2020/c64/screen.asm

// vim: filetype=kickass

//
// clear_screen
//
// Destroys: a, y
//
clear_screen:
    ldy #0

!loop:
    lda #' '
    sta SCREEN_RAM, y
    sta SCREEN_RAM + $0100, y
    sta SCREEN_RAM + $0200, y
    sta SCREEN_RAM + $0300, y
    sta SCREEN_RAM + $03e7, y

    lda #1
    sta COLOR_RAM, y
    sta COLOR_RAM + $0100, y
    sta COLOR_RAM + $0200, y
    sta COLOR_RAM + $0300, y
    sta COLOR_RAM + $03e7, y

    iny
    bne !loop-

    lda #<SCREEN_RAM
    sta cursor_pointer_lo
    lda #>SCREEN_RAM
    sta cursor_pointer_hi

    lda #23
    sta $d018

    rts


//
// print_carriage_return
//
// Input:
//  - cursor_pointer_{lo,hi} - Cursor pointer.
//
// Destroys: a, zp_temp
//
print_newline:
    sec
    lda $05
    adc #40
    sta cursor_pointer_lo
    bcc !done+
    inc cursor_pointer_hi
!done:


//
// print_carriage_return
//
// Input:
//  - cursor_pointer_{lo,hi} - Cursor pointer.
//
// Destroys: a, zp_temp
//
print_carriage_return:
    // Subtract SCREEN_RAM from cursor pointer
    sec
    lda cursor_pointer_hi
    sbc #>SCREEN_RAM
    sta cursor_pointer_hi

    // Divide the cursor position by 40 (one row)
    i16_div8(cursor_pointer_lo, cursor_pointer_hi)

    // At this point, the pointer fits in a 8-bit register
    lda cursor_pointer_lo
    i8_div5_a()

    // Multiply it by 40 again
    i8_mul5_a()
    sta cursor_pointer_lo

    i16_mul8(cursor_pointer_lo, cursor_pointer_hi)

    // Add SCREEN_RAM back
    clc
    lda cursor_pointer_hi
    adc #>SCREEN_RAM
    sta cursor_pointer_hi

    rts


//
// write_string
//
// Input:
//  - $03-$04 - Pointer to null-terminated string.
//  - $05-$06 - Cursor pointer.
//
// Destroys: a, x, y
//
write_string:
    ldx #0
    ldy #0

!loop:
    lda ($03), y
    beq !done+

    cmp #'\r'
    beq !carriage_return+
    cmp #'\n'
    beq !newline+

    sta (cursor_pointer_lo, x)

    i16_inc(cursor_pointer_lo, cursor_pointer_hi)

    iny
    jmp !loop-

!newline:
    jsr print_newline

!carriage_return:
    jsr print_carriage_return

    iny
    jmp !loop-

!done:
    rts


.macro i16_print_hex_0x(lo, hi) {
    lda hi
    jsr print_hex_0x
    lda lo
    jsr print_hex
}

print_hex_0x:
    sta zp_temp

    ldx #0

    lda #'0'
    sta (cursor_pointer_lo, x)
    i16_inc(cursor_pointer_lo, cursor_pointer_hi)

    lda #'x'
    sta (cursor_pointer_lo, x)
    i16_inc(cursor_pointer_lo, cursor_pointer_hi)

    lda zp_temp

    // fallthrough

print_hex:
    ldx #0
    sta zp_temp

    lsr
    lsr
    lsr
    lsr
    tay

    lda !hex_chars+, y
    sta (cursor_pointer_lo, x)
    i16_inc(cursor_pointer_lo, cursor_pointer_hi)

    lda zp_temp
    and #$0f
    tay

    lda !hex_chars+, y
    sta (cursor_pointer_lo, x)
    i16_inc(cursor_pointer_lo, cursor_pointer_hi)

    rts

!hex_chars:
    .text "0123456789ABCDEF"


print_decimal_u16:
    ldy #6

    // Null-terminate the buffer
    lda #0
    sta !buffer+, y

!loop:
    u16_div10()

    lda $24
    sta $22

    lda $25
    sta $23

    i16_mul10($22, $23)

    i16_i16_sub($22, $23, $03, $04, $22, $23)

    lda $24
    sta $03
    lda $25
    sta $04

    lda $22
    clc
    adc #'0'

    sta !buffer+ - 1, y

    dey
    bne !loop-

    // Find the first digit
    ldy #0

!:
    lda !buffer+, y
    iny
    cmp #'0'
    beq !-
    dey
    tya

    clc
    adc #<(!buffer+)
    sta $03
    lda #0
    adc #>(!buffer+)
    sta $04
    jsr write_string

    rts


//
// Input:
//   - udivmod32_dividend - Number to print
print_decimal_u32:
    ldy #11

    // Null-terminate the buffer
    lda #0
    sta !buffer+, y

    lda #0
    sta udivmod32_divisor + 3
    sta udivmod32_divisor + 2
    sta udivmod32_divisor + 1
    lda #10
    sta udivmod32_divisor + 0

!loop:
    jsr udivmod32

    lda udivmod32_remainder
    clc
    adc #'0'

    sta !buffer+ - 1, y

    lda udivmod32_result + 0
    sta udivmod32_dividend + 0
    lda udivmod32_result + 1
    sta udivmod32_dividend + 1
    lda udivmod32_result + 2
    sta udivmod32_dividend + 2
    lda udivmod32_result + 3
    sta udivmod32_dividend + 3

    dey
    bne !loop-

    // Find the first digit
    ldy #0

!:
    lda !buffer+, y
    iny
    cmp #'0'
    beq !-
    dey
    tya

    clc
    adc #<(!buffer+)
    sta $03
    lda #0
    adc #>(!buffer+)
    sta $04
    jsr write_string

    rts


!buffer:
    .fill 12, 0
C64 2020-12-06 17:07:35 +00:00			`// vim: filetype=kickass`

			`//`
			`// clear_screen`
			`//`
			`// Destroys: a, y`
			`//`
			`clear_screen:`
			`ldy #0`

			`!loop:`
			`lda #' '`
			`sta SCREEN_RAM, y`
			`sta SCREEN_RAM + $0100, y`
			`sta SCREEN_RAM + $0200, y`
			`sta SCREEN_RAM + $0300, y`
			`sta SCREEN_RAM + $03e7, y`

			`lda #1`
			`sta COLOR_RAM, y`
			`sta COLOR_RAM + $0100, y`
			`sta COLOR_RAM + $0200, y`
			`sta COLOR_RAM + $0300, y`
			`sta COLOR_RAM + $03e7, y`

			`iny`
			`bne !loop-`

			`lda #<SCREEN_RAM`
			`sta cursor_pointer_lo`
			`lda #>SCREEN_RAM`
			`sta cursor_pointer_hi`

			`lda #23`
			`sta $d018`

			`rts`


			`//`
			`// print_carriage_return`
			`//`
			`// Input:`
			`// - cursor_pointer_{lo,hi} - Cursor pointer.`
			`//`
			`// Destroys: a, zp_temp`
			`//`
			`print_newline:`
			`sec`
			`lda $05`
			`adc #40`
			`sta cursor_pointer_lo`
			`bcc !done+`
			`inc cursor_pointer_hi`
			`!done:`


			`//`
			`// print_carriage_return`
			`//`
			`// Input:`
			`// - cursor_pointer_{lo,hi} - Cursor pointer.`
			`//`
			`// Destroys: a, zp_temp`
			`//`
			`print_carriage_return:`
			`// Subtract SCREEN_RAM from cursor pointer`
			`sec`
			`lda cursor_pointer_hi`
			`sbc #>SCREEN_RAM`
			`sta cursor_pointer_hi`

			`// Divide the cursor position by 40 (one row)`
			`i16_div8(cursor_pointer_lo, cursor_pointer_hi)`

			`// At this point, the pointer fits in a 8-bit register`
			`lda cursor_pointer_lo`
			`i8_div5_a()`

			`// Multiply it by 40 again`
			`i8_mul5_a()`
			`sta cursor_pointer_lo`

			`i16_mul8(cursor_pointer_lo, cursor_pointer_hi)`

			`// Add SCREEN_RAM back`
			`clc`
			`lda cursor_pointer_hi`
			`adc #>SCREEN_RAM`
			`sta cursor_pointer_hi`

			`rts`


			`//`
			`// write_string`
			`//`
			`// Input:`
			`// - $03-$04 - Pointer to null-terminated string.`
			`// - $05-$06 - Cursor pointer.`
			`//`
			`// Destroys: a, x, y`
			`//`
			`write_string:`
			`ldx #0`
			`ldy #0`

			`!loop:`
			`lda ($03), y`
			`beq !done+`

			`cmp #'\r'`
			`beq !carriage_return+`
			`cmp #'\n'`
			`beq !newline+`

			`sta (cursor_pointer_lo, x)`

			`i16_inc(cursor_pointer_lo, cursor_pointer_hi)`

			`iny`
			`jmp !loop-`

			`!newline:`
			`jsr print_newline`

			`!carriage_return:`
			`jsr print_carriage_return`

			`iny`
			`jmp !loop-`

			`!done:`
			`rts`


Implement 32bit divmod based on Bisqwit's algorithm, implement 16 and 32-bit decimal print 2020-12-08 23:48:29 +00:00			`.macro i16_print_hex_0x(lo, hi) {`
			`lda hi`
			`jsr print_hex_0x`
			`lda lo`
			`jsr print_hex`
			`}`

C64 2020-12-06 17:07:35 +00:00			`print_hex_0x:`
			`sta zp_temp`

			`ldx #0`

			`lda #'0'`
			`sta (cursor_pointer_lo, x)`
			`i16_inc(cursor_pointer_lo, cursor_pointer_hi)`

			`lda #'x'`
			`sta (cursor_pointer_lo, x)`
			`i16_inc(cursor_pointer_lo, cursor_pointer_hi)`

			`lda zp_temp`

			`// fallthrough`

			`print_hex:`
			`ldx #0`
			`sta zp_temp`

			`lsr`
			`lsr`
			`lsr`
			`lsr`
			`tay`

			`lda !hex_chars+, y`
			`sta (cursor_pointer_lo, x)`
			`i16_inc(cursor_pointer_lo, cursor_pointer_hi)`

			`lda zp_temp`
			`and #$0f`
			`tay`

			`lda !hex_chars+, y`
			`sta (cursor_pointer_lo, x)`
			`i16_inc(cursor_pointer_lo, cursor_pointer_hi)`

			`rts`

			`!hex_chars:`
			`.text "0123456789ABCDEF"`

Implement 32bit divmod based on Bisqwit's algorithm, implement 16 and 32-bit decimal print 2020-12-08 23:48:29 +00:00
			`print_decimal_u16:`
			`ldy #6`

			`// Null-terminate the buffer`
			`lda #0`
			`sta !buffer+, y`

			`!loop:`
			`u16_div10()`

			`lda $24`
			`sta $22`

			`lda $25`
			`sta $23`

			`i16_mul10($22, $23)`

			`i16_i16_sub($22, $23, $03, $04, $22, $23)`

			`lda $24`
			`sta $03`
			`lda $25`
			`sta $04`

			`lda $22`
			`clc`
			`adc #'0'`

			`sta !buffer+ - 1, y`

			`dey`
			`bne !loop-`

			`// Find the first digit`
			`ldy #0`

			`!:`
			`lda !buffer+, y`
			`iny`
			`cmp #'0'`
			`beq !-`
			`dey`
			`tya`

			`clc`
			`adc #<(!buffer+)`
			`sta $03`
			`lda #0`
			`adc #>(!buffer+)`
			`sta $04`
			`jsr write_string`

			`rts`


			`//`
			`// Input:`
			`// - udivmod32_dividend - Number to print`
			`print_decimal_u32:`
			`ldy #11`

			`// Null-terminate the buffer`
			`lda #0`
			`sta !buffer+, y`

			`lda #0`
			`sta udivmod32_divisor + 3`
			`sta udivmod32_divisor + 2`
			`sta udivmod32_divisor + 1`
			`lda #10`
			`sta udivmod32_divisor + 0`

			`!loop:`
			`jsr udivmod32`

			`lda udivmod32_remainder`
			`clc`
			`adc #'0'`

			`sta !buffer+ - 1, y`

			`lda udivmod32_result + 0`
			`sta udivmod32_dividend + 0`
			`lda udivmod32_result + 1`
			`sta udivmod32_dividend + 1`
			`lda udivmod32_result + 2`
			`sta udivmod32_dividend + 2`
			`lda udivmod32_result + 3`
			`sta udivmod32_dividend + 3`

			`dey`
			`bne !loop-`

			`// Find the first digit`
			`ldy #0`

			`!:`
			`lda !buffer+, y`
			`iny`
			`cmp #'0'`
			`beq !-`
			`dey`
			`tya`

			`clc`
			`adc #<(!buffer+)`
			`sta $03`
			`lda #0`
			`adc #>(!buffer+)`
			`sta $04`
			`jsr write_string`

			`rts`


			`!buffer:`
			`.fill 12, 0`