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https://github.com/irmen/prog8.git
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861 lines
18 KiB
Plaintext
861 lines
18 KiB
Plaintext
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; Prog8 definitions for the Commodore-64
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; These are the utility subroutines.
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;
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; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
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;
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; indent format: TABS, size=8
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%import c64lib
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~ c64utils {
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; ----- utility functions ----
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asmsub init_system () -> clobbers(A,X,Y) -> () {
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; ---- initializes the machine to a sane starting state
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; This means that the BASIC, KERNAL and CHARGEN ROMs are banked in,
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; the VIC, SID and CIA chips are reset, screen is cleared, and the default IRQ is set.
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; Also a different color scheme is chosen to identify ourselves a little.
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%asm {{
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sei
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cld
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lda #%00101111
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sta $00
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lda #%00100111
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sta $01
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jsr c64.IOINIT
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jsr c64.RESTOR
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jsr c64.CINT
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lda #6
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sta c64.EXTCOL
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lda #7
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sta c64.COLOR
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lda #0
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sta c64.BGCOL0
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tax
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tay
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clc
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clv
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cli
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rts
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}}
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}
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asmsub byte2decimal (ubyte: byte @ A) -> clobbers() -> (byte @ Y, byte @ X, byte @ A) {
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; ---- A to decimal string in Y/X/A (100s in Y, 10s in X, 1s in A)
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%asm {{
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ldy #$2f
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ldx #$3a
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sec
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- iny
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sbc #100
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bcs -
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- dex
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adc #10
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bmi -
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adc #$2f
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rts
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}}
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}
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asmsub byte2hex (ubyte: byte @ A) -> clobbers(A) -> (byte @ X, byte @ Y) {
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; ---- A to hex string in XY (first hex char in X, second hex char in Y)
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%asm {{
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pha
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and #$0f
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tax
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ldy hex_digits,x
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pla
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lsr a
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lsr a
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lsr a
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lsr a
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tax
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lda hex_digits,x
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tax
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rts
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hex_digits .str "0123456789abcdef" ; can probably be reused for other stuff as well
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}}
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}
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str word2hex_output = "1234" ; 0-terminated, to make printing easier
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asmsub word2hex (dataword: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- convert 16 bit word in X/Y into 4-character hexadecimal string into memory 'word2hex_output'
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%asm {{
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stx c64.SCRATCH_ZP2
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tya
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jsr byte2hex
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stx word2hex_output
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sty word2hex_output+1
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lda c64.SCRATCH_ZP2
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jsr byte2hex
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stx word2hex_output+2
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sty word2hex_output+3
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rts
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}}
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}
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byte[3] word2bcd_bcdbuff = [0, 0, 0]
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asmsub word2bcd (dataword: word @ XY) -> clobbers(A,X) -> () {
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; Convert an 16 bit binary value to BCD
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;
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; This function converts a 16 bit binary value in X/Y into a 24 bit BCD. It
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; works by transferring one bit a time from the source and adding it
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; into a BCD value that is being doubled on each iteration. As all the
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; arithmetic is being done in BCD the result is a binary to decimal
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; conversion.
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZP2
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sed ; switch to decimal mode
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lda #0 ; ensure the result is clear
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sta word2bcd_bcdbuff+0
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sta word2bcd_bcdbuff+1
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sta word2bcd_bcdbuff+2
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ldx #16 ; the number of source bits
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- asl c64.SCRATCH_ZP1 ; shift out one bit
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rol c64.SCRATCH_ZP2
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lda word2bcd_bcdbuff+0 ; and add into result
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adc word2bcd_bcdbuff+0
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sta word2bcd_bcdbuff+0
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lda word2bcd_bcdbuff+1 ; propagating any carry
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adc word2bcd_bcdbuff+1
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sta word2bcd_bcdbuff+1
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lda word2bcd_bcdbuff+2 ; ... thru whole result
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adc word2bcd_bcdbuff+2
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sta word2bcd_bcdbuff+2
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dex ; and repeat for next bit
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bne -
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cld ; back to binary
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rts
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}}
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}
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byte[5] word2decimal_output = 0
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asmsub word2decimal (dataword: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- convert 16 bit word in X/Y into decimal string into memory 'word2decimal_output'
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%asm {{
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jsr word2bcd
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lda word2bcd_bcdbuff+2
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clc
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adc #'0'
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sta word2decimal_output
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ldy #1
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lda word2bcd_bcdbuff+1
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jsr +
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lda word2bcd_bcdbuff+0
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+ pha
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lsr a
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lsr a
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lsr a
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lsr a
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clc
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adc #'0'
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sta word2decimal_output,y
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iny
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pla
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and #$0f
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adc #'0'
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sta word2decimal_output,y
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iny
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rts
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}}
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}
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; @todo string to 32 bit unsigned integer http://www.6502.org/source/strings/ascii-to-32bit.html
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} ; ------ end of block c64utils
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~ c64flt {
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; ---- this block contains C-64 floating point related functions ----
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asmsub FREADS32 () -> clobbers(A,X,Y) -> () {
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; ---- fac1 = signed int32 from $62-$65 big endian (MSB FIRST)
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%asm {{
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lda $62
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eor #$ff
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asl a
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lda #0
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ldx #$a0
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jmp $bc4f ; internal BASIC routine
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}}
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}
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asmsub FREADUS32 () -> clobbers(A,X,Y) -> () {
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; ---- fac1 = uint32 from $62-$65 big endian (MSB FIRST)
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%asm {{
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sec
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lda #0
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ldx #$a0
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jmp $bc4f ; internal BASIC routine
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}}
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}
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asmsub FREADS24AXY (lo: byte @ A, mid: byte @ X, hi: byte @ Y) -> clobbers(A,X,Y) -> () {
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; ---- fac1 = signed int24 (A/X/Y contain lo/mid/hi bytes)
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; note: there is no FREADU24AXY (unsigned), use FREADUS32 instead.
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%asm {{
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sty $62
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stx $63
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sta $64
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lda $62
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eor #$FF
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asl a
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lda #0
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sta $65
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ldx #$98
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jmp $bc4f ; internal BASIC routine
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}}
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}
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asmsub GIVUAYF (uword: word @ AY) -> clobbers(A,X,Y) -> () {
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; ---- unsigned 16 bit word in A/Y (lo/hi) to fac1
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%asm {{
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sty $62
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sta $63
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ldx #$90
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sec
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jmp $bc49 ; internal BASIC routine
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}}
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}
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asmsub GIVAYFAY (sword: word @ AY) -> clobbers(A,X,Y) -> () {
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; ---- signed 16 bit word in A/Y (lo/hi) to float in fac1
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%asm {{
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sta c64.SCRATCH_ZP1
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tya
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ldy c64.SCRATCH_ZP1
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jmp c64.GIVAYF ; this uses the inverse order, Y/A
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}}
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}
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asmsub FTOSWRDAY () -> clobbers(X) -> (word @ AY) {
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; ---- fac1 to signed word in A/Y
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%asm {{
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jsr c64.FTOSWORDYA ; note the inverse Y/A order
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sta c64.SCRATCH_ZP1
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tya
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ldy c64.SCRATCH_ZP1
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rts
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}}
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}
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asmsub GETADRAY () -> clobbers(X) -> (word @ AY) {
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; ---- fac1 to unsigned word in A/Y
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%asm {{
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jsr c64.GETADR ; this uses the inverse order, Y/A
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sta c64.SCRATCH_ZP1
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tya
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ldy c64.SCRATCH_ZP1
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rts
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}}
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}
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asmsub copy_mflt (source: word @ XY) -> clobbers(A,Y) -> () {
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; ---- copy a 5 byte MFLT floating point variable to another place
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; input: X/Y = source address, c64.SCRATCH_ZPWORD1 = destination address
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZPWORD1+1
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ldy #0
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lda (c64.SCRATCH_ZP1),y
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sta (c64.SCRATCH_ZPWORD1),y
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iny
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lda (c64.SCRATCH_ZP1),y
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sta (c64.SCRATCH_ZPWORD1),y
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iny
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lda (c64.SCRATCH_ZP1),y
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sta (c64.SCRATCH_ZPWORD1),y
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iny
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lda (c64.SCRATCH_ZP1),y
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sta (c64.SCRATCH_ZPWORD1),y
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iny
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lda (c64.SCRATCH_ZP1),y
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sta (c64.SCRATCH_ZPWORD1),y
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ldy c64.SCRATCH_ZPWORD1+1
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rts
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}}
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}
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asmsub float_add_one (mflt: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- add 1 to the MFLT pointed to by X/Y. Clobbers A, X, Y
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZP2
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txa
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jsr c64.MOVFM ; fac1 = float XY
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lda #<c64.FL_FONE
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ldy #>c64.FL_FONE
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jsr c64.FADD ; fac1 += 1
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ldx c64.SCRATCH_ZP1
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ldy c64.SCRATCH_ZP2
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jmp c64.FTOMEMXY ; float XY = fac1
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}}
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}
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asmsub float_sub_one (mflt: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- subtract 1 from the MFLT pointed to by X/Y. Clobbers A, X, Y
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZP2
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lda #<c64.FL_FONE
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ldy #>c64.FL_FONE
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jsr c64.MOVFM ; fac1 = 1
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txa
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ldy c64.SCRATCH_ZP2
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jsr c64.FSUB ; fac1 = float XY - 1
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ldx c64.SCRATCH_ZP1
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ldy c64.SCRATCH_ZP2
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jmp c64.FTOMEMXY ; float XY = fac1
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}}
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}
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asmsub float_add_SW1_to_XY (mflt: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- add MFLT pointed to by SCRATCH_ZPWORD1 to the MFLT pointed to by X/Y. Clobbers A, X, Y
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZP2
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txa
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jsr c64.MOVFM ; fac1 = float XY
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lda c64.SCRATCH_ZPWORD1
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ldy c64.SCRATCH_ZPWORD1+1
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jsr c64.FADD ; fac1 += SCRATCH_ZPWORD1
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ldx c64.SCRATCH_ZP1
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ldy c64.SCRATCH_ZP2
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jmp c64.FTOMEMXY ; float XY = fac1
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}}
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}
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asmsub float_sub_SW1_from_XY (mflt: word @ XY) -> clobbers(A,X,Y) -> () {
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; ---- subtract MFLT pointed to by SCRATCH_ZPWORD1 from the MFLT pointed to by X/Y. Clobbers A, X, Y
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%asm {{
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stx c64.SCRATCH_ZP1
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sty c64.SCRATCH_ZP2
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lda c64.SCRATCH_ZPWORD1
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ldy c64.SCRATCH_ZPWORD1+1
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jsr c64.MOVFM ; fac1 = SCRATCH_ZPWORD1
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txa
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ldy c64.SCRATCH_ZP2
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jsr c64.FSUB ; fac1 = float XY - SCRATCH_ZPWORD1
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ldx c64.SCRATCH_ZP1
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ldy c64.SCRATCH_ZP2
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jmp c64.FTOMEMXY ; float XY = fac1
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}}
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}
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} ; ------ end of block c64flt
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~ c64scr {
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; ---- this block contains (character) Screen and text I/O related functions ----
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asmsub clear_screen (char: byte @ A, color: byte @ Y) -> clobbers() -> () {
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; ---- clear the character screen with the given fill character and character color.
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; (assumes screen is at $0400, could be altered in the future with self-modifying code)
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; @todo some byte var to set the SCREEN ADDR HI BYTE
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%asm {{
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sta _loop + 1 ; self-modifying
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stx c64.SCRATCH_ZP1
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ldx #0
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_loop lda #0
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sta c64.Screen,x
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sta c64.Screen+$0100,x
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sta c64.Screen+$0200,x
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sta c64.Screen+$02e8,x
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tya
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sta c64.Colors,x
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sta c64.Colors+$0100,x
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sta c64.Colors+$0200,x
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sta c64.Colors+$02e8,x
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inx
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bne _loop
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lda _loop+1 ; restore A and X
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ldx c64.SCRATCH_ZP1
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rts
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}}
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}
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asmsub scroll_left_full (alsocolors: byte @ Pc) -> clobbers(A, X, Y) -> () {
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; ---- scroll the whole screen 1 character to the left
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; contents of the rightmost column are unchanged, you should clear/refill this yourself
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; Carry flag determines if screen color data must be scrolled too
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%asm {{
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bcs +
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jmp _scroll_screen
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+ ; scroll the color memory
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ldx #0
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ldy #38
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-
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.for row=0, row<=12, row+=1
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lda c64.Colors + 40*row + 1,x
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sta c64.Colors + 40*row,x
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.next
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inx
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dey
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bpl -
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ldx #0
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ldy #38
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-
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.for row=13, row<=24, row+=1
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lda c64.Colors + 40*row + 1,x
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sta c64.Colors + 40*row,x
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.next
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inx
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dey
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bpl -
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_scroll_screen ; scroll the screen memory
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ldx #0
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ldy #38
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-
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.for row=0, row<=12, row+=1
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lda c64.Screen + 40*row + 1,x
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sta c64.Screen + 40*row,x
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|
.next
|
||
|
inx
|
||
|
dey
|
||
|
bpl -
|
||
|
|
||
|
ldx #0
|
||
|
ldy #38
|
||
|
-
|
||
|
.for row=13, row<=24, row+=1
|
||
|
lda c64.Screen + 40*row + 1,x
|
||
|
sta c64.Screen + 40*row,x
|
||
|
.next
|
||
|
inx
|
||
|
dey
|
||
|
bpl -
|
||
|
|
||
|
rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub scroll_right_full (alsocolors: byte @ Pc) -> clobbers(A,X) -> () {
|
||
|
; ---- scroll the whole screen 1 character to the right
|
||
|
; contents of the leftmost column are unchanged, you should clear/refill this yourself
|
||
|
; Carry flag determines if screen color data must be scrolled too
|
||
|
%asm {{
|
||
|
bcs +
|
||
|
jmp _scroll_screen
|
||
|
|
||
|
+ ; scroll the color memory
|
||
|
ldx #38
|
||
|
-
|
||
|
.for row=0, row<=12, row+=1
|
||
|
lda c64.Colors + 40*row + 0,x
|
||
|
sta c64.Colors + 40*row + 1,x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #38
|
||
|
-
|
||
|
.for row=13, row<=24, row+=1
|
||
|
lda c64.Colors + 40*row,x
|
||
|
sta c64.Colors + 40*row + 1,x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
_scroll_screen ; scroll the screen memory
|
||
|
ldx #38
|
||
|
-
|
||
|
.for row=0, row<=12, row+=1
|
||
|
lda c64.Screen + 40*row + 0,x
|
||
|
sta c64.Screen + 40*row + 1,x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #38
|
||
|
-
|
||
|
.for row=13, row<=24, row+=1
|
||
|
lda c64.Screen + 40*row,x
|
||
|
sta c64.Screen + 40*row + 1,x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub scroll_up_full (alsocolors: byte @ Pc) -> clobbers(A,X) -> () {
|
||
|
; ---- scroll the whole screen 1 character up
|
||
|
; contents of the bottom row are unchanged, you should refill/clear this yourself
|
||
|
; Carry flag determines if screen color data must be scrolled too
|
||
|
%asm {{
|
||
|
bcs +
|
||
|
jmp _scroll_screen
|
||
|
|
||
|
+ ; scroll the color memory
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=1, row<=11, row+=1
|
||
|
lda c64.Colors + 40*row,x
|
||
|
sta c64.Colors + 40*(row-1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=12, row<=24, row+=1
|
||
|
lda c64.Colors + 40*row,x
|
||
|
sta c64.Colors + 40*(row-1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
_scroll_screen ; scroll the screen memory
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=1, row<=11, row+=1
|
||
|
lda c64.Screen + 40*row,x
|
||
|
sta c64.Screen + 40*(row-1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=12, row<=24, row+=1
|
||
|
lda c64.Screen + 40*row,x
|
||
|
sta c64.Screen + 40*(row-1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub scroll_down_full (alsocolors: byte @ Pc) -> clobbers(A,X) -> () {
|
||
|
; ---- scroll the whole screen 1 character down
|
||
|
; contents of the top row are unchanged, you should refill/clear this yourself
|
||
|
; Carry flag determines if screen color data must be scrolled too
|
||
|
%asm {{
|
||
|
bcs +
|
||
|
jmp _scroll_screen
|
||
|
|
||
|
+ ; scroll the color memory
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=23, row>=12, row-=1
|
||
|
lda c64.Colors + 40*row,x
|
||
|
sta c64.Colors + 40*(row+1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=11, row>=0, row-=1
|
||
|
lda c64.Colors + 40*row,x
|
||
|
sta c64.Colors + 40*(row+1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
_scroll_screen ; scroll the screen memory
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=23, row>=12, row-=1
|
||
|
lda c64.Screen + 40*row,x
|
||
|
sta c64.Screen + 40*(row+1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
ldx #39
|
||
|
-
|
||
|
.for row=11, row>=0, row-=1
|
||
|
lda c64.Screen + 40*row,x
|
||
|
sta c64.Screen + 40*(row+1),x
|
||
|
.next
|
||
|
dex
|
||
|
bpl -
|
||
|
|
||
|
rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
|
||
|
asmsub print_string (address: word @ XY) -> clobbers(A,Y) -> () {
|
||
|
; ---- print null terminated string from X/Y
|
||
|
; note: the compiler contains an optimization that will replace
|
||
|
; a call to this subroutine with a string argument of just one char,
|
||
|
; by just one call to c64.CHROUT of that single char.
|
||
|
%asm {{
|
||
|
stx c64.SCRATCH_ZP1
|
||
|
sty c64.SCRATCH_ZP2
|
||
|
ldy #0
|
||
|
- lda (c64.SCRATCH_ZP1),y
|
||
|
beq +
|
||
|
jsr c64.CHROUT
|
||
|
iny
|
||
|
bne -
|
||
|
+ rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_pstring (address: word @ XY) -> clobbers(A,X) -> (byte @ Y) {
|
||
|
; ---- print pstring (length as first byte) from X/Y, returns str len in Y
|
||
|
%asm {{
|
||
|
stx c64.SCRATCH_ZP1
|
||
|
sty c64.SCRATCH_ZP2
|
||
|
ldy #0
|
||
|
lda (c64.SCRATCH_ZP1),y
|
||
|
beq +
|
||
|
tax
|
||
|
- iny
|
||
|
lda (c64.SCRATCH_ZP1),y
|
||
|
jsr c64.CHROUT
|
||
|
dex
|
||
|
bne -
|
||
|
+ rts ; output string length is in Y
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_pimmediate () -> clobbers() -> () {
|
||
|
; ---- print pstring in memory immediately following the subroutine fast call instruction
|
||
|
; note that the clobbered registers (A,X,Y) are not listed ON PURPOSE
|
||
|
%asm {{
|
||
|
tsx
|
||
|
lda $102,x
|
||
|
tay ; put high byte in y
|
||
|
lda $101,x
|
||
|
tax ; and low byte in x.
|
||
|
inx
|
||
|
bne +
|
||
|
iny
|
||
|
+ jsr print_pstring ; print string in XY, returns string length in y.
|
||
|
tya
|
||
|
tsx
|
||
|
clc
|
||
|
adc $101,x ; add content of 1st (length) byte to return addr.
|
||
|
bcc + ; if that made the low byte roll over to 00,
|
||
|
inc $102,x ; then increment the high byte too.
|
||
|
+ clc
|
||
|
adc #1 ; now add 1 for the length byte itself.
|
||
|
sta $101,x
|
||
|
bne + ; if that made it (the low byte) roll over to 00,
|
||
|
inc $102,x ; increment the high byte of the return addr too.
|
||
|
+ rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_byte_decimal0 (ubyte: byte @ A) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the byte in A in decimal form, with left padding 0s (3 positions total)
|
||
|
%asm {{
|
||
|
jsr byte2decimal
|
||
|
pha
|
||
|
tya
|
||
|
jsr c64.CHROUT
|
||
|
txa
|
||
|
jsr c64.CHROUT
|
||
|
pla
|
||
|
jmp c64.CHROUT
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_byte_decimal (ubyte: byte @ A) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the byte in A in decimal form, without left padding 0s
|
||
|
%asm {{
|
||
|
jsr byte2decimal
|
||
|
pha
|
||
|
cpy #'0'
|
||
|
bne _print_hundreds
|
||
|
cpx #'0'
|
||
|
bne _print_tens
|
||
|
pla
|
||
|
jmp c64.CHROUT
|
||
|
_print_hundreds tya
|
||
|
jsr c64.CHROUT
|
||
|
_print_tens txa
|
||
|
jsr c64.CHROUT
|
||
|
pla
|
||
|
jmp c64.CHROUT
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_byte_hex (prefix: byte @ Pc, ubyte: byte @ A) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the byte in A in hex form (if Carry is set, a radix prefix '$' is printed as well)
|
||
|
%asm {{
|
||
|
bcc +
|
||
|
pha
|
||
|
lda #'$'
|
||
|
jsr c64.CHROUT
|
||
|
pla
|
||
|
+ jsr byte2hex
|
||
|
txa
|
||
|
jsr c64.CHROUT
|
||
|
tya
|
||
|
jmp c64.CHROUT
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_word_hex (prefix: byte @ Pc, dataword: word @ XY) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the (unsigned) word in X/Y in hexadecimal form (4 digits)
|
||
|
; (if Carry is set, a radix prefix '$' is printed as well)
|
||
|
%asm {{
|
||
|
stx c64.SCRATCH_ZP1
|
||
|
tya
|
||
|
jsr print_byte_hex
|
||
|
lda c64.SCRATCH_ZP1
|
||
|
clc
|
||
|
jmp print_byte_hex
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_word_decimal0 (dataword: word @ XY) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the (unsigned) word in X/Y in decimal form, with left padding 0s (5 positions total)
|
||
|
%asm {{
|
||
|
jsr word2decimal
|
||
|
lda word2decimal_output
|
||
|
jsr c64.CHROUT
|
||
|
lda word2decimal_output+1
|
||
|
jsr c64.CHROUT
|
||
|
lda word2decimal_output+2
|
||
|
jsr c64.CHROUT
|
||
|
lda word2decimal_output+3
|
||
|
jsr c64.CHROUT
|
||
|
lda word2decimal_output+4
|
||
|
jmp c64.CHROUT
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub print_word_decimal (dataword: word @ XY) -> clobbers(A,X,Y) -> () {
|
||
|
; ---- print the word in X/Y in decimal form, without left padding 0s
|
||
|
%asm {{
|
||
|
jsr word2decimal
|
||
|
ldy #0
|
||
|
lda word2decimal_output
|
||
|
cmp #'0'
|
||
|
bne _pr_decimal
|
||
|
iny
|
||
|
lda word2decimal_output+1
|
||
|
cmp #'0'
|
||
|
bne _pr_decimal
|
||
|
iny
|
||
|
lda word2decimal_output+2
|
||
|
cmp #'0'
|
||
|
bne _pr_decimal
|
||
|
iny
|
||
|
lda word2decimal_output+3
|
||
|
cmp #'0'
|
||
|
bne _pr_decimal
|
||
|
iny
|
||
|
|
||
|
_pr_decimal
|
||
|
lda word2decimal_output,y
|
||
|
jsr c64.CHROUT
|
||
|
iny
|
||
|
cpy #5
|
||
|
bcc _pr_decimal
|
||
|
rts
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
|
||
|
asmsub input_chars (buffer: word @ AX) -> clobbers(A) -> (byte @ Y) {
|
||
|
; ---- Input a string (max. 80 chars) from the keyboard.
|
||
|
; It assumes the keyboard is selected as I/O channel!!
|
||
|
|
||
|
%asm {{
|
||
|
sta c64.SCRATCH_ZP1
|
||
|
stx c64.SCRATCH_ZP2
|
||
|
ldy #0 ; char counter = 0
|
||
|
- jsr c64.CHRIN
|
||
|
cmp #$0d ; return (ascii 13) pressed?
|
||
|
beq + ; yes, end.
|
||
|
sta (c64.SCRATCH_ZP1),y ; else store char in buffer
|
||
|
iny
|
||
|
bne -
|
||
|
+ lda #0
|
||
|
sta (c64.SCRATCH_ZP1),y ; finish string with 0 byte
|
||
|
rts
|
||
|
|
||
|
}}
|
||
|
}
|
||
|
|
||
|
} ; ---- end block c64scr
|
||
|
|
||
|
|
||
|
|
||
|
;asmsub memcopy_basic () -> clobbers(A,X,Y) -> () {
|
||
|
; ; ---- copy a memory block by using a BASIC ROM routine
|
||
|
; ; it calls a function from the basic interpreter, so:
|
||
|
; ; - BASIC ROM must be banked in
|
||
|
; ; - the source block must be readable (so no RAM hidden under BASIC, Kernal, or I/O)
|
||
|
; ; - the target block must be writable (so no RAM hidden under I/O)
|
||
|
; ; higher addresses are copied first, so:
|
||
|
; ; - moving data to higher addresses works even if areas overlap
|
||
|
; ; - moving data to lower addresses only works if areas do not overlap
|
||
|
; %asm {{
|
||
|
; lda #<src_start
|
||
|
; ldx #>src_start
|
||
|
; sta $5f
|
||
|
; stx $60
|
||
|
; lda #<src_end
|
||
|
; ldx #>src_end
|
||
|
; sta $5a
|
||
|
; stx $5b
|
||
|
; lda #<(target_start + src_end - src_start)
|
||
|
; ldx #>(target_start + src_end - src_start)
|
||
|
; sta $58
|
||
|
; stx $59
|
||
|
; jmp $a3bf
|
||
|
; }
|
||
|
;}
|
||
|
|
||
|
; macro version of the above memcopy_basic routine:
|
||
|
; MACRO PARAMS src_start, src_end, target_start
|
||
|
; lda #<src_start
|
||
|
; ldx #>src_start
|
||
|
; sta $5f
|
||
|
; stx $60
|
||
|
; lda #<src_end
|
||
|
; ldx #>src_end
|
||
|
; sta $5a
|
||
|
; stx $5b
|
||
|
; lda #<(target_start + src_end - src_start)
|
||
|
; ldx #>(target_start + src_end - src_start)
|
||
|
; sta $58
|
||
|
; stx $59
|
||
|
; jsr $a3bf
|
||
|
|