; Testing input. ; ; Writen in Sux assembly by ; mr b0nk 500 ; Instruction mnemonics, ; and opcodes. .org $1000 tok: .byte "dab" msg: .byte "oof, you divided a, and b on me.\n" ; Input buffer. .org $2000 buffer: .org $2800 cmd_buf: ; Initalize some variables. .org $0 scr_row: .byte $0 scr_col: .byte $0 a: .byte $0 b: .byte $0 c: .byte $0 d: .byte $0 e: .byte $0 string: .byte "Please, type something.\n" string2: .byte "You typed, " end: .byte $0 ; String Pointer ptr: .qword buffer cptr: .qword cmd_buf tptr: .qword tok mptr: .qword msg ; Main program .org $8000 reset: cps ldx.w #$FFFF txs ldy #0 lda #0 clr_buf: cpy.w #$7FF beq start sta (ptr), y iny jmp clr_buf start: lda #0 sta $C000 tax ; Reset x. tay ; Reset y. jsl clr_cbuf jmp print clr_cbuf: cpy.w #$3FF beq clr_cbuf_end sta (cptr), y iny jmp clr_cbuf clr_cbuf_end: ldy #0 rtl rset_a: lda #1 read: lda $C000 ; Get control register. beq rset_a ; Loop until we get a character. jmp getchar ; We got a key. sleep: lda end bne spin ; Are we done with getting input? print: lda string, x ; Get character at offset x. beq rset_a ; Did we find a null terminator? sta $C001 ; Print character. inx ; Increment offset. cmp #$A beq inc_row inc scr_col jmp print inc_row: lda #0 sta scr_col lda #$42 sta c jsl isdown jmp print ; Keep printing more characters. getchar: lda $C002 ; Get typed character. cmp #$1B beq esc cmp #$A beq nl ; Did the user type a newline? cmp #8 beq bs ; Did the user type a backspace? cmp #$7F beq bs ; Did the user type a backspace? echo: sta a ldx scr_col cpx #79 bne echo_print linewrap: inc scr_row ldx #0 stx scr_col lda scr_row jsl update_pos echo_print: lda a sta $C001 ; Echo typed character. inc scr_col ; Increment the cursor's x coordinate. sta (ptr), y ; Store typed character into the input buffer. iny jmp rset_a ; Start getting user input. esc: lda $C000 ; Skip the '['. lda $C000 ; Get the next character. beq read ; We have an error, so discard it, and go back to getting user input. lda $C002 ; Get the escape code. sta c ; Store the escape code, until we need it. jsl isup ; Check if the user pressed up. lda d bne esc_end jsl isdown ; Check if the user pressed down. lda d bne esc_end lda #0 jsl isleft ; Check if the user pressed left. lda d bne esc_end jsl isright ; Check if the user pressed right. esc_end: lda #0 sta d jmp rset_a ; Go back to getting user input. isup: lda scr_row ; Is the cursor at the top of the screen? beq isup_done ; Yes, so return. lda c ; No, so load the escape code back into the accumulator. cmp #$41 ; Did the user press the up arrow key? beq up ; Yes, so move the cursor up. isup_done: rtl ; End of isup. isdown: lda scr_row ; Start checking the y coordinate of the cursor. cmp #23 ; Is the cursor at the bottom of the screen? beq isdown_done ; Yes, so return. lda c ; No, so load the escape code back into the accumulator. cmp #$42 ; Did the user press the down arrow key? beq down ; Yes, so move the cursor down. isdown_done: rtl ; End of isdown. isright: lda scr_col ; Start checking the x coordinate of the cursor. cmp #79 ; Is the cursor at the far right of the screen? beq isright_end ; Yes, so return. lda c ; No, so load the escape code back into the accumulator. cmp #$43 ; Did the user press the right arrow key? beq right ; Yes, so move the cursor right. isright_end: rtl ; End of isright. isleft: lda scr_col ; Is the cursor at the far left of the screen? beq isleft_done ; Yes, so return. lda c ; No, so load the escape code back into the accumulator. cmp #$44 ; Did the user press the left arrow key? beq left ; Yes, so move the cursor left. isleft_done: rtl ; End of isleft. up: dec scr_row jsl update_pos lda #1 sta d jmp isup_done down: inc scr_row jsl update_pos lda #1 sta d jmp isdown_done right: inc scr_col jsl update_pos jmp isright_end left: dec scr_col jsl update_pos lda #1 sta d jmp isleft_done update_pos: lda #$1B ; Print an escape character sta $C001 ; to the screen. lda #$5B ; Print '[' sta $C001 ; to the screen, and start the escape sequence. jsl getrow ; Start printing the row number to the screen. jsl getcol ; Start printing the column number to the screen. lda #$48 ; Print 'H' sta $C001 ; to the screen. rtl ; End of update_pos. getrow: lda scr_row ; Get the cursor's y coordinate. div #10 ; Divide A by 10. adc #$30 ; Convert it to ascii, and sta $C001 ; print to the screen. tba ; Get the remainder. adc #$30 ; Convert it to ascii, and sta $C001 ; print to the screen. rtl ; End of getrow. getcol: lda #$3B ; Print ';' sta $C001 ; to the screen. lda scr_col ; Get the cursor's x coordinate. div #10 ; Divide A by 10. adc #$30 ; Convert it to ascii, and sta $C001 ; print to the screen. tba ; Get the remainder. adc #$30 ; Convert it to ascii, and sta $C001 ; print to the screen. rtl ; End of getrow. nl: lda #0 sta scr_col sta (ptr), y ; Store said terminator into the input buffer. lda #$42 sta c jsl isdown ldy.w #0 ; Reset y, to print the result. jsl dabbed beq start ldy #0 jmp result back: sta $C001 ; Print backspace. lda #0 ; Put a null terminator, in place of the backspace. sta (ptr), y ; Place it into the input buffer. dey ; Decrement buffer offset. dec scr_col jmp read ; Get next character. bs: cpy #0 ; Are we at the start of the buffer? beq rset_a ; We are, so do not store the backspace into the buffer. jmp back ; We are not, so add the backspace to the buffer. result: ldx scr_col cpx #79 bne result_print linewrap2: inc scr_row ldx #$0 stx scr_col jsl update_pos result_print: lda string2, y beq rset_y ; Reset y, if we hit the null terminator. sta $C001 ; Print 'You have typed, ' inc scr_col ; Increment the cursor's x coordinate. iny ; Increment offset. jmp result ; Keep printing. rset_y: ldy.w #0 ; Reset y. ldx.w #0 ; Reset x. lda.w #0 ; Reset a. jmp print_buf ; Print the input buffer. dabbed: lda (ptr), y ; Get a character from the input buffer. beq dab_nend ; Are we done with printing the buffer? cmp (tptr), y bcs dab_nend beq chk_str bcc dab_nend chk_str: iny cpy #3 bne dabbed ldy #0 pnt_msg: ldx scr_col cpx #79 bne msg_pnt linewrap3: inc scr_row ldx #0 stx scr_col jsl update_pos msg_pnt: lda (mptr), y ; Get a character from the input buffer. beq dab_eqnd ; Are we done with printing the buffer? sta $C001 ; Print said character. inc scr_col ; Increment the cursor's x coordinate. iny jmp pnt_msg ; Keep printing the buffer. dab_nend: lda #1 jmp dab_end dab_eqnd: lda #0 jmp dab_end dab_end: rtl print_buf: ldx scr_col cpx #79 bne buf_print linewrap4: inc scr_row ldx #0 stx scr_col jsl update_pos buf_print: lda (ptr), y ; Get a character from the input buffer. beq cmd_clr ; Are we done with printing the buffer? sta $C001 ; Print said character. inc scr_col ; Increment the cursor's x coordinate. iny jmp print_buf ; Keep printing the buffer. cmd_clr: lda #0 sta scr_col lda #$42 sta c jsl isdown jmp start scr_to_buf: tax mul #80 adc scr_col tay txa rtl spin: nop nop nop jmp spin .org $1000 v .org $1100 v .org $1200 v .org $8000 v .org $8100 v .org $8200 v .org $8300 v .org $FFC0 .qword reset .org $FF50 .qword spin .qword spin .qword spin .qword spin .qword spin .qword spin .qword spin .org $FF50 v done