quakeforge/libs/video/renderer/gl/gl_rmain.c

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/*
gl_rmain.c
(description)
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
static __attribute__ ((unused)) const char rcsid[] =
"$Id$";
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include "QF/console.h"
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#include "QF/cvar.h"
#include "QF/locs.h"
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#include "QF/mathlib.h"
#include "QF/qargs.h"
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#include "QF/render.h"
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#include "QF/skin.h"
#include "QF/sound.h"
#include "QF/sys.h"
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#include "QF/vid.h"
#include "QF/GL/defines.h"
#include "QF/GL/funcs.h"
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#include "QF/GL/qf_rlight.h"
#include "QF/GL/qf_rmain.h"
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#include "QF/GL/qf_rsurf.h"
#include "QF/GL/qf_screen.h"
#include "QF/GL/qf_vid.h"
#include "compat.h"
#include "r_cvar.h"
#include "r_dynamic.h"
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#include "r_local.h"
#include "view.h"
entity_t r_worldentity;
qboolean r_cache_thrash; // compatability
vec3_t modelorg, r_entorigin;
entity_t *currententity;
int r_visframecount; // bumped when going to a new PVS
int r_framecount; // used for dlight push checking
int c_brush_polys, c_alias_polys;
qboolean envmap; // true during envmap command capture
int mirrortexturenum; // quake texturenum, not gltexturenum
qboolean mirror;
mplane_t *mirror_plane;
// view origin
vec3_t vup;
vec3_t vpn;
vec3_t vright;
vec3_t r_origin;
float r_world_matrix[16];
float r_base_world_matrix[16];
// screen size info
refdef_t r_refdef;
mleaf_t *r_viewleaf, *r_oldviewleaf;
int d_lightstylevalue[256]; // 8.8 fraction of base light value
vec3_t shadecolor; // Ender (Extend) Colormod
float modelalpha; // Ender (Extend) Alpha
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void
glrmain_init (void)
{
gldepthmin = 0;
gldepthmax = 1;
qfglDepthFunc (GL_LEQUAL);
qfglDepthRange (gldepthmin, gldepthmax);
}
inline void
R_RotateForEntity (entity_t *e)
{
qfglTranslatef (e->origin[0], e->origin[1], e->origin[2]);
qfglRotatef (e->angles[1], 0, 0, 1);
qfglRotatef (-e->angles[0], 0, 1, 0);
// ZOID: fixed z angle
qfglRotatef (e->angles[2], 1, 0, 0);
}
/*
R_ShowNearestLoc
Display the nearest symbolic location (.loc files)
*/
static void
R_ShowNearestLoc (void)
{
dlight_t *dl;
location_t *nearloc;
vec3_t trueloc;
if (r_drawentities->int_val)
return;
nearloc = locs_find (r_origin);
if (nearloc) {
dl = R_AllocDlight (4096);
if (dl) {
VectorCopy (nearloc->loc, dl->origin);
dl->radius = 200;
dl->die = r_realtime + 0.1;
dl->color[0] = 0;
dl->color[1] = 1;
dl->color[2] = 0;
}
VectorCopy (nearloc->loc, trueloc);
(*R_WizSpikeEffect) (trueloc);
}
}
/*
R_DrawEntitiesOnList
Draw all the entities we have information on.
*/
static void
R_DrawEntitiesOnList (void)
{
int i;
if (!r_drawentities->int_val) {
R_ShowNearestLoc();
return;
}
// LordHavoc: split into 3 loops to simplify state changes
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for (i = 0; i < r_numvisedicts; i++) {
if (r_visedicts[i]->model->type != mod_brush)
continue;
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currententity = r_visedicts[i];
R_DrawBrushModel (currententity);
}
if (gl_affinemodels->int_val)
qfglHint (GL_PERSPECTIVE_CORRECTION_HINT, GL_NICEST);
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for (i = 0; i < r_numvisedicts; i++) {
if (r_visedicts[i]->model->type != mod_alias)
continue;
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currententity = r_visedicts[i];
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if (currententity == r_player_entity)
currententity->angles[PITCH] *= 0.3;
R_DrawAliasModel (currententity);
}
if (gl_affinemodels->int_val)
qfglHint (GL_PERSPECTIVE_CORRECTION_HINT, GL_DONT_CARE);
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qfglColor3ubv (color_white);
qfglEnable (GL_ALPHA_TEST);
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for (i = 0; i < r_numvisedicts; i++) {
if (r_visedicts[i]->model->type != mod_sprite)
continue;
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currententity = r_visedicts[i];
R_DrawSpriteModel (currententity);
}
qfglDisable (GL_ALPHA_TEST);
}
static void
R_DrawViewModel (void)
{
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currententity = r_view_model;
if (r_inhibit_viewmodel
|| !r_drawviewmodel->int_val
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|| envmap
|| !r_drawentities->int_val
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|| !currententity->model)
return;
// hack the depth range to prevent view model from poking into walls
qfglDepthRange (gldepthmin, gldepthmin + 0.3 * (gldepthmax - gldepthmin));
if (gl_affinemodels->int_val)
qfglHint (GL_PERSPECTIVE_CORRECTION_HINT, GL_NICEST);
R_DrawAliasModel (currententity);
if (gl_affinemodels->int_val)
qfglHint (GL_PERSPECTIVE_CORRECTION_HINT, GL_DONT_CARE);
qfglDepthRange (gldepthmin, gldepthmax);
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qfglColor3ubv (color_white);
}
static inline int
SignbitsForPlane (mplane_t *out)
{
int bits, j;
// for fast box on planeside test
bits = 0;
for (j = 0; j < 3; j++) {
if (out->normal[j] < 0)
bits |= 1 << j;
}
return bits;
}
static void
R_SetFrustum (void)
{
int i;
// rotate VPN right by FOV_X/2 degrees
RotatePointAroundVector (frustum[0].normal, vup, vpn,
-(90 - r_refdef.fov_x / 2));
// rotate VPN left by FOV_X/2 degrees
RotatePointAroundVector (frustum[1].normal, vup, vpn,
90 - r_refdef.fov_x / 2);
// rotate VPN up by FOV_Y/2 degrees
RotatePointAroundVector (frustum[2].normal, vright, vpn,
90 - r_refdef.fov_y / 2);
// rotate VPN down by FOV_Y/2 degrees
RotatePointAroundVector (frustum[3].normal, vright, vpn,
-(90 - r_refdef.fov_y / 2));
for (i = 0; i < 4; i++) {
frustum[i].type = PLANE_ANYZ;
frustum[i].dist = DotProduct (r_origin, frustum[i].normal);
frustum[i].signbits = SignbitsForPlane (&frustum[i]);
}
}
void
R_SetupFrame (void)
{
R_AnimateLight ();
r_framecount++;
// build the transformation matrix for the given view angles
VectorCopy (r_refdef.vieworg, r_origin);
AngleVectors (r_refdef.viewangles, vpn, vright, vup);
// current viewleaf
r_oldviewleaf = r_viewleaf;
r_viewleaf = Mod_PointInLeaf (r_origin, r_worldentity.model);
V_SetContentsColor (r_viewleaf->contents);
r_cache_thrash = false;
c_brush_polys = 0;
c_alias_polys = 0;
}
static void
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MYgluPerspective (GLdouble fovy, GLdouble aspect, GLdouble zNear,
GLdouble zFar)
{
GLdouble xmin, xmax, ymin, ymax;
ymax = zNear * tan (fovy * M_PI / 360.0);
ymin = -ymax;
xmin = ymin * aspect;
xmax = -xmin;
// printf ("glFrustum (%f, %f, %f, %f)\n", xmin, xmax, ymin, ymax);
qfglFrustum (xmin, xmax, ymin, ymax, zNear, zFar);
}
static void
R_SetupGL_Viewport_and_Perspective (void)
{
float screenaspect;
int x, x2, y2, y, w, h;
// set up viewpoint
qfglMatrixMode (GL_PROJECTION);
qfglLoadIdentity ();
if (envmap) {
x = y2 = 0;
w = h = 256;
} else {
x = r_refdef.vrect.x * glwidth / vid.width;
x2 = (r_refdef.vrect.x + r_refdef.vrect.width) * glwidth / vid.width;
y = (vid.height - r_refdef.vrect.y) * glheight / vid.height;
y2 = (vid.height - (r_refdef.vrect.y + r_refdef.vrect.height)) *
glheight / vid.height;
// fudge around because of frac screen scale
if (x > 0)
x--;
if (x2 < glwidth)
x2++;
if (y2 < 0)
y2--;
if (y < glheight)
y++;
w = x2 - x;
h = y - y2;
}
// printf("glViewport(%d, %d, %d, %d)\n", glx + x, gly + y2, w, h);
qfglViewport (glx + x, gly + y2, w, h);
screenaspect = (float) r_refdef.vrect.width / r_refdef.vrect.height;
MYgluPerspective (r_refdef.fov_y, screenaspect, r_nearclip->value,
r_farclip->value);
}
static void
R_SetupGL (void)
{
R_SetFrustum ();
R_SetupGL_Viewport_and_Perspective ();
if (mirror) {
if (mirror_plane->normal[2])
qfglScalef (1, -1, 1);
else
qfglScalef (-1, 1, 1);
qfglCullFace (GL_BACK);
} else
qfglCullFace (GL_FRONT);
qfglMatrixMode (GL_MODELVIEW);
qfglLoadIdentity ();
qfglRotatef (-90, 1, 0, 0); // put Z going up
qfglRotatef (90, 0, 0, 1); // put Z going up
qfglRotatef (-r_refdef.viewangles[2], 1, 0, 0);
qfglRotatef (-r_refdef.viewangles[0], 0, 1, 0);
qfglRotatef (-r_refdef.viewangles[1], 0, 0, 1);
qfglTranslatef (-r_refdef.vieworg[0], -r_refdef.vieworg[1],
-r_refdef.vieworg[2]);
qfglGetFloatv (GL_MODELVIEW_MATRIX, r_world_matrix);
// set drawing parms
qfglEnable (GL_CULL_FACE);
qfglDisable (GL_ALPHA_TEST);
qfglAlphaFunc (GL_GREATER, 0.5);
qfglEnable (GL_DEPTH_TEST);
if (gl_dlight_smooth->int_val)
qfglShadeModel (GL_SMOOTH);
else
qfglShadeModel (GL_FLAT);
}
static void
R_Clear (void)
{
if (gl_clear->int_val)
qfglClear (GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
else
qfglClear (GL_DEPTH_BUFFER_BIT);
}
static void
R_RenderScene (void)
{
if (r_timegraph->int_val || r_speeds->int_val || r_dspeeds->int_val)
r_time1 = Sys_DoubleTime ();
R_SetupFrame ();
R_SetupGL ();
R_MarkLeaves (); // done here so we know if we're in water
R_PushDlights (vec3_origin);
R_DrawWorld (); // adds static entities to the list
S_ExtraUpdate (); // don't let sound get messed up if going slow
R_DrawEntitiesOnList ();
R_RenderDlights ();
}
static void
R_Mirror (void)
{
float d;
entity_t **ent;
msurface_t *s;
if (!mirror)
return;
memcpy (r_base_world_matrix, r_world_matrix, sizeof (r_base_world_matrix));
d = DotProduct (r_refdef.vieworg, mirror_plane->normal) -
mirror_plane->dist;
VectorMA (r_refdef.vieworg, -2 * d, mirror_plane->normal,
r_refdef.vieworg);
d = DotProduct (vpn, mirror_plane->normal);
VectorMA (vpn, -2 * d, mirror_plane->normal, vpn);
r_refdef.viewangles[0] = -asin (vpn[2]) / M_PI * 180;
r_refdef.viewangles[1] = atan2 (vpn[1], vpn[0]) / M_PI * 180;
r_refdef.viewangles[2] = -r_refdef.viewangles[2];
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ent = R_NewEntity();
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if (ent)
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*ent = r_player_entity;
gldepthmin = 0.5;
gldepthmax = 1;
qfglDepthRange (gldepthmin, gldepthmax);
R_RenderScene ();
R_DrawWaterSurfaces ();
gldepthmin = 0;
gldepthmax = 1;
qfglDepthRange (gldepthmin, gldepthmax);
// blend on top
qfglMatrixMode (GL_PROJECTION);
if (mirror_plane->normal[2])
qfglScalef (1, -1, 1);
else
qfglScalef (-1, 1, 1);
qfglCullFace (GL_FRONT);
qfglMatrixMode (GL_MODELVIEW);
qfglLoadMatrixf (r_base_world_matrix);
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color_white[2] = r_mirroralpha->value * 255;
qfglColor4ubv (color_white);
s = r_worldentity.model->textures[mirrortexturenum]->texturechain;
for (; s; s = s->texturechain) {
texture_t *tex;
if (!s->texinfo->texture->anim_total)
tex = s->texinfo->texture;
else
tex = R_TextureAnimation (s);
// FIXME: if this is needed, then include header for fullbright_polys
// if ( tex->gl_fb_texturenum > 0) {
// s->polys->fb_chain = fullbright_polys[tex->gl_fb_texturenum];
// fullbright_polys[tex->gl_fb_texturenum] = s->polys;
// }
qfglBindTexture (GL_TEXTURE_2D, tex->gl_texturenum);
R_RenderBrushPoly (s);
}
r_worldentity.model->textures[mirrortexturenum]->texturechain = NULL;
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qfglColor3ubv (color_white);
}
/*
R_RenderView_
r_refdef must be set before the first call
*/
static void
R_RenderView_ (void)
{
if (r_norefresh->int_val)
return;
if (!r_worldentity.model)
Sys_Error ("R_RenderView: NULL worldmodel");
mirror = false;
R_Clear ();
// render normal view
R_RenderScene ();
R_DrawViewModel ();
R_DrawWaterSurfaces ();
R_DrawParticles ();
// render mirror view
R_Mirror ();
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if (r_timegraph->int_val)
R_TimeGraph ();
if (r_zgraph->int_val)
R_ZGraph ();
}
// Algorithm:
// Draw up to six views, one in each direction.
// Save the picture to cube map texture, use GL_ARB_texture_cube_map.
// Create FPOLYCNTxFPOLYCNT polygons sized flat grid.
// Baseing on field of view, tie cube map texture to grid using
// translation function to map texture coordinates to fixed/regular
// grid vertices coordinates.
// Render view. Fisheye is done.
static void R_RenderViewFishEye (void);
void
R_RenderView (void)
{
if(!scr_fisheye->int_val)
R_RenderView_ ();
else
R_RenderViewFishEye ();
}
#define BOX_FRONT 0
#define BOX_RIGHT 1
#define BOX_BEHIND 2
#define BOX_LEFT 3
#define BOX_TOP 4
#define BOX_BOTTOM 5
#define FPOLYCNT 16
struct xyz {
float x, y, z;
};
static struct xyz FisheyeLookupTbl[FPOLYCNT + 1][FPOLYCNT + 1];
static GLuint cube_map_tex;
static GLint gl_cube_map_size;
static GLint gl_cube_map_step;
static const GLenum box2cube_map[] = {
GL_TEXTURE_CUBE_MAP_POSITIVE_Z_ARB,
GL_TEXTURE_CUBE_MAP_POSITIVE_X_ARB,
GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_ARB,
GL_TEXTURE_CUBE_MAP_NEGATIVE_X_ARB,
GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_ARB,
GL_TEXTURE_CUBE_MAP_POSITIVE_Y_ARB
};
static void
R_BuildFisheyeLookup (int width, int height, float fov)
{
int x, y;
struct xyz *v;
for (y = 0; y <= height; y += gl_cube_map_step) {
for (x = 0; x <= width; x += gl_cube_map_step) {
float dx = x - width / 2;
float dy = y - height / 2;
float yaw = sqrt (dx * dx + dy * dy) * fov / width;
float roll = atan2 (dy, dx);
// X is a first index and Y is a second, because later
// when we draw QUAD_STRIPes we need next Y vertix coordinate.
v = &FisheyeLookupTbl[x / gl_cube_map_step][y / gl_cube_map_step];
v->x = sin (yaw) * cos (roll);
v->y = -sin (yaw) * sin (roll);
v->z = cos (yaw);
}
}
}
#define CHKGLERR(s) \
do { \
GLint err = qfglGetError(); \
if (err != GL_NO_ERROR) \
printf ("%s: gl error %d\n", s, (int) err); \
} while (0);
#define NO(x) \
do { \
if (x < 0) \
x += 360; \
else if (x >= 360) \
x -= 360; \
} while (0)
static void
R_RenderCubeSide (int side)
{
float pitch, n_pitch;
float yaw, n_yaw;
float roll, n_roll;
float s_roll;
pitch = n_pitch = r_refdef.viewangles[PITCH];
yaw = n_yaw = r_refdef.viewangles[YAW];
// setting ROLL for now to 0, correct roll handling
// requre more exhaustive changes in rotation
// TODO: implement via matrix
// roll = n_roll = r_refdef.viewangles[ROLL];
s_roll = r_refdef.viewangles[ROLL];
roll = n_roll = 0;
// roll -= scr_fviews->int_val * 10;
// n_roll = roll;
switch (side) {
case BOX_FRONT:
break;
case BOX_RIGHT:
n_pitch = roll;
n_yaw -= 90;
n_roll = -pitch;
break;
case BOX_LEFT:
n_pitch = -roll;
n_yaw += 90;
n_roll = pitch;
// static int f = 0;
// if (!(f++ % 100))
// printf ("%4d %4d %4d | %4d %4d %4d\n", (int) pitch, (int) yaw,
// (int) roll, (int) n_pitch, (int) n_yaw, (int) n_roll);
break;
case BOX_TOP:
n_pitch -= 90;
break;
case BOX_BOTTOM:
n_pitch += 90;
break;
case BOX_BEHIND:
n_pitch = -pitch;
n_yaw += 180;
break;
}
NO (n_pitch);
NO (n_yaw);
NO (n_roll);
r_refdef.viewangles[PITCH] = n_pitch;
r_refdef.viewangles[YAW] = n_yaw;
r_refdef.viewangles[ROLL] = n_roll;
R_RenderView_ ();
qfglEnable (GL_TEXTURE_CUBE_MAP_ARB);
qfglBindTexture (GL_TEXTURE_CUBE_MAP_ARB, cube_map_tex);
qfglCopyTexSubImage2D (box2cube_map[side], 0, 0, 0, 0, 0,
gl_cube_map_size, gl_cube_map_size);
// CHKGLERR ("qfglCopyTexSubImage2D");
qfglDisable (GL_TEXTURE_CUBE_MAP_ARB);
r_refdef.viewangles[PITCH] = pitch;
r_refdef.viewangles[YAW] = yaw;
r_refdef.viewangles[ROLL] = s_roll;
}
static qboolean gl_cube_map_capable = false;
static GLint gl_cube_map_maxtex;
static GLuint fisheye_grid;
static int
R_InitFishEyeOnce (void)
{
static qboolean fisheye_init_once_completed = false;
if (fisheye_init_once_completed)
return 1;
Con_Printf ("GL_ARB_texture_cube_map ");
if (QFGL_ExtensionPresent ("GL_ARB_texture_cube_map")) {
qfglGetIntegerv (GL_MAX_CUBE_MAP_TEXTURE_SIZE_ARB,
&gl_cube_map_maxtex);
Con_Printf ("present, max texture size %d.\n",
(int) gl_cube_map_maxtex);
gl_cube_map_capable = true;
} else {
Con_Printf ("not found.\n");
gl_cube_map_capable = false;
}
fisheye_init_once_completed = true;
return 1;
}
static int
R_InitFishEye (void)
{
int width = vid.width;
int height = vid.height;
int fov = scr_ffov->int_val;
int views = scr_fviews->int_val;
static int pwidth = -1;
static int pheight = -1;
static int pfov = -1;
static int pviews = -1;
int i, x, y, min_wh, wh_changed = 0;
if (!R_InitFishEyeOnce())
return 0;
if (!gl_cube_map_capable)
return 0;
// There is a problem when max texture size is bigger than
// min(width, height), it shows up as black fat stripes at the edges
// of box polygons, probably due to missing texture fragment. Try
// to play in 640x480 with gl_cube_map_size == 512.
if (pwidth != width || pheight != height) {
wh_changed = 1;
min_wh = (height < width) ? height : width;
gl_cube_map_size = gl_cube_map_maxtex;
while (gl_cube_map_size > min_wh)
gl_cube_map_size /= 2;
gl_cube_map_step = gl_cube_map_size / FPOLYCNT;
}
if (pviews != views) {
qfglEnable (GL_TEXTURE_CUBE_MAP_ARB);
if (pviews != -1)
qfglDeleteTextures (1, &cube_map_tex);
pviews = views;
qfglGenTextures (1, &cube_map_tex);
qfglBindTexture (GL_TEXTURE_CUBE_MAP_ARB, cube_map_tex);
for (i = 0; i < 6; ++i) {
qfglTexImage2D (box2cube_map[i], 0, 3, gl_cube_map_size,
gl_cube_map_size, 0, GL_RGB, GL_UNSIGNED_SHORT,
NULL);
}
qfglTexParameteri (GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_MAG_FILTER,
GL_LINEAR);
qfglTexParameteri (GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_MIN_FILTER,
GL_LINEAR);
qfglDisable (GL_TEXTURE_CUBE_MAP_ARB);
}
if (wh_changed || pfov != fov) {
if (pfov != -1)
qfglDeleteLists (fisheye_grid, 1);
pwidth = width;
pheight = height;
pfov = fov;
R_BuildFisheyeLookup (gl_cube_map_size, gl_cube_map_size,
((float) fov) * M_PI / 180.0);
fisheye_grid = qfglGenLists (1);
qfglNewList (fisheye_grid, GL_COMPILE);
qfglLoadIdentity ();
qfglTranslatef (-gl_cube_map_size / 2, -gl_cube_map_size / 2,
-gl_cube_map_size / 2);
qfglDisable (GL_DEPTH_TEST);
qfglCullFace (GL_BACK);
qfglClear (GL_COLOR_BUFFER_BIT);
qfglEnable (GL_TEXTURE_CUBE_MAP_ARB);
qfglBindTexture (GL_TEXTURE_CUBE_MAP_ARB, cube_map_tex);
qfglBegin (GL_QUAD_STRIP);
for (y = 0; y < gl_cube_map_size; y += gl_cube_map_step) {
for (x = 0; x <= gl_cube_map_size; x += gl_cube_map_step) { // quad_strip, X should be inclusive
struct xyz *v = &FisheyeLookupTbl[x / gl_cube_map_step]
[y / gl_cube_map_step + 1];
qfglTexCoord3f (v->x, v->y, v->z);
qfglVertex2i (x, y + gl_cube_map_step);
--v;
qfglTexCoord3f (v->x, v->y, v->z);
qfglVertex2i (x, y);
}
}
qfglEnd ();
qfglDisable (GL_TEXTURE_CUBE_MAP_ARB);
qfglEnable (GL_DEPTH_TEST);
qfglEndList ();
}
return 1;
}
static void
R_RenderViewFishEye (void)
{
float s_fov_x, s_fov_y;
int s_vid_w, s_vid_h, s_rect_w, s_rect_h, s_gl_w, s_gl_h;
if (!R_InitFishEye()) return;
// save values
s_fov_x = r_refdef.fov_x;
s_fov_y = r_refdef.fov_y;
s_vid_w = vid.width;
s_vid_h = vid.height;
s_rect_w = r_refdef.vrect.width;
s_rect_h = r_refdef.vrect.height;
s_gl_w = glwidth;
s_gl_h = glheight;
// the view should be square
r_refdef.fov_x = r_refdef.fov_y = 90;
vid.width = vid.height =
r_refdef.vrect.height = r_refdef.vrect.width =
glwidth = glheight = gl_cube_map_size;
switch (scr_fviews->int_val) {
case 6: R_RenderCubeSide (BOX_BEHIND);
case 5: R_RenderCubeSide (BOX_BOTTOM);
case 4: R_RenderCubeSide (BOX_TOP);
case 3: R_RenderCubeSide (BOX_LEFT);
case 2: R_RenderCubeSide (BOX_RIGHT);
default: R_RenderCubeSide (BOX_FRONT);
}
// restore
r_refdef.fov_x = s_fov_x;
r_refdef.fov_y = s_fov_y;
vid.width = s_vid_w;
vid.height = s_vid_h;
r_refdef.vrect.width = s_rect_w;
r_refdef.vrect.height = s_rect_h;
glwidth = s_gl_w;
glheight = s_gl_h;
R_SetupGL_Viewport_and_Perspective ();
qfglMatrixMode (GL_MODELVIEW);
qfglCallList (fisheye_grid);
}