Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/surfmode.asm @ 57:152fbe7f121d
small update simulator
author | heinrichsweikamp |
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date | Tue, 03 Aug 2010 21:42:43 +0200 |
parents | cd5b650920f6 |
children | 8d8e753d72e3 |
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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/>. ; routines for Surface mode ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 10/01/05 ; last updated: 080905 ; known bugs: ; ToDo: surfloop: ; Boot tasks for all modes call restart_set_modes_and_flags ; Sets decomode flags clrf lo movff lo,char_I_const_ppO2 ; reset to standard mode, OSTC assumes Air breathing at the surface! call PLED_brightness_full ;max. brightness call I2CReset call enable_rs232 call PLED_boot call PLED_serial ; Show OSTC serial and firmware version call PLED_clock ; display time call update_date ; display date 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 movff last_surfpressure_30min+0,int_I_pres_surface+0 ; copy surface air pressure to deco routine movff last_surfpressure_30min+1,int_I_pres_surface+1 ; 30min old values btfsc gauge_mode ; Ignore in gauge mode bra surfloop1 btfsc FLAG_apnoe_mode ; Ignore in Apnoe mode bra surfloop1 ; Startup tasks for decompression modes call PLED_display_cns_surface ; Update surface CNS display (If allowed by CF15) call PLED_desaturation_time ; display desaturation time call PLED_nofly_time ; display nofly time btfss pre_dive_screen ; Show predive screen call PLED_tissue_saturation_graph ; no, display saturation graph btfsc pre_dive_screen ; Show predive screen call PLED_pre_dive_screen ; yes, display Pre-Dive Screen call PLED_active_gas_surfmode ; Show start gas call PLED_display_decotype_surface ; Show deco mode (ZH-L16, const. ppO2 or Multi-GF) surfloop1: btfss gauge_mode ; Display only in gauge mode bra surfloop2 DISPLAYTEXT d'103' ; Gauge mode surfloop2: btfss FLAG_apnoe_mode ; Display only in Apnoe mode bra surfloop3 DISPLAYTEXT d'116' ; Apnoe mode surfloop3: ; Startup tasks for all modes clrf timeout_counter2 clrf timeout_counter3 bcf premenu ; clear premenu flag bcf menubit ; clear menu flag bcf pressure_refresh clrf last_pressure+0 clrf last_pressure+1 clrf last_temperature+0 clrf last_temperature+1 movlw d'5' movwf timeout_counter ; reload counter bcf LED_blue bcf LED_red bcf simulatormode_active ; Quit simulator mode (if active) bcf standalone_simulator ; Quit simulator mode (if active) WIN_TOP .0 WIN_LEFT .0 WIN_FONT FT_SMALL WIN_INVERT .0 ; Init new Wordprocessor call PLED_standard_color bcf switch_left bcf switch_right call PLED_active_gas_surfmode ; Show start gas / SetPoint call PLED_custom_text ; Displays custom text movlw d'1' ; next cf to check movwf cf_checker_counter ; ostc_debug 'G' ; Sends debug-information to screen if debugmode active GETCUSTOM8 d'12' ; Desaturation multiplier % movwf wait_temp movff wait_temp,char_I_desaturation_multiplier GETCUSTOM8 d'11' ; Saturation multiplier % movwf wait_temp movff wait_temp,char_I_saturation_multiplier call deco_main_calc_desaturation_time; calculate desaturation time movlb b'00000001' ; select ram bank 1 ostc_debug 'H' ; Sends debug-information to screen if debugmode active call wait_switches ; Waits until switches are released, resets flag if button stays pressed! surfloop_loop: btfss onesecupdate ; do every second tasks? bra surfloop_loop2 ; no, loop btfss FLAG_const_ppO2_mode ; are we in const. ppO2 mode? bra surfloop_loop1 ; No ; One Second tasks for ppO2 modes bra surfloop_loop1 ; Do not search for sensor in CC mode surfloop_loop1: ; One Second tasks for all modes call PLED_clock ; update clock call test_charger ; check if charger IC is active call timeout_surfmode ; check timeout call get_battery_voltage ; get battery voltage call update_batt_voltage ; display battery voltage call timeout_premenu ; timeout premenu call set_leds_surfmode ; Sets Warning and No-Fly LEDs call custom_functions_check_surfmode ; Checks CF functions and displays warning symbol if something critical is wrong ; call PLED_active_gas_surfmode ; Show start gas / SetPoint call PLED_display_decotype_surface ; Show deco mode btfsc enter_error_sleep ; Enter Fatal Error Routine? call fatal_error_sleep ; Yes (In Sleepmode_vxx.asm!) bcf onesecupdate ; every second tasks done surfloop_loop2: ; Tasks approx. every 50ms for all modes call test_switches_surfmode ; check switches ; Sensor tasks for all modes btfsc pressure_refresh ; new pressure available? call update_surf_press ; display surface pressure btfsc pressure_refresh ; new temperature available? call PLED_temp_surfmode ; Displays temperature btfsc pressure_refresh ; new pressure available? call set_dive_modes ; tests if depth>threshold bcf pressure_refresh ; until new pressure is available ; One minute tasks for all modes btfsc oneminupdate ; do every minute tasks call update_surfloop60 ; yes, e.g. update time and date ; Mode tasks btfsc menubit ; Menu? goto menu ; Menu! btfsc divemode ; Divemode active? goto diveloop ; Yes, switch into Divemode! btfsc sleepmode ; Sleepmode active? goto sleeploop ; Yes, switch into sleepmode! ; Check for the different UART flags btfsc dump_external_eeprom ; Start interface (dumps EEPROM BANK 0 + additional data)? goto menu_interface ; Yes! btfsc uart_settime ; Sync clock with PC? goto sync_clock ; Yes! btfsc internal_eeprom_write ; Access internal EEPROM BANK 0 via UART module goto internal_eeprom_access_b0 ; Yes! btfsc internal_eeprom_write2 ; Access internal EEPROM BANK 1 via UART module goto internal_eeprom_access_b1 ; Yes! btfsc uart_send_hash ; Send MD2 hash values goto send_md2_hash ; Yes! btfsc uart_send_int_eeprom ; Send internal EEPROM BANK 0 goto send_int_eeprom_b0 ; Yes! btfsc uart_reset_decodata ; Reset Deco Data? goto reset_decodata ; Yes! btfsc uart_send_int_eeprom2 ; Send internal EEPROM BANK 1 goto send_int_eeprom_b1 ; Yes! btfsc uart_store_tissue_data ; Store tissue data?` goto uart_store_tissues ; Yes! bra surfloop_loop ; loop surfacemode update_surfloop60: ; One minute tasks for all modes ; call PLED_active_gas_surfmode ; Show start gas / SetPoint call update_date ; and date in divemode call calc_deko_surfmode ; calculate desaturation every minute call check_temp_extrema ; check for new temperature extremas call PLED_custom_text ; Displays custom text call calc_surface_interval ; Increases Surface-Interval time btfsc gauge_mode ; Ignore in gauge mode bra update_surfloop60_2 btfsc FLAG_apnoe_mode ; Ignore in Apnoe mode bra update_surfloop60_2 ; One Minute tasks for deco modes call PLED_display_cns_surface ; Update surface CNS display (If allowed by CF15) call PLED_nofly_time ; display nofly time call PLED_desaturation_time ; display desaturation time btfsc premenu ; Not when "Menu?" is displayed! bra update_surfloop60_2 btfss pre_dive_screen ; Show predive screen call PLED_tissue_saturation_graph ; no, display saturation graph btfsc pre_dive_screen ; Show predive screen call PLED_pre_dive_screen ; yes, display Pre-Dive Screen update_surfloop60_2: call nofly_timeout60 ; checks if nofly time is > 0 bcf oneminupdate return nofly_timeout60: bsf nofly_active ; Set flag movlw d'1' subwf nofly_time+0,F movlw d'0' subwfb nofly_time+1,F ; reduce by one tstfsz nofly_time+0 ; =0? return tstfsz nofly_time+1 ; =0? return bcf nofly_active ; Clear flag bcf LED_blue incf nofly_time+0,F ; =1 return calc_surface_interval: movff int_O_desaturation_time+0,lo ; divide by 60... movff int_O_desaturation_time+1,hi tstfsz lo ;=0? bra calc_surface_interval2 ; No tstfsz hi ;=0? bra calc_surface_interval2 ; No clrf surface_interval+0 clrf surface_interval+1 ; Clear surface interval timer return calc_surface_interval2: ; Increase surface interval timer movlw d'1' addwf surface_interval+0,F movlw d'0' addwfc surface_interval+1,F return set_leds_surfmode: btfsc nofly_active btg LED_blue return calc_deko_surfmode: bsf LED_red ostc_debug 'I' ; Sends debug-information to screen if debugmode active movff last_surfpressure+0,int_I_pres_surface+0 ; copy surface air pressure to deco routine movff last_surfpressure+1,int_I_pres_surface+1 clrf wait_temp ; Use as buffer movff wait_temp,char_I_He_ratio ; No He at the Surface movlw d'79' ; 79% N2 movwf wait_temp ; Use as buffer movff wait_temp,char_I_N2_ratio ; No He at the Surface movff amb_pressure+0,int_I_pres_respiration+0 ; copy surface air pressure to deco routine movff amb_pressure+1,int_I_pres_respiration+1 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 call deco_main_calc_wo_deco_step_1_m ; calculate deco in surface mode movlb b'00000001' ; select ram bank 1 ostc_debug 'J' ; Sends debug-information to screen if debugmode active bcf LED_red return test_charger: bcf TRISC,1 ; CHRG_OUT output bsf CHRG_OUT bcf cc_active ; Constant Current mode active? btfss CHRG_IN ; If CHRG_IN=0 -> CC active bsf cc_active ; Constant Current mode Active! bcf CHRG_OUT bsf TRISC,1 ; CHRG_OUT high impedance WAIT10US d'10' bcf cv_active ; Constant Voltage mode Active? btfss CHRG_IN ; If CHRG_IN=0 -> CV active bsf cv_active ; Constant Voltage mode active! bcf TRISC,1 ; CHRG_OUT output bcf CHRG_OUT btfsc cc_active bra show_cc_active btfsc cv_active bra show_cv_active bsf TRISC,1 ; CHRG_OUT high impedance ; Charger inactive or ready btfss charge_done ; charge done? bra test_charger2 ; No, add incomplete cycle! ; Yes, store all data for complete cycle bcf charge_started ; Clear flag bcf charge_done ; Clear flag ; Store incomplete/total cycles read_int_eeprom d'50' ; Read byte (stored in EEDATA) movff EEDATA,temp1 ; Low byte read_int_eeprom d'51' ; 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'50' ; write byte stored in EEDATA movff temp2,EEDATA write_int_eeprom d'51' ; write byte stored in EEDATA ; Store complete cycles read_int_eeprom d'52' ; Read byte (stored in EEDATA) movff EEDATA,temp1 ; Low byte read_int_eeprom d'53' ; 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'52' ; write byte stored in EEDATA movff temp2,EEDATA write_int_eeprom d'53' ; write byte stored in EEDATA ; Store date of complete cycle movff month,EEDATA write_int_eeprom d'47' movff day,EEDATA write_int_eeprom d'48' movff year,EEDATA write_int_eeprom d'49' return test_charger2: btfss charge_started ; Did the charger ever start? return ; No, quit! bcf charge_started ; Clear flag ; Store incomplete/total cycles read_int_eeprom d'50' ; Read byte (stored in EEDATA) movff EEDATA,temp1 ; Low byte read_int_eeprom d'51' ; 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'50' ; write byte stored in EEDATA movff temp2,EEDATA write_int_eeprom d'51' ; write byte stored in EEDATA return show_cv_active: ; CV mode bsf LED_red WAITMS d'100' bcf LED_red WAITMS d'100' bsf LED_red bsf charge_done ; Charge cycle finished return show_cc_active: ; CC mode bsf LED_red bsf charge_started ; Charger started in CC mode bcf charge_done ; Charge cycle not finished return timeout_premenu: btfss premenu ; is "Menu?" displayed? return ; No 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_topline_box_clear ; Clears Bar at the top btfsc gauge_mode bra timeout_premenu2 ; Skip in Gauge mode btfsc FLAG_apnoe_mode bra timeout_premenu2 ; Skip in Apnoe mode btfss pre_dive_screen ; Show predive screen call PLED_tissue_saturation_graph ; no, display saturation graph btfsc pre_dive_screen ; Show predive screen call PLED_pre_dive_screen ; yes, display Pre-Dive Screen timeout_premenu2: call update_surf_press ; rewrite serial number call PLED_serial ; rewrite serial number clrf timeout_counter3 ; Also clear timeout bcf switch_left ; and debounce switches bcf switch_right return test_switches_surfmode: ; checks switches in surfacemode btfsc switch_left bra test_switches_surfmode2 btfsc switch_right bra test_switches_surfmode3 ; No button press, reset timer0 bcf T0CON,TMR0ON ; Stop Timer 0 bcf INTCON,TMR0IF ; Clear flag clrf TMR0H clrf TMR0L bcf INTCON,INT0IF ; Clear flag bcf INTCON3,INT1IF ; Clear flag return test_switches_surfmode3: bcf switch_right call PLED_topline_box ; Write a filled bar at the top WIN_INVERT .1 ; Init new Wordprocessor DISPLAYTEXT .4 ;Menu? WIN_INVERT .0 ; Init new Wordprocessor bsf premenu clrf timeout_counter2 return test_switches_surfmode2: bcf switch_left btfss premenu bra test_switches_surfmode4 bsf menubit ; Enter Menu! return test_switches_surfmode4: btg pre_dive_screen btfss pre_dive_screen ; Show predive screen call PLED_tissue_saturation_graph ; no, display saturation graph btfsc pre_dive_screen ; Show predive screen call PLED_pre_dive_screen ; yes, display Pre-Dive Screen return timeout_surfmode: incf timeout_counter2,F ; increase timeout counter GETCUSTOM8 d'3' ; loads surfloop_timeout into WREG addlw d'5' ; adds five seconds in case timout=zero! btfsc STATUS,C ; > 255? movlw d'255' ; Set to 255... decf WREG,F ; Limit to 254 cpfsgt timeout_counter2 ; Compare with timeout_counter2 return ; return, no timeout bsf sleepmode ; Set Flag return ; Return