本文整理汇总了C++中AxisCopy函数的典型用法代码示例。如果您正苦于以下问题:C++ AxisCopy函数的具体用法?C++ AxisCopy怎么用?C++ AxisCopy使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了AxisCopy函数的19个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。
示例1: CG_AddFadeScaleModel
static void CG_AddFadeScaleModel( localEntity_t *le ) {
refEntity_t *ent = &le->refEntity;
float frac = (cg.time - le->startTime) / ((float)(le->endTime - le->startTime));
frac *= frac * frac; // yes, this is completely ridiculous...but it causes the shell to grow slowly then "explode" at the end
ent->nonNormalizedAxes = qtrue;
AxisCopy( axisDefault, ent->axis );
VectorScale( &ent->axis[0], le->radius*frac, &ent->axis[0] );
VectorScale( &ent->axis[1], le->radius*frac, &ent->axis[1] );
VectorScale( &ent->axis[2], le->radius*0.5f*frac, &ent->axis[2] );
frac = 1.0f - frac;
ent->shaderRGBA[0] = le->color[0] * frac;
ent->shaderRGBA[1] = le->color[1] * frac;
ent->shaderRGBA[2] = le->color[2] * frac;
ent->shaderRGBA[3] = le->color[3] * frac;
// add the entity
SE_R_AddRefEntityToScene( ent, MAX_CLIENTS );
}
开发者ID:MatthewCZ,项目名称:Ja,代码行数:25,代码来源:cg_localents.c
示例2: CG_LaunchGib
/*
==================
CG_LaunchGib
==================
*/
void CG_LaunchGib( vector3 *origin, vector3 *velocity, qhandle_t hModel ) {
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 5000 + random() * 3000;
VectorCopy( origin, &re->origin );
AxisCopy( axisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
VectorCopy( origin, &le->pos.trBase );
VectorCopy( velocity, &le->pos.trDelta );
le->pos.trTime = cg.time;
le->bounceFactor = 0.6f;
le->leBounceSoundType = LEBS_BLOOD;
le->leMarkType = LEMT_BLOOD;
}
开发者ID:Geptun,项目名称:japp,代码行数:30,代码来源:cg_effects.c
示例3: CG_LaunchGib
/*
==================
CG_LaunchGib
==================
*/
void CG_LaunchGib( bvec3_t origin, bvec3_t velocity, qhandle_t hModel ) {
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 5000 + FIXED_TO_INT(random() * GFIXED(3000,0));
VectorCopy( origin, re->origin );
AxisCopy( aaxisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
VectorCopy( origin, le->pos.trBase );
VectorCopy( velocity, le->pos.trDelta );
le->pos.trTime = cg.time;
le->bounceFactor = BFIXED(0,6);
le->leBounceSoundType = LEBS_BLOOD;
le->leMarkType = LEMT_BLOOD;
}
开发者ID:Jsoucek,项目名称:q3ce,代码行数:30,代码来源:cg_effects.cpp
示例4: CG_LaunchExplode
/*
==================
CG_LaunchGib
==================
*/
void CG_LaunchExplode( vec3_t origin, vec3_t velocity, qhandle_t hModel ) {
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 10000 + random() * 6000;
VectorCopy( origin, re->origin );
AxisCopy( axisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
VectorCopy( origin, le->pos.trBase );
VectorCopy( velocity, le->pos.trDelta );
le->pos.trTime = cg.time;
le->bounceFactor = 0.1f;
le->leBounceSoundType = LEBS_BRASS;
le->leMarkType = LEMT_NONE;
}
开发者ID:Avatarchik,项目名称:Quake-III-Arena-D3D11,代码行数:30,代码来源:cg_effects.c
示例5: CG_ThrowChunk
/*
==================
CG_ThrowChunk
==================
*/
void CG_ThrowChunk( vec3_t origin, vec3_t velocity, qhandle_t hModel, int optionalSound, int startalpha ) {
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 5000 + random() * 3000;
VectorCopy( origin, re->origin );
AxisCopy( axisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
le->angles.trType = TR_GRAVITY;
VectorCopy( origin, le->pos.trBase );
VectorCopy( velocity, le->pos.trDelta );
VectorSet(le->angles.trBase, 20, 20, 20);
VectorCopy( velocity, le->angles.trDelta );
le->pos.trTime = cg.time;
le->angles.trTime = cg.time;
le->leFlags = LEF_TUMBLE;
le->angles.trBase[YAW] = 180;
le->bounceFactor = 0.3f;
le->bounceSound = optionalSound;
le->forceAlpha = startalpha;
}
开发者ID:aufau,项目名称:jk2sdk-gpl-fork,代码行数:38,代码来源:cg_effects.c
示例6: CG_LaunchGib
/*
==================
CG_LaunchGib
==================
*/
void CG_LaunchGib( vec3_t origin, vec3_t velocity, qhandle_t hModel ) {
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 5000 + random() * 3000;
VectorCopy( origin, re->origin );
AxisCopy( axisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
VectorCopy( origin, le->pos.trBase );
VectorCopy( velocity, le->pos.trDelta );
le->pos.trTime = cg.time;
le->bounceFactor = 0.6f;
le->leBounceSoundType = LEBS_BLOOD;
le->leMarkType = LEMT_BLOOD;
if ( cg_leiSuperGoreyAwesome.integer ) {
CG_SpurtBlood( origin, velocity, 7); // LEILEI toss some extra juice
CG_SpurtBlood( origin, velocity, 22);
CG_SpurtBlood( origin, velocity, 11);
}
}
开发者ID:OpenArena,项目名称:legacy,代码行数:36,代码来源:cg_effects.c
示例7: CG_smoothWJTransitions
/*
===============
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 ];
Q_UNUSED(ps);
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 );
}
}
开发者ID:Foe-of-Eternity,项目名称:Unvanquished,代码行数:54,代码来源:cg_view.c
示例8: CG_LaunchGib
/*
==================
CG_LaunchGib
==================
*/
void CG_LaunchGib( vec3_t origin, vec3_t velocity, qhandle_t hModel ) {
localEntity_t *le;
refEntity_t *re;
//freeze
int num;
centity_t *cent;
//freeze
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 5000 + random() * 3000;
VectorCopy( origin, re->origin );
AxisCopy( axisDefault, re->axis );
re->hModel = hModel;
le->pos.trType = TR_GRAVITY;
VectorCopy( origin, le->pos.trBase );
VectorCopy( velocity, le->pos.trDelta );
le->pos.trTime = cg.time;
le->bounceFactor = 0.6f;
le->leBounceSoundType = LEBS_BLOOD;
le->leMarkType = LEMT_BLOOD;
//freeze
for ( num = 0; num < cg.snap->numEntities; num++ ) {
cent = &cg_entities[ cg.snap->entities[ num ].number ];
if ( cent->currentState.eventParm != 255 ) continue;
if ( VectorCompare( cent->lerpOrigin, origin ) ) {
re->customShader = cgs.media.freezeShader;
break;
}
}
//freeze
}
开发者ID:dbircsak,项目名称:freeze-tag,代码行数:44,代码来源:cg_effects.c
示例9: CG_MachineGunEjectBrass
/*
==========================
CG_MachineGunEjectBrass
==========================
*/
static void CG_MachineGunEjectBrass( centity_t *cent ) {
localEntity_t *le;
refEntity_t *re;
vec3_t velocity, xvelocity;
vec3_t offset, xoffset;
float waterScale = 1.0f;
vec3_t v[3];
if ( cg_brassTime.integer <= 0 ) {
return;
}
le = CG_AllocLocalEntity();
re = &le->refEntity;
velocity[0] = 0;
velocity[1] = -50 + 40 * crandom();
velocity[2] = 100 + 50 * crandom();
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + cg_brassTime.integer + ( cg_brassTime.integer / 4 ) * random();
le->pos.trType = TR_GRAVITY;
le->pos.trTime = cg.time - (rand()&15);
AnglesToAxis( cent->lerpAngles, v );
offset[0] = 8;
offset[1] = -4;
offset[2] = 24;
xoffset[0] = offset[0] * v[0][0] + offset[1] * v[1][0] + offset[2] * v[2][0];
xoffset[1] = offset[0] * v[0][1] + offset[1] * v[1][1] + offset[2] * v[2][1];
xoffset[2] = offset[0] * v[0][2] + offset[1] * v[1][2] + offset[2] * v[2][2];
VectorAdd( cent->lerpOrigin, xoffset, re->origin );
VectorCopy( re->origin, le->pos.trBase );
if ( CG_PointContents( re->origin, -1 ) & CONTENTS_WATER ) {
waterScale = 0.10f;
}
xvelocity[0] = velocity[0] * v[0][0] + velocity[1] * v[1][0] + velocity[2] * v[2][0];
xvelocity[1] = velocity[0] * v[0][1] + velocity[1] * v[1][1] + velocity[2] * v[2][1];
xvelocity[2] = velocity[0] * v[0][2] + velocity[1] * v[1][2] + velocity[2] * v[2][2];
VectorScale( xvelocity, waterScale, le->pos.trDelta );
AxisCopy( axisDefault, re->axis );
re->hModel = cgs.media.machinegunBrassModel;
le->bounceFactor = 0.4 * waterScale;
le->angles.trType = TR_LINEAR;
le->angles.trTime = cg.time;
le->angles.trBase[0] = rand()&31;
le->angles.trBase[1] = rand()&31;
le->angles.trBase[2] = rand()&31;
le->angles.trDelta[0] = 2;
le->angles.trDelta[1] = 1;
le->angles.trDelta[2] = 0;
le->leFlags = LEF_TUMBLE;
le->leBounceSoundType = LEBS_BRASS;
le->leMarkType = LEMT_NONE;
}
开发者ID:entdark,项目名称:q3mme,代码行数:71,代码来源:cg_weapons.c
示例10: CG_OffsetThirdPersonView
//.........这里部分代码省略.........
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 );
}
}
开发者ID:lepe,项目名称:trem-gpp-bots,代码行数:101,代码来源:cg_view.c
示例11: R_GetPortalOrientations
/*
=================
R_GetPortalOrientation
entityNum is the entity that the portal surface is a part of, which may
be moving and rotating.
Returns qtrue if it should be mirrored
=================
*/
qboolean R_GetPortalOrientations( drawSurf_t *drawSurf, int entityNum,
orientation_t *surface, orientation_t *camera,
vec3_t pvsOrigin, qboolean *mirror ) {
int i;
cplane_t originalPlane, plane;
trRefEntity_t *e;
float d;
vec3_t transformed;
// create plane axis for the portal we are seeing
R_PlaneForSurface( drawSurf->surface, &originalPlane );
// rotate the plane if necessary
if ( entityNum != REFENTITYNUM_WORLD ) {
tr.currentEntityNum = entityNum;
tr.currentEntity = &tr.refdef.entities[entityNum];
// get the orientation of the entity
R_RotateForEntity( tr.currentEntity, &tr.viewParms, &tr.ori );
// rotate the plane, but keep the non-rotated version for matching
// against the portalSurface entities
R_LocalNormalToWorld( originalPlane.normal, plane.normal );
plane.dist = originalPlane.dist + DotProduct( plane.normal, tr.ori.origin );
// translate the original plane
originalPlane.dist = originalPlane.dist + DotProduct( originalPlane.normal, tr.ori.origin );
} else {
plane = originalPlane;
}
VectorCopy( plane.normal, surface->axis[0] );
PerpendicularVector( surface->axis[1], surface->axis[0] );
CrossProduct( surface->axis[0], surface->axis[1], surface->axis[2] );
// locate the portal entity closest to this plane.
// origin will be the origin of the portal, origin2 will be
// the origin of the camera
for ( i = 0 ; i < tr.refdef.num_entities ; i++ ) {
e = &tr.refdef.entities[i];
if ( e->e.reType != RT_PORTALSURFACE ) {
continue;
}
d = DotProduct( e->e.origin, originalPlane.normal ) - originalPlane.dist;
if ( d > 64 || d < -64) {
continue;
}
// get the pvsOrigin from the entity
VectorCopy( e->e.oldorigin, pvsOrigin );
// if the entity is just a mirror, don't use as a camera point
if ( e->e.oldorigin[0] == e->e.origin[0] &&
e->e.oldorigin[1] == e->e.origin[1] &&
e->e.oldorigin[2] == e->e.origin[2] ) {
VectorScale( plane.normal, plane.dist, surface->origin );
VectorCopy( surface->origin, camera->origin );
VectorSubtract( vec3_origin, surface->axis[0], camera->axis[0] );
VectorCopy( surface->axis[1], camera->axis[1] );
VectorCopy( surface->axis[2], camera->axis[2] );
*mirror = qtrue;
return qtrue;
}
// project the origin onto the surface plane to get
// an origin point we can rotate around
d = DotProduct( e->e.origin, plane.normal ) - plane.dist;
VectorMA( e->e.origin, -d, surface->axis[0], surface->origin );
// now get the camera origin and orientation
VectorCopy( e->e.oldorigin, camera->origin );
AxisCopy( e->e.axis, camera->axis );
VectorSubtract( vec3_origin, camera->axis[0], camera->axis[0] );
VectorSubtract( vec3_origin, camera->axis[1], camera->axis[1] );
// optionally rotate
if ( e->e.oldframe ) {
// if a speed is specified
if ( e->e.frame ) {
// continuous rotate
d = (tr.refdef.time/1000.0f) * e->e.frame;
VectorCopy( camera->axis[1], transformed );
RotatePointAroundVector( camera->axis[1], camera->axis[0], transformed, d );
CrossProduct( camera->axis[0], camera->axis[1], camera->axis[2] );
} else {
// bobbing rotate, with skinNum being the rotation offset
d = sin( tr.refdef.time * 0.003f );
d = e->e.skinNum + d * 4;
//.........这里部分代码省略.........
开发者ID:LeadGuitar,项目名称:OpenJK,代码行数:101,代码来源:tr_main.cpp
示例12: ME_DrawVehicle
void ME_DrawVehicle( IGME_vehicle_t* veh )
{
if( !veh ) return;
if( veh->groundInstallation ) {
DrawInfo_GI_t drawInfo;
memset( &drawInfo, 0, sizeof(drawInfo) );
VectorCopy( veh->angles, drawInfo.basicInfo.angles );
VectorCopy( veh->origin, drawInfo.basicInfo.origin );
AnglesToAxis( veh->angles, drawInfo.basicInfo.axis );
drawInfo.basicInfo.vehicleIndex = veh->vehidx;
drawInfo.basicInfo.entityNum = -1;
drawInfo.turretAngle = 0;
drawInfo.gunAngle = 10;
drawInfo.upgrades = availableGroundInstallations[veh->vehidx].upgrades;
CG_DrawGI(&drawInfo);
} else {
switch( availableVehicles[veh->vehidx].cat ) {
case CAT_PLANE:
{
DrawInfo_Plane_t drawInfo;
memset( &drawInfo, 0, sizeof(drawInfo) );
VectorCopy( veh->angles, drawInfo.basicInfo.angles );
VectorCopy( veh->origin, drawInfo.basicInfo.origin );
AnglesToAxis( veh->angles, drawInfo.basicInfo.axis );
drawInfo.basicInfo.vehicleIndex = veh->vehidx;
drawInfo.basicInfo.entityNum = -1;
drawInfo.basicInfo.usedLoadout = &availableLoadouts[veh->vehidx];
CG_DrawPlane(&drawInfo);
}
break;
case CAT_GROUND:
{
DrawInfo_GV_t drawInfo;
memset( &drawInfo, 0, sizeof(drawInfo) );
VectorCopy( veh->angles, drawInfo.basicInfo.angles );
VectorCopy( veh->origin, drawInfo.basicInfo.origin );
AnglesToAxis( veh->angles, drawInfo.basicInfo.axis );
drawInfo.basicInfo.vehicleIndex = veh->vehidx;
drawInfo.basicInfo.entityNum = -1;
drawInfo.basicInfo.usedLoadout = &availableLoadouts[veh->vehidx];
CG_DrawGV(&drawInfo);
}
break;
case CAT_BOAT:
{
DrawInfo_Boat_t drawInfo;
memset( &drawInfo, 0, sizeof(drawInfo) );
VectorCopy( veh->angles, drawInfo.basicInfo.angles );
VectorCopy( veh->origin, drawInfo.basicInfo.origin );
AnglesToAxis( veh->angles, drawInfo.basicInfo.axis );
drawInfo.basicInfo.vehicleIndex = veh->vehidx;
drawInfo.basicInfo.entityNum = -1;
drawInfo.basicInfo.usedLoadout = &availableLoadouts[veh->vehidx];
CG_DrawBoat(&drawInfo);
}
break;
case CAT_HELO:
break;
case CAT_LQM:
break;
}
}
// draw selectors
if( veh->selected ) {
refEntity_t sel;
int j;
memset( &sel, 0, sizeof(sel) );
sel.hModel = cgs.media.IGME_selector;
VectorCopy( veh->origin, sel.origin );
VectorCopy( veh->origin, sel.lightingOrigin );
VectorCopy( veh->origin, sel.oldorigin );
AnglesToAxis( veh->angles, sel.axis );
for( j = 0; j < 3; ++j ) {
VectorScale( sel.axis[j], veh->selectorScale[j], sel.axis[j] );
}
sel.nonNormalizedAxes = true;
refExport.AddRefEntityToScene( &sel );
}
// draw waypoints
if( cgs.IGME.waypointmode && (veh->selected || cgs.IGME.showAllWaypoints) ) {
int k;
vec3_t lastpos, dir, ang;
VectorCopy( veh->origin, lastpos );
for( k = 0; k < IGME_MAX_WAYPOINTS; ++k ) {
refEntity_t wpt, lnk;
int l;
float dist;
if( !veh->waypoints[k].active ) break;//as they are in a row
memset( &wpt, 0, sizeof(wpt) );
wpt.hModel = cgs.media.IGME_selector;
VectorCopy( veh->waypoints[k].origin, wpt.origin );
VectorCopy( wpt.origin, wpt.lightingOrigin );
VectorCopy( wpt.origin, wpt.oldorigin );
AxisCopy( axisDefault, wpt.axis );
for( l = 0; l < 3; ++l ) {
VectorScale( wpt.axis[l], 0.25f, wpt.axis[l] );
}
wpt.nonNormalizedAxes = true;
//.........这里部分代码省略.........
开发者ID:MilitaryForces,项目名称:MilitaryForces,代码行数:101,代码来源:cg_missioneditor.c
示例13: CG_Chunks
//.........这里部分代码省略.........
}
}
if ( !chunk )
{
// No custom chunk. Pick a random chunk type at run-time so we don't get the same chunks
switch( chunkType )
{
case MAT_METAL2: //bluegrey
chunkModel = cgs.media.chunkModels[CHUNK_METAL2][Q_irand(0, 3)];
break;
case MAT_GREY_STONE://gray
chunkModel = cgs.media.chunkModels[CHUNK_ROCK1][Q_irand(0, 3)];
break;
case MAT_LT_STONE: //tan
chunkModel = cgs.media.chunkModels[CHUNK_ROCK2][Q_irand(0, 3)];
break;
case MAT_DRK_STONE://brown
chunkModel = cgs.media.chunkModels[CHUNK_ROCK3][Q_irand(0, 3)];
break;
case MAT_WHITE_METAL:
chunkModel = cgs.media.chunkModels[CHUNK_WHITE_METAL][Q_irand(0, 3)];
break;
case MAT_CRATE1://yellow multi-colored crate chunks
chunkModel = cgs.media.chunkModels[CHUNK_CRATE1][Q_irand(0, 3)];
break;
case MAT_CRATE2://red multi-colored crate chunks
chunkModel = cgs.media.chunkModels[CHUNK_CRATE2][Q_irand(0, 3)];
break;
case MAT_ELEC_METAL:
case MAT_GLASS_METAL:
case MAT_METAL://grey
chunkModel = cgs.media.chunkModels[CHUNK_METAL1][Q_irand(0, 3)];
break;
case MAT_METAL3:
if ( rand() & 1 )
{
chunkModel = cgs.media.chunkModels[CHUNK_METAL1][Q_irand(0, 3)];
}
else
{
chunkModel = cgs.media.chunkModels[CHUNK_METAL2][Q_irand(0, 3)];
}
break;
default:
break;
}
}
// It wouldn't look good to throw a bunch of RGB axis models...so make sure we have something to work with.
if ( chunkModel )
{
le = CG_AllocLocalEntity();
re = &le->refEntity;
re->hModel = chunkModel;
le->leType = LE_FRAGMENT;
le->endTime = cg.time + 1300 + Q_flrand(0.0f, 1.0f) * 900;
// spawn chunk roughly in the bbox of the thing...bias towards center in case thing blowing up doesn't complete fill its bbox.
for( j = 0; j < 3; j++ )
{
r = Q_flrand(0.0f, 1.0f) * 0.8f + 0.1f;
re->origin[j] = ( r * mins[j] + ( 1 - r ) * maxs[j] );
}
VectorCopy( re->origin, le->pos.trBase );
// Move out from center of thing, otherwise you can end up things moving across the brush in an undesirable direction. Visually looks wrong
VectorSubtract( re->origin, origin, dir );
VectorNormalize( dir );
VectorScale( dir, Q_flrand( speed * 0.5f, speed * 1.25f ) * speedMod, le->pos.trDelta );
// Angular Velocity
VectorSet( le->angles.trBase, Q_flrand(0.0f, 1.0f) * 360, Q_flrand(0.0f, 1.0f) * 360, Q_flrand(0.0f, 1.0f) * 360 );
le->angles.trDelta[0] = Q_flrand(-1.0f, 1.0f);
le->angles.trDelta[1] = Q_flrand(-1.0f, 1.0f);
le->angles.trDelta[2] = 0; // don't do roll
VectorScale( le->angles.trDelta, Q_flrand(0.0f, 1.0f) * 600.0f + 200.0f, le->angles.trDelta );
le->pos.trType = TR_GRAVITY;
le->angles.trType = TR_LINEAR;
le->pos.trTime = le->angles.trTime = cg.time;
le->bounceFactor = 0.2f + Q_flrand(0.0f, 1.0f) * 0.2f;
le->leFlags |= LEF_TUMBLE;
le->ownerGentNum = owner;
le->leBounceSoundType = bounce;
// Make sure that we have the desired start size set
le->radius = Q_flrand( baseScale * 0.75f, baseScale * 1.25f );
re->nonNormalizedAxes = qtrue;
AxisCopy( axisDefault, re->axis ); // could do an angles to axis, but this is cheaper and works ok
for( k = 0; k < 3; k++ )
{
VectorScale( re->axis[k], le->radius, re->axis[k] );
}
}
}
}
开发者ID:smcv,项目名称:OpenJK,代码行数:101,代码来源:cg_effects.cpp
示例14: CG_LoseHat
/*
==============
CG_LoseHat
==============
*/
void CG_LoseHat(centity_t *cent, vec3_t dir)
{
clientInfo_t *ci;
int clientNum;
// int i, count, tagIndex, gibIndex;
int tagIndex;
vec3_t origin, velocity;
bg_character_t *character;
clientNum = cent->currentState.clientNum;
if (clientNum < 0 || clientNum >= MAX_CLIENTS)
{
CG_Error("Bad clientNum on player entity");
}
ci = &cgs.clientinfo[clientNum];
character = CG_CharacterForClientinfo(ci, cent);
// don't launch anything if they don't have one
if (!character->accModels[ACC_HAT])
{
return;
}
tagIndex = CG_GetOriginForTag(cent, ¢->pe.headRefEnt, "tag_mouth", 0, origin, NULL);
velocity[0] = dir[0] * (0.75 + random()) * GIB_VELOCITY;
velocity[1] = dir[1] * (0.75 + random()) * GIB_VELOCITY;
velocity[2] = GIB_JUMP - 50 + dir[2] * (0.5 + random()) * GIB_VELOCITY;
{
localEntity_t *le;
refEntity_t *re;
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->startTime = cg.time;
le->endTime = le->startTime + 20000 + (crandom() * 5000);
VectorCopy(origin, re->origin);
AxisCopy(axisDefault, re->axis);
re->hModel = character->accModels[ACC_HAT];
re->customSkin = character->accSkins[ACC_HAT];
re->fadeStartTime = le->endTime - 1000;
re->fadeEndTime = le->endTime;
// (SA) FIXME: origin of hat md3 is offset from center. need to center the origin when you toss it
le->pos.trType = TR_GRAVITY;
VectorCopy(origin, le->pos.trBase);
VectorCopy(velocity, le->pos.trDelta);
le->pos.trTime = cg.time;
// spin it a bit
le->angles.trType = TR_LINEAR;
VectorCopy(tv(0, 0, 0), le->angles.trBase);
le->angles.trDelta[0] = 0;
le->angles.trDelta[1] = (100 + (rand() & 500)) - 300;
// le->angles.trDelta[2] = 0;
le->angles.trDelta[2] = 400; // (SA) this is set with a very particular value to try to get it
// to flip exactly once before landing (based on player alive
// (standing) and on level ground) and will be unnecessary when
// I have things landing properly on their own
le->angles.trTime = cg.time;
le->bounceFactor = 0.2;
// Ridah, if the player is on fire, then make the hat on fire
if (cent && CG_EntOnFire(cent))
{
le->onFireStart = cent->currentState.onFireStart;
le->onFireEnd = cent->currentState.onFireEnd + 4000;
}
}
}
开发者ID:morsik,项目名称:war-territory,代码行数:82,代码来源:cg_effects.c
示例15: memset
void
CBulletVolume::render( centity_t& ent )
{
entityState_t& es = ent.currentState;
if (!(es.groundEntityNum & BVF_ENABLED))
return;
// Setup refent.
refEntity_t re;
memset( &re, 0, sizeof(re) );
re.reType = RT_MODEL;
re.renderfx = RF_NOSHADOW;
re.hModel = cgs.media.polygonCubeFO;
re.nonNormalizedAxes = qtrue;
re.customShader = cgs.media.bulletVolumeShader;
re.shaderRGBA[3] = byte(es.angles2[2] * 255.0f);
switch (es.modelindex) {
default: // UNKNWON -> GRAY
case 0:
re.shaderRGBA[0] = byte(0.5f * 255.0f);
re.shaderRGBA[1] = byte(0.5f * 255.0f);
re.shaderRGBA[2] = byte(0.5f * 255.0f);
break;
case 1: // NOHIT -> BLUE
re.shaderRGBA[0] = byte(0.0f * 255.0f);
re.shaderRGBA[1] = byte(0.0f * 255.0f);
re.shaderRGBA[2] = byte(1.0f * 255.0f);
break;
case 2: // HIT -> RED
re.shaderRGBA[0] = byte(1.0f * 255.0f);
re.shaderRGBA[1] = byte(0.0f * 255.0f);
re.shaderRGBA[2] = byte(0.0f * 255.0f);
break;
case 3: // REFERENCE NOHIT -> GREEN
re.shaderRGBA[0] = byte(0.0f * 255.0f);
re.shaderRGBA[1] = byte(1.0f * 255.0f);
re.shaderRGBA[2] = byte(0.0f * 255.0f);
break;
case 4: // REFERENCE HIT -> YELLOW
re.shaderRGBA[0] = byte(1.0f * 255.0f);
re.shaderRGBA[1] = byte(1.0f * 255.0f);
re.shaderRGBA[2] = byte(0.0f * 255.0f);
break;
}
// Apply entity rotation.
AxisClear( re.axis );
AnglesToAxis( es.angles, re.axis );
// Apply scaling matrix.
vec3_t smatrix[3];
AxisClear( smatrix );
smatrix[0][0] *= es.origin2[0];
smatrix[1][1] *= es.origin2[1];
smatrix[2][2] *= es.origin2[2];
vec3_t tmp[3];
MatrixMultiply( smatrix, re.axis, tmp );
AxisCopy( tmp, re.axis );
// Set origins.
VectorCopy( es.origin, re.origin );
VectorCopy( es.origin, re.oldorigin );
VectorCopy( es.origin, re.lightingOrigin );
trap_R_AddRefEntityToScene( &re );
}
开发者ID:Dragonji,项目名称:jaymod,代码行数:75,代码来源:CBulletVolume.cpp
示例16: CG_smoothWWTransitions
/*
===============
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 );
}
开发者ID:lepe,项目名称:trem-gpp-bots,代码行数:100,代码来源:cg_view.c
示例17: FX_EnergyGibs
void FX_EnergyGibs(vec3_t origin )
{
localEntity_t *le;
refEntity_t *re;
vec3_t dir;
int i, j, k;
int chunkModel=0;
float baseScale = 0.7f, dist;
int numChunks;
numChunks = irandom( 10, 15 );
VectorSubtract(cg.snap->ps.origin, origin, dir);
dist = VectorLength(dir);
if (dist > 512)
{
numChunks *= 512.0/dist; // 1/2 at 1024, 1/4 at 2048, etc.
}
for ( i = 0; i < numChunks; i++ )
{
chunkModel = cgs.media.chunkModels[MT_METAL][irandom(0,5)];
le = CG_AllocLocalEntity();
re = &le->refEntity;
le->leType = LE_FRAGMENT;
le->endTime = cg.time + 2000;
VectorCopy( origin, re->origin );
for ( j = 0; j < 3; j++ )
{
re->origin[j] += crandom() * 12;
}
VectorCopy( re->origin, le->pos.trBase );
//Velocity
VectorSet( dir, crandom(), crandom(), crandom() );
VectorScale( dir, flrandom( 300, 500 ), le->pos.trDelta );
//Angular Velocity
VectorSet( le->angles.trBase, crandom() * 360, crandom() * 360, crandom() * 360 );
VectorSet( le->angles.trDelta, crandom() * 90, crandom() * 90, crandom() * 90 );
AxisCopy( axisDefault, re->axis );
le->data.fragment.radius = flrandom(baseScale * 0.4f, baseScale * 0.8f );
re->nonNormalizedAxes = qtrue;
re->hModel = chunkModel;
re->renderfx |= RF_CAP_FRAMES;
re->customShader = cgs.media.quantumDisruptorShader;
re->shaderTime = cg.time/1000.0f;
le->pos.trType = TR_GRAVITY;
le->pos.trTime = cg.time;
le->angles.trType = TR_INTERPOLATE;
le->angles.trTime = cg.time;
le->bounceFactor = 0.2f + random() * 0.2f;
le->leFlags |= LEF_TUMBLE;
re->shaderRGBA[0] = re->shaderRGBA[1] = re->shaderRGBA[2] = re->shaderRGBA[3] = 255;
// Make sure that we have the desired start size set
for( k = 0; k < 3; k++)
{
VectorScale(le->refEntity.axis[k], le->data.fragment.radius, le->refEntity.axis[k]);
}
}
}
开发者ID:UberGames,项目名称:RPG-X2-rpgxEF,代码行数:71,代码来源:fx_misc.c
示例18: CG_OffsetShoulderView
/*
===============
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( );
}
开发者ID:lepe,项目名称:trem-gpp-bots,代码行数:76,代码来源:cg_view.c
示例19: CG_PlasmaTrail
static void CG_PlasmaTrail( centity_t *cent, const weaponInfo_t *wi ) {
localEntity_t *le;
refEntity_t *re;
entityState_t *es;
vec3_t velocity, xvelocity, origin;
vec3_t offset, xoffset;
vec3_t v[3];
int t, startTime, step;
float waterScale = 1.0f;
if ( cg_noProjectileTrail.integer || cg_oldPlasma.integer ) {
return;
}
step = 50;
es = ¢->currentState;
startTime = cent->trailTime;
t = step * ( (startTime + step) / step );
BG_EvaluateTrajectory( &es->pos, cg.time, origin );
le = CG_AllocLocalEntity();
re = &le->refEntity;
velocity[0] = 60 - 120 * crandom();
velocity[1] = 40 - 80 * crandom();
velocity[2] = 100 - 200 * crandom();
le->leType = LE_MOVE_SCALE_FADE;
le->leFlags = LEF_TUMBLE;
le->leBounceSoundType = LEBS_NONE;
le->leMarkType = LEMT_NONE;
le->startTime = cg.time;
le->endTime = le->startTime + 600;
le->pos.trType = TR_GRAVITY;
le->pos.trTime = cg.time;
AnglesToAxis( cent->lerpAngles, v );
offset[0] = 2;
offset[1] = 2;
offset[2] = 2;
xoffset[0] = offset[0] * v[0][0] + offset[1] * v[1][0] + offset[2] * v[2][0];
xoffset[1] = offset[0] * v[0][1] + offset[1] * v[1][1] + offset[2] * v[2][1];
xoffset[2] = offset[0] * v[0][2] + offset[1] * v[1][2] + offset[2] * v[2][2];
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