view src/options.asm @ 600:cb59872ad53d

fix typo
author heinrichsweikamp
date Sun, 12 Aug 2018 18:18:41 +0200
parents b455b31ce022
children ca4556fb60b9
line wrap: on
line source

;=============================================================================
;
;   File options.asm								REFACTORED VERSION V2.97
;
;   Manage all options data.
;
;   Copyright (c) 2011, JD Gascuel, HeinrichsWeikamp, all right reserved.
;=============================================================================
; HISTORY
;   2011-07-12 : [jDG] Creation.
;
; RATIONALS:
;
;   Provides a centralized file with 

#include "hwos.inc"							; Mandatory header
#include "strings.inc"
#include "convert.inc"
#include "ghostwriter.inc"
#include "eeprom_rs232.inc"
#include "external_flash.inc"
#include "wait.inc"

	extern	write_eeprom
	extern	read_eeprom
	extern	eeprom_serial_save,eeprom_opt_backup
	extern	option_table_begin,option_table_end

	global	option_reset_all				; Reset all options to factory default.
	global	option_check_all				; Check all option and reset option if out of min/max boundary
	global	option_reset					; Reset FSR0 option to factory default.
	global	option_save_all					; Save options to EEPROM.
	global	option_restore_all				; Restore options from EEPROM.
	global	option_inc						; Increment FSR0 option.
	global	option_draw						; STRCAT FRS0 option.


gui		CODE								; Appends to other GUI segment

;=============================================================================
; Reset all options to factory defaults.
;
; INPUT:  none
; OUTPUT: none
; TRASH:  TBLPTR, TABLAT, WREG, FSR0, FSR1, FSR2

option_reset_all:
	clrf	EEADRH
	read_int_eeprom .2
	tstfsz	EEDATA							; Total dives=0?
	bra		option_reset_all2				; No, skip resetting logbook
	read_int_eeprom .3
	tstfsz	EEDATA							; Total dives=0?
	bra		option_reset_all2				; No, skip resetting logbook

	clrf	EEDATA
	write_int_eeprom .4
	write_int_eeprom .5
	write_int_eeprom .6
	write_int_eeprom .2						; Also, delete total dive counter
	write_int_eeprom .3
	call	ext_flash_erase_logbook			; And complete logbook (!)

option_reset_all2:
	clrf	lo
	clrf	hi
	call	do_logoffset_common_write		; reset Logbook offset

	; Point to option table begin
	movlw	LOW(option_table_begin)
	movwf	FSR0L
	movlw	HIGH(option_table_begin)
	movwf	FSR0H
option_reset_all_1:
	movlw	LOW(option_table_end)
	cpfseq	FSR0L
	bra		option_reset_all_2				; Not yet done...
	movlw	HIGH(option_table_end)
	cpfseq	FSR0H
	bra		option_reset_all_2				; Not yet done...
	return									; All done.
option_reset_all_2:
	rcall	option_reset					; Reset one option.
	bra		option_reset_all_1				; and loop.

;=============================================================================
; Check all option and reset option if out of min/max boundary
;
; INPUT:  none
; OUTPUT: none
; TRASH:  TBLPTR, TABLAT, WREG, FSR0, FSR1, FSR2
option_check_all:
	; Point to option table begin
	movlw	LOW(option_table_begin)
	movwf	FSR0L
	movlw	HIGH(option_table_begin)
	movwf	FSR0H

option_check_all_1:
	movlw	LOW(option_table_end)
	cpfseq	FSR0L
	bra		option_check_all_2				; Not yet done...
	movlw	HIGH(option_table_end)
	cpfseq	FSR0H
	bra		option_check_all_2				; Not yet done...
	return									; All done.
option_check_all_2:
	rcall	option_check					; check one option.
	bra		option_check_all_1				; and loop

;=============================================================================
; Read option handle
; INPUT:  FSR0 = option handle
; OUTPUT: FSR1 = address of variable.
; TRASH:  TBLPTR, TABLAT, WREG, FSR0, FSR1
option_read:
	movff	FSR0L,TBLPTRL
	movlw	HIGH(option_table_begin)		; Get 8 high bits.
	andlw	0xF0							; Keep only the 4 highest ones.
	iorwf	FSR0H,W							; Cat with the known 4 lower ones.
	movwf	TBLPTRH							; And we have the high byte.
	movlw	UPPER(option_table_begin)
	movwf	TBLPTRU

	; Read type, default and register from table
	tblrd*+
	movff	TABLAT,opt_type
	tblrd*+
	movff	TABLAT,opt_default
	tblrd*+
	movff	TABLAT,opt_inc
	tblrd*+
	movff	TABLAT,opt_min
	tblrd*+
	movff	TABLAT,opt_max
	tblrd*+
	movff	TABLAT,opt_eeprom
	tblrd*+
	movff	TABLAT,opt_unit+0
	tblrd*+
	movff	TABLAT,opt_unit+1
	tblrd*+
	movff	TABLAT,FSR1L
	tblrd*+
	movff	TABLAT,FSR1H
	movff	TBLPTRL,FSR0L					; Advance handle too, for reset_all
	movff	TBLPTRH,FSR0H
	return

;=============================================================================
; Check one option and reset if it's out of it's min/max boundaries
; INPUT:  FSR0 = option handle
; OUTPUT: none
; TRASH:  TBLPTR, TABLAT, WREG, FSR1, FSR2, lo
;
option_check:
	; Read type, default and register from table
	rcall	option_read

	; Switch on type
	movf	opt_type,W						; Type == STRING ?
	xorlw	2
	bz		option_check_string				; String: Do not reset strings

	movf	opt_type,W						; Type == ENUM8 ?
	xorlw	1
	bz		option_check_enum8				; ENUM8: Check if lower then max. value only

	tstfsz	opt_min							; opt_min=0?
	bra		option_check_both				; no
	bra		option_check_enum8				; Check max only

option_check_both:
	decf	opt_min,W
	cpfsgt	INDF1							; bigger then opt_min-1?
	bra		option_check_reset				; No, reset option
option_check_enum8:							; ENUM8: Check max only
	infsnz	opt_max,W						; Max = 255?
	return									; Yes, ignore max. test
	cpfslt	INDF1							; smaller then opt_max+1?
	bra		option_check_reset				; No, reset option
	return									; in range, return

option_check_reset:
	movff	opt_default,INDF1				; reset option to default
	return									; Done.

option_check_string:
	return

;=============================================================================
; Reset an option to its default value.
; INPUT:  FSR0 = option handle
; OUTPUT: none
; TRASH:  TBLPTR, TABLAT, WREG, FSR1, FSR2
;
option_reset:
	; Read type, default and register from table
	rcall	option_read

	; Switch on type
	movf	opt_type,W						; Type == STRING ?
	xorlw	2
	bz		opt_reset_string				; YES: special copy

	movff	opt_default,INDF1				; NO: just a 8bit indirect copy
	return

opt_reset_string:
	movff	FSR1L,FSR2L						; set string destination address.
	movff	FSR1H,FSR2H

	movff	opt_default+0,FSR1L				; Get handle to multi-lingual text in FSR1
	movff	opt_default+1,FSR1H

	movff	TBLPTRL,opt_backup_tbl+0		; TBLPTR trashed by text routine...
	movff	TBLPTRH,opt_backup_tbl+1
	movff	TBLPTRU,opt_backup_tbl+2

	call	strcat_text						; Copy translated text to FSR2

	movff	opt_backup_tbl+0,TBLPTRL
	movff	opt_backup_tbl+1,TBLPTRH
	movff	opt_backup_tbl+2,TBLPTRU

	return

;=============================================================================
; Save all options to EEPROM
option_save_all:
	;---- Save option serial into EEPROM to detect reset and new version
	movlw	LOW(eeprom_serial_save)
	movwf	EEADR
	movlw	HIGH(eeprom_serial_save)
	movwf	EEADRH
	movlw	LOW(eeprom_opt_serial)
	movwf	EEDATA
	call	write_eeprom
	incf	EEADR,F
	movlw	HIGH(eeprom_opt_serial)
	movwf	EEDATA
	call	write_eeprom

	;---- Save all options
	movlw	LOW(option_table_begin)
	movwf	FSR0L
	movlw	HIGH(option_table_begin)
	movwf	FSR0H

option_save_all_1:
	movlw	LOW(option_table_end)
	cpfseq	FSR0L
	bra		option_save_all_2				; Not yet done...
	movlw	HIGH(option_table_end)
	cpfseq	FSR0H
	bra		option_save_all_2				; Not yet done...
	return									; All done.
option_save_all_2:
	rcall	option_save						; Save one option.
	bra		option_save_all_1				; and loop.

	global	option_save
option_save:
	rcall	option_read
	incf	opt_eeprom,W					; Should we save it ?
	btfsc	STATUS,Z						; EEPROM address is FFh ?
	return									; YES: nothing to do.

	movf	opt_eeprom,W					; Compute backup address in EEPROM
	addlw	LOW(eeprom_opt_backup)			; Add offset
	movwf	EEADR
	movlw	HIGH(eeprom_opt_backup)
	btfsc	STATUS,C						; >256
	addlw	.1								; Yes: +1
	movwf	EEADRH

	movf	opt_type,W						; Option type is string ?
	xorlw	2
	bz		option_save_string

	; One byte to save to EEPROM
	movff	INDF1,EEDATA
	btfss	EEADRH,1						; EEADR:EEADRH < 512?
	call	write_eeprom					; Yes, write
	return

option_save_string:
	movff	POSTINC1,EEDATA					; Write one byte
	btfss	EEADRH,1						; EEADR:EEADRH < 512?
	call	write_eeprom					; Yes, write
	infsnz	EEADR,F
	incf	EEADRH,F

	decfsz	opt_max							; Decrement string length
	bra		option_save_string				; And loop while not finished

	return
;=============================================================================

option_restore_all:
	;---- Read option serial from EEPROM
	movlw	LOW(eeprom_serial_save)
	movwf	EEADR
	movlw	HIGH(eeprom_serial_save)
	movf	EEADRH
	call	read_eeprom
	movlw	LOW(eeprom_opt_serial)
	xorwf	EEDATA,W
	bnz		option_restore_bad				; Auto reset if changed.
	incf	EEADR,F
	call	read_eeprom
	movlw	HIGH(eeprom_opt_serial)
	xorwf	EEDATA,W
	bz		option_restore_ok				; Auto reset if changed.

option_restore_bad:
	call	option_reset_all				; Reset RAM contains
	goto	option_save_all					; Then save to EEPROM

	;---- Proper restore
option_restore_ok:
	movlw	LOW(option_table_begin)
	movwf	FSR0L
	movlw	HIGH(option_table_begin)
	movwf	FSR0H

option_restore_all_1:
	movlw	LOW(option_table_end)
	cpfseq	FSR0L
	bra		option_restore_all_2			; Not yet done...
	movlw	HIGH(option_table_end)
	cpfseq	FSR0H
	bra		option_restore_all_2			; Not yet done...
	return									; All done.
option_restore_all_2:
	rcall	option_restore					; Restore one option.
	bra		option_restore_all_1			; and loop.

option_restore:
	rcall	option_read
	incf	opt_eeprom,W					; Should we save it ?
	btfsc	STATUS,Z						; EEPROM address is FFh ?
	return									; YES: nothing to do.

	movf	opt_eeprom,W					; Compute backup address in EEPROM
	addlw	LOW(eeprom_opt_backup)			; Add offset
	movwf	EEADR
	movlw	HIGH(eeprom_opt_backup)
	btfsc	STATUS,C						; >256
	addlw	.1								; Yes: +1
	movwf	EEADRH

	movf	opt_type,W						; Option type is string ?
	xorlw	2
	bz		option_restore_string

	; Read one byte from EEPROM
	call	read_eeprom
	movff	EEDATA, INDF1					; And restore option register.
	return

option_restore_string:
	call	read_eeprom						; Read one byte, and
	movff	EEDATA,POSTINC1					; restore it
	infsnz	EEADR,F
	incf	EEADRH,F

	decfsz	opt_max							; Decrement string length
	bra		option_restore_string			; And loop while not finished
	return

;=============================================================================
; Increment an option, based on type, and boundary.
; INPUT:  FSR0 = option handle
; OUTPUT: none
; TRASH:  TBLPTR, TABLAT, WREG, FSR0, FSR1
option_inc:
	; Read type, default and register from table
	rcall	option_read

	; Switch on type
	movf	opt_type,W
	bz		option_inc_uint8
	dcfsnz	WREG
	bra		option_inc_enum8
	dcfsnz	WREG
	bra		option_inc_string

option_inc_uint8:							; Defaults type too...
	movf	INDF1,W
	addwf	opt_inc,W
	cpfslt	opt_max
	bra		option_inc_1
	movf	opt_min,W
option_inc_1:
	movwf	INDF1

	; Now some rather crude hack into this routine to unify CCR & pSCR mode setting:
	movlw	.25								; EEPROM address of option oCCRMode
	cpfseq	opt_eeprom						; skip next line if we deal with this option right now
	bra		option_inc_2
	btfsc	FLAG_pscr_mode					; skip next line if we are not in PSCR mode
	bcf		opt_ccr_mode,1					; in pSCR mode, opt_ccr_mode may only be 0 or 1

option_inc_2:
	; Now some rather crude hack into this routine to make CCR Calibration more convenient:
	movlw	.149							; EEPROM address of option CalGasO2 
	cpfseq	opt_eeprom						; skip next line if we deal with this option right now
	return

	btfsc	FLAG_pscr_mode					; skip next line if we are not in PSCR mode 
	return
	movlw	.26
	cpfseq	INDF1							; skip next line if current option value is = 26
	return
	movlw	.95								; current option value =26, advance it to 95 
	movwf	INDF1
	return


option_inc_enum8:							; Always +1
	incf	INDF1,W
	cpfsgt	opt_max
	clrf	WREG
	movwf	INDF1
	return


option_inc_string:							; No editing yet...
	return

;=============================================================================
; Strcat option into FSR2 buffer.
option_draw:
	; Read type, default and register from table
	rcall	option_read

	; Switch on type
	movf	opt_type,W
	bz		option_draw_uint8
	dcfsnz	WREG
	bra		option_draw_enum8
	dcfsnz	WREG
	bra		option_draw_string
	return									; Unknown: return...

option_draw_uint8:
	movff	INDF1,lo						; Draw value.
	bsf		leftbind
	output_8
	bcf		leftbind
	clrf	INDF2							; Make sure to close string...

	movf	opt_unit+0,W					; Is there a unit to append ?
	iorwf	opt_unit+1,W
	rcall	option_draw_unit

	movf	opt_default,W					; Default value
	cpfseq	lo								; Current value
	bra		option_draw_uint8_2				; Not default, add *
	return									; Default, Done.
option_draw_uint8_2:
	PUTC	"*"
	return									; Done.

option_draw_unit:
	movff	opt_unit+0,FSR1L
	movff	opt_unit+1,FSR1H
	goto	strcat_text


;---- Draw an enumerated value (set of translated strings)
option_draw_enum8:
	movf	INDF1,W							; Get current value.
	cpfsgt	opt_max							; Bound value
	clrf	WREG
	addwf	WREG							; *= 2
	addwf	opt_inc,W						; Base text + 2 * value
	movwf	FSR1L
	movlw	.0
	addwfc	opt_min,W						; Propagate carry
	movwf	FSR1H							; Into FSR1
	goto	strcat_text

option_draw_string:
	movff	POSTINC1,POSTINC2
	decfsz	opt_max
	bra		option_draw_string
	return

	END