Mercurial > sdl-ios-xcode
view src/video/x11/SDL_x11modes.c @ 3496:78fc8ea578b2
Joe 2009-11-23 21:31:10 PST
If type is ::SDL_HAPTIC_CARTESIAN, direction is encoded by three positions
367 * (X axis, Y axis and Z axis (with 3 axes)). ::SDL_HAPTIC_CARTESIAN
uses
368 * the first three \c dir parameters. The cardinal directions would
be:
369 * - North: 0,-1, 0
370 * - East: -1, 0, 0
371 * - South: 0, 1, 0
372 * - West: 1, 0, 0
typedef struct SDL_HapticDirection
{
Uint8 type; /**< The type of encoding. */
Uint16 dir[3]; /**< The encoded direction. */
} SDL_HapticDirection;
An unsigned int can't store negative values and I don't see an alternate way to
encode them in the docs or source. The best I have been able to come up with is
using a negative magnitude for the effect but this will only get me 2 of the 4
quadrants in the plane for 2d effects. I looked at the win32 and linux
implementations and I believe is is safe to use signed ints in the direction
struct. I am unfamiliar with the darwin haptics API so I don't know if it is
safe.
author | Sam Lantinga <slouken@libsdl.org> |
---|---|
date | Fri, 27 Nov 2009 19:29:27 +0000 |
parents | ee331407574f |
children | 4b594623401b |
line wrap: on
line source
/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" #include "SDL_x11video.h" //#define X11MODES_DEBUG #undef SDL_VIDEO_DRIVER_X11_XINERAMA #undef SDL_VIDEO_DRIVER_X11_XRANDR #undef SDL_VIDEO_DRIVER_X11_VIDMODE static int get_visualinfo(Display * display, int screen, XVisualInfo * vinfo) { const char *visual_id = SDL_getenv("SDL_VIDEO_X11_VISUALID"); int depth; /* Look for an exact visual, if requested */ if (visual_id) { XVisualInfo *vi, template; int nvis; SDL_zero(template); template.visualid = SDL_strtol(visual_id, NULL, 0); vi = XGetVisualInfo(display, VisualIDMask, &template, &nvis); if (vi) { *vinfo = *vi; XFree(vi); return 0; } } depth = DefaultDepth(display, screen); if ((X11_UseDirectColorVisuals() && XMatchVisualInfo(display, screen, depth, DirectColor, vinfo)) || XMatchVisualInfo(display, screen, depth, TrueColor, vinfo) || XMatchVisualInfo(display, screen, depth, PseudoColor, vinfo) || XMatchVisualInfo(display, screen, depth, StaticColor, vinfo)) { return 0; } return -1; } static Uint32 X11_GetPixelFormatFromVisualInfo(Display * display, XVisualInfo * vinfo) { if (vinfo->class == DirectColor || vinfo->class == TrueColor) { int bpp; Uint32 Rmask, Gmask, Bmask, Amask; Rmask = vinfo->visual->red_mask; Gmask = vinfo->visual->green_mask; Bmask = vinfo->visual->blue_mask; if (vinfo->depth == 32) { Amask = (0xFFFFFFFF & ~(Rmask | Gmask | Bmask)); } else { Amask = 0; } bpp = vinfo->depth; if (bpp == 24) { int i, n; XPixmapFormatValues *p = XListPixmapFormats(display, &n); if (p) { for (i = 0; i < n; ++i) { if (p[i].depth == 24) { bpp = p[i].bits_per_pixel; break; } } XFree(p); } } return SDL_MasksToPixelFormatEnum(bpp, Rmask, Gmask, Bmask, Amask); } if (vinfo->class == PseudoColor || vinfo->class == StaticColor) { switch (vinfo->depth) { case 8: return SDL_PIXELTYPE_INDEX8; case 4: if (BitmapBitOrder(display) == LSBFirst) { return SDL_PIXELFORMAT_INDEX4LSB; } else { return SDL_PIXELFORMAT_INDEX4MSB; } break; case 1: if (BitmapBitOrder(display) == LSBFirst) { return SDL_PIXELFORMAT_INDEX1LSB; } else { return SDL_PIXELFORMAT_INDEX1MSB; } break; } } return SDL_PIXELFORMAT_UNKNOWN; } void X11_InitModes(_THIS) { SDL_VideoData *data = (SDL_VideoData *) _this->driverdata; int screen; for (screen = 0; screen < ScreenCount(data->display); ++screen) { XVisualInfo vinfo; SDL_VideoDisplay display; SDL_DisplayData *displaydata; SDL_DisplayMode mode; XPixmapFormatValues *pixmapFormats; int i, n; if (get_visualinfo(data->display, screen, &vinfo) < 0) { continue; } mode.format = X11_GetPixelFormatFromVisualInfo(data->display, &vinfo); mode.w = DisplayWidth(data->display, screen); mode.h = DisplayHeight(data->display, screen); mode.refresh_rate = 0; mode.driverdata = NULL; displaydata = (SDL_DisplayData *) SDL_malloc(sizeof(*displaydata)); if (!displaydata) { continue; } displaydata->screen = screen; displaydata->visual = vinfo.visual; displaydata->depth = vinfo.depth; displaydata->scanline_pad = SDL_BYTESPERPIXEL(mode.format) * 8; pixmapFormats = XListPixmapFormats(data->display, &n); if (pixmapFormats) { for (i = 0; i < n; ++i) { if (pixmapFormats[i].depth == displaydata->depth) { displaydata->scanline_pad = pixmapFormats[i].scanline_pad; break; } } XFree(pixmapFormats); } SDL_zero(display); display.desktop_mode = mode; display.current_mode = mode; display.driverdata = displaydata; SDL_AddVideoDisplay(&display); } } /* Global for the error handler */ int vm_event, vm_error = -1; #if SDL_VIDEO_DRIVER_X11_XINERAMA static SDL_bool CheckXinerama(Display * display, int *major, int *minor) { const char *env; /* Default the extension not available */ *major = *minor = 0; /* Allow environment override */ env = getenv("SDL_VIDEO_X11_XINERAMA"); if (env && !SDL_atoi(env)) { return SDL_FALSE; } /* Query the extension version */ if (!SDL_NAME(XineramaQueryExtension) (display, major, minor) || !SDL_NAME(XineramaIsActive) (display)) { return SDL_FALSE; } return SDL_TRUE; } #endif /* SDL_VIDEO_DRIVER_X11_XINERAMA */ #if SDL_VIDEO_DRIVER_X11_XRANDR static SDL_bool CheckXRandR(Display * display, int *major, int *minor) { const char *env; /* Default the extension not available */ *major = *minor = 0; /* Allow environment override */ env = getenv("SDL_VIDEO_X11_XRANDR"); if (env && !SDL_atoi(env)) { return SDL_FALSE; } if (!SDL_X11_HAVE_XRANDR) { return SDL_FALSE; } /* Query the extension version */ if (!XRRQueryVersion(display, major, minor)) { return SDL_FALSE; } return SDL_TRUE; } #endif /* SDL_VIDEO_DRIVER_X11_XRANDR */ #if SDL_VIDEO_DRIVER_X11_VIDMODE static SDL_bool CheckVidMode(Display * display, int *major, int *minor) { const char *env; /* Default the extension not available */ *major = *minor = 0; /* Allow environment override */ env = getenv("SDL_VIDEO_X11_VIDMODE"); if (env && !SDL_atoi(env)) { return SDL_FALSE; } /* Query the extension version */ vm_error = -1; if (!SDL_NAME(XF86VidModeQueryExtension) (display, &vm_event, &vm_error) || !SDL_NAME(XF86VidModeQueryVersion) (display, major, minor)) { return SDL_FALSE; } return SDL_TRUE; } Bool SDL_NAME(XF86VidModeGetModeInfo) (Display * dpy, int scr, SDL_NAME(XF86VidModeModeInfo) * info) { Bool retval; int dotclock; SDL_NAME(XF86VidModeModeLine) l; SDL_zerop(info); SDL_zero(l); retval = SDL_NAME(XF86VidModeGetModeLine) (dpy, scr, &dotclock, &l); info->dotclock = dotclock; info->hdisplay = l.hdisplay; info->hsyncstart = l.hsyncstart; info->hsyncend = l.hsyncend; info->htotal = l.htotal; info->hskew = l.hskew; info->vdisplay = l.vdisplay; info->vsyncstart = l.vsyncstart; info->vsyncend = l.vsyncend; info->vtotal = l.vtotal; info->flags = l.flags; info->privsize = l.privsize; info->private = l.private; return retval; } static int calculate_rate(SDL_NAME(XF86VidModeModeInfo) * info) { return (info->htotal && info->vtotal) ? (1000 * info->dotclock / (info->htotal * info->vtotal)) : 0; } static void save_mode(Display * display, SDL_DisplayData * data) { SDL_NAME(XF86VidModeGetModeInfo) (display, data->screen, &data->saved_mode); SDL_NAME(XF86VidModeGetViewPort) (display, data->screen, &data->saved_view.x, &data->saved_view.y); } static void restore_mode(Display * display, SDL_DisplayData * data) { SDL_NAME(XF86VidModeModeInfo) mode; if (SDL_NAME(XF86VidModeGetModeInfo) (display, data->screen, &mode)) { if (SDL_memcmp(&mode, &data->saved_mode, sizeof(mode)) != 0) { SDL_NAME(XF86VidModeSwitchToMode) (display, data->screen, &data->saved_mode); } } if ((data->saved_view.x != 0) || (data->saved_view.y != 0)) { SDL_NAME(XF86VidModeSetViewPort) (display, data->screen, data->saved_view.x, data->saved_view.y); } } #endif /* SDL_VIDEO_DRIVER_X11_VIDMODE */ void X11_GetDisplayModes(_THIS) { Display *display = ((SDL_VideoData *) _this->driverdata)->display; SDL_DisplayData *data = (SDL_DisplayData *) SDL_CurrentDisplay.driverdata; #if SDL_VIDEO_DRIVER_X11_XINERAMA int xinerama_major, xinerama_minor; int screens; SDL_NAME(XineramaScreenInfo) * xinerama; #endif #if SDL_VIDEO_DRIVER_X11_XRANDR int xrandr_major, xrandr_minor; int nsizes, nrates; XRRScreenSize *sizes; short *rates; #endif #if SDL_VIDEO_DRIVER_X11_VIDMODE int vm_major, vm_minor; int nmodes; SDL_NAME(XF86VidModeModeInfo) ** modes; #endif int screen_w; int screen_h; SDL_DisplayMode mode; /* Unfortunately X11 requires the window to be created with the correct * visual and depth ahead of time, but the SDL API allows you to create * a window before setting the fullscreen display mode. This means that * we have to use the same format for all windows and all display modes. * (or support recreating the window with a new visual behind the scenes) */ mode.format = SDL_CurrentDisplay.current_mode.format; mode.driverdata = NULL; data->use_xinerama = 0; data->use_xrandr = 0; data->use_vidmode = 0; screen_w = DisplayWidth(display, data->screen); screen_h = DisplayHeight(display, data->screen); #if SDL_VIDEO_DRIVER_X11_XINERAMA /* Query Xinerama extention */ if (CheckXinerama(display, &xinerama_major, &xinerama_minor)) { #ifdef X11MODES_DEBUG printf("X11 detected Xinerama:\n"); #endif xinerama = SDL_NAME(XineramaQueryScreens) (display, &screens); if (xinerama) { int i; for (i = 0; i < screens; i++) { #ifdef X11MODES_DEBUG printf("xinerama %d: %dx%d+%d+%d\n", xinerama[i].screen_number, xinerama[i].width, xinerama[i].height, xinerama[i].x_org, xinerama[i].y_org); #endif if (xinerama[i].screen_number == data->screen) { data->use_xinerama = xinerama_major * 100 + xinerama_minor; data->xinerama_info = xinerama[i]; } } XFree(xinerama); } if (data->use_xinerama) { /* Add the full xinerama mode */ if (screen_w > data->xinerama_info.width || screen_h > data->xinerama_info.height) { mode.w = screen_w; mode.h = screen_h; mode.refresh_rate = 0; SDL_AddDisplayMode(_this->current_display, &mode); } /* Add the head xinerama mode */ mode.w = data->xinerama_info.width; mode.h = data->xinerama_info.height; mode.refresh_rate = 0; SDL_AddDisplayMode(_this->current_display, &mode); } } #endif /* SDL_VIDEO_DRIVER_X11_XINERAMA */ #if SDL_VIDEO_DRIVER_X11_XRANDR /* XRandR */ /* require at least XRandR v1.0 (arbitrary) */ if (CheckXRandR(display, &xrandr_major, &xrandr_minor) && xrandr_major >= 1) { #ifdef X11MODES_DEBUG fprintf(stderr, "XRANDR: XRRQueryVersion: V%d.%d\n", xrandr_major, xrandr_minor); #endif /* save the screen configuration since we must reference it each time we toggle modes. */ data->screen_config = XRRGetScreenInfo(display, RootWindow(display, data->screen)); /* retrieve the list of resolution */ sizes = XRRConfigSizes(data->screen_config, &nsizes); if (nsizes > 0) { int i, j; for (i = 0; i < nsizes; i++) { mode.w = sizes[i].width; mode.h = sizes[i].height; rates = XRRConfigRates(data->screen_config, i, &nrates); for (j = 0; j < nrates; ++j) { mode.refresh_rate = rates[j]; #ifdef X11MODES_DEBUG fprintf(stderr, "XRANDR: mode = %4d[%d], w = %4d, h = %4d, rate = %4d\n", i, j, mode.w, mode.h, mode.refresh_rate); #endif SDL_AddDisplayMode(_this->current_display, &mode); } } data->use_xrandr = xrandr_major * 100 + xrandr_minor; data->saved_size = XRRConfigCurrentConfiguration(data->screen_config, &data->saved_rotation); data->saved_rate = XRRConfigCurrentRate(data->screen_config); } } #endif /* SDL_VIDEO_DRIVER_X11_XRANDR */ #if SDL_VIDEO_DRIVER_X11_VIDMODE /* XVidMode */ if (!data->use_xrandr && #if SDL_VIDEO_DRIVER_X11_XINERAMA (!data->use_xinerama || data->xinerama_info.screen_number == 0) && #endif CheckVidMode(display, &vm_major, &vm_minor) && SDL_NAME(XF86VidModeGetAllModeLines) (display, data->screen, &nmodes, &modes)) { int i; #ifdef X11MODES_DEBUG printf("VidMode modes: (unsorted)\n"); for (i = 0; i < nmodes; ++i) { printf("Mode %d: %d x %d @ %d\n", i, modes[i]->hdisplay, modes[i]->vdisplay, calculate_rate(modes[i])); } #endif for (i = 0; i < nmodes; ++i) { mode.w = modes[i]->hdisplay; mode.h = modes[i]->vdisplay; mode.refresh_rate = calculate_rate(modes[i]); SDL_AddDisplayMode(_this->current_display, &mode); } XFree(modes); data->use_vidmode = vm_major * 100 + vm_minor; save_mode(display, data); } #endif /* SDL_VIDEO_DRIVER_X11_VIDMODE */ if (!data->use_xrandr && !data->use_vidmode) { mode.w = screen_w; mode.h = screen_h; mode.refresh_rate = 0; SDL_AddDisplayMode(_this->current_display, &mode); } #ifdef X11MODES_DEBUG if (data->use_xinerama) { printf("Xinerama is enabled\n"); } if (data->use_xrandr) { printf("XRandR is enabled\n"); } if (data->use_vidmode) { printf("VidMode is enabled\n"); } #endif /* X11MODES_DEBUG */ } static void get_real_resolution(Display * display, SDL_DisplayData * data, int *w, int *h, int *rate) { #if SDL_VIDEO_DRIVER_X11_XRANDR if (data->use_xrandr) { int nsizes; XRRScreenSize *sizes; sizes = XRRConfigSizes(data->screen_config, &nsizes); if (nsizes > 0) { int cur_size; Rotation cur_rotation; cur_size = XRRConfigCurrentConfiguration(data->screen_config, &cur_rotation); *w = sizes[cur_size].width; *h = sizes[cur_size].height; *rate = XRRConfigCurrentRate(data->screen_config); #ifdef X11MODES_DEBUG fprintf(stderr, "XRANDR: get_real_resolution: w = %d, h = %d, rate = %d\n", *w, *h, *rate); #endif return; } } #endif /* SDL_VIDEO_DRIVER_X11_XRANDR */ #if SDL_VIDEO_DRIVER_X11_VIDMODE if (data->use_vidmode) { SDL_NAME(XF86VidModeModeInfo) mode; if (SDL_NAME(XF86VidModeGetModeInfo) (display, data->screen, &mode)) { *w = mode.hdisplay; *h = mode.vdisplay; *rate = calculate_rate(&mode); return; } } #endif /* SDL_VIDEO_DRIVER_X11_VIDMODE */ #if SDL_VIDEO_DRIVER_X11_XINERAMA if (data->use_xinerama) { *w = data->xinerama_info.width; *h = data->xinerama_info.height; *rate = 0; return; } #endif /* SDL_VIDEO_DRIVER_X11_XINERAMA */ *w = DisplayWidth(display, data->screen); *h = DisplayHeight(display, data->screen); *rate = 0; } static void set_best_resolution(Display * display, SDL_DisplayData * data, int w, int h, int rate) { int real_w, real_h, real_rate; /* check current mode so we can avoid uneccessary mode changes */ get_real_resolution(display, data, &real_w, &real_h, &real_rate); if (w == real_w && h == real_h && (!rate || rate == real_rate)) { return; } #if SDL_VIDEO_DRIVER_X11_XRANDR if (data->use_xrandr) { #ifdef X11MODES_DEBUG fprintf(stderr, "XRANDR: set_best_resolution(): w = %d, h = %d\n", w, h); #endif int i, nsizes, nrates; int best; int best_rate; XRRScreenSize *sizes; short *rates; /* find the smallest resolution that is at least as big as the user requested */ best = -1; sizes = XRRConfigSizes(data->screen_config, &nsizes); for (i = 0; i < nsizes; ++i) { if (sizes[i].width < w || sizes[i].height < h) { continue; } if (sizes[i].width == w && sizes[i].height == h) { best = i; break; } if (best == -1 || (sizes[i].width < sizes[best].width) || (sizes[i].width == sizes[best].width && sizes[i].height < sizes[best].height)) { best = i; } } if (best >= 0) { best_rate = 0; rates = XRRConfigRates(data->screen_config, best, &nrates); for (i = 0; i < nrates; ++i) { if (rates[i] == rate) { best_rate = rate; break; } if (!rate) { /* Higher is better, right? */ if (rates[i] > best_rate) { best_rate = rates[i]; } } else { if (SDL_abs(rates[i] - rate) < SDL_abs(best_rate - rate)) { best_rate = rates[i]; } } } XRRSetScreenConfigAndRate(display, data->screen_config, RootWindow(display, data->screen), best, data->saved_rotation, best_rate, CurrentTime); } return; } #endif /* SDL_VIDEO_DRIVER_X11_XRANDR */ #if SDL_VIDEO_DRIVER_X11_VIDMODE if (data->use_vidmode) { SDL_NAME(XF86VidModeModeInfo) ** modes; int i, nmodes; int best; if (SDL_NAME(XF86VidModeGetAllModeLines) (display, data->screen, &nmodes, &modes)) { best = -1; for (i = 0; i < nmodes; ++i) { if (modes[i]->hdisplay < w || modes[i]->vdisplay < h) { continue; } if (best == -1 || (modes[i]->hdisplay < modes[best]->hdisplay) || (modes[i]->hdisplay == modes[best]->hdisplay && modes[i]->vdisplay < modes[best]->vdisplay)) { best = i; continue; } if ((modes[i]->hdisplay == modes[best]->hdisplay) && (modes[i]->vdisplay == modes[best]->vdisplay)) { if (!rate) { /* Higher is better, right? */ if (calculate_rate(modes[i]) > calculate_rate(modes[best])) { best = i; } } else { if (SDL_abs(calculate_rate(modes[i]) - rate) < SDL_abs(calculate_rate(modes[best]) - rate)) { best = i; } } } } if (best >= 0) { #ifdef X11MODES_DEBUG printf("Best Mode %d: %d x %d @ %d\n", best, modes[best]->hdisplay, modes[best]->vdisplay, calculate_rate(modes[best])); #endif SDL_NAME(XF86VidModeSwitchToMode) (display, data->screen, modes[best]); } XFree(modes); } return; } #endif /* SDL_VIDEO_DRIVER_X11_VIDMODE */ } int X11_SetDisplayMode(_THIS, SDL_DisplayMode * mode) { Display *display = ((SDL_VideoData *) _this->driverdata)->display; SDL_DisplayData *data = (SDL_DisplayData *) SDL_CurrentDisplay.driverdata; set_best_resolution(display, data, mode->w, mode->h, mode->refresh_rate); return 0; } void X11_QuitModes(_THIS) { } /* vi: set ts=4 sw=4 expandtab: */