 clrf divesecs clrf samplesecs clrf apnoe_timeout_counter ; timeout in minutes clrf timeout_counter ; takes care of the timeout clrf timeout_counter2 ; Here: counts to six, then store deco data and temperature clrf AlarmType ; Clear all alarms bcf event_occured ; clear flag bcf depth_greater_100m ; clear flag setf last_diluent ; to be displayed after first calculation (range: 0 to 100 [%]) bcf dekostop_active bcf is_bailout ;=1: CC mode, but bailout active! bcf better_gas_available ;=1: A better gas is available and a gas change is advised in divemode call get_free_EEPROM_location ; get last position in external EEPROM, may be up to 2 secs! movff last_surfpressure_30min+1,int_I_pres_surface+1 ; HIGH copy surfacepressure to deco routine movff last_surfpressure_30min+0,int_I_pres_surface+0 ; LOW copy surfacepressure to deco routine movff temperature+0,mintemp+0 ; Reset Min-Temp registers movff temperature+1,mintemp+1 ; Reset Min-Temp registers clrf wait_temp ; Used to clear Bankx registers movff wait_temp,char_O_GF_low_pointer movff wait_temp,char_O_actual_pointer lfsr FSR0,0x250 movlw 0x20 movwf wait_temp clear_deco_lists: ; Clear Deco list clrf POSTINC0 decfsz wait_temp,F bra clear_deco_lists lfsr FSR0,0x270 movlw 0x20 movwf wait_temp set_no_forced_stops: ; Init Deco list movlw 0x01 movwf POSTINC0 decfsz wait_temp,F bra set_no_forced_stops lfsr FSR0,0x290 ; clear int_O_calc_tissue_call_counter (DEBUG) clrf POSTINC0 clrf POSTINC0 ; Start with active Stopwatch? bsf stopwatch_active GETCUSTOM8 d'41' ; =1: Start with active Stopwatch movwf lo movlw d'1' cpfseq lo ; CF41=1? bcf stopwatch_active ; No! ; Init profile recording parameters GETCUSTOM8 d'20' ; sample rate movwf samplesecs_value ; to avoid EEPROM access in the ISR GETCUSTOM8 d'21' movwf divisor_temperature ; load divisors for profile storage GETCUSTOM8 d'22' movwf divisor_deco GETCUSTOM8 d'23' movwf divisor_tank GETCUSTOM8 d'24' movwf divisor_ppo2 GETCUSTOM8 d'25' movwf divisor_deco_debug GETCUSTOM8 d'26' movwf divisor_nuy2 btfss FLAG_apnoe_mode ; In Apnoe mode? bra divemode1 ; Overwrite some parameters in Apnoe mode.... movlw d'1' movwf samplesecs_value ; to avoid EEPROM access in the ISR divemode1: read_int_eeprom d'36' ; Read mix 1 ppO2 btfsc FLAG_const_ppO2_mode movff EEDATA,char_I_const_ppO2 ; Set ppO2 setpoint if in ppO2 mode movff EEDATA, ppO2_setpoint_store ; Store also in this byte... bcf LED_blue bcf low_battery_state ; clear flag for battery warning mode bcf header_stored bcf premenu bcf realdive bsf update_divetime ; set flag btfss simulatormode_active ; do not disable in simulator mode! call disable_rs232 ; Disable RS232 read_int_eeprom d'33' ; Read byte (stored in EEDATA) movff EEDATA,active_gas ; Read start gas (1-5) ; Read Start Gas and configure char_I_He_ratio, char_I_O2_ratio and char_I_N2_ratio decf active_gas,W ; Gas 0-4 mullw d'4' movf PRODL,W addlw d'7' ; = address for He ratio movwf EEADR call read_eeprom ; Read He ratio movff EEDATA,char_I_He_ratio ; And copy into hold register decf active_gas,W ; Gas 0-4 mullw d'4' movf PRODL,W addlw d'6' ; = address for O2 ratio movwf EEADR call read_eeprom ; Read O2 ratio movff EEDATA, char_I_O2_ratio ; O2 ratio movff char_I_He_ratio, wait_temp ; copy into bank1 register bsf STATUS,C ; Borrow bit movlw d'100' ; 100% subfwb wait_temp,W ; minus He bsf STATUS,C ; Borrow bit subfwb EEDATA,F ; minus O2 movff EEDATA, char_I_N2_ratio ; = N2! bcf multi_gf_display ; Do not display the multi-gf table screen return