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AppleIIAsm-Collection/disks/disk4_arrays/T.DIM82
nathanriggs 875dd80998 stdio 0.2.0 updates 
- fixed a bunch of bugs
- separated common and stdio libraries
- commenting upgrades
- created min versions of each library
2018-12-14 21:23:32 -05:00

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*
*``````````````````````````````*
* DIM82 : INIT 2D ARRAY *
*- -*
* THIS SIMPLY CREATES A 1D *
* ARRAY WITH THE DIM OF *
* [:AXSIZE] BY [:AYSIZE]. *
*- -*
* FIRST BYTE OF MEMORY USED *
* HOLDS LENGTH OF X (ROWS); *
* SECOND BYTE HOLDS LENGTH OF *
* Y (COLUMNS); THIRD BYTE *
* HOLDS LENGTH OF EACH ELEMENT *
*- -*
* CLOBBERS: *
* *
* FLAGS: ????---- REG: AXYM *
*- -*
* CYCLES: ??? *
* SIZE: *
*- -*
* USAGE: *
* *
* LDA #>$300 ; ARRAY ADDR *
* PHA *
* LDA #<$300 *
* PHA *
* LDA #4 ; X DIMENSION BOUND *
* PHA *
* LDA #4 ; Y DIMENSION BOUND *
* PHA *
* LDA #1 ; ELEMENT BYTESIZE *
* PHA *
* JSR DIM82 *
*- -*
* ENTRY *
* *
* TOP OF STACK *
* *
* LOW BYTE OF RETURN ADDRESS *
* HI BYTE OF RETURN ADDRESS *
* ELEMENT SIZE IN BYTES *
* Y DIMENSION BOUNDARY *
* X DIMENSION BOUNDARY *
* ARRAY ADDRESS, LOW BYTE *
* ARRAY ADDRESS, HIGH BYTE *
*- -*
* EXIT *
* *
* TOP OF STACK *
* *
* LOW BYTE OF RETURN ADDRESS *
* HI BYTE OF RETURN ADDRESS *
* *
* .Y = ARRAY ADDRESS LO BYTE *
* .X = ARRAY ADDRESS HI BYTE *
* .A = ELEMENT SIZE *
* *
* [RETURN] = TOTAL BYTE SIZE *
* OF ARRAY. *
* *
* [RETLEN] = LENGTH IN BYTES *
* OF THE RETURN VALUE. *
*,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,*
*
DIM82
*
** SAVE RETURN ADDRESS
*
PLA
STA RETADR
PLA
STA RETADR+1
*
** GET PARAMETERS
*
PLA
STA :MCAND ; ELEMENT LENGTH
PLA
STA :AYSIZE
STA :AYBAK
PLA
STA :AXSIZE
STA :AXBAK
PLA
STA ADDR1
PLA
STA ADDR1+1
LDA #0
STA :MCAND+1
*
** LOOP THROUGH Y, CLEARING MEMORY
** FOR X BYTES TIMES ELEMENT SIZE,
** MOVING TO END OF LAST CLEAR
** UNTIL FINISHED
*
** MULTIPLY X AND Y
*
LDA #0
TAY
STY SCRATCH
BEQ :ENTLP
*
:DOADD
CLC
ADC :AXSIZE
TAX
*
TYA
ADC SCRATCH
TAY
TXA
*
:LP
ASL :AXSIZE
ROL SCRATCH
:ENTLP
LSR :AYSIZE
BCS :DOADD
BNE :LP
*
STX :MLIER
STY :MLIER+1
*
** NOW MULTIPLY BY LENGTH OF ELEMENTS
*
LDA #0
STA :PROD
STA :PROD+1
STA :PROD+2
STA :PROD+3
LDX #$10
:SHIFTR LSR :MLIER+1
ROR :MLIER
BCC :ROTR
LDA :PROD+2
CLC
ADC :MCAND
STA :PROD+2
LDA :PROD+3
ADC :MCAND+1
:ROTR
ROR
STA :PROD+3
ROR :PROD+2
ROR :PROD+1
ROR :PROD
DEX
BNE :SHIFTR
*
CLC
INC :PROD ; INCREASE BY 3
INC :PROD
INC :PROD
BCC :NOCAR
INC :PROD+1
:NOCAR
*
** NOW CLEAR MEMORY BLOCKS, WHOLE PAGES FIRST
*
LDA #$00 ; FILL VALUE
LDX :PROD+1 ; NOTE THAT THIS WON'T
; GO BEYOND A 16BIT VALUE;
; ANYTHING HIGHER THAN
; 16BITS IS MORE THAN
; THERE IS MEMORY IN A
; STANDARD APPLE ][
BEQ :PART
LDY #0
:FULL
STA (ADDR1),Y
INY
BNE :FULL
INC ADDR1+1
DEX
BNE :FULL ; LOOP UNTIL PAGES DONE
*
** NOW DO REMAINING BYTES
*
:PART
LDX :PROD
BEQ :MFEXIT
LDY #0
:PARTLP
STA (ADDR1),Y
INY
DEX
BNE :PARTLP ; LOOP UNTIL DONE
:MFEXIT
*
** NOW SET SIZES
*
LDY #0
LDA :AXBAK
STA (ADDR1),Y
INY
LDA :AYBAK
STA (ADDR1),Y
INY
LDA :MCAND
STA (ADDR1),Y
*
** RESTORE RETURN ADDRESS
*
LDA RETADR+1
PHA
LDA RETADR
PHA
*
** RETURN POINTER TO STARTING ADDRESS OF ARRAY
** AND STORE TOTAL BYTE SIZE IN RETURN MEM
*
LDY ADDR1
LDX ADDR1+1
LDA :PROD
STA RETURN
LDA :PROD+1
STA RETURN+1
LDA :PROD+2
STA RETURN+2
LDA :PROD+3
STA RETURN+3
LDA #4 ; SIZE OF RETURN
STA RETLEN
LDA :MCAND
*
RTS
*
** DATA
*
:PROD DS 4
:AXSIZE DS 1
:AYSIZE DS 1
:AXBAK DS 1
:AYBAK DS 1
:MLIER DS 2
:MCAND DS 2
*
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