/* cl_frame.c - client world snapshot Copyright (C) 2008 Uncle Mike 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 3 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. */ #include "common.h" #include "client.h" #include "net_encode.h" #include "entity_types.h" #include "pm_local.h" #include "cl_tent.h" #include "studio.h" #include "dlight.h" #include "sound.h" #include "input.h" #define STUDIO_INTERPOLATION_FIX /* ================== CL_IsPlayerIndex detect player entity ================== */ qboolean CL_IsPlayerIndex( int idx ) { return ( idx >= 1 && idx <= cl.maxclients ); } /* ========================================================================= FRAME INTERPOLATION ========================================================================= */ /* ================== CL_UpdatePositions Store another position into interpolation circular buffer ================== */ void CL_UpdatePositions( cl_entity_t *ent ) { position_history_t *ph; ent->current_position = (ent->current_position + 1) & HISTORY_MASK; ph = &ent->ph[ent->current_position]; VectorCopy( ent->curstate.origin, ph->origin ); VectorCopy( ent->curstate.angles, ph->angles ); ph->animtime = ent->curstate.animtime; // !!! } /* ================== CL_ResetPositions Interpolation init or reset after teleporting ================== */ void CL_ResetPositions( cl_entity_t *ent ) { position_history_t store; if( !ent ) return; store = ent->ph[ent->current_position]; ent->current_position = 1; memset( ent->ph, 0, sizeof( position_history_t ) * HISTORY_MAX ); memcpy( &ent->ph[1], &store, sizeof( position_history_t )); memcpy( &ent->ph[0], &store, sizeof( position_history_t )); } /* ================== CL_EntityTeleported check for instant movement in case we don't want interpolate this ================== */ qboolean CL_EntityTeleported( cl_entity_t *ent ) { float len, maxlen; vec3_t delta; VectorSubtract( ent->curstate.origin, ent->prevstate.origin, delta ); // compute potential max movement in units per frame and compare with entity movement maxlen = ( clgame.movevars.maxvelocity * ( 1.0f / GAME_FPS )); len = VectorLength( delta ); return (len > maxlen); } /* ================== CL_CompareTimestamps round-off floating errors ================== */ qboolean CL_CompareTimestamps( float t1, float t2 ) { int iTime1 = t1 * 1000; int iTime2 = t2 * 1000; return (( iTime1 - iTime2 ) <= 1 ); } /* ================== CL_EntityIgnoreLerp some ents will be ignore lerping ================== */ qboolean CL_EntityIgnoreLerp( cl_entity_t *e ) { if( cl_nointerp->value > 0.f ) return true; if( e->model && e->model->type == mod_alias ) return false; return (e->curstate.movetype == MOVETYPE_NONE) ? true : false; } /* ================== CL_EntityCustomLerp ================== */ qboolean CL_EntityCustomLerp( cl_entity_t *e ) { switch( e->curstate.movetype ) { case MOVETYPE_NONE: case MOVETYPE_STEP: case MOVETYPE_WALK: case MOVETYPE_FLY: case MOVETYPE_COMPOUND: return false; } return true; } /* ================== CL_ParametricMove check for parametrical moved entities ================== */ qboolean CL_ParametricMove( cl_entity_t *ent ) { float frac, dt, t; vec3_t delta; if( ent->curstate.starttime == 0.0f || ent->curstate.impacttime == 0.0f ) return false; VectorSubtract( ent->curstate.endpos, ent->curstate.startpos, delta ); dt = ent->curstate.impacttime - ent->curstate.starttime; if( dt != 0.0f ) { if( ent->lastmove > cl.time ) t = ent->lastmove; else t = cl.time; frac = ( t - ent->curstate.starttime ) / dt; frac = bound( 0.0f, frac, 1.0f ); VectorMA( ent->curstate.startpos, frac, delta, ent->curstate.origin ); ent->lastmove = t; } VectorNormalize( delta ); if( VectorLength( delta ) > 0.0f ) VectorAngles( delta, ent->curstate.angles ); // re-aim projectile return true; } /* ==================== CL_UpdateLatchedVars ==================== */ void CL_UpdateLatchedVars( cl_entity_t *ent ) { if( !ent->model || ( ent->model->type != mod_alias && ent->model->type != mod_studio )) return; // below fields used only for alias and studio interpolation VectorCopy( ent->prevstate.origin, ent->latched.prevorigin ); VectorCopy( ent->prevstate.angles, ent->latched.prevangles ); if( ent->model->type == mod_alias ) ent->latched.prevframe = ent->prevstate.frame; ent->latched.prevanimtime = ent->prevstate.animtime; if( ent->curstate.sequence != ent->prevstate.sequence ) { memcpy( ent->latched.prevseqblending, ent->prevstate.blending, sizeof( ent->prevstate.blending )); ent->latched.prevsequence = ent->prevstate.sequence; ent->latched.sequencetime = ent->curstate.animtime; } memcpy( ent->latched.prevcontroller, ent->prevstate.controller, sizeof( ent->latched.prevcontroller )); memcpy( ent->latched.prevblending, ent->prevstate.blending, sizeof( ent->latched.prevblending )); // update custom latched vars if( clgame.drawFuncs.CL_UpdateLatchedVars != NULL ) clgame.drawFuncs.CL_UpdateLatchedVars( ent, false ); } /* ==================== CL_GetStudioEstimatedFrame ==================== */ float CL_GetStudioEstimatedFrame( cl_entity_t *ent ) { studiohdr_t *pstudiohdr; mstudioseqdesc_t *pseqdesc; int sequence; if( ent->model != NULL && ent->model->type == mod_studio ) { pstudiohdr = (studiohdr_t *)Mod_StudioExtradata( ent->model ); if( pstudiohdr ) { sequence = bound( 0, ent->curstate.sequence, pstudiohdr->numseq - 1 ); pseqdesc = (mstudioseqdesc_t *)((byte *)pstudiohdr + pstudiohdr->seqindex) + sequence; return ref.dllFuncs.R_StudioEstimateFrame( ent, pseqdesc ); } } return 0; } /* ==================== CL_ResetLatchedVars ==================== */ void CL_ResetLatchedVars( cl_entity_t *ent, qboolean full_reset ) { if( !ent->model || ( ent->model->type != mod_alias && ent->model->type != mod_studio )) return; // below fields used only for alias and studio interpolation if( full_reset ) { // don't modify for sprites to avoid broke sprite interp memcpy( ent->latched.prevblending, ent->curstate.blending, sizeof( ent->latched.prevblending )); ent->latched.sequencetime = ent->curstate.animtime; memcpy( ent->latched.prevcontroller, ent->curstate.controller, sizeof( ent->latched.prevcontroller )); if( ent->model->type == mod_studio ) ent->latched.prevframe = CL_GetStudioEstimatedFrame( ent ); else if( ent->model->type == mod_alias ) ent->latched.prevframe = ent->curstate.frame; ent->prevstate = ent->curstate; } ent->latched.prevanimtime = ent->curstate.animtime = cl.mtime[0]; VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); VectorCopy( ent->curstate.angles, ent->latched.prevangles ); ent->latched.prevsequence = ent->curstate.sequence; // update custom latched vars if( clgame.drawFuncs.CL_UpdateLatchedVars != NULL ) clgame.drawFuncs.CL_UpdateLatchedVars( ent, true ); } /* ================== CL_ProcessEntityUpdate apply changes since new frame received ================== */ void CL_ProcessEntityUpdate( cl_entity_t *ent ) { qboolean parametric; ent->model = CL_ModelHandle( ent->curstate.modelindex ); ent->index = ent->curstate.number; if( FBitSet( ent->curstate.entityType, ENTITY_NORMAL )) COM_NormalizeAngles( ent->curstate.angles ); parametric = ent->curstate.starttime != 0.0f && ent->curstate.impacttime != 0.0f; // allow interpolation on bmodels too if( ent->model && ent->model->type == mod_brush ) ent->curstate.animtime = ent->curstate.msg_time; if( CL_EntityCustomLerp( ent ) && !parametric ) ent->curstate.animtime = ent->curstate.msg_time; if( !CL_CompareTimestamps( ent->curstate.animtime, ent->prevstate.animtime ) || CL_EntityIgnoreLerp( ent )) { CL_UpdateLatchedVars( ent ); CL_UpdatePositions( ent ); } // g-cont. it should be done for all the players? if( ent->player && !FBitSet( host.features, ENGINE_COMPUTE_STUDIO_LERP )) ent->curstate.angles[PITCH] /= -3.0f; VectorCopy( ent->curstate.origin, ent->origin ); VectorCopy( ent->curstate.angles, ent->angles ); // initialize attachments for now VectorCopy( ent->origin, ent->attachment[0] ); VectorCopy( ent->origin, ent->attachment[1] ); VectorCopy( ent->origin, ent->attachment[2] ); VectorCopy( ent->origin, ent->attachment[3] ); } /* ================== CL_FindInterpolationUpdates find two timestamps ================== */ qboolean CL_FindInterpolationUpdates( cl_entity_t *ent, float targettime, position_history_t **ph0, position_history_t **ph1 ) { qboolean extrapolate = true; uint i, i0, i1, imod; float at; imod = ent->current_position; i0 = (imod - 0) & HISTORY_MASK; // curpos (lerp end) i1 = (imod - 1) & HISTORY_MASK; // oldpos (lerp start) for( i = 1; i < HISTORY_MAX - 1; i++ ) { at = ent->ph[( imod - i ) & HISTORY_MASK].animtime; if( at == 0.0f ) break; if( targettime > at ) { // found it i0 = (( imod - i ) + 1 ) & HISTORY_MASK; i1 = (( imod - i ) + 0 ) & HISTORY_MASK; extrapolate = false; break; } } if( ph0 != NULL ) *ph0 = &ent->ph[i0]; if( ph1 != NULL ) *ph1 = &ent->ph[i1]; return extrapolate; } /* ================== CL_PureOrigin non-local players interpolation ================== */ void CL_PureOrigin( cl_entity_t *ent, float t, vec3_t outorigin, vec3_t outangles ) { qboolean extrapolate; float t1, t0, frac; position_history_t *ph0, *ph1; vec3_t delta; // NOTE: ph0 is next, ph1 is a prev extrapolate = CL_FindInterpolationUpdates( ent, t, &ph0, &ph1 ); if ( !ph0 || !ph1 ) return; t0 = ph0->animtime; t1 = ph1->animtime; if( t0 != 0.0f ) { vec4_t q, q1, q2; VectorSubtract( ph0->origin, ph1->origin, delta ); if( !Q_equal( t0, t1 )) frac = ( t - t1 ) / ( t0 - t1 ); else frac = 1.0f; frac = bound( 0.0f, frac, 1.2f ); VectorMA( ph1->origin, frac, delta, outorigin ); AngleQuaternion( ph0->angles, q1, false ); AngleQuaternion( ph1->angles, q2, false ); QuaternionSlerp( q2, q1, frac, q ); QuaternionAngle( q, outangles ); } else { // no backup found VectorCopy( ph1->origin, outorigin ); VectorCopy( ph1->angles, outangles ); } } /* ================== CL_InterpolateModel non-players interpolation ================== */ int CL_InterpolateModel( cl_entity_t *e ) { position_history_t *ph0 = NULL, *ph1 = NULL; vec3_t origin, angles, delta; float t, t1, t2, frac; vec4_t q, q1, q2; VectorCopy( e->curstate.origin, e->origin ); VectorCopy( e->curstate.angles, e->angles ); if( cls.timedemo || !e->model ) return 1; if( cls.demoplayback == DEMO_QUAKE1 ) { // quake lerping is easy VectorLerp( e->prevstate.origin, cl.lerpFrac, e->curstate.origin, e->origin ); AngleQuaternion( e->prevstate.angles, q1, false ); AngleQuaternion( e->curstate.angles, q2, false ); QuaternionSlerp( q1, q2, cl.lerpFrac, q ); QuaternionAngle( q, e->angles ); return 1; } if( cl.maxclients <= 1 ) return 1; if( e->model->type == mod_brush && !cl_bmodelinterp->value ) return 1; if( cl.local.moving && cl.local.onground == e->index ) return 1; t = cl.time - cl_interp->value; CL_FindInterpolationUpdates( e, t, &ph0, &ph1 ); if( ph0 == NULL || ph1 == NULL ) return 0; t1 = ph1->animtime; t2 = ph0->animtime; if( t - t1 < 0.0f ) return 0; if( t1 == 0.0f ) { VectorCopy( ph0->origin, e->origin ); VectorCopy( ph0->angles, e->angles ); return 0; } if( Q_equal( t2, t1 )) { VectorCopy( ph0->origin, e->origin ); VectorCopy( ph0->angles, e->angles ); return 1; } VectorSubtract( ph0->origin, ph1->origin, delta ); frac = (t - t1) / (t2 - t1); if( frac < 0.0f ) return 0; if( frac > 1.0f ) frac = 1.0f; VectorMA( ph1->origin, frac, delta, origin ); AngleQuaternion( ph0->angles, q1, false ); AngleQuaternion( ph1->angles, q2, false ); QuaternionSlerp( q2, q1, frac, q ); QuaternionAngle( q, angles ); VectorCopy( origin, e->origin ); VectorCopy( angles, e->angles ); return 1; } /* ============= CL_ComputePlayerOrigin interpolate non-local clients ============= */ void CL_ComputePlayerOrigin( cl_entity_t *ent ) { float targettime; vec4_t q, q1, q2; vec3_t origin; vec3_t angles; if( !ent->player || ent->index == ( cl.playernum + 1 )) return; if( cl_nointerp->value > 0.f ) { VectorCopy( ent->curstate.angles, ent->angles ); VectorCopy( ent->curstate.origin, ent->origin ); return; } if( cls.demoplayback == DEMO_QUAKE1 ) { // quake lerping is easy VectorLerp( ent->prevstate.origin, cl.lerpFrac, ent->curstate.origin, ent->origin ); AngleQuaternion( ent->prevstate.angles, q1, false ); AngleQuaternion( ent->curstate.angles, q2, false ); QuaternionSlerp( q1, q2, cl.lerpFrac, q ); QuaternionAngle( q, ent->angles ); return; } targettime = cl.time - cl_interp->value; CL_PureOrigin( ent, targettime, origin, angles ); VectorCopy( angles, ent->angles ); VectorCopy( origin, ent->origin ); } /* ================= CL_ProcessPlayerState process player states after the new packet has received ================= */ void CL_ProcessPlayerState( int playerindex, entity_state_t *state ) { entity_state_t *ps; ps = &cl.frames[cl.parsecountmod].playerstate[playerindex]; ps->number = state->number; ps->messagenum = cl.parsecount; ps->msg_time = cl.mtime[0]; clgame.dllFuncs.pfnProcessPlayerState( ps, state ); } /* ================= CL_ResetLatchedState reset latched state if this frame entity was teleported or just EF_NOINTERP was set ================= */ void CL_ResetLatchedState( int pnum, frame_t *frame, cl_entity_t *ent ) { if( CHECKVISBIT( frame->flags, pnum )) { VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); VectorCopy( ent->curstate.angles, ent->latched.prevangles ); CL_ResetLatchedVars( ent, true ); CL_ResetPositions( ent ); // parametric interpolation will starts at this point if( ent->curstate.starttime != 0.0f && ent->curstate.impacttime != 0.0f ) ent->lastmove = cl.time; } } /* ================= CL_ProcessPacket process player states after the new packet has received ================= */ void CL_ProcessPacket( frame_t *frame ) { entity_state_t *state; cl_entity_t *ent; int pnum; for( pnum = 0; pnum < frame->num_entities; pnum++ ) { // request the entity state from circular buffer state = &cls.packet_entities[(frame->first_entity+pnum) % cls.num_client_entities]; state->messagenum = cl.parsecount; state->msg_time = cl.mtime[0]; // mark all the players ent = &clgame.entities[state->number]; ent->player = CL_IsPlayerIndex( state->number ); if( state->number == ( cl.playernum + 1 )) clgame.dllFuncs.pfnTxferLocalOverrides( state, &frame->clientdata ); // shuffle states ent->prevstate = ent->curstate; ent->curstate = *state; CL_ProcessEntityUpdate( ent ); CL_ResetLatchedState( pnum, frame, ent ); if( !ent->player ) continue; CL_ProcessPlayerState(( state->number - 1 ), state ); if( state->number == ( cl.playernum + 1 )) CL_CheckPredictionError(); } } /* ========================================================================= FRAME PARSING ========================================================================= */ /* ================= CL_FlushEntityPacket Read and ignore whole entity packet. ================= */ void CL_FlushEntityPacket( sizebuf_t *msg ) { int newnum; entity_state_t from, to; memset( &from, 0, sizeof( from )); cl.frames[cl.parsecountmod].valid = false; cl.validsequence = 0; // can't render a frame // read it all, but ignore it while( 1 ) { newnum = MSG_ReadUBitLong( msg, MAX_ENTITY_BITS ); if( newnum == LAST_EDICT ) break; // done if( MSG_CheckOverflow( msg )) Host_Error( "CL_FlushEntityPacket: overflow\n" ); MSG_ReadDeltaEntity( msg, &from, &to, newnum, CL_IsPlayerIndex( newnum ) ? DELTA_PLAYER : DELTA_ENTITY, cl.mtime[0] ); } } /* ================= CL_DeltaEntity processing delta update ================= */ void CL_DeltaEntity( sizebuf_t *msg, frame_t *frame, int newnum, entity_state_t *old, qboolean has_update ) { cl_entity_t *ent; entity_state_t *state; qboolean newent = (old) ? false : true; int pack = frame->num_entities; int delta_type = DELTA_ENTITY; qboolean alive = true; // alloc next slot to store update state = &cls.packet_entities[cls.next_client_entities % cls.num_client_entities]; if( CL_IsPlayerIndex( newnum )) delta_type = DELTA_PLAYER; if(( newnum < 0 ) || ( newnum >= clgame.maxEntities )) { Con_DPrintf( S_ERROR "CL_DeltaEntity: invalid newnum: %d\n", newnum ); if( has_update ) MSG_ReadDeltaEntity( msg, old, state, newnum, delta_type, cl.mtime[0] ); return; } ent = CL_EDICT_NUM( newnum ); ent->index = newnum; // enumerate entity index if( newent ) old = &ent->baseline; if( has_update ) alive = MSG_ReadDeltaEntity( msg, old, state, newnum, delta_type, cl.mtime[0] ); else memcpy( state, old, sizeof( entity_state_t )); if( !alive ) { CL_KillDeadBeams( ent ); // release dead beams #if 0 // this is for reference if( state->number == -1 ) Con_DPrintf( "Entity %i was removed from server\n", newnum ); else Con_Dprintf( "Entity %i was removed from delta-message\n", newnum ); #endif return; } if( newent ) { // interpolation must be reset SETVISBIT( frame->flags, pack ); // release beams from previous entity CL_KillDeadBeams( ent ); } // add entity to packet cls.next_client_entities++; frame->num_entities++; } /* ================== CL_ParsePacketEntities An svc_packetentities has just been parsed, deal with the rest of the data stream. ================== */ int CL_ParsePacketEntities( sizebuf_t *msg, qboolean delta ) { frame_t *newframe, *oldframe; int oldindex, newnum, oldnum; int playerbytes = 0; int oldpacket; int bufStart; entity_state_t *oldent; qboolean player; int count; // save first uncompressed packet as timestamp if( cls.changelevel && !delta && cls.demorecording ) CL_WriteDemoJumpTime(); // sentinel count. save it for debug checking if( cls.legacymode ) count = MSG_ReadWord( msg ); else count = MSG_ReadUBitLong( msg, MAX_VISIBLE_PACKET_BITS ) + 1; newframe = &cl.frames[cl.parsecountmod]; // allocate parse entities memset( newframe->flags, 0, sizeof( newframe->flags )); newframe->first_entity = cls.next_client_entities; newframe->num_entities = 0; newframe->valid = true; // assume valid if( delta ) { int subtracted; oldpacket = MSG_ReadByte( msg ); subtracted = ( cls.netchan.incoming_sequence - oldpacket ) & 0xFF; if( subtracted == 0 ) { Con_NPrintf( 2, "^3Warning:^1 update too old\n^7\n" ); CL_FlushEntityPacket( msg ); return playerbytes; } if( subtracted >= CL_UPDATE_MASK ) { // we can't use this, it is too old Con_NPrintf( 2, "^3Warning:^1 delta frame is too old^7\n" ); CL_FlushEntityPacket( msg ); return playerbytes; } oldframe = &cl.frames[oldpacket & CL_UPDATE_MASK]; if(( cls.next_client_entities - oldframe->first_entity ) > ( cls.num_client_entities - NUM_PACKET_ENTITIES )) { Con_NPrintf( 2, "^3Warning:^1 delta frame is too old^7\n" ); CL_FlushEntityPacket( msg ); return playerbytes; } } else { // this is a full update that we can start delta compressing from now oldframe = NULL; oldpacket = -1; // delta too old or is initial message cl.send_reply = true; // send reply cls.demowaiting = false; // we can start recording now } // mark current delta state cl.validsequence = cls.netchan.incoming_sequence; oldent = NULL; oldindex = 0; if( !oldframe ) { oldnum = MAX_ENTNUMBER; } else { if( oldindex >= oldframe->num_entities ) { oldnum = MAX_ENTNUMBER; } else { oldent = &cls.packet_entities[(oldframe->first_entity+oldindex) % cls.num_client_entities]; oldnum = oldent->number; } } while( 1 ) { int lastedict; if( cls.legacymode ) { newnum = MSG_ReadWord( msg ); lastedict = 0; } else { newnum = MSG_ReadUBitLong( msg, MAX_ENTITY_BITS ); lastedict = LAST_EDICT; } if( newnum == lastedict ) break; // end of packet entities if( MSG_CheckOverflow( msg )) Host_Error( "CL_ParsePacketEntities: overflow\n" ); player = CL_IsPlayerIndex( newnum ); while( oldnum < newnum ) { // one or more entities from the old packet are unchanged CL_DeltaEntity( msg, newframe, oldnum, oldent, false ); oldindex++; if( oldindex >= oldframe->num_entities ) { oldnum = MAX_ENTNUMBER; } else { oldent = &cls.packet_entities[(oldframe->first_entity+oldindex) % cls.num_client_entities]; oldnum = oldent->number; } } if( oldnum == newnum ) { // delta from previous state bufStart = MSG_GetNumBytesRead( msg ); CL_DeltaEntity( msg, newframe, newnum, oldent, true ); if( player ) playerbytes += MSG_GetNumBytesRead( msg ) - bufStart; oldindex++; if( oldindex >= oldframe->num_entities ) { oldnum = MAX_ENTNUMBER; } else { oldent = &cls.packet_entities[(oldframe->first_entity+oldindex) % cls.num_client_entities]; oldnum = oldent->number; } continue; } if( oldnum > newnum ) { // delta from baseline ? bufStart = MSG_GetNumBytesRead( msg ); CL_DeltaEntity( msg, newframe, newnum, NULL, true ); if( player ) playerbytes += MSG_GetNumBytesRead( msg ) - bufStart; continue; } } // any remaining entities in the old frame are copied over while( oldnum != MAX_ENTNUMBER ) { // one or more entities from the old packet are unchanged CL_DeltaEntity( msg, newframe, oldnum, oldent, false ); oldindex++; if( oldindex >= oldframe->num_entities ) { oldnum = MAX_ENTNUMBER; } else { oldent = &cls.packet_entities[(oldframe->first_entity+oldindex) % cls.num_client_entities]; oldnum = oldent->number; } } if( newframe->num_entities != count && newframe->num_entities != 0 ) Con_Reportf( S_WARN "CL_Parse%sPacketEntities: (%i should be %i)\n", delta ? "Delta" : "", newframe->num_entities, count ); if( !newframe->valid ) return playerbytes; // frame is not valid but message was parsed // now process packet. CL_ProcessPacket( newframe ); // add new entities into physic lists CL_SetSolidEntities(); // first update is the final signon stage where we actually receive an entity (i.e., the world at least) if( cls.signon == ( SIGNONS - 1 )) { // we are done with signon sequence. cls.signon = SIGNONS; // Clear loading plaque. CL_SignonReply (); } return playerbytes; } /* ========================================================================== INTERPOLATE BETWEEN FRAMES TO GET RENDERING PARMS ========================================================================== */ /* ============= CL_AddVisibleEntity all the visible entities should pass this filter ============= */ qboolean CL_AddVisibleEntity( cl_entity_t *ent, int entityType ) { if( !ent || !ent->model ) return false; // check for adding this entity if( !clgame.dllFuncs.pfnAddEntity( entityType, ent, ent->model->name )) { // local player was reject by game code, so ignore any effects if( RP_LOCALCLIENT( ent )) cl.local.apply_effects = false; return false; } // don't add the player in firstperson mode if( RP_LOCALCLIENT( ent )) { cl.local.apply_effects = true; if( !CL_IsThirdPerson( ) && ( ent->index == cl.viewentity )) return false; } if( entityType == ET_BEAM ) { ref.dllFuncs.CL_AddCustomBeam( ent ); return true; } else if( !ref.dllFuncs.R_AddEntity( ent, entityType )) { return false; } // because pTemp->entity.curstate.effects // is already occupied by FTENT_FLICKER if( entityType != ET_TEMPENTITY && !RP_LOCALCLIENT( ent ) ) { // apply client-side effects CL_AddEntityEffects( ent ); // alias & studiomodel efefcts CL_AddModelEffects( ent ); } return true; } /* ============= CL_LinkCustomEntity Add server beam to draw list ============= */ void CL_LinkCustomEntity( cl_entity_t *ent, entity_state_t *state ) { ent->curstate.movetype = state->modelindex; // !!! if( ent->model->type != mod_sprite ) Con_Reportf( S_WARN "bad model on beam ( %s )\n", ent->model->name ); ent->latched.prevsequence = ent->curstate.sequence; VectorCopy( ent->origin, ent->latched.prevorigin ); VectorCopy( ent->angles, ent->latched.prevangles ); ent->prevstate = ent->curstate; CL_AddVisibleEntity( ent, ET_BEAM ); } /* ============= CL_LinkPlayers Create visible entities in the correct position for all current players ============= */ void CL_LinkPlayers( frame_t *frame ) { entity_state_t *state; cl_entity_t *ent; int i; ent = CL_GetLocalPlayer(); // apply muzzleflash to weaponmodel if( ent && FBitSet( ent->curstate.effects, EF_MUZZLEFLASH )) SetBits( clgame.viewent.curstate.effects, EF_MUZZLEFLASH ); // check all the clients but add only visible for( i = 0, state = frame->playerstate; i < MAX_CLIENTS; i++, state++ ) { if( state->messagenum != cl.parsecount ) continue; // not present this frame if( !state->modelindex || FBitSet( state->effects, EF_NODRAW )) continue; ent = &clgame.entities[i + 1]; // fixup the player indexes... if( ent->index != ( i + 1 )) ent->index = (i + 1); if( i == cl.playernum ) { if( cls.demoplayback != DEMO_QUAKE1 ) { VectorCopy( state->origin, ent->origin ); VectorCopy( state->origin, ent->prevstate.origin ); VectorCopy( state->origin, ent->curstate.origin ); } VectorCopy( ent->curstate.angles, ent->angles ); } if( FBitSet( ent->curstate.effects, EF_NOINTERP )) CL_ResetLatchedVars( ent, false ); if( CL_EntityTeleported( ent )) { VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); VectorCopy( ent->curstate.angles, ent->latched.prevangles ); CL_ResetPositions( ent ); } if ( i == cl.playernum ) { if( cls.demoplayback == DEMO_QUAKE1 ) VectorLerp( ent->prevstate.origin, cl.lerpFrac, ent->curstate.origin, cl.simorg ); VectorCopy( cl.simorg, ent->origin ); } else { VectorCopy( ent->curstate.origin, ent->origin ); VectorCopy( ent->curstate.angles, ent->angles ); // interpolate non-local clients CL_ComputePlayerOrigin( ent ); } VectorCopy( ent->origin, ent->attachment[0] ); VectorCopy( ent->origin, ent->attachment[1] ); VectorCopy( ent->origin, ent->attachment[2] ); VectorCopy( ent->origin, ent->attachment[3] ); CL_AddVisibleEntity( ent, ET_PLAYER ); } // apply local player effects if entity is not added if( cl.local.apply_effects ) CL_AddEntityEffects( CL_GetLocalPlayer( )); } /* =============== CL_LinkPacketEntities =============== */ void CL_LinkPacketEntities( frame_t *frame ) { cl_entity_t *ent; entity_state_t *state; qboolean parametric; qboolean interpolate; int i; for( i = 0; i < frame->num_entities; i++ ) { state = &cls.packet_entities[(frame->first_entity + i) % cls.num_client_entities]; // clients are should be done in CL_LinkPlayers if( state->number >= 1 && state->number <= cl.maxclients ) continue; // if set to invisible, skip if( !state->modelindex || FBitSet( state->effects, EF_NODRAW )) continue; ent = CL_GetEntityByIndex( state->number ); if( !ent ) { Con_Reportf( S_ERROR "CL_LinkPacketEntity: bad entity %i\n", state->number ); continue; } // animtime must keep an actual ent->curstate.animtime = state->animtime; ent->curstate.frame = state->frame; interpolate = false; if( !ent->model ) continue; if( ent->curstate.rendermode == kRenderNormal ) { // auto 'solid' faces if( FBitSet( ent->model->flags, MODEL_TRANSPARENT ) && Host_IsQuakeCompatible( )) { ent->curstate.rendermode = kRenderTransAlpha; ent->curstate.renderamt = 255; } } parametric = ( ent->curstate.impacttime != 0.0f && ent->curstate.starttime != 0.0f ); if( !parametric && ent->curstate.movetype != MOVETYPE_COMPOUND ) { if( ent->curstate.animtime == ent->prevstate.animtime && !VectorCompare( ent->curstate.origin, ent->prevstate.origin )) ent->lastmove = cl.time + 0.2; if( FBitSet( ent->curstate.eflags, EFLAG_SLERP )) { if( ent->curstate.animtime != 0.0f && ( ent->model->type == mod_alias || ent->model->type == mod_studio )) { #ifdef STUDIO_INTERPOLATION_FIX if( ent->lastmove >= cl.time ) VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); if( FBitSet( host.features, ENGINE_COMPUTE_STUDIO_LERP )) interpolate = true; else ent->curstate.movetype = MOVETYPE_STEP; #else if( ent->lastmove >= cl.time ) { CL_ResetLatchedVars( ent, true ); VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); VectorCopy( ent->curstate.angles, ent->latched.prevangles ); // disable step interpolation in client.dll ent->curstate.movetype = MOVETYPE_NONE; } else { // restore step interpolation in client.dll ent->curstate.movetype = MOVETYPE_STEP; } #endif } } } if( ent->model->type == mod_brush ) { CL_InterpolateModel( ent ); } else { if( parametric ) { CL_ParametricMove( ent ); VectorCopy( ent->curstate.origin, ent->origin ); VectorCopy( ent->curstate.angles, ent->angles ); } else if( CL_EntityCustomLerp( ent )) { if ( !CL_InterpolateModel( ent )) continue; } else if( ent->curstate.movetype == MOVETYPE_STEP && !NET_IsLocalAddress( cls.netchan.remote_address )) { if( !CL_InterpolateModel( ent )) continue; } else { // no interpolation right now VectorCopy( ent->curstate.origin, ent->origin ); VectorCopy( ent->curstate.angles, ent->angles ); } if( ent->model->type == mod_studio ) { if( interpolate && FBitSet( host.features, ENGINE_COMPUTE_STUDIO_LERP )) ref.dllFuncs.R_StudioLerpMovement( ent, cl.time, ent->origin, ent->angles ); } } if( !FBitSet( state->entityType, ENTITY_NORMAL )) { CL_LinkCustomEntity( ent, state ); continue; } if( ent->model->type != mod_brush ) { // NOTE: never pass sprites with rendercolor '0 0 0' it's a stupid Valve Hammer Editor bug if( !ent->curstate.rendercolor.r && !ent->curstate.rendercolor.g && !ent->curstate.rendercolor.b ) ent->curstate.rendercolor.r = ent->curstate.rendercolor.g = ent->curstate.rendercolor.b = 255; } // XASH SPECIFIC if( ent->curstate.rendermode == kRenderNormal && ent->curstate.renderfx == kRenderFxNone ) ent->curstate.renderamt = 255.0f; if( ent->curstate.aiment != 0 && ent->curstate.movetype != MOVETYPE_COMPOUND ) ent->curstate.movetype = MOVETYPE_FOLLOW; if( FBitSet( ent->curstate.effects, EF_NOINTERP )) CL_ResetLatchedVars( ent, false ); if( CL_EntityTeleported( ent )) { VectorCopy( ent->curstate.origin, ent->latched.prevorigin ); VectorCopy( ent->curstate.angles, ent->latched.prevangles ); CL_ResetPositions( ent ); } VectorCopy( ent->origin, ent->attachment[0] ); VectorCopy( ent->origin, ent->attachment[1] ); VectorCopy( ent->origin, ent->attachment[2] ); VectorCopy( ent->origin, ent->attachment[3] ); CL_AddVisibleEntity( ent, ET_NORMAL ); } } /* =============== CL_MoveThirdpersonCamera think thirdperson =============== */ void CL_MoveThirdpersonCamera( void ) { if( cls.state == ca_disconnected || cls.state == ca_cinematic ) return; // think thirdperson camera clgame.dllFuncs.CAM_Think (); } /* =============== CL_EmitEntities add visible entities to refresh list process frame interpolation etc =============== */ void CL_EmitEntities( void ) { if( cl.paused ) return; // don't waste time // not in server yet, no entities to redraw if( cls.state != ca_active || !cl.validsequence ) return; // make sure we have at least one valid update if( !cl.frames[cl.parsecountmod].valid ) return; // animate lightestyles ref.dllFuncs.CL_RunLightStyles (); // decay dynamic lights CL_DecayLights (); // compute last interpolation amount CL_UpdateFrameLerp (); // set client ideal pitch when mlook is disabled CL_SetIdealPitch (); ref.dllFuncs.R_ClearScene (); // link all the visible clients first CL_LinkPlayers ( &cl.frames[cl.parsecountmod] ); // link all the entities that actually have update CL_LinkPacketEntities ( &cl.frames[cl.parsecountmod] ); // link custom user temp entities clgame.dllFuncs.pfnCreateEntities(); // evaluate temp entities CL_TempEntUpdate (); // fire events (client and server) CL_FireEvents (); // handle spectator camera movement CL_MoveSpectatorCamera(); // perfomance test CL_TestLights(); } /* ========================================================================== SOUND ENGINE IMPLEMENTATION ========================================================================== */ qboolean CL_GetEntitySpatialization( channel_t *ch ) { cl_entity_t *ent; qboolean valid_origin; if( ch->entnum == 0 ) { ch->staticsound = true; return true; // static sound } if(( ch->entnum - 1 ) == cl.playernum ) { VectorCopy( refState.vieworg, ch->origin ); return true; } valid_origin = VectorIsNull( ch->origin ) ? false : true; ent = CL_GetEntityByIndex( ch->entnum ); // entity is not present on the client but has valid origin if( !ent || !ent->model || ent->curstate.messagenum != cl.parsecount ) return valid_origin; // setup origin if( ent->model->type == mod_brush ) { VectorAverage( ent->model->mins, ent->model->maxs, ch->origin ); VectorAdd( ent->origin, ch->origin, ch->origin ); } else { VectorCopy( ent->origin, ch->origin ); } return true; } qboolean CL_GetMovieSpatialization( rawchan_t *ch ) { cl_entity_t *ent; qboolean valid_origin; valid_origin = VectorIsNull( ch->origin ) ? false : true; ent = CL_GetEntityByIndex( ch->entnum ); // entity is not present on the client but has valid origin if( !ent || !ent->index || ent->curstate.messagenum == 0 ) return valid_origin; // setup origin if( ent->model->type == mod_brush ) { VectorAverage( ent->model->mins, ent->model->maxs, ch->origin ); VectorAdd( ent->origin, ch->origin, ch->origin ); } else { VectorCopy( ent->origin, ch->origin ); } return true; } void CL_ExtraUpdate( void ) { clgame.dllFuncs.IN_Accumulate(); S_ExtraUpdate(); }