/* * Copyright (C) 1997-2001 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. * */ // Created on 18.11.2003 by RST. // $Id: GameFunc.java,v 1.5 2004-09-22 19:22:04 salomo Exp $ package jake2.game; import jake2.Defines; import jake2.Globals; import jake2.util.Lib; import jake2.util.Math3D; public class GameFunc { static void Move_Calc(edict_t ent, float[] dest, EntThinkAdapter func) { Math3D.VectorClear(ent.velocity); Math3D.VectorSubtract(dest, ent.s.origin, ent.moveinfo.dir); ent.moveinfo.remaining_distance = Math3D .VectorNormalize(ent.moveinfo.dir); ent.moveinfo.endfunc = func; if (ent.moveinfo.speed == ent.moveinfo.accel && ent.moveinfo.speed == ent.moveinfo.decel) { if (GameBase.level.current_entity == ((ent.flags & Defines.FL_TEAMSLAVE) != 0 ? ent.teammaster : ent)) { GameFunc.Move_Begin.think(ent); } else { ent.nextthink = GameBase.level.time + Defines.FRAMETIME; ent.think = GameFunc.Move_Begin; } } else { // accelerative ent.moveinfo.current_speed = 0; ent.think = GameFunc.Think_AccelMove; ent.nextthink = GameBase.level.time + Defines.FRAMETIME; } } static void AngleMove_Calc(edict_t ent, EntThinkAdapter func) { Math3D.VectorClear(ent.avelocity); ent.moveinfo.endfunc = func; if (GameBase.level.current_entity == ((ent.flags & Defines.FL_TEAMSLAVE) != 0 ? ent.teammaster : ent)) { GameFunc.AngleMove_Begin.think(ent); } else { ent.nextthink = GameBase.level.time + Defines.FRAMETIME; ent.think = GameFunc.AngleMove_Begin; } } /* * ============== Think_AccelMove * * The team has completed a frame of movement, so change the speed for the * next frame ============== */ static float AccelerationDistance(float target, float rate) { return target * ((target / rate) + 1) / 2; }; static void plat_CalcAcceleratedMove(moveinfo_t moveinfo) { float accel_dist; float decel_dist; moveinfo.move_speed = moveinfo.speed; if (moveinfo.remaining_distance < moveinfo.accel) { moveinfo.current_speed = moveinfo.remaining_distance; return; } accel_dist = AccelerationDistance(moveinfo.speed, moveinfo.accel); decel_dist = AccelerationDistance(moveinfo.speed, moveinfo.decel); if ((moveinfo.remaining_distance - accel_dist - decel_dist) < 0) { float f; f = (moveinfo.accel + moveinfo.decel) / (moveinfo.accel * moveinfo.decel); moveinfo.move_speed = (float) ((-2 + Math.sqrt(4 - 4 * f * (-2 * moveinfo.remaining_distance))) / (2 * f)); decel_dist = AccelerationDistance(moveinfo.move_speed, moveinfo.decel); } moveinfo.decel_distance = decel_dist; }; static void plat_Accelerate(moveinfo_t moveinfo) { // are we decelerating? if (moveinfo.remaining_distance <= moveinfo.decel_distance) { if (moveinfo.remaining_distance < moveinfo.decel_distance) { if (moveinfo.next_speed != 0) { moveinfo.current_speed = moveinfo.next_speed; moveinfo.next_speed = 0; return; } if (moveinfo.current_speed > moveinfo.decel) moveinfo.current_speed -= moveinfo.decel; } return; } // are we at full speed and need to start decelerating during this move? if (moveinfo.current_speed == moveinfo.move_speed) if ((moveinfo.remaining_distance - moveinfo.current_speed) < moveinfo.decel_distance) { float p1_distance; float p2_distance; float distance; p1_distance = moveinfo.remaining_distance - moveinfo.decel_distance; p2_distance = moveinfo.move_speed * (1.0f - (p1_distance / moveinfo.move_speed)); distance = p1_distance + p2_distance; moveinfo.current_speed = moveinfo.move_speed; moveinfo.next_speed = moveinfo.move_speed - moveinfo.decel * (p2_distance / distance); return; } // are we accelerating? if (moveinfo.current_speed < moveinfo.speed) { float old_speed; float p1_distance; float p1_speed; float p2_distance; float distance; old_speed = moveinfo.current_speed; // figure simple acceleration up to move_speed moveinfo.current_speed += moveinfo.accel; if (moveinfo.current_speed > moveinfo.speed) moveinfo.current_speed = moveinfo.speed; // are we accelerating throughout this entire move? if ((moveinfo.remaining_distance - moveinfo.current_speed) >= moveinfo.decel_distance) return; // during this move we will accelrate from current_speed to // move_speed // and cross over the decel_distance; figure the average speed for // the // entire move p1_distance = moveinfo.remaining_distance - moveinfo.decel_distance; p1_speed = (old_speed + moveinfo.move_speed) / 2.0f; p2_distance = moveinfo.move_speed * (1.0f - (p1_distance / p1_speed)); distance = p1_distance + p2_distance; moveinfo.current_speed = (p1_speed * (p1_distance / distance)) + (moveinfo.move_speed * (p2_distance / distance)); moveinfo.next_speed = moveinfo.move_speed - moveinfo.decel * (p2_distance / distance); return; } // we are at constant velocity (move_speed) return; }; static void plat_go_up(edict_t ent) { if (0 == (ent.flags & Defines.FL_TEAMSLAVE)) { if (ent.moveinfo.sound_start != 0) GameBase.gi.sound(ent, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, ent.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); ent.s.sound = ent.moveinfo.sound_middle; } ent.moveinfo.state = GameFunc.STATE_UP; Move_Calc(ent, ent.moveinfo.start_origin, GameFunc.plat_hit_top); } static void plat_spawn_inside_trigger(edict_t ent) { edict_t trigger; float[] tmin = { 0, 0, 0 }, tmax = { 0, 0, 0 }; // // middle trigger // trigger = GameUtil.G_Spawn(); trigger.touch = GameFunc.Touch_Plat_Center; trigger.movetype = Defines.MOVETYPE_NONE; trigger.solid = Defines.SOLID_TRIGGER; trigger.enemy = ent; tmin[0] = ent.mins[0] + 25; tmin[1] = ent.mins[1] + 25; tmin[2] = ent.mins[2]; tmax[0] = ent.maxs[0] - 25; tmax[1] = ent.maxs[1] - 25; tmax[2] = ent.maxs[2] + 8; tmin[2] = tmax[2] - (ent.pos1[2] - ent.pos2[2] + GameBase.st.lip); if ((ent.spawnflags & GameFunc.PLAT_LOW_TRIGGER) != 0) tmax[2] = tmin[2] + 8; if (tmax[0] - tmin[0] <= 0) { tmin[0] = (ent.mins[0] + ent.maxs[0]) * 0.5f; tmax[0] = tmin[0] + 1; } if (tmax[1] - tmin[1] <= 0) { tmin[1] = (ent.mins[1] + ent.maxs[1]) * 0.5f; tmax[1] = tmin[1] + 1; } Math3D.VectorCopy(tmin, trigger.mins); Math3D.VectorCopy(tmax, trigger.maxs); GameBase.gi.linkentity(trigger); } /* * QUAKED func_plat (0 .5 .8) ? PLAT_LOW_TRIGGER speed default 150 * * Plats are always drawn in the extended position, so they will light * correctly. * * If the plat is the target of another trigger or button, it will start out * disabled in the extended position until it is trigger, when it will lower * and become a normal plat. * * "speed" overrides default 200. "accel" overrides default 500 "lip" * overrides default 8 pixel lip * * If the "height" key is set, that will determine the amount the plat * moves, instead of being implicitly determoveinfoned by the model's * height. * * Set "sounds" to one of the following: 1) base fast 2) chain slow */ static void SP_func_plat(edict_t ent) { Math3D.VectorClear(ent.s.angles); ent.solid = Defines.SOLID_BSP; ent.movetype = Defines.MOVETYPE_PUSH; GameBase.gi.setmodel(ent, ent.model); ent.blocked = GameFunc.plat_blocked; if (0 == ent.speed) ent.speed = 20; else ent.speed *= 0.1; if (ent.accel == 0) ent.accel = 5; else ent.accel *= 0.1; if (ent.decel == 0) ent.decel = 5; else ent.decel *= 0.1; if (ent.dmg == 0) ent.dmg = 2; if (GameBase.st.lip == 0) GameBase.st.lip = 8; // pos1 is the top position, pos2 is the bottom Math3D.VectorCopy(ent.s.origin, ent.pos1); Math3D.VectorCopy(ent.s.origin, ent.pos2); if (GameBase.st.height != 0) ent.pos2[2] -= GameBase.st.height; else ent.pos2[2] -= (ent.maxs[2] - ent.mins[2]) - GameBase.st.lip; ent.use = GameFunc.Use_Plat; plat_spawn_inside_trigger(ent); // the "start moving" trigger if (ent.targetname != null) { ent.moveinfo.state = GameFunc.STATE_UP; } else { Math3D.VectorCopy(ent.pos2, ent.s.origin); GameBase.gi.linkentity(ent); ent.moveinfo.state = GameFunc.STATE_BOTTOM; } ent.moveinfo.speed = ent.speed; ent.moveinfo.accel = ent.accel; ent.moveinfo.decel = ent.decel; ent.moveinfo.wait = ent.wait; Math3D.VectorCopy(ent.pos1, ent.moveinfo.start_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.start_angles); Math3D.VectorCopy(ent.pos2, ent.moveinfo.end_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.end_angles); ent.moveinfo.sound_start = GameBase.gi.soundindex("plats/pt1_strt.wav"); ent.moveinfo.sound_middle = GameBase.gi.soundindex("plats/pt1_mid.wav"); ent.moveinfo.sound_end = GameBase.gi.soundindex("plats/pt1_end.wav"); } /* * ====================================================================== * * DOORS * * spawn a trigger surrounding the entire team unless it is already targeted * by another * * ====================================================================== */ /* * QUAKED func_door (0 .5 .8) ? START_OPEN x CRUSHER NOMONSTER ANIMATED * TOGGLE ANIMATED_FAST TOGGLE wait in both the start and end states for a * trigger event. START_OPEN the door to moves to its destination when * spawned, and operate in reverse. It is used to temporarily or permanently * close off an area when triggered (not useful for touch or takedamage * doors). NOMONSTER monsters will not trigger this door * * "message" is printed when the door is touched if it is a trigger door and * it hasn't been fired yet "angle" determines the opening direction * "targetname" if set, no touch field will be spawned and a remote button * or trigger field activates the door. "health" if set, door must be shot * open "speed" movement speed (100 default) "wait" wait before returning (3 * default, -1 = never return) "lip" lip remaining at end of move (8 * default) "dmg" damage to inflict when blocked (2 default) "sounds" 1) * silent 2) light 3) medium 4) heavy */ static void door_use_areaportals(edict_t self, boolean open) { edict_t t = null; if (self.target == null) return; EdictIterator edit = null; while ((edit = GameBase .G_Find(edit, GameBase.findByTarget, self.target)) != null) { t = edit.o; if (Lib.Q_stricmp(t.classname, "func_areaportal") == 0) { GameBase.gi.SetAreaPortalState(t.style, open); } } } static void door_go_up(edict_t self, edict_t activator) { if (self.moveinfo.state == GameFunc.STATE_UP) return; // already going up if (self.moveinfo.state == GameFunc.STATE_TOP) { // reset top wait time if (self.moveinfo.wait >= 0) self.nextthink = GameBase.level.time + self.moveinfo.wait; return; } if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_start != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); self.s.sound = self.moveinfo.sound_middle; } self.moveinfo.state = GameFunc.STATE_UP; if (Lib.strcmp(self.classname, "func_door") == 0) Move_Calc(self, self.moveinfo.end_origin, GameFunc.door_hit_top); else if (Lib.strcmp(self.classname, "func_door_rotating") == 0) AngleMove_Calc(self, GameFunc.door_hit_top); GameUtil.G_UseTargets(self, activator); door_use_areaportals(self, true); } /* * QUAKED func_water (0 .5 .8) ? START_OPEN func_water is a moveable water * brush. It must be targeted to operate. Use a non-water texture at your * own risk. * * START_OPEN causes the water to move to its destination when spawned and * operate in reverse. * * "angle" determines the opening direction (up or down only) "speed" * movement speed (25 default) "wait" wait before returning (-1 default, -1 = * TOGGLE) "lip" lip remaining at end of move (0 default) "sounds" (yes, * these need to be changed) 0) no sound 1) water 2) lava */ static void SP_func_water(edict_t self) { float[] abs_movedir = { 0, 0, 0 }; GameBase.G_SetMovedir(self.s.angles, self.movedir); self.movetype = Defines.MOVETYPE_PUSH; self.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(self, self.model); switch (self.sounds) { default: break; case 1: // water self.moveinfo.sound_start = GameBase.gi .soundindex("world/mov_watr.wav"); self.moveinfo.sound_end = GameBase.gi .soundindex("world/stp_watr.wav"); break; case 2: // lava self.moveinfo.sound_start = GameBase.gi .soundindex("world/mov_watr.wav"); self.moveinfo.sound_end = GameBase.gi .soundindex("world/stp_watr.wav"); break; } // calculate second position Math3D.VectorCopy(self.s.origin, self.pos1); abs_movedir[0] = Math.abs(self.movedir[0]); abs_movedir[1] = Math.abs(self.movedir[1]); abs_movedir[2] = Math.abs(self.movedir[2]); self.moveinfo.distance = abs_movedir[0] * self.size[0] + abs_movedir[1] * self.size[1] + abs_movedir[2] * self.size[2] - GameBase.st.lip; Math3D.VectorMA(self.pos1, self.moveinfo.distance, self.movedir, self.pos2); // if it starts open, switch the positions if ((self.spawnflags & GameFunc.DOOR_START_OPEN) != 0) { Math3D.VectorCopy(self.pos2, self.s.origin); Math3D.VectorCopy(self.pos1, self.pos2); Math3D.VectorCopy(self.s.origin, self.pos1); } Math3D.VectorCopy(self.pos1, self.moveinfo.start_origin); Math3D.VectorCopy(self.s.angles, self.moveinfo.start_angles); Math3D.VectorCopy(self.pos2, self.moveinfo.end_origin); Math3D.VectorCopy(self.s.angles, self.moveinfo.end_angles); self.moveinfo.state = GameFunc.STATE_BOTTOM; if (0 == self.speed) self.speed = 25; self.moveinfo.accel = self.moveinfo.decel = self.moveinfo.speed = self.speed; if (0 == self.wait) self.wait = -1; self.moveinfo.wait = self.wait; self.use = GameFunc.door_use; if (self.wait == -1) self.spawnflags |= GameFunc.DOOR_TOGGLE; self.classname = "func_door"; GameBase.gi.linkentity(self); } static void train_resume(edict_t self) { edict_t ent; float[] dest = { 0, 0, 0 }; ent = self.target_ent; Math3D.VectorSubtract(ent.s.origin, self.mins, dest); self.moveinfo.state = GameFunc.STATE_TOP; Math3D.VectorCopy(self.s.origin, self.moveinfo.start_origin); Math3D.VectorCopy(dest, self.moveinfo.end_origin); Move_Calc(self, dest, GameFunc.train_wait); self.spawnflags |= GameFunc.TRAIN_START_ON; } static void SP_func_train(edict_t self) { self.movetype = Defines.MOVETYPE_PUSH; Math3D.VectorClear(self.s.angles); self.blocked = GameFunc.train_blocked; if ((self.spawnflags & GameFunc.TRAIN_BLOCK_STOPS) != 0) self.dmg = 0; else { if (0 == self.dmg) self.dmg = 100; } self.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(self, self.model); if (GameBase.st.noise != null) self.moveinfo.sound_middle = GameBase.gi .soundindex(GameBase.st.noise); if (0 == self.speed) self.speed = 100; self.moveinfo.speed = self.speed; self.moveinfo.accel = self.moveinfo.decel = self.moveinfo.speed; self.use = GameFunc.train_use; GameBase.gi.linkentity(self); if (self.target != null) { // start trains on the second frame, to make sure their targets have // had // a chance to spawn self.nextthink = GameBase.level.time + Defines.FRAMETIME; self.think = GameFunc.func_train_find; } else { GameBase.gi.dprintf("func_train without a target at " + Lib.vtos(self.absmin) + "\n"); } } static void SP_func_timer(edict_t self) { if (0 == self.wait) self.wait = 1.0f; self.use = GameFunc.func_timer_use; self.think = GameFunc.func_timer_think; if (self.random >= self.wait) { self.random = self.wait - Defines.FRAMETIME; GameBase.gi.dprintf("func_timer at " + Lib.vtos(self.s.origin) + " has random >= wait\n"); } if ((self.spawnflags & 1) != 0) { self.nextthink = GameBase.level.time + 1.0f + GameBase.st.pausetime + self.delay + self.wait + Lib.crandom() * self.random; self.activator = self; } self.svflags = Defines.SVF_NOCLIENT; } /* * ========================================================= * * PLATS * * movement options: * * linear smooth start, hard stop smooth start, smooth stop * * start end acceleration speed deceleration begin sound end sound target * fired when reaching end wait at end * * object characteristics that use move segments * --------------------------------------------- movetype_push, or * movetype_stop action when touched action when blocked action when used * disabled? auto trigger spawning * * * ========================================================= */ public final static int PLAT_LOW_TRIGGER = 1; public final static int STATE_TOP = 0; public final static int STATE_BOTTOM = 1; public final static int STATE_UP = 2; public final static int STATE_DOWN = 3; public final static int DOOR_START_OPEN = 1; public final static int DOOR_REVERSE = 2; public final static int DOOR_CRUSHER = 4; public final static int DOOR_NOMONSTER = 8; public final static int DOOR_TOGGLE = 32; public final static int DOOR_X_AXIS = 64; public final static int DOOR_Y_AXIS = 128; // // Support routines for movement (changes in origin using velocity) // static EntThinkAdapter Move_Done = new EntThinkAdapter() { public boolean think(edict_t ent) { Math3D.VectorClear(ent.velocity); ent.moveinfo.endfunc.think(ent); return true; } }; static EntThinkAdapter Move_Final = new EntThinkAdapter() { public boolean think(edict_t ent) { if (ent.moveinfo.remaining_distance == 0) { Move_Done.think(ent); return true; } Math3D.VectorScale(ent.moveinfo.dir, ent.moveinfo.remaining_distance / Defines.FRAMETIME, ent.velocity); ent.think = Move_Done; ent.nextthink = GameBase.level.time + Defines.FRAMETIME; return true; } }; static EntThinkAdapter Move_Begin = new EntThinkAdapter() { public boolean think(edict_t ent) { float frames; if ((ent.moveinfo.speed * Defines.FRAMETIME) >= ent.moveinfo.remaining_distance) { Move_Final.think(ent); return true; } Math3D.VectorScale(ent.moveinfo.dir, ent.moveinfo.speed, ent.velocity); frames = (float) Math .floor((ent.moveinfo.remaining_distance / ent.moveinfo.speed) / Defines.FRAMETIME); ent.moveinfo.remaining_distance -= frames * ent.moveinfo.speed * Defines.FRAMETIME; ent.nextthink = GameBase.level.time + (frames * Defines.FRAMETIME); ent.think = Move_Final; return true; } }; // // Support routines for angular movement (changes in angle using avelocity) // static EntThinkAdapter AngleMove_Done = new EntThinkAdapter() { public boolean think(edict_t ent) { Math3D.VectorClear(ent.avelocity); ent.moveinfo.endfunc.think(ent); return true; } }; static EntThinkAdapter AngleMove_Final = new EntThinkAdapter() { public boolean think(edict_t ent) { float[] move = { 0, 0, 0 }; if (ent.moveinfo.state == STATE_UP) Math3D.VectorSubtract(ent.moveinfo.end_angles, ent.s.angles, move); else Math3D.VectorSubtract(ent.moveinfo.start_angles, ent.s.angles, move); if (Math3D.VectorCompare(move, Globals.vec3_origin) != 0) { AngleMove_Done.think(ent); return true; } Math3D.VectorScale(move, 1.0f / Defines.FRAMETIME, ent.avelocity); ent.think = AngleMove_Done; ent.nextthink = GameBase.level.time + Defines.FRAMETIME; return true; } }; static EntThinkAdapter AngleMove_Begin = new EntThinkAdapter() { public boolean think(edict_t ent) { float[] destdelta = { 0, 0, 0 }; float len; float traveltime; float frames; // set destdelta to the vector needed to move if (ent.moveinfo.state == STATE_UP) Math3D.VectorSubtract(ent.moveinfo.end_angles, ent.s.angles, destdelta); else Math3D.VectorSubtract(ent.moveinfo.start_angles, ent.s.angles, destdelta); // calculate length of vector len = Math3D.VectorLength(destdelta); // divide by speed to get time to reach dest traveltime = len / ent.moveinfo.speed; if (traveltime < Defines.FRAMETIME) { AngleMove_Final.think(ent); return true; } frames = (float) (Math.floor(traveltime / Defines.FRAMETIME)); // scale the destdelta vector by the time spent traveling to get // velocity Math3D.VectorScale(destdelta, 1.0f / traveltime, ent.avelocity); // set nextthink to trigger a think when dest is reached ent.nextthink = GameBase.level.time + frames * Defines.FRAMETIME; ent.think = AngleMove_Final; return true; } }; static EntThinkAdapter Think_AccelMove = new EntThinkAdapter() { public boolean think(edict_t ent) { ent.moveinfo.remaining_distance -= ent.moveinfo.current_speed; if (ent.moveinfo.current_speed == 0) // starting or blocked GameFunc.plat_CalcAcceleratedMove(ent.moveinfo); GameFunc.plat_Accelerate(ent.moveinfo); // will the entire move complete on next frame? if (ent.moveinfo.remaining_distance <= ent.moveinfo.current_speed) { Move_Final.think(ent); return true; } Math3D.VectorScale(ent.moveinfo.dir, ent.moveinfo.current_speed * 10, ent.velocity); ent.nextthink = GameBase.level.time + Defines.FRAMETIME; ent.think = Think_AccelMove; return true; } }; static EntThinkAdapter plat_hit_top = new EntThinkAdapter() { public boolean think(edict_t ent) { if (0 == (ent.flags & Defines.FL_TEAMSLAVE)) { if (ent.moveinfo.sound_end != 0) GameBase.gi.sound(ent, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, ent.moveinfo.sound_end, 1, Defines.ATTN_STATIC, 0); ent.s.sound = 0; } ent.moveinfo.state = STATE_TOP; ent.think = plat_go_down; ent.nextthink = GameBase.level.time + 3; return true; } }; static EntThinkAdapter plat_hit_bottom = new EntThinkAdapter() { public boolean think(edict_t ent) { if (0 == (ent.flags & Defines.FL_TEAMSLAVE)) { if (ent.moveinfo.sound_end != 0) GameBase.gi.sound(ent, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, ent.moveinfo.sound_end, 1, Defines.ATTN_STATIC, 0); ent.s.sound = 0; } ent.moveinfo.state = STATE_BOTTOM; return true; } }; static EntThinkAdapter plat_go_down = new EntThinkAdapter() { public boolean think(edict_t ent) { if (0 == (ent.flags & Defines.FL_TEAMSLAVE)) { if (ent.moveinfo.sound_start != 0) GameBase.gi.sound(ent, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, ent.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); ent.s.sound = ent.moveinfo.sound_middle; } ent.moveinfo.state = STATE_DOWN; GameFunc.Move_Calc(ent, ent.moveinfo.end_origin, plat_hit_bottom); return true; } }; static EntBlockedAdapter plat_blocked = new EntBlockedAdapter() { public void blocked(edict_t self, edict_t other) { if (0 == (other.svflags & Defines.SVF_MONSTER) && (null == other.client)) { // give it a chance to go away on it's own terms (like gibs) GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, 100000, 1, 0, Defines.MOD_CRUSH); // if it's still there, nuke it if (other != null) GameAI.BecomeExplosion1(other); return; } GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); if (self.moveinfo.state == STATE_UP) plat_go_down.think(self); else if (self.moveinfo.state == STATE_DOWN) GameFunc.plat_go_up(self); } }; static EntUseAdapter Use_Plat = new EntUseAdapter() { public void use(edict_t ent, edict_t other, edict_t activator) { if (ent.think != null) return; // already down plat_go_down.think(ent); } }; static EntTouchAdapter Touch_Plat_Center = new EntTouchAdapter() { public void touch(edict_t ent, edict_t other, cplane_t plane, csurface_t surf) { if (other.client == null) return; if (other.health <= 0) return; ent = ent.enemy; // now point at the plat, not the trigger if (ent.moveinfo.state == STATE_BOTTOM) GameFunc.plat_go_up(ent); else if (ent.moveinfo.state == STATE_TOP) { ent.nextthink = GameBase.level.time + 1; // the player is still // on the plat, so // delay going down } } }; // ==================================================================== /* * QUAKED func_rotating (0 .5 .8) ? START_ON REVERSE X_AXIS Y_AXIS * TOUCH_PAIN STOP ANIMATED ANIMATED_FAST You need to have an origin brush * as part of this entity. The center of that brush will be the point around * which it is rotated. It will rotate around the Z axis by default. You can * check either the X_AXIS or Y_AXIS box to change that. * * "speed" determines how fast it moves; default value is 100. "dmg" damage * to inflict when blocked (2 default) * * REVERSE will cause the it to rotate in the opposite direction. STOP mean * it will stop moving instead of pushing entities */ static EntBlockedAdapter rotating_blocked = new EntBlockedAdapter() { public void blocked(edict_t self, edict_t other) { GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); } }; static EntTouchAdapter rotating_touch = new EntTouchAdapter() { public void touch(edict_t self, edict_t other, cplane_t plane, csurface_t surf) { if (self.avelocity[0] != 0 || self.avelocity[1] != 0 || self.avelocity[2] != 0) GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); } }; static EntUseAdapter rotating_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { if (0 == Math3D.VectorCompare(self.avelocity, Globals.vec3_origin)) { self.s.sound = 0; Math3D.VectorClear(self.avelocity); self.touch = null; } else { self.s.sound = self.moveinfo.sound_middle; Math3D.VectorScale(self.movedir, self.speed, self.avelocity); if ((self.spawnflags & 16) != 0) self.touch = rotating_touch; } } }; static EntThinkAdapter SP_func_rotating = new EntThinkAdapter() { public boolean think(edict_t ent) { ent.solid = Defines.SOLID_BSP; if ((ent.spawnflags & 32) != 0) ent.movetype = Defines.MOVETYPE_STOP; else ent.movetype = Defines.MOVETYPE_PUSH; // set the axis of rotation Math3D.VectorClear(ent.movedir); if ((ent.spawnflags & 4) != 0) ent.movedir[2] = 1.0f; else if ((ent.spawnflags & 8) != 0) ent.movedir[0] = 1.0f; else // Z_AXIS ent.movedir[1] = 1.0f; // check for reverse rotation if ((ent.spawnflags & 2) != 0) Math3D.VectorNegate(ent.movedir, ent.movedir); if (0 == ent.speed) ent.speed = 100; if (0 == ent.dmg) ent.dmg = 2; // ent.moveinfo.sound_middle = "doors/hydro1.wav"; ent.use = rotating_use; if (ent.dmg != 0) ent.blocked = rotating_blocked; if ((ent.spawnflags & 1) != 0) ent.use.use(ent, null, null); if ((ent.spawnflags & 64) != 0) ent.s.effects |= Defines.EF_ANIM_ALL; if ((ent.spawnflags & 128) != 0) ent.s.effects |= Defines.EF_ANIM_ALLFAST; GameBase.gi.setmodel(ent, ent.model); GameBase.gi.linkentity(ent); return true; } }; /* * ====================================================================== * * BUTTONS * * ====================================================================== */ /* * QUAKED func_button (0 .5 .8) ? When a button is touched, it moves some * distance in the direction of it's angle, triggers all of it's targets, * waits some time, then returns to it's original position where it can be * triggered again. * * "angle" determines the opening direction "target" all entities with a * matching targetname will be used "speed" override the default 40 speed * "wait" override the default 1 second wait (-1 = never return) "lip" * override the default 4 pixel lip remaining at end of move "health" if * set, the button must be killed instead of touched "sounds" 1) silent 2) * steam metal 3) wooden clunk 4) metallic click 5) in-out */ static EntThinkAdapter button_done = new EntThinkAdapter() { public boolean think(edict_t self) { self.moveinfo.state = STATE_BOTTOM; self.s.effects &= ~Defines.EF_ANIM23; self.s.effects |= Defines.EF_ANIM01; return true; } }; static EntThinkAdapter button_return = new EntThinkAdapter() { public boolean think(edict_t self) { self.moveinfo.state = STATE_DOWN; GameFunc.Move_Calc(self, self.moveinfo.start_origin, button_done); self.s.frame = 0; if (self.health != 0) self.takedamage = Defines.DAMAGE_YES; return true; } }; static EntThinkAdapter button_wait = new EntThinkAdapter() { public boolean think(edict_t self) { self.moveinfo.state = STATE_TOP; self.s.effects &= ~Defines.EF_ANIM01; self.s.effects |= Defines.EF_ANIM23; GameUtil.G_UseTargets(self, self.activator); self.s.frame = 1; if (self.moveinfo.wait >= 0) { self.nextthink = GameBase.level.time + self.moveinfo.wait; self.think = button_return; } return true; } }; static EntThinkAdapter button_fire = new EntThinkAdapter() { public boolean think(edict_t self) { if (self.moveinfo.state == STATE_UP || self.moveinfo.state == STATE_TOP) return true; self.moveinfo.state = STATE_UP; if (self.moveinfo.sound_start != 0 && 0 == (self.flags & Defines.FL_TEAMSLAVE)) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); GameFunc.Move_Calc(self, self.moveinfo.end_origin, button_wait); return true; } }; static EntUseAdapter button_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { self.activator = activator; button_fire.think(self); return; } }; static EntTouchAdapter button_touch = new EntTouchAdapter() { public void touch(edict_t self, edict_t other, cplane_t plane, csurface_t surf) { if (null == other.client) return; if (other.health <= 0) return; self.activator = other; button_fire.think(self); } }; static EntDieAdapter button_killed = new EntDieAdapter() { public void die(edict_t self, edict_t inflictor, edict_t attacker, int damage, float[] point) { self.activator = attacker; self.health = self.max_health; self.takedamage = Defines.DAMAGE_NO; button_fire.think(self); } }; static EntThinkAdapter SP_func_button = new EntThinkAdapter() { public boolean think(edict_t ent) { float[] abs_movedir = { 0, 0, 0 }; float dist; GameBase.G_SetMovedir(ent.s.angles, ent.movedir); ent.movetype = Defines.MOVETYPE_STOP; ent.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(ent, ent.model); if (ent.sounds != 1) ent.moveinfo.sound_start = GameBase.gi .soundindex("switches/butn2.wav"); if (0 == ent.speed) ent.speed = 40; if (0 == ent.accel) ent.accel = ent.speed; if (0 == ent.decel) ent.decel = ent.speed; if (0 == ent.wait) ent.wait = 3; if (0 == GameBase.st.lip) GameBase.st.lip = 4; Math3D.VectorCopy(ent.s.origin, ent.pos1); abs_movedir[0] = (float) Math.abs(ent.movedir[0]); abs_movedir[1] = (float) Math.abs(ent.movedir[1]); abs_movedir[2] = (float) Math.abs(ent.movedir[2]); dist = abs_movedir[0] * ent.size[0] + abs_movedir[1] * ent.size[1] + abs_movedir[2] * ent.size[2] - GameBase.st.lip; Math3D.VectorMA(ent.pos1, dist, ent.movedir, ent.pos2); ent.use = button_use; ent.s.effects |= Defines.EF_ANIM01; if (ent.health != 0) { ent.max_health = ent.health; ent.die = button_killed; ent.takedamage = Defines.DAMAGE_YES; } else if (null == ent.targetname) ent.touch = button_touch; ent.moveinfo.state = STATE_BOTTOM; ent.moveinfo.speed = ent.speed; ent.moveinfo.accel = ent.accel; ent.moveinfo.decel = ent.decel; ent.moveinfo.wait = ent.wait; Math3D.VectorCopy(ent.pos1, ent.moveinfo.start_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.start_angles); Math3D.VectorCopy(ent.pos2, ent.moveinfo.end_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.end_angles); GameBase.gi.linkentity(ent); return true; } }; static EntThinkAdapter door_hit_top = new EntThinkAdapter() { public boolean think(edict_t self) { if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_end != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_end, 1, Defines.ATTN_STATIC, 0); self.s.sound = 0; } self.moveinfo.state = STATE_TOP; if ((self.spawnflags & DOOR_TOGGLE) != 0) return true; if (self.moveinfo.wait >= 0) { self.think = door_go_down; self.nextthink = GameBase.level.time + self.moveinfo.wait; } return true; } }; static EntThinkAdapter door_hit_bottom = new EntThinkAdapter() { public boolean think(edict_t self) { if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_end != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_end, 1, Defines.ATTN_STATIC, 0); self.s.sound = 0; } self.moveinfo.state = STATE_BOTTOM; GameFunc.door_use_areaportals(self, false); return true; } }; static EntThinkAdapter door_go_down = new EntThinkAdapter() { public boolean think(edict_t self) { if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_start != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); self.s.sound = self.moveinfo.sound_middle; } if (self.max_health != 0) { self.takedamage = Defines.DAMAGE_YES; self.health = self.max_health; } self.moveinfo.state = STATE_DOWN; if (Lib.strcmp(self.classname, "func_door") == 0) GameFunc.Move_Calc(self, self.moveinfo.start_origin, door_hit_bottom); else if (Lib.strcmp(self.classname, "func_door_rotating") == 0) GameFunc.AngleMove_Calc(self, door_hit_bottom); return true; } }; static EntUseAdapter door_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { edict_t ent; if ((self.flags & Defines.FL_TEAMSLAVE) != 0) return; if ((self.spawnflags & DOOR_TOGGLE) != 0) { if (self.moveinfo.state == STATE_UP || self.moveinfo.state == STATE_TOP) { // trigger all paired doors for (ent = self; ent != null; ent = ent.teamchain) { ent.message = null; ent.touch = null; door_go_down.think(ent); } return; } } // trigger all paired doors for (ent = self; ent != null; ent = ent.teamchain) { ent.message = null; ent.touch = null; GameFunc.door_go_up(ent, activator); } } }; static EntTouchAdapter Touch_DoorTrigger = new EntTouchAdapter() { public void touch(edict_t self, edict_t other, cplane_t plane, csurface_t surf) { if (other.health <= 0) return; if (0 == (other.svflags & Defines.SVF_MONSTER) && (null == other.client)) return; if (0 != (self.owner.spawnflags & DOOR_NOMONSTER) && 0 != (other.svflags & Defines.SVF_MONSTER)) return; if (GameBase.level.time < self.touch_debounce_time) return; self.touch_debounce_time = GameBase.level.time + 1.0f; door_use.use(self.owner, other, other); } }; static EntThinkAdapter Think_CalcMoveSpeed = new EntThinkAdapter() { public boolean think(edict_t self) { edict_t ent; float min; float time; float newspeed; float ratio; float dist; if ((self.flags & Defines.FL_TEAMSLAVE) != 0) return true; // only the team master does this // find the smallest distance any member of the team will be moving min = Math.abs(self.moveinfo.distance); for (ent = self.teamchain; ent != null; ent = ent.teamchain) { dist = Math.abs(ent.moveinfo.distance); if (dist < min) min = dist; } time = min / self.moveinfo.speed; // adjust speeds so they will all complete at the same time for (ent = self; ent != null; ent = ent.teamchain) { newspeed = Math.abs(ent.moveinfo.distance) / time; ratio = newspeed / ent.moveinfo.speed; if (ent.moveinfo.accel == ent.moveinfo.speed) ent.moveinfo.accel = newspeed; else ent.moveinfo.accel *= ratio; if (ent.moveinfo.decel == ent.moveinfo.speed) ent.moveinfo.decel = newspeed; else ent.moveinfo.decel *= ratio; ent.moveinfo.speed = newspeed; } return true; } }; static EntThinkAdapter Think_SpawnDoorTrigger = new EntThinkAdapter() { public boolean think(edict_t ent) { edict_t other; float[] mins = { 0, 0, 0 }, maxs = { 0, 0, 0 }; if ((ent.flags & Defines.FL_TEAMSLAVE) != 0) return true; // only the team leader spawns a trigger Math3D.VectorCopy(ent.absmin, mins); Math3D.VectorCopy(ent.absmax, maxs); for (other = ent.teamchain; other != null; other = other.teamchain) { GameBase.AddPointToBounds(other.absmin, mins, maxs); GameBase.AddPointToBounds(other.absmax, mins, maxs); } // expand mins[0] -= 60; mins[1] -= 60; maxs[0] += 60; maxs[1] += 60; other = GameUtil.G_Spawn(); Math3D.VectorCopy(mins, other.mins); Math3D.VectorCopy(maxs, other.maxs); other.owner = ent; other.solid = Defines.SOLID_TRIGGER; other.movetype = Defines.MOVETYPE_NONE; other.touch = Touch_DoorTrigger; GameBase.gi.linkentity(other); if ((ent.spawnflags & DOOR_START_OPEN) != 0) GameFunc.door_use_areaportals(ent, true); Think_CalcMoveSpeed.think(ent); return true; } }; static EntBlockedAdapter door_blocked = new EntBlockedAdapter() { public void blocked(edict_t self, edict_t other) { edict_t ent; if (0 == (other.svflags & Defines.SVF_MONSTER) && (null == other.client)) { // give it a chance to go away on it's own terms (like gibs) GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, 100000, 1, 0, Defines.MOD_CRUSH); // if it's still there, nuke it if (other != null) GameAI.BecomeExplosion1(other); return; } GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); if ((self.spawnflags & DOOR_CRUSHER) != 0) return; // if a door has a negative wait, it would never come back if // blocked, // so let it just squash the object to death real fast if (self.moveinfo.wait >= 0) { if (self.moveinfo.state == STATE_DOWN) { for (ent = self.teammaster; ent != null; ent = ent.teamchain) GameFunc.door_go_up(ent, ent.activator); } else { for (ent = self.teammaster; ent != null; ent = ent.teamchain) door_go_down.think(ent); } } } }; static EntDieAdapter door_killed = new EntDieAdapter() { public void die(edict_t self, edict_t inflictor, edict_t attacker, int damage, float[] point) { edict_t ent; for (ent = self.teammaster; ent != null; ent = ent.teamchain) { ent.health = ent.max_health; ent.takedamage = Defines.DAMAGE_NO; } door_use.use(self.teammaster, attacker, attacker); } }; static EntTouchAdapter door_touch = new EntTouchAdapter() { public void touch(edict_t self, edict_t other, cplane_t plane, csurface_t surf) { if (null == other.client) return; if (GameBase.level.time < self.touch_debounce_time) return; self.touch_debounce_time = GameBase.level.time + 5.0f; GameBase.gi.centerprintf(other, self.message); GameBase.gi.sound(other, Defines.CHAN_AUTO, GameBase.gi .soundindex("misc/talk1.wav"), 1, Defines.ATTN_NORM, 0); } }; static EntThinkAdapter SP_func_door = new EntThinkAdapter() { public boolean think(edict_t ent) { float[] abs_movedir = { 0, 0, 0 }; if (ent.sounds != 1) { ent.moveinfo.sound_start = GameBase.gi .soundindex("doors/dr1_strt.wav"); ent.moveinfo.sound_middle = GameBase.gi .soundindex("doors/dr1_mid.wav"); ent.moveinfo.sound_end = GameBase.gi .soundindex("doors/dr1_end.wav"); } GameBase.G_SetMovedir(ent.s.angles, ent.movedir); ent.movetype = Defines.MOVETYPE_PUSH; ent.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(ent, ent.model); ent.blocked = door_blocked; ent.use = door_use; if (0 == ent.speed) ent.speed = 100; if (GameBase.deathmatch.value != 0) ent.speed *= 2; if (0 == ent.accel) ent.accel = ent.speed; if (0 == ent.decel) ent.decel = ent.speed; if (0 == ent.wait) ent.wait = 3; if (0 == GameBase.st.lip) GameBase.st.lip = 8; if (0 == ent.dmg) ent.dmg = 2; // calculate second position Math3D.VectorCopy(ent.s.origin, ent.pos1); abs_movedir[0] = Math.abs(ent.movedir[0]); abs_movedir[1] = Math.abs(ent.movedir[1]); abs_movedir[2] = Math.abs(ent.movedir[2]); ent.moveinfo.distance = abs_movedir[0] * ent.size[0] + abs_movedir[1] * ent.size[1] + abs_movedir[2] * ent.size[2] - GameBase.st.lip; Math3D.VectorMA(ent.pos1, ent.moveinfo.distance, ent.movedir, ent.pos2); // if it starts open, switch the positions if ((ent.spawnflags & DOOR_START_OPEN) != 0) { Math3D.VectorCopy(ent.pos2, ent.s.origin); Math3D.VectorCopy(ent.pos1, ent.pos2); Math3D.VectorCopy(ent.s.origin, ent.pos1); } ent.moveinfo.state = STATE_BOTTOM; if (ent.health != 0) { ent.takedamage = Defines.DAMAGE_YES; ent.die = door_killed; ent.max_health = ent.health; } else if (ent.targetname != null && ent.message != null) { GameBase.gi.soundindex("misc/talk.wav"); ent.touch = door_touch; } ent.moveinfo.speed = ent.speed; ent.moveinfo.accel = ent.accel; ent.moveinfo.decel = ent.decel; ent.moveinfo.wait = ent.wait; Math3D.VectorCopy(ent.pos1, ent.moveinfo.start_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.start_angles); Math3D.VectorCopy(ent.pos2, ent.moveinfo.end_origin); Math3D.VectorCopy(ent.s.angles, ent.moveinfo.end_angles); if ((ent.spawnflags & 16) != 0) ent.s.effects |= Defines.EF_ANIM_ALL; if ((ent.spawnflags & 64) != 0) ent.s.effects |= Defines.EF_ANIM_ALLFAST; // to simplify logic elsewhere, make non-teamed doors into a team of // one if (null == ent.team) ent.teammaster = ent; GameBase.gi.linkentity(ent); ent.nextthink = GameBase.level.time + Defines.FRAMETIME; if (ent.health != 0 || ent.targetname != null) ent.think = Think_CalcMoveSpeed; else ent.think = Think_SpawnDoorTrigger; return true; } }; /* * QUAKED func_door_rotating (0 .5 .8) ? START_OPEN REVERSE CRUSHER * NOMONSTER ANIMATED TOGGLE X_AXIS Y_AXIS TOGGLE causes the door to wait in * both the start and end states for a trigger event. * * START_OPEN the door to moves to its destination when spawned, and operate * in reverse. It is used to temporarily or permanently close off an area * when triggered (not useful for touch or takedamage doors). NOMONSTER * monsters will not trigger this door * * You need to have an origin brush as part of this entity. The center of * that brush will be the point around which it is rotated. It will rotate * around the Z axis by default. You can check either the X_AXIS or Y_AXIS * box to change that. * * "distance" is how many degrees the door will be rotated. "speed" * determines how fast the door moves; default value is 100. * * REVERSE will cause the door to rotate in the opposite direction. * * "message" is printed when the door is touched if it is a trigger door and * it hasn't been fired yet "angle" determines the opening direction * "targetname" if set, no touch field will be spawned and a remote button * or trigger field activates the door. "health" if set, door must be shot * open "speed" movement speed (100 default) "wait" wait before returning (3 * default, -1 = never return) "dmg" damage to inflict when blocked (2 * default) "sounds" 1) silent 2) light 3) medium 4) heavy */ static EntThinkAdapter SP_func_door_rotating = new EntThinkAdapter() { public boolean think(edict_t ent) { Math3D.VectorClear(ent.s.angles); // set the axis of rotation Math3D.VectorClear(ent.movedir); if ((ent.spawnflags & DOOR_X_AXIS) != 0) ent.movedir[2] = 1.0f; else if ((ent.spawnflags & DOOR_Y_AXIS) != 0) ent.movedir[0] = 1.0f; else // Z_AXIS ent.movedir[1] = 1.0f; // check for reverse rotation if ((ent.spawnflags & DOOR_REVERSE) != 0) Math3D.VectorNegate(ent.movedir, ent.movedir); if (0 == GameBase.st.distance) { GameBase.gi.dprintf(ent.classname + " at " + Lib.vtos(ent.s.origin) + " with no distance set\n"); GameBase.st.distance = 90; } Math3D.VectorCopy(ent.s.angles, ent.pos1); Math3D.VectorMA(ent.s.angles, GameBase.st.distance, ent.movedir, ent.pos2); ent.moveinfo.distance = GameBase.st.distance; ent.movetype = Defines.MOVETYPE_PUSH; ent.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(ent, ent.model); ent.blocked = door_blocked; ent.use = door_use; if (0 == ent.speed) ent.speed = 100; if (0 == ent.accel) ent.accel = ent.speed; if (0 == ent.decel) ent.decel = ent.speed; if (0 == ent.wait) ent.wait = 3; if (0 == ent.dmg) ent.dmg = 2; if (ent.sounds != 1) { ent.moveinfo.sound_start = GameBase.gi .soundindex("doors/dr1_strt.wav"); ent.moveinfo.sound_middle = GameBase.gi .soundindex("doors/dr1_mid.wav"); ent.moveinfo.sound_end = GameBase.gi .soundindex("doors/dr1_end.wav"); } // if it starts open, switch the positions if ((ent.spawnflags & DOOR_START_OPEN) != 0) { Math3D.VectorCopy(ent.pos2, ent.s.angles); Math3D.VectorCopy(ent.pos1, ent.pos2); Math3D.VectorCopy(ent.s.angles, ent.pos1); Math3D.VectorNegate(ent.movedir, ent.movedir); } if (ent.health != 0) { ent.takedamage = Defines.DAMAGE_YES; ent.die = door_killed; ent.max_health = ent.health; } if (ent.targetname != null && ent.message != null) { GameBase.gi.soundindex("misc/talk.wav"); ent.touch = door_touch; } ent.moveinfo.state = STATE_BOTTOM; ent.moveinfo.speed = ent.speed; ent.moveinfo.accel = ent.accel; ent.moveinfo.decel = ent.decel; ent.moveinfo.wait = ent.wait; Math3D.VectorCopy(ent.s.origin, ent.moveinfo.start_origin); Math3D.VectorCopy(ent.pos1, ent.moveinfo.start_angles); Math3D.VectorCopy(ent.s.origin, ent.moveinfo.end_origin); Math3D.VectorCopy(ent.pos2, ent.moveinfo.end_angles); if ((ent.spawnflags & 16) != 0) ent.s.effects |= Defines.EF_ANIM_ALL; // to simplify logic elsewhere, make non-teamed doors into a team of // one if (ent.team == null) ent.teammaster = ent; GameBase.gi.linkentity(ent); ent.nextthink = GameBase.level.time + Defines.FRAMETIME; if (ent.health != 0 || ent.targetname != null) ent.think = Think_CalcMoveSpeed; else ent.think = Think_SpawnDoorTrigger; return true; } }; public final static int TRAIN_START_ON = 1; public final static int TRAIN_TOGGLE = 2; public final static int TRAIN_BLOCK_STOPS = 4; /* * QUAKED func_train (0 .5 .8) ? START_ON TOGGLE BLOCK_STOPS Trains are * moving platforms that players can ride. The targets origin specifies the * min point of the train at each corner. The train spawns at the first * target it is pointing at. If the train is the target of a button or * trigger, it will not begin moving until activated. speed default 100 dmg * default 2 noise looping sound to play when the train is in motion * */ static EntBlockedAdapter train_blocked = new EntBlockedAdapter() { public void blocked(edict_t self, edict_t other) { if (0 == (other.svflags & Defines.SVF_MONSTER) && (null == other.client)) { // give it a chance to go away on it's own terms (like gibs) GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, 100000, 1, 0, Defines.MOD_CRUSH); // if it's still there, nuke it if (other != null) GameAI.BecomeExplosion1(other); return; } if (GameBase.level.time < self.touch_debounce_time) return; if (self.dmg == 0) return; self.touch_debounce_time = GameBase.level.time + 0.5f; GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); } }; static EntThinkAdapter train_wait = new EntThinkAdapter() { public boolean think(edict_t self) { if (self.target_ent.pathtarget != null) { String savetarget; edict_t ent; ent = self.target_ent; savetarget = ent.target; ent.target = ent.pathtarget; GameUtil.G_UseTargets(ent, self.activator); ent.target = savetarget; // make sure we didn't get killed by a killtarget if (!self.inuse) return true; } if (self.moveinfo.wait != 0) { if (self.moveinfo.wait > 0) { self.nextthink = GameBase.level.time + self.moveinfo.wait; self.think = train_next; } else if (0 != (self.spawnflags & TRAIN_TOGGLE)) // && wait < 0 { train_next.think(self); self.spawnflags &= ~TRAIN_START_ON; Math3D.VectorClear(self.velocity); self.nextthink = 0; } if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_end != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_end, 1, Defines.ATTN_STATIC, 0); self.s.sound = 0; } } else { train_next.think(self); } return true; } }; static EntThinkAdapter train_next = new EntThinkAdapter() { public boolean think(edict_t self) { edict_t ent = null; float[] dest = { 0, 0, 0 }; boolean first; first = true; boolean dogoto = true; while (dogoto) { if (null == self.target) { // gi.dprintf ("train_next: no next target\n"); return true; } ent = GameBase.G_PickTarget(self.target); if (null == ent) { GameBase.gi.dprintf("train_next: bad target " + self.target + "\n"); return true; } self.target = ent.target; dogoto = false; // check for a teleport path_corner if ((ent.spawnflags & 1) != 0) { if (!first) { GameBase.gi .dprintf("connected teleport path_corners, see " + ent.classname + " at " + Lib.vtos(ent.s.origin) + "\n"); return true; } first = false; Math3D.VectorSubtract(ent.s.origin, self.mins, self.s.origin); Math3D.VectorCopy(self.s.origin, self.s.old_origin); self.s.event = Defines.EV_OTHER_TELEPORT; GameBase.gi.linkentity(self); dogoto = true; } } self.moveinfo.wait = ent.wait; self.target_ent = ent; if (0 == (self.flags & Defines.FL_TEAMSLAVE)) { if (self.moveinfo.sound_start != 0) GameBase.gi.sound(self, Defines.CHAN_NO_PHS_ADD + Defines.CHAN_VOICE, self.moveinfo.sound_start, 1, Defines.ATTN_STATIC, 0); self.s.sound = self.moveinfo.sound_middle; } Math3D.VectorSubtract(ent.s.origin, self.mins, dest); self.moveinfo.state = STATE_TOP; Math3D.VectorCopy(self.s.origin, self.moveinfo.start_origin); Math3D.VectorCopy(dest, self.moveinfo.end_origin); GameFunc.Move_Calc(self, dest, train_wait); self.spawnflags |= TRAIN_START_ON; return true; } }; public static EntThinkAdapter func_train_find = new EntThinkAdapter() { public boolean think(edict_t self) { edict_t ent; if (null == self.target) { GameBase.gi.dprintf("train_find: no target\n"); return true; } ent = GameBase.G_PickTarget(self.target); if (null == ent) { GameBase.gi.dprintf("train_find: target " + self.target + " not found\n"); return true; } self.target = ent.target; Math3D.VectorSubtract(ent.s.origin, self.mins, self.s.origin); GameBase.gi.linkentity(self); // if not triggered, start immediately if (null == self.targetname) self.spawnflags |= TRAIN_START_ON; if ((self.spawnflags & TRAIN_START_ON) != 0) { self.nextthink = GameBase.level.time + Defines.FRAMETIME; self.think = train_next; self.activator = self; } return true; } }; public static EntUseAdapter train_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { self.activator = activator; if ((self.spawnflags & TRAIN_START_ON) != 0) { if (0 == (self.spawnflags & TRAIN_TOGGLE)) return; self.spawnflags &= ~TRAIN_START_ON; Math3D.VectorClear(self.velocity); self.nextthink = 0; } else { if (self.target_ent != null) GameFunc.train_resume(self); else train_next.think(self); } } }; /* * QUAKED trigger_elevator (0.3 0.1 0.6) (-8 -8 -8) (8 8 8) */ static EntUseAdapter trigger_elevator_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { edict_t target; if (0 != self.movetarget.nextthink) { // gi.dprintf("elevator busy\n"); return; } if (null == other.pathtarget) { GameBase.gi.dprintf("elevator used with no pathtarget\n"); return; } target = GameBase.G_PickTarget(other.pathtarget); if (null == target) { GameBase.gi.dprintf("elevator used with bad pathtarget: " + other.pathtarget + "\n"); return; } self.movetarget.target_ent = target; GameFunc.train_resume(self.movetarget); } }; static EntThinkAdapter trigger_elevator_init = new EntThinkAdapter() { public boolean think(edict_t self) { if (null == self.target) { GameBase.gi.dprintf("trigger_elevator has no target\n"); return true; } self.movetarget = GameBase.G_PickTarget(self.target); if (null == self.movetarget) { GameBase.gi.dprintf("trigger_elevator unable to find target " + self.target + "\n"); return true; } if (Lib.strcmp(self.movetarget.classname, "func_train") != 0) { GameBase.gi.dprintf("trigger_elevator target " + self.target + " is not a train\n"); return true; } self.use = trigger_elevator_use; self.svflags = Defines.SVF_NOCLIENT; return true; } }; static EntThinkAdapter SP_trigger_elevator = new EntThinkAdapter() { public boolean think(edict_t self) { self.think = trigger_elevator_init; self.nextthink = GameBase.level.time + Defines.FRAMETIME; return true; } }; /* * QUAKED func_timer (0.3 0.1 0.6) (-8 -8 -8) (8 8 8) START_ON "wait" base * time between triggering all targets, default is 1 "random" wait variance, * default is 0 * * so, the basic time between firing is a random time between (wait - * random) and (wait + random) * * "delay" delay before first firing when turned on, default is 0 * * "pausetime" additional delay used only the very first time and only if * spawned with START_ON * * These can used but not touched. */ static EntThinkAdapter func_timer_think = new EntThinkAdapter() { public boolean think(edict_t self) { GameUtil.G_UseTargets(self, self.activator); self.nextthink = GameBase.level.time + self.wait + Lib.crandom() * self.random; return true; } }; static EntUseAdapter func_timer_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { self.activator = activator; // if on, turn it off if (self.nextthink != 0) { self.nextthink = 0; return; } // turn it on if (self.delay != 0) self.nextthink = GameBase.level.time + self.delay; else func_timer_think.think(self); } }; /* * QUAKED func_conveyor (0 .5 .8) ? START_ON TOGGLE Conveyors are stationary * brushes that move what's on them. The brush should be have a surface with * at least one current content enabled. speed default 100 */ static EntUseAdapter func_conveyor_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { if ((self.spawnflags & 1) != 0) { self.speed = 0; self.spawnflags &= ~1; } else { self.speed = self.count; self.spawnflags |= 1; } if (0 == (self.spawnflags & 2)) self.count = 0; } }; static EntThinkAdapter SP_func_conveyor = new EntThinkAdapter() { public boolean think(edict_t self) { if (0 == self.speed) self.speed = 100; if (0 == (self.spawnflags & 1)) { self.count = (int) self.speed; self.speed = 0; } self.use = func_conveyor_use; GameBase.gi.setmodel(self, self.model); self.solid = Defines.SOLID_BSP; GameBase.gi.linkentity(self); return true; } }; /* * QUAKED func_door_secret (0 .5 .8) ? always_shoot 1st_left 1st_down A * secret door. Slide back and then to the side. * * open_once doors never closes 1st_left 1st move is left of arrow 1st_down * 1st move is down from arrow always_shoot door is shootebale even if * targeted * * "angle" determines the direction "dmg" damage to inflic when blocked * (default 2) "wait" how long to hold in the open position (default 5, -1 * means hold) */ public final static int SECRET_ALWAYS_SHOOT = 1; public final static int SECRET_1ST_LEFT = 2; public final static int SECRET_1ST_DOWN = 4; static EntUseAdapter door_secret_use = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { // make sure we're not already moving if (0 == Math3D.VectorCompare(self.s.origin, Globals.vec3_origin)) return; GameFunc.Move_Calc(self, self.pos1, door_secret_move1); GameFunc.door_use_areaportals(self, true); } }; static EntThinkAdapter door_secret_move1 = new EntThinkAdapter() { public boolean think(edict_t self) { self.nextthink = GameBase.level.time + 1.0f; self.think = door_secret_move2; return true; } }; static EntThinkAdapter door_secret_move2 = new EntThinkAdapter() { public boolean think(edict_t self) { GameFunc.Move_Calc(self, self.pos2, door_secret_move3); return true; } }; static EntThinkAdapter door_secret_move3 = new EntThinkAdapter() { public boolean think(edict_t self) { if (self.wait == -1) return true; self.nextthink = GameBase.level.time + self.wait; self.think = door_secret_move4; return true; } }; static EntThinkAdapter door_secret_move4 = new EntThinkAdapter() { public boolean think(edict_t self) { GameFunc.Move_Calc(self, self.pos1, door_secret_move5); return true; } }; static EntThinkAdapter door_secret_move5 = new EntThinkAdapter() { public boolean think(edict_t self) { self.nextthink = GameBase.level.time + 1.0f; self.think = door_secret_move6; return true; } }; static EntThinkAdapter door_secret_move6 = new EntThinkAdapter() { public boolean think(edict_t self) { GameFunc.Move_Calc(self, Globals.vec3_origin, door_secret_done); return true; } }; static EntThinkAdapter door_secret_done = new EntThinkAdapter() { public boolean think(edict_t self) { if (null == (self.targetname) || 0 != (self.spawnflags & SECRET_ALWAYS_SHOOT)) { self.health = 0; self.takedamage = Defines.DAMAGE_YES; } GameFunc.door_use_areaportals(self, false); return true; } }; static EntBlockedAdapter door_secret_blocked = new EntBlockedAdapter() { public void blocked(edict_t self, edict_t other) { if (0 == (other.svflags & Defines.SVF_MONSTER) && (null == other.client)) { // give it a chance to go away on it's own terms (like gibs) GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, 100000, 1, 0, Defines.MOD_CRUSH); // if it's still there, nuke it if (other != null) GameAI.BecomeExplosion1(other); return; } if (GameBase.level.time < self.touch_debounce_time) return; self.touch_debounce_time = GameBase.level.time + 0.5f; GameUtil.T_Damage(other, self, self, Globals.vec3_origin, other.s.origin, Globals.vec3_origin, self.dmg, 1, 0, Defines.MOD_CRUSH); } }; static EntDieAdapter door_secret_die = new EntDieAdapter() { public void die(edict_t self, edict_t inflictor, edict_t attacker, int damage, float[] point) { self.takedamage = Defines.DAMAGE_NO; door_secret_use.use(self, attacker, attacker); } }; static EntThinkAdapter SP_func_door_secret = new EntThinkAdapter() { public boolean think(edict_t ent) { float[] forward = { 0, 0, 0 }, right = { 0, 0, 0 }, up = { 0, 0, 0 }; float side; float width; float length; ent.moveinfo.sound_start = GameBase.gi .soundindex("doors/dr1_strt.wav"); ent.moveinfo.sound_middle = GameBase.gi .soundindex("doors/dr1_mid.wav"); ent.moveinfo.sound_end = GameBase.gi .soundindex("doors/dr1_end.wav"); ent.movetype = Defines.MOVETYPE_PUSH; ent.solid = Defines.SOLID_BSP; GameBase.gi.setmodel(ent, ent.model); ent.blocked = door_secret_blocked; ent.use = door_secret_use; if (null == (ent.targetname) || 0 != (ent.spawnflags & SECRET_ALWAYS_SHOOT)) { ent.health = 0; ent.takedamage = Defines.DAMAGE_YES; ent.die = door_secret_die; } if (0 == ent.dmg) ent.dmg = 2; if (0 == ent.wait) ent.wait = 5; ent.moveinfo.accel = ent.moveinfo.decel = ent.moveinfo.speed = 50; // calculate positions Math3D.AngleVectors(ent.s.angles, forward, right, up); Math3D.VectorClear(ent.s.angles); side = 1.0f - (ent.spawnflags & SECRET_1ST_LEFT); if ((ent.spawnflags & SECRET_1ST_DOWN) != 0) width = Math.abs(Math3D.DotProduct(up, ent.size)); else width = Math.abs(Math3D.DotProduct(right, ent.size)); length = Math.abs(Math3D.DotProduct(forward, ent.size)); if ((ent.spawnflags & SECRET_1ST_DOWN) != 0) Math3D.VectorMA(ent.s.origin, -1 * width, up, ent.pos1); else Math3D.VectorMA(ent.s.origin, side * width, right, ent.pos1); Math3D.VectorMA(ent.pos1, length, forward, ent.pos2); if (ent.health != 0) { ent.takedamage = Defines.DAMAGE_YES; ent.die = door_killed; ent.max_health = ent.health; } else if (ent.targetname != null && ent.message != null) { GameBase.gi.soundindex("misc/talk.wav"); ent.touch = door_touch; } ent.classname = "func_door"; GameBase.gi.linkentity(ent); return true; } }; /* * QUAKED func_killbox (1 0 0) ? Kills everything inside when fired, * irrespective of protection. */ static EntUseAdapter use_killbox = new EntUseAdapter() { public void use(edict_t self, edict_t other, edict_t activator) { GameUtil.KillBox(self); } }; static EntThinkAdapter SP_func_killbox = new EntThinkAdapter() { public boolean think(edict_t ent) { GameBase.gi.setmodel(ent, ent.model); ent.use = use_killbox; ent.svflags = Defines.SVF_NOCLIENT; return true; } }; }