/* vid.c general video driver functions Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include "QF/console.h" #include "QF/cvar.h" #include "QF/mathlib.h" #include "QF/qargs.h" #include "QF/sys.h" #include "QF/va.h" #include "compat.h" #include "vid_internal.h" /* Software and hardware gamma support */ #define viddef (*r_data->vid) byte *vid_colormap; cvar_t *vid_gamma; cvar_t *vid_system_gamma; cvar_t *con_width; // FIXME: Try to move with rest of con code cvar_t *con_height; // FIXME: Try to move with rest of con code qboolean vid_gamma_avail; // hardware gamma availability VISIBLE unsigned int d_8to24table[256]; /* Screen size */ cvar_t *vid_width; cvar_t *vid_height; cvar_t *vid_aspect; cvar_t *vid_fullscreen; static void vid_aspect_f (cvar_t *var) { const char *p = strchr (var->string, ':'); float w, h; if (p) { w = atof (var->string); h = atof (p + 1); if (w > 0.0 && h > 0.0) { var->vec[0] = w; var->vec[1] = h; return; } } Sys_Printf ("badly formed aspect ratio: %s. Using default 4:3\n", var->string); var->vec[0] = 4.0; var->vec[1] = 3.0; } void VID_GetWindowSize (int def_w, int def_h) { int pnum, conheight; vid_width = Cvar_Get ("vid_width", va ("%d", def_w), CVAR_NONE, NULL, "screen width"); vid_height = Cvar_Get ("vid_height", va ("%d", def_h), CVAR_NONE, NULL, "screen height"); vid_aspect = Cvar_Get ("vid_aspect", "4:3", CVAR_ROM, vid_aspect_f, "Physical screen aspect ratio in \"width:height\" format. " "Common values are 4:3, 5:3, 8:5, 16:9, but any width:height " "measurement will do (eg, 475:296.875 the approximate dimentions " "in mm of the display area of a certain monitor)"); if ((pnum = COM_CheckParm ("-width"))) { if (pnum >= com_argc - 1) Sys_Error ("VID: -width "); Cvar_Set (vid_width, com_argv[pnum + 1]); if (!vid_width->int_val) Sys_Error ("VID: Bad window width"); } if ((pnum = COM_CheckParm ("-height"))) { if (pnum >= com_argc - 1) Sys_Error ("VID: -height "); Cvar_Set (vid_height, com_argv[pnum + 1]); if (!vid_height->int_val) Sys_Error ("VID: Bad window height"); } if ((pnum = COM_CheckParm ("-winsize"))) { if (pnum >= com_argc - 2) Sys_Error ("VID: -winsize "); Cvar_Set (vid_width, com_argv[pnum + 1]); Cvar_Set (vid_height, com_argv[pnum + 2]); if (!vid_width->int_val || !vid_height->int_val) Sys_Error ("VID: Bad window width/height"); } Cvar_SetFlags (vid_width, vid_width->flags | CVAR_ROM); Cvar_SetFlags (vid_height, vid_height->flags | CVAR_ROM); viddef.width = vid_width->int_val; viddef.height = vid_height->int_val; viddef.aspect = ((vid_aspect->vec[0] * viddef.height) / (vid_aspect->vec[1] * viddef.width)); con_width = Cvar_Get ("con_width", va ("%d", viddef.width), CVAR_NONE, NULL, "console effective width (GL only)"); if ((pnum = COM_CheckParm ("-conwidth"))) { if (pnum >= com_argc - 1) Sys_Error ("VID: -conwidth "); Cvar_Set (con_width, com_argv[pnum + 1]); } // make con_width a multiple of 8 and >= 320 Cvar_Set (con_width, va ("%d", max (con_width->int_val & ~7, 320))); Cvar_SetFlags (con_width, con_width->flags | CVAR_ROM); viddef.conwidth = con_width->int_val; conheight = (viddef.conwidth * vid_aspect->vec[1]) / vid_aspect->vec[0]; con_height = Cvar_Get ("con_height", va ("%d", conheight), CVAR_NONE, NULL, "console effective height (GL only)"); if ((pnum = COM_CheckParm ("-conheight"))) { if (pnum >= com_argc - 1) Sys_Error ("VID: -conheight "); Cvar_Set (con_height, com_argv[pnum + 1]); } // make con_height >= 200 Cvar_Set (con_height, va ("%d", max (con_height->int_val, 200))); Cvar_SetFlags (con_height, con_height->flags | CVAR_ROM); viddef.conheight = con_height->int_val; Con_CheckResize (); // Now that we have a window size, fix console } /* GAMMA FUNCTIONS */ static void VID_BuildGammaTable (double gamma) { int i; if (gamma == 1.0) { // linear, don't bother with the math for (i = 0; i < 256; i++) { viddef.gammatable[i] = i; } } else { double g = 1.0 / gamma; int v; for (i = 0; i < 256; i++) { // Build/update gamma lookup table v = (int) ((255.0 * pow ((double) i / 255.0, g)) + 0.5); viddef.gammatable[i] = bound (0, v, 255); } } } /* VID_UpdateGamma This is a callback to update the palette or system gamma whenever the vid_gamma Cvar is changed. */ void VID_UpdateGamma (cvar_t *vid_gamma) { double gamma = bound (0.1, vid_gamma->value, 9.9); viddef.recalc_refdef = 1; // force a surface cache flush if (vid_gamma_avail && vid_system_gamma->int_val) { // Have system, use it Sys_MaskPrintf (SYS_VID, "Setting hardware gamma to %g\n", gamma); VID_BuildGammaTable (1.0); // hardware gamma wants a linear palette VID_SetGamma (gamma); memcpy (viddef.palette, viddef.basepal, 256 * 3); } else { // We have to hack the palette int i; Sys_MaskPrintf (SYS_VID, "Setting software gamma to %g\n", gamma); VID_BuildGammaTable (gamma); for (i = 0; i < 256 * 3; i++) viddef.palette[i] = viddef.gammatable[viddef.basepal[i]]; viddef.set_palette (viddef.palette); // update with the new palette } } /* VID_InitGamma Initialize the vid_gamma Cvar, and set up the palette */ void VID_InitGamma (unsigned char *pal) { int i; double gamma = 1.0; viddef.gammatable = malloc (256); viddef.basepal = pal; viddef.palette = malloc (256 * 3); if ((i = COM_CheckParm ("-gamma"))) { gamma = atof (com_argv[i + 1]); } gamma = bound (0.1, gamma, 9.9); vid_gamma = Cvar_Get ("vid_gamma", va ("%f", gamma), CVAR_ARCHIVE, VID_UpdateGamma, "Gamma correction"); VID_BuildGammaTable (vid_gamma->value); } void VID_InitBuffers (void) { int buffersize, zbuffersize, cachesize = 1; // No console scaling in the sw renderer viddef.conwidth = viddef.width; viddef.conheight = viddef.height; Con_CheckResize (); // Calculate the sizes we want first buffersize = viddef.rowbytes * viddef.height; zbuffersize = viddef.width * viddef.height * sizeof (*viddef.zbuffer); if (viddef.surf_cache_size) cachesize = viddef.surf_cache_size (viddef.width, viddef.height); // Free the old z-buffer if (viddef.zbuffer) { free (viddef.zbuffer); viddef.zbuffer = NULL; } // Free the old surface cache if (viddef.surfcache) { if (viddef.flush_caches) viddef.flush_caches (); free (viddef.surfcache); viddef.surfcache = NULL; } if (viddef.do_screen_buffer) { viddef.do_screen_buffer (); } else { // Free the old screen buffer if (viddef.buffer) { free (viddef.buffer); viddef.conbuffer = viddef.buffer = NULL; } // Allocate the new screen buffer viddef.conbuffer = viddef.buffer = calloc (buffersize, 1); if (!viddef.conbuffer) { Sys_Error ("Not enough memory for video mode"); } } // Allocate the new z-buffer viddef.zbuffer = calloc (zbuffersize, 1); if (!viddef.zbuffer) { free (viddef.buffer); viddef.conbuffer = viddef.buffer = NULL; Sys_Error ("Not enough memory for video mode"); } // Allocate the new surface cache; free the z-buffer if we fail viddef.surfcache = calloc (cachesize, 1); if (!viddef.surfcache) { free (viddef.buffer); free (viddef.zbuffer); viddef.conbuffer = viddef.buffer = NULL; viddef.zbuffer = NULL; Sys_Error ("Not enough memory for video mode"); } if (viddef.init_caches) viddef.init_caches (viddef.surfcache, cachesize); }