From 887802efcdb3b56263069cc6778a8f53ed89d599 Mon Sep 17 00:00:00 2001
From: mrb0nk500 <b0nk@b0nk.xyz>
Date: Mon, 22 Jun 2020 17:56:52 -0400
Subject: Did some more stuff.

- Fixed some bugs in the emulator's assembler.
- Worked on SuBAsm's lexer some more.
- Created a new directory for the SuB suite, and moved
  all of the SuB suite's files in there.
---
 programs/sub-suite/subeditor.s | 1234 ++++++++++++++++++++++++++++++++++++++++
 1 file changed, 1234 insertions(+)
 create mode 100644 programs/sub-suite/subeditor.s

(limited to 'programs/sub-suite/subeditor.s')

diff --git a/programs/sub-suite/subeditor.s b/programs/sub-suite/subeditor.s
new file mode 100644
index 0000000..1768d62
--- /dev/null
+++ b/programs/sub-suite/subeditor.s
@@ -0,0 +1,1234 @@
+; SuBEditor.
+;
+; Writen in Sux assembly by
+; mr b0nk 500 <b0nk@b0nk.xyz>
+
+; I/O constants.
+status	= $100		; Keyboard status.
+scr	= $101		; Character that is to be printed.
+kbd	= $102		; Character from the Keyboard.
+step	= $110		; Enables clock stepping, when set.
+
+; Screen constants.
+maxrow	= 23		; Screen's row count.
+maxcol	= 79		; Screen's column count.
+
+; Include SuBAsm.
+.include "subasm.s"
+
+.org $A000
+; String Literals/Constants.
+tok:
+	.byte "dab"
+msg:
+	.byte "oof, you divided a, and b on me.\n"
+
+ed_name:
+	.byte "SuBEditor"
+ed_ver:
+	.byte "1"
+ed_sver:
+	.byte ".0.0"
+
+ver_str:
+	.byte ", version "
+made:
+	.byte "Created by, "
+
+author:
+	.byte "mr b0nk 500"
+
+string2:
+	.byte "You typed, "
+
+; Linewrap bitmask table.
+bits:
+	.byte $80, $40, $20, $10, $08, $04, $02, $01
+
+; This label is for any included files.
+incl:
+
+; Linewrap table.
+.org $30000
+bitabl:
+	.qword 0
+	.qword 0
+
+; SCreen buffer.
+.org bitabl+$1000
+buffer:
+
+; Command buffer.
+.org buffer+$2000
+cmd_buf:
+
+
+; Screen variables.
+.org 0
+scr_row:
+	.byte 0
+scr_col:
+	.byte 0
+scr_trow:
+	.byte 0
+scr_tcol:
+	.byte 0
+scr_ptr:
+	.word 0
+scr_ptr2:
+	.word 0
+scr_ptr3:
+	.word 0
+
+; Pseudo registers.
+a:
+	.byte 0
+b:
+	.byte 0
+c:
+	.byte 0
+d:
+	.byte 0
+e:
+	.byte 0
+f:
+	.byte 0
+g:
+	.byte 0
+; This pseudo register is always zero.
+zero:
+	.qword 0
+; End of pseudo registers.
+
+end:
+	.qword 0
+bitmask:
+	.byte 0
+scr_str:
+	.byte 0
+scr_end:
+	.byte 0
+wrapped:
+	.byte 0
+
+; Pointers
+ptr:
+	.qword 0
+ptr2:
+	.qword 0
+ptr3:
+	.qword 0
+
+; Main program
+.org $8000
+reset:
+	cps		; Reset the processor status register.
+	ldx.w #$FFFF	; Reset the stack pointer.
+	txs		;
+	ldy #0		; Reset the Y register.
+	sty end		;
+	tyx		; Reset the X register.
+	lda #maxrow	; Set the end of the screen to the screen's max row count.
+	sta scr_end	;
+	tya		; Reset the Accumulator.
+	sta scr_str	; Set the start of the screen back to zero.
+	sta.q bitabl	; Reset the first half of the linewrap table.
+	sta.q bitabl+8	; Reset the second half of the linewrap table.
+	inc end		;
+	lda.w #$1FFF	; Set the clear count to $1FFF.
+	sta.w scr_ptr	;
+	lda.d #buffer	; Set the array to be cleared to the screen buffer.
+	jsr clr_arr	; Clear the screen buffer.
+	jsr pnt_strt	; Print the starting message.
+	jmp start	; Goto the start of the main program.
+
+clr_arr:
+	phb #1		; Preserve whatever was in B.
+	ldb #0		; Clear B.
+	jsr set_ptr	; Set the first pointer to the parameter.
+	adc #8		; Set the second pointer to the parameter, plus eight.
+	inb		; Tell set_ptr to set the second pointer.
+	jsr set_ptr	;
+	deb		; Set B back to zero.
+	tba		;
+@loop:
+	cpy.w scr_ptr	; Did we clear all of the array?
+	bcs @end	; Yes, so we're done.
+	sta.q (ptr), y	; No, so clear eight bytes.
+	sta.q (ptr2), y	; Clear eight more bytes.
+	tya		; Copy the array index.
+	adc #$10	; Increment the index by 16.
+	tay		; Update the index.
+	tba		; Reset the Accumulator.
+	sta.q (ptr), y	; Do this one more time, to clear 32 bytes.
+	sta.q (ptr2), y	;
+	tya		;
+	adc #$10	;
+	tay		;
+	tba		;
+	jmp @loop	; Keep looping.
+@end:
+	ldy.w zero	; Set the index back to zero.
+	plb #1		; Get whatever was in the B register, back.
+	rts		; End of clr_arr.
+
+pnt_strt:
+	lda.w #ed_name	; Print the name of the editor.
+	jsr print_str	;
+	lda.w #ver_str	; Print the version text.
+	jsr print_str	;
+	lda.w #ed_ver	; Print the version number.
+	jsr print_str	;
+	lda.w #ed_sver	; Print the sub version number.
+	jsr print_str	;
+	lda #'\n'	; Print a newline.
+	jsr print_char	;
+	lda.w #made	; Print the "Created by" text.
+	jsr print_str	;
+	lda.w #author	; Print the name of the author.
+	jsr print_str	;
+	lda #'\n'	; Print a newline.
+	jsr print_char	;
+	rts		; End of pnt_strt.
+
+start:
+	lda #0		; TODO: Update this for the Super VIA.
+	sta status	; Clear the control register of the I/O adapter.
+	tax		; Reset X.
+	phy #2		; Save the cursor index for later.
+	tay		; Reset the cursor index.
+	lda.w #$3FF	; Set the clear count to $3FF.
+	sta.w scr_ptr	;
+	lda.d #cmd_buf	; Set the array to be cleared to the command buffer.
+	jsr clr_arr	; Clear the command buffer.
+	ply #2		; Get back the cursor index.
+	and #0		; Reset the Accumulator.
+	sta end		;
+	jmp read	; Start reading the keyboard.
+
+read:
+	lda #0		; Reset the Accumulator.
+	sta end		; Disable the dummy flag.
+	inc end		; Enable the dummy flag.
+	lda status	; Did we get a key?
+	beq read	; No, so try again.
+	jsr getchar	; Yes, and was it a newline?
+	beq parse	; Yes, so start parsing the line.
+	jmp read	; No, so keep looping.
+
+print_str:
+	ldx #0		; Reset X.
+	sta.q end	; Save the parameter.
+@reset:
+	lda.q end	; Get the parameter.
+	ldb #0		; Clear the B register.
+	jsr set_ptr	; Set the first pointer to the parameter.
+	tba		; Clear the Accumulator.
+@loop:
+	ldb #1		; Enable replace mode.
+	stb b		;
+	lda.q ptr	; Get the first pointer.
+	cmp.q end	; Did the pointer change?
+	bne @reset	; Yes, so set it back.
+	and #0		; No, reset the accumulator.
+	phy #2		; Save the cursor index.
+	txy		; Copy the string index into Y.
+	lda (ptr), y    ; Are we at the end of the string?
+	ply #2          ; Get the cursor index back.
+	beq @end	  ; Yes, so we're done.
+	inx             ; No, so increment the string index.
+	jsr print_char	; Print the character.
+	jmp @loop	; Keep looping.
+@end:
+	ldb #0		; Enable insert mode.
+	stb b		;
+	rts		; End of print_str.
+
+getbit:
+	clc		; Clear the carry flag.
+	lda scr_str	; Has the screen been scrolled?
+	bne getbt0	; Yes, so add the screen offset to the current line number.
+	ldx scr_row	; No, so just use the current line number.
+	jmp getbt1	; Start getting the bit.
+getbt0:
+	lda scr_row	; Get the current line number.
+	adc scr_str	; Add the screen offset to it.
+	tax		; Use it as the wrap index.
+getbt1:
+	pha #1		; Save the parameter.
+	ldb #1		; Make sure that set_ptr sets the second pointer.
+	lda.d #bitabl	; Set the second pointer to the linewrap table.
+	jsr set_ptr	;
+	lsr #$10	; Clear the Accumulator.
+	pla #1		; Get the return byte back.
+	jsr bitpos	; Get the bit, and byte position.
+	phy #2		; Save the screen index.
+	txy		; Get the byte position.
+	ldb (ptr2), y	; Get one byte of the wrap table.
+	ply #2		; Get the screen index back.
+	aba		; Mask out the bit of the current line number.
+	cmp #1		; Set the carry flag, if true.
+	jmp bitout	; We are done.
+
+clrbit:
+	pha #1		; Save the parameter.
+	ldb #1		; Make sure that set_ptr sets the second pointer.
+	lda.d #bitabl	; Set the second pointer to the linewrap table.
+	jsr set_ptr	;
+	and #0		; Clear the Accumulator.
+	pla #1		; Get the return byte back.
+	jsr bitpos	; Get the bit, and byte position.
+	xor #$FF	; Invert the bitmask.
+	phy #2		; Save the screen index.
+	txy		; Get the byte position.
+	ldb (ptr2), y	; Get one byte of the wrap table.
+	aba		; Clear the bit of the current line number.
+bitsav:
+	sta (ptr2), y	; Update the wrap table.
+	ply #2		; Get the screen index back.
+bitout:
+	ldx bitmask	; Return the bitmask.
+	rts		; We are done.
+
+setbit:
+	pha #1		; Save the parameter.
+	ldb #1		; Make sure that set_ptr sets the second pointer.
+	lda.d #bitabl	; Set the second pointer to the linewrap table.
+	jsr set_ptr	;
+	and #0		; Clear the Accumulator.
+	pla #1		; Get the return byte back.
+	jsr bitpos	; Get the bit, and byte position.
+	phy #2		; Save the screen index.
+	txy		; Get the byte position.
+	ldb (ptr2), y	; Get one byte of the wrap table.
+	oab		; Set the bit of the current line number.
+	jmp bitsav	; Save the bit.
+
+bitpos:
+	pha #1		; Save the parameter.
+	ldb #0		; Make sure that set_ptr sets the first pointer.
+	lda.w #bits	; Set the first pointer to the bitmask table.
+	jsr set_ptr	;
+	and #0		; Clear the Accumulator.
+	pla #1		; Get the parameter back.
+	stx bitmask	; Make the line number the bitmask.
+	txa		; Copy it to the Accumulator.
+	and #7		; Get the bit position.
+	phy #2		; Save the cursor index.
+	tay		; Use the bit position as the index.
+	tax		; Copy it into X.
+	lda (ptr), y	; Get the bitmask.
+	ply #2		; Get back the cursor index.
+	pha #1		; Save the bitmask.
+	lda bitmask	; Get the line number.
+	lsr #3		; Get the byte position.
+	tax		; Copy it into X.
+	pla #1		; Get back the bitmask.
+	rts		; End of bitpos.
+
+getchar:
+	lda kbd		; Get the character that was typed from the keyboard.
+	ldb #0		; Reset the B register.
+	stb e		; Set the temporary row position to zero, in case we get a newline.
+	stb b		; Enable insert mode.
+	pha #1		; Save the character.
+	phy #2		; Save the cursor index.
+	cmp #'\n'	; Was the character that was typed, a newline?
+	bne @print	; No, so just print the character.
+	jsr cmd_cpy	; Yes, so start copying the line to the command buffer.
+@print:
+	ply #2		; Get back the cursor index.
+	pla #1		; Get back the character.
+	ldb e		; Is the temporary row position non zero?
+	bne @row	; Yes, so reset the row positon.
+@print1:
+	jsr print_char	; No, so print the character.
+	lda a		; Get the return value.
+	cmp #'\n'	; Is the return value, a newline?
+	beq @true	 ; Yes, so return true.
+	jmp @false	; No, so return false.
+@row:
+	ldb e		; Get the temporary row position.
+	cpb #maxrow	; Is temporary row position, at, or above the bottom of the screen?
+	beq @row2	; Yes, so leave it as is.
+	bcs @row1	; No, so set it to the bottom of the screen.
+	jmp @row2	; Yes, so leave it as is.
+@row1:
+	ldb #maxrow	; Set the row position to the bottom of the screen.
+@row2:
+	stb scr_row	; Set the row position.
+	jmp @print1	; Print the character.
+@true:
+	lda #0		; Return true.
+	jmp @end	; We are done.
+@false:
+	lda #1		; Return false.
+@end:
+	rts		; End of getchar.
+
+
+cmd_cpy:
+	lda scr_row	; Get the row position.
+	sta scr_trow	; Save it for later.
+	jsr findend	; Find the end of the line.
+	ldb scr_str	; Has the screen been scrolled?
+	beq @start	; No, so don't subtract the screen's starting point from the line number.
+@offset:
+	sec		; Yes, so make sure that we don't subtract by the starting point, plus one.
+	sbc scr_str	; Offset the row position, back by the screen's starting point.
+	clc		; Clear the carry flag, so that nothing odd occurs.
+@start:
+	sta scr_row	; Set the row position to the end of the line.
+	sta e		; Save it into the temporary row posiition.
+	jsr findst	; Find the start of the line.
+	clc		; Clear the carry flag.
+	lda scr_row	; Get the row position.
+	adc scr_str	; Add it with the screen's starting row.
+	mul #maxcol+1	; Multiply it with the width of the screen, plus one.
+	tay		; Place it into the index.
+	ldx.w #0	; Reset the X register.
+	ldb #0		; Make sure that set_ptr sets the first pointer.
+	lda.d #buffer	; Set the first pointer to the start of the screen buffer.
+	jsr set_ptr	;
+	inb		; Make sure that set_ptr sets the second pointer.
+	lda.d #cmd_buf	; Set the second pointer to the start of the command buffer.
+	jsr set_ptr	;
+	deb		; Set B back to zero.
+	tba		; Set the accumulator to zero.
+@loop:
+	ldb #0		; Reset the B register.
+	lda.q (ptr), y	; Get eight bytes from the current line.
+@loop1:
+	phy #2		; Save the screen index.
+	txy		; Get the command buffer index.
+	sta (ptr2), y	; Copy one byte from the screen buffer, to the command buffer.
+	inx		; Increment the command buffer index.
+	ply #2		; Get back the screen index.
+	cpx.w #$3FF	; Are we at the end of the command buffer?
+	bcs @end	; Yes, so we're done.
+	iny		; No, so increment the screen index.
+	inb		; Increment the byte count.
+	lsr #8		; Shift in the next byte.
+	stb g		; Save the byte count.
+	tab		; Save the string buffer.
+	and #$FF	; Is this byte of the buffer, a null terminator?
+	beq @end1	; Yes, so we're done.
+	tba		; No so get back the string buffer.
+	ldb g		; Get back the byte count.
+	cpb #7		; Did we shift in eight bytes?
+	beq @loop	; Yes, so get eight more bytes.
+	jmp @loop1	; No, so keep shifting in more bytes.
+@end:
+	ldb #0		; Reset B.
+	phy #2		; Save the screen index.
+	txy		; Get the command buffer index.
+	stb (ptr2), y	; Terminate the command buffer.
+	ply #2		; Get back the screen index.
+@end1:
+	tab		; The B register is zero, so clear the Accumulator.
+	rts		; End of cmd_cpy.
+
+
+findst:
+	lda #0		; Reset A.
+@loop:
+	pha #1		; Save the current line number.
+	jsr getbit	; Is this the start of the line?
+	pla #1		; Get the current line number back.
+	bcc @end	; Yes, so we're done.
+	inc		; No, so check the next physical line.
+	dec scr_row	; Are we at the top of the screen?
+	bpo @loop	; No, so keep looping.
+	dec		; Yes, so move back one line.
+	inc scr_row	; Put the row postiion back to zero.
+@end:
+	cmp #0		; Update all the flags.
+	rts		; End of findst.
+
+
+fndend:
+	phb #1		; Save the contents of the B register.
+	ldb #0		; Make sure that set_ptr sets the first pointer.
+	lda.d #buffer	; Set the first pointer to the start of the screen buffer.
+	jsr set_ptr	;
+	tba		; Set the Accumulator to zero.
+	plb #1		; Restore the contents of the B register.
+	phy #2		;
+@loop:
+	lda (ptr), y	; Are we at the end of the string?
+	beq @end	; Yes, so we're done.
+	iny		; No, so increment the cursor index.
+	jmp @loop	; Keep looping.
+@end:
+	sty.w scr_ptr3	;
+	ply #2		;
+	rts		; End of fndend.
+
+findend:
+	jsr fndend	;
+	lda.w scr_ptr3	;
+	div #maxcol+1	;
+	rts		;
+
+parse:
+	lda #0		;
+	tax		;
+	jsr subasm	;
+	jmp start	;
+
+print_char:
+	sta a		; Save the typed character for now.
+	ldb #2		; Make sure that set_ptr sets the third pointer.
+	lda.d #buffer	; Set the third pointer to the start of the screen buffer.
+	jsr set_ptr	;
+	ldb #0		; Set B to zero.
+	tba		; Set the Accumulator to zero.
+	lda a		; Get back the character.
+	cmp #$1B	; Did the user type an escape character?
+	beq esc		; Yes, so go check the escape code.
+	cmp #'\n'	; No, but did the user type a newline?
+	beq nl		; Yes, so handle the newline.
+	cmp #$C		; No, but did the user type Ctrl+L?
+	beq clr_scr	; Yes, so clear the screen.
+	cmp #19		; No, but did the user type Ctrl+S?
+	beq en_step	; Yes, so enable clock/instruction stepping.
+	cmp #18		; No, but did the user type Ctrl+R?
+	beq dis_step	; Yes, so disable clock/instruction stepping.
+	cmp #'\b'	; No, but did the user type a backspace?
+	beq bs		; Yes, so handle the backspace.
+	cmp #$7F	; No, but did they type Delete?
+	beq bs		; Yes, so treat it as a backspace.
+printc:
+	lda #0		; No, so start trying to print a character.
+	sta d		;
+	lda (ptr3), y	; Are we at the end of the string?
+	beq @save	; Yes, so just print the character.
+	lda b		; No, but was the flag set?
+	bne @save	; Yes, so don't shift the line.
+	sty.w scr_ptr	; No, so save the cursor index for later.
+	jsr fndend	; Find the end of the line.
+	jmp @shift	; Start shifting the line right.
+@update:
+	lda scr_col	; Save the current column position for later.
+	sta scr_tcol	;
+@update1:
+	jsr findend	; Find the end of the line.
+	sta e		; Use it for redrawing the line.
+	sta scr_row	; Set the row position to to the end of the line.
+	jsr findst	; Find the start of the line.
+	lda scr_row	; Get the start of the line.
+@update2:
+	sta f		; Set the starting line, to the start of the line.
+	jsr rdrw_ln	; Redraw the line.
+	lda scr_trow	; Get the real row position back.
+	sta scr_row	;
+	lda scr_tcol	; Get the real column position back.
+	sta scr_col	;
+	jsr update_pos	; Update the cursor's position.
+	dec d		;
+	jmp @save1	;
+@shift:
+	ldy.w scr_ptr3	;
+	inc scr_ptr3	;
+	tyx		;
+	dey		;
+	ldb #1		;
+	stb d		;
+	jsr shftln	;
+	ldb #1		;
+	stb d		;
+	lda a		;
+	sta (ptr3), y	; store typed character into the input buffer.
+	lda scr_row	;
+	sta scr_trow	;
+	jmp @update	;
+@save:
+	ldb d		;
+	bne @update	;
+@save1:
+	lda a		;
+	sta (ptr3), y	; store typed character into the input buffer.
+@incr:
+	inc scr_col	; Increment the cursor's x coordinate.
+	iny		;
+@wrapped:
+	ldb #1		;
+	stb f		;
+	ldb scr_col	;
+	cpb #maxcol+1	;
+	bcs @scrolled	;
+@print:
+	sta scr		; Echo typed character.
+	ldb f		;
+	beq @wrap	;
+	jmp printc_end	;
+@scrolled:
+	ldb scr_row	;
+	cpb #maxrow	;
+	bcs @scroll	;
+@wrapped2:
+	ldb #0		;
+	stb f		;
+	jmp @print	;
+@scroll:
+	sta scr		; Echo typed character.
+	clc		;
+	lda #1		;
+	sta wrapped	;
+	jsr scrl_down	;
+@wrap:
+	ldb #0
+	stb scr_col	;
+	ldb scr_row	;
+	cpb #maxrow	;
+	bcs @wrap2	;
+@wrap1:
+	inc scr_row	;
+@wrap2:
+	phx #2		;
+	clc		;
+	lda scr_row	;
+	adc scr_str	;
+	tax		;
+	jsr setbit	;
+	plx #2		;
+	jsr update_pos	;
+printc_end:
+	rts		;
+
+nl:
+	lda #0		; Reset A.
+	ldb (ptr3), y	; Is this character not a null terminator?
+	bne @scroll	; Yes, so don't overwrite it.
+	sta (ptr3), y	; No, so overwrite it.
+@scroll:
+	sta scr_col	; Move the cursor to the start of the next line.
+	lda scr_row	; Get the row position.
+	cmp #maxrow	; Are we at the bottom of the screen?
+	bcc @incr	; No, so move down one line.
+	jsr scrl_down	; Yes, so scroll down one line.
+	jmp @end	; We are done.
+@incr:
+	inc scr_row	; Move the cursor down by one line.
+	jsr update_pos	; Update the cursor's position.
+@end:
+	lda #'\n'	; Print the newline.
+	sta a		;
+	jmp printc_end	;
+
+clr_scr:
+	lda #maxrow	;
+	sta scr_end	;
+	lda #0		;
+	sta scr_str	;
+	sta.q bitabl	;
+	sta.q bitabl+8	;
+	tay		;
+	lda.w #$1FFF	; Set the clear count to $1FFF.
+	sta.w scr_ptr	;
+	lda.d #buffer	; Set the array to be cleared to the screen buffer.
+	jsr clr_arr	; Clear the screen buffer.
+	tay		;
+	lda.w #$3FF	; Set the clear count to $3FF.
+	sta.w scr_ptr	;
+	lda.d #cmd_buf	; Set the array to be cleared to the command buffer.
+	jsr clr_arr	; Clear the screen buffer.
+	sta scr_col	;
+	sta scr_row	;
+	jsr update_pos	;
+	lda #$C		;
+	sta scr		;
+	jmp printc_end	;
+
+en_step:
+	lda step	;
+	beq step_en	;
+	jmp printc_end	;
+step_en:
+	lda #1		;
+	sta step	;
+	jmp printc_end	;
+
+dis_step:
+	lda step	;
+	bne step_dis	;
+	jmp printc_end	;
+step_dis:
+	lda #0		;
+	sta step	;
+	jmp printc_end	;
+
+back:
+	ldb #0		; Reset B, and some flags.
+	stb e		;
+	stb f		;
+	lda scr_row	; Save the current row position for later.
+	sta scr_trow	;
+	jsr findend	; Find the end of the line.
+	sta scr_row	; Set our row position to the end of the line.
+@find_st:
+	jsr findst	; Does this line take up more than one real line?
+	beq @shift	; No, so skip updating any other lines.
+	bcs @update	; Yes, so update the other lines.
+	lda scr_trow	; Get the real row position back.
+	sta scr_row	;
+@shift:
+	dey		; Decrement the buffer's offset.
+	lda #0		; Place a null terminator
+	sta (ptr3), y	; into the buffer.
+	tyx		; Copy the current cursor index to X.
+	iny		; Increment cursor index.
+	ldb #0		; Set shifting direction to left.
+	stb d		;
+	jsr shftln	; Shift line back by one character.
+	lda #$7F	; Print a backspace to the screen.
+	sta scr		;
+	lda e		; Are we updating more than one line?
+	beq @load	; No, so skip to the next step.
+@find_end:
+	jsr findend	; Yes, so find the end of the line.
+	sta e		; Set the end parameter to it.
+	lda scr_col	; Save the current column position for now.
+	sta scr_tcol	;
+	jsr rdrw_ln	; Start redrawing the line.
+	lda scr_tcol	; Get the real column position back.
+	sta scr_col	;
+@load:
+	lda scr_trow	; Get the real row position back.
+	sta scr_row	;
+	dec scr_col	; Move the cursor back by one column,
+	jsr update_pos	; and update it's position.
+	jmp printc_end	; We are done.
+@update:
+	lda scr_row	; Set the line to start redrawing, to the start of the line.
+	sta f		;
+	inc e		; Set the redraw flag to true.
+	jmp @shift	; Start shifting the line back.
+
+bs:
+	lda scr_col	; Are we at the far left of the screen?
+	beq @wrap	; Yes, so check for a wrapped line.
+	jmp back	; No, so add the backspace to the buffer.
+@wrap:
+	jsr getbit	; Is this line, a wrapped line?
+	bcs @wrap1	; Yes, so check if the cursor is at the top.
+	jmp printc_end	; No, so we're done.
+@wrap1:
+	lda scr_row	; Are we at the top of the screen?
+	beq @wrap2	; Yes, so check if the screen is at the top of the buffer.
+	jmp @wrap3	; No, so start clearing the wrap bit.
+@wrap2:
+	lda scr_str	; Are we at the top of the buffer?
+	bne @scroll	; Yes, so scroll up.
+	jmp printc_end	; No, so we're done.
+@scroll:
+	clc		; Clear the carry flag, so that we don't get odd behaviour.
+	jsr scrl_up	; Scroll up.
+	inc scr_row	; Move down by one row.
+@wrap3:
+	clc		; Clear the carry flag.
+	lda scr_row	; Add the cursor's row position,
+	adc scr_str	; and the screen's starting row.
+	tax		; Transfer that into X.
+@wrap4:
+	dec scr_row	; Move up by one row.
+	ldb #maxcol+1	; Move the cursor to the absolute right of the screen.
+	stb scr_col	;
+	jsr update_pos	; Update the cursor's position.
+	jmp back	; Delete the previous character.
+
+shftln:
+	ldb d		; Is the flag not set?
+	beq @dec_loop	; Yes, so shift, and decrement.
+	ldb #0		; Clear the B register.
+	jmp @inc_loop	; No, so shift, and increment.
+@neg:
+	ldy.w zero	; Set the source poition to 0.
+	stb (ptr3), y	; Clear the character that is in the source.
+	jmp @end	; We are done.
+@inc_loop:
+	sty.w scr_ptr2	; Save the source position for later.
+	ldy.w scr_ptr	; Get the previous cursor index.
+	cpy.w scr_ptr2	; Is the source position, at, or below the cursor index?
+	beq @inc_loop1	; Yes, so keep looping.
+	bcs @end	; No, so we're done.
+@inc_loop1:
+	ldy.w scr_ptr2	; Get the source position.
+	lda (ptr3), y	; Get the character from the source position.
+	phy #2		; Save the source position for later.
+	txy		; Set our position to the destination.
+	sta (ptr3), y	; Place the character from the source position, to the destination position.
+	ply #2		; Set our position back to the source.
+	stb (ptr3), y	; Clear the character that is in the source.
+	bng @neg	; The source underflowed, so set it back to zero,
+	dey		; Decrement the source position.
+	dex		; Decrement the destination position.
+	jmp @inc_loop	; Keep looping.
+@dec_loop:
+	stx.w scr_ptr2	; Save the destination position for later.
+	lda (ptr3), y	; Is the character at the source position, a null terminator?
+	beq @end3	; Yes, so we're done.
+	phy #2		; No, so save the source position for later.
+	txy		; Set our position to the destination.
+	sta (ptr3), y	; Place the character from the source position, to the destination position.
+	inx		; Increment the destination position.
+	ply #2		; Set our position back to the source.
+	stb (ptr3), y	; Clear the character that is in the source.
+	iny		; Increment the source position.
+	jmp @dec_loop	; Keep looping.
+@wrap:
+	tax		; Use the ending line as a parameter for setbit.
+	jsr setbit	; Set the wrap bit of the ending line.
+	jmp @end5	; We are done.
+@wrap1:
+	tax		; Use the ending line as a parameter for clrbit.
+	jsr clrbit	; Clear the wrap bit of the ending line.
+	jmp @end5	; We are done.
+@end:
+	lda (ptr3), y	; Is this character a null terminator?
+	bne @end1	; No, so just find the end of the line.
+	lda #$20	; Yes, so convert it to a space for now.
+	sta (ptr3), y	;
+@end1:
+	jsr findend	; Find the ending line.
+	sta d		; Save ending line for later.
+	lda (ptr3), y	; Is this character a space?
+	cmp #$20	;
+	bne @end5	; No, so skip the conversion.
+	lda #0		; Yes, so convert it back to zero.
+	sta (ptr3), y	;
+@end2:
+	lda d		; Get the ending line.
+	cmp scr_row	; Is the ending line greater than the starting line?
+	beq @end5	; No, so we're done.
+	bcs @wrap	; Yes, so set the wrap bit.
+	jmp @end5	; No, so we're done.
+@end3:
+	jsr findend	; Find the ending line.
+	cpb #0		; Is the remainder zero?
+	beq @end4	; Yes, so check if the ending line is greater than the starting line.
+	jmp @end5	; No, so we're done.
+@end4:
+	cmp scr_row	; Is the ending line greater than the starting line?
+	beq @end5	; No, so we're done.
+	bcs @wrap1	; Yes, so clear the wrap bit.
+@end5:
+	rts		; End of shftln.
+
+esc:
+	lda status	; Get the next character.
+	lda kbd		;
+	cmp #$1B	; Is this character an escape character?
+	beq shftesc	; Yes, so check the other set of escape routines.
+	lda status	; No, so wait for the next character.
+	beq printc_end	; We have an error, so discard it, and go back to getting user input.
+	lda kbd		; Get the escape code.
+	sta c		; Store the escape code, until we need it.
+	lda #0		; Set the D pseudo register to zero.
+	sta d		;
+	jsr isup	; Check if the user pressed up.
+	lda d		; Did the user press up?
+	bne esc_end	; Yes, so we're done.
+	jsr isdown	; No, so check if the user pressed down.
+	lda d		; Did the user press down?
+	bne esc_end	; Yes, so we're done.
+	lda #0		; No, so check if the user pressed left.
+	jsr isleft	;
+	lda d		; Did the user press left?
+	bne esc_end	; Yes, so we're done.
+	jsr isright	; No, so check if the user pressed right.
+esc_end:
+	lda #0		; Clear the D pseudo register.
+	sta d		;
+	jmp printc_end	; We are done.
+
+shftesc:
+	lda status	; Skip the '['.
+	lda kbd		;
+	lda status	; Wait for the next character.
+	beq printc_end	; We have an error, so discard it, and go back to getting user input.
+	lda kbd		; Get the escape code.
+	sta c		; Store the escape code, until we need it.
+	lda #0		; Use the D pseudo register as a skip flag.
+	sta d		;
+	jsr isshftup	; Check if the user pressed shift+up.
+	lda d		; Was it successful?
+	bne shftesc_end	; Yes, so we're done.
+	jsr isshftdown	; No, so check if the user pressed shift+down.
+shftesc_end:
+	lda #0		; Clear the D pseudo register.
+	sta d		;
+	jmp printc_end	; We are done.
+
+isup:
+	lda c		; Load the escape code into the accumulator.
+	cmp #'A'	; Did the user press the up arrow key?
+	bne @end	; No, so we're done.
+	lda scr_row	; Yes, but is the cursor at the top of the screen?
+	beq @scroll	; Yes, so check if we need to scroll.
+@check2:
+	lda c		; No, so load the escape code back into the accumulator.
+	cmp #'A'	; Did the user press the up arrow key?
+	beq up		; Yes, so move the cursor up.
+	jmp @end	; No, so we're done.
+@scroll:
+	lda scr_str	; Are we at the top of the screen buffer?
+	beq @end	; Yes, so we're done.
+	jsr scrl_up	; No, so scroll up.
+	lda #1		; Tell the escape routine that we were successful.
+	sta d		;
+@end:
+isup_done:
+	rts		; End of isup.
+
+isdown:
+	lda c		; Load the escape code into the accumulator.
+	cmp #'B'	; Did the user press the down arrow key?
+	bne @end	; No, so we're done.
+	lda scr_row	; Yes, so start checking the y coordinate of the cursor.
+	cmp #maxrow	; Is the cursor at the bottom of the screen?
+	beq @scroll	; Yes, so scroll down.
+	lda c		; No, so load the escape code back into the accumulator.
+	cmp #'B'	; Did the user press the down arrow key?
+	beq down	; Yes, so move the cursor down.
+	jmp @end	; No, so we're done.
+@scroll:
+	lda scr_row	; Save the cursor's row number.
+	sta scr_trow	;
+	lda scr_col	; Save the cursor's column number.
+	sta scr_tcol	;
+	jsr scrl_down	; Scroll down.
+	lda scr_trow	; Load the cursor's row number.
+	sta scr_row	;
+	lda scr_tcol	; Load the cursor's column number.
+	sta scr_col	;
+	lda #1		; Tell the escape routine that we were successful.
+	sta d		;
+@end:
+isdown_done:
+	rts		; End of isdown.
+
+isright:
+	lda c		; Load the escape code into the accumulator.
+	cmp #'C'	; Did the user press the right arrow key?
+	bne @end2	; No, so we're done.
+	lda scr_col	; Yes, so start checking the x coordinate of the cursor.
+	cmp #maxcol	; Is the cursor at the far right of the screen?
+	beq @wrap	; Yes, so check if this is a wrapped line.
+	jmp right	; No, so move the cursor right, like normal.
+@wrap:
+	inc scr_row	; Move down a row.
+	jsr getbit	; Is the current line, a wrapped line?
+	bcs @incr	; Yes, so leave the cursor where it is.
+	dec scr_row	; No, so move the cursor back up a row.
+	jmp @end2	; We are done.
+@scroll:
+	lda scr_str	; Are we at the top of the screen buffer?
+	beq @end	; Yes, so we're done.
+	lda #1		; No, so scroll down.
+	sta wrapped	; Set the wrapped flag.
+	jsr scrl_down	; Scroll down.
+	jmp @end	; We are done.
+@incr:
+	lda #0		; Set the cursor to the far left of the screen.
+	sta scr_col	;
+	lda scr_row	; Get the current row number.
+	cmp #maxrow	; Are we at the bottom of the screen?
+	beq @end1	; No, so we're done.
+	bcs @scroll	; Yes, so check if we are scrolling down.
+	jmp @end1	; No, so we're done.
+@end:
+	dec scr_row	; Move back up a row.
+@end1:
+	jsr update_pos	; Update the cursor position.
+@end2:
+isright_dne:
+	lda #0		; Unset the wrapped flag.
+	sta wrapped	;
+	rts		; End of isright.
+
+isleft:
+	lda c		; Load the escape code into the accumulator.
+	cmp #'C'	; Did the user press right?
+	beq @end1	; Yes, so we're done
+	lda scr_col	; No, but is the cursor at the far left of the screen?
+	beq @wrap	; Yes, so start checking if this is a wrapped line.
+	lda c		; No, so load the escape code back into the accumulator.
+	cmp #'D'	; Did the user press the left arrow key?
+	beq left	; Yes, so move the cursor left.
+	jmp @end1	; No, so we're done.
+@wrap:
+	jsr getbit	; Is the current line, a wrapped line?
+	bcs @decr	; Yes, so wrap back up a line.
+	jmp @end1	; No, so we're done.
+@decr:
+	lda scr_row	; Is the cursor at the top of the screen?
+	beq @decr1	; Yes, so don't move up a line.
+	lda #1		; No, so set the wrapped flag.
+	sta wrapped	;
+	dec scr_row	; Move the cursor up one line.
+@decr1:
+	lda #maxcol	; Move the Cursor to the far right of the screen.
+	sta scr_col	;
+	lda #1		; Tell the escape routine that we were successful.
+	sta d		;
+	lda scr_row	; Are we at the top of the screen?
+	beq @scroll	; Yes, so check if we need to scroll.
+	jmp @end	; No, so we're done.
+@scroll:
+	lda wrapped	; Was the wrapped flag set somewhere else?
+	bne @end	; Yes so we're done.
+	lda scr_str	; No, but are we actually at the top of the screen buffer?
+	beq @end1	; Yes, so we're done.
+	jsr scrl_up	; No, so scroll up.
+	jmp @end1	; We are done.
+@end:
+	jsr update_pos	; Update the cursor position.
+@end1:
+isleft_done:
+	lda #0		; Unset the wrapped flag.
+	sta wrapped	;
+	rts		; End of isleft.
+
+up:
+	dec scr_row	; Move the cursor up a line.
+	jsr update_pos	; Update it's position.
+	lda #1		; Tell the escape routine that we succeded.
+	sta d		;
+	jmp isup_done	; We are done.
+down:
+	inc scr_row	; Move the cursor down a line.
+	jsr update_pos	; Update it's position.
+	lda #1		; Tell the escape routine that we succeded.
+	sta d		;
+	jmp isdown_done	; We are done.
+right:
+	inc scr_col	; Move the cursor right by one character.
+	jsr update_pos	; Update it's position.
+	jmp isright_dne	; We are done.
+left:
+	dec scr_col	; Move the cursor left a character.
+	jsr update_pos	; Update it's position.
+	lda #1		; Tell the escape routine that we succeded.
+	sta d		;
+	jmp isleft_done	; We are done
+
+isshftup:
+	lda c		; Load the escape code back into the accumulator.
+	cmp #'A'	; Did the user press the up arrow key?
+	bne shftup_done	;
+	lda #1		;
+	sta d		;
+	lda scr_str	;
+	beq shftup_done	;
+	jmp shftup	;
+shftup_done:
+	rts		;
+
+isshftdown:
+	lda c		; Load the escape code back into the accumulator.
+	cmp #'B'	; Did the user press the down arrow key?
+	bne shftdn_done	;
+	lda #1		;
+	sta d		;
+	lda scr_end	;
+	cmp #71		;
+	bcs shftdn_done	;
+	jmp shftdown	;
+shftdn_done:
+	rts		;
+
+shftup:
+	jsr scrl_up	;
+	lda #1		;
+	sta d		;
+	jmp shftup_done	;
+
+shftdown:
+	jsr scrl_down	;
+	lda #1		;
+	sta d		;
+	jmp shftdn_done	;
+
+update_pos:
+	ldb #1		; Set the F pseudo register to one, to fix some bugs.
+	stb f		;
+	clc		; Clear the carry flag.
+	lda scr_row	; Add the cursor's line number,
+	adc scr_str	; with the starting line number to get the absolute line number.
+	tay		; Place it in the Y regster for now.
+	mul #maxcol+1	; Multiply the line number by the screen's max column count, plus 1.
+	clc		; Clear the carry flag.
+	adc scr_col	; Add the cursor's column number to get the screen index.
+	tay		; Place the index into the Y register.
+	tba		; Reset A.
+	lda #$1B	; Print an escape character
+	sta scr		; to the screen.
+	lda #'['	; Print '['
+	sta scr		; to the screen, and start the escape sequence.
+	jsr getrow	; Start printing the row number to the screen.
+	jsr getcol	; Start printing the column number to the screen.
+	lda #'H'	; Print 'H'
+	sta scr		; to the screen.
+	rts		; End of update_pos.
+
+getrow:
+	lda scr_row	; Get the cursor's y coordinate.
+	jmp bcd		; Convert it to BCD.
+getcol:
+	lda #';'	; Print ';'
+	sta scr		; to the screen.
+	lda scr_col	; Get the cursor's x coordinate.
+bcd:
+	div #10		; Divide A by 10.
+	ora #'0'	; Convert it to ascii, and
+	sta scr		; print to the screen.
+	tba		; Get the remainder.
+	ora #'0'	; Convert it to ascii, and
+	sta scr		; print to the screen.
+	rts		; End of bcd.
+
+scrl_down:
+	inc scr_str	; Increment the starting line of the screen.
+	inc scr_end	; Increment the ending line of the screen.
+	lda #$1B	; Print an escape character
+	sta scr		; to the screen.
+	lda #'['	; Print '['
+	sta scr		; to the screen, and start the escape sequence.
+	lda #'T'	; Print 'T'
+	sta scr		; to the screen, and end the escape sequence.
+	lda scr_row	; Get the cursor's line number.
+	pha #1		; Save it in the stack.
+	lda wrapped	; Was the wrapped flag set?
+	beq @save	; Yes, so save the cursor position.
+@redraw:
+	jsr rdrw_row	; No, so redraw this row.
+	lda wrapped	; Was the wrapped flag set?
+	beq @load	; Yes, so load the previous cursor position back.
+	jmp @end	; No, so we're done.
+@save:
+	lda scr_col	; Get the cursor's column number.
+	pha #1		; Save it in the stack.
+	jmp @redraw	; Start redrawing the current row.
+@load:
+	pla #1		; Get the cursor's previous column number back.
+	sta scr_col	;
+@end:
+	pla #1		; Get the cursor's previous line number back.
+	sta scr_row	;
+	jsr update_pos	; Update the cursor's position.
+	lda #0		; Clear the wrapped flag.
+	sta wrapped	;
+@end1:
+	rts		; End of scrl_down.
+
+scrl_up:
+	dec scr_str	;
+	dec scr_end	;
+	lda #$1B	; Print an escape character
+	sta scr		; to the screen.
+	lda #'['	; Print '['
+	sta scr		; to the screen, and start the escape sequence.
+	lda #'S'	; Print 'S'
+	sta scr		; to the screen, and end the escape sequence.
+	lda scr_row	;
+	pha #1		;
+	lda scr_col	;
+	pha #1		;
+	lda #0		;
+	sta scr_row	;
+	jsr rdrw_row	;
+	pla #1		;
+	sta scr_col	;
+	pla #1		;
+	sta scr_row	;
+	jsr update_pos	;
+@end:
+	rts		;
+
+rdrw_row:
+	lda #0		;
+	sta scr_col	;
+	jsr update_pos	;
+@loop:
+	lda (ptr3), y	;
+	beq @incr	;
+	sta scr		;
+@incr:
+	inc scr_col	;
+	lda (ptr3), y	;
+	beq @skip	;
+@incr1:
+	iny		;
+@incr2:
+	lda scr_col	;
+	cmp #maxcol+1	;
+	bcs @end	;
+	jmp @loop	;
+@skip:
+	lda #' '	;
+	sta scr		; to the screen.
+	jmp @incr1	;
+@end:
+	lda #0		;
+	sta scr_col	;
+	jsr update_pos	;
+@end1:
+	rts		;
+
+rdrw_ln:
+	lda scr_row	;
+	pha #1		;
+	lda f		;
+	sta scr_row	;
+	lda scr_col	;
+	pha #1		;
+	jsr update_pos	;
+@loop:
+	lda scr_row	;
+	cmp e		;
+	beq @loop1	;
+	bcs @end	;
+@loop1:
+	jsr rdrw_row	;
+@incr:
+	inc scr_row	;
+	jmp @loop	;
+@end:
+	pla #1		;
+	sta scr_col	;
+	pla #1		;
+	sta scr_row	;
+	jsr update_pos	;
+	lda #0		;
+	sta e		;
+	sta f		;
+	rts		;
+
+set_ptr:
+	cpb #1		; Are we setting the second pointer?
+	beq @ptr2	; Yes, so start setting it.
+	cpb #2		; No, but are we setting the third pointer?
+	beq @ptr3	; Yes, so start setting it.
+@ptr1:
+	stb.q ptr	; Reset the first pointer.
+	sta.q ptr	; No, so set the first pointer.
+	jmp @end	; We are done.
+@ptr2:
+	stb.q ptr2	; Reset the second pointer.
+	sta.q ptr2	; Set the second pointer.
+	jmp @end	; We are done.
+@ptr3:
+	stb.q ptr3	; Reset the third pointer.
+	sta.q ptr3	; Set the third pointer.
+@end:
+	rts		; End of set_ptr.
+
+; Entry point for SuBAsm.
+parser:
+
+.org $FFC0
+.qword reset
+a
+d
+
-- 
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