Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/altimeter.asm @ 295:1a15d75702f7
Menu3 marker bugfix
author | Heinrichsweikamp |
---|---|
date | Thu, 28 Apr 2011 18:14:02 +0200 |
parents | 8a0bbe43df65 |
children | 6bdf80d7276c 2144f19fa1eb |
line wrap: on
line source
;============================================================================= ; ; File altimeter.asm ; ; Altimeter function prototype. ; ; 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/>. ; ; Copyright (c) 2010, JD Gascuel. ;============================================================================= ; HISTORY ; 2010-12-15 : [jDG] First prototype with quadratic polynomial ant tp°. ; 2010-12-28 : [jDG] Use MPLAB Math and C libraries for FP32 computations. ; 2011-01-02 : [jDG] Edit reference pressure by 0.25 mbar. ; 2011-01-31 : [jDG] Better menu: default 1013mbar, and editing by +/- 1mbar. ; 2011-02-23 : [jDG] Fix restart after sleepmode. ; ; Known bug: Simulator reset altitude and reference... altimeter_calc: movlb HIGH(pressureAvg) ; Altimeter data in bank 0. movlw HIGH(4*.900) ; Is presure ref bigger than 900mbar cpfsgt pressureRef+1 bra altimeter_reset ; No: Should do a reset now. movlw HIGH(4*.1100) ; Is ref pressure bigger than 1100mbar ? cpfsgt pressureRef+1 bra altimeter_1 ; No: ok it is valid... ; Reset calibration value to default. altimeter_reset: movlb HIGH(pressureAvg) ; Altimeter data in bank 0. movlw LOW(4*.1013+1) ; Init see level at 1013,25 mbar. movwf pressureRef+0 movlw HIGH(4*.1013+1) movwf pressureRef+1 ; Restart averaging. Eg. after a sleep, enables to faster restart with correct ; values... altimeter_restart: movlb HIGH(pressureAvg) ; Altimeter data in bank 0. clrf pressureSum+0 ; Init averaging area clrf pressureSum+1 clrf pressureCount movff amb_pressure+0,pressureAvg+0 ; And init first average. movff amb_pressure+1,pressureAvg+1 movlw 4 ; And multiply AVG by 16 to be coherent. altimeter_reset_1: bcf STATUS,C rlcf pressureAvg+0 rlcf pressureAvg+1 decfsz WREG bra altimeter_reset_1 rcall compute_altitude movlb 1 ; Back to normal bank1. return altimeter_1: ;---- Do a bank-safe 16bit summing ----------------------------------- movff amb_pressure+0,WREG addwf pressureSum+0,F movff amb_pressure+1,WREG addwfc pressureSum+1,F incf pressureCount ; Increment count too. movlw .32 ; Already 32 done ? subwf pressureCount,W bnz altimeter_4 ; NO: skip update. ;---- Update altitude every 32 pressure measures -------------------- bcf STATUS,C ; Divide by 2, to store pressure x16 rrcf pressureSum+1 rrcf pressureSum+0 movff pressureSum+0,pressureAvg+0 movff pressureSum+1,pressureAvg+1 rcall compute_altitude ; Compute from the averaged value... clrf pressureSum+0 ; And reset sum zone for next averaging. clrf pressureSum+1 clrf pressureCount altimeter_4: movlb 1 ; make sure to be in normal bank1 return ;---- Display result ------------------------------------------------- altimeter_display: GETCUSTOM8 .49 ; Check CF#49 btfss WREG,0 ; Enabled ? return ; NO: return WIN_TOP .35 ; Custom view drawing zone... WIN_LEFT .90 WIN_INVERT .0 WIN_FONT .0 call PLED_standard_color STRCPY "Alt: " movff altitude+0,lo ; BANK-SAFE read altitude movff altitude+1,hi btfss hi,7 ; Is altitude negativ ? bra altimeter_2 ; No: just print it PUTC '-' ; Yes: print the minus sign comf hi ; And do a 16bit 2-complement. comf lo infsnz lo incf hi altimeter_2: bsf leftbind output_16 bcf leftbind STRCAT_PRINT "m " return ;============================================================================= ; Compute altitude, using the formula: ; H(P) = 18.787 log10(P0/P) (Log base 10) ;---- Interface the the Mayh library ----------------------------------------- extern __AARGB2 ; A float in fA2, fA1, fA0, fAExo extern __BARGB2 ; B float in fB2, fB1, fB0, fBExo extern FLO1632U ; convert uint16 fA+1 --> fp32 fA extern FPD32 ; fp32 divide fA/fB --> fA extern FPM32 ; fp32 multiply fA*fB --> fA extern INT3216 ; convert fp32 fA --> int16 fA+1 #define fA __AARGB2 #define fB __BARGB2 ;---- Interface to the C library --------------------------------------------- extern __AARGB3 extern log10 ; float32 log(auto float32) #define fRet __AARGB3 compute_altitude: ; Setup C-code stack, to enable calling the log() function. lfsr FSR1, c_code_data_stack lfsr FSR2, c_code_data_stack ; Convert pressure to float, --> fB movff pressureAvg+0, fA+1 movff pressureAvg+1, fA+2 call FLO1632U ; u16 fA[1:2] --> fp32 fA movff fA+0, fB+0 movff fA+1, fB+1 movff fA+2, fB+2 movff fA+3, fB+3 ; Convert sea-level reference pressure to float, --> fB movff pressureRef+0, fA+1 ; Get sea level pressure. movff pressureRef+1, fA+2 bcf STATUS,C ; Multiply by 4. rlcf fA+1 rlcf fA+2 bcf STATUS,C rlcf fA+1 rlcf fA+2 call FLO1632U ; to float: u16 fA[1:2] --> fp32 fA ; Divide call FPD32 ; fp32 X/Y --> X ; log10() movff fA+0, POSTINC1 ; Push X to stack movff fA+1, POSTINC1 movff fA+2, POSTINC1 movff fA+3, POSTINC1 call log10 ; log(P0/P) movf POSTDEC1,F,ACCESS ; pop argument movf POSTDEC1,F,ACCESS movf POSTDEC1,F,ACCESS movf POSTDEC1,F,ACCESS ; Move log10(P0/P) to fB movff fRet+0,fB+0 ; move result to fB movff fRet+1,fB+1 movff fRet+2,fB+2 movff fRet+3,fB+3 ; Multiply by scaling factor for meters, and standatd atmosphere. movlw LOW(.18787) movff WREG, fA+1 movlw HIGH(.18787) movff WREG, fA+2 call FLO1632U ; u16 fA[1:2] --> fp32 fA call FPM32 ; altitute --> fp32 fA ; Convert result to int16 --> altitude. call INT3216 ; fp32 fA --> int16 fA+1 movff fA+1, altitude+0 movff fA+2, altitude+1 return ;============================================================================= ; Altimeter menu ; ; Edit reference (where altitude = 0) pressure, while displaying corresponding ; altitude. ; altimeter_menu: movff pressureRef+0,WREG ; Make sure it is initialized... movff pressureRef+1,fA iorwf fA bnz altimeter_menu_1 ; Yes: skip reset... rcall altimeter_reset altimeter_menu_1: call PLED_ClearScreen ; Menu header. call PLED_standard_color call PLED_topline_box WIN_INVERT .1 ; Init new Wordprocessor DISPLAYTEXTH .288 ; Title bar movlw 2 ; Start menu on line 2. movwf menupos altimeter_menu_2: WIN_INVERT 0 WIN_FONT 0 WIN_LEFT .20 ; First line: WIN_TOP .35 lfsr FSR2,letter OUTPUTTEXTH .289 ; Sea ref: movff pressureRef+0, lo movff pressureRef+1, hi bcf STATUS,C ; Divide ref pressure by 4 rrcf hi ; to get the integer part of it: rrcf lo bcf STATUS,C rrcf hi rrcf lo bsf leftbind output_16 STRCAT_PRINT " mbar " WIN_TOP .65 ; Action enable lfsr FSR2, letter OUTPUTTEXTH .290 GETCUSTOM8 .49 btfss WREG,0 bra alt_menu_1 OUTPUTTEXT .130 ; ON bra alt_menu_2 alt_menu_1: OUTPUTTEXT .131 ; OFF alt_menu_2: call word_processor DISPLAYTEXTH .291 ; Action reset DISPLAYTEXTH .292 ; Action add DISPLAYTEXTH .293 ; Action sub DISPLAYTEXT .011 ; Action exit WIN_LEFT .85 ; Bottom right. lfsr FSR2, letter OUTPUTTEXTH .294 ; "Alt: " movff altitude+0, lo movff altitude+1, hi btfss hi,7 ; Is altitude negativ ? bra altimeter_menu_3 ; No: just print it PUTC '-' ; Yes: print the minus sign comf hi ; And do a 16bit 2-complement. comf lo infsnz lo incf hi altimeter_menu_3: bsf leftbind output_16 bcf leftbind STRCAT_PRINT "m " alt_menu_loop: call PLED_menu_cursor ; Display cursor bcf switch_left ; reset buttons state bcf switch_right alt_menu_loop1: ; Wait for button. btfsc switch_right ; [[MENU]] button bra alt_menu_next btfsc switch_left ;[[ENTER]] button bra alt_menu_do_it btfsc divemode ; Diving stared ? goto restart ; YES: quit this menu ! btfsc onesecupdate ; Check what should be every 1sec. call timeout_surfmode btfsc onesecupdate call set_dive_modes bcf onesecupdate ; end of 1sek. tasks btfsc sleepmode ; Sleep mode entered ? bra alt_menu_exit bra alt_menu_loop1 ;---- Move to next line ------------------------------------------------------ alt_menu_next: incf menupos ; next line. movlw .7 cpfseq menupos ; Below last line ? bra alt_menu_loop movlw .2 ; Yes: back to line no 2. movwf menupos bra alt_menu_loop ;----- Execute menu line ----------------------------------------------------- alt_menu_do_it: movf menupos,W ; test line value addlw -2 bz alt_menu_enable ; 2 --> reset dcfsnz WREG bra alt_menu_reset ; 3 --> +1 dcfsnz WREG bra alt_menu_plus1 ; 4 --> +1 dcfsnz WREG bra alt_menu_minus1 ; 5 --> -1 bra alt_menu_exit ; else --> exit ;---- Toggle altimeter (CF#49) ----------------------------------------------- alt_menu_enable: GETCUSTOM8 .49 ; Read CF#49 btg WREG,0 ; Toggle boolean value movwf EEDATA movlw d'1' ; Upper EEPROM Bank movwf EEADRH movlw 4*(.49-.32) + 0x82 ; CF#49 low byte address in EEPROM movwf EEADR call write_eeprom bra altimeter_menu_2 ;---- Reset sea level pressure to reference ---------------------------------- alt_menu_reset: rcall altimeter_reset bra altimeter_menu_2 ;---- Increment sea level pressure ------------------------------------------- alt_menu_plus1: movlb HIGH(pressureRef) ; Setup our own ram bank movlw 4 addwf pressureRef+0,F ; 16bit inc. movlw 0 addwfc pressureRef+1,F bra alt_menu_recompute ; then recompute altitude. ;---- Decrement sea level pressure ------------------------------------------- alt_menu_minus1: movlb HIGH(pressureRef) ; Setup our own ram bank movlw -4 addwf pressureRef+0,F ; 16bit decrement movlw -1 addwfc pressureRef+1,F alt_menu_recompute: rcall compute_altitude ; Recompute altitude movlb 1 ; Go back to normal bank1 bra altimeter_menu_2 ;---- Exit altimeter menu ---------------------------------------------------- alt_menu_exit: movlw .5 ; reset position to Altimeter line. movwf menupos ; goto more_menu2 ; in the More... menu.