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/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
Copyright (C) 2000-2009 Darklegion Development
This file is part of Tremulous.
Tremulous 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.
Tremulous 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 Tremulous; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
===========================================================================
*/
// cg_view.c -- setup all the parameters (position, angle, etc)
// for a 3D rendering
#include "cg_local.h"
/*
=============================================================================
MODEL TESTING
The viewthing and gun positioning tools from Q2 have been integrated and
enhanced into a single model testing facility.
Model viewing can begin with either "testmodel <modelname>" or "testgun <modelname>".
The names must be the full pathname after the basedir, like
"models/weapons/v_launch/tris.md3" or "players/male/tris.md3"
Testmodel will create a fake entity 100 units in front of the current view
position, directly facing the viewer. It will remain immobile, so you can
move around it to view it from different angles.
Testgun will cause the model to follow the player around and supress the real
view weapon model. The default frame 0 of most guns is completely off screen,
so you will probably have to cycle a couple frames to see it.
"nextframe", "prevframe", "nextskin", and "prevskin" commands will change the
frame or skin of the testmodel. These are bound to F5, F6, F7, and F8 in
q3default.cfg.
If a gun is being tested, the "gun_x", "gun_y", and "gun_z" variables will let
you adjust the positioning.
Note that none of the model testing features update while the game is paused, so
it may be convenient to test with deathmatch set to 1 so that bringing down the
console doesn't pause the game.
=============================================================================
*/
/*
=================
CG_TestModel_f
Creates an entity in front of the current position, which
can then be moved around
=================
*/
void CG_TestModel_f( void )
{
vec3_t angles;
memset( &cg.testModelEntity, 0, sizeof( cg.testModelEntity ) );
memset( &cg.testModelBarrelEntity, 0, sizeof( cg.testModelBarrelEntity ) );
if( trap_Argc( ) < 2 )
return;
Q_strncpyz( cg.testModelName, CG_Argv( 1 ), MAX_QPATH );
cg.testModelEntity.hModel = trap_R_RegisterModel( cg.testModelName );
Q_strncpyz( cg.testModelBarrelName, CG_Argv( 1 ), MAX_QPATH );
cg.testModelBarrelName[ strlen( cg.testModelBarrelName ) - 4 ] = '\0';
Q_strcat( cg.testModelBarrelName, MAX_QPATH, "_barrel.md3" );
cg.testModelBarrelEntity.hModel = trap_R_RegisterModel( cg.testModelBarrelName );
if( trap_Argc( ) == 3 )
{
cg.testModelEntity.backlerp = atof( CG_Argv( 2 ) );
cg.testModelEntity.frame = 1;
cg.testModelEntity.oldframe = 0;
}
if( !cg.testModelEntity.hModel )
{
CG_Printf( "Can't register model\n" );
return;
}
VectorMA( cg.refdef.vieworg, 100, cg.refdef.viewaxis[ 0 ], cg.testModelEntity.origin );
angles[ PITCH ] = 0;
angles[ YAW ] = 180 + cg.refdefViewAngles[ 1 ];
angles[ ROLL ] = 0;
AnglesToAxis( angles, cg.testModelEntity.axis );
cg.testGun = qfalse;
if( cg.testModelBarrelEntity.hModel )
{
angles[ YAW ] = 0;
angles[ PITCH ] = 0;
angles[ ROLL ] = 0;
AnglesToAxis( angles, cg.testModelBarrelEntity.axis );
}
}
/*
=================
CG_TestGun_f
Replaces the current view weapon with the given model
=================
*/
void CG_TestGun_f( void )
{
CG_TestModel_f( );
cg.testGun = qtrue;
cg.testModelEntity.renderfx = RF_MINLIGHT | RF_DEPTHHACK | RF_FIRST_PERSON;
}
void CG_TestModelNextFrame_f( void )
{
cg.testModelEntity.frame++;
CG_Printf( "frame %i\n", cg.testModelEntity.frame );
}
void CG_TestModelPrevFrame_f( void )
{
cg.testModelEntity.frame--;
if( cg.testModelEntity.frame < 0 )
cg.testModelEntity.frame = 0;
CG_Printf( "frame %i\n", cg.testModelEntity.frame );
}
void CG_TestModelNextSkin_f( void )
{
cg.testModelEntity.skinNum++;
CG_Printf( "skin %i\n", cg.testModelEntity.skinNum );
}
void CG_TestModelPrevSkin_f( void )
{
cg.testModelEntity.skinNum--;
if( cg.testModelEntity.skinNum < 0 )
cg.testModelEntity.skinNum = 0;
CG_Printf( "skin %i\n", cg.testModelEntity.skinNum );
}
static void CG_AddTestModel( void )
{
int i;
// re-register the model, because the level may have changed
cg.testModelEntity.hModel = trap_R_RegisterModel( cg.testModelName );
cg.testModelBarrelEntity.hModel = trap_R_RegisterModel( cg.testModelBarrelName );
if( !cg.testModelEntity.hModel )
{
CG_Printf( "Can't register model\n" );
return;
}
// if testing a gun, set the origin reletive to the view origin
if( cg.testGun )
{
VectorCopy( cg.refdef.vieworg, cg.testModelEntity.origin );
VectorCopy( cg.refdef.viewaxis[ 0 ], cg.testModelEntity.axis[ 0 ] );
VectorCopy( cg.refdef.viewaxis[ 1 ], cg.testModelEntity.axis[ 1 ] );
VectorCopy( cg.refdef.viewaxis[ 2 ], cg.testModelEntity.axis[ 2 ] );
// allow the position to be adjusted
for( i = 0; i < 3; i++ )
{
cg.testModelEntity.origin[ i ] += cg.refdef.viewaxis[ 0 ][ i ] * cg_gun_x.value;
cg.testModelEntity.origin[ i ] += cg.refdef.viewaxis[ 1 ][ i ] * cg_gun_y.value;
cg.testModelEntity.origin[ i ] += cg.refdef.viewaxis[ 2 ][ i ] * cg_gun_z.value;
}
}
trap_R_AddRefEntityToScene( &cg.testModelEntity );
if( cg.testModelBarrelEntity.hModel )
{
CG_PositionEntityOnTag( &cg.testModelBarrelEntity, &cg.testModelEntity,
cg.testModelEntity.hModel, "tag_barrel" );
trap_R_AddRefEntityToScene( &cg.testModelBarrelEntity );
}
}
//============================================================================
/*
=================
CG_CalcVrect
Sets the coordinates of the rendered window
=================
*/
static void CG_CalcVrect( void )
{
int size;
// the intermission should allways be full screen
if( cg.snap->ps.pm_type == PM_INTERMISSION )
size = 100;
else
size = cg_viewsize.integer;
cg.refdef.width = cgs.glconfig.vidWidth * size / 100;
cg.refdef.width &= ~1;
cg.refdef.height = cgs.glconfig.vidHeight * size / 100;
cg.refdef.height &= ~1;
cg.refdef.x = ( cgs.glconfig.vidWidth - cg.refdef.width ) / 2;
cg.refdef.y = ( cgs.glconfig.vidHeight - cg.refdef.height ) / 2;
}
//==============================================================================
/*
===============
CG_OffsetThirdPersonView
===============
*/
void CG_OffsetThirdPersonView( void )
{
int i;
vec3_t forward, right, up;
vec3_t view;
trace_t trace;
static vec3_t mins = { -8, -8, -8 };
static vec3_t maxs = { 8, 8, 8 };
vec3_t focusPoint;
vec3_t surfNormal;
int cmdNum;
usercmd_t cmd, oldCmd;
float range;
vec3_t mouseInputAngles;
vec3_t rotationAngles;
vec3_t axis[ 3 ], rotaxis[ 3 ];
float deltaPitch;
static float pitch;
static vec3_t killerPos = { 0, 0, 0 };
// If cg_thirdpersonShoulderViewMode == 2, do shoulder view instead
// If cg_thirdpersonShoulderViewMode == 1, do shoulder view when chasing
// a wallwalker because it's really erratic to watch
if( ( cg_thirdPersonShoulderViewMode.integer == 2 ) ||
( ( cg_thirdPersonShoulderViewMode.integer == 1 ) &&
( cg.snap->ps.stats[ STAT_STATE ] & SS_WALLCLIMBING ) &&
( cg.snap->ps.stats[ STAT_HEALTH ] > 0 ) ) )
{
CG_OffsetShoulderView( );
return;
}
BG_GetClientNormal( &cg.predictedPlayerState, surfNormal );
// Set the view origin to the class's view height
VectorMA( cg.refdef.vieworg, cg.predictedPlayerState.viewheight, surfNormal, cg.refdef.vieworg );
// Set the focus point where the camera will look (at the player's vieworg)
VectorCopy( cg.refdef.vieworg, focusPoint );
// If player is dead, we want the player to be between us and the killer
// so pretend that the player was looking at the killer, then place cam behind them.
if( cg.predictedPlayerState.stats[ STAT_HEALTH ] <= 0 )
{
int killerEntNum = cg.predictedPlayerState.stats[ STAT_VIEWLOCK ];
// already looking at ourself
if( killerEntNum != cg.snap->ps.clientNum )
{
vec3_t lookDirection;
if( cg.wasDeadLastFrame == qfalse || !cg_staticDeathCam.integer )
{
VectorCopy( cg_entities[ killerEntNum ].lerpOrigin, killerPos );
cg.wasDeadLastFrame = qtrue;
}
VectorSubtract( killerPos, cg.refdef.vieworg, lookDirection );
vectoangles( lookDirection, cg.refdefViewAngles );
}
}
// get and rangecheck cg_thirdPersonRange
range = cg_thirdPersonRange.value;
if( range > 150.0f ) range = 150.0f;
if( range < 30.0f ) range = 30.0f;
// Calculate the angle of the camera's position around the player.
// Unless in demo, PLAYING in third person, or in dead-third-person cam, allow the player
// to control camera position offsets using the mouse position.
if( cg.demoPlayback ||
( ( cg.snap->ps.pm_flags & PMF_FOLLOW ) &&
( cg.predictedPlayerState.stats[ STAT_HEALTH ] > 0 ) ) )
{
// Collect our input values from the mouse.
cmdNum = trap_GetCurrentCmdNumber();
trap_GetUserCmd( cmdNum, &cmd );
trap_GetUserCmd( cmdNum - 1, &oldCmd );
// Prevent pitch from wrapping and clamp it within a [-75, 90] range.
// Cgame has no access to ps.delta_angles[] here, so we need to reproduce
// it ourselves.
deltaPitch = SHORT2ANGLE( cmd.angles[ PITCH ] - oldCmd.angles[ PITCH ] );
if( fabs(deltaPitch) < 200.0f )
{
pitch += deltaPitch;
}
mouseInputAngles[ PITCH ] = pitch;
mouseInputAngles[ YAW ] = -1.0f * SHORT2ANGLE( cmd.angles[ YAW ] ); // yaw is inverted
mouseInputAngles[ ROLL ] = 0.0f;
for( i = 0; i < 3; i++ )
mouseInputAngles[ i ] = AngleNormalize180( mouseInputAngles[ i ] );
// Set the rotation angles to be the view angles offset by the mouse input
// Ignore the original pitch though; it's too jerky otherwise
if( !cg_thirdPersonPitchFollow.integer )
cg.refdefViewAngles[ PITCH ] = 0.0f;
for( i = 0; i < 3; i++ )
{
rotationAngles[ i ] = AngleNormalize180(cg.refdefViewAngles[ i ]) + mouseInputAngles[ i ];
AngleNormalize180( rotationAngles[ i ] );
}
// Don't let pitch go too high/too low or the camera flips around and
// that's really annoying.
// However, when we're not on the floor or ceiling (wallwalk) pitch
// may not be pitch, so just let it go.
if( surfNormal[ 2 ] > 0.5f || surfNormal[ 2 ] < -0.5f )
{
if( rotationAngles[ PITCH ] > 85.0f )
rotationAngles[ PITCH ] = 85.0f;
else if( rotationAngles[ PITCH ] < -85.0f )
rotationAngles[ PITCH ] = -85.0f;
}
// Perform the rotations specified by rotationAngles.
AnglesToAxis( rotationAngles, axis );
if( !( cg.snap->ps.stats[ STAT_STATE ] & SS_WALLCLIMBING ) ||
!BG_RotateAxis( cg.snap->ps.grapplePoint, axis, rotaxis, qfalse,
cg.snap->ps.eFlags & EF_WALLCLIMBCEILING ) )
AxisCopy( axis, rotaxis );
// Convert the new axis back to angles.
AxisToAngles( rotaxis, rotationAngles );
}
else
{
if( cg.predictedPlayerState.stats[ STAT_HEALTH ] > 0 )
{
// If we're playing the game in third person, the viewangles already
// take care of our mouselook, so just use them.
for( i = 0; i < 3; i++ )
rotationAngles[ i ] = cg.refdefViewAngles[ i ];
}
else // dead
{
rotationAngles[ PITCH ] = 20.0f;
rotationAngles[ YAW ] = cg.refdefViewAngles[ YAW ];
}
}
rotationAngles[ YAW ] -= cg_thirdPersonAngle.value;
// Move the camera range distance back.
AngleVectors( rotationAngles, forward, right, up );
VectorCopy( cg.refdef.vieworg, view );
VectorMA( view, -range, forward, view );
// Ensure that the current camera position isn't out of bounds and that there
// is nothing between the camera and the player.
if( !cg_cameraMode.integer )
{
// Trace a ray from the origin to the viewpoint to make sure the view isn't
// in a solid block. Use an 8 by 8 block to prevent the view from near clipping anything
CG_Trace( &trace, cg.refdef.vieworg, mins, maxs, view, cg.predictedPlayerState.clientNum, MASK_SOLID );
if( trace.fraction != 1.0f )
{
VectorCopy( trace.endpos, view );
view[ 2 ] += ( 1.0f - trace.fraction ) * 32;
// Try another trace to this position, because a tunnel may have the ceiling
// close enogh that this is poking out.
CG_Trace( &trace, cg.refdef.vieworg, mins, maxs, view, cg.predictedPlayerState.clientNum, MASK_SOLID );
VectorCopy( trace.endpos, view );
}
}
// Set the camera position to what we calculated.
VectorCopy( view, cg.refdef.vieworg );
// The above checks may have moved the camera such that the existing viewangles
// may not still face the player. Recalculate them to do so.
// but if we're dead, don't bother because we'd rather see what killed us
if( cg.predictedPlayerState.stats[ STAT_HEALTH ] > 0 )
{
VectorSubtract( focusPoint, cg.refdef.vieworg, focusPoint );
vectoangles( focusPoint, cg.refdefViewAngles );
}
}
/*
===============
CG_OffsetShoulderView
===============
*/
void CG_OffsetShoulderView( void )
{
int i;
int cmdNum;
usercmd_t cmd, oldCmd;
vec3_t rotationAngles;
vec3_t axis[ 3 ], rotaxis[ 3 ];
float deltaMousePitch;
static float mousePitch;
vec3_t forward, right, up;
classConfig_t* classConfig;
// Ignore following pitch; it's too jerky otherwise.
if( !cg_thirdPersonPitchFollow.integer )
cg.refdefViewAngles[ PITCH ] = 0.0f;
AngleVectors( cg.refdefViewAngles, forward, right, up );
classConfig = BG_ClassConfig( cg.snap->ps.stats[ STAT_CLASS ] );
VectorMA( cg.refdef.vieworg, classConfig->shoulderOffsets[ 0 ], forward, cg.refdef.vieworg );
VectorMA( cg.refdef.vieworg, classConfig->shoulderOffsets[ 1 ], right, cg.refdef.vieworg );
VectorMA( cg.refdef.vieworg, classConfig->shoulderOffsets[ 2 ], up, cg.refdef.vieworg );
// If someone is playing like this, the rest is already taken care of
// so just get the firstperson effects and leave.
if( !cg.demoPlayback && !( cg.snap->ps.pm_flags & PMF_FOLLOW ) )
{
CG_OffsetFirstPersonView();
return;
}
// Get mouse input for camera rotation.
cmdNum = trap_GetCurrentCmdNumber();
trap_GetUserCmd( cmdNum, &cmd );
trap_GetUserCmd( cmdNum - 1, &oldCmd );
// Prevent pitch from wrapping and clamp it within a [30, -50] range.
// Cgame has no access to ps.delta_angles[] here, so we need to reproduce
// it ourselves here.
deltaMousePitch = SHORT2ANGLE( cmd.angles[ PITCH ] - oldCmd.angles[ PITCH ] );
if( fabs(deltaMousePitch) < 200.0f )
mousePitch += deltaMousePitch;
// Handle pitch.
rotationAngles[ PITCH ] = mousePitch;
rotationAngles[ PITCH ] = AngleNormalize180( rotationAngles[ PITCH ] + AngleNormalize180( cg.refdefViewAngles[ PITCH ] ) );
if( rotationAngles [ PITCH ] < -90.0f ) rotationAngles [ PITCH ] = -90.0f;
if( rotationAngles [ PITCH ] > 90.0f ) rotationAngles [ PITCH ] = 90.0f;
// Yaw and Roll are much easier.
rotationAngles[ YAW ] = SHORT2ANGLE( cmd.angles[ YAW ] ) + cg.refdefViewAngles[ YAW ];
rotationAngles[ ROLL ] = 0.0f;
// Perform the rotations.
AnglesToAxis( rotationAngles, axis );
if( !( cg.snap->ps.stats[ STAT_STATE ] & SS_WALLCLIMBING ) ||
!BG_RotateAxis( cg.snap->ps.grapplePoint, axis, rotaxis, qfalse,
cg.snap->ps.eFlags & EF_WALLCLIMBCEILING ) )
AxisCopy( axis, rotaxis );
AxisToAngles( rotaxis, rotationAngles );
// Actually set the viewangles.
for( i = 0; i < 3; i++ )
cg.refdefViewAngles[ i ] = rotationAngles[ i ];
// Now run the first person stuff so we get various effects added.
CG_OffsetFirstPersonView( );
}
// this causes a compiler bug on mac MrC compiler
static void CG_StepOffset( void )
{
float steptime;
int timeDelta;
vec3_t normal;
playerState_t *ps = &cg.predictedPlayerState;
BG_GetClientNormal( ps, normal );
steptime = BG_Class( ps->stats[ STAT_CLASS ] )->steptime;
// smooth out stair climbing
timeDelta = cg.time - cg.stepTime;
if( timeDelta < steptime )
{
float stepChange = cg.stepChange
* (steptime - timeDelta) / steptime;
VectorMA( cg.refdef.vieworg, -stepChange, normal, cg.refdef.vieworg );
}
}
#define PCLOUD_ROLL_AMPLITUDE 25.0f
#define PCLOUD_ROLL_FREQUENCY 0.4f
#define PCLOUD_ZOOM_AMPLITUDE 15
#define PCLOUD_ZOOM_FREQUENCY 0.625f // 2.5s / 4
#define PCLOUD_DISORIENT_DURATION 2500
/*
===============
CG_InduceViewQuake
===============
*/
void CG_InduceViewQuake( vec3_t src, float mag )
{
if( !src )
{
cg.viewQuake += mag;
}
else
{
float dist;
dist = Distance( src, cg.refdef.vieworg );
cg.viewQuake += mag / dist / dist * 1000.0f;
}
if( cg.viewQuake > cg_viewQuakeLimit.value )
cg.viewQuake = cg_viewQuakeLimit.value;
}
/*
===============
CG_OffsetFirstPersonView
===============
*/
void CG_OffsetFirstPersonView( void )
{
float *origin;
float *angles;
float bob;
float ratio;
float delta;
float speed;
float f;
vec3_t predictedVelocity;
int timeDelta;
float bob2;
vec3_t normal/*, baseOrigin*/;
playerState_t *ps = &cg.predictedPlayerState;
BG_GetClientNormal( ps, normal );
if( cg.snap->ps.pm_type == PM_INTERMISSION )
return;
origin = cg.refdef.vieworg;
angles = cg.refdefViewAngles;
// VectorCopy( origin, baseOrigin );
// if dead, fix the angle and don't add any kick
if( cg.snap->ps.stats[ STAT_HEALTH ] <= 0 )
{
angles[ ROLL ] = 40;
angles[ PITCH ] = -15;
angles[ YAW ] = cg.snap->ps.stats[ STAT_VIEWLOCK ];
origin[ 2 ] += cg.predictedPlayerState.viewheight;
return;
}
// add angles based on damage kick
if( cg.damageTime )
{
ratio = cg.time - cg.damageTime;
if( ratio < DAMAGE_DEFLECT_TIME )
{
ratio /= DAMAGE_DEFLECT_TIME;
angles[ PITCH ] += ratio * cg.v_dmg_pitch;
angles[ ROLL ] += ratio * cg.v_dmg_roll;
}
else
{
ratio = 1.0 - ( ratio - DAMAGE_DEFLECT_TIME ) / DAMAGE_RETURN_TIME;
if( ratio > 0 )
{
angles[ PITCH ] += ratio * cg.v_dmg_pitch;
angles[ ROLL ] += ratio * cg.v_dmg_roll;
}
}
}
// add pitch based on fall kick
#if 0
ratio = ( cg.time - cg.landTime) / FALL_TIME;
if (ratio < 0)
ratio = 0;
angles[PITCH] += ratio * cg.fall_value;
#endif
// add angles based on velocity
VectorCopy( cg.predictedPlayerState.velocity, predictedVelocity );
delta = DotProduct( predictedVelocity, cg.refdef.viewaxis[ 0 ] );
angles[ PITCH ] += delta * cg_runpitch.value;
delta = DotProduct( predictedVelocity, cg.refdef.viewaxis[ 1 ] );
angles[ ROLL ] -= delta * cg_runroll.value;
// add angles based on bob
// bob amount is class dependant
if( cg.snap->ps.persistant[ PERS_SPECSTATE ] != SPECTATOR_NOT )
bob2 = 0.0f;
else
bob2 = BG_Class( cg.predictedPlayerState.stats[ STAT_CLASS ] )->bob;
#define LEVEL4_FEEDBACK 10.0f
//give a charging player some feedback
if( ps->weapon == WP_ALEVEL4 )
{
if( ps->stats[ STAT_MISC ] > 0 )
{
float fraction = (float)ps->stats[ STAT_MISC ] /
LEVEL4_TRAMPLE_CHARGE_MAX;
if( fraction > 1.0f )
fraction = 1.0f;
bob2 *= ( 1.0f + fraction * LEVEL4_FEEDBACK );
}
}
if( bob2 != 0.0f )
{
// make sure the bob is visible even at low speeds
speed = cg.xyspeed > 200 ? cg.xyspeed : 200;
delta = cg.bobfracsin * ( bob2 ) * speed;
if( cg.predictedPlayerState.pm_flags & PMF_DUCKED )
delta *= 3; // crouching
angles[ PITCH ] += delta;
delta = cg.bobfracsin * ( bob2 ) * speed;
if( cg.predictedPlayerState.pm_flags & PMF_DUCKED )
delta *= 3; // crouching accentuates roll
if( cg.bobcycle & 1 )
delta = -delta;
angles[ ROLL ] += delta;
}
#define LEVEL3_FEEDBACK 20.0f
//provide some feedback for pouncing
if( ( cg.predictedPlayerState.weapon == WP_ALEVEL3 ||
cg.predictedPlayerState.weapon == WP_ALEVEL3_UPG ) &&
cg.predictedPlayerState.stats[ STAT_MISC ] > 0 )
{
float fraction1, fraction2;
vec3_t forward;
AngleVectors( angles, forward, NULL, NULL );
VectorNormalize( forward );
fraction1 = (float)cg.predictedPlayerState.stats[ STAT_MISC ] /
LEVEL3_POUNCE_TIME_UPG;
if( fraction1 > 1.0f )
fraction1 = 1.0f;
fraction2 = -sin( fraction1 * M_PI / 2 );
VectorMA( origin, LEVEL3_FEEDBACK * fraction2, forward, origin );
}
else if( ( cg.predictedPlayerState.weapon == WP_ALEVEL3 ||
cg.predictedPlayerState.weapon == WP_ALEVEL3_UPG ) &&
cg.predictedPlayerState.stats[ STAT_MISC ] > 0 )
{
float fraction1, fraction2;
vec3_t forward;
AngleVectors( angles, forward, NULL, NULL );
VectorNormalize( forward );
fraction1 = (float)cg.predictedPlayerState.stats[ STAT_MISC ] /
LEVEL3_POUNCE_TIME_UPG;
if( fraction1 > 1.0f )
fraction1 = 1.0f;
fraction2 = -sin( fraction1 * M_PI / 2 );
VectorMA( origin, LEVEL3_FEEDBACK * fraction2, forward, origin );
}
#define STRUGGLE_DIST 5.0f
#define STRUGGLE_TIME 250
//allow the player to struggle a little whilst grabbed
if( cg.predictedPlayerState.pm_type == PM_GRABBED )
{
vec3_t forward, right, up;
usercmd_t cmd;
int cmdNum;
float fFraction, rFraction, uFraction;
// float fFraction2, rFraction2, uFraction2;
cmdNum = trap_GetCurrentCmdNumber();
trap_GetUserCmd( cmdNum, &cmd );
AngleVectors( angles, forward, right, up );
fFraction = (float)( cg.time - cg.forwardMoveTime ) / STRUGGLE_TIME;
rFraction = (float)( cg.time - cg.rightMoveTime ) / STRUGGLE_TIME;
uFraction = (float)( cg.time - cg.upMoveTime ) / STRUGGLE_TIME;
if( fFraction > 1.0f )
fFraction = 1.0f;
if( rFraction > 1.0f )
rFraction = 1.0f;
if( uFraction > 1.0f )
uFraction = 1.0f;
// fFraction2 = -sin( fFraction * M_PI / 2 );
// rFraction2 = -sin( rFraction * M_PI / 2 );
// uFraction2 = -sin( uFraction * M_PI / 2 );
if( cmd.forwardmove > 0 )
VectorMA( origin, STRUGGLE_DIST * fFraction, forward, origin );
else if( cmd.forwardmove < 0 )
VectorMA( origin, -STRUGGLE_DIST * fFraction, forward, origin );
else
cg.forwardMoveTime = cg.time;
if( cmd.rightmove > 0 )
VectorMA( origin, STRUGGLE_DIST * rFraction, right, origin );
else if( cmd.rightmove < 0 )
VectorMA( origin, -STRUGGLE_DIST * rFraction, right, origin );
else
cg.rightMoveTime = cg.time;
if( cmd.upmove > 0 )
VectorMA( origin, STRUGGLE_DIST * uFraction, up, origin );
else if( cmd.upmove < 0 )
VectorMA( origin, -STRUGGLE_DIST * uFraction, up, origin );
else
cg.upMoveTime = cg.time;
}
// this *feels* more realisitic for humans
if( cg.predictedPlayerState.stats[ STAT_TEAM ] == TEAM_HUMANS &&
( cg.predictedPlayerState.pm_type == PM_NORMAL ||
cg.predictedPlayerState.pm_type == PM_JETPACK ) )
{
angles[PITCH] += cg.bobfracsin * bob2 * 0.5;
// heavy breathing effects //FIXME: sound
if( cg.predictedPlayerState.stats[ STAT_STAMINA ] < STAMINA_BREATHING_LEVEL )
{
float deltaBreath = ( cg.predictedPlayerState.stats[ STAT_STAMINA ] -
STAMINA_BREATHING_LEVEL ) / -250.0;
float deltaAngle = cos( (float)cg.time/150.0 ) * deltaBreath;
deltaAngle += ( deltaAngle < 0 ? -deltaAngle : deltaAngle ) * 0.5;
angles[ PITCH ] -= deltaAngle;
}
}
//===================================
// add view height
VectorMA( origin, ps->viewheight, normal, origin );
// smooth out duck height changes
timeDelta = cg.time - cg.duckTime;
if( timeDelta < DUCK_TIME)
{
cg.refdef.vieworg[ 2 ] -= cg.duckChange
* ( DUCK_TIME - timeDelta ) / DUCK_TIME;
}
// add bob height
bob = cg.bobfracsin * cg.xyspeed * bob2;
if( bob > 6 )
bob = 6;
VectorMA( origin, bob, normal, origin );
// add fall height
delta = cg.time - cg.landTime;
if( delta < LAND_DEFLECT_TIME )
{
f = delta / LAND_DEFLECT_TIME;
cg.refdef.vieworg[ 2 ] += cg.landChange * f;
}
else if( delta < LAND_DEFLECT_TIME + LAND_RETURN_TIME )
{
delta -= LAND_DEFLECT_TIME;
f = 1.0 - ( delta / LAND_RETURN_TIME );
cg.refdef.vieworg[ 2 ] += cg.landChange * f;
}
// add step offset
CG_StepOffset( );
// view quake
if( cg.thisFrameTeleport )
{
cg.viewQuake = 0;
}
else
{
angles[ PITCH ] += crandom( ) * cg.viewQuake * cg_viewQuake.value;
angles[ YAW ] += crandom( ) * cg.viewQuake * cg_viewQuake.value;
cg.viewQuake *= pow( 2, (float)cg.frametime * 1.0e-3 * cg_viewQuakeLambda.value );
}
}
//======================================================================
/*
====================
CG_CalcFov
Fixed fov at intermissions, otherwise account for fov variable and zooms.
====================
*/
#define WAVE_AMPLITUDE 1.0f
#define WAVE_FREQUENCY 0.4f
#define FOVWARPTIME 400.0f
#define BASE_FOV_Y 73.739792f // atan2( 3, 4 / tan( 90 ) )
#define MAX_FOV_Y 120.0f
#define MAX_FOV_WARP_Y 127.5f
static int CG_CalcFov( void )
{
float y;
float phase;
float v;
int contents;
float fov_x, fov_y;
float zoomFov;
float f;
int inwater;
int attribFov;
usercmd_t cmd;
usercmd_t oldcmd;
int cmdNum;
cmdNum = trap_GetCurrentCmdNumber( );
trap_GetUserCmd( cmdNum, &cmd );
trap_GetUserCmd( cmdNum - 1, &oldcmd );
// switch follow modes if necessary: cycle between free -> follow -> third-person follow
if( cmd.buttons & BUTTON_USE_HOLDABLE && !( oldcmd.buttons & BUTTON_USE_HOLDABLE ) )
{
if ( cg.snap->ps.pm_flags & PMF_FOLLOW )
{
if( !cg.chaseFollow )
cg.chaseFollow = qtrue;
else
{
cg.chaseFollow = qfalse;
trap_SendClientCommand( "follow\n" );
}
}
else if ( cg.snap->ps.persistant[ PERS_SPECSTATE ] != SPECTATOR_NOT )
trap_SendClientCommand( "follow\n" );
}
if( cg.predictedPlayerState.pm_type == PM_INTERMISSION ||
( cg.snap->ps.persistant[ PERS_SPECSTATE ] != SPECTATOR_NOT ) ||
( cg.renderingThirdPerson ) )
{
// if in intermission or third person, use a fixed value
fov_y = BASE_FOV_Y;
}
else
{
// don't lock the fov globally - we need to be able to change it
attribFov = BG_Class( cg.predictedPlayerState.stats[ STAT_CLASS ] )->fov * 0.75f;
fov_y = attribFov;
if ( fov_y < 1.0f )
fov_y = 1.0f;
else if ( fov_y > MAX_FOV_Y )
fov_y = MAX_FOV_Y;
if( cg.spawnTime > ( cg.time - FOVWARPTIME ) &&
BG_ClassHasAbility( cg.predictedPlayerState.stats[ STAT_CLASS ], SCA_FOVWARPS ) )
{
float fraction = (float)( cg.time - cg.spawnTime ) / FOVWARPTIME;
fov_y = MAX_FOV_WARP_Y - ( ( MAX_FOV_WARP_Y - fov_y ) * fraction );
}
// account for zooms
zoomFov = BG_Weapon( cg.predictedPlayerState.weapon )->zoomFov * 0.75f;
if ( zoomFov < 1.0f )
zoomFov = 1.0f;
else if ( zoomFov > attribFov )
zoomFov = attribFov;
// only do all the zoom stuff if the client CAN zoom
// FIXME: zoom control is currently hard coded to BUTTON_ATTACK2
if( BG_Weapon( cg.predictedPlayerState.weapon )->canZoom )
{
if ( cg.zoomed )
{
f = ( cg.time - cg.zoomTime ) / (float)ZOOM_TIME;
if ( f > 1.0f )
fov_y = zoomFov;
else
fov_y = fov_y + f * ( zoomFov - fov_y );
// BUTTON_ATTACK2 isn't held so unzoom next time
if( !( cmd.buttons & BUTTON_ATTACK2 ) )
{
cg.zoomed = qfalse;
cg.zoomTime = MIN( cg.time,
cg.time + cg.time - cg.zoomTime - ZOOM_TIME );
}
}
else
{
f = ( cg.time - cg.zoomTime ) / (float)ZOOM_TIME;
if ( f > 1.0f )
fov_y = fov_y;
else
fov_y = zoomFov + f * ( fov_y - zoomFov );
// BUTTON_ATTACK2 is held so zoom next time
if( cmd.buttons & BUTTON_ATTACK2 )
{
cg.zoomed = qtrue;
cg.zoomTime = MIN( cg.time,
cg.time + cg.time - cg.zoomTime - ZOOM_TIME );
}
}
}
}
y = cg.refdef.height / tan( 0.5f * DEG2RAD( fov_y ) );
fov_x = atan2( cg.refdef.width, y );
fov_x = 2.0f * RAD2DEG( fov_x );
// warp if underwater
contents = CG_PointContents( cg.refdef.vieworg, -1 );
if( contents & ( CONTENTS_WATER | CONTENTS_SLIME | CONTENTS_LAVA ) )
{
phase = cg.time / 1000.0f * WAVE_FREQUENCY * M_PI * 2.0f;
v = WAVE_AMPLITUDE * sin( phase );
fov_x += v;
fov_y -= v;
inwater = qtrue;
}
else
inwater = qfalse;
// set it
cg.refdef.fov_x = fov_x;
cg.refdef.fov_y = fov_y;
if( !cg.zoomed )
cg.zoomSensitivity = 1.0f;
else
cg.zoomSensitivity = cg.refdef.fov_y / 75.0f;
return inwater;
}
#define NORMAL_HEIGHT 64.0f
#define NORMAL_WIDTH 6.0f
/*
===============
CG_DrawSurfNormal
Draws a vector against
the surface player is looking at
===============
*/
static void CG_DrawSurfNormal( void )
{
trace_t tr;
vec3_t end, temp;
polyVert_t normal[ 4 ];
vec4_t color = { 0.0f, 255.0f, 0.0f, 128.0f };
VectorMA( cg.refdef.vieworg, 8192, cg.refdef.viewaxis[ 0 ], end );
CG_Trace( &tr, cg.refdef.vieworg, NULL, NULL, end, cg.predictedPlayerState.clientNum, MASK_SOLID );
VectorCopy( tr.endpos, normal[ 0 ].xyz );
normal[ 0 ].st[ 0 ] = 0;
normal[ 0 ].st[ 1 ] = 0;
Vector4Copy( color, normal[ 0 ].modulate );
VectorMA( tr.endpos, NORMAL_WIDTH, cg.refdef.viewaxis[ 1 ], temp );
VectorCopy( temp, normal[ 1 ].xyz);
normal[ 1 ].st[ 0 ] = 0;
normal[ 1 ].st[ 1 ] = 1;
Vector4Copy( color, normal[ 1 ].modulate );
VectorMA( tr.endpos, NORMAL_HEIGHT, tr.plane.normal, temp );
VectorMA( temp, NORMAL_WIDTH, cg.refdef.viewaxis[ 1 ], temp );
VectorCopy( temp, normal[ 2 ].xyz );
normal[ 2 ].st[ 0 ] = 1;
normal[ 2 ].st[ 1 ] = 1;
Vector4Copy( color, normal[ 2 ].modulate );
VectorMA( tr.endpos, NORMAL_HEIGHT, tr.plane.normal, temp );
VectorCopy( temp, normal[ 3 ].xyz );
normal[ 3 ].st[ 0 ] = 1;
normal[ 3 ].st[ 1 ] = 0;
Vector4Copy( color, normal[ 3 ].modulate );
trap_R_AddPolyToScene( cgs.media.outlineShader, 4, normal );
}
/*
===============
CG_addSmoothOp
===============
*/
void CG_addSmoothOp( vec3_t rotAxis, float rotAngle, float timeMod )
{
int i;
//iterate through smooth array
for( i = 0; i < MAXSMOOTHS; i++ )
{
//found an unused index in the smooth array
if( cg.sList[ i ].time + cg_wwSmoothTime.integer < cg.time )
{
//copy to array and stop
VectorCopy( rotAxis, cg.sList[ i ].rotAxis );
cg.sList[ i ].rotAngle = rotAngle;
cg.sList[ i ].time = cg.time;
cg.sList[ i ].timeMod = timeMod;
return;
}
}
//no free indices in the smooth array
}
/*
===============
CG_smoothWWTransitions
===============
*/
static void CG_smoothWWTransitions( playerState_t *ps, const vec3_t in, vec3_t out )
{
vec3_t surfNormal, rotAxis, temp;
vec3_t refNormal = { 0.0f, 0.0f, 1.0f };
vec3_t ceilingNormal = { 0.0f, 0.0f, -1.0f };
int i;
float stLocal, sFraction, rotAngle;
float smoothTime, timeMod;
qboolean performed = qfalse;
vec3_t inAxis[ 3 ], lastAxis[ 3 ], outAxis[ 3 ];
if( cg.snap->ps.pm_flags & PMF_FOLLOW )
{
VectorCopy( in, out );
return;
}
//set surfNormal
BG_GetClientNormal( ps, surfNormal );
AnglesToAxis( in, inAxis );
//if we are moving from one surface to another smooth the transition
if( !VectorCompare( surfNormal, cg.lastNormal ) )
{
//if we moving from the ceiling to the floor special case
//( x product of colinear vectors is undefined)
if( VectorCompare( ceilingNormal, cg.lastNormal ) &&
VectorCompare( refNormal, surfNormal ) )
{
AngleVectors( in, temp, NULL, NULL );
ProjectPointOnPlane( rotAxis, temp, refNormal );
VectorNormalize( rotAxis );
rotAngle = 180.0f;
timeMod = 1.5f;
}
else
{
AnglesToAxis( cg.lastVangles, lastAxis );
rotAngle = DotProduct( inAxis[ 0 ], lastAxis[ 0 ] ) +
DotProduct( inAxis[ 1 ], lastAxis[ 1 ] ) +
DotProduct( inAxis[ 2 ], lastAxis[ 2 ] );
rotAngle = RAD2DEG( acos( ( rotAngle - 1.0f ) / 2.0f ) );
CrossProduct( lastAxis[ 0 ], inAxis[ 0 ], temp );
VectorCopy( temp, rotAxis );
CrossProduct( lastAxis[ 1 ], inAxis[ 1 ], temp );
VectorAdd( rotAxis, temp, rotAxis );
CrossProduct( lastAxis[ 2 ], inAxis[ 2 ], temp );
VectorAdd( rotAxis, temp, rotAxis );
VectorNormalize( rotAxis );
timeMod = 1.0f;
}
//add the op
CG_addSmoothOp( rotAxis, rotAngle, timeMod );
}
//iterate through ops
for( i = MAXSMOOTHS - 1; i >= 0; i-- )
{
smoothTime = (int)( cg_wwSmoothTime.integer * cg.sList[ i ].timeMod );
//if this op has time remaining, perform it
if( cg.time < cg.sList[ i ].time + smoothTime )
{
stLocal = 1.0f - ( ( ( cg.sList[ i ].time + smoothTime ) - cg.time ) / smoothTime );
sFraction = -( cos( stLocal * M_PI ) + 1.0f ) / 2.0f;
RotatePointAroundVector( outAxis[ 0 ], cg.sList[ i ].rotAxis,
inAxis[ 0 ], sFraction * cg.sList[ i ].rotAngle );
RotatePointAroundVector( outAxis[ 1 ], cg.sList[ i ].rotAxis,
inAxis[ 1 ], sFraction * cg.sList[ i ].rotAngle );
RotatePointAroundVector( outAxis[ 2 ], cg.sList[ i ].rotAxis,
inAxis[ 2 ], sFraction * cg.sList[ i ].rotAngle );
AxisCopy( outAxis, inAxis );
performed = qtrue;
}
}
//if we performed any ops then return the smoothed angles
//otherwise simply return the in angles
if( performed )
AxisToAngles( outAxis, out );
else
VectorCopy( in, out );
//copy the current normal to the lastNormal
VectorCopy( in, cg.lastVangles );
VectorCopy( surfNormal, cg.lastNormal );
}
/*
===============
CG_smoothWJTransitions
===============
*/
static void CG_smoothWJTransitions( playerState_t *ps, const vec3_t in, vec3_t out )
{
int i;
float stLocal, sFraction;
qboolean performed = qfalse;
vec3_t inAxis[ 3 ], outAxis[ 3 ];
if( cg.snap->ps.pm_flags & PMF_FOLLOW )
{
VectorCopy( in, out );
return;
}
AnglesToAxis( in, inAxis );
//iterate through ops
for( i = MAXSMOOTHS - 1; i >= 0; i-- )
{
//if this op has time remaining, perform it
if( cg.time < cg.sList[ i ].time + cg_wwSmoothTime.integer )
{
stLocal = ( ( cg.sList[ i ].time + cg_wwSmoothTime.integer ) - cg.time ) / cg_wwSmoothTime.integer;
sFraction = 1.0f - ( ( cos( stLocal * M_PI * 2.0f ) + 1.0f ) / 2.0f );
RotatePointAroundVector( outAxis[ 0 ], cg.sList[ i ].rotAxis,
inAxis[ 0 ], sFraction * cg.sList[ i ].rotAngle );
RotatePointAroundVector( outAxis[ 1 ], cg.sList[ i ].rotAxis,
inAxis[ 1 ], sFraction * cg.sList[ i ].rotAngle );
RotatePointAroundVector( outAxis[ 2 ], cg.sList[ i ].rotAxis,
inAxis[ 2 ], sFraction * cg.sList[ i ].rotAngle );
AxisCopy( outAxis, inAxis );
performed = qtrue;
}
}
//if we performed any ops then return the smoothed angles
//otherwise simply return the in angles
if( performed )
AxisToAngles( outAxis, out );
else
VectorCopy( in, out );
}
/*
===============
CG_CalcViewValues
Sets cg.refdef view values
===============
*/
static int CG_CalcViewValues( void )
{
playerState_t *ps;
memset( &cg.refdef, 0, sizeof( cg.refdef ) );
// calculate size of 3D view
CG_CalcVrect( );
ps = &cg.predictedPlayerState;
// intermission view
if( ps->pm_type == PM_INTERMISSION || ps->pm_type == PM_FREEZE || ps->pm_type == PM_SPECTATOR )
{
VectorCopy( ps->origin, cg.refdef.vieworg );
VectorCopy( ps->viewangles, cg.refdefViewAngles );
AnglesToAxis( cg.refdefViewAngles, cg.refdef.viewaxis );
return CG_CalcFov( );
}
cg.bobcycle = ( ps->bobCycle & 128 ) >> 7;
cg.bobfracsin = fabs( sin( ( ps->bobCycle & 127 ) / 127.0 * M_PI ) );
cg.xyspeed = sqrt( ps->velocity[ 0 ] * ps->velocity[ 0 ] +
ps->velocity[ 1 ] * ps->velocity[ 1 ] );
// the bob velocity should't get too fast to avoid jerking
if( cg.xyspeed > 300.0f )
cg.xyspeed = 300.0f;
VectorCopy( ps->origin, cg.refdef.vieworg );
if( BG_ClassHasAbility( ps->stats[ STAT_CLASS ], SCA_WALLCLIMBER ) )
CG_smoothWWTransitions( ps, ps->viewangles, cg.refdefViewAngles );
else if( BG_ClassHasAbility( ps->stats[ STAT_CLASS ], SCA_WALLJUMPER ) )
CG_smoothWJTransitions( ps, ps->viewangles, cg.refdefViewAngles );
else
VectorCopy( ps->viewangles, cg.refdefViewAngles );
//clumsy logic, but it needs to be this way round because the CS propogation
//delay screws things up otherwise
if( !BG_ClassHasAbility( ps->stats[ STAT_CLASS ], SCA_WALLJUMPER ) )
{
if( !( ps->stats[ STAT_STATE ] & SS_WALLCLIMBING ) )
VectorSet( cg.lastNormal, 0.0f, 0.0f, 1.0f );
}
// add error decay
if( cg_errorDecay.value > 0 )
{
int t;
float f;
t = cg.time - cg.predictedErrorTime;
f = ( cg_errorDecay.value - t ) / cg_errorDecay.value;
if( f > 0 && f < 1 )
VectorMA( cg.refdef.vieworg, f, cg.predictedError, cg.refdef.vieworg );
else
cg.predictedErrorTime = 0;
}
//shut off the poison cloud effect if it's still on the go
if( cg.snap->ps.stats[ STAT_HEALTH ] <= 0 )
{
if( CG_IsParticleSystemValid( &cg.poisonCloudPS ) )
CG_DestroyParticleSystem( &cg.poisonCloudPS );
}
else
cg.wasDeadLastFrame = qfalse;
if( cg.renderingThirdPerson )
{
// back away from character
CG_OffsetThirdPersonView( );
}
else
{
// offset for local bobbing and kicks
CG_OffsetFirstPersonView( );
}
// position eye reletive to origin
AnglesToAxis( cg.refdefViewAngles, cg.refdef.viewaxis );
if( cg.hyperspace )
cg.refdef.rdflags |= RDF_NOWORLDMODEL | RDF_HYPERSPACE;
//draw the surface normal looking at
if( cg_drawSurfNormal.integer )
CG_DrawSurfNormal( );
// field of view
return CG_CalcFov( );
}
/*
=====================
CG_AddBufferedSound
=====================
*/
void CG_AddBufferedSound( sfxHandle_t sfx )
{
if( !sfx )
return;
cg.soundBuffer[ cg.soundBufferIn ] = sfx;
cg.soundBufferIn = ( cg.soundBufferIn + 1 ) % MAX_SOUNDBUFFER;
if( cg.soundBufferIn == cg.soundBufferOut )
cg.soundBufferOut++;
}
/*
=====================
CG_PlayBufferedSounds
=====================
*/
static void CG_PlayBufferedSounds( void )
{
if( cg.soundTime < cg.time )
{
if( cg.soundBufferOut != cg.soundBufferIn && cg.soundBuffer[ cg.soundBufferOut ] )
{
trap_S_StartLocalSound( cg.soundBuffer[ cg.soundBufferOut ], CHAN_ANNOUNCER );
cg.soundBuffer[ cg.soundBufferOut ] = 0;
cg.soundBufferOut = ( cg.soundBufferOut + 1 ) % MAX_SOUNDBUFFER;
cg.soundTime = cg.time + 750;
}
}
}
//=========================================================================
/*
=================
CG_DrawActiveFrame
Generates and draws a game scene and status information at the given time.
=================
*/
void CG_DrawActiveFrame( int serverTime, stereoFrame_t stereoView, qboolean demoPlayback )
{
int inwater;
cg.time = serverTime;
cg.demoPlayback = demoPlayback;
// update cvars
CG_UpdateCvars( );
// if we are only updating the screen as a loading
// pacifier, don't even try to read snapshots
if( cg.infoScreenText[ 0 ] != 0 )
{
CG_DrawLoadingScreen( );
return;
}
// any looped sounds will be respecified as entities
// are added to the render list
trap_S_ClearLoopingSounds( qfalse );
// clear all the render lists
trap_R_ClearScene( );
// set up cg.snap and possibly cg.nextSnap
CG_ProcessSnapshots( );
// if we haven't received any snapshots yet, all
// we can draw is the information screen
if( !cg.snap || ( cg.snap->snapFlags & SNAPFLAG_NOT_ACTIVE ) )
{
CG_DrawLoadingScreen( );
return;
}
// let the client system know what our weapon and zoom settings are
trap_SetUserCmdValue( cg.weaponSelect, cg.zoomSensitivity );
// this counter will be bumped for every valid scene we generate
cg.clientFrame++;
// update cg.predictedPlayerState
CG_PredictPlayerState( );
// decide on third person view
cg.renderingThirdPerson = ( cg_thirdPerson.integer || ( cg.snap->ps.stats[ STAT_HEALTH ] <= 0 ) ||
( cg.chaseFollow && cg.snap->ps.pm_flags & PMF_FOLLOW) );
cg.warping = ( cg.predictedPlayerEntity.currentState.eFlags & EF_WARPING ) &&
cg.predictedPlayerState.weapon == WP_ALEVEL1;
// update speedometer
CG_AddSpeed( );
// build cg.refdef
inwater = CG_CalcViewValues( );
// build the render lists
if( !cg.hyperspace )
{
CG_AddPacketEntities( ); // after calcViewValues, so predicted player state is correct
CG_AddMarks( );
}
CG_AddViewWeapon( &cg.predictedPlayerState );
//after CG_AddViewWeapon
if( !cg.hyperspace )
{
CG_AddParticles( );
CG_AddTrails( );
}
// add buffered sounds
CG_PlayBufferedSounds( );
// finish up the rest of the refdef
if( cg.testModelEntity.hModel )
CG_AddTestModel( );
cg.refdef.time = cg.time;
memcpy( cg.refdef.areamask, cg.snap->areamask, sizeof( cg.refdef.areamask ) );
//remove expired console lines
if( cg.consoleLines[ 0 ].time + cg_consoleLatency.integer < cg.time && cg_consoleLatency.integer > 0 )
CG_RemoveNotifyLine( );
// update audio positions
trap_S_Respatialize( cg.snap->ps.clientNum, cg.refdef.vieworg, cg.refdef.viewaxis, inwater );
// make sure the lagometerSample and frame timing isn't done twice when in stereo
if( stereoView != STEREO_RIGHT )
{
cg.frametime = cg.time - cg.oldTime;
if( cg.frametime < 0 )
cg.frametime = 0;
cg.oldTime = cg.time;
CG_AddLagometerFrameInfo( );
}
if( cg_timescale.value != cg_timescaleFadeEnd.value )
{
if( cg_timescale.value < cg_timescaleFadeEnd.value )
{
cg_timescale.value += cg_timescaleFadeSpeed.value * ( (float)cg.frametime ) / 1000;
if( cg_timescale.value > cg_timescaleFadeEnd.value )
cg_timescale.value = cg_timescaleFadeEnd.value;
}
else
{
cg_timescale.value -= cg_timescaleFadeSpeed.value * ( (float)cg.frametime ) / 1000;
if( cg_timescale.value < cg_timescaleFadeEnd.value )
cg_timescale.value = cg_timescaleFadeEnd.value;
}
if( cg_timescaleFadeSpeed.value )
trap_Cvar_Set( "timescale", va( "%f", cg_timescale.value ) );
}
// actually issue the rendering calls
CG_DrawActive( stereoView );
if( cg_stats.integer )
CG_Printf( "cg.clientFrame:%i\n", cg.clientFrame );
}
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