/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "quakedef.h" #include "winquake.h" cvar_t cl_predict_extrapolate = CVARD("cl_predict_extrapolate", "", "If 1, enables prediction based upon partial input frames which can change over time resulting in a swimmy feel but does not need to interpolate. If 0, prediction will stay in the past and thus use only completed frames. Interpolation will then be used to smooth movement.\nThis cvar only applies when video and input frames are independant (ie: cl_netfps is set)."); static cvar_t cl_predict_timenudge = CVARD("cl_predict_timenudge", "0", "A debug feature. You should normally leave this as 0. Nudges local player prediction into the future if positive (resulting in extrapolation), or into the past if negative (resulting in laggy interpolation). Value is in seconds, so small decimals are required. This cvar applies even if input frames are tied to video frames."); cvar_t cl_lerp_smooth = CVARD("cl_lerp_smooth", "2", "If 2, will act as 1 when playing demos/singleplayer and otherwise act as if set to 0 (ie: deathmatch).\nIf 1, interpolation will run in the past, resulting in really smooth movement at the cost of latency (even on bunchy german ISDNs).\nIf 0, interpolation will be based upon packet arrival times and may judder due to packet loss."); static cvar_t cl_lerp_driftbias = CVARD("cl_lerp_driftbias", "0", "Additional bias, can be set to a negative value to hold interpolation in the past."); static cvar_t cl_lerp_driftfrac = CVARD("cl_lerp_driftfrac", "0", "Proportion of the latest time vs the older time to favour drifting towards."); cvar_t cl_nopred = CVARD("cl_nopred","0", "Disables clientside movement prediction."); static cvar_t cl_pushlatency = CVAR("pushlatency","-999"); extern float pm_airaccelerate; extern usercmd_t cl_pendingcmd[MAX_SPLITS]; #ifdef Q2CLIENT #define MAX_PARSE_ENTITIES 1024 extern entity_state_t clq2_parse_entities[MAX_PARSE_ENTITIES]; char *Get_Q2ConfigString(int i); void VARGS Q2_Pmove (q2pmove_t *pmove); #define Q2PMF_DUCKED 1 #define Q2PMF_JUMP_HELD 2 #define Q2PMF_ON_GROUND 4 #define Q2PMF_TIME_WATERJUMP 8 // pm_time is waterjump #define Q2PMF_TIME_LAND 16 // pm_time is time before rejump #define Q2PMF_TIME_TELEPORT 32 // pm_time is non-moving time #define Q2PMF_NO_PREDICTION 64 // temporarily disables prediction (used for grappling hook) static struct { vec3_t origin; int seq; } cl_predictions[MAX_SPLITS][UPDATE_BACKUP]; /* =================== CL_CheckPredictionError =================== */ void CLQ2_CheckPredictionError (void) { int frame; int delta[3]; int i; int len; int seat; q2player_state_t *ps; playerview_t *pv; for (seat = 0; seat < cl.splitclients; seat++) { ps = &cl.q2frame.seat[seat].playerstate; pv = &cl.playerview[seat]; if (cl_nopred.value || (ps->pmove.pm_flags & Q2PMF_NO_PREDICTION)) continue; // calculate the last usercmd_t we sent that the server has processed frame = cl.ackedmovesequence; frame &= (UPDATE_MASK); if (cl_predictions[seat][frame].seq != cl.ackedmovesequence) continue; // compare what the server returned with what we had predicted it to be VectorSubtract (ps->pmove.origin, cl_predictions[seat][frame].origin, delta); // save the prediction error for interpolation len = abs(delta[0]) + abs(delta[1]) + abs(delta[2]); if (len > 640) // 80 world units { // a teleport or something VectorClear (pv->prediction_error); } else { // if (/*cl_showmiss->value && */(delta[0] || delta[1] || delta[2]) ) // Con_Printf ("prediction miss on %i: %i\n", cl.q2frame.serverframe, // delta[0] + delta[1] + delta[2]); VectorCopy (ps->pmove.origin, cl_predictions[seat][frame].origin); // save for error itnerpolation for (i=0 ; i<3 ; i++) pv->prediction_error[i] = delta[i]*0.125; } } } /* ==================== CL_ClipMoveToEntities ==================== */ int predignoreentitynum; void CLQ2_ClipMoveToEntities ( vec3_t start, vec3_t mins, vec3_t maxs, vec3_t end, trace_t *tr ) { int i; trace_t trace; float *angles; entity_state_t *ent; int num; model_t *cmodel; vec3_t bmins, bmaxs; for (i=0 ; isolidsize == ES_SOLID_NOT) continue; if (ent->number == predignoreentitynum) continue; if (ent->solidsize == ES_SOLID_BSP) { // special value for bmodel cmodel = cl.model_precache[ent->modelindex]; if (!cmodel) continue; angles = ent->angles; } else { // encoded bbox COM_DecodeSize(ent->solidsize, bmins, bmaxs); cmodel = CM_TempBoxModel (bmins, bmaxs); angles = vec3_origin; // boxes don't rotate } if (tr->allsolid) return; World_TransformedTrace (cmodel, 0, 0, start, end, mins, maxs, false, &trace, ent->origin, angles, MASK_PLAYERSOLID); if (trace.allsolid || trace.startsolid || trace.fraction < tr->fraction) { trace.ent = (struct edict_s *)ent; *tr = trace; } } } /* ================ CL_PMTrace ================ */ q2trace_t VARGS CLQ2_PMTrace (vec3_t start, vec3_t mins, vec3_t maxs, vec3_t end) { q2trace_t q2t; trace_t t; // check against world cl.worldmodel->funcs.NativeTrace(cl.worldmodel, 0, NULLFRAMESTATE, NULL, start, end, mins, maxs, false, MASK_PLAYERSOLID, &t); if (t.fraction < 1.0) t.ent = (struct edict_s *)1; // check all other solid models CLQ2_ClipMoveToEntities (start, mins, maxs, end, &t); q2t.allsolid = t.allsolid; q2t.contents = t.contents; VectorCopy(t.endpos, q2t.endpos); q2t.ent = t.ent; q2t.fraction = t.fraction; q2t.plane = t.plane; q2t.startsolid = t.startsolid; q2t.surface = t.surface; return q2t; } int VARGS CLQ2_PMpointcontents (vec3_t point) { int i; entity_state_t *ent; int num; model_t *cmodel; int contents; vec3_t axis[3], relpos; contents = cl.worldmodel->funcs.PointContents(cl.worldmodel, NULL, point); for (i=0 ; isolidsize != ES_SOLID_BSP) // special value for bmodel continue; cmodel = cl.model_precache[ent->modelindex]; if (!cmodel) continue; AngleVectors (ent->angles, axis[0], axis[1], axis[2]); VectorNegate(axis[1], axis[1]); VectorSubtract(point, ent->origin, relpos); contents |= cmodel->funcs.PointContents(cmodel, axis, relpos); } return contents; } /* ================= CL_PredictMovement Sets cl.predicted_origin and cl.predicted_angles ================= */ static void CLQ2_UserCmdToQ2(q2usercmd_t *out, const usercmd_t *cmd) { out->msec = cmd->msec; out->buttons = cmd->buttons; VectorCopy(cmd->angles, out->angles); out->forwardmove = cmd->forwardmove; out->sidemove = cmd->sidemove; out->upmove = cmd->upmove; out->impulse = cmd->impulse; out->lightlevel = cmd->lightlevel; } static void CLQ2_PredictMovement (int seat) //q2 doesn't support split clients. { int ack, current; int frame; int oldframe; q2pmove_t pm; int step; int oldz; int i; q2player_state_t *ps = &cl.q2frame.seat[seat].playerstate; playerview_t *pv = &cl.playerview[seat]; if (cls.state != ca_active) return; // if (cl_paused->value) // return; if (cl_nopred.value || cls.demoplayback || (ps->pmove.pm_flags & Q2PMF_NO_PREDICTION)) { // just set angles for (i=0 ; i<3 ; i++) { pv->predicted_angles[i] = pv->viewangles[i] + SHORT2ANGLE(ps->pmove.delta_angles[i]); } return; } ack = cl.ackedmovesequence; //index was received current = cl.movesequence; //count generated, [current] is thus invalid. // if we are too far out of date, just freeze if (current - ack >= UPDATE_MASK) { // if (cl_showmiss->value) // Con_Printf ("exceeded CMD_BACKUP\n"); return; } // copy current state to pmove memset (&pm, 0, sizeof(pm)); pm.trace = CLQ2_PMTrace; pm.pointcontents = CLQ2_PMpointcontents; pm_airaccelerate = atof(Get_Q2ConfigString(Q2CS_AIRACCEL)); pm.s = ps->pmove; // SCR_DebugGraph (current - ack - 1, 0); frame = 0; predignoreentitynum = cl.q2frame.seat[seat].clientnum+1;//cl.playerview[seat].playernum+1; // run frames while (++ack < current) { frame = ack & (UPDATE_MASK); CLQ2_UserCmdToQ2(&pm.cmd, &cl.outframes[frame].cmd[seat]); Q2_Pmove (&pm); // save for debug checking VectorCopy (pm.s.origin, cl_predictions[seat][frame].origin); cl_predictions[seat][frame].seq = ack; } if (cl_pendingcmd[seat].msec) { CLQ2_UserCmdToQ2(&pm.cmd, &cl_pendingcmd[seat]); Q2_Pmove (&pm); } oldframe = (ack-1) & (UPDATE_MASK); oldz = cl_predictions[seat][oldframe].origin[2]; step = pm.s.origin[2] - oldz; if (step > 63 && step < 160 && (pm.s.pm_flags & Q2PMF_ON_GROUND) ) { pv->predicted_step = step * 0.125; pv->predicted_step_time = realtime;// - host_frametime;// * 0.5; } pv->onground = !!(pm.s.pm_flags & Q2PMF_ON_GROUND); // copy results out for rendering pv->predicted_origin[0] = pm.s.origin[0]*0.125; pv->predicted_origin[1] = pm.s.origin[1]*0.125; pv->predicted_origin[2] = pm.s.origin[2]*0.125; VectorScale (pm.s.velocity, 0.125, pv->simvel); VectorCopy (pm.viewangles, pv->predicted_angles); } /* ================= CL_NudgePosition If pmove.origin is in a solid position, try nudging slightly on all axis to allow for the cut precision of the net coordinates ================= */ void CL_NudgePosition (void) { vec3_t base; int x, y; if (cl.worldmodel->funcs.PointContents (cl.worldmodel, NULL, pmove.origin) == FTECONTENTS_EMPTY) return; VectorCopy (pmove.origin, base); for (x=-1 ; x<=1 ; x++) { for (y=-1 ; y<=1 ; y++) { pmove.origin[0] = base[0] + x * 1.0/8; pmove.origin[1] = base[1] + y * 1.0/8; if (cl.worldmodel->funcs.PointContents (cl.worldmodel, NULL, pmove.origin) == FTECONTENTS_EMPTY) return; } } Con_DPrintf ("CL_NudgePosition: stuck\n"); } #endif /* ============== CL_PredictUsercmd ============== */ void CL_PredictUsercmd (int pnum, int entnum, player_state_t *from, player_state_t *to, usercmd_t *u) { // split up very long moves if (u->msec > 50) { player_state_t temp; usercmd_t split; split = *u; split.msec = u->msec / 2; //special care to avoid forgetting an msec here and there if (split.msec > 500) { split.msec = 500; CL_PredictUsercmd (pnum, entnum, from, to, &split); } else { CL_PredictUsercmd (pnum, entnum, from, &temp, &split); split.msec = u->msec - split.msec; CL_PredictUsercmd (pnum, entnum, &temp, to, &split); } return; } if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED) return; VectorCopy (from->origin, pmove.origin); VectorCopy (u->angles, pmove.angles); VectorCopy (from->velocity, pmove.velocity); VectorCopy (from->gravitydir, pmove.gravitydir); if (IS_NAN(pmove.velocity[0])) { Con_DPrintf("nan velocity!\n"); pmove.velocity[0] = 0; pmove.velocity[1] = 0; pmove.velocity[2] = 0; } pmove.onground = from->onground; pmove.jump_msec = (cls.z_ext & Z_EXT_PM_TYPE) ? 0 : from->jump_msec; pmove.jump_held = from->jump_held; pmove.waterjumptime = from->waterjumptime; pmove.pm_type = from->pm_type; pmove.cmd = *u; pmove.skipent = entnum; movevars.entgravity = cl.playerview[pnum].entgravity; movevars.maxspeed = cl.playerview[pnum].maxspeed; movevars.bunnyspeedcap = cl.bunnyspeedcap; pmove.onladder = false; pmove.safeorigin_known = false; pmove.capsule = false; //FIXME VectorCopy(from->szmins, pmove.player_mins); VectorCopy(from->szmaxs, pmove.player_maxs); PM_PlayerMove (cl.gamespeed); to->waterjumptime = pmove.waterjumptime; to->jump_held = pmove.jump_held; to->jump_msec = pmove.jump_msec; pmove.jump_msec = 0; VectorCopy (pmove.origin, to->origin); VectorCopy (pmove.angles, to->viewangles); VectorCopy (pmove.velocity, to->velocity); VectorCopy (pmove.gravitydir, to->gravitydir); to->onground = pmove.onground; to->weaponframe = from->weaponframe; to->pm_type = from->pm_type; VectorCopy(pmove.player_mins, to->szmins); VectorCopy(pmove.player_maxs, to->szmaxs); } //Used when cl_nopred is 1 to determine whether we are on ground, otherwise stepup smoothing code produces ugly jump physics void CL_CatagorizePosition (playerview_t *pv, float *org) { //fixme: in nq, we are told by the server and should skip this, which avoids needing to know the player's size. if (pv->spectator && !CAM_ISLOCKED(pv)) { pv->onground = false; // in air return; } VectorClear (pmove.velocity); VectorCopy (org, pmove.origin); pmove.numtouch = 0; PM_CategorizePosition (); pv->onground = pmove.onground; } //Smooth out stair step ups. //Called before CL_EmitEntities so that the player's lightning model origin is updated properly void CL_CalcCrouch (playerview_t *pv) { qboolean teleported; vec3_t delta; float orgz = -DotProduct(pv->simorg, pv->gravitydir); //compensate for running on walls. VectorSubtract(pv->simorg, pv->oldorigin, delta); teleported = Length(delta)>48; if (teleported) { // possibly teleported or respawned pv->oldz = orgz; pv->extracrouch = 0; pv->crouchspeed = 100; pv->crouch = 0; VectorCopy (pv->simorg, pv->oldorigin); return; } VectorCopy (pv->simorg, pv->oldorigin); if (pv->onground && orgz - pv->oldz) { if (pv->oldz > orgz) { //stepping down should be a little faster than stepping up. //so steps will still feel a little juddery. my knees hate walking down steep hills, so I guess this is similar. if (pv->crouchspeed > 0) pv->crouchspeed = -pv->crouchspeed*2; if (orgz - pv->oldz < -movevars.stepheight-2) { // if on steep stairs, increase speed if (pv->crouchspeed > -160*2) { pv->extracrouch = orgz - pv->oldz + host_frametime * 400 + 15; pv->extracrouch = max(pv->extracrouch, -5); } pv->crouchspeed = -160*2; } pv->oldz += host_frametime * pv->crouchspeed; if (pv->oldz < orgz) pv->oldz = orgz; if (pv->oldz > orgz + 15 - pv->extracrouch) pv->oldz = orgz + 15 + pv->extracrouch; if (pv->extracrouch < -host_frametime*400) pv->extracrouch += host_frametime * 400; else if (pv->extracrouch < 0) pv->extracrouch = 0; } else { if (pv->crouchspeed < 0) pv->crouchspeed = -pv->crouchspeed/2; if (orgz - pv->oldz > movevars.stepheight+2) { // if on steep stairs, increase speed if (pv->crouchspeed < 160) { pv->extracrouch = orgz - pv->oldz - host_frametime * 200 - 15; pv->extracrouch = min(pv->extracrouch, 5); } pv->crouchspeed = 160; } pv->oldz += host_frametime * pv->crouchspeed; if (pv->oldz > orgz) pv->oldz = orgz; // if (orgz - pv->oldz > 15 + pv->extracrouch) if (pv->oldz < orgz - 15 + pv->extracrouch) pv->oldz = orgz - 15 - pv->extracrouch; if (pv->extracrouch >= host_frametime * 200) pv->extracrouch -= host_frametime * 200; else if (pv->extracrouch > 0) pv->extracrouch = 0; } pv->crouch = pv->oldz - orgz; } else { // in air or moving down pv->oldz = orgz; if (pv->crouch > 0) { //step-down pv->crouch -= host_frametime * 150; if (orgz - pv->oldz > 0) pv->crouch += orgz - pv->oldz; //if the view moved down, remove that amount from our crouching to avoid unneeded bobbing if (pv->crouch > 0) pv->crouch = 0; pv->crouchspeed = -100; } else { //step-up pv->crouch += host_frametime * 150; if (orgz - pv->oldz < 0) pv->crouch -= orgz - pv->oldz; //if the view moved down, remove that amount from our crouching to avoid unneeded bobbing if (pv->crouch > 0) pv->crouch = 0; pv->crouchspeed = 100; } pv->extracrouch = 0; } } float LerpAngles360(float to, float from, float frac) { float delta; delta = (from-to); if (delta > 180) delta -= 360; if (delta < -180) delta += 360; return to + frac*delta; } short LerpAngles16(short to, short from, float frac) { int delta; delta = (from-to); if (delta > 32767) delta -= 65535; if (delta < -32767) delta += 65535; return to + frac*delta; } void CL_CalcClientTime(void) { extern cvar_t cl_demospeed; if (!cls.state) { if (!cl.implicitpause) cl.servertime += host_frametime; cl.time = cl.servertime; return; } else// if (cls.protocol != CP_QUAKE3) { // float oldst = realtime; if (cls.demoplayback && cls.timedemo) { //more deterministic. one frame is drawn per demo packet parsed. so sync to it as closely as possible. /*NOTE: this also has the effect of speeding up particles etc*/ extern float olddemotime; cl.servertime = olddemotime; } //q2 has no drifting (our code can't cope with picking anything beyond old/new snapshots, and frankly its 10fps which is horrendous enough as it is). //q3 always drifts (gamecode does snapshot selection). //qw code can drift (but oh noes! my latency!) //FIXME: nq code should be able to drift, but is apparently buggy somewhere and ends up uncomfortably stuttery right now. //default is to drift in demos+SP but not live (oh noes! added latency!) if (cls.protocol == CP_QUAKE2 || cls.protocol==CP_NETQUAKE/*FIXME*/ || (cls.protocol != CP_QUAKE3 && (!cl_lerp_smooth.ival || (cl_lerp_smooth.ival == 2 && !(cls.demoplayback || cl.allocated_client_slots == 1 || cl.playerview[0].spectator))) && cls.demoplayback!=DPB_MVD)) { //no drift logic double f; extern cvar_t cl_demospeed; f = cl.gametime - cl.oldgametime; if (f > 0.1) f = 0.1; f = (realtime - cl.gametimemark) / (f); if (cls.demoplayback && cl_demospeed.value > 0 && cls.state == ca_active) f *= cl_demospeed.value; f = bound(0, f, 1); cl.servertime = cl.oldgametime + f*(cl.gametime-cl.oldgametime); } else { //funky magic drift logic. we be behind the most recent frame in order to attempt to cover network congestions (which is apparently common in germany). float min, max; float r; // oldst = cl.servertime; max = cl.gametime; min = cl.oldgametime; FloatInterpolate(min, cl_lerp_driftfrac.value, max, min); min += cl_lerp_driftbias.value; if (max < min) max = min; if (cls.demoplayback && cl_demospeed.value > 0 && cls.state == ca_active) r = cl_demospeed.value; else r = 1; if (max) cl.servertime += host_frametime*r; else cl.servertime = 0; if (!cl.oldgametime) cl.servertime = max; //map start (or reload/connect or something). snap to current. else if (cl.servertime > min) { if (cl.servertime > max) { cl.servertime = max; // Con_Printf("clamped to new time\n"); } else { cl.servertime -= 0.02*(max - cl.servertime)*r; if (cl.servertime < cl.time) cl.servertime = cl.time; } } if (cl.servertime < min) { if (cl.servertime < min-0.5) { cl.servertime = min-0.5; // Con_Printf("clamped to old time\n"); } else if (cl.servertime < min-0.3) { cl.servertime += 0.02*(min - cl.servertime)*r; // Con_Printf("running really slow\n"); } else { cl.servertime += 0.01*(min - cl.servertime)*r; // Con_Printf("running slow\n"); } } } cl.time = cl.servertime; /* if (oldst == 0) { int i; for (i = 0; i < cl.allocated_client_slots; i++) { cl.players[i].entertime += cl.servertime; } } */ return; } #if 0 if (cls.protocol == CP_NETQUAKE || (cls.demoplayback && cls.demoplayback != DPB_MVD && cls.demoplayback != DPB_EZTV)) { float want; // float off; want = cl.oldgametime + realtime - cl.gametimemark; // off = (want - cl.time); if (want>cl.time) //don't decrease cl.time = want; // Con_Printf("Drifted to %f off by %f\n", cl.time, off); // Con_Printf("\n"); if (cl.time > cl.gametime) { cl.time = cl.gametime; // Con_Printf("max TimeClamp\n"); } if (cl.time < cl.oldgametime) { cl.time = cl.oldgametime; // Con_Printf("old TimeClamp\n"); } } else { if (cl_pushlatency.value > 0) Cvar_Set (&cl_pushlatency, "0"); cl.time = realtime - cls.latency - cl_pushlatency.value*0.001; if (cl.time > realtime) cl.time = realtime; } #endif } static void CL_DecodeStateSize(unsigned int solid, int modelindex, vec3_t mins, vec3_t maxs) { if (solid == ES_SOLID_BSP) { if (modelindex < MAX_PRECACHE_MODELS && cl.model_precache[modelindex] && cl.model_precache[modelindex]->loadstate == MLS_LOADED) { VectorCopy(cl.model_precache[modelindex]->mins, mins); VectorCopy(cl.model_precache[modelindex]->maxs, maxs); } else { VectorClear(mins); VectorClear(maxs); } } else if (solid) COM_DecodeSize(solid, mins, maxs); else { VectorClear(mins); VectorClear(maxs); } } /*called on packet reception*/ #include "pr_common.h" static void CL_EntStateToPlayerState(player_state_t *plstate, entity_state_t *state) { vec3_t a; int pmtype; unsigned int flags = plstate->flags; qboolean onground = plstate->onground; qboolean jumpheld = plstate->jump_held; vec3_t vel; VectorCopy(plstate->velocity, vel); memset(plstate, 0, sizeof(*plstate)); plstate->jump_held = jumpheld; switch(state->u.q1.pmovetype & 0x3f) { case MOVETYPE_NOCLIP: if (cls.z_ext & Z_EXT_PM_TYPE_NEW) pmtype = PM_SPECTATOR; else pmtype = PM_OLD_SPECTATOR; break; case MOVETYPE_FLY: pmtype = PM_FLY; break; case MOVETYPE_NONE: pmtype = PM_NONE; break; case MOVETYPE_BOUNCE: case MOVETYPE_TOSS: pmtype = PM_DEAD; break; case MOVETYPE_WALLWALK: pmtype = PM_WALLWALK; break; case MOVETYPE_6DOF: pmtype = PM_6DOF; break; default: pmtype = PM_NORMAL; break; } VectorCopy(state->origin, plstate->origin); if (cls.protocol == CP_NETQUAKE && !(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS)) { //nq is annoying, this stuff wasn't part of the entity state, so don't break it VectorCopy(vel, plstate->velocity); pmtype = PM_NORMAL; plstate->onground = onground; } else { VectorScale(state->u.q1.velocity, 1/8.0, plstate->velocity); plstate->onground = !!(state->u.q1.pmovetype&128); plstate->jump_held = !!(state->u.q1.pmovetype&64); } plstate->pm_type = pmtype; plstate->flags = flags & PF_INWATER; plstate->viewangles[0] = SHORT2ANGLE(state->u.q1.vangle[0]); plstate->viewangles[1] = SHORT2ANGLE(state->u.q1.vangle[1]); plstate->viewangles[2] = SHORT2ANGLE(state->u.q1.vangle[2]); if (!state->u.q1.gravitydir[0] && !state->u.q1.gravitydir[1]) VectorSet(plstate->gravitydir, 0, 0, -1); else { a[0] = ((192+state->u.q1.gravitydir[0])/256.0f) * 360; a[1] = (state->u.q1.gravitydir[1]/256.0f) * 360; a[2] = 0; AngleVectors(a, plstate->gravitydir, NULL, NULL); } if (!state->solidsize || !(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS)) { VectorSet(plstate->szmins, -16, -16, -24); VectorSet(plstate->szmaxs, 16, 16, 32); } else CL_DecodeStateSize(state->solidsize, state->modelindex, plstate->szmins, plstate->szmaxs); } static void CL_EntStateToPlayerCommand(usercmd_t *cmd, entity_state_t *state, float age) { int msec; float extra; memset(cmd, 0, sizeof(*cmd)); extra = /*-cls.latency + */ 0.02; //network latency extra += age; //if the state is not exactly current // extra += realtime - cl.inframes[cl.validsequence&UPDATE_MASK].receivedtime; // extra += (cl.inframes[cl.validsequence&UPDATE_MASK].receivedtime - cl.inframes[cl.oldvalidsequence&UPDATE_MASK].receivedtime)*4; msec = 1000*extra; // Con_DPrintf("%i: age = %i, stale=%i\n", state->number, msec, state->u.q1.msec); msec += state->u.q1.msec; //this is the age on the server cmd->msec = bound(0, msec, 250); cmd->forwardmove = state->u.q1.movement[0]; cmd->sidemove = state->u.q1.movement[1]; cmd->upmove = state->u.q1.movement[2]; cmd->angles[0] = state->u.q1.vangle[0];// * -3 *65536/360.0; cmd->angles[1] = state->u.q1.vangle[1];// * 65536/360.0; cmd->angles[2] = state->u.q1.vangle[2];// * 65536/360.0; } void CL_PredictEntityMovement(entity_state_t *estate, float age) { player_state_t startstate, resultstate; usercmd_t cmd; int oldphysent; extern cvar_t cl_predict_players; //build the entitystate state into a player state for prediction to use if (!estate->u.q1.pmovetype || !cl_predict_players.ival || age <= 0) VectorCopy(estate->origin, estate->u.q1.predorg); else { VectorClear(startstate.velocity); startstate.onground = false; startstate.jump_held = false; startstate.flags = 0; CL_EntStateToPlayerState(&startstate, estate); CL_EntStateToPlayerCommand(&cmd, estate, age); // cmd.forwardmove = 5000; // cmd.msec = sin(realtime*6) * 128 + 128; oldphysent = pmove.numphysent; pmove.onground = startstate.onground; CL_PredictUsercmd(0, estate->number, &startstate, &resultstate, &cmd); //uses player 0's maxspeed/grav... pmove.numphysent = oldphysent; VectorCopy(resultstate.origin, estate->u.q1.predorg); } } float CL_GetPredictionRealtime(playerview_t *pv) { float simtime; //these are to make svc_viewentity work better float netfps = cl_netfps.value; if (!netfps) { //every video frame has its own input frame. simtime = realtime; } else { qboolean extrap = cl_predict_extrapolate.ival; // float fps = 1/host_frametime; // fps = bound(6.7, fps, cls.maxfps); netfps = bound(6.7, netfps, cls.maxfps); // if (netfps > fps) // netfps = fps; if (!*cl_predict_extrapolate.string) extrap = netfps < 30; if (cls.protocol == CP_NETQUAKE && CPNQ_IS_DP) extrap = true; //DP servers do a nasty thing where they send packets without any entities. This messes with our timings. Its much smoother to just always use extrapolation in this case (otherwise we'd have to backdate too much for prediction to do much). if (!extrap) { //interpolate. The input rate is completely smoothed out, at the cost of some latency. //You can still get juddering if the video rate doesn't match the monitor refresh rate (and isn't so high that it doesn't matter). //note that the code below will back-date input frames if the server acks too fast. simtime = realtime - (1.0/netfps); } else { //extrapolate if we've a low net rate. This should reduce apparent lag, but will be jerky if the net rate is not an (inverse) multiple of the monitor rate. //this is in addition to any monitor desync. simtime = realtime; } } if (cls.demoplayback == DPB_QUAKEWORLD || pv->cam_state == CAM_EYECAM) simtime -= cls.latency; //push back when playing demos. simtime += bound(-0.5, cl_predict_timenudge.value, 0.5); return simtime; } qboolean CSQC_GetSSQCEntityOrigin(unsigned int ssqcent, float *out); /* ============== CL_PredictMove ============== */ void CL_PredictMovePNum (int seat) { //when this is called, the entity states have been interpolated. //interpolation state should be updated to match prediction state, so entities move correctly in mirrors/portals. //this entire function is pure convolouted bollocks. struct { int frame; double time; player_state_t *state; usercmd_t *cmd; } from, to; playerview_t *pv = &cl.playerview[seat]; int i; float f; outframe_t *backdate; player_state_t framebuf[2]; //need two framebufs so we can interpolate between two states. static player_state_t nullstate; int oldphysent; double simtime; //this is server time if nopred is set (lerp-only), and local time if we're predicting extern cvar_t cl_netfps; lerpents_t *le; qboolean nopred; qboolean lerpangles = false; int trackent; qboolean cam_nowlocked = false; usercmd_t indcmd; simtime = CL_GetPredictionRealtime(pv); pv->nolocalplayer = !!(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS) || (cls.protocol != CP_QUAKEWORLD); if (!pv->spectator && (pv->cam_state != CAM_FREECAM || pv->cam_spec_track != -1)) //just in case { if (pv->cam_state != CAM_FREECAM) pv->viewentity = (cls.demoplayback)?0:(pv->playernum+1); pv->cam_state = CAM_FREECAM; pv->cam_spec_track = -1; } #ifdef Q2CLIENT if (cls.protocol == CP_QUAKE2) { if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED) return; pv->crouch = 0; CLQ2_PredictMovement(seat); return; } #endif if (cl.paused && !(cls.demoplayback!=DPB_MVD) && pv->cam_state == CAM_FREECAM) return; if (!cl.validsequence) { return; } if (cl.intermissionmode == IM_QWSCORES) { //quakeworld locks view position once you hit intermission. VectorCopy (pv->intermissionangles, pv->simangles); return; } else if (cl.intermissionmode != IM_NONE) lerpangles = false; //will do angles later. else { if (cl.currentpackentities && cl.currentpackentities->fixangles[seat]) { if (cl.previouspackentities && cl.previouspackentities->fixangles[seat]==cl.currentpackentities->fixangles[seat]) { for (i = 0; i < 3; i++) pv->simangles[i] = LerpAngles360(cl.currentpackentities->fixedangles[seat][i], cl.previouspackentities->fixedangles[seat][i], 1-(cl.previouspackentities->fixangles[seat]?cl.packfrac:1)); } else VectorCopy(cl.currentpackentities->fixedangles[seat], pv->simangles); if (cls.demoplayback) VectorCopy(pv->simangles, pv->viewangles); if (cl.currentpackentities->fixangles[seat] == 2) lerpangles = (cls.demoplayback == DPB_QUAKEWORLD); } else { lerpangles = (cls.demoplayback == DPB_QUAKEWORLD); VectorCopy (pv->aimangles, pv->simangles); } } //if we now know where our target player is, we can finally lock on to them. if (pv->cam_state == CAM_PENDING && pv->cam_spec_track >= 0 && pv->cam_spec_track < cl.allocated_client_slots && pv->viewentity != pv->cam_spec_track+1) { if ((cl.inframes[cl.validsequence & UPDATE_MASK].playerstate[pv->cam_spec_track].messagenum == cl.validsequence) || (pv->cam_spec_track+1 < cl.maxlerpents && cl.lerpents[pv->cam_spec_track+1].sequence == cl.lerpentssequence) || CSQC_GetSSQCEntityOrigin(pv->cam_spec_track+1, NULL)) { pv->cam_state = CAM_EYECAM; pv->viewentity = pv->cam_spec_track+1; cam_nowlocked = true; } } if (pv->cam_state == CAM_WALLCAM) trackent = pv->cam_spec_track+1; else trackent = pv->viewentity; nopred = cl_nopred.ival; //don't wrap if (!cl.ackedmovesequence) nopred = true; else if (cl.movesequence - cl.ackedmovesequence >= UPDATE_BACKUP-1) nopred = true; //these things also force-disable prediction if (cls.demoplayback==DPB_MVD || cl.intermissionmode != IM_NONE || cl.paused || pv->pmovetype == PM_NONE || pv->pmovetype == PM_FREEZE || CAM_ISLOCKED(pv)) { nopred = true; } // figure out the first frame to lerp from. // we generate one new input frame every 1/72th of a second, with a refresh rate of 60hz that's blatently obvious // if we live in the present, we'll only have half a frame. in order to avoid extrapolation (which can give a swimmy feel), we live in the past by one frame time period // if we're running somewhere with a low latency, we can get a reply from the server before our next input frame is even generated, so we need to go backwards beyond the current state if (nopred) { lerpangles = false; //match interpolation info from.frame = ((char*)cl.previouspackentities - (char*)&cl.inframes[0].packet_entities) / sizeof(inframe_t); from.time = cl.inframes[from.frame & UPDATE_MASK].packet_entities.servertime; to.frame = ((char*)cl.currentpackentities - (char*)&cl.inframes[0].packet_entities) / sizeof(inframe_t); to.time = cl.inframes[to.frame & UPDATE_MASK].packet_entities.servertime; simtime = cl.currentpacktime; to.cmd = from.cmd = NULL; } else { to.frame = from.frame = 0; to.time = from.time = 0; to.cmd = from.cmd = NULL; //try to find the inbound frame that sandwiches the realtime that we're trying to simulate. //if we're predicting, this will be some time in the future, and thus we'll be forced to pick the most recent frame. //if we're interpolating, we'll need to grab the frame before that. //we're only interested in inbound frames, not outbound, but its outbound frames that contain the prediction timing, so we need to look that up //(note that in qw, inframe[i].ack==i holds true, but this code tries to be generic for unsyncronised protocols) //(note that in nq, using outbound times means we'll skip over dupe states without noticing, and input packets with dupes should also be handled gracefully) // Con_DPrintf("in:%i:%i out:%i:%i ack:%i\n", cls.netchan.incoming_sequence, cl.validsequence, cls.netchan.outgoing_sequence,cl.movesequence, cl.ackedmovesequence); for (i = cl.validsequence; i >= cls.netchan.incoming_sequence - UPDATE_MASK; i--) { int out; //skip frames which were not received, or are otherwise invalid. yay packetloss if (cl.inframes[i & UPDATE_MASK].frameid != i || cl.inframes[i & UPDATE_MASK].invalid) { // Con_DPrintf("stale incoming command %i\n", i); continue; } //each inbound frame tracks the outgoing frame that was last applied to it, and its outgoing frames that contain our timing info out = cl.inframes[i&UPDATE_MASK].ackframe; backdate = &cl.outframes[out & UPDATE_MASK]; if (backdate->cmd_sequence != out) { // Con_DPrintf("stale outgoing command %i (%i:%i:%i)\n", i, out, backdate->cmd_sequence, backdate->server_message_num); continue; } //okay, looks valid //if this is the first one we found, make sure both from+to are set properly if (!from.frame) { from.frame = i; from.time = backdate->senttime; } to = from; to.state = NULL; from.frame = i; from.time = backdate->senttime; from.cmd = &backdate->cmd[seat]; if (cl.inframes[to.frame&UPDATE_MASK].ackframe > pv->prop.sequence) continue; //if we didn't predict to this frame yet, then the waterjump etc state will be invalid, so try to go for an older frame so that it actually propagates properly. if (from.time < simtime && from.frame != to.frame) break; //okay, we found the first frame that is older, no need to continue looking } } // Con_DPrintf("sim%f, %i(%i-%i): old%f, cur%f\n", simtime, cl.ackedmovesequence, fromframe, toframe, fromtime, totime); if ((pv->cam_state == CAM_WALLCAM || pv->cam_state == CAM_EYECAM) && trackent && trackent <= cl.allocated_client_slots) { from.state = &cl.inframes[from.frame & UPDATE_MASK].playerstate[trackent-1]; to.state = &cl.inframes[to.frame & UPDATE_MASK].playerstate[trackent-1]; } else { if (cls.demoplayback==DPB_MVD) { pv->nolocalplayer = false; from.state = &cl.inframes[cl.ackedmovesequence & UPDATE_MASK].playerstate[pv->playernum]; to.state = &cl.inframes[cl.movesequence & UPDATE_MASK].playerstate[pv->playernum]; } else { from.state = &cl.inframes[from.frame & UPDATE_MASK].playerstate[pv->playernum]; to.state = &cl.inframes[to.frame & UPDATE_MASK].playerstate[pv->playernum]; } } pv->pmovetype = to.state->pm_type; le = &cl.lerpplayers[pv->playernum]; if (!from.cmd) from.cmd = &cl.outframes[from.frame & UPDATE_MASK].cmd[pv->playernum]; if (!to.cmd) to.cmd = &cl.outframes[to.frame & UPDATE_MASK].cmd[pv->playernum]; //if our network protocol doesn't have a concept of separate players, make sure our player states are updated from those entities //fixme: use entity states instead of player states to avoid the extra work here if (pv->nolocalplayer) { packet_entities_t *pe; pe = &cl.inframes[from.frame & UPDATE_MASK].packet_entities; if (!pe->num_entities && !from.frame) pe = &cl.inframes[to.frame & UPDATE_MASK].packet_entities; for (i = 0; i < pe->num_entities; i++) { if (pe->entities[i].number == trackent) { CL_EntStateToPlayerState(from.state, &pe->entities[i]); if (nopred) from.time -= (pe->entities[i].u.q1.msec / 1000.0f); //correct the time to match stale players break; } } if (i == pe->num_entities && pv->nolocalplayer) { if (cls.state >= ca_active) return; //no player, nothing makes sense any more. from.state = &nullstate; nopred = true; } pe = &cl.inframes[to.frame & UPDATE_MASK].packet_entities; for (i = 0; i < pe->num_entities; i++) { if (pe->entities[i].number == trackent) { CL_EntStateToPlayerState(to.state, &pe->entities[i]); if (nopred) to.time -= (pe->entities[i].u.q1.msec / 1000.0f); //correct the time to match stale players. FIXME: this can push the simtime into the 'future' resulting in stuttering if (cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS) { #ifdef QUAKESTATS //putting weapon frames in there was a stupid idea. qwisms I guess. if (!(cls.fteprotocolextensions2 & PEXT2_PREDINFO)) { pv->stats[STAT_WEAPONFRAME] = cl.players[pv->playernum].stats[STAT_WEAPONFRAME] = pe->entities[i].u.q1.weaponframe; pv->statsf[STAT_WEAPONFRAME] = cl.players[pv->playernum].statsf[STAT_WEAPONFRAME] = pe->entities[i].u.q1.weaponframe; } #endif pv->pmovetype = to.state->pm_type; } break; } } if (i == pe->num_entities && pv->nolocalplayer) { to.state = &nullstate; nopred = true; } if (pv->nolocalplayer && trackent < cl.maxlerpents) { le = &cl.lerpents[trackent]; if (le->sequence != cl.lerpentssequence) nopred = true; //err, guys, this guy ain't valid... we don't know who we are! no point predicting. } } // predict forward until cl.time <= to->senttime oldphysent = pmove.numphysent; CL_SetSolidPlayers(); pmove.skipent = trackent; //just in case we don't run any prediction VectorCopy(to.state->gravitydir, pmove.gravitydir); //if all else fails... pmove.pm_type = to.state->pm_type; pmove.onground = to.state->onground; VectorCopy(to.state->szmins, pmove.player_mins); VectorCopy(to.state->szmaxs, pmove.player_maxs); if (!nopred) { int stopframe; //Con_Printf("Pred %i to %i\n", to.frame+1, min(from.frame+UPDATE_BACKUP, cl.movesequence)); //fix up sequence numbers for nq int validsequence = cl.inframes[cl.validsequence&UPDATE_MASK].ackframe; from.frame = cl.inframes[from.frame&UPDATE_MASK].ackframe; to.frame = cl.inframes[to.frame&UPDATE_MASK].ackframe; for (i=to.frame+1, stopframe=min(from.frame+UPDATE_BACKUP, cl.movesequence) ; i < stopframe; i++) { outframe_t *of = &cl.outframes[i & UPDATE_MASK]; if (to.time >= simtime) break; if (of->cmd_sequence != i) { // Con_DPrintf("trying to predict a frame which is no longer valid\n"); break; } //okay, move it forward a frame. from = to; to.cmd = &of->cmd[seat]; to.time = of->senttime; to.frame = i;//qw debug to.state = &framebuf[to.frame&1]; if (from.frame == pv->prop.sequence && pv->prop.sequence) { if (!(cls.z_ext & Z_EXT_PF_ONGROUND)) from.state->onground = pv->prop.onground; if (!(cls.z_ext & Z_EXT_PM_TYPE)) from.state->jump_held = pv->prop.jump_held; from.state->jump_msec = pv->prop.jump_msec; from.state->waterjumptime = pv->prop.waterjumptime; if (!(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS)) VectorCopy(pv->prop.gravitydir, from.state->gravitydir); } CL_PredictUsercmd (seat, trackent, from.state, to.state, to.cmd); if (i <= validsequence && simtime >= to.time) { //this frame is final keep track of our propagated values. pv->prop.onground = pmove.onground; pv->prop.jump_held = pmove.jump_held; pv->prop.jump_msec = pmove.jump_msec; pv->prop.waterjumptime = pmove.waterjumptime; VectorCopy(pmove.gravitydir, pv->prop.gravitydir); pv->prop.sequence = i; } } if (simtime > to.time) { //extrapolate X extra seconds float msec; msec = ((simtime - to.time) * 1000); if (msec >= 1) { from = to; if (cl_pendingcmd[seat].msec && !cls.demoplayback) indcmd = cl_pendingcmd[seat]; else indcmd = *to.cmd; to.cmd = &indcmd; to.time = simtime; to.frame+=1; to.state = &framebuf[to.frame&1]; if (cls.demoplayback) { extern cvar_t cl_demospeed; msec *= cl_demospeed.value; } to.cmd->msec = bound(0, msec, 250); if (from.frame == pv->prop.sequence && pv->prop.sequence) { //overwrite non-networked state, to propagate it as required. if (!(cls.z_ext & Z_EXT_PF_ONGROUND)) from.state->onground = pv->prop.onground; if (!(cls.z_ext & Z_EXT_PM_TYPE)) from.state->jump_held = pv->prop.jump_held; from.state->jump_msec = pv->prop.jump_msec; from.state->waterjumptime = pv->prop.waterjumptime; if (!(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS)) VectorCopy(pv->prop.gravitydir, from.state->gravitydir); } // Con_DPrintf(" extrap %i: %f-%f (%g)\n", toframe, fromtime, simtime, simtime-fromtime); CL_PredictUsercmd (seat, trackent, from.state, to.state, to.cmd); } } pv->onground = pmove.onground; pv->pmovetype = to.state->pm_type; } pmove.numphysent = oldphysent; if (to.time == from.time) { VectorCopy (to.state->velocity, pv->simvel); VectorCopy (to.state->origin, pv->simorg); if (trackent && trackent != pv->playernum+1 && pv->cam_state == CAM_EYECAM) VectorCopy(to.state->viewangles, pv->simangles); //Con_DPrintf("%f %f %f\n", fromtime, simtime, totime); } else { vec3_t move; // now interpolate some fraction of the final frame f = (simtime - from.time) / (to.time - from.time); if (f < 0) f = 0; if (f > 1) f = 1; //Con_DPrintf("%i:%f %f %i:%f (%f)\n", fromframe, fromtime, simtime, toframe, totime, f); VectorSubtract(to.state->origin, from.state->origin, move); if (DotProduct(move, move) > 128*128) { // teleported, so don't lerp VectorCopy (to.state->velocity, pv->simvel); VectorCopy (to.state->origin, pv->simorg); } else { for (i=0 ; i<3 ; i++) { pv->simorg[i] = (1-f)*from.state->origin[i] + f*to.state->origin[i]; pv->simvel[i] = (1-f)*from.state->velocity[i] + f*to.state->velocity[i]; if (trackent && trackent != pv->playernum+1 && pv->cam_state == CAM_EYECAM) { pv->simangles[i] = LerpAngles360(from.state->viewangles[i], to.state->viewangles[i], f);// * (360.0/65535); // pv->viewangles[i] = LerpAngles16(fromstate->command.angles[i], tostate->command.angles[i], f) * (360.0/65535); } else if (lerpangles) pv->simangles[i] = LerpAngles16(from.cmd->angles[i], to.cmd->angles[i], f) * (360.0/65535); } } } if (cls.protocol == CP_NETQUAKE && nopred) { pv->onground = to.state->onground; if (to.state->flags & PF_INWATER) { pmove.watertype = FTECONTENTS_WATER; //don't really know. pmove.waterlevel = 3; //pick one at random. } else { pmove.watertype = FTECONTENTS_EMPTY; pmove.waterlevel = 0; } } else CL_CatagorizePosition(pv, to.state->origin); CL_CalcCrouch (pv); pv->waterlevel = pmove.waterlevel; if (!DotProduct(pmove.gravitydir,pmove.gravitydir)) VectorSet(pmove.gravitydir, 0, 0, -1); else VectorCopy(pmove.gravitydir, pv->gravitydir); if (cl.intermissionmode != IM_NONE && le) { VectorCopy(le->angles, pv->simangles); VectorCopy(pv->simangles, pv->viewangles); } else if (le && pv->cam_state == CAM_FREECAM) { //keep the entity tracking the prediction position, so mirrors don't go all weird VectorMA(pv->simorg, -pv->crouch, pv->gravitydir, le->origin); #ifdef QUAKESTATS if (pv->stats[STAT_HEALTH] > 0) #endif { VectorScale(pv->simangles, 1, le->angles); if (pv->pmovetype != PM_6DOF) le->angles[0] *= 0.333; le->angles[0] *= r_meshpitch.value; le->angles[2] *= r_meshroll.value; } } if (cam_nowlocked) Cam_NowLocked(pv); if (pv->cam_state == CAM_WALLCAM) { vec3_t dir; VectorSubtract(pv->simorg, pv->cam_desired_position, dir); VectorAngles(dir, NULL, pv->simangles, false); VectorCopy(pv->simangles, pv->viewangles); pv->viewangles[0] = anglemod(pv->viewangles[0]); if (pv->viewangles[0] > 180) pv->viewangles[0] -= 360; VectorCopy(pv->cam_desired_position, pv->simorg); VectorClear(pv->simvel); } if (cam_nowlocked) { //invalidate the roll, so we don't spin when switching povs pv->rollangle = V_CalcRoll(pv->simangles, pv->simvel); pv->vm.oldmodel = NULL; //invalidate the viewmodel, so the lerps get reset } } void CL_PredictMove (void) { int i; // Set up prediction for other players CL_SetUpPlayerPrediction(false); // do client side motion prediction for (i = 0; i < cl.splitclients; i++) CL_PredictMovePNum(i); // Set up prediction for other players CL_SetUpPlayerPrediction(true); VALGRIND_MAKE_MEM_UNDEFINED(&pmove.onground, sizeof(pmove.onground)); } /* ============== CL_InitPrediction ============== */ void CL_InitPrediction (void) { extern char cl_predictiongroup[]; Cvar_Register (&cl_pushlatency, cl_predictiongroup); Cvar_Register (&cl_nopred, cl_predictiongroup); Cvar_Register (&cl_predict_extrapolate, cl_predictiongroup); Cvar_Register (&cl_predict_timenudge, cl_predictiongroup); Cvar_Register (&cl_lerp_smooth, cl_predictiongroup); Cvar_Register (&cl_lerp_driftbias, cl_predictiongroup); Cvar_Register (&cl_lerp_driftfrac, cl_predictiongroup); }