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d152f60acd
git-svn-id: https://svn.code.sf.net/p/acme-crossass/code-0/trunk@34 4df02467-bbd4-4a76-a152-e7ce94205b78
235 lines
8.0 KiB
Plaintext
235 lines
8.0 KiB
Plaintext
;ACME 0.95
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!ifdef lib_cbm_c128_vdc_a !eof
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lib_cbm_c128_vdc_a = 1
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; there are three different versions of the C128's Video Display Controller:
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; v0: VDC 8563 R7A in C128 and C128-D
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; v1: VDC 8563 R8/R9 in C128 and C128-D
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; v2: VDC 8568 in C128-DCR
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; 8563 and 8568 have different pinouts, so do not try to use one of them on a
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; board intended for the other!
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; hardware differences:
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; the 8563 uses external circuitry to convert RGBIHV to monochrome/luminance.
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; the 8568 does a part of this internally and therefore needs fewer external
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; components.
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; the 8568 has an additional register (r37) to change sync polarities.
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; software differences:
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; the horizontal scroll bits of r25 differ between v0 and v1/v2: in v0, set these
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; bits to zero. in v1/v2, set these bits to the same value as bits4-7 of r22.
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; the additional register r37 can be ignored (as the C128 kernal does).
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; access macros:
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!macro vdc_lda {
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- bit vdc_state
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bpl -
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lda vdc_data
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}
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!macro vdc_sta {
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- bit vdc_state
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bpl -
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sta vdc_data
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}
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!macro vdc_ldx {
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- bit vdc_state
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bpl -
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ldx vdc_data
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}
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!macro vdc_stx {
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- bit vdc_state
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bpl -
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stx vdc_data
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}
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!macro vdc_ldy {
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- bit vdc_state
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bpl -
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ldy vdc_data
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}
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!macro vdc_sty {
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- bit vdc_state
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bpl -
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sty vdc_data
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}
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; color codes:
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; These are the colors officially available on the C128 - the same names as if
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; using a C64's VIC, but different codes of course.
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; color name RGBI VIC equivalent
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vdccolor_BLACK = %.... ; 0
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vdccolor_WHITE = %#### ; 15
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vdccolor_RED = %#... ; 8
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vdccolor_CYAN = %.### ; 7
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vdccolor_PURPLE = %#.## ; 11
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vdccolor_GREEN = %.#.. ; 4
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vdccolor_BLUE = %..#. ; 2
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vdccolor_YELLOW = %##.# ; 13
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vdccolor_ORANGE = %#.#. ; 10 (on VDC, this is in fact a dark shade of purple)
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vdccolor_BROWN = %##.. ; 12
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vdccolor_LRED = %#..# ; 9
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vdccolor_GRAY1 = %.##. ; 6 (on VDC, this is in fact a dark shade of cyan)
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vdccolor_GRAY2 = %...# ; 1 (this is almost, but not quite, entirely black)
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vdccolor_LGREEN = %.#.# ; 5
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vdccolor_LBLUE = %..## ; 3
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vdccolor_GRAY3 = %###. ; 14
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; The following alternative names are much easier to remember when you're used
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; to writing programs for the VDC: There are eight main colors, and each one is
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; available in a light and a dark shade - even black and white!
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; primary colors RGBI code
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vdccolor_DRED = %#...
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vdccolor_DGREEN = %.#..
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vdccolor_DBLUE = %..#.
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vdccolor_LRED = %#..#
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vdccolor_LGREEN = %.#.#
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vdccolor_LBLUE = %..##
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; secondary colors RGBI code
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vdccolor_LCYAN = %.###
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vdccolor_LMAGENTA = %#.##
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vdccolor_LYELLOW = %##.#
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vdccolor_DCYAN = %.##.
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vdccolor_DMAGENTA = %#.#.
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vdccolor_DYELLOW = %##..
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; black & white RGBI code
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vdccolor_DBLACK = %....
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vdccolor_LBLACK = %...#
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vdccolor_LWHITE = %####
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vdccolor_DWHITE = %###.
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; if you don't like the concept of shaded black/white, then use these:
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; gray level RGBI code
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vdccolor_BLACK = %.... ; "dark black" => "black"
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vdccolor_DGRAY = %...# ; "light black" => "dark grey"
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vdccolor_LGRAY = %###. ; "dark white" => "light grey"
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vdccolor_WHITE = %#### ; "light white" => "white"
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; attribute flags (2rufRGBI)
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vdcattr_2ND = %#....... ; second character set
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vdcattr_REVS = %.#...... ; reverse mode
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vdcattr_UL = %..#..... ; underline
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vdcattr_FLASH = %...#.... ; flash
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vdcattr_R = %....#... ; red
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vdcattr_G = %.....#.. ; green
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vdcattr_B = %......#. ; blue
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vdcattr_I = %.......# ; intensity
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!address {
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; direct registers
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vdc_state = $d600 ; READING this location yields status flags, see below
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vdc_reg = $d600 ; WRITING this location selects an indirect register
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vdc_data = $d601 ; data of selected indirect register
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}
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; status flags in vdc_state:
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vdcstate_READY = %#....... ; RAM access is finished
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vdcstate_LIGHTPEN = %.#...... ; light pen has been activated
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vdcstate_IN_BORDER = %..#..... ; electron beam is in upper or lower border
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vdcstate_VERSIONMASK = %...##### ; vdc version (0, 1 or 2)
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; indirect registers (default value, see $e179 in C128 kernal)
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vdcr_htotal = $00 ; 126 (127 for PAL, depends on kernal version) characters per line, minus one
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vdcr_columns = $01 ; 80 characters per line, actually displayed
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vdcr_hdisp = $01
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vdcr_hsync_pos = $02 ; 102 character position to send horizontal sync in
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vdcr_syncwidth = $03 ; $49 4b vertical, 4b horizontal
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vdcr_vtotal = $04 ; 32 (39 or 38 for PAL, depends on kernal version) character lines per screen, minus one
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vdcr_vadjust = $05 ; 0 additional scan lines per screen (to fix timings)
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vdcr_lines = $06 ; 25 character lines per screen, actually displayed
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vdcr_vdisp = $06
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vdcr_vsync_pos = $07 ; 29 (32 for PAL) character line to send vertical sync in
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vdcr_interlace = $08 ; 0 interlace mode (0=2=std, 1=jitter, 3=interlace)
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vdcr_charheight_total = $09 ; 7 5b total, minus one
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vdcr_crsr_start = $0a ; $20 2b mode, 5b scanline
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vdcr_CRSRSTART_MODE_MASK = %.##.....
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; vdcr_CRSRSTART_MODE_FIXED = %........ ; fixed cursor
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vdcr_CRSRSTART_MODE_OFF = %..#..... ; invisible
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vdcr_CRSRSTART_MODE_FAST = %.#...... ; flashing with 1/16 of refresh freq
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vdcr_CRSRSTART_MODE_SLOW = %.##..... ; flashing with 1/32 of refresh freq
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vdcr_crsr_end = $0b ; 7 5b scanline
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vdcr_display_hi = $0c ; 0 RAM address of display buffer
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vdcr_display_lo = $0d ; 0
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vdcr_crsr_hi = $0e ; 0 RAM address of cursor
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vdcr_crsr_lo = $0f ; 0
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vdcr_lp_y = $10 ; -- y position of light pen (lines, plus 1)
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vdcr_lp_x = $11 ; -- x position if light pen (characters, plus 8)
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vdcr_ram_hi = $12 ; -- RAM address of register $1f
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vdcr_ram_lo = $13 ; --
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vdcr_attr_hi = $14 ; $08 RAM address of attribute buffer
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vdcr_attr_lo = $15 ; $00
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vdcr_charwidth = $16 ; $78 4b total minus one, 4b displayed minus one
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vdcr_charheight_disp = $17 ; 8 5b displayed, minus one
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vdcr_control_v = $18 ; $20 vertical scroll and much other stuff
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vdcr_CONTROLV_BLOCKMODE_MASK = %#.......
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; vdcr_CONTROLV_BLOCKMODE_WRITE = %........
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vdcr_CONTROLV_BLOCKMODE_COPY = %#.......
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vdcr_CONTROLV_REVERSESCREEN = %.#......
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vdcr_CONTROLV_FLASHFREQ_MASK = %..#.....
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; vdcr_CONTROLV_FLASHFREQ_FAST = %........
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vdcr_CONTROLV_FLASHFREQ_SLOW = %..#.....
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vdcr_CONTROLV_UPSCROLL_MASK = %...#####
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vdcr_control_h = $19 ; $47 ($40 for vdc version 0) horizontal scroll and much other stuff
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vdcr_CONTROLH_MODE_MASK = %#.......
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; vdcr_CONTROLH_MODE_TEXT = %........
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vdcr_CONTROLH_MODE_BITMAP = %#.......
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vdcr_CONTROLH_ATTRIBUTES_MASK = %.#......
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; vdcr_CONTROLH_ATTRIBUTES_OFF = %........
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vdcr_CONTROLH_ATTRIBUTES_ON = %.#......
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vdcr_CONTROLH_SEMIGRAPHICS = %..#.....
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vdcr_CONTROLH_PIXELWIDTH_MASK = %...#....
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; vdcr_CONTROLH_PIXELWIDTH_NARROW = %........
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vdcr_CONTROLH_PIXELWIDTH_WIDE = %...#....
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vdcr_CONTROLH_LEFTSCROLL_MASK = %....####
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vdcr_color = $1a ; $f0 4b foreground, 4b background
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vdcr_COLOR_FOREGROUND_MASK = %####.... ; only used if attributes are off
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vdcr_COLOR_BACKGROUND_MASK = %....####
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vdcr_row_inc = $1b ; 0 address increment per row
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vdcr_charset = $1c ; $20 3b charset pointer, 1b RAM type, 4b unused
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vdcr_CHARSET_ADRESS_MASK = %###.....
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vdcr_CHARSET_RAMTYPE_MASK = %...#....
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; vdcr_CHARSET_RAMTYPE_16K = %........
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vdcr_CHARSET_RAMTYPE_64K = %...#....
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vdcr_underline = $1d ; 7 5b scanline
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vdcr_cycles = $1e ; -- number of write- or copy-cycles. 0 means 256.
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vdcr_access = $1f ; -- RAM content of address r$12/13
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vdcr_source_hi = $20 ; -- RAM address of cycle start
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vdcr_source_lo = $21 ; --
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vdcr_enable_start = $22 ; 125 column to enable display in
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vdcr_enable_end = $23 ; 100 column to disable display in
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vdcr_dram_refresh = $24 ; 5 RAM refresh rate (lower 4 bits)
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vdcr_sync_polarity = $25 ; -- only in VDC 8568
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vdcr_HSYNC_POLARITY = %#.......
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vdcr_VSYNC_POLARITY = %.#......
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!address {
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; the c128 ROMs contain look-up tables to convert vic color values to vdc color
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; values and vice-versa:
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; rom4_* needs "low rom area" enabled ($4000..$7fff)
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; rom8_* needs "middle rom area" enabled ($8000..$bfff)
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; romc_* needs "high rom area" enabled ($c000..$ffff)
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rom4_vic_to_vdc_color_table = $6a4c ; 00 0f 08 07 0b 04 02 0d 0a 0c 09 06 01 05 03 0e
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rom8_vdc_to_vic_color_table = $81f3 ; 00 0c 06 0e 05 0d 0b 03 02 0a 08 04 09 07 0f 01
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romc_vic_to_vdc_color_table = $ce5c ; 00 0f 08 07 0b 04 02 0d 0a 0c 09 06 01 05 03 0e
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}
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