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/* |
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* Copyright (C) 2003-2005 Anders Gavare. All rights reserved. |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions are met: |
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* |
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* 1. Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* 2. Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in the |
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* documentation and/or other materials provided with the distribution. |
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* 3. The name of the author may not be used to endorse or promote products |
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* derived from this software without specific prior written permission. |
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* |
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND |
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE |
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS |
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) |
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF |
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* SUCH DAMAGE. |
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* |
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* |
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* $Id: dev_fb.c,v 1.99 2005/06/26 13:49:06 debug Exp $ |
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* |
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* Generic framebuffer device. |
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* |
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* DECstation VFB01 monochrome framebuffer, 1024x864 |
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* DECstation VFB02 8-bit color framebuffer, 1024x864 |
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* DECstation Maxine, 1024x768 8-bit color |
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* HPCmips framebuffer |
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* Playstation 2 (24-bit color) |
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* generic (any resolution, several bit depths possible) |
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* |
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* |
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* TODO: There is still a bug when redrawing the cursor. The underlying |
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* image is moved 1 pixel (?), or something like that. |
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* |
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* TODO: This should actually be independant of X11, but that |
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* might be too hard to do right now. |
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* |
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* TODO: playstation 2 pixels are stored in another format, actually |
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*/ |
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|
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#include <stdio.h> |
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#include <stdlib.h> |
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#include <string.h> |
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|
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#include "console.h" |
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#include "cpu.h" |
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#include "devices.h" |
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#include "machine.h" |
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#include "memory.h" |
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#include "misc.h" |
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#include "x11.h" |
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|
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#ifdef WITH_X11 |
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#include <X11/Xlib.h> |
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#include <X11/Xos.h> |
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#include <X11/Xutil.h> |
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#endif |
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|
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|
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#define FB_TICK_SHIFT 18 |
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|
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#define LOGO_XSIZE 256 |
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#define LOGO_YSIZE 256 |
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#define LOGO_BOTTOM_MARGIN 60 |
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/* This must be a 256*256 pixels P4 ppm: */ |
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#include "fb_logo.c" |
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unsigned char *fb_logo = fb_logo_ppm + 11; |
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|
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|
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/* #define FB_DEBUG */ |
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|
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/* |
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* set_grayscale_palette(): |
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* |
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* Fill d->rgb_palette with grayscale values. ncolors should |
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* be something like 2, 4, 16, or 256. |
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*/ |
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void set_grayscale_palette(struct vfb_data *d, int ncolors) |
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{ |
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int i, gray; |
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|
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for (i=0; i<256; i++) { |
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gray = 255*i/(ncolors-1); |
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d->rgb_palette[i*3 + 0] = gray; |
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d->rgb_palette[i*3 + 1] = gray; |
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d->rgb_palette[i*3 + 2] = gray; |
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} |
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} |
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|
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|
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/* |
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* set_blackwhite_palette(): |
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* |
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* Set color 0 = black, all others to white. |
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*/ |
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void set_blackwhite_palette(struct vfb_data *d, int ncolors) |
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{ |
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int i, gray; |
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|
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for (i=0; i<256; i++) { |
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gray = i==0? 0 : 255; |
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d->rgb_palette[i*3 + 0] = gray; |
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d->rgb_palette[i*3 + 1] = gray; |
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d->rgb_palette[i*3 + 2] = gray; |
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} |
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} |
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|
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|
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/* |
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* dev_fb_resize(): |
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* |
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* Resize a framebuffer window. (This functionality is probably a bit buggy, |
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* because I didn't think of including it from the start.) |
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*/ |
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void dev_fb_resize(struct vfb_data *d, int new_xsize, int new_ysize) |
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{ |
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unsigned char *new_framebuffer; |
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int y, new_bytes_per_line; |
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size_t size; |
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|
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if (d == NULL) { |
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fatal("dev_fb_resize(): d == NULL\n"); |
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return; |
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} |
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|
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new_bytes_per_line = new_xsize * d->bit_depth / 8; |
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size = new_ysize * new_bytes_per_line; |
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|
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new_framebuffer = malloc(size); |
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if (new_framebuffer == NULL) { |
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fprintf(stderr, "dev_fb_resize(): out of memory\n"); |
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exit(1); |
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} |
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|
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/* Copy the old framebuffer to the new: */ |
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if (d->framebuffer != NULL) { |
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for (y=0; y<new_ysize; y++) { |
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size_t fromofs = d->bytes_per_line * y; |
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size_t toofs = new_bytes_per_line * y; |
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size_t len_to_copy = d->bytes_per_line < |
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new_bytes_per_line? d->bytes_per_line |
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: new_bytes_per_line; |
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memset(new_framebuffer + toofs, 0, new_bytes_per_line); |
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if (y < d->x11_ysize) |
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memmove(new_framebuffer + toofs, |
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d->framebuffer + fromofs, len_to_copy); |
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} |
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|
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free(d->framebuffer); |
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} |
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|
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d->framebuffer = new_framebuffer; |
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d->framebuffer_size = size; |
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|
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if (new_xsize > d->x11_xsize || new_ysize > d->x11_ysize) { |
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d->update_x1 = d->update_y1 = 0; |
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d->update_x2 = new_xsize - 1; |
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d->update_y2 = new_ysize - 1; |
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} |
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|
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d->bytes_per_line = new_bytes_per_line; |
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d->x11_xsize = d->visible_xsize = new_xsize; |
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d->x11_ysize = d->visible_ysize = new_ysize; |
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|
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#ifdef WITH_X11 |
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if (d->fb_window != NULL) |
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x11_fb_resize(d->fb_window, new_xsize, new_ysize); |
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#endif |
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} |
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|
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|
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/* |
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* dev_fb_setcursor(): |
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*/ |
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void dev_fb_setcursor(struct vfb_data *d, int cursor_x, int cursor_y, int on, |
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int cursor_xsize, int cursor_ysize) |
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{ |
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if (cursor_x < 0) |
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cursor_x = 0; |
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if (cursor_y < 0) |
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cursor_y = 0; |
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if (cursor_x + cursor_xsize >= d->xsize) |
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cursor_x = d->xsize - cursor_xsize; |
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if (cursor_y + cursor_ysize >= d->ysize) |
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cursor_y = d->ysize - cursor_ysize; |
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|
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#ifdef WITH_X11 |
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if (d->fb_window != NULL) { |
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d->fb_window->cursor_x = cursor_x; |
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d->fb_window->cursor_y = cursor_y; |
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d->fb_window->cursor_on = on; |
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d->fb_window->cursor_xsize = cursor_xsize; |
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d->fb_window->cursor_ysize = cursor_ysize; |
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} |
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#endif |
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|
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if (d->fb_window != NULL) |
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console_set_framebuffer_mouse(cursor_x, cursor_y, |
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d->fb_window->fb_number); |
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|
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/* debug("dev_fb_setcursor(%i,%i, size %i,%i, on=%i)\n", |
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cursor_x, cursor_y, cursor_xsize, cursor_ysize, on); */ |
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} |
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|
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|
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/* |
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* framebuffer_blockcopyfill(): |
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* |
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* This function should be used by devices that are capable of doing |
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* block copy/fill. |
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* |
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* If fillflag is non-zero, then fill_[rgb] should contain the color |
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* with which to fill. |
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* |
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* If fillflag is zero, copy mode is used, and from_[xy] should contain |
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* the offset on the framebuffer where we should copy from. |
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* |
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* NOTE: Overlapping copies are undefined! |
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*/ |
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void framebuffer_blockcopyfill(struct vfb_data *d, int fillflag, int fill_r, |
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int fill_g, int fill_b, int x1, int y1, int x2, int y2, |
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int from_x, int from_y) |
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{ |
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int y; |
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long from_ofs, dest_ofs, linelen; |
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|
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if (fillflag) |
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debug("framebuffer_blockcopyfill(FILL, %i,%i, %i,%i, " |
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"color %i,%i,%i)\n", x1,y1, x2,y2, fill_r, fill_g, fill_b); |
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else |
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debug("framebuffer_blockcopyfill(COPY, %i,%i, %i,%i, from " |
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"%i,%i)\n", x1,y1, x2,y2, from_x,from_y); |
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|
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/* Clip x: */ |
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if (x1 < 0) x1 = 0; |
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if (x1 >= d->xsize) x1 = d->xsize-1; |
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if (x2 < 0) x2 = 0; |
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if (x2 >= d->xsize) x2 = d->xsize-1; |
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|
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dest_ofs = d->bytes_per_line * y1 + (d->bit_depth/8) * x1; |
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linelen = (x2-x1 + 1) * (d->bit_depth/8); |
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/* NOTE: linelen is nr of bytes, not pixels */ |
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|
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if (fillflag) { |
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for (y=y1; y<=y2; y++) { |
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if (y>=0 && y<d->ysize) { |
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int x; |
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char buf[8192 * 3]; |
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if (d->bit_depth == 24) |
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for (x=0; x<linelen; x+=3) { |
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buf[x] = fill_r; |
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buf[x+1] = fill_g; |
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buf[x+2] = fill_b; |
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} |
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else |
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printf("TODO: fill for non-24-bit" |
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" modes\n"); |
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|
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memmove(d->framebuffer + dest_ofs, buf, |
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linelen); |
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} |
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|
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dest_ofs += d->bytes_per_line; |
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} |
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} else { |
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from_ofs = d->bytes_per_line * from_y + |
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(d->bit_depth/8) * from_x; |
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|
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for (y=y1; y<=y2; y++) { |
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if (y>=0 && y<d->ysize) |
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memmove(d->framebuffer + dest_ofs, |
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d->framebuffer + from_ofs, linelen); |
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|
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from_ofs += d->bytes_per_line; |
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dest_ofs += d->bytes_per_line; |
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} |
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} |
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|
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if (x1 < d->update_x1 || d->update_x1 == -1) d->update_x1 = x1; |
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if (x1 > d->update_x2 || d->update_x2 == -1) d->update_x2 = x1; |
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if (x2 < d->update_x1 || d->update_x1 == -1) d->update_x1 = x2; |
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if (x2 > d->update_x2 || d->update_x2 == -1) d->update_x2 = x2; |
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|
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if (y1 < d->update_y1 || d->update_y1 == -1) d->update_y1 = y1; |
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if (y1 > d->update_y2 || d->update_y2 == -1) d->update_y2 = y1; |
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if (y2 < d->update_y1 || d->update_y1 == -1) d->update_y1 = y2; |
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if (y2 > d->update_y2 || d->update_y2 == -1) d->update_y2 = y2; |
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} |
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|
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|
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#ifdef WITH_X11 |
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#define macro_put_pixel() { \ |
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/* Combine the color into an X11 long and display it: */ \ |
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/* TODO: construct color in a more portable way: */ \ |
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switch (d->fb_window->x11_screen_depth) { \ |
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case 24: \ |
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if (d->fb_window->fb_ximage->byte_order) \ |
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color = (b << 16) + (g << 8) + r; \ |
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else \ |
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color = (r << 16) + (g << 8) + b; \ |
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break; \ |
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case 16: \ |
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r >>= 3; g >>= 2; b >>= 3; \ |
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if (d->fb_window->fb_ximage->byte_order) { \ |
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/* Big endian 16-bit X server: */ \ |
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static int first = 1; \ |
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if (first) { \ |
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fprintf(stderr, "\n*** Please report to the author whether 16-bit X11 colors are rendered correctly or not!\n\n"); \ |
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first = 0; \ |
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} \ |
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color = (b << 11) + (g << 5) + r; \ |
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} else { \ |
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/* Little endian (eg PC) X servers: */ \ |
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color = (r << 11) + (g << 5) + b; \ |
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} \ |
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break; \ |
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case 15: \ |
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r >>= 3; g >>= 3; b >>= 3; \ |
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if (d->fb_window->fb_ximage->byte_order) { \ |
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/* Big endian 15-bit X server: */ \ |
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static int first = 1; \ |
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if (first) { \ |
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fprintf(stderr, "\n*** Please report to the author whether 15-bit X11 colors are rendered correctly or not!\n\n"); \ |
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first = 0; \ |
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} \ |
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color = (b << 10) + (g << 5) + r; \ |
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} else { \ |
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/* Little endian (eg PC) X servers: */ \ |
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color = (r << 10) + (g << 5) + b; \ |
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} \ |
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break; \ |
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default: \ |
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color = d->fb_window->x11_graycolor[15 * (r + g + b) / (255 * 3)].pixel; \ |
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} \ |
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if (x>=0 && x<d->x11_xsize && y>=0 && y<d->x11_ysize) \ |
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XPutPixel(d->fb_window->fb_ximage, x, y, color); \ |
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} |
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#else |
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/* If not WITH_X11: */ |
348 |
#define macro_put_pixel() { } |
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#endif |
350 |
|
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|
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/* |
353 |
* update_framebuffer(): |
354 |
* |
355 |
* The framebuffer memory has been updated. This function tries to make |
356 |
* sure that the XImage is also updated (1 or more pixels). |
357 |
*/ |
358 |
void update_framebuffer(struct vfb_data *d, int addr, int len) |
359 |
{ |
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int x, y, pixel, npixels; |
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long color_r, color_g, color_b; |
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#ifdef WITH_X11 |
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long color; |
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#endif |
365 |
int scaledown = d->vfb_scaledown; |
366 |
int scaledownXscaledown = 1; |
367 |
|
368 |
if (scaledown == 1) { |
369 |
/* Which framebuffer pixel does addr correspond to? */ |
370 |
pixel = addr * 8 / d->bit_depth; |
371 |
y = pixel / d->xsize; |
372 |
x = pixel % d->xsize; |
373 |
|
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/* How many framebuffer pixels? */ |
375 |
npixels = len * 8 / d->bit_depth; |
376 |
if (npixels == 0) |
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npixels = 1; |
378 |
|
379 |
if (d->bit_depth < 8) { |
380 |
for (pixel=0; pixel<npixels; pixel++) { |
381 |
int fb_addr, c, r, g, b; |
382 |
color_r = color_g = color_b = 0; |
383 |
|
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fb_addr = (y * d->xsize + x) * d->bit_depth; |
385 |
/* fb_addr is now which _bit_ in |
386 |
the framebuffer */ |
387 |
|
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c = d->framebuffer[fb_addr >> 3]; |
389 |
fb_addr &= 7; |
390 |
|
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/* HPCmips is reverse: */ |
392 |
if (d->vfb_type == VFB_HPCMIPS) |
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fb_addr = 8 - d->bit_depth - fb_addr; |
394 |
|
395 |
c = (c >> fb_addr) & ((1<<d->bit_depth) - 1); |
396 |
/* c <<= (8 - d->bit_depth); */ |
397 |
|
398 |
r = d->rgb_palette[c*3 + 0]; |
399 |
g = d->rgb_palette[c*3 + 1]; |
400 |
b = d->rgb_palette[c*3 + 2]; |
401 |
|
402 |
macro_put_pixel(); |
403 |
x++; |
404 |
} |
405 |
} else if (d->bit_depth == 8) { |
406 |
for (pixel=0; pixel<npixels; pixel++) { |
407 |
int fb_addr, c, r, g, b; |
408 |
color_r = color_g = color_b = 0; |
409 |
|
410 |
fb_addr = y * d->xsize + x; |
411 |
/* fb_addr is now which byte in framebuffer */ |
412 |
c = d->framebuffer[fb_addr]; |
413 |
r = d->rgb_palette[c*3 + 0]; |
414 |
g = d->rgb_palette[c*3 + 1]; |
415 |
b = d->rgb_palette[c*3 + 2]; |
416 |
|
417 |
macro_put_pixel(); |
418 |
x++; |
419 |
} |
420 |
} else { /* d->bit_depth > 8 */ |
421 |
for (pixel=0; pixel<npixels; pixel++) { |
422 |
int fb_addr, r, g, b; |
423 |
color_r = color_g = color_b = 0; |
424 |
|
425 |
fb_addr = (y * d->xsize + x) * d->bit_depth; |
426 |
/* fb_addr is now which byte in framebuffer */ |
427 |
|
428 |
/* > 8 bits color. */ |
429 |
fb_addr >>= 3; |
430 |
switch (d->bit_depth) { |
431 |
case 24: |
432 |
r = d->framebuffer[fb_addr]; |
433 |
g = d->framebuffer[fb_addr + 1]; |
434 |
b = d->framebuffer[fb_addr + 2]; |
435 |
break; |
436 |
/* TODO: copy to the scaledown code below */ |
437 |
case 16: |
438 |
if (d->vfb_type == VFB_HPCMIPS) { |
439 |
b = d->framebuffer[fb_addr] + |
440 |
(d->framebuffer[fb_addr+1] << 8); |
441 |
|
442 |
if (d->color32k) { |
443 |
r = b >> 11; |
444 |
g = b >> 5; |
445 |
r = r & 31; |
446 |
g = (g & 31) * 2; |
447 |
b = b & 31; |
448 |
} else if (d->psp_15bit) { |
449 |
int tmp; |
450 |
r = (b >> 10) & 0x1f; |
451 |
g = (b >> 5) & 0x1f; |
452 |
b = b & 0x1f; |
453 |
g <<= 1; |
454 |
tmp = r; r = b; b = tmp; |
455 |
} else { |
456 |
r = (b >> 11) & 0x1f; |
457 |
g = (b >> 5) & 0x3f; |
458 |
b = b & 0x1f; |
459 |
} |
460 |
} else { |
461 |
r = d->framebuffer[fb_addr] >> 3; |
462 |
g = (d->framebuffer[fb_addr] << 5) + |
463 |
(d->framebuffer[fb_addr + 1] >> 5); |
464 |
b = d->framebuffer[fb_addr + 1] & 0x1f; |
465 |
} |
466 |
|
467 |
r *= 8; |
468 |
g *= 4; |
469 |
b *= 8; |
470 |
break; |
471 |
default: |
472 |
r = g = b = random() & 255; |
473 |
} |
474 |
|
475 |
macro_put_pixel(); |
476 |
x++; |
477 |
} |
478 |
} |
479 |
|
480 |
return; |
481 |
} |
482 |
|
483 |
/* scaledown != 1: */ |
484 |
|
485 |
scaledown = d->vfb_scaledown; |
486 |
scaledownXscaledown = scaledown * scaledown; |
487 |
|
488 |
/* Which framebuffer pixel does addr correspond to? */ |
489 |
pixel = addr * 8 / d->bit_depth; |
490 |
y = pixel / d->xsize; |
491 |
x = pixel % d->xsize; |
492 |
|
493 |
/* How many framebuffer pixels? */ |
494 |
npixels = len * 8 / d->bit_depth; |
495 |
|
496 |
/* Which x11 pixel? */ |
497 |
x /= scaledown; |
498 |
y /= scaledown; |
499 |
|
500 |
/* How many x11 pixels: */ |
501 |
npixels /= scaledown; |
502 |
if (npixels == 0) |
503 |
npixels = 1; |
504 |
|
505 |
if (d->bit_depth < 8) { |
506 |
for (pixel=0; pixel<npixels; pixel++) { |
507 |
int subx, suby, r, g, b; |
508 |
color_r = color_g = color_b = 0; |
509 |
for (suby=0; suby<scaledown; suby++) |
510 |
for (subx=0; subx<scaledown; subx++) { |
511 |
int fb_x, fb_y, fb_addr, c; |
512 |
|
513 |
fb_x = x * scaledown + subx; |
514 |
fb_y = y * scaledown + suby; |
515 |
fb_addr = fb_y * d->xsize + fb_x; |
516 |
fb_addr = fb_addr * d->bit_depth; |
517 |
/* fb_addr is now which _bit_ in |
518 |
the framebuffer */ |
519 |
|
520 |
c = d->framebuffer[fb_addr >> 3]; |
521 |
fb_addr &= 7; |
522 |
|
523 |
/* HPCmips is reverse: */ |
524 |
if (d->vfb_type == VFB_HPCMIPS) |
525 |
fb_addr = 8 - d->bit_depth - fb_addr; |
526 |
|
527 |
c = (c >> fb_addr) & ((1<<d->bit_depth) - 1); |
528 |
/* c <<= (8 - d->bit_depth); */ |
529 |
|
530 |
r = d->rgb_palette[c*3 + 0]; |
531 |
g = d->rgb_palette[c*3 + 1]; |
532 |
b = d->rgb_palette[c*3 + 2]; |
533 |
|
534 |
color_r += r; |
535 |
color_g += g; |
536 |
color_b += b; |
537 |
} |
538 |
|
539 |
r = color_r / scaledownXscaledown; |
540 |
g = color_g / scaledownXscaledown; |
541 |
b = color_b / scaledownXscaledown; |
542 |
macro_put_pixel(); |
543 |
x++; |
544 |
} |
545 |
} else if (d->bit_depth == 8) { |
546 |
for (pixel=0; pixel<npixels; pixel++) { |
547 |
int subx, suby, r, g, b; |
548 |
color_r = color_g = color_b = 0; |
549 |
for (suby=0; suby<scaledown; suby++) |
550 |
for (subx=0; subx<scaledown; subx++) { |
551 |
int fb_x, fb_y, fb_addr, c; |
552 |
|
553 |
fb_x = x * scaledown + subx; |
554 |
fb_y = y * scaledown + suby; |
555 |
fb_addr = fb_y * d->xsize + fb_x; |
556 |
/* fb_addr is which _byte_ in framebuffer */ |
557 |
c = d->framebuffer[fb_addr] * 3; |
558 |
r = d->rgb_palette[c + 0]; |
559 |
g = d->rgb_palette[c + 1]; |
560 |
b = d->rgb_palette[c + 2]; |
561 |
color_r += r; |
562 |
color_g += g; |
563 |
color_b += b; |
564 |
} |
565 |
|
566 |
r = color_r / scaledownXscaledown; |
567 |
g = color_g / scaledownXscaledown; |
568 |
b = color_b / scaledownXscaledown; |
569 |
macro_put_pixel(); |
570 |
x++; |
571 |
} |
572 |
} else { |
573 |
/* Generic > 8 bit bit-depth: */ |
574 |
for (pixel=0; pixel<npixels; pixel++) { |
575 |
int subx, suby, r, g, b; |
576 |
color_r = color_g = color_b = 0; |
577 |
for (suby=0; suby<scaledown; suby++) |
578 |
for (subx=0; subx<scaledown; subx++) { |
579 |
int fb_x, fb_y, fb_addr; |
580 |
|
581 |
fb_x = x * scaledown + subx; |
582 |
fb_y = y * scaledown + suby; |
583 |
fb_addr = fb_y * d->xsize + fb_x; |
584 |
fb_addr = (fb_addr * d->bit_depth) >> 3; |
585 |
/* fb_addr is which _byte_ in framebuffer */ |
586 |
|
587 |
/* > 8 bits color. */ |
588 |
switch (d->bit_depth) { |
589 |
case 24: |
590 |
r = d->framebuffer[fb_addr]; |
591 |
g = d->framebuffer[fb_addr + 1]; |
592 |
b = d->framebuffer[fb_addr + 2]; |
593 |
break; |
594 |
default: |
595 |
r = g = b = random() & 255; |
596 |
} |
597 |
color_r += r; |
598 |
color_g += g; |
599 |
color_b += b; |
600 |
} |
601 |
r = color_r / scaledownXscaledown; |
602 |
g = color_g / scaledownXscaledown; |
603 |
b = color_b / scaledownXscaledown; |
604 |
macro_put_pixel(); |
605 |
x++; |
606 |
} |
607 |
} |
608 |
} |
609 |
|
610 |
|
611 |
/* |
612 |
* dev_fb_tick(): |
613 |
* |
614 |
*/ |
615 |
void dev_fb_tick(struct cpu *cpu, void *extra) |
616 |
{ |
617 |
struct vfb_data *d = extra; |
618 |
#ifdef WITH_X11 |
619 |
int need_to_flush_x11 = 0; |
620 |
int need_to_redraw_cursor = 0; |
621 |
#endif |
622 |
|
623 |
if (!cpu->machine->use_x11) |
624 |
return; |
625 |
|
626 |
#ifdef BINTRANS |
627 |
do { |
628 |
uint64_t low = -1, high; |
629 |
int x, y; |
630 |
|
631 |
memory_device_bintrans_access(cpu, cpu->mem, |
632 |
extra, &low, &high); |
633 |
if ((int64_t)low == -1) |
634 |
break; |
635 |
|
636 |
/* printf("low=%016llx high=%016llx\n", |
637 |
(long long)low, (long long)high); */ |
638 |
|
639 |
x = (low % d->bytes_per_line) * 8 / d->bit_depth; |
640 |
y = low / d->bytes_per_line; |
641 |
if (x < d->update_x1 || d->update_x1 == -1) |
642 |
d->update_x1 = x; |
643 |
if (x > d->update_x2 || d->update_x2 == -1) |
644 |
d->update_x2 = x; |
645 |
if (y < d->update_y1 || d->update_y1 == -1) |
646 |
d->update_y1 = y; |
647 |
if (y > d->update_y2 || d->update_y2 == -1) |
648 |
d->update_y2 = y; |
649 |
|
650 |
x = ((low+7) % d->bytes_per_line) * 8 / d->bit_depth; |
651 |
y = (low+7) / d->bytes_per_line; |
652 |
if (x < d->update_x1 || d->update_x1 == -1) |
653 |
d->update_x1 = x; |
654 |
if (x > d->update_x2 || d->update_x2 == -1) |
655 |
d->update_x2 = x; |
656 |
if (y < d->update_y1 || d->update_y1 == -1) |
657 |
d->update_y1 = y; |
658 |
if (y > d->update_y2 || d->update_y2 == -1) |
659 |
d->update_y2 = y; |
660 |
|
661 |
x = (high % d->bytes_per_line) * 8 / d->bit_depth; |
662 |
y = high / d->bytes_per_line; |
663 |
if (x < d->update_x1 || d->update_x1 == -1) |
664 |
d->update_x1 = x; |
665 |
if (x > d->update_x2 || d->update_x2 == -1) |
666 |
d->update_x2 = x; |
667 |
if (y < d->update_y1 || d->update_y1 == -1) |
668 |
d->update_y1 = y; |
669 |
if (y > d->update_y2 || d->update_y2 == -1) |
670 |
d->update_y2 = y; |
671 |
|
672 |
x = ((high+7) % d->bytes_per_line) * 8 / d->bit_depth; |
673 |
y = (high+7) / d->bytes_per_line; |
674 |
if (x < d->update_x1 || d->update_x1 == -1) |
675 |
d->update_x1 = x; |
676 |
if (x > d->update_x2 || d->update_x2 == -1) |
677 |
d->update_x2 = x; |
678 |
if (y < d->update_y1 || d->update_y1 == -1) |
679 |
d->update_y1 = y; |
680 |
if (y > d->update_y2 || d->update_y2 == -1) |
681 |
d->update_y2 = y; |
682 |
|
683 |
/* |
684 |
* An update covering more than one line will automatically |
685 |
* force an update of all the affected lines: |
686 |
*/ |
687 |
if (d->update_y1 != d->update_y2) { |
688 |
d->update_x1 = 0; |
689 |
d->update_x2 = d->xsize-1; |
690 |
} |
691 |
} while (0); |
692 |
#endif |
693 |
|
694 |
#ifdef WITH_X11 |
695 |
/* Do we need to redraw the cursor? */ |
696 |
if (d->fb_window->cursor_on != d->fb_window->OLD_cursor_on || |
697 |
d->fb_window->cursor_x != d->fb_window->OLD_cursor_x || |
698 |
d->fb_window->cursor_y != d->fb_window->OLD_cursor_y || |
699 |
d->fb_window->cursor_xsize != d->fb_window->OLD_cursor_xsize || |
700 |
d->fb_window->cursor_ysize != d->fb_window->OLD_cursor_ysize) |
701 |
need_to_redraw_cursor = 1; |
702 |
|
703 |
if (d->update_x2 != -1) { |
704 |
if ( (d->update_x1 >= d->fb_window->OLD_cursor_x && |
705 |
d->update_x1 < (d->fb_window->OLD_cursor_x + d->fb_window->OLD_cursor_xsize)) || |
706 |
(d->update_x2 >= d->fb_window->OLD_cursor_x && |
707 |
d->update_x2 < (d->fb_window->OLD_cursor_x + d->fb_window->OLD_cursor_xsize)) || |
708 |
(d->update_x1 < d->fb_window->OLD_cursor_x && |
709 |
d->update_x2 >= (d->fb_window->OLD_cursor_x + d->fb_window->OLD_cursor_xsize)) ) { |
710 |
if ( (d->update_y1 >= d->fb_window->OLD_cursor_y && |
711 |
d->update_y1 < (d->fb_window->OLD_cursor_y + d->fb_window->OLD_cursor_ysize)) || |
712 |
(d->update_y2 >= d->fb_window->OLD_cursor_y && |
713 |
d->update_y2 < (d->fb_window->OLD_cursor_y + d->fb_window->OLD_cursor_ysize)) || |
714 |
(d->update_y1 < d->fb_window->OLD_cursor_y && |
715 |
d->update_y2 >= (d->fb_window->OLD_cursor_y + d->fb_window->OLD_cursor_ysize)) ) |
716 |
need_to_redraw_cursor = 1; |
717 |
} |
718 |
} |
719 |
|
720 |
if (need_to_redraw_cursor) { |
721 |
/* Remove old cursor, if any: */ |
722 |
if (d->fb_window->OLD_cursor_on) { |
723 |
XPutImage(d->fb_window->x11_display, |
724 |
d->fb_window->x11_fb_window, |
725 |
d->fb_window->x11_fb_gc, d->fb_window->fb_ximage, |
726 |
d->fb_window->OLD_cursor_x/d->vfb_scaledown, |
727 |
d->fb_window->OLD_cursor_y/d->vfb_scaledown, |
728 |
d->fb_window->OLD_cursor_x/d->vfb_scaledown, |
729 |
d->fb_window->OLD_cursor_y/d->vfb_scaledown, |
730 |
d->fb_window->OLD_cursor_xsize/d->vfb_scaledown + 1, |
731 |
d->fb_window->OLD_cursor_ysize/d->vfb_scaledown + 1); |
732 |
} |
733 |
} |
734 |
#endif |
735 |
|
736 |
if (d->update_x2 != -1) { |
737 |
int y, addr, addr2, q = d->vfb_scaledown; |
738 |
|
739 |
if (d->update_x1 >= d->visible_xsize) d->update_x1 = d->visible_xsize - 1; |
740 |
if (d->update_x2 >= d->visible_xsize) d->update_x2 = d->visible_xsize - 1; |
741 |
if (d->update_y1 >= d->visible_ysize) d->update_y1 = d->visible_ysize - 1; |
742 |
if (d->update_y2 >= d->visible_ysize) d->update_y2 = d->visible_ysize - 1; |
743 |
|
744 |
/* Without these, we might miss the right most / bottom pixel: */ |
745 |
d->update_x2 += (q - 1); |
746 |
d->update_y2 += (q - 1); |
747 |
|
748 |
d->update_x1 = d->update_x1 / q * q; |
749 |
d->update_x2 = d->update_x2 / q * q; |
750 |
d->update_y1 = d->update_y1 / q * q; |
751 |
d->update_y2 = d->update_y2 / q * q; |
752 |
|
753 |
addr = d->update_y1 * d->bytes_per_line + d->update_x1 * d->bit_depth / 8; |
754 |
addr2 = d->update_y1 * d->bytes_per_line + d->update_x2 * d->bit_depth / 8; |
755 |
|
756 |
for (y=d->update_y1; y<=d->update_y2; y+=q) { |
757 |
update_framebuffer(d, addr, addr2 - addr); |
758 |
addr += d->bytes_per_line * q; |
759 |
addr2 += d->bytes_per_line * q; |
760 |
} |
761 |
|
762 |
#ifdef WITH_X11 |
763 |
XPutImage(d->fb_window->x11_display, d->fb_window->x11_fb_window, d->fb_window->x11_fb_gc, d->fb_window->fb_ximage, |
764 |
d->update_x1/d->vfb_scaledown, d->update_y1/d->vfb_scaledown, |
765 |
d->update_x1/d->vfb_scaledown, d->update_y1/d->vfb_scaledown, |
766 |
(d->update_x2 - d->update_x1)/d->vfb_scaledown + 1, |
767 |
(d->update_y2 - d->update_y1)/d->vfb_scaledown + 1); |
768 |
|
769 |
need_to_flush_x11 = 1; |
770 |
#endif |
771 |
|
772 |
d->update_x1 = d->update_y1 = 99999; |
773 |
d->update_x2 = d->update_y2 = -1; |
774 |
} |
775 |
|
776 |
#ifdef WITH_X11 |
777 |
if (need_to_redraw_cursor) { |
778 |
/* Paint new cursor: */ |
779 |
if (d->fb_window->cursor_on) { |
780 |
x11_redraw_cursor(cpu->machine, d->fb_window->fb_number); |
781 |
d->fb_window->OLD_cursor_on = d->fb_window->cursor_on; |
782 |
d->fb_window->OLD_cursor_x = d->fb_window->cursor_x; |
783 |
d->fb_window->OLD_cursor_y = d->fb_window->cursor_y; |
784 |
d->fb_window->OLD_cursor_xsize = d->fb_window->cursor_xsize; |
785 |
d->fb_window->OLD_cursor_ysize = d->fb_window->cursor_ysize; |
786 |
} |
787 |
} |
788 |
#endif |
789 |
|
790 |
#ifdef WITH_X11 |
791 |
if (need_to_flush_x11) |
792 |
XFlush(d->fb_window->x11_display); |
793 |
#endif |
794 |
} |
795 |
|
796 |
|
797 |
/* |
798 |
* dev_fb_access(): |
799 |
*/ |
800 |
int dev_fb_access(struct cpu *cpu, struct memory *mem, |
801 |
uint64_t relative_addr, unsigned char *data, size_t len, |
802 |
int writeflag, void *extra) |
803 |
{ |
804 |
struct vfb_data *d = extra; |
805 |
int i; |
806 |
|
807 |
#ifdef FB_DEBUG |
808 |
if (writeflag == MEM_WRITE) { if (data[0]) { |
809 |
fatal("[ dev_fb: write to addr=%08lx, data = ", |
810 |
(long)relative_addr); |
811 |
for (i=0; i<len; i++) |
812 |
fatal("%02x ", data[i]); |
813 |
fatal("]\n"); |
814 |
} else { |
815 |
fatal("[ dev_fb: read from addr=%08lx, data = ", |
816 |
(long)relative_addr); |
817 |
for (i=0; i<len; i++) |
818 |
fatal("%02x ", d->framebuffer[relative_addr + i]); |
819 |
fatal("]\n"); |
820 |
} |
821 |
#endif |
822 |
|
823 |
if (relative_addr >= d->framebuffer_size) |
824 |
return 0; |
825 |
|
826 |
/* See if a write actually modifies the framebuffer contents: */ |
827 |
if (writeflag == MEM_WRITE) { |
828 |
for (i=0; i<len; i++) { |
829 |
if (data[i] != d->framebuffer[relative_addr + i]) |
830 |
break; |
831 |
|
832 |
/* If all bytes are equal to what is already stored |
833 |
in the framebuffer, then simply return: */ |
834 |
if (i==len-1) |
835 |
return 1; |
836 |
} |
837 |
} |
838 |
|
839 |
/* |
840 |
* If the framebuffer is modified, then we should keep a track |
841 |
* of which area(s) we modify, so that the display isn't updated |
842 |
* unnecessarily. |
843 |
*/ |
844 |
if (writeflag == MEM_WRITE && cpu->machine->use_x11) { |
845 |
int x, y, x2,y2; |
846 |
|
847 |
x = (relative_addr % d->bytes_per_line) * 8 / d->bit_depth; |
848 |
y = relative_addr / d->bytes_per_line; |
849 |
x2 = ((relative_addr + len) % d->bytes_per_line) |
850 |
* 8 / d->bit_depth; |
851 |
y2 = (relative_addr + len) / d->bytes_per_line; |
852 |
|
853 |
if (x < d->update_x1 || d->update_x1 == -1) |
854 |
d->update_x1 = x; |
855 |
if (x > d->update_x2 || d->update_x2 == -1) |
856 |
d->update_x2 = x; |
857 |
|
858 |
if (y < d->update_y1 || d->update_y1 == -1) |
859 |
d->update_y1 = y; |
860 |
if (y > d->update_y2 || d->update_y2 == -1) |
861 |
d->update_y2 = y; |
862 |
|
863 |
if (x2 < d->update_x1 || d->update_x1 == -1) |
864 |
d->update_x1 = x2; |
865 |
if (x2 > d->update_x2 || d->update_x2 == -1) |
866 |
d->update_x2 = x2; |
867 |
|
868 |
if (y2 < d->update_y1 || d->update_y1 == -1) |
869 |
d->update_y1 = y2; |
870 |
if (y2 > d->update_y2 || d->update_y2 == -1) |
871 |
d->update_y2 = y2; |
872 |
|
873 |
/* |
874 |
* An update covering more than one line will automatically |
875 |
* force an update of all the affected lines: |
876 |
*/ |
877 |
if (y != y2) { |
878 |
d->update_x1 = 0; |
879 |
d->update_x2 = d->xsize-1; |
880 |
} |
881 |
} |
882 |
|
883 |
/* |
884 |
* Read from/write to the framebuffer: |
885 |
* (TODO: take the color_plane_mask into account) |
886 |
* |
887 |
* Calling memcpy() is probably overkill, as it usually is just one |
888 |
* or a few bytes that are read/written at a time. |
889 |
*/ |
890 |
if (writeflag == MEM_WRITE) { |
891 |
if (len > 8) |
892 |
memcpy(d->framebuffer + relative_addr, data, len); |
893 |
else |
894 |
for (i=0; i<len; i++) |
895 |
d->framebuffer[relative_addr + i] = data[i]; |
896 |
} else { |
897 |
if (len > 8) |
898 |
memcpy(data, d->framebuffer + relative_addr, len); |
899 |
else |
900 |
for (i=0; i<len; i++) |
901 |
data[i] = d->framebuffer[relative_addr + i]; |
902 |
} |
903 |
|
904 |
return 1; |
905 |
} |
906 |
|
907 |
|
908 |
/* |
909 |
* dev_fb_init(): |
910 |
* |
911 |
* This function is big and ugly, but the point is to initialize a framebuffer |
912 |
* device. :-) |
913 |
* |
914 |
* visible_xsize and visible_ysize are the sizes of the visible display area. |
915 |
* xsize and ysize tell how much memory is actually allocated (for example |
916 |
* visible_xsize could be 640, but xsize could be 1024, for better alignment). |
917 |
* |
918 |
* vfb_type is useful for selecting special features. |
919 |
* |
920 |
* type = VFB_GENERIC is the most useful type, especially when bit_depth = 24. |
921 |
* |
922 |
* VFB_DEC_VFB01, _VFB02, and VFB_DEC_MAXINE are DECstation specific. |
923 |
* |
924 |
* If type is VFB_HPCMIPS, then color encoding differs from the generic case. |
925 |
* |
926 |
* If bit_depth = -15 (note the minus sign), then a special hack is used for |
927 |
* the Playstation Portable's 5-bit R, 5-bit G, 5-bit B. |
928 |
*/ |
929 |
struct vfb_data *dev_fb_init(struct machine *machine, struct memory *mem, |
930 |
uint64_t baseaddr, int vfb_type, int visible_xsize, int visible_ysize, |
931 |
int xsize, int ysize, int bit_depth, char *name, int logo) |
932 |
{ |
933 |
struct vfb_data *d; |
934 |
size_t size, nlen; |
935 |
int x, y, flags; |
936 |
char title[400]; |
937 |
char *name2; |
938 |
|
939 |
d = malloc(sizeof(struct vfb_data)); |
940 |
if (d == NULL) { |
941 |
fprintf(stderr, "out of memory\n"); |
942 |
exit(1); |
943 |
} |
944 |
memset(d, 0, sizeof(struct vfb_data)); |
945 |
|
946 |
d->vfb_type = vfb_type; |
947 |
|
948 |
/* Defaults: */ |
949 |
d->xsize = xsize; d->visible_xsize = visible_xsize; |
950 |
d->ysize = ysize; d->visible_ysize = visible_ysize; |
951 |
|
952 |
d->bit_depth = bit_depth; |
953 |
|
954 |
if (bit_depth == 15) { |
955 |
d->color32k = 1; |
956 |
bit_depth = d->bit_depth = 16; |
957 |
} else if (bit_depth == -15) { |
958 |
d->psp_15bit = 1; |
959 |
bit_depth = d->bit_depth = 16; |
960 |
} |
961 |
|
962 |
/* Specific types: */ |
963 |
switch (vfb_type) { |
964 |
case VFB_DEC_VFB01: |
965 |
/* DECstation VFB01 (monochrome) */ |
966 |
d->xsize = 2048; d->visible_xsize = 1024; |
967 |
d->ysize = 1024; d->visible_ysize = 864; |
968 |
d->bit_depth = 1; |
969 |
break; |
970 |
case VFB_DEC_VFB02: |
971 |
/* DECstation VFB02 (color) */ |
972 |
d->xsize = 1024; d->visible_xsize = 1024; |
973 |
d->ysize = 1024; d->visible_ysize = 864; |
974 |
d->bit_depth = 8; |
975 |
break; |
976 |
case VFB_DEC_MAXINE: |
977 |
/* DECstation Maxine (1024x768x8) */ |
978 |
d->xsize = 1024; d->visible_xsize = d->xsize; |
979 |
d->ysize = 768; d->visible_ysize = d->ysize; |
980 |
d->bit_depth = 8; |
981 |
break; |
982 |
case VFB_PLAYSTATION2: |
983 |
/* Playstation 2 */ |
984 |
d->xsize = xsize; d->visible_xsize = d->xsize; |
985 |
d->ysize = ysize; d->visible_ysize = d->ysize; |
986 |
d->bit_depth = 24; |
987 |
break; |
988 |
default: |
989 |
; |
990 |
} |
991 |
|
992 |
if (d->bit_depth == 2 || d->bit_depth == 4) |
993 |
set_grayscale_palette(d, 1 << d->bit_depth); |
994 |
else if (d->bit_depth == 8 || d->bit_depth == 1) |
995 |
set_blackwhite_palette(d, 1 << d->bit_depth); |
996 |
|
997 |
d->vfb_scaledown = machine->x11_scaledown; |
998 |
|
999 |
d->bytes_per_line = d->xsize * d->bit_depth / 8; |
1000 |
size = d->ysize * d->bytes_per_line; |
1001 |
|
1002 |
d->framebuffer = malloc(size); |
1003 |
if (d->framebuffer == NULL) { |
1004 |
fprintf(stderr, "out of memory\n"); |
1005 |
exit(1); |
1006 |
} |
1007 |
|
1008 |
/* Clear the framebuffer (all black pixels): */ |
1009 |
d->framebuffer_size = size; |
1010 |
memset(d->framebuffer, 0, size); |
1011 |
|
1012 |
d->x11_xsize = d->visible_xsize / d->vfb_scaledown; |
1013 |
d->x11_ysize = d->visible_ysize / d->vfb_scaledown; |
1014 |
|
1015 |
d->update_x1 = d->update_y1 = 99999; |
1016 |
d->update_x2 = d->update_y2 = -1; |
1017 |
|
1018 |
|
1019 |
/* A nice bootup logo: */ |
1020 |
if (logo) { |
1021 |
int logo_bottom_margin = LOGO_BOTTOM_MARGIN; |
1022 |
|
1023 |
d->update_x1 = 0; |
1024 |
d->update_x2 = LOGO_XSIZE-1; |
1025 |
d->update_y1 = d->visible_ysize-LOGO_YSIZE-logo_bottom_margin; |
1026 |
d->update_y2 = d->visible_ysize-logo_bottom_margin; |
1027 |
for (y=0; y<LOGO_YSIZE; y++) |
1028 |
for (x=0; x<LOGO_XSIZE; x++) { |
1029 |
int s, a = ((y + d->visible_ysize - LOGO_YSIZE |
1030 |
- logo_bottom_margin)*d->xsize + x) |
1031 |
* d->bit_depth / 8; |
1032 |
int b = fb_logo[(y*LOGO_XSIZE+x) / 8] & |
1033 |
(128 >> (x&7)); |
1034 |
for (s=0; s<d->bit_depth / 8; s++) |
1035 |
if (a+s >= 0 && a+s < size) |
1036 |
d->framebuffer[a+s] = b? 0:255; |
1037 |
} |
1038 |
} |
1039 |
|
1040 |
/* Don't set the title to include the size of the framebuffer for |
1041 |
VGA, since then the resolution might change during runtime. */ |
1042 |
if (strcmp(name, "VGA") == 0) |
1043 |
snprintf(title, sizeof(title),"GXemul: %s framebuffer", name); |
1044 |
else |
1045 |
snprintf(title, sizeof(title),"GXemul: %ix%ix%i %s framebuffer", |
1046 |
d->visible_xsize, d->visible_ysize, d->bit_depth, name); |
1047 |
title[sizeof(title)-1] = '\0'; |
1048 |
|
1049 |
#ifdef WITH_X11 |
1050 |
if (machine->use_x11) |
1051 |
d->fb_window = x11_fb_init(d->x11_xsize, d->x11_ysize, |
1052 |
title, machine->x11_scaledown, machine); |
1053 |
else |
1054 |
#endif |
1055 |
d->fb_window = NULL; |
1056 |
|
1057 |
nlen = strlen(name) + 10; |
1058 |
name2 = malloc(nlen); |
1059 |
if (name2 == NULL) { |
1060 |
fprintf(stderr, "out of memory in dev_fb_init()\n"); |
1061 |
exit(1); |
1062 |
} |
1063 |
snprintf(name2, nlen, "fb [%s]", name); |
1064 |
|
1065 |
flags = MEM_DEFAULT; |
1066 |
if ((baseaddr & 0xfff) == 0) |
1067 |
flags = MEM_BINTRANS_OK | MEM_BINTRANS_WRITE_OK; |
1068 |
|
1069 |
flags |= MEM_READING_HAS_NO_SIDE_EFFECTS; |
1070 |
|
1071 |
memory_device_register(mem, name2, baseaddr, size, dev_fb_access, |
1072 |
d, flags, d->framebuffer); |
1073 |
|
1074 |
machine_add_tickfunction(machine, dev_fb_tick, d, FB_TICK_SHIFT); |
1075 |
return d; |
1076 |
} |
1077 |
|