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/*
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 the Free Software
Foundation , Inc . , 59 Temple Place - Suite 330 , Boston , MA 02111 - 1307 , USA .
*/
// view.c -- player eye positioning
# include "quakedef.h"
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# ifdef SWQUAKE
# include "r_local.h"
# endif
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# include "winquake.h"
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# ifdef FISH
void R_RenderView_fisheye ( void ) ;
cvar_t ffov = { " ffov " , " 160 " } ;
cvar_t fviews = { " fviews " , " 6 " } ;
# endif
/*
The view is allowed to move slightly from it ' s true position for bobbing ,
but if it exceeds 8 pixels linear distance ( spherical , not box ) , the list of
entities sent from the server may not include everything in the pvs , especially
when crossing a water boudnary .
*/
# ifdef SIDEVIEWS
cvar_t vsec_enabled [ SIDEVIEWS ] = { { " v2_enabled " , " 1 " } , { " v3_enabled " , " 0 " } , { " v4_enabled " , " 0 " } , { " v5_enabled " , " 0 " } } ;
cvar_t vsec_x [ SIDEVIEWS ] = { { " v2_x " , " 0 " } , { " v3_x " , " 0.25 " } , { " v4_x " , " 0.5 " } , { " v5_x " , " 0.75 " } } ;
cvar_t vsec_y [ SIDEVIEWS ] = { { " v2_y " , " 0 " } , { " v3_y " , " 0 " } , { " v4_y " , " 0 " } , { " v5_y " , " 0 " } } ;
cvar_t vsec_scalex [ SIDEVIEWS ] = { { " v2_scalex " , " 0.25 " } , { " v3_scalex " , " 0.25 " } , { " v4_scalex " , " 0.25 " } , { " v5_scalex " , " 0.25 " } } ;
cvar_t vsec_scaley [ SIDEVIEWS ] = { { " v2_scaley " , " 0.25 " } , { " v3_scaley " , " 0.25 " } , { " v4_scaley " , " 0.25 " } , { " v5_scaley " , " 0.25 " } } ;
cvar_t vsec_yaw [ SIDEVIEWS ] = { { " v2_yaw " , " 180 " } , { " v3_yaw " , " 90 " } , { " v4_yaw " , " 270 " } , { " v5_yaw " , " 0 " } } ;
# endif
cvar_t lcd_x = { " lcd_x " , " 0 " } ; // FIXME: make this work sometime...
cvar_t cl_rollspeed = { " cl_rollspeed " , " 200 " } ;
cvar_t cl_rollangle = { " cl_rollangle " , " 2.0 " } ;
cvar_t cl_bob = { " cl_bob " , " 0.02 " } ;
cvar_t cl_bobcycle = { " cl_bobcycle " , " 0.6 " } ;
cvar_t cl_bobup = { " cl_bobup " , " 0.5 " } ;
cvar_t v_kicktime = { " v_kicktime " , " 0.5 " } ;
cvar_t v_kickroll = { " v_kickroll " , " 0.6 " } ;
cvar_t v_kickpitch = { " v_kickpitch " , " 0.6 " } ;
cvar_t v_iyaw_cycle = { " v_iyaw_cycle " , " 2 " , NULL } ;
cvar_t v_iroll_cycle = { " v_iroll_cycle " , " 0.5 " , NULL } ;
cvar_t v_ipitch_cycle = { " v_ipitch_cycle " , " 1 " , NULL } ;
cvar_t v_iyaw_level = { " v_iyaw_level " , " 0.3 " , NULL } ;
cvar_t v_iroll_level = { " v_iroll_level " , " 0.1 " , NULL } ;
cvar_t v_ipitch_level = { " v_ipitch_level " , " 0.3 " , NULL } ;
cvar_t v_idlescale = { " v_idlescale " , " 0 " , NULL } ;
cvar_t crosshair = { " crosshair " , " 0 " , NULL , CVAR_ARCHIVE } ;
cvar_t crosshaircolor = { " crosshaircolor " , " 79 " , NULL , CVAR_ARCHIVE } ;
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cvar_t crosshairsize = { " crosshairsize " , " 8 " , NULL , CVAR_ARCHIVE } ;
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cvar_t cl_crossx = { " cl_crossx " , " 0 " , NULL , CVAR_ARCHIVE } ;
cvar_t cl_crossy = { " cl_crossy " , " 0 " , NULL , CVAR_ARCHIVE } ;
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cvar_t crosshaircorrect = { " crosshaircorrect " , " 0 " , NULL , CVAR_SEMICHEAT } ;
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cvar_t gl_cshiftpercent = { " gl_cshiftpercent " , " 100 " } ;
cvar_t v_bonusflash = { " v_bonusflash " , " 1 " } ;
cvar_t v_contentblend = { " v_contentblend " , " 1 " } ;
cvar_t v_damagecshift = { " v_damagecshift " , " 1 " } ;
cvar_t v_quadcshift = { " v_quadcshift " , " 1 " } ;
cvar_t v_suitcshift = { " v_suitcshift " , " 1 " } ;
cvar_t v_ringcshift = { " v_ringcshift " , " 1 " } ;
cvar_t v_pentcshift = { " v_pentcshift " , " 1 " } ;
extern cvar_t cl_chasecam ;
float v_dmg_time [ MAX_SPLITS ] , v_dmg_roll [ MAX_SPLITS ] , v_dmg_pitch [ MAX_SPLITS ] ;
extern int in_forward , in_forward2 , in_back ;
frame_t * view_frame ;
player_state_t * view_message ;
/*
= = = = = = = = = = = = = = =
V_CalcRoll
= = = = = = = = = = = = = = =
*/
float V_CalcRoll ( vec3_t angles , vec3_t velocity )
{
vec3_t forward , right , up ;
float sign ;
float side ;
float value ;
AngleVectors ( angles , forward , right , up ) ;
side = DotProduct ( velocity , right ) ;
sign = side < 0 ? - 1 : 1 ;
side = fabs ( side ) ;
value = cl_rollangle . value ;
if ( side < cl_rollspeed . value )
side = side * value / cl_rollspeed . value ;
else
side = value ;
return side * sign ;
}
/*
= = = = = = = = = = = = = = =
V_CalcBob
= = = = = = = = = = = = = = =
*/
float V_CalcBob ( int pnum )
{
static double bobtime [ MAX_SPLITS ] ;
static float bob [ MAX_SPLITS ] ;
float cycle ;
if ( cl . spectator )
return 0 ;
if ( ! cl . onground [ pnum ] | | cl . paused )
return bob [ pnum ] ; // just use old value
bobtime [ pnum ] + = host_frametime ;
cycle = bobtime [ pnum ] - ( int ) ( bobtime [ pnum ] / cl_bobcycle . value ) * cl_bobcycle . value ;
cycle / = cl_bobcycle . value ;
if ( cycle < cl_bobup . value )
cycle = M_PI * cycle / cl_bobup . value ;
else
cycle = M_PI + M_PI * ( cycle - cl_bobup . value ) / ( 1.0 - cl_bobup . value ) ;
// bob is proportional to simulated velocity in the xy plane
// (don't count Z, or jumping messes it up)
bob [ pnum ] = sqrt ( cl . simvel [ pnum ] [ 0 ] * cl . simvel [ pnum ] [ 0 ] + cl . simvel [ pnum ] [ 1 ] * cl . simvel [ pnum ] [ 1 ] ) * cl_bob . value ;
bob [ pnum ] = bob [ pnum ] * 0.3 + bob [ pnum ] * 0.7 * sin ( cycle ) ;
if ( bob [ pnum ] > 4 )
bob [ pnum ] = 4 ;
else if ( bob [ pnum ] < - 7 )
bob [ pnum ] = - 7 ;
return bob [ pnum ] ;
}
//=============================================================================
cvar_t v_centermove = { " v_centermove " , " 0.15 " } ;
cvar_t v_centerspeed = { " v_centerspeed " , " 500 " } ;
void V_StartPitchDrift ( int pnum )
{
# if 1
if ( cl . laststop [ pnum ] = = cl . time )
{
return ; // something else is keeping it from drifting
}
# endif
if ( cl . nodrift | | ! cl . pitchvel )
{
cl . pitchvel [ pnum ] = v_centerspeed . value ;
cl . nodrift [ pnum ] = false ;
cl . driftmove [ pnum ] = 0 ;
}
}
void V_StopPitchDrift ( int pnum )
{
cl . laststop [ pnum ] = cl . time ;
cl . nodrift [ pnum ] = true ;
cl . pitchvel [ pnum ] = 0 ;
}
/*
= = = = = = = = = = = = = = =
V_DriftPitch
Moves the client pitch angle towards cl . idealpitch sent by the server .
If the user is adjusting pitch manually , either with lookup / lookdown ,
mlook and mouse , or klook and keyboard , pitch drifting is constantly stopped .
Drifting is enabled when the center view key is hit , mlook is released and
lookspring is non 0 , or when
= = = = = = = = = = = = = = =
*/
void V_DriftPitch ( int pnum )
{
float delta , move ;
if ( ! cl . onground | | cls . demoplayback )
{
cl . driftmove [ pnum ] = 0 ;
cl . pitchvel [ pnum ] = 0 ;
return ;
}
// don't count small mouse motion
if ( cl . nodrift [ pnum ] )
{
if ( fabs ( cl . frames [ ( cls . netchan . outgoing_sequence - 1 ) & UPDATE_MASK ] . cmd [ pnum ] . forwardmove ) < 200 )
cl . driftmove [ pnum ] = 0 ;
else
cl . driftmove [ pnum ] + = host_frametime ;
if ( cl . driftmove [ pnum ] > v_centermove . value )
{
V_StartPitchDrift ( pnum ) ;
}
return ;
}
delta = 0 - cl . viewangles [ pnum ] [ PITCH ] ;
if ( ! delta )
{
cl . pitchvel [ pnum ] = 0 ;
return ;
}
move = host_frametime * cl . pitchvel [ pnum ] ;
cl . pitchvel [ pnum ] + = host_frametime * v_centerspeed . value ;
//Con_Printf ("move: %f (%f)\n", move, host_frametime);
if ( delta > 0 )
{
if ( move > delta )
{
cl . pitchvel [ pnum ] = 0 ;
move = delta ;
}
cl . viewangles [ pnum ] [ PITCH ] + = move ;
}
else if ( delta < 0 )
{
if ( move > - delta )
{
cl . pitchvel [ pnum ] = 0 ;
move = - delta ;
}
cl . viewangles [ pnum ] [ PITCH ] - = move ;
}
}
/*
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
PALETTE FLASHES
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
*/
cshift_t cshift_empty = { { 130 , 80 , 50 } , 0 } ;
cshift_t cshift_water = { { 130 , 80 , 50 } , 128 } ;
cshift_t cshift_slime = { { 0 , 25 , 5 } , 150 } ;
cshift_t cshift_lava = { { 255 , 80 , 0 } , 150 } ;
cshift_t cshift_server = { { 130 , 80 , 50 } , 0 } ;
cvar_t v_gamma = { " gamma " , " 1 " , NULL , CVAR_ARCHIVE } ;
cvar_t v_contrast = { " contrast " , " 1 " , NULL , CVAR_ARCHIVE } ;
qbyte gammatable [ 256 ] ; // palette is sent through this
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unsigned short ramps [ 3 ] [ 256 ] ;
extern qboolean gammaworks ;
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float v_blend [ 4 ] ; // rgba 0.0 - 1.0
/*
void BuildGammaTable ( float g )
{
int i , inf ;
if ( g = = 1.0 )
{
for ( i = 0 ; i < 256 ; i + + )
gammatable [ i ] = i ;
return ;
}
for ( i = 0 ; i < 256 ; i + + )
{
inf = 255 * pow ( ( i + 0.5 ) / 255.5 , g ) + 0.5 ;
if ( inf < 0 )
inf = 0 ;
if ( inf > 255 )
inf = 255 ;
gammatable [ i ] = inf ;
}
} */
void BuildGammaTable ( float g , float c )
{
int i , inf ;
// g = bound (0.1, g, 3);
// c = bound (1, c, 3);
if ( g = = 1 & & c = = 1 ) {
for ( i = 0 ; i < 256 ; i + + )
gammatable [ i ] = i ;
return ;
}
for ( i = 0 ; i < 256 ; i + + ) {
inf = 255 * pow ( ( i + 0.5 ) / 255.5 * c , g ) + 0.5 ;
if ( inf < 0 )
inf = 0 ;
else if ( inf > 255 )
inf = 255 ;
gammatable [ i ] = inf ;
}
}
/*
= = = = = = = = = = = = = = = = =
V_CheckGamma
= = = = = = = = = = = = = = = = =
*/
qboolean V_CheckGamma ( void )
{
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if ( v_gamma . modified | | v_contrast . modified )
{
v_contrast . modified = false ;
v_gamma . modified = false ;
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BuildGammaTable ( v_gamma . value , v_contrast . value ) ;
vid . recalc_refdef = 1 ; // force a surface cache flush
return true ;
}
return false ;
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}
/*
= = = = = = = = = = = = = = =
V_ParseDamage
= = = = = = = = = = = = = = =
*/
void V_ParseDamage ( int pnum )
{
int armor , blood ;
vec3_t from ;
int i ;
vec3_t forward , right , up ;
float side ;
float count ;
armor = MSG_ReadByte ( ) ;
blood = MSG_ReadByte ( ) ;
for ( i = 0 ; i < 3 ; i + + )
from [ i ] = MSG_ReadCoord ( ) ;
count = blood * 0.5 + armor * 0.5 ;
if ( count < 10 )
count = 10 ;
if ( v_damagecshift . value > = 0 )
count * = v_damagecshift . value ;
cl . faceanimtime [ pnum ] = cl . time + 0.2 ; // but sbar face into pain frame
cl . cshifts [ CSHIFT_DAMAGE ] . percent + = 3 * count ;
if ( cl . cshifts [ CSHIFT_DAMAGE ] . percent < 0 )
cl . cshifts [ CSHIFT_DAMAGE ] . percent = 0 ;
if ( cl . cshifts [ CSHIFT_DAMAGE ] . percent > 150 )
cl . cshifts [ CSHIFT_DAMAGE ] . percent = 150 ;
if ( armor > blood )
{
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 0 ] = 200 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 1 ] = 100 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 2 ] = 100 ;
}
else if ( armor )
{
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 0 ] = 220 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 1 ] = 50 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 2 ] = 50 ;
}
else
{
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 0 ] = 255 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 1 ] = 0 ;
cl . cshifts [ CSHIFT_DAMAGE ] . destcolor [ 2 ] = 0 ;
}
//
// calculate view angle kicks
//
VectorSubtract ( from , cl . simorg [ pnum ] , from ) ;
VectorNormalize ( from ) ;
AngleVectors ( cl . simangles [ pnum ] , forward , right , up ) ;
side = DotProduct ( from , right ) ;
v_dmg_roll [ pnum ] = count * side * v_kickroll . value ;
side = DotProduct ( from , forward ) ;
v_dmg_pitch [ pnum ] = count * side * v_kickpitch . value ;
v_dmg_time [ pnum ] = v_kicktime . value ;
}
/*
= = = = = = = = = = = = = = = = = =
V_cshift_f
= = = = = = = = = = = = = = = = = =
*/
void V_cshift_f ( void )
{
if ( Cmd_FromServer ( ) )
{
cl . cshifts [ CSHIFT_SERVER ] . destcolor [ 0 ] = atoi ( Cmd_Argv ( 1 ) ) ;
cl . cshifts [ CSHIFT_SERVER ] . destcolor [ 1 ] = atoi ( Cmd_Argv ( 2 ) ) ;
cl . cshifts [ CSHIFT_SERVER ] . destcolor [ 2 ] = atoi ( Cmd_Argv ( 3 ) ) ;
cl . cshifts [ CSHIFT_SERVER ] . percent = atoi ( Cmd_Argv ( 4 ) ) ;
}
cshift_empty . destcolor [ 0 ] = atoi ( Cmd_Argv ( 1 ) ) ;
cshift_empty . destcolor [ 1 ] = atoi ( Cmd_Argv ( 2 ) ) ;
cshift_empty . destcolor [ 2 ] = atoi ( Cmd_Argv ( 3 ) ) ;
cshift_empty . percent = atoi ( Cmd_Argv ( 4 ) ) ;
}
/*
= = = = = = = = = = = = = = = = = =
V_BonusFlash_f
When you run over an item , the server sends this command
= = = = = = = = = = = = = = = = = =
*/
void V_BonusFlash_f ( void )
{
if ( v_bonusflash . value | | ! Cmd_FromServer ( ) )
{
cl . cshifts [ CSHIFT_BONUS ] . destcolor [ 0 ] = 215 ;
cl . cshifts [ CSHIFT_BONUS ] . destcolor [ 1 ] = 186 ;
cl . cshifts [ CSHIFT_BONUS ] . destcolor [ 2 ] = 69 ;
cl . cshifts [ CSHIFT_BONUS ] . percent = 50 ;
}
}
/*
= = = = = = = = = = = = =
V_SetContentsColor
Underwater , lava , etc each has a color shift
FIXME : Uses Q1 contents
= = = = = = = = = = = = =
*/
void V_SetContentsColor ( int contents )
{
int i ;
switch ( contents )
{
case Q1CONTENTS_EMPTY :
cl . cshifts [ CSHIFT_CONTENTS ] = cshift_empty ;
break ;
case Q1CONTENTS_LAVA :
cl . cshifts [ CSHIFT_CONTENTS ] = cshift_lava ;
break ;
case Q1CONTENTS_SOLID :
case Q1CONTENTS_SLIME :
cl . cshifts [ CSHIFT_CONTENTS ] = cshift_slime ;
break ;
default :
cl . cshifts [ CSHIFT_CONTENTS ] = cshift_water ;
}
cl . cshifts [ CSHIFT_CONTENTS ] . percent * = v_contentblend . value ;
if ( cl . cshifts [ CSHIFT_SERVER ] . percent )
{ //bound contents so it can't go negative
if ( cl . cshifts [ CSHIFT_CONTENTS ] . percent < 0 )
cl . cshifts [ CSHIFT_CONTENTS ] . percent = 0 ;
for ( i = 0 ; i < 3 ; i + + )
if ( cl . cshifts [ CSHIFT_CONTENTS ] . destcolor [ 0 ] < 0 )
cl . cshifts [ CSHIFT_CONTENTS ] . destcolor [ 0 ] = 0 ;
}
}
/*
= = = = = = = = = = = = =
V_CalcPowerupCshift
= = = = = = = = = = = = =
*/
void V_CalcPowerupCshift ( void )
{
int im = 0 ;
int s ;
//we only have one palette, so combine the mask
for ( s = 0 ; s < cl . splitclients ; s + + )
im | = cl . stats [ s ] [ STAT_ITEMS ] ;
if ( im & IT_QUAD )
{
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 0 ] = 0 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 1 ] = 0 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 2 ] = 255 ;
cl . cshifts [ CSHIFT_POWERUP ] . percent = 30 * v_quadcshift . value ;
}
else if ( im & IT_SUIT )
{
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 0 ] = 0 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 1 ] = 255 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 2 ] = 0 ;
cl . cshifts [ CSHIFT_POWERUP ] . percent = 20 * v_suitcshift . value ;
}
else if ( im & IT_INVISIBILITY )
{
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 0 ] = 100 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 1 ] = 100 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 2 ] = 100 ;
cl . cshifts [ CSHIFT_POWERUP ] . percent = 100 * v_ringcshift . value ;
}
else if ( im & IT_INVULNERABILITY )
{
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 0 ] = 255 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 1 ] = 255 ;
cl . cshifts [ CSHIFT_POWERUP ] . destcolor [ 2 ] = 0 ;
cl . cshifts [ CSHIFT_POWERUP ] . percent = 30 * v_pentcshift . value ;
}
else
cl . cshifts [ CSHIFT_POWERUP ] . percent = 0 ;
if ( cl . cshifts [ CSHIFT_POWERUP ] . percent < 0 )
cl . cshifts [ CSHIFT_POWERUP ] . percent = 0 ;
}
/*
= = = = = = = = = = = = =
V_CalcBlend
= = = = = = = = = = = = =
*/
# if defined(RGLQUAKE)
void GLV_CalcBlend ( void )
{
float r , g , b , a , a2 ;
int j ;
r = 0 ;
g = 0 ;
b = 0 ;
a = 0 ;
for ( j = 0 ; j < NUM_CSHIFTS ; j + + )
{
if ( j ! = CSHIFT_SERVER )
{
if ( ! gl_cshiftpercent . value | | ! gl_polyblend . value )
continue ;
a2 = ( ( cl . cshifts [ j ] . percent * gl_cshiftpercent . value ) / 100.0 ) / 255.0 ;
}
else
{
a2 = cl . cshifts [ j ] . percent / 255.0 ;
}
// a2 = (cl.cshifts[j].percent/2)/255.0;
if ( ! a2 )
continue ;
a = a + a2 * ( 1 - a ) ;
//Con_Printf ("j:%i a:%f\n", j, a);
a2 = a2 / a ;
r = r * ( 1 - a2 ) + cl . cshifts [ j ] . destcolor [ 0 ] * a2 ;
g = g * ( 1 - a2 ) + cl . cshifts [ j ] . destcolor [ 1 ] * a2 ;
b = b * ( 1 - a2 ) + cl . cshifts [ j ] . destcolor [ 2 ] * a2 ;
}
v_blend [ 0 ] = r / 255.0 ;
v_blend [ 1 ] = g / 255.0 ;
v_blend [ 2 ] = b / 255.0 ;
v_blend [ 3 ] = a ;
if ( v_blend [ 3 ] > 1 )
v_blend [ 3 ] = 1 ;
if ( v_blend [ 3 ] < 0 )
v_blend [ 3 ] = 0 ;
}
/*
= = = = = = = = = = = = =
V_UpdatePalette
= = = = = = = = = = = = =
*/
void GLV_UpdatePalette ( void )
{
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qboolean ogw ;
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int i , j ;
qboolean new ;
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// qbyte *basepal, *newpal;
// qbyte pal[768];
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float r , g , b , a ;
int ir , ig , ib ;
qboolean force ;
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extern cvar_t vid_hardwaregamma ;
float hwg ;
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V_CalcPowerupCshift ( ) ;
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// drop the damage value
cl . cshifts [ CSHIFT_DAMAGE ] . percent - = host_frametime * 150 ;
if ( cl . cshifts [ CSHIFT_DAMAGE ] . percent < = 0 )
cl . cshifts [ CSHIFT_DAMAGE ] . percent = 0 ;
// drop the bonus value
cl . cshifts [ CSHIFT_BONUS ] . percent - = host_frametime * 100 ;
if ( cl . cshifts [ CSHIFT_BONUS ] . percent < = 0 )
cl . cshifts [ CSHIFT_BONUS ] . percent = 0 ;
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new = false ;
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for ( i = 0 ; i < NUM_CSHIFTS ; i + + )
{
if ( cl . cshifts [ i ] . percent ! = cl . prev_cshifts [ i ] . percent )
{
new = true ;
cl . prev_cshifts [ i ] . percent = cl . cshifts [ i ] . percent ;
}
for ( j = 0 ; j < 3 ; j + + )
if ( cl . cshifts [ i ] . destcolor [ j ] ! = cl . prev_cshifts [ i ] . destcolor [ j ] )
{
new = true ;
cl . prev_cshifts [ i ] . destcolor [ j ] = cl . cshifts [ i ] . destcolor [ j ] ;
}
}
force = V_CheckGamma ( ) ;
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hwg = vid_hardwaregamma . value ;
if ( vid_hardwaregamma . modified & & ! hwg )
{
vid_hardwaregamma . value = hwg ;
force = true ;
}
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if ( ! new & & ! force )
return ;
GLV_CalcBlend ( ) ;
//Con_Printf("b: %4.2f %4.2f %4.2f %4.6f\n", v_blend[0], v_blend[1], v_blend[2], v_blend[3]);
a = v_blend [ 3 ] ;
r = 255 * v_blend [ 0 ] * a ;
g = 255 * v_blend [ 1 ] * a ;
b = 255 * v_blend [ 2 ] * a ;
a = 1 - a ;
for ( i = 0 ; i < 256 ; i + + )
{
ir = i * a + r ;
ig = i * a + g ;
ib = i * a + b ;
if ( ir > 255 )
ir = 255 ;
if ( ig > 255 )
ig = 255 ;
if ( ib > 255 )
ib = 255 ;
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ramps [ 0 ] [ i ] = gammatable [ ir ] < < 8 ;
ramps [ 1 ] [ i ] = gammatable [ ig ] < < 8 ;
ramps [ 2 ] [ i ] = gammatable [ ib ] < < 8 ;
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}
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ogw = gammaworks ;
VID_ShiftPalette ( NULL ) ;
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vid_hardwaregamma . value = hwg ;
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if ( ogw ! = gammaworks )
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{
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Con_DPrintf ( " Gamma working state %i \n " , gammaworks ) ;
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}
}
# endif
/*
= = = = = = = = = = = = =
V_UpdatePalette
= = = = = = = = = = = = =
*/
# ifdef SWQUAKE
void SWV_UpdatePalette ( void )
{
int i , j ;
qboolean new ;
qbyte * basepal , * newpal ;
qbyte pal [ 768 ] ;
int r , g , b ;
qboolean force ;
V_CalcPowerupCshift ( ) ;
new = false ;
for ( i = 0 ; i < NUM_CSHIFTS ; i + + )
{
if ( cl . cshifts [ i ] . percent ! = cl . prev_cshifts [ i ] . percent )
{
new = true ;
cl . prev_cshifts [ i ] . percent = cl . cshifts [ i ] . percent ;
}
for ( j = 0 ; j < 3 ; j + + )
if ( cl . cshifts [ i ] . destcolor [ j ] ! = cl . prev_cshifts [ i ] . destcolor [ j ] )
{
new = true ;
cl . prev_cshifts [ i ] . destcolor [ j ] = cl . cshifts [ i ] . destcolor [ j ] ;
}
}
// drop the damage value
cl . cshifts [ CSHIFT_DAMAGE ] . percent - = host_frametime * 150 ;
if ( cl . cshifts [ CSHIFT_DAMAGE ] . percent < = 0 )
cl . cshifts [ CSHIFT_DAMAGE ] . percent = 0 ;
// drop the bonus value
cl . cshifts [ CSHIFT_BONUS ] . percent - = host_frametime * 100 ;
if ( cl . cshifts [ CSHIFT_BONUS ] . percent < = 0 )
cl . cshifts [ CSHIFT_BONUS ] . percent = 0 ;
force = V_CheckGamma ( ) ;
if ( r_pixbytes = = 4 ) //doesn't support palette cycling. It messes up caches.
{
if ( ! force )
return ;
basepal = host_basepal ;
newpal = pal ;
for ( i = 0 ; i < 256 ; i + + )
{
r = basepal [ 0 ] ;
g = basepal [ 1 ] ;
b = basepal [ 2 ] ;
basepal + = 3 ;
newpal [ 0 ] = gammatable [ r ] ;
newpal [ 1 ] = gammatable [ g ] ;
newpal [ 2 ] = gammatable [ b ] ;
newpal + = 3 ;
}
VID_ShiftPalette ( pal ) ;
return ;
}
if ( ! new & & ! force )
return ;
basepal = host_basepal ;
newpal = pal ;
for ( i = 0 ; i < 256 ; i + + )
{
r = basepal [ 0 ] ;
g = basepal [ 1 ] ;
b = basepal [ 2 ] ;
basepal + = 3 ;
for ( j = 0 ; j < NUM_CSHIFTS ; j + + )
{
r + = ( cl . cshifts [ j ] . percent * ( cl . cshifts [ j ] . destcolor [ 0 ] - r ) ) > > 8 ;
g + = ( cl . cshifts [ j ] . percent * ( cl . cshifts [ j ] . destcolor [ 1 ] - g ) ) > > 8 ;
b + = ( cl . cshifts [ j ] . percent * ( cl . cshifts [ j ] . destcolor [ 2 ] - b ) ) > > 8 ;
}
newpal [ 0 ] = gammatable [ r ] ;
newpal [ 1 ] = gammatable [ g ] ;
newpal [ 2 ] = gammatable [ b ] ;
newpal + = 3 ;
}
VID_ShiftPalette ( pal ) ;
}
# endif // SWQUAKE
/*
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
VIEW RENDERING
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
*/
float angledelta ( float a )
{
a = anglemod ( a ) ;
if ( a > 180 )
a - = 360 ;
return a ;
}
/*
= = = = = = = = = = = = = = = = = =
CalcGunAngle
= = = = = = = = = = = = = = = = = =
*/
void CalcGunAngle ( int pnum )
{
float yaw , pitch , move ;
static float oldyaw = 0 ;
static float oldpitch = 0 ;
yaw = r_refdef . viewangles [ YAW ] ;
pitch = - r_refdef . viewangles [ PITCH ] ;
yaw = angledelta ( yaw - r_refdef . viewangles [ YAW ] ) * 0.4 ;
if ( yaw > 10 )
yaw = 10 ;
if ( yaw < - 10 )
yaw = - 10 ;
pitch = angledelta ( - pitch - r_refdef . viewangles [ PITCH ] ) * 0.4 ;
if ( pitch > 10 )
pitch = 10 ;
if ( pitch < - 10 )
pitch = - 10 ;
move = host_frametime * 20 ;
if ( yaw > oldyaw )
{
if ( oldyaw + move < yaw )
yaw = oldyaw + move ;
}
else
{
if ( oldyaw - move > yaw )
yaw = oldyaw - move ;
}
if ( pitch > oldpitch )
{
if ( oldpitch + move < pitch )
pitch = oldpitch + move ;
}
else
{
if ( oldpitch - move > pitch )
pitch = oldpitch - move ;
}
oldyaw = yaw ;
oldpitch = pitch ;
cl . viewent [ pnum ] . angles [ YAW ] = r_refdef . viewangles [ YAW ] + yaw ;
cl . viewent [ pnum ] . angles [ PITCH ] = - ( r_refdef . viewangles [ PITCH ] + pitch ) ;
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cl . viewent [ pnum ] . angles [ PITCH ] * = - 1 ;
AngleVectors ( cl . viewent [ pnum ] . angles , cl . viewent [ pnum ] . axis [ 0 ] , cl . viewent [ pnum ] . axis [ 1 ] , cl . viewent [ pnum ] . axis [ 2 ] ) ;
VectorInverse ( cl . viewent [ pnum ] . axis [ 1 ] ) ;
cl . viewent [ pnum ] . angles [ PITCH ] * = - 1 ;
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}
/*
= = = = = = = = = = = = = =
V_BoundOffsets
= = = = = = = = = = = = = =
*/
void V_BoundOffsets ( int pnum )
{
// absolutely bound refresh reletive to entity clipping hull
// so the view can never be inside a solid wall
if ( r_refdef . vieworg [ 0 ] < cl . simorg [ pnum ] [ 0 ] - 14 )
r_refdef . vieworg [ 0 ] = cl . simorg [ pnum ] [ 0 ] - 14 ;
else if ( r_refdef . vieworg [ 0 ] > cl . simorg [ pnum ] [ 0 ] + 14 )
r_refdef . vieworg [ 0 ] = cl . simorg [ pnum ] [ 0 ] + 14 ;
if ( r_refdef . vieworg [ 1 ] < cl . simorg [ pnum ] [ 1 ] - 14 )
r_refdef . vieworg [ 1 ] = cl . simorg [ pnum ] [ 1 ] - 14 ;
else if ( r_refdef . vieworg [ 1 ] > cl . simorg [ pnum ] [ 1 ] + 14 )
r_refdef . vieworg [ 1 ] = cl . simorg [ pnum ] [ 1 ] + 14 ;
if ( r_refdef . vieworg [ 2 ] < cl . simorg [ pnum ] [ 2 ] - 22 )
r_refdef . vieworg [ 2 ] = cl . simorg [ pnum ] [ 2 ] - 22 ;
else if ( r_refdef . vieworg [ 2 ] > cl . simorg [ pnum ] [ 2 ] + 30 )
r_refdef . vieworg [ 2 ] = cl . simorg [ pnum ] [ 2 ] + 30 ;
}
/*
= = = = = = = = = = = = = =
V_AddIdle
Idle swaying
= = = = = = = = = = = = = =
*/
void V_AddIdle ( int pnum )
{
//defaults: for use if idlescale is locked and the var isn't.
float yaw_cycle = 2 ;
float roll_cycle = 0.5 ;
float pitch_cycle = 1 ;
float yaw_level = 0.3 ;
float roll_level = 0.1 ;
float pitch_level = 0.3 ;
if ( v_iyaw_cycle . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
yaw_cycle = v_iyaw_cycle . value ;
if ( v_iroll_cycle . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
roll_cycle = v_iroll_cycle . value ;
if ( v_ipitch_cycle . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
pitch_cycle = v_ipitch_cycle . value ;
if ( v_iyaw_level . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
yaw_level = v_iyaw_level . value ;
if ( v_iroll_level . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
roll_level = v_iroll_level . value ;
if ( v_ipitch_level . flags & CVAR_SERVEROVERRIDE | | ! ( v_idlescale . flags & CVAR_SERVEROVERRIDE ) )
pitch_level = v_ipitch_level . value ;
r_refdef . viewangles [ ROLL ] + = v_idlescale . value * sin ( cl . time * roll_cycle ) * roll_level ;
r_refdef . viewangles [ PITCH ] + = v_idlescale . value * sin ( cl . time * pitch_cycle ) * pitch_level ;
r_refdef . viewangles [ YAW ] + = v_idlescale . value * sin ( cl . time * yaw_cycle ) * yaw_level ;
cl . viewent [ pnum ] . angles [ ROLL ] - = v_idlescale . value * sin ( cl . time * roll_cycle ) * roll_level ;
cl . viewent [ pnum ] . angles [ PITCH ] - = v_idlescale . value * sin ( cl . time * pitch_cycle ) * pitch_level ;
cl . viewent [ pnum ] . angles [ YAW ] - = v_idlescale . value * sin ( cl . time * yaw_cycle ) * yaw_level ;
}
/*
= = = = = = = = = = = = = =
V_CalcViewRoll
Roll is induced by movement and damage
= = = = = = = = = = = = = =
*/
void V_CalcViewRoll ( int pnum )
{
float side ;
float adjspeed ;
side = V_CalcRoll ( cl . simangles [ pnum ] , cl . simvel [ pnum ] ) ;
adjspeed = fabs ( cl_rollangle . value ) ;
if ( adjspeed < 1 )
adjspeed = 1 ;
if ( adjspeed > 45 )
adjspeed = 45 ;
adjspeed * = 20 ;
if ( side > cl . rollangle [ pnum ] )
{
cl . rollangle [ pnum ] + = host_frametime * adjspeed ;
if ( cl . rollangle [ pnum ] > side )
cl . rollangle [ pnum ] = side ;
}
else if ( side < cl . rollangle [ pnum ] )
{
cl . rollangle [ pnum ] - = host_frametime * adjspeed ;
if ( cl . rollangle [ pnum ] < side )
cl . rollangle [ pnum ] = side ;
}
r_refdef . viewangles [ ROLL ] + = cl . rollangle [ pnum ] ;
if ( v_dmg_time [ pnum ] > 0 )
{
r_refdef . viewangles [ ROLL ] + = v_dmg_time [ pnum ] / v_kicktime . value * v_dmg_roll [ pnum ] ;
r_refdef . viewangles [ PITCH ] + = v_dmg_time [ pnum ] / v_kicktime . value * v_dmg_pitch [ pnum ] ;
v_dmg_time [ pnum ] - = host_frametime ;
}
}
/*
= = = = = = = = = = = = = = = = = =
V_CalcIntermissionRefdef
= = = = = = = = = = = = = = = = = =
*/
void V_CalcIntermissionRefdef ( int pnum )
{
entity_t * view ;
float old ;
// view is the weapon model
view = & cl . viewent [ pnum ] ;
VectorCopy ( cl . simorg [ pnum ] , r_refdef . vieworg ) ;
VectorCopy ( cl . simangles [ pnum ] , r_refdef . viewangles ) ;
view - > model = NULL ;
// allways idle in intermission
old = v_idlescale . value ;
v_idlescale . value = 1 ;
V_AddIdle ( pnum ) ;
v_idlescale . value = old ;
}
/*
= = = = = = = = = = = = = = = = = =
V_CalcRefdef
= = = = = = = = = = = = = = = = = =
*/
void V_CalcRefdef ( int pnum )
{
entity_t * view ;
int i ;
vec3_t forward , right , up ;
float bob ;
# ifdef Q2CLIENT
if ( cls . q2server )
return ;
# endif
r_refdef . currentplayernum = pnum ;
V_DriftPitch ( pnum ) ;
// view is the weapon model (only visible from inside body)
view = & cl . viewent [ pnum ] ;
bob = V_CalcBob ( pnum ) ;
// refresh position from simulated origin
VectorCopy ( cl . simorg [ pnum ] , r_refdef . vieworg ) ;
r_refdef . vieworg [ 2 ] + = bob ;
// never let it sit exactly on a node line, because a water plane can
// dissapear when viewed with the eye exactly on it.
// the server protocol only specifies to 1/8 pixel, so add 1/16 in each axis
r_refdef . vieworg [ 0 ] + = 1.0 / 16 ;
r_refdef . vieworg [ 1 ] + = 1.0 / 16 ;
r_refdef . vieworg [ 2 ] + = 1.0 / 16 ;
VectorCopy ( cl . simangles [ pnum ] , r_refdef . viewangles ) ;
V_CalcViewRoll ( pnum ) ;
V_AddIdle ( pnum ) ;
# ifdef Q2CLIENT
if ( ! cls . q2server )
# endif
{
if ( view_message - > flags & PF_GIB )
r_refdef . vieworg [ 2 ] + = 8 ; // gib view height
else if ( view_message - > flags & PF_DEAD )
r_refdef . vieworg [ 2 ] - = 16 ; // corpse view height
else
r_refdef . vieworg [ 2 ] + = cl . viewheight [ pnum ] ;
r_refdef . vieworg [ 2 ] + = cl . crouch [ pnum ] ;
}
if ( view_message - > flags & PF_DEAD ) // PF_GIB will also set PF_DEAD
{
if ( ! cl . spectator | | ! cl_chasecam . value )
r_refdef . viewangles [ ROLL ] = 80 ; // dead view angle
}
// offsets
AngleVectors ( cl . simangles [ pnum ] , forward , right , up ) ;
// set up gun position
VectorCopy ( cl . simangles [ pnum ] , view - > angles ) ;
CalcGunAngle ( pnum ) ;
VectorCopy ( cl . simorg [ pnum ] , view - > origin ) ;
view - > origin [ 2 ] + = cl . viewheight [ pnum ] ;
view - > origin [ 2 ] + = cl . crouch [ pnum ] ;
for ( i = 0 ; i < 3 ; i + + )
{
view - > origin [ i ] + = forward [ i ] * bob * 0.4 ;
// view->origin[i] += right[i]*bob*0.4;
// view->origin[i] += up[i]*bob*0.8;
}
view - > origin [ 2 ] + = bob ;
// fudge position around to keep amount of weapon visible
// roughly equal with different FOV
if ( scr_viewsize . value = = 110 )
view - > origin [ 2 ] + = 1 ;
else if ( scr_viewsize . value = = 100 )
view - > origin [ 2 ] + = 2 ;
else if ( scr_viewsize . value = = 90 )
view - > origin [ 2 ] + = 1 ;
else if ( scr_viewsize . value = = 80 )
view - > origin [ 2 ] + = 0.5 ;
# ifdef Q2CLIENT
if ( cls . q2server )
view - > model = NULL ;
else
# endif
if ( view_message - > flags & ( PF_GIB | PF_DEAD ) )
view - > model = NULL ;
else
view - > model = cl . model_precache [ cl . stats [ pnum ] [ STAT_WEAPON ] ] ;
view - > frame = view_message - > weaponframe ;
view - > colormap = vid . colormap ;
// set up the refresh position
r_refdef . viewangles [ PITCH ] + = cl . punchangle [ pnum ] ;
// smooth out stair step ups
{
extern model_t * loadmodel ;
loadmodel = cl . worldmodel ;
}
}
/*
= = = = = = = = = = = = =
DropPunchAngle
= = = = = = = = = = = = =
*/
void DropPunchAngle ( int pnum )
{
cl . punchangle [ pnum ] - = 10 * host_frametime ;
if ( cl . punchangle [ pnum ] < 0 )
cl . punchangle [ pnum ] = 0 ;
}
/*
= = = = = = = = = = = = = = = = = =
V_RenderView
The player ' s clipping box goes from ( - 16 - 16 - 24 ) to ( 16 16 32 ) from
the entity origin , so any view position inside that will be valid
= = = = = = = = = = = = = = = = = =
*/
extern vrect_t scr_vrect ;
int gl_ztrickdisabled ;
qboolean r_secondaryview ;
# ifdef SIDEVIEWS
# ifdef PEXT_VIEW2
entity_t * CL_EntityNum ( int num )
{
int i ;
for ( i = 0 ; i < cl_numvisedicts ; i + + )
{
if ( cl_visedicts [ i ] . keynum = = num )
return & cl_visedicts [ i ] ;
}
return NULL ;
}
# endif
# endif
float CalcFov ( float fov_x , float width , float height ) ;
void SCR_VRectForPlayer ( vrect_t * vrect , int pnum )
{
# if MAX_SPLITS > 4
# pragma warning "Please change this function to cope with the new MAX_SPLITS value"
# endif
switch ( cl . splitclients )
{
case 1 :
vrect - > width = scr_vrect . width ;
vrect - > height = scr_vrect . height ;
vrect - > x = scr_vrect . x ;
vrect - > y = scr_vrect . y ;
break ;
case 2 : //horizontal bands
case 3 :
vrect - > width = vid . width ;
vrect - > height = vid . height / cl . splitclients ;
vrect - > x = 0 ;
vrect - > y = 0 + vrect - > height * pnum ;
break ;
case 4 : //4 squares
vrect - > width = vid . width / 2 ;
vrect - > height = vid . height / 2 ;
vrect - > x = ( pnum & 1 ) * vrect - > width ;
vrect - > y = ( pnum & 2 ) / 2 * vrect - > height ;
break ;
default :
Sys_Error ( " cl.splitclients is invalid. " ) ;
}
r_refdef . fov_x = scr_fov . value ;
r_refdef . fov_y = CalcFov ( r_refdef . fov_x , vrect - > width , vrect - > height ) ;
}
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void V_RenderPlayerViews ( int plnum )
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{
int viewnum ;
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SCR_VRectForPlayer ( & r_refdef . vrect , plnum ) ;
view_message = & view_frame - > playerstate [ cl . playernum [ plnum ] ] ;
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cl . simangles [ plnum ] [ ROLL ] = 0 ; // FIXME @@@
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2004-11-17 18:04:43 +00:00
DropPunchAngle ( plnum ) ;
if ( cl . intermission )
{ // intermission / finale rendering
V_CalcIntermissionRefdef ( plnum ) ;
}
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else
{
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V_CalcRefdef ( plnum ) ;
}
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# ifdef SWQUAKE
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r_viewchanged = true ;
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# endif
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# if defined(FISH) && defined(SWQUAKE)
if ( ffov . value & & cls . allow_fish & & qrenderer = = QR_SOFTWARE )
R_RenderView_fisheye ( ) ;
else
# endif
R_RenderView ( ) ;
r_secondaryview = 2 ;
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# ifdef SIDEVIEWS
/* //adjust main view height to strip off the rearviews at the top
if ( vsecwidth > = 1 )
{
r_refdef . vrect . y - = vsecheight ;
r_refdef . vrect . height + = vsecheight ;
}
*/
# ifdef RGLQUAKE
gl_ztrickdisabled & = ~ 1 ;
# endif
for ( viewnum = 0 ; viewnum < SIDEVIEWS ; viewnum + + )
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if ( vsec_enabled [ viewnum ] . value & & vsec_scalex [ viewnum ] . value > 0 & & vsec_scaley [ viewnum ] . value > 0 & & ( cls . allow_rearview | | ( cl . stats [ plnum ] [ STAT_VIEW2 ] & & viewnum = = 0 ) ) ) //will the server allow us to?
2004-08-23 00:15:46 +00:00
{
vrect_t oldrect ;
vec3_t oldangles ;
vec3_t oldposition ;
// int oldviewent;
struct entity_s * e ;
float ofx ;
float ofy ;
gl_ztrickdisabled | = 1 ;
# ifdef SWQUAKE
r_viewchanged = true ;
# endif
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vid . recalc_refdef = true ;
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r_secondaryview = true ;
if ( vsec_x [ viewnum ] . value < 0 )
vsec_x [ viewnum ] . value = 0 ;
if ( vsec_y [ viewnum ] . value < 0 )
vsec_y [ viewnum ] . value = 0 ;
if ( vsec_scalex [ viewnum ] . value + vsec_x [ viewnum ] . value > 1 )
continue ;
if ( vsec_scaley [ viewnum ] . value + vsec_y [ viewnum ] . value > 1 )
continue ;
oldrect = r_refdef . vrect ;
memcpy ( oldangles , r_refdef . viewangles , sizeof ( vec3_t ) ) ;
memcpy ( oldposition , r_refdef . vieworg , sizeof ( vec3_t ) ) ;
ofx = r_refdef . fov_x ;
ofy = r_refdef . fov_y ;
r_refdef . vrect . x + = r_refdef . vrect . width * vsec_x [ viewnum ] . value ;
r_refdef . vrect . y + = r_refdef . vrect . height * vsec_y [ viewnum ] . value ;
r_refdef . vrect . width * = vsec_scalex [ viewnum ] . value ;
r_refdef . vrect . height * = vsec_scaley [ viewnum ] . value ;
# ifdef PEXT_VIEW2
//secondary view entity.
e = NULL ;
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if ( viewnum = = 0 & & cl . stats [ plnum ] [ STAT_VIEW2 ] )
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{
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e = CL_EntityNum ( cl . stats [ plnum ] [ STAT_VIEW2 ] ) ;
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}
if ( e )
{
float s ;
memcpy ( r_refdef . viewangles , e - > angles , sizeof ( vec3_t ) ) ;
memcpy ( r_refdef . vieworg , e - > origin , sizeof ( vec3_t ) ) ;
// cl.viewentity = cl.viewentity2;
// s = (realtime - e->lerptime)*10;
// if (s > 1) s=1;
s = 0 ;
r_refdef . vieworg [ 0 ] = r_refdef . vieworg [ 0 ] ; //*s+(1-s)*e->lerporigin[0];
r_refdef . vieworg [ 1 ] = r_refdef . vieworg [ 1 ] ; //*s+(1-s)*e->lerporigin[1];
r_refdef . vieworg [ 2 ] = r_refdef . vieworg [ 2 ] ; //*s+(1-s)*e->lerporigin[2];
r_refdef . viewangles [ 0 ] = e - > angles [ 0 ] ; //*s+(1-s)*e->msg_angles[1][0];
r_refdef . viewangles [ 1 ] = e - > angles [ 1 ] ; //*s+(1-s)*e->msg_angles[1][1];
r_refdef . viewangles [ 2 ] = e - > angles [ 2 ] ; //*s+(1-s)*e->msg_angles[1][2];
r_refdef . viewangles [ PITCH ] * = - 1 ;
R_RenderView ( ) ;
// r_framecount = old_framecount;
}
else
# endif
{
//rotate the view, keeping pitch and roll.
r_refdef . viewangles [ YAW ] + = vsec_yaw [ viewnum ] . value ;
r_refdef . viewangles [ ROLL ] + = sin ( vsec_yaw [ viewnum ] . value / 180 * 3.14 ) * r_refdef . viewangles [ PITCH ] ;
r_refdef . viewangles [ PITCH ] * = - cos ( ( vsec_yaw [ viewnum ] . value / 180 * 3.14 ) + 3.14 ) ;
if ( vsec_enabled [ viewnum ] . value ! = 2 )
{
R_RenderView ( ) ;
}
}
r_refdef . vrect = oldrect ;
memcpy ( r_refdef . viewangles , oldangles , sizeof ( vec3_t ) ) ;
memcpy ( r_refdef . vieworg , oldposition , sizeof ( vec3_t ) ) ;
r_refdef . fov_x = ofx ;
r_refdef . fov_y = ofy ;
# ifdef SWQUAKE
r_viewchanged = true ;
# endif
vid . recalc_refdef = true ;
}
# endif
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}
void V_RenderView ( void )
{
int viewnum ;
# ifdef PEXT_BULLETENS
//avoid redoing the bulleten boards for rear view as well.
static qboolean alreadyrendering = false ;
# endif
R_LessenStains ( ) ;
if ( cls . state ! = ca_active )
return ;
view_frame = & cl . frames [ cls . netchan . incoming_sequence & UPDATE_MASK ] ;
R_PushDlights ( ) ;
# ifdef PEXT_BULLETENS
if ( ! alreadyrendering )
R_SetupBulleten ( ) ;
alreadyrendering = true ;
# endif
if ( cl . splitclients > 1 )
gl_ztrickdisabled | = 8 ;
else
gl_ztrickdisabled & = ~ 8 ;
r_secondaryview = 0 ;
for ( viewnum = 0 ; viewnum < cl . splitclients ; viewnum + + )
{
V_RenderPlayerViews ( viewnum ) ;
}
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# ifdef PEXT_BULLETENS
alreadyrendering = false ;
# endif
}
//============================================================================
/*
= = = = = = = = = = = = =
V_Init
= = = = = = = = = = = = =
*/
void V_Init ( void )
{
# define VIEWVARS "View variables"
# ifdef SIDEVIEWS
int i ;
# endif
Cmd_AddCommand ( " v_cshift " , V_cshift_f ) ;
Cmd_AddCommand ( " bf " , V_BonusFlash_f ) ;
// Cmd_AddCommand ("centerview", V_StartPitchDrift);
Cvar_Register ( & v_centermove , VIEWVARS ) ;
Cvar_Register ( & v_centerspeed , VIEWVARS ) ;
Cvar_Register ( & v_idlescale , VIEWVARS ) ;
Cvar_Register ( & v_iyaw_cycle , VIEWVARS ) ;
Cvar_Register ( & v_iroll_cycle , VIEWVARS ) ;
Cvar_Register ( & v_ipitch_cycle , VIEWVARS ) ;
Cvar_Register ( & v_iyaw_level , VIEWVARS ) ;
Cvar_Register ( & v_iroll_level , VIEWVARS ) ;
Cvar_Register ( & v_ipitch_level , VIEWVARS ) ;
Cvar_Register ( & v_contentblend , VIEWVARS ) ;
Cvar_Register ( & v_damagecshift , VIEWVARS ) ;
Cvar_Register ( & v_quadcshift , VIEWVARS ) ;
Cvar_Register ( & v_suitcshift , VIEWVARS ) ;
Cvar_Register ( & v_ringcshift , VIEWVARS ) ;
Cvar_Register ( & v_pentcshift , VIEWVARS ) ;
Cvar_Register ( & v_bonusflash , VIEWVARS ) ;
Cvar_Register ( & crosshaircolor , VIEWVARS ) ;
Cvar_Register ( & crosshair , VIEWVARS ) ;
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Cvar_Register ( & crosshairsize , VIEWVARS ) ;
Cvar_Register ( & crosshaircorrect , VIEWVARS ) ;
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Cvar_Register ( & cl_crossx , VIEWVARS ) ;
Cvar_Register ( & cl_crossy , VIEWVARS ) ;
Cvar_Register ( & gl_cshiftpercent , VIEWVARS ) ;
Cvar_Register ( & cl_rollspeed , VIEWVARS ) ;
Cvar_Register ( & cl_rollangle , VIEWVARS ) ;
Cvar_Register ( & cl_bob , VIEWVARS ) ;
Cvar_Register ( & cl_bobcycle , VIEWVARS ) ;
Cvar_Register ( & cl_bobup , VIEWVARS ) ;
Cvar_Register ( & v_kicktime , VIEWVARS ) ;
Cvar_Register ( & v_kickroll , VIEWVARS ) ;
Cvar_Register ( & v_kickpitch , VIEWVARS ) ;
# ifdef SIDEVIEWS
# define SECONDARYVIEWVARS "Secondary view vars"
for ( i = 0 ; i < SIDEVIEWS ; i + + )
{
Cvar_Register ( & vsec_enabled [ i ] , SECONDARYVIEWVARS ) ;
Cvar_Register ( & vsec_x [ i ] , SECONDARYVIEWVARS ) ;
Cvar_Register ( & vsec_y [ i ] , SECONDARYVIEWVARS ) ;
Cvar_Register ( & vsec_scalex [ i ] , SECONDARYVIEWVARS ) ;
Cvar_Register ( & vsec_scaley [ i ] , SECONDARYVIEWVARS ) ;
Cvar_Register ( & vsec_yaw [ i ] , SECONDARYVIEWVARS ) ;
}
# endif
# ifdef FISH
Cvar_Register ( & ffov , VIEWVARS ) ;
Cvar_Register ( & fviews , VIEWVARS ) ;
# endif
BuildGammaTable ( 1.0 , 1.0 ) ; // no gamma yet
Cvar_Register ( & v_gamma , VIEWVARS ) ;
Cvar_Register ( & v_contrast , VIEWVARS ) ;
}
# if defined(FISH) && defined(SWQUAKE)
typedef unsigned char B ;
# define BOX_FRONT 0
# define BOX_BEHIND 2
# define BOX_LEFT 3
# define BOX_RIGHT 1
# define BOX_TOP 4
# define BOX_BOTTOM 5
# define PI 3.141592654
# define DEG(x) (x / PI * 180.0)
# define RAD(x) (x * PI / 180.0)
struct my_coords
{
double x , y , z ;
} ;
struct my_angles
{
double yaw , pitch , roll ;
} ;
void x_rot ( struct my_coords * c , double pitch ) ;
void y_rot ( struct my_coords * c , double yaw ) ;
void z_rot ( struct my_coords * c , double roll ) ;
void my_get_angles ( struct my_coords * in_o , struct my_coords * in_u , struct my_angles * a ) ;
// get_ypr()
void get_ypr ( double yaw , double pitch , double roll , int side , struct my_angles * a )
{
struct my_coords o , u ;
// get 'o' (observer) and 'u' ('this_way_up') depending on box side
switch ( side )
{
case BOX_FRONT :
//printf("(FRONT)");
o . x = 0.0 ; o . y = 0.0 ; o . z = 1.0 ;
u . x = 0.0 ; u . y = 1.0 ; u . z = 0.0 ; break ;
case BOX_BEHIND :
//printf("(BEHIND)");
o . x = 0.0 ; o . y = 0.0 ; o . z = - 1.0 ;
u . x = 0.0 ; u . y = 1.0 ; u . z = 0.0 ; break ;
case BOX_LEFT :
//printf("(LEFT)");
o . x = - 1.0 ; o . y = 0.0 ; o . z = 0.0 ;
u . x = - 1.0 ; u . y = 1.0 ; u . z = 0.0 ; break ;
case BOX_RIGHT :
o . x = 1.0 ; o . y = 0.0 ; o . z = 0.0 ;
//printf("(RIGHT)");
u . x = 0.0 ; u . y = 1.0 ; u . z = 0.0 ; break ;
case BOX_TOP :
//printf("(TOP)");
o . x = 0.0 ; o . y = - 1.0 ; o . z = 0.0 ;
u . x = 0.0 ; u . y = 0.0 ; u . z = - 1.0 ; break ;
case BOX_BOTTOM :
//printf("(BOTTOM)");
o . x = 0.0 ; o . y = 1.0 ; o . z = 0.0 ;
u . x = 0.0 ; u . y = 0.0 ; u . z = - 1.0 ; break ;
}
//printf(" - [inputs: yaw = %.4f, pitch = %.4f, roll = %.4f]\n", yaw, pitch, roll);
z_rot ( & o , roll ) ; z_rot ( & u , roll ) ;
x_rot ( & o , pitch ) ; x_rot ( & u , pitch ) ;
y_rot ( & o , yaw ) ; y_rot ( & u , yaw ) ;
my_get_angles ( & o , & u , a ) ;
/* normalise angles */
while ( a - > yaw < 0.0 ) a - > yaw + = 360.0 ;
while ( a - > yaw > 360.0 ) a - > yaw - = 360.0 ;
while ( a - > pitch < 0.0 ) a - > pitch + = 360.0 ;
while ( a - > pitch > 360.0 ) a - > pitch - = 360.0 ;
while ( a - > roll < 0.0 ) a - > roll + = 360.0 ;
while ( a - > roll > 360.0 ) a - > roll - = 360.0 ;
//printf("get_ypr -> %.4f, %.4f, %.4f\n", a->yaw, a->pitch, a->roll);
}
/* my_get_angles */
void my_get_angles ( struct my_coords * in_o , struct my_coords * in_u , struct my_angles * a )
{
double rad_yaw , rad_pitch ;
struct my_coords o , u ;
a - > pitch = 0.0 ;
a - > yaw = 0.0 ;
a - > roll = 0.0 ;
// make a copy of the coords
o . x = in_o - > x ; o . y = in_o - > y ; o . z = in_o - > z ;
u . x = in_u - > x ; u . y = in_u - > y ; u . z = in_u - > z ;
//printf("%.4f, %.4f, %.4f - \n", o.x, o.y, o.z);
// special case when looking straight up or down
if ( ( o . x = = 0.0 ) & & ( o . z = = 0.0 ) )
{
// printf("special!\n");
a - > yaw = 0.0 ;
if ( o . y > 0.0 ) { a - > pitch = - 90.0 ; a - > roll = 180.0 - DEG ( atan2 ( u . x , u . z ) ) ; } // down
else { a - > pitch = 90.0 ; a - > roll = DEG ( atan2 ( u . x , u . z ) ) ; } // up
return ;
}
/******************************************************************************/
// get yaw angle and then rotate o and u so that yaw = 0
rad_yaw = atan2 ( - o . x , o . z ) ;
a - > yaw = DEG ( rad_yaw ) ;
y_rot ( & o , - rad_yaw ) ;
y_rot ( & u , - rad_yaw ) ;
//printf("%.4f, %.4f, %.4f - stage 1\n", o.x, o.y, o.z);
// get pitch and then rotate o and u so that pitch = 0
rad_pitch = atan2 ( - o . y , o . z ) ;
a - > pitch = DEG ( rad_pitch ) ;
x_rot ( & o , - rad_pitch ) ;
x_rot ( & u , - rad_pitch ) ;
//printf("%.4f, %.4f, %.4f - stage 2\n", u.x, u.y, u.z);
// get roll
a - > roll = DEG ( - atan2 ( u . x , u . y ) ) ;
//printf("yaw = %.4f, pitch = %.4f, roll = %.4f\n", a->yaw, a->pitch, a->roll);
}
/*******************************************************************************/
/* x_rot (pitch) */
void x_rot ( struct my_coords * c , double pitch )
{
double nx , ny , nz ;
nx = c - > x ;
ny = ( c - > y * cos ( pitch ) ) - ( c - > z * sin ( pitch ) ) ;
nz = ( c - > y * sin ( pitch ) ) + ( c - > z * cos ( pitch ) ) ;
c - > x = nx ; c - > y = ny ; c - > z = nz ;
/*printf("x_rot: %.4f, %.4f, %.4f\n", c->x, c->y, c->z);*/
}
/* y_rot (yaw) */
void y_rot ( struct my_coords * c , double yaw )
{
double nx , ny , nz ;
nx = ( c - > x * cos ( yaw ) ) - ( c - > z * sin ( yaw ) ) ;
ny = c - > y ;
nz = ( c - > x * sin ( yaw ) ) + ( c - > z * cos ( yaw ) ) ;
c - > x = nx ; c - > y = ny ; c - > z = nz ;
}
/* z_rot (roll) */
void z_rot ( struct my_coords * c , double roll )
{
double nx , ny , nz ;
nx = ( c - > x * cos ( roll ) ) - ( c - > y * sin ( roll ) ) ;
ny = ( c - > x * sin ( roll ) ) + ( c - > y * cos ( roll ) ) ;
nz = c - > z ;
c - > x = nx ; c - > y = ny ; c - > z = nz ;
}
void rendercopy ( int * dest )
{
int * p = ( int * ) vid . buffer ;
int x , y ;
int nw = ( vid . width / 4 ) * r_pixbytes ;
R_PushDlights ( ) ;
R_RenderView ( ) ;
for ( y = 0 ; y < vid . height ; y + + ) {
for ( x = 0 ; x < nw ; x + + , dest + + ) * dest = p [ x ] ;
p + = ( vid . rowbytes / 4 ) * r_pixbytes ;
} ;
} ;
void renderlookup ( B * * offs , B * bufs ) {
B * p = ( B * ) vid . buffer ;
int x , y ;
for ( y = 0 ; y < vid . height ; y + + ) {
for ( x = 0 ; x < vid . width ; x + + , offs + + ) p [ x ] = * * offs ;
p + = vid . rowbytes ;
} ;
} ;
void renderlookup32 ( unsigned int * * offs , unsigned int * bufs ) {
unsigned int * p = ( unsigned int * ) vid . buffer ;
int x , y ;
for ( y = 0 ; y < vid . height ; y + + ) {
for ( x = 0 ; x < vid . width ; x + + , offs + + ) p [ x ] = * * offs ;
p + = vid . rowbytes ;
} ;
} ;
void fisheyelookuptable ( B * * buf , int width , int height , B * scrp , double fov ) {
int x , y ;
for ( y = 0 ; y < height ; y + + ) for ( x = 0 ; x < width ; x + + ) {
double dx = x - width / 2 ;
double dy = - ( y - height / 2 ) ;
double yaw = sqrt ( dx * dx + dy * dy ) * fov / ( ( double ) width ) ;
double roll = - atan2 ( dy , dx ) ;
double sx = sin ( yaw ) * cos ( roll ) ;
double sy = sin ( yaw ) * sin ( roll ) ;
double sz = cos ( yaw ) ;
// determine which side of the box we need
double abs_x = fabs ( sx ) ;
double abs_y = fabs ( sy ) ;
double abs_z = fabs ( sz ) ;
int side ;
double xs = 0 , ys = 0 ;
if ( abs_x > abs_y ) {
if ( abs_x > abs_z ) { side = ( ( sx > 0.0 ) ? BOX_RIGHT : BOX_LEFT ) ; }
else { side = ( ( sz > 0.0 ) ? BOX_FRONT : BOX_BEHIND ) ; }
} else {
if ( abs_y > abs_z ) { side = ( ( sy > 0.0 ) ? BOX_TOP : BOX_BOTTOM ) ; }
else { side = ( ( sz > 0.0 ) ? BOX_FRONT : BOX_BEHIND ) ; }
}
# define RC(x) ((x / 2.06) + 0.5)
# define R2(x) RC(x) //((x / 2.03) + 0.5)
// scale up our vector [x,y,z] to the box
switch ( side ) {
case BOX_FRONT : xs = RC ( sx / sz ) ; ys = R2 ( sy / sz ) ; break ;
case BOX_BEHIND : xs = RC ( - sx / - sz ) ; ys = R2 ( sy / - sz ) ; break ;
case BOX_LEFT : xs = RC ( sz / - sx ) ; ys = R2 ( sy / - sx ) ; break ;
case BOX_RIGHT : xs = RC ( - sz / sx ) ; ys = R2 ( sy / sx ) ; break ;
case BOX_TOP : xs = RC ( sx / sy ) ; ys = R2 ( sz / - sy ) ; break ; //bot
case BOX_BOTTOM : xs = RC ( - sx / sy ) ; ys = R2 ( sz / - sy ) ; break ; //top??
}
if ( xs < 0.0 ) xs = 0.0 ;
if ( xs > = 1.0 ) xs = 0.999 ;
if ( ys < 0.0 ) ys = 0.0 ;
if ( ys > = 1.0 ) ys = 0.999 ;
* buf + + = scrp + ( ( ( ( int ) ( xs * ( double ) width ) ) +
( ( int ) ( ys * ( double ) height ) ) * width ) +
side * width * height ) * r_pixbytes ;
} ;
} ;
void renderside ( B * bufs , double yaw , double pitch , double roll , int side ) {
struct my_angles a ;
get_ypr ( RAD ( yaw ) , RAD ( pitch ) , RAD ( roll ) , side , & a ) ;
if ( side = = BOX_RIGHT ) { a . roll = - a . roll ; a . pitch = - a . pitch ; }
if ( side = = BOX_LEFT ) { a . roll = - a . roll ; a . pitch = - a . pitch ; }
if ( side = = BOX_TOP ) { a . yaw + = 180.0 ; a . pitch = 180.0 - a . pitch ; }
r_refdef . viewangles [ YAW ] = a . yaw ;
r_refdef . viewangles [ PITCH ] = a . pitch ;
r_refdef . viewangles [ ROLL ] = a . roll ;
rendercopy ( ( int * ) bufs ) ;
} ;
//extern int istimedemo;
void R_RenderView_fisheye ( void )
{
int width = vid . width ; //r_refdef.vrect.width;
int height = vid . height ; //r_refdef.vrect.height;
int scrsize = width * height * r_pixbytes ;
int fov = ( int ) ffov . value ;
int views = ( int ) fviews . value ;
double yaw = r_refdef . viewangles [ YAW ] ;
double pitch = r_refdef . viewangles [ PITCH ] ;
double roll = 0 ; //r_refdef.viewangles[ROLL];
static int pwidth = - 1 ;
static int pheight = - 1 ;
static int pfov = - 1 ;
static int pviews = - 1 ;
static B * scrbufs = NULL ;
static B * * offs = NULL ;
//Con_Printf("renderfisheye: %d %d %d\n",vid.height,vid.width,vid.rowbytes);
Cvar_Set ( & scr_fov , " 90 " ) ;
Cvar_Set ( & scr_viewsize , " 120 " ) ;
if ( fov < 1 ) fov = 1 ;
if ( pwidth ! = width | | pheight ! = height | | pfov ! = fov ) {
if ( scrbufs ) BZ_Free ( scrbufs ) ;
if ( offs ) BZ_Free ( offs ) ;
scrbufs = ( B * ) BZ_Malloc ( scrsize * 6 ) ; // front|right|back|left|top|bottom
offs = ( B * * ) BZ_Malloc ( scrsize * sizeof ( B * ) ) ;
if ( ! scrbufs | | ! offs ) Sys_Error ( " Out of mem " ) ; // the rude way
pwidth = width ;
pheight = height ;
pfov = fov ;
fisheyelookuptable ( offs , width , height , scrbufs , ( ( double ) fov ) * PI / 180.0 ) ;
} ;
if ( views ! = pviews ) {
int i ;
pviews = views ;
for ( i = 0 ; i < scrsize * 6 ; i + + ) scrbufs [ i ] = 0 ;
} ;
switch ( views ) {
case 6 : renderside ( scrbufs + scrsize * 2 , yaw , pitch , roll , BOX_BEHIND ) ;
case 5 : renderside ( scrbufs + scrsize * 5 , yaw , pitch , roll , BOX_BOTTOM ) ;
case 4 : renderside ( scrbufs + scrsize * 4 , yaw , pitch , roll , BOX_TOP ) ;
case 3 : renderside ( scrbufs + scrsize * 3 , yaw , pitch , roll , BOX_LEFT ) ;
case 2 : renderside ( scrbufs + scrsize , yaw , pitch , roll , BOX_RIGHT ) ;
default : renderside ( scrbufs , yaw , pitch , roll , BOX_FRONT ) ;
} ;
r_refdef . viewangles [ YAW ] = yaw ;
r_refdef . viewangles [ PITCH ] = pitch ;
r_refdef . viewangles [ ROLL ] = roll ;
if ( r_pixbytes = = 4 )
renderlookup32 ( ( unsigned int * * ) offs , ( unsigned int * ) scrbufs ) ;
else
renderlookup ( offs , scrbufs ) ;
} ;
# endif