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[/] [z80soc/] [trunk/] [V0.7.1a/] [rom/] [SoCv0.7.z8a] - Rev 42
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;
; Z80Soc V0.7 Demo ROM
; Ronivon C. Costa
; 2010 - 02 - 21
;
ld sp,BFFEH ; Put Stack on top of memory
inicio:
ld a,(FFDFH) ; Verify what is the development board
or a
jr z,de1
call set_lcd ;is Z80soc-s3e
jr inic1
de1:
ld a,F0h
out (01h),a
call hexDisplay ;is DE1, test 7 segment display
inic1:
ld a,0Fh
out (01h),a
call clear
call defineNewA
ld de,4034h
ld hl,Text1
call printmsg
ld de,405Ch
ld hl,Text2
call printmsg
call Border
ld de,4146h
ld hl,Text3
call printmsg
ld de,4196h
ld hl,Text4
call printmsg
ld de,41E6h
ld hl,Text5
call printmsg
ld de,4236h
ld hl,Text6
call printmsg
ld de,425Eh
ld hl,Text7
call printmsg
; check soz version
ld hl,DE1_Version
ld a,(FFDFh)
or a
jr z,print_v
ld hl,S3E_Version
print_v:
ld de,4087h
call printmsg
setprint:
ld de,42D6h
ld bc,30
loopprint:
push bc
push de
call delay
call rotate
ld a,(FFDFh)
or a
jr z,looppr2
call s3e_routine ; Is Z80-S3E
looppr2:
pop de
pop bc
call read_kbd
or a
jr z,loopprint
cp 41h
jr z,go_on
out (01H),a
ld l,a
ld a,(FFDFh) ; get z80soc version
or a
jr nz,looppr3
ld a,l
out (11h),a ; Use HEX display if DE1
looppr3:
ld a,l
ld (de),a
inc de
dec bc
ld a,b
or c
jr z,setprint
jr loopprint
go_on:
ld hl,6000h ; RAM Address
ld a,0 ; Value to store in memory
loop1:
ld (hl),a ; Store A into Memory (HL)
inc hl ; Point to next memory location
inc a ; Add 1 to value to store in memory
jr nz,loop1 ; If A not equal 0 continue loop1
; When A=FFh, and we make A=A+1 ...
; A becomes 100h
; But, A is an 8 bits register, and
; can only store the two last hex digits,
; that is, 8 bits.
call read_key0 ; Wait until KEY0 is pressed
;
ld hl,6000h ; Get back the start RAM address
loop2:
ld a,(FFDFh) ; get z80soc version
or a
jr nz,skip2_de1
ld a,h
out (11h),a
ld a,l
out (10h),a
skip2_de1:
ld a,(hl) ; Read back the values stored in loop1
out (01h),a ; Send to Green Leds
call delay ; Call sub-routine to delay some time
inc hl ; Add 1 to the memory location
ld a,(hl) ; Read the value in the memory
cp FFh ; check if equal 255
jr nz,skip2_de1 ; If not equal 255, continue loop2
; end of First execution
call read_key0 ; Wait until KEY0 is pressed
jP inicio ; Restart program
read_key0:
loop3:
call delay
in a,(30h) ; Read KEYs (all 4 KEYs)
cp 1 ; check if returns "00001110"
jr nz,loop3 ; KEY0 not pressed, continue checking
ret
iodelay:
in a,(20h) ; Read SW(7-0)
or a
jr nz,loop4
ld a,1 ; Read the number of times to loop
loop4:
dec a ; Start counting backwards
jr nz,loop4 ; If A greather than 0, continue loop
ret ; return to calling program
delay:
in a,(20h) ; Read SW(7-0)
or a
jr nz,loop5
ld a,1
loop5:
push af
ld bc,5000 ; Every delay has at least 255 loops
loop6:
dec bc ; Start counting backwards
ld a,b
or c
jr nz,loop6 ; If A greather than 0, continue loop
pop af ; Get multiplier back
dec a ;
jr nz,loop5
ret ; return to calling program
clear:
ld a,0
out (91h),a ; video cursor x = 0
out (92h),a ; video cursor y = 0
ld bc,1200
clean_loop:
ld a,20h
out (90h),a ; print character to video
; cursor x,y is automatically updated
; by hardware
dec bc
ld a,b
or c
jr nz,clean_loop
ret
printmsg:
ploop:
ld a,(hl)
or a
ret z
ld (de),a
inc hl
inc de
jr ploop
read_kbd:
in a,(80h)
ret
Border:
ld hl,Lineu
ld de,40F5H
call printmsg
ld de,411DH
ld a,10
brdloop:
ld hl,Column
push hl
push af
push de
call printmsg
pop de
pop af
ld hl,40
add hl,de
ld d,h
ld e,l
pop hl
dec a
jr nz,brdloop
ld hl,Lined
call printmsg
ret
rotate:
; save first line of box
ld hl,411Eh
ld de,B000h
ld bc,30
ldir
; move all lines up
ld hl,4146h ; this is second line of box
ld de,411Eh ; this is first line of box
ld b,9
loop_rotate:
push bc
push hl
push de
ld bc,30
ldir
pop de
ld hl,40
add hl,de
ld d,h
ld e,l
pop hl
ld bc,40
add hl,bc
pop bc
djnz loop_rotate
; now get back the first line saved in 9000h
; and put on the last line of box
ld hl,B000h
ld bc,30
ldir
ret
s3e_routine:
; print message in LCD display
; Check of Rotary Knob is moving
call read_rot
; Is it rotating to the right ?
cp 1
jr nz,check_left
call roll_lcd_right
ld a,1
jr printlcd
check_left:
; Is it rotating to the left?
cp 2
jr nz,dec_jump
call roll_lcd_left
ld a,128
printlcd:
out (01h),a
ld de,FFE0h
ld hl,9100h
call printmsg
dec_jump:
ret
set_lcd:
ld de,9100h
ld hl,lcdtxt
ld bc,33
ldir
ld de,FFE0h
ld hl,9100h
ld bc,32
ldir
ret
read_rot:
;CALL DELAY_MULT
;LD A,0
;RET NZ
IN A,(70H)
RET
DELAY_ROT:
LD A,(9200H)
DEC A
LD (9200H),A
RET
DELAY_MULT:
LD A,(9201H)
DEC A
JR NZ,DLY_M1
LD A,10H
DLY_M1:
LD (9201H),A
RET
roll_lcd_left:
; save the first char on the left, for every line
ld a,(9100h)
ld (9202H),a
ld a,(9110h)
ld (9203H),a
ld HL,9101H
ld de,9100h
ld bc,31
ldir
ld a,(9202h)
ld (910Fh),a
ld a,(9203h)
ld (911Fh),a
ret
roll_lcd_right:
; save the first char on the left, for every line
ld a,(910Fh)
ld (9202H),a
ld a,(911Fh)
ld (9203H),a
ld HL,911EH
ld de,911Fh
ld bc,31
lddr
ld a,(9202h)
ld (9100h),a
ld a,(9203h)
ld (9110h),a
ret
defineNewA:
ld hl,newCharA
ld de,4E88h ; this is the char ram addres of "A"
; which is "4C80h + 65 * 8"
; 4C80h = initial char ram address
; 65 = ASCCII of "A"
; 8 = 8 bytes for each char
ld bc,8
ldir
ret
hexDisplay:
ld a,20h
out (10h),a
ld a,10h
out (11h),a
ret
; character set: lat9-08
Text1:
db "Z80 SYSTEM ON CHIP"
db 0
Text2:
db "RONIVON COSTA 2010"
db 0
Text3:
db 0
Text4:
db " ABCDEFGHIJKLMNOPQRSTUVWXYZ"
db 0
Text5:
db " abcdefghijklmnopqrstuvwxyz"
db 0
Text6:
db " 0123456789"
db 0
Text7:
db 2,3,4,11,12,13,14,18,24,25,26,27,232,233,235,187,188,138,134,135,129,128,1,6,7,8,9,10,29,31
db 0
Lineu:
db 150,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,156
db 0
Lined:
db 147,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,154,153
db 0
Column:
db 149
db " "
db 149
db 0
lcdtxt:
db " Z80 SYSTEM "
db " RONIVON COSTA "
db 0
DE1_Version:
db "DE1 Version"
db 0
S3E_Version:
db "S3E Version"
db 0
newCharA:
db FFh ;11111111
db 81h ;10000001
db 99h ;10011001
db A5h ;10100101
db BDh ;10111101
db A5h ;10100101
db 81h ;10000001
db FFh ;11111111