/* Copyright (C) 1997-2001 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 the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ // r_fog.c -- fog handling // moved from r_main.c #include "r_local.h" // global fog vars w/ defaults int FogModels[3] = {GL_LINEAR, GL_EXP, GL_EXP2}; static qboolean r_fogenable = false; static qboolean r_fogsuspended = false; static int r_fogmodel = GL_LINEAR; static float r_fogdensity = 50.0; static float r_fogskydensity = 5.0; static float r_fognear = 64.0; static float r_fogfar = 1024.0; static float r_fogskyfar = 10240.0; static GLfloat r_fogColor[4] = {1.0, 1.0, 1.0, 1.0}; /* ================ R_SetFog ================ */ void R_SetFog (void) { R_SetFogVars (r_newrefdef.foginfo.enabled, r_newrefdef.foginfo.model, r_newrefdef.foginfo.density, r_newrefdef.foginfo.start, r_newrefdef.foginfo.end, r_newrefdef.foginfo.red, r_newrefdef.foginfo.green, r_newrefdef.foginfo.blue); if (!r_fogenable) // engine fog not enabled return; // leave fog enabled if set by game DLL r_fogColor[3] = 1.0; qglEnable(GL_FOG); qglClearColor (r_fogColor[0], r_fogColor[1], r_fogColor[2], r_fogColor[3]); // Clear the background color to the fog color qglFogi(GL_FOG_MODE, r_fogmodel); qglFogfv(GL_FOG_COLOR, r_fogColor); if (r_fogmodel == GL_LINEAR) { qglFogf(GL_FOG_START, r_fognear); qglFogf(GL_FOG_END, r_fogfar); } else qglFogf(GL_FOG_DENSITY, r_fogdensity/10000.f); qglHint (GL_FOG_HINT, GL_NICEST); // nVidia radial fog if (glConfig.nvFogAvailable) { qglFogi(GL_FOG_DISTANCE_MODE_NV, glConfig.nvFogMode); } } /* ================ R_SetFog2D ================ */ void R_SetFog2D (void) { // turn off nVidia radial fog to prevent fogging of 2D elements if (glConfig.nvFogAvailable) { qglFogi(GL_FOG_DISTANCE_MODE_NV, GL_EYE_PLANE); } } /* ================ R_SetSkyFog ================ */ void R_SetSkyFog (qboolean setSkyFog) { if (!r_fogenable) // engine fog not enabled return; // leave fog enabled if set by game DLL if (setSkyFog) { if (r_fogmodel == GL_LINEAR) qglFogf(GL_FOG_END, r_fogskyfar); else qglFogf(GL_FOG_DENSITY, r_fogskydensity/10000.f); } else { if (r_fogmodel == GL_LINEAR) qglFogf(GL_FOG_END, r_fogfar); else qglFogf(GL_FOG_DENSITY, r_fogdensity/10000.f); } } /* ================ R_SuspendFog ================ */ void R_SuspendFog (void) { // check if fog is enabled; if so, disable it if (qglIsEnabled(GL_FOG)) { r_fogsuspended = true; qglDisable(GL_FOG); } } /* ================ R_ResumeFog ================ */ void R_ResumeFog (void) { // re-enable fog if it was on if (r_fogsuspended) { r_fogsuspended = false; qglEnable(GL_FOG); } } /* ================ R_InitFogVars ================ */ void R_InitFogVars (void) { r_fogenable = false; r_fogsuspended = false; r_fogmodel = GL_LINEAR; r_fogdensity = 50.0; r_fogskydensity = 5.0; r_fognear = 64.0; r_fogfar = 1024.0; r_fogskyfar = 10240.0; r_fogColor[0] = r_fogColor[1] = r_fogColor[2] = r_fogColor[3] = 1.0f; } /* ================ R_SetFogVars ================ */ void R_SetFogVars (qboolean enable, int model, int density, int start, int end, int red, int green, int blue) { int temp; float maxFogFar, skyRatio; //VID_Printf( PRINT_ALL, "Setting fog variables: model %i density %i near %i far %i red %i green %i blue %i\n", // model, density, start, end, red, green, blue ); // Skip this if QGL subsystem is already down if (!qglDisable) return; r_fogenable = enable; if (!r_fogenable) { // recieved fog disable message qglDisable(GL_FOG); return; } temp = model; if ((temp > 2) || (temp < 0)) temp = 0; if (r_skydistance && r_skydistance->value) maxFogFar = r_skydistance->value; else maxFogFar = 10000.0; maxFogFar = max(maxFogFar, 1024.0); if (r_fog_skyratio && r_fog_skyratio->value) skyRatio = r_fog_skyratio->value; else skyRatio = 10.0; skyRatio = max (skyRatio, 1.0); skyRatio = min (skyRatio, 100.0); r_fogmodel = FogModels[temp]; r_fogdensity = (float)density; r_fogskydensity = r_fogdensity / skyRatio; if (temp == 0) { // GL_LINEAR r_fognear = (float)start; r_fogfar = (float)end; r_fogskyfar = r_fogfar * skyRatio; } r_fogColor[0] = ((float)red)/255.0; r_fogColor[1] = ((float)green)/255.0; r_fogColor[2] = ((float)blue)/255.0; // clamp vars r_fogdensity = max(r_fogdensity, 0.0); r_fogdensity = min(r_fogdensity, 100.0); r_fogskydensity = max(r_fogskydensity, 0.0); r_fogskydensity = min(r_fogskydensity, (100.0 / skyRatio)); r_fognear = max(r_fognear, 0.0f); r_fognear = min(r_fognear, 10000.0-64.0); r_fogfar = max(r_fogfar, r_fognear+64.0); // r_fogfar = min(r_fogfar, 10000.0); r_fogfar = min(r_fogfar, maxFogFar); r_fogskyfar = max(r_fogskyfar, (r_fognear+64.0)*skyRatio); r_fogskyfar = min(r_fogskyfar, maxFogFar*skyRatio); r_fogColor[0] = max(r_fogColor[0], 0.0); r_fogColor[0] = min(r_fogColor[0], 1.0); r_fogColor[1] = max(r_fogColor[1], 0.0); r_fogColor[1] = min(r_fogColor[1], 1.0); r_fogColor[2] = max(r_fogColor[2], 0.0); r_fogColor[2] = min(r_fogColor[2], 1.0); //VID_Printf( PRINT_ALL, "Set fog variables: model %i density %f near %f far %f red %f green %f blue %f\n", // model, r_fogdensity, r_fognear, r_fogfar, r_fogColor[0], r_fogColor[1], r_fogColor[2] ); }