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05 - Tutorial Five.asm
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; 10 SYS (2304)
*=$0801
BYTE $0E, $08, $0A, $00, $9E, $20, $28
BYTE $32, $33, $30, $34, $29, $00, $00, $00
;*******************************************************************************
;* Guess This Number *
;* *
;* Written By John C. Dale *
;* Tutorial #08 *
;* Date : 07th Jan, 2017 *
;* *
;*******************************************************************************
;* *
;*******************************************************************************
*=$0900
jmp Start
SCRN_START=$0400
Print=$ffd2
Basin=$ffcf
FromNum=$b79e
GetLine=$a560
addlo=247
addhi=248
htlo=$14
hthi=$15
;*******************************************************************************
;* *
;* Assembly Includes *
;* *
;*******************************************************************************
incasm "Character_ASCII_Const.asm"
defm PrintText
ldy #>/1 ; Load Hi Byte to Y
lda #</1 ; Load Lo Byte to Acc.
jsr String ; Print The text until hit Zero
endm
Start
lda $0400
cmp $0401
jsr PrintAccumlator
bne NotEqualToZero
beq EqualToZero
bcc ItsCarryClear
bcs ItsCarrySet
rts
;clc
;sbc #$02
;jsr PrintAccumlator
;rts
;lda #%10010011
;ora #%00100101
; 01001001 -> C=1
;eor #%00100101
;INC $0830
;brk
;lda #$00
;lda #$a0
;lda #$ff
;jsr PrintAccumlator
;ldy #$08
;lda ($88),y
;jsr PrintAccumlator
;lsr
;jsr PrintAccumlator
;rts
brk
EqualToZero
PrintText Equals_TEXT
RTS
NotEqualToZero
PrintText NotEquals_TEXT
RTS
ItsPositiveNumber
PrintText PositiveNumber_TEXT
RTS
ItsMinusNumber
PrintText NegativeNumber_TEXT
RTS
ItsCarrySet
PrintText CarrySet_TEXT
RTS
ItsCarryClear
PrintText CarryClear_TEXT
RTS
Equals_TEXT
TEXT "equals to zero"
BYTE 13
BRK
NotEquals_TEXT
TEXT "not equal to zero"
BYTE 13
BRK
PositiveNumber_TEXT
TEXT "this is a positive number"
BYTE 13
BRK
NegativeNumber_TEXT
TEXT "this is a negative number"
BYTE 13
BRK
CarrySet_TEXT
TEXT "this 2nd number is less that the 1st number"
BYTE 13
BRK
CarryClear_TEXT
TEXT "this 2nd number is greater than the first number"
BYTE 13
BRK
;*******************************************************************************
;* *
;* PrintAccumlator *
;* *
;*******************************************************************************
;* This prints the number from the Accumulator to binary / Hex / Decimal *
;*******************************************************************************
;* Inputs : Accumulator : Number To Print Out *
;*******************************************************************************
;* Variables *
StatusState
brk
NumberToPrint
brk
NumberToWork
brk
;*******************************************************************************
;* Code *
PrintAccumlator
php
sta NumberToPrint ; Store away the Accumulator
pla ; Pull Status From Stack
sta StatusState ; Store Status
pha
pha ; Push the Acc to Stack
txa ; Move X to Acc.
pha ; Push Acc (x) to Stack
tya ; Move Y to Acc.
pha ; Push Acc (y) to Stack
ldy #>rgtxt ; Load Hi Byte to Y
lda #<rgtxt ; Load Lo Byte to Acc.
jsr String ; Print The text until hit Zero
lda StatusState
jsr status_register
jsr space
jsr BinPrint ; Print Binary Array for NumberToPrint
jsr space ; Add a space
jsr HexadecimalPrint ; Print Hexadecimal for NumberToPrint
jsr space ; Add a space
jsr DecimalPrint ; Print Decimal for NumberToPrint
jsr CarrageReturn
pla ; Pull Acc (y) off Stack
tay ; Move Acc. To Y
pla ; Pull Acc (x) off Stack
tax ; Move Acc. to X
pla ; Pull Acc off Stack
plp
rts ; Return Back
;*******************************************************************************
;*******************************************************************************
;* *
;* space *
;* *
;*******************************************************************************
;* This rotuines prints a space on the screen *
;*******************************************************************************
;* Inputs : None *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
space
lda #CHR_Space ; Load Space Character
jmp Print ; Print This Character
;*******************************************************************************
;*******************************************************************************
;* *
;* CarrageReturn *
;* *
;*******************************************************************************
;* This rotuines prints a space on the screen *
;*******************************************************************************
;* Inputs : None *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
CarrageReturn
lda #CHR_Return ; Load Return Character
jmp Print ; Print This Character
;*******************************************************************************
;*******************************************************************************
;* *
;* String *
;* *
;*******************************************************************************
;* This routine prints a string of characters terminating in a zero byte *
;*******************************************************************************
;* Inputs : Accumulator : Lo Byte Address of String *
;* : Y Register : Hi Byte Address of String *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
String
sta htlo ; Store Lo Byte Address of String
sty hthi ; Store Hi Byte Address of String
string_nxtchr
ldy #0 ; Initialise Index Y
lda (htlo),y ; Load Character at address + Y
cmp #0 ; Is it Zero?
beq string_rts ; If Zero, goto end of routine
jsr Print ; Print this character
clc ; Clear The Carry
inc htlo ; Increase Lo Byte
bne string_nxtchr ; Branch away if Page Not Crossed
inc hthi ; Increase Hi byte
jmp string_nxtchr ; Jump back to get Next Character
string_rts
rts ; Return Back
;*******************************************************************************
rgtxt
byte CHR_Return
text "nv-bdizc binary hex dec."
byte CHR_Return
brk
;*******************************************************************************
;* *
;* status_register *
;* *
;*******************************************************************************
;* This routine prints the contents of the status register *
;*******************************************************************************
;* Inputs : Accumulator : Status Register *
;*******************************************************************************
;* Variables *
streg
brk
;*******************************************************************************
;* Code *
status_register
ldy #0 ; Initialise Y Register
streg1
sta streg ; Store Acc. into Status Register Variable
streg3
asl streg ; logically shift the acc left, and carry set or not
lda #0 ; Load Zero into Accu.
adc #"0" ; Add "0" to Acc. with carry
cpy #2 ; is y = 2
bne streg2 ; if yes, branch past the '-' symbol
lda #"-" ; Load Acc with "-"
streg2
jsr Print ; Print The contents of the Acc
iny ; increase the index Y
cpy#8 ; test for 8 (8th bit of the number)
bne streg3 ; Branch if not equal back to next bit
rts ; Return Back
;*******************************************************************************
;*******************************************************************************
;* *
;* BinPrint *
;* *
;*******************************************************************************
;* This routine prints the contents NumberToPrint as a binary number *
;*******************************************************************************
;* Inputs : None *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
BinPrint
jsr prPercent ; Print "%"
ldy #0 ; Initialise Y Index Register with zero
lda NumberToPrint ; Load Acc with number to print
sta NumberToWork ; Store Acc to Number To Work
binpr4
asl NumberToWork ; Logically shift left Number to Work into Carry
lda #0 ; Load Acc with Zero
adc #"0 ; Add Acc with "0" plus Carry
jsr Print ; Print this character either '0' ot '1'
iny ; increase Y index
cpy #8 ; have we hit bit 8?
bne binpr4 ; No, get next Bit
rts ; Return Back
;*******************************************************************************
;*******************************************************************************
;* *
;* DecimalPrint *
;* *
;*******************************************************************************
;* This routine prints the contents NumberToPrint as a decimal number *
;*******************************************************************************
;* Inputs : None *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
DecimalPrint
jsr prHash ; Print "#"
lda #$00 ; Initialise Acc with zero
ldx NumberToPrint ; Load X Register with NumberToPrint
stx NumberToWork ; Store X Register to NumberToWork
jmp $bdcd ; Jump To Basic Decimal Number Print Routine
;*******************************************************************************
prDollar
lda #"$"
byte 44
prBracketOpen
lda #"("
byte 44
prBracketClosed
lda #")"
byte 44
prComma
lda #","
byte 44
prx
lda #"x"
byte 44
pry
lda #"y"
byte 44
prPercent
lda #"%"
byte 44
prHash
lda #"#"
jmp Print
;*******************************************************************************
;* *
;* HexaDecimalPrint *
;* *
;*******************************************************************************
;* This routine prints the contents NumberToPrint as a hexadecimal number *
;*******************************************************************************
;* Inputs : None *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
HexadecimalPrint
jsr prDollar ; Print a "$"
ldx #$00 ; Initialise X Register with Zero
lda NumberToPrint ; Load Acc with NumberToPrint
sta NumberToWork ; Store Acc to NumberToPrint
jmp pbyte2 ; Jump to Hexadecimal routine
;*******************************************************************************
;*******************************************************************************
;* *
;* pbyte2 *
;* *
;*******************************************************************************
;* This routine evaluates and prints a four character hexadecimal number *
;*******************************************************************************
;* Inputs : Accumulator : Lo Byte of the number to be converted *
;* X Register : Hi Byte of the number to be converted *
;*******************************************************************************
;* Variables *
;*******************************************************************************
;* Code *
pbyte2
pha ; Push Acc to the Stack
txa ; Tansfer X register To Acc
jsr pbyte1 ; Execute 2 digit Hexadecimal convertor
pla ; Pull Acc from Stack
pbyte1
pha ; Push Acc to the Stack
; Convert Acc into a nibble Top '4 bits'
lsr ; Logically shift Right Acc
lsr ; Logically shift Right Acc
lsr ; Logically shift Right Acc
lsr ; Logically shift Right Acc
jsr pbyte ; Execute 1 digit Hexadecimal number
tax ; Transfer Acc back into X Register
pla ; Pull Acc from the Stack
and #15 ; AND with %00001111 to filter out lower nibble
pbyte
clc ; Clear the Carry
; Perform Test weather number is greater than 10
adc #$f6 ; Add #$F6 to Acc with carry
bcc pbyte_skip ; Branch is carry is still clear
adc #6 ; Add #$06 to Acc to align PETSCII Character 'A'
pbyte_skip
adc #$3a ; Add #$3A to align for PETSCII Character '0'
jmp Print ; Jump to the Print Routine for that character
;*******************************************************************************