#include "common.qh" #if defined(CSQC) #include #elif defined(MENUQC) #elif defined(SVQC) #include #endif void WarpZone_Accumulator_Clear(entity acc) { acc.warpzone_transform = '0 0 0'; acc.warpzone_shift = '0 0 0'; } void WarpZone_Accumulator_AddTransform(entity acc, vector t, vector s) { vector tr, st; tr = AnglesTransform_Multiply(t, acc.warpzone_transform); st = AnglesTransform_Multiply_GetPostShift(t, s, acc.warpzone_transform, acc.warpzone_shift); acc.warpzone_transform = tr; acc.warpzone_shift = st; } void WarpZone_Accumulator_Add(entity acc, entity wz) { WarpZone_Accumulator_AddTransform(acc, wz.warpzone_transform, wz.warpzone_shift); } void WarpZone_Accumulator_AddInverseTransform(entity acc, vector t, vector s) { vector tt, ss; tt = AnglesTransform_Invert(t); ss = AnglesTransform_PrePostShift_GetPostShift(s, tt, '0 0 0'); WarpZone_Accumulator_AddTransform(acc, tt, ss); // yes, this probably can be done simpler... but this way is "obvious" :) } void WarpZone_Accumulator_AddInverse(entity acc, entity wz) { WarpZone_Accumulator_AddInverseTransform(acc, wz.warpzone_transform, wz.warpzone_shift); } float autocvar_cl_warpzone_usetrace = 1; vector WarpZone_camera_transform(entity this, vector org, vector ang) { vector vf, vr, vu; if(this.warpzone_fadestart) if(vdist(org - this.origin - 0.5 * (this.mins + this.maxs), >, this.warpzone_fadeend + 400)) return org; // don't transform if zone faded out (plus 400qu safety margin for typical speeds and latencies) // unneeded on client, on server this helps a lot vf = v_forward; vr = v_right; vu = v_up; org = WarpZone_TransformOrigin(this, org); vf = WarpZone_TransformVelocity(this, vf); vr = WarpZone_TransformVelocity(this, vr); vu = WarpZone_TransformVelocity(this, vu); if(autocvar_cl_warpzone_usetrace) traceline(this.warpzone_targetorigin, org, MOVE_NOMONSTERS, NULL); else trace_endpos = this.warpzone_targetorigin; v_forward = vf; v_right = vr; v_up = vu; return org; } void WarpZone_SetUp(entity e, vector my_org, vector my_ang, vector other_org, vector other_ang) { e.warpzone_transform = AnglesTransform_RightDivide(other_ang, AnglesTransform_TurnDirectionFR(my_ang)); e.warpzone_shift = AnglesTransform_PrePostShift_GetPostShift(my_org, e.warpzone_transform, other_org); e.warpzone_origin = my_org; e.warpzone_targetorigin = other_org; e.warpzone_angles = my_ang; e.warpzone_targetangles = other_ang; fixedmakevectors(my_ang); e.warpzone_forward = v_forward; fixedmakevectors(other_ang); e.warpzone_targetforward = v_forward; setcamera_transform(e, WarpZone_camera_transform); } vector WarpZone_Camera_camera_transform(entity this, vector org, vector ang) { // a fixed camera view if(this.warpzone_fadestart) if(vdist(org - this.origin - 0.5 * (this.mins + this.maxs), >, this.warpzone_fadeend + 400)) return org; // don't transform if zone faded out (plus 400qu safety margin for typical speeds and latencies) // unneeded on client, on server this helps a lot trace_endpos = this.warpzone_origin; makevectors(this.warpzone_angles); return this.warpzone_origin; } void WarpZone_Camera_SetUp(entity e, vector my_org, vector my_ang) // we assume that e.oldorigin and e.avelocity point to view origin and direction { e.warpzone_origin = my_org; e.warpzone_angles = my_ang; setcamera_transform(e, WarpZone_Camera_camera_transform); } .entity enemy; vector WarpZoneLib_BoxTouchesBrush_mins; vector WarpZoneLib_BoxTouchesBrush_maxs; entity WarpZoneLib_BoxTouchesBrush_ent; entity WarpZoneLib_BoxTouchesBrush_ignore; float WarpZoneLib_BoxTouchesBrush_Recurse() { float s; entity se; float f; tracebox('0 0 0', WarpZoneLib_BoxTouchesBrush_mins, WarpZoneLib_BoxTouchesBrush_maxs, '0 0 0', MOVE_NOMONSTERS, WarpZoneLib_BoxTouchesBrush_ignore); #ifdef CSQC if (trace_networkentity) { LOG_TRACE("hit a network ent, cannot continue WarpZoneLib_BoxTouchesBrush\n"); // we cannot continue, as a player blocks us... // so, abort return 0; } #endif if (!trace_ent) return 0; if (trace_ent == WarpZoneLib_BoxTouchesBrush_ent) return 1; se = trace_ent; s = se.solid; se.solid = SOLID_NOT; f = WarpZoneLib_BoxTouchesBrush_Recurse(); se.solid = s; return f; } float WarpZoneLib_BoxTouchesBrush(vector mi, vector ma, entity e, entity ig) { float f, s; if(!e.modelindex || e.warpzone_isboxy) return 1; s = e.solid; e.solid = SOLID_BSP; WarpZoneLib_BoxTouchesBrush_mins = mi; WarpZoneLib_BoxTouchesBrush_maxs = ma; WarpZoneLib_BoxTouchesBrush_ent = e; WarpZoneLib_BoxTouchesBrush_ignore = ig; f = WarpZoneLib_BoxTouchesBrush_Recurse(); e.solid = s; return f; } entity WarpZone_Find(vector mi, vector ma) { // if we are near any warpzone planes - MOVE AWAY (work around nearclip) entity e; if(!warpzone_warpzones_exist) return NULL; for(e = NULL; (e = find(e, classname, "trigger_warpzone")); ) if(WarpZoneLib_BoxTouchesBrush(mi, ma, e, NULL)) return e; return NULL; } void WarpZone_MakeAllSolid() { entity e; if(!warpzone_warpzones_exist) return; for(e = NULL; (e = find(e, classname, "trigger_warpzone")); ) e.solid = SOLID_BSP; } void WarpZone_MakeAllOther() { entity e; if(!warpzone_warpzones_exist) return; for(e = NULL; (e = find(e, classname, "trigger_warpzone")); ) e.solid = SOLID_TRIGGER; } void WarpZone_Trace_InitTransform() { if(!WarpZone_trace_transform) { WarpZone_trace_transform = new_pure(warpzone_trace_transform); } WarpZone_Accumulator_Clear(WarpZone_trace_transform); } void WarpZone_Trace_AddTransform(entity wz) { WarpZone_Accumulator_Add(WarpZone_trace_transform, wz); } void WarpZone_TraceBox_ThroughZone(vector org, vector mi, vector ma, vector end, float nomonsters, entity forent, entity zone, WarpZone_trace_callback_t cb) { float nomonsters_adjusted; float frac, sol, i; float contentshack; vector o0, e0; entity wz; vector vf, vr, vu; WarpZone_trace_forent = forent; WarpZone_trace_firstzone = NULL; WarpZone_trace_lastzone = NULL; WarpZone_Trace_InitTransform(); if(!warpzone_warpzones_exist) { if(nomonsters == MOVE_NOTHING) { trace_endpos = end; trace_fraction = 1; if(cb) cb(org, trace_endpos, end); return; } else { tracebox(org, mi, ma, end, nomonsters, WarpZone_trace_forent); if(cb) cb(org, trace_endpos, end); return; } } vf = v_forward; vr = v_right; vu = v_up; o0 = org; e0 = end; switch(nomonsters) { case MOVE_WORLDONLY: case MOVE_NOTHING: nomonsters_adjusted = MOVE_NOMONSTERS; break; default: nomonsters_adjusted = nomonsters; break; } if((contentshack = (WarpZone_trace_forent.dphitcontentsmask && !(WarpZone_trace_forent.dphitcontentsmask & DPCONTENTS_SOLID)))) BITSET_ASSIGN(WarpZone_trace_forent.dphitcontentsmask, DPCONTENTS_SOLID); // if starting in warpzone, first transform wz = WarpZone_Find(org + mi, org + ma); if(wz) { WarpZone_trace_firstzone = wz; WarpZone_trace_lastzone = wz; if(zone && wz != zone) { // we are in ANOTHER warpzone. This is bad. Make a zero length trace and return. sol = 1; trace_fraction = 0; trace_endpos = org; goto fail; } WarpZone_Trace_AddTransform(wz); org = WarpZone_TransformOrigin(wz, org); end = WarpZone_TransformOrigin(wz, end); } WarpZone_MakeAllSolid(); sol = -1; frac = 0; i = 16; for (;;) { if(--i < 1) { LOG_TRACE("Too many warpzones in sequence, aborting trace.\n"); trace_ent = NULL; break; } tracebox(org, mi, ma, end, nomonsters_adjusted, WarpZone_trace_forent); if(cb) cb(org, trace_endpos, end); if(sol < 0) sol = trace_startsolid; frac = trace_fraction = frac + (1 - frac) * trace_fraction; if(trace_fraction >= 1) break; if(trace_ent.classname != "trigger_warpzone") { if((nomonsters == MOVE_NOTHING) || ((nomonsters == MOVE_WORLDONLY) && trace_ent) || (contentshack && (trace_dphitcontents & WarpZone_trace_forent.dphitcontentsmask) == DPCONTENTS_SOLID)) { // continue the trace, ignoring this hit (we only care for warpzones) org = trace_endpos + normalize(end - org); continue; // we cannot do an inverted trace here, as we do care for further warpzones inside that "solid" to be found // otherwise, players could block entrances that way } break; } if(trace_ent == wz) { // FIXME can this check be removed? Do we really need it? LOG_TRACE("I transformed into the same zone again, wtf, aborting the trace\n"); trace_ent = NULL; break; } wz = trace_ent; if(!WarpZone_trace_firstzone) WarpZone_trace_firstzone = wz; WarpZone_trace_lastzone = wz; if(zone && wz != zone) break; WarpZone_Trace_AddTransform(wz); // we hit a warpzone... so, let's perform the trace after the warp again org = WarpZone_TransformOrigin(wz, trace_endpos); end = WarpZone_TransformOrigin(wz, end); // we got warped, so let's step back a bit tracebox(org, mi, ma, org + normalize(org - end) * 32, nomonsters_adjusted, WarpZone_trace_forent); org = trace_endpos; } WarpZone_MakeAllOther(); LABEL(fail) if(contentshack) BITCLR_ASSIGN(WarpZone_trace_forent.dphitcontentsmask, DPCONTENTS_SOLID); trace_startsolid = sol; v_forward = vf; v_right = vr; v_up = vu; } void WarpZone_TraceBox(vector org, vector mi, vector ma, vector end, float nomonsters, entity forent) { WarpZone_TraceBox_ThroughZone(org, mi, ma, end, nomonsters, forent, NULL, WarpZone_trace_callback_t_null); } void WarpZone_TraceLine(vector org, vector end, float nomonsters, entity forent) { WarpZone_TraceBox(org, '0 0 0', '0 0 0', end, nomonsters, forent); } void WarpZone_TraceToss_ThroughZone(entity e, entity forent, entity zone, WarpZone_trace_callback_t cb) { float g, dt, i; vector vf, vr, vu, v0, o0; entity wz; o0 = e.origin; v0 = e.velocity; g = cvar("sv_gravity") * e.gravity; WarpZone_trace_forent = forent; WarpZone_trace_firstzone = NULL; WarpZone_trace_lastzone = NULL; WarpZone_Trace_InitTransform(); WarpZone_tracetoss_time = 0; if(!warpzone_warpzones_exist) { tracetoss(e, WarpZone_trace_forent); if(cb) cb(e.origin, trace_endpos, trace_endpos); dt = vlen(e.origin - o0) / vlen(e.velocity); WarpZone_tracetoss_time += dt; e.velocity_z -= dt * g; WarpZone_tracetoss_velocity = e.velocity; e.velocity = v0; return; } vf = v_forward; vr = v_right; vu = v_up; // if starting in warpzone, first transform wz = WarpZone_Find(e.origin + e.mins, e.origin + e.maxs); if(wz) { WarpZone_trace_firstzone = wz; WarpZone_trace_lastzone = wz; if(zone && wz != zone) { // we are in ANOTHER warpzone. This is bad. Make a zero length trace and return. WarpZone_tracetoss_time = 0; trace_endpos = o0; goto fail; } WarpZone_Trace_AddTransform(wz); vector org = WarpZone_TransformOrigin(wz, e.origin); setorigin(e, org); e.velocity = WarpZone_TransformVelocity(wz, e.velocity); } WarpZone_MakeAllSolid(); i = 16; for (;;) { if(--i < 1) { LOG_TRACE("Too many warpzones in sequence, aborting trace.\n"); trace_ent = NULL; break; } tracetoss(e, WarpZone_trace_forent); if(cb) cb(e.origin, trace_endpos, trace_endpos); dt = vlen(trace_endpos - e.origin) / vlen(e.velocity); WarpZone_tracetoss_time += dt; e.origin = trace_endpos; e.velocity_z -= dt * g; if(trace_fraction >= 1) break; if(trace_ent.classname != "trigger_warpzone") break; if(trace_ent == wz) { // FIXME can this check be removed? Do we really need it? LOG_TRACE("I transformed into the same zone again, wtf, aborting the trace\n"); trace_ent = NULL; break; } wz = trace_ent; if(!WarpZone_trace_firstzone) WarpZone_trace_firstzone = wz; WarpZone_trace_lastzone = wz; if(zone && wz != zone) break; WarpZone_Trace_AddTransform(wz); // we hit a warpzone... so, let's perform the trace after the warp again e.origin = WarpZone_TransformOrigin(wz, e.origin); e.velocity = WarpZone_TransformVelocity(wz, e.velocity); // we got warped, so let's step back a bit e.velocity = -e.velocity; tracetoss(e, WarpZone_trace_forent); dt = vlen(trace_endpos - e.origin) / vlen(e.velocity); WarpZone_tracetoss_time -= dt; e.origin = trace_endpos; e.velocity = -e.velocity; } WarpZone_MakeAllOther(); LABEL(fail) WarpZone_tracetoss_velocity = e.velocity; v_forward = vf; v_right = vr; v_up = vu; // restore old entity data (caller just uses trace_endpos, WarpZone_tracetoss_velocity and the transform) e.velocity = v0; e.origin = o0; } void WarpZone_TraceToss(entity e, entity forent) { WarpZone_TraceToss_ThroughZone(e, forent, NULL, WarpZone_trace_callback_t_null); } entity WarpZone_TrailParticles_trace_callback_own; float WarpZone_TrailParticles_trace_callback_eff; void WarpZone_TrailParticles_trace_callback(vector from, vector endpos, vector to) { __trailparticles(WarpZone_TrailParticles_trace_callback_own, WarpZone_TrailParticles_trace_callback_eff, from, endpos); } void WarpZone_TrailParticles(entity own, float eff, vector org, vector end) { WarpZone_TrailParticles_trace_callback_own = own; WarpZone_TrailParticles_trace_callback_eff = eff; WarpZone_TraceBox_ThroughZone(org, '0 0 0', '0 0 0', end, MOVE_NOMONSTERS, NULL, NULL, WarpZone_TrailParticles_trace_callback); } #ifdef CSQC float WarpZone_TrailParticles_trace_callback_f; float WarpZone_TrailParticles_trace_callback_flags; void WarpZone_TrailParticles_WithMultiplier_trace_callback(vector from, vector endpos, vector to) { boxparticles(WarpZone_TrailParticles_trace_callback_eff, WarpZone_TrailParticles_trace_callback_own, from, endpos, WarpZone_TrailParticles_trace_callback_own.velocity, WarpZone_TrailParticles_trace_callback_own.velocity, WarpZone_TrailParticles_trace_callback_f, WarpZone_TrailParticles_trace_callback_flags); } void WarpZone_TrailParticles_WithMultiplier(entity own, float eff, vector org, vector end, float f, int boxflags) { WarpZone_TrailParticles_trace_callback_own = own; WarpZone_TrailParticles_trace_callback_eff = eff; WarpZone_TrailParticles_trace_callback_f = f; WarpZone_TrailParticles_trace_callback_flags = boxflags | PARTICLES_DRAWASTRAIL; WarpZone_TraceBox_ThroughZone(org, '0 0 0', '0 0 0', end, MOVE_NOMONSTERS, NULL, NULL, WarpZone_TrailParticles_WithMultiplier_trace_callback); } #endif float WarpZone_PlaneDist(entity wz, vector v) { return (v - wz.warpzone_origin) * wz.warpzone_forward; } float WarpZone_TargetPlaneDist(entity wz, vector v) { return (v - wz.warpzone_targetorigin) * wz.warpzone_targetforward; } vector WarpZone_TransformOrigin(entity wz, vector v) { return wz.warpzone_shift + AnglesTransform_Apply(wz.warpzone_transform, v); } vector WarpZone_TransformVelocity(entity wz, vector v) { return AnglesTransform_Apply(wz.warpzone_transform, v); } vector WarpZone_TransformAngles(entity wz, vector v) { return AnglesTransform_ApplyToAngles(wz.warpzone_transform, v); } vector WarpZone_TransformVAngles(entity wz, vector ang) { #ifdef KEEP_ROLL float roll; roll = ang.z; ang.z = 0; #endif ang = AnglesTransform_ApplyToVAngles(wz.warpzone_transform, ang); #ifdef KEEP_ROLL ang = AnglesTransform_Normalize(ang, true); ang = AnglesTransform_CancelRoll(ang); ang.z = roll; #else ang = AnglesTransform_Normalize(ang, false); #endif return ang; } vector WarpZone_UnTransformOrigin(entity wz, vector v) { return AnglesTransform_Apply(AnglesTransform_Invert(wz.warpzone_transform), v - wz.warpzone_shift); } vector WarpZone_UnTransformVelocity(entity wz, vector v) { return AnglesTransform_Apply(AnglesTransform_Invert(wz.warpzone_transform), v); } vector WarpZone_UnTransformAngles(entity wz, vector v) { return AnglesTransform_ApplyToAngles(AnglesTransform_Invert(wz.warpzone_transform), v); } vector WarpZone_UnTransformVAngles(entity wz, vector ang) { float roll; roll = ang.z; ang.z = 0; ang = AnglesTransform_ApplyToVAngles(AnglesTransform_Invert(wz.warpzone_transform), ang); ang = AnglesTransform_Normalize(ang, true); ang = AnglesTransform_CancelRoll(ang); ang.z = roll; return ang; } vector WarpZoneLib_NearestPointOnBox(vector mi, vector ma, vector org) { vector nearest; nearest.x = bound(mi.x, org.x, ma.x); nearest.y = bound(mi.y, org.y, ma.y); nearest.z = bound(mi.z, org.z, ma.z); return nearest; } bool WarpZoneLib_BadEntity(entity e) { if (is_pure(e)) return true; string s = e.classname; switch (s) { // case "net_linked": // actually some real entities are linked without classname, fail case "": return true; } if (startsWith(s, "target_")) return true; if (startsWith(s, "info_")) return true; return false; } .float WarpZone_findradius_hit; .entity WarpZone_findradius_next; void WarpZone_FindRadius_Recurse( /** blast origin of current search */ vector org, float rad, /** original blast origin */ vector org0, /** how to untransform (victim to blast system) */ vector transform, vector shift, bool needlineofsight) { if (rad <= 0) return; entity wz = NULL; FOREACH_ENTITY_RADIUS(org, rad, !WarpZoneLib_BadEntity(it), { vector p = WarpZoneLib_NearestPointOnBox(it.origin + it.mins, it.origin + it.maxs, org0); if (needlineofsight) { traceline(org, p, MOVE_NOMONSTERS, it); if (trace_fraction < 1) continue; } if (!it.WarpZone_findradius_hit || vlen2(it.WarpZone_findradius_dist) > vlen2(org0 - p)) { it.WarpZone_findradius_nearest = p; it.WarpZone_findradius_dist = org0 - p; it.WarpZone_findradius_findorigin = org; it.WarpZone_findradius_findradius = rad; if (it.classname == "warpzone_refsys") { // ignore, especially: do not overwrite the refsys parameters } else if (it.classname == "trigger_warpzone") { it.WarpZone_findradius_next = wz; wz = it; it.WarpZone_findradius_hit = 1; it.enemy.WarpZone_findradius_dist = '0 0 0'; // we don't want to go through this zone ever again it.enemy.WarpZone_findradius_hit = 1; } else { it.warpzone_transform = transform; it.warpzone_shift = shift; it.WarpZone_findradius_hit = 1; } } }); for(entity e = wz; e; e = e.WarpZone_findradius_next) { if (WarpZoneLib_BadEntity(e)) continue; vector org0_new = WarpZone_TransformOrigin(e, org); traceline(e.warpzone_targetorigin, org0_new, MOVE_NOMONSTERS, e); vector org_new = trace_endpos; vector transform_new = AnglesTransform_Multiply(e.warpzone_transform, transform); vector shift_new = AnglesTransform_Multiply_GetPostShift(e.warpzone_transform, e.warpzone_shift, transform, shift); WarpZone_FindRadius_Recurse( org_new, bound(0, rad - vlen(org_new - org0_new), rad - 8), org0_new, transform_new, shift_new, needlineofsight); e.WarpZone_findradius_hit = 0; e.enemy.WarpZone_findradius_hit = 0; } } entity WarpZone_FindRadius(vector org, float rad, bool needlineofsight) { // FIXME: why can't we do this? (sometimes finds nothing, breaking explosions) // if (!warpzone_warpzones_exist && !needlineofsight) return findradius(org, rad); WarpZone_FindRadius_Recurse(org, rad, org, '0 0 0', '0 0 0', needlineofsight); entity list_first = findchainfloat(WarpZone_findradius_hit, 1); FOREACH_LIST(list, chain, true, it.WarpZone_findradius_hit = 0); return list_first; } .entity WarpZone_refsys; void WarpZone_RefSys_GC(entity this) { // garbage collect unused reference systems this.nextthink = time + 1; if(this.owner.WarpZone_refsys != this) remove(this); } void WarpZone_RefSys_CheckCreate(entity me) { if(me.WarpZone_refsys.owner != me) { me.WarpZone_refsys = new(warpzone_refsys); me.WarpZone_refsys.owner = me; setthink(me.WarpZone_refsys, WarpZone_RefSys_GC); me.WarpZone_refsys.nextthink = time + 1; WarpZone_Accumulator_Clear(me.WarpZone_refsys); } } void WarpZone_RefSys_Clear(entity me) { if(me.WarpZone_refsys) { remove(me.WarpZone_refsys); me.WarpZone_refsys = NULL; } } void WarpZone_RefSys_AddTransform(entity me, vector t, vector s) { if(t != '0 0 0' || s != '0 0 0') { WarpZone_RefSys_CheckCreate(me); WarpZone_Accumulator_AddTransform(me.WarpZone_refsys, t, s); } } void WarpZone_RefSys_Add(entity me, entity wz) { WarpZone_RefSys_AddTransform(me, wz.warpzone_transform, wz.warpzone_shift); } void WarpZone_RefSys_AddInverseTransform(entity me, vector t, vector s) { if(t != '0 0 0' || s != '0 0 0') { WarpZone_RefSys_CheckCreate(me); WarpZone_Accumulator_AddInverseTransform(me.WarpZone_refsys, t, s); } } void WarpZone_RefSys_AddInverse(entity me, entity wz) { WarpZone_RefSys_AddInverseTransform(me, wz.warpzone_transform, wz.warpzone_shift); } .vector WarpZone_refsys_incremental_shift; .vector WarpZone_refsys_incremental_transform; void WarpZone_RefSys_AddIncrementally(entity me, entity ref) { //vector t, s; if(me.WarpZone_refsys_incremental_transform == ref.WarpZone_refsys.warpzone_transform) if(me.WarpZone_refsys_incremental_shift == ref.WarpZone_refsys.warpzone_shift) return; WarpZone_Accumulator_AddInverseTransform(me.WarpZone_refsys, me.WarpZone_refsys_incremental_transform, me.WarpZone_refsys_incremental_shift); WarpZone_Accumulator_Add(me.WarpZone_refsys, ref.WarpZone_refsys); me.WarpZone_refsys_incremental_shift = ref.WarpZone_refsys.warpzone_shift; me.WarpZone_refsys_incremental_transform = ref.WarpZone_refsys.warpzone_transform; } void WarpZone_RefSys_BeginAddingIncrementally(entity me, entity ref) { me.WarpZone_refsys_incremental_shift = ref.WarpZone_refsys.warpzone_shift; me.WarpZone_refsys_incremental_transform = ref.WarpZone_refsys.warpzone_transform; } vector WarpZone_RefSys_TransformOrigin(entity from, entity to, vector org) { if(from.WarpZone_refsys) org = WarpZone_UnTransformOrigin(from.WarpZone_refsys, org); if(to.WarpZone_refsys) org = WarpZone_TransformOrigin(to.WarpZone_refsys, org); return org; } vector WarpZone_RefSys_TransformVelocity(entity from, entity to, vector vel) { if(from.WarpZone_refsys) vel = WarpZone_UnTransformVelocity(from.WarpZone_refsys, vel); if(to.WarpZone_refsys) vel = WarpZone_TransformVelocity(to.WarpZone_refsys, vel); return vel; } vector WarpZone_RefSys_TransformAngles(entity from, entity to, vector ang) { if(from.WarpZone_refsys) ang = WarpZone_UnTransformAngles(from.WarpZone_refsys, ang); if(to.WarpZone_refsys) ang = WarpZone_TransformAngles(to.WarpZone_refsys, ang); return ang; } vector WarpZone_RefSys_TransformVAngles(entity from, entity to, vector ang) { if(from.WarpZone_refsys) ang = WarpZone_UnTransformVAngles(from.WarpZone_refsys, ang); if(to.WarpZone_refsys) ang = WarpZone_TransformVAngles(to.WarpZone_refsys, ang); return ang; } void WarpZone_RefSys_Copy(entity me, entity from) { if(from.WarpZone_refsys) { WarpZone_RefSys_CheckCreate(me); me.WarpZone_refsys.warpzone_shift = from.WarpZone_refsys.warpzone_shift; me.WarpZone_refsys.warpzone_transform = from.WarpZone_refsys.warpzone_transform; } else WarpZone_RefSys_Clear(me); } entity WarpZone_RefSys_SpawnSameRefSys(entity me) { entity e; e = spawn(); WarpZone_RefSys_Copy(e, me); return e; } float WarpZoneLib_ExactTrigger_Touch(entity this, entity toucher) { return !WarpZoneLib_BoxTouchesBrush(toucher.absmin, toucher.absmax, this, toucher); } void WarpZoneLib_MoveOutOfSolid_Expand(entity e, vector by) { float eps = 0.0625; tracebox(e.origin, e.mins - '1 1 1' * eps, e.maxs + '1 1 1' * eps, e.origin + by, MOVE_WORLDONLY, e); if (trace_startsolid) return; if (trace_fraction < 1) { // hit something // adjust origin in the other direction... setorigin(e, e.origin - by * (1 - trace_fraction)); } } float WarpZoneLib_MoveOutOfSolid(entity e) { vector o, m0, m1; o = e.origin; traceline(o, o, MOVE_WORLDONLY, e); if (trace_startsolid) return false; tracebox(o, e.mins, e.maxs, o, MOVE_WORLDONLY, e); if (!trace_startsolid) return true; m0 = e.mins; m1 = e.maxs; e.mins = '0 0 0'; e.maxs = '0 0 0'; WarpZoneLib_MoveOutOfSolid_Expand(e, '1 0 0' * m0_x); e.mins_x = m0_x; WarpZoneLib_MoveOutOfSolid_Expand(e, '1 0 0' * m1_x); e.maxs_x = m1_x; WarpZoneLib_MoveOutOfSolid_Expand(e, '0 1 0' * m0_y); e.mins_y = m0_y; WarpZoneLib_MoveOutOfSolid_Expand(e, '0 1 0' * m1_y); e.maxs_y = m1_y; WarpZoneLib_MoveOutOfSolid_Expand(e, '0 0 1' * m0_z); e.mins_z = m0_z; WarpZoneLib_MoveOutOfSolid_Expand(e, '0 0 1' * m1_z); e.maxs_z = m1_z; setorigin(e, e.origin); tracebox(e.origin, e.mins, e.maxs, e.origin, MOVE_WORLDONLY, e); if (trace_startsolid) { setorigin(e, o); return false; } return true; }