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3 changed files with 60 additions and 145 deletions

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@ -5,24 +5,8 @@
; *** Constants ***
.equ KBD_PORT 0x01
; Keys that have a special meaning in GetC. All >= 0x80. They are interpreted
; by GetC directly and are never returned as-is.
.equ KBD_KEY_ALPHA 0x80
.equ KBD_KEY_2ND 0x81
; *** Variables ***
; active long-term modifiers, such as a-lock
; bit 0: A-Lock
.equ KBD_MODS KBD_RAMSTART
.equ KBD_RAMEND @+1
; *** Code ***
kbdInit:
xor a
ld (KBD_MODS), a
ret
; Wait for a digit to be pressed and sets the A register ASCII value
; corresponding to that key press.
;
@ -40,14 +24,8 @@ kbdGetC:
push bc
push hl
; During this GetC loop, register C holds the modificators
; bit 0: Alpha
; bit 1: 2nd
; Initial value should be zero, but if A-Lock is on, it's 1
ld a, (KBD_MODS)
and 1
ld c, a
; During this GetC loop, register C holds the modificators (Alpha, 2nd)
ld c, 0
; loop until a digit is pressed
.loop:
ld hl, .dtbl
@ -82,29 +60,22 @@ kbdGetC:
ld a, (hl)
or a ; is char 0?
jr z, .loop ; yes? unsupported. loop.
call .debounce
cp KBD_KEY_ALPHA
jr c, .end ; A < 0x80? valid char, return it.
jr z, .handleAlpha
cp KBD_KEY_2ND
jr z, .handle2nd
jp .loop
.handleAlpha:
cp 0x80 ; is it alpha?
jr nz, .notalpha
set 0, c
bit 1, c ; 2nd set?
jp z, .loop ; unset? loop
; we've just hit Alpha with 2nd set. Toggle A-Lock and set Alpha to
; the value A-Lock has.
ld a, (KBD_MODS)
xor 1
ld (KBD_MODS), a
ld c, a
jp .loop
.handle2nd:
set 1, c
jp .loop
jr .loop
.notalpha:
.end:
; wait until all keys are de-pressed
push af ; --> lvl 1
.wait:
xor a
call .get
inc a ; if a was 0xff, will become 0 (nz test)
jr nz, .wait ; non-zero? something is pressed
pop af ; <-- lvl 1
pop hl
pop bc
ret
@ -118,28 +89,18 @@ kbdGetC:
in a, (KBD_PORT)
ei
ret
.debounce:
; wait until all keys are de-pressed
push af ; --> lvl 1
.wait:
xor a
call .get
inc a ; if a was 0xff, will become 0 (nz test)
jr nz, .wait ; non-zero? something is pressed
pop af ; <-- lvl 1
ret
; digits table. each row represents a group. first item is group mask.
; 0 means unsupported. no group 7 because it has no keys.
; 0x80 is a special value for ALPHA key which is never returned directly.
.dtbl:
.db 0xfe, 0, 0, 0, 0, 0, 0, 0, 0
.db 0xfd, 0x0d, '+' ,'-' ,'*', '/', '^', 0, 0
.db 0xfb, 0, '3', '6', '9', ')', 0, 0, 0
.db 0xf7, '.', '2', '5', '8', '(', 0, 0, 0
.db 0xef, '0', '1', '4', '7', ',', 0, 0, 0
.db 0xdf, 0, 0, 0, 0, 0, 0, 0, KBD_KEY_ALPHA
.db 0xbf, 0, 0, 0, 0, 0, KBD_KEY_2ND, 0, 0x7f
.db 0xdf, 0, 0, 0, 0, 0, 0, 0, 0x80
.db 0xbf, 0, 0, 0, 0, 0, 0, 0, 0x7f
; alpha table. same as .dtbl, for when we're in alpha mode.
.atbl:
@ -148,5 +109,5 @@ kbdGetC:
.db 0xfb, '?', 0, 'V', 'Q', 'L', 'G', 0, 0
.db 0xf7, ':', 'Z', 'U', 'P', 'K', 'F', 'C', 0
.db 0xef, '_', 'Y', 'T', 'O', 'J', 'E', 'B', 0
.db 0xdf, 0, 'X', 'S', 'N', 'I', 'D', 'A', KBD_KEY_ALPHA
.db 0xbf, 0, 0, 0, 0, 0, KBD_KEY_2ND, 0, 0x7f
.db 0xdf, 0, 'X', 'S', 'N', 'I', 'D', 'A', 0x80
.db 0xbf, 0, 0, 0, 0, 0, 0, 0, 0x7f

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@ -27,8 +27,6 @@
; Current row being written on. In terms of pixels, not of glyphs. During a
; linefeed, this increases by FNT_HEIGHT+1.
.equ LCD_CURROW LCD_RAMSTART
; Current column
.equ LCD_CURCOL @+1
.equ LCD_RAMEND @+1
; *** Code ***
@ -36,34 +34,36 @@ lcdInit:
; Initialize variables
xor a
ld (LCD_CURROW), a
ld (LCD_CURCOL), a
; Clear screen
call lcdClrScr
; Enable the LCD
ld a, LCD_CMD_ENABLE
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
; Hack to get LCD to work. According to WikiTI, we're to sure why TIOS
; sends these, but it sends it, and it is required to make the LCD
; work. So...
ld a, 0x17
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
ld a, 0x0b
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
; Set some usable contrast
ld a, LCD_CMD_CONTRAST+0x34
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
; Enable 6-bit mode.
ld a, LCD_CMD_6BIT
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
; Enable X-increment mode
ld a, LCD_CMD_XINC
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
ret
@ -78,23 +78,11 @@ lcdWait:
pop af
ret
; Send cmd A to LCD
lcdCmd:
out (LCD_PORT_CMD), a
jr lcdWait
; Send data A to LCD
lcdData:
out (LCD_PORT_DATA), a
jr lcdWait
; Turn LCD off
lcdOff:
push af
ld a, LCD_CMD_DISABLE
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
pop af
ret
; Set LCD's current column to A
@ -102,7 +90,8 @@ lcdSetCol:
push af
; The col index specified in A is compounded with LCD_CMD_COL
add a, LCD_CMD_COL
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
pop af
ret
@ -111,7 +100,8 @@ lcdSetRow:
push af
; The col index specified in A is compounded with LCD_CMD_COL
add a, LCD_CMD_ROW
call lcdCmd
call lcdWait
out (LCD_PORT_CMD), a
pop af
ret
@ -125,23 +115,32 @@ lcdSendGlyph:
ld a, (LCD_CURROW)
call lcdSetRow
ld a, (LCD_CURCOL)
call lcdSetCol
; let's increase (and wrap) col now
inc a
ld (LCD_CURCOL), a
cp 16
jr nz, .skip
call lcdLinefeed
.skip:
ld b, FNT_HEIGHT
ld b, 7
.loop:
ld a, (hl)
inc hl
call lcdData
call lcdWait
out (LCD_PORT_DATA), a
djnz .loop
; Now that we've sent our 7 rows of pixels, let's go in "Y-increment"
; mode to let the LCD increase by one column after we've sent our 8th
; line, which is blank (padding).
ld a, LCD_CMD_YINC
call lcdWait
out (LCD_PORT_CMD), a
; send blank line
xor a
call lcdWait
out (LCD_PORT_DATA), a
; go back in X-increment mode
ld a, LCD_CMD_XINC
call lcdWait
out (LCD_PORT_CMD), a
pop hl
pop bc
pop af
@ -154,53 +153,10 @@ lcdLinefeed:
add a, FNT_HEIGHT+1
ld (LCD_CURROW), a
xor a
ld (LCD_CURCOL), a
pop af
ret
; Clears B rows starting at row A
; The LCD will then be set back at row A, column 0
; B is not preserved by this routine
lcdClrX:
push af
call lcdSetRow
ld a, LCD_CMD_8BIT
call lcdCmd
.outer:
push bc ; --> lvl 1
ld b, 11
ld a, LCD_CMD_YINC
call lcdCmd
xor a
call lcdSetCol
.inner:
call lcdData
djnz .inner
ld a, LCD_CMD_XINC
call lcdCmd
xor a
call lcdData
pop bc ; <-- lvl 1
djnz .outer
ld a, LCD_CMD_6BIT
call lcdCmd
pop af
ret
lcdClrLn:
push bc
ld b, FNT_HEIGHT+1
call lcdClrX
pop bc
ret
lcdClrScr:
push bc
ld b, 64
call lcdClrX
pop bc
ret
lcdPutC:
cp ASCII_LF
jp z, lcdLinefeed

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@ -28,9 +28,8 @@
.inc "fnt/mgm.asm"
.equ LCD_RAMSTART RAMSTART
.inc "ti/lcd.asm"
.equ KBD_RAMSTART LCD_RAMEND
.inc "ti/kbd.asm"
.equ STDIO_RAMSTART KBD_RAMEND
.equ STDIO_RAMSTART LCD_RAMEND
.equ STDIO_GETC kbdGetC
.equ STDIO_PUTC lcdPutC
.inc "stdio.asm"
@ -61,7 +60,6 @@ boot:
halt
main:
call kbdInit
call lcdInit
xor a
call lcdSetCol