mirror of
https://github.com/irmen/prog8.git
synced 2024-11-29 17:50:35 +00:00
Fixed namespace lookup errors related to variable initialization. Removed many X register clobbers.
This commit is contained in:
parent
56e0f4c525
commit
6e3820c6b8
@ -47,9 +47,10 @@ asmsub byte2decimal (ubyte value @ A) -> clobbers() -> (ubyte @ Y, ubyte @ X,
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}}
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}
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asmsub ubyte2hex (ubyte value @ A) -> clobbers(X) -> (ubyte @ A, ubyte @ Y) {
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asmsub ubyte2hex (ubyte value @ A) -> clobbers() -> (ubyte @ A, ubyte @ Y) {
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; ---- A to hex string in AY (first hex char in A, second hex char in Y)
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%asm {{
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stx c64.SCRATCH_ZPREGX
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pha
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and #$0f
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tax
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@ -61,6 +62,7 @@ asmsub ubyte2hex (ubyte value @ A) -> clobbers(X) -> (ubyte @ A, ubyte @ Y) {
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lsr a
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tax
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lda hex_digits,x
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ldx c64.SCRATCH_ZPREGX
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rts
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hex_digits .text "0123456789abcdef" ; can probably be reused for other stuff as well
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@ -69,13 +71,13 @@ hex_digits .text "0123456789abcdef" ; can probably be reused for other stuff as
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str word2hex_output = "1234" ; 0-terminated, to make printing easier
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asmsub uword2hex (uword value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub uword2hex (uword value @ AY) -> clobbers(A,Y) -> () {
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; ---- convert 16 bit uword in A/Y into 4-character hexadecimal string into memory 'word2hex_output'
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%asm {{
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sta c64.SCRATCH_ZPREG
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tya
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jsr ubyte2hex
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stx word2hex_output
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sta word2hex_output
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sty word2hex_output+1
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lda c64.SCRATCH_ZPREG
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jsr ubyte2hex
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@ -86,7 +88,7 @@ asmsub uword2hex (uword value @ AY) -> clobbers(A,X,Y) -> () {
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}
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ubyte[3] word2bcd_bcdbuff = [0, 0, 0]
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asmsub uword2bcd (uword value @ AY) -> clobbers(A,X) -> () {
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asmsub uword2bcd (uword value @ AY) -> clobbers(A,Y) -> () {
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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 A/Y into a 24 bit BCD. It
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@ -103,7 +105,7 @@ asmsub uword2bcd (uword value @ AY) -> clobbers(A,X) -> () {
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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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ldy #16 ; the number of source bits
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- asl c64.SCRATCH_ZPB1 ; shift out one bit
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rol c64.SCRATCH_ZPREG
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@ -116,7 +118,7 @@ asmsub uword2bcd (uword value @ AY) -> clobbers(A,X) -> () {
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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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dey ; and repeat for next bit
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bne -
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cld ; back to binary
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cli ; enable interrupts again
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@ -126,7 +128,7 @@ asmsub uword2bcd (uword value @ AY) -> clobbers(A,X) -> () {
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ubyte[5] word2decimal_output = 0
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asmsub uword2decimal (uword value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub uword2decimal (uword value @ AY) -> clobbers(A,Y) -> () {
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; ---- convert 16 bit uword in A/Y into decimal string into memory 'word2decimal_output'
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%asm {{
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jsr uword2bcd
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@ -471,11 +473,12 @@ _loop sta c64.Colors,y
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}
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asmsub scroll_left_full (ubyte alsocolors @ Pc) -> clobbers(A, X, Y) -> () {
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asmsub scroll_left_full (ubyte alsocolors @ Pc) -> clobbers(A, 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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stx c64.SCRATCH_ZPREGX
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bcs +
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jmp _scroll_screen
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@ -525,16 +528,18 @@ _scroll_screen ; scroll the screen memory
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dey
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bpl -
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub scroll_right_full (ubyte alsocolors @ Pc) -> clobbers(A,X) -> () {
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asmsub scroll_right_full (ubyte alsocolors @ Pc) -> clobbers(A) -> () {
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; ---- scroll the whole screen 1 character to the right
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; contents of the leftmost 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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stx c64.SCRATCH_ZPREGX
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bcs +
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jmp _scroll_screen
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@ -576,16 +581,18 @@ _scroll_screen ; scroll the screen memory
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dex
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bpl -
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub scroll_up_full (ubyte alsocolors @ Pc) -> clobbers(A,X) -> () {
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asmsub scroll_up_full (ubyte alsocolors @ Pc) -> clobbers(A) -> () {
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; ---- scroll the whole screen 1 character up
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; contents of the bottom row are unchanged, you should refill/clear 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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stx c64.SCRATCH_ZPREGX
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bcs +
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jmp _scroll_screen
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@ -627,16 +634,18 @@ _scroll_screen ; scroll the screen memory
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dex
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bpl -
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub scroll_down_full (ubyte alsocolors @ Pc) -> clobbers(A,X) -> () {
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asmsub scroll_down_full (ubyte alsocolors @ Pc) -> clobbers(A) -> () {
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; ---- scroll the whole screen 1 character down
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; contents of the top row are unchanged, you should refill/clear 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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stx c64.SCRATCH_ZPREGX
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bcs +
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jmp _scroll_screen
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@ -678,6 +687,7 @@ _scroll_screen ; scroll the screen memory
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dex
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bpl -
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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@ -693,7 +703,7 @@ asmsub print (str text @ AY) -> clobbers(A,Y) -> () {
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sta c64.SCRATCH_ZPB1
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sty c64.SCRATCH_ZPREG
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ldy #0
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- lda (c64.SCRATCH_ZPB1),y
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- lda (c64.SCRATCH_ZPB1),y
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beq +
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jsr c64.CHROUT
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iny
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@ -703,11 +713,12 @@ asmsub print (str text @ AY) -> clobbers(A,Y) -> () {
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}
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asmsub print_p (str_p text @ AY) -> clobbers(A,X) -> (ubyte @ Y) {
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asmsub print_p (str_p text @ AY) -> clobbers(A) -> (ubyte @ Y) {
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; ---- print pstring (length as first byte) from A/Y, returns str len in Y
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%asm {{
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sta c64.SCRATCH_ZPB1
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sty c64.SCRATCH_ZPREG
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stx c64.SCRATCH_ZPREGX
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ldy #0
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lda (c64.SCRATCH_ZPB1),y
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beq +
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@ -717,14 +728,16 @@ asmsub print_p (str_p text @ AY) -> clobbers(A,X) -> (ubyte @ Y) {
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jsr c64.CHROUT
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dex
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bne -
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+ rts ; output string length is in Y
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+ ldx c64.SCRATCH_ZPREGX
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rts ; output string length is in Y
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}}
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}
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asmsub print_ub0 (ubyte value @ A) -> clobbers(A,X,Y) -> () {
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asmsub print_ub0 (ubyte value @ A) -> clobbers(A,Y) -> () {
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; ---- print the ubyte in A in decimal form, with left padding 0s (3 positions total)
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%asm {{
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stx c64.SCRATCH_ZPREGX
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jsr c64utils.ubyte2decimal
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pha
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tya
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@ -732,14 +745,17 @@ asmsub print_ub0 (ubyte value @ A) -> clobbers(A,X,Y) -> () {
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txa
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jsr c64.CHROUT
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pla
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jmp c64.CHROUT
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jsr c64.CHROUT
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub print_ub (ubyte value @ A) -> clobbers(A,X,Y) -> () {
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asmsub print_ub (ubyte value @ A) -> clobbers(A,Y) -> () {
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; ---- print the ubyte in A in decimal form, without left padding 0s
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%asm {{
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stx c64.SCRATCH_ZPREGX
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jsr c64utils.ubyte2decimal
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_print_byte_digits
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pha
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@ -754,13 +770,16 @@ _print_hundreds tya
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_print_tens txa
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jsr c64.CHROUT
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pla
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jmp c64.CHROUT
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jsr c64.CHROUT
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub print_b (byte value @ A) -> clobbers(A,X,Y) -> () {
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asmsub print_b (byte value @ A) -> clobbers(A,Y) -> () {
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; ---- print the byte in A in decimal form, without left padding 0s
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%asm {{
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stx c64.SCRATCH_ZPREGX
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pha
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cmp #0
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bpl +
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@ -768,14 +787,17 @@ asmsub print_b (byte value @ A) -> clobbers(A,X,Y) -> () {
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jsr c64.CHROUT
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+ pla
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jsr c64utils.byte2decimal
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jmp print_ub._print_byte_digits
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jsr print_ub._print_byte_digits
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub print_ubhex (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,X,Y) -> () {
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asmsub print_ubhex (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,Y) -> () {
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; ---- print the ubyte in A in hex form (if Carry is set, a radix prefix '$' is printed as well)
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%asm {{
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stx c64.SCRATCH_ZPREGX
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bcc +
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pha
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lda #'$'
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@ -784,14 +806,17 @@ asmsub print_ubhex (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,X,Y) ->
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+ jsr c64utils.ubyte2hex
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jsr c64.CHROUT
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tya
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jmp c64.CHROUT
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jsr c64.CHROUT
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub print_ubbin (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,X,Y) ->() {
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asmsub print_ubbin (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,Y) ->() {
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; ---- print the ubyte in A in binary form (if Carry is set, a radix prefix '%' is printed as well)
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%asm {{
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stx c64.SCRATCH_ZPREGX
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sta c64.SCRATCH_ZPB1
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bcc +
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lda #'%'
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@ -804,12 +829,13 @@ asmsub print_ubbin (ubyte prefix @ Pc, ubyte value @ A) -> clobbers(A,X,Y) ->(
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+ jsr c64.CHROUT
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dey
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bne -
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ldx c64.SCRATCH_ZPREGX
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rts
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}}
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}
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asmsub print_uwbin (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,X,Y) ->() {
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asmsub print_uwbin (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,Y) ->() {
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; ---- print the uword in A/Y in binary form (if Carry is set, a radix prefix '%' is printed as well)
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%asm {{
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pha
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@ -822,7 +848,7 @@ asmsub print_uwbin (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,X,Y) ->
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}
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asmsub print_uwhex (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub print_uwhex (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,Y) -> () {
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; ---- print the uword in A/Y in hexadecimal form (4 digits)
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; (if Carry is set, a radix prefix '$' is printed as well)
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%asm {{
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@ -836,7 +862,7 @@ asmsub print_uwhex (ubyte prefix @ Pc, uword value @ AY) -> clobbers(A,X,Y) ->
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}
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asmsub print_uw0 (uword value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub print_uw0 (uword value @ AY) -> clobbers(A,Y) -> () {
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; ---- print the uword in A/Y in decimal form, with left padding 0s (5 positions total)
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%asm {{
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jsr c64utils.uword2decimal
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@ -851,7 +877,7 @@ asmsub print_uw0 (uword value @ AY) -> clobbers(A,X,Y) -> () {
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}
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asmsub print_uw (uword value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub print_uw (uword value @ AY) -> clobbers(A,Y) -> () {
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; ---- print the uword in A/Y in decimal form, without left padding 0s
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%asm {{
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jsr c64utils.uword2decimal
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@ -883,7 +909,7 @@ _pr_decimal
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}}
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}
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asmsub print_w (word value @ AY) -> clobbers(A,X,Y) -> () {
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asmsub print_w (word value @ AY) -> clobbers(A,Y) -> () {
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; ---- print the (signed) word in A/Y in decimal form, without left padding 0s
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%asm {{
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cpy #0
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@ -904,7 +930,7 @@ asmsub print_w (word value @ AY) -> clobbers(A,X,Y) -> () {
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}}
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}
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asmsub input_chars (uword buffer @ AY) -> clobbers(A, X) -> (ubyte @ Y) {
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asmsub input_chars (uword buffer @ AY) -> clobbers(A) -> (ubyte @ Y) {
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; ---- Input a string (max. 80 chars) from the keyboard. Returns length in Y.
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; It assumes the keyboard is selected as I/O channel!
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@ -88,7 +88,7 @@ private fun compileMain(args: Array<String>) {
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}
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//println(" time2: $time2")
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val time3 = measureTimeMillis {
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StatementReorderer(namespace, heap).process(moduleAst) // reorder statements to please the compiler later
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moduleAst.reorderStatements(namespace,heap) // reorder statements to please the compiler later
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}
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//println(" time3: $time3")
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val time4 = measureTimeMillis {
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@ -692,7 +692,7 @@ class VarDecl(val type: VarDeclType,
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return "VarDecl(name=$name, vartype=$type, datatype=$datatype, value=$value, pos=$position)"
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}
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fun asDefaultValueDecl(): VarDecl {
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fun asDefaultValueDecl(parent: Node?): VarDecl {
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val constValue = when(declaredDatatype) {
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DataType.UBYTE -> LiteralValue(DataType.UBYTE, 0, position=position)
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DataType.BYTE -> LiteralValue(DataType.BYTE, 0, position=position)
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@ -701,7 +701,10 @@ class VarDecl(val type: VarDeclType,
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DataType.FLOAT -> LiteralValue(DataType.FLOAT, floatvalue=0.0, position=position)
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else -> throw FatalAstException("can only set a default value for a numeric type")
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}
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return VarDecl(type, declaredDatatype, arrayspec, name, constValue, position)
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val decl = VarDecl(type, declaredDatatype, arrayspec, name, constValue, position)
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if(parent!=null)
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decl.linkParents(parent)
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return decl
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}
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}
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@ -46,7 +46,7 @@ fun printWarning(msg: String, position: Position, detailInfo: String?=null) {
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}
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class AstChecker(private val namespace: INameScope,
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private class AstChecker(private val namespace: INameScope,
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private val compilerOptions: CompilationOptions,
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private val heap: HeapValues) : IAstProcessor {
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private val checkResult: MutableList<AstException> = mutableListOf()
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@ -40,7 +40,7 @@ fun Module.checkIdentifiers(heap: HeapValues): MutableMap<String, IStatement> {
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}
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class AstIdentifiersChecker(val heap: HeapValues) : IAstProcessor {
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private class AstIdentifiersChecker(val heap: HeapValues) : IAstProcessor {
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private val checkResult: MutableList<AstException> = mutableListOf()
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var symbols: MutableMap<String, IStatement> = mutableMapOf()
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@ -11,7 +11,7 @@ fun Module.checkRecursion(namespace: INameScope) {
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}
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class DirectedGraph<VT> {
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private class DirectedGraph<VT> {
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private val graph = mutableMapOf<VT, MutableSet<VT>>()
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private var uniqueVertices = mutableSetOf<VT>()
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val numVertices : Int
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@ -81,7 +81,7 @@ class DirectedGraph<VT> {
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}
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class AstRecursionChecker(private val namespace: INameScope) : IAstProcessor {
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private class AstRecursionChecker(private val namespace: INameScope) : IAstProcessor {
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private val callGraph = DirectedGraph<INameScope>()
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fun result(): List<AstException> {
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@ -13,7 +13,7 @@ fun Module.checkImportedValid() {
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}
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class ImportedAstChecker : IAstProcessor {
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private class ImportedAstChecker : IAstProcessor {
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||||
private val checkResult: MutableList<SyntaxError> = mutableListOf()
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||||
|
||||
fun result(): List<SyntaxError> {
|
||||
|
@ -2,7 +2,15 @@ package prog8.ast
|
||||
|
||||
import prog8.compiler.HeapValues
|
||||
|
||||
class StatementReorderer(private val namespace: INameScope, private val heap: HeapValues): IAstProcessor {
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||||
fun Module.reorderStatements(namespace: INameScope, heap: HeapValues) {
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||||
val initvalueCreator = VarInitValueCreator()
|
||||
this.process(initvalueCreator)
|
||||
|
||||
val checker = StatementReorderer(namespace, heap)
|
||||
this.process(checker)
|
||||
}
|
||||
|
||||
private class StatementReorderer(private val namespace: INameScope, private val heap: HeapValues): IAstProcessor {
|
||||
// Reorders the statements in a way the compiler needs.
|
||||
// - 'main' block must be the very first statement UNLESS it has an address set.
|
||||
// - blocks are ordered by address, where blocks without address are put at the end.
|
||||
@ -14,9 +22,7 @@ class StatementReorderer(private val namespace: INameScope, private val heap: He
|
||||
// - the 'start' subroutine in the 'main' block will be moved to the top immediately following the directives.
|
||||
// - all other subroutines will be moved to the end of their block.
|
||||
|
||||
|
||||
private val directivesToMove = setOf("%output", "%launcher", "%zeropage", "%zpreserved", "%address", "%option")
|
||||
private val vardeclsToAdd = mutableMapOf<INameScope, MutableList<VarDecl>>()
|
||||
|
||||
override fun process(module: Module) {
|
||||
super.process(module)
|
||||
@ -37,14 +43,6 @@ class StatementReorderer(private val namespace: INameScope, private val heap: He
|
||||
module.statements.removeAll(directives)
|
||||
module.statements.addAll(0, directives)
|
||||
|
||||
// add any new vardecls
|
||||
// @todo doing it this late causes problems with namespace lookups elsewhere in sortConstantAssignments
|
||||
for(decl in vardeclsToAdd)
|
||||
for(d in decl.value) {
|
||||
d.linkParents(decl.key as Node)
|
||||
decl.key.statements.add(0, d)
|
||||
}
|
||||
|
||||
sortConstantAssignments(module.statements)
|
||||
}
|
||||
|
||||
@ -155,7 +153,7 @@ class StatementReorderer(private val namespace: INameScope, private val heap: He
|
||||
}
|
||||
|
||||
private fun sortConstantAssignmentSequence(first: Assignment, stmtIter: MutableIterator<IStatement>): Pair<List<Assignment>, IStatement?> {
|
||||
val sequence= mutableListOf<Assignment>(first)
|
||||
val sequence= mutableListOf(first)
|
||||
var trailing: IStatement? = null
|
||||
while(stmtIter.hasNext()) {
|
||||
val next = stmtIter.next()
|
||||
@ -176,20 +174,40 @@ class StatementReorderer(private val namespace: INameScope, private val heap: He
|
||||
return Pair(sorted, trailing)
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
|
||||
private class VarInitValueCreator: IAstProcessor {
|
||||
// Replace the var decl with an assignment and add a new vardecl with the default constant value.
|
||||
// This makes sure the variables get reset to the intended value on a next run of the program.
|
||||
// Variable decls without a value don't get this treatment, which means they retain the last
|
||||
// value they had when restarting the program.
|
||||
// This is done in a separate step because it interferes with the namespace lookup of symbols
|
||||
// in other ast processors.
|
||||
|
||||
private val vardeclsToAdd = mutableMapOf<INameScope, MutableList<VarDecl>>()
|
||||
|
||||
override fun process(module: Module) {
|
||||
super.process(module)
|
||||
|
||||
// add any new vardecls to the various scopes
|
||||
for(decl in vardeclsToAdd)
|
||||
for(d in decl.value) {
|
||||
d.linkParents(decl.key as Node)
|
||||
decl.key.statements.add(0, d)
|
||||
}
|
||||
}
|
||||
|
||||
override fun process(decl: VarDecl): IStatement {
|
||||
super.process(decl)
|
||||
if(decl.type!=VarDeclType.VAR || decl.value==null)
|
||||
return decl
|
||||
|
||||
// Replace the var decl with an assignment and add a new vardecl with the default constant value.
|
||||
// This makes sure the variables get reset to the intended value on a next run of the program.
|
||||
// Variable decls without a value don't get this treatment, which means they retain the last
|
||||
// value they had when restarting the program.
|
||||
if(decl.datatype in NumericDatatypes) {
|
||||
val scope = decl.definingScope()
|
||||
if(scope !in vardeclsToAdd)
|
||||
vardeclsToAdd[scope] = mutableListOf()
|
||||
vardeclsToAdd[scope]!!.add(decl.asDefaultValueDecl())
|
||||
vardeclsToAdd[scope]!!.add(decl.asDefaultValueDecl(null))
|
||||
val declvalue = decl.value!!
|
||||
val value =
|
||||
if(declvalue is LiteralValue) {
|
||||
@ -207,4 +225,5 @@ class StatementReorderer(private val namespace: INameScope, private val heap: He
|
||||
}
|
||||
return decl
|
||||
}
|
||||
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user