#include "g_local.h" /* ========================================================= 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 ========================================================= */ #define PLAT_LOW_TRIGGER 1 //==== //PGM #define PLAT2_TOGGLE 2 #define PLAT2_TOP 4 #define PLAT2_TRIGGER_TOP 8 #define PLAT2_TRIGGER_BOTTOM 16 #define PLAT2_BOX_LIFT 32 void plat2_spawn_danger_area (edict_t *ent); void plat2_kill_danger_area (edict_t *ent); void Move_Done (edict_t *ent); void door_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf); void train_children_think (edict_t *self); void train_blocked (edict_t *self, edict_t *other); void moving_speaker_think (edict_t *self); //PGM //==== #define STATE_TOP 0 #define STATE_BOTTOM 1 #define STATE_UP 2 #define STATE_DOWN 3 #define STATE_LOWEST 4 #define DOOR_START_OPEN 1 #define DOOR_REVERSE 2 #define DOOR_CRUSHER 4 #define DOOR_NOMONSTER 8 #define DOOR_TOGGLE 32 #define DOOR_X_AXIS 64 #define DOOR_Y_AXIS 128 // !easy 256 // !med 512 // !hard 1024 // !dm 2048 // !coop 4096 #define DOOR_INACTIVE 8192 // Zaero #define DOOR_ACTIVE_TOGGLE 1 #define DOOR_ACTIVE_ON 2 // end Zaero #define TRAIN_START_ON 1 #define TRAIN_TOGGLE 2 #define TRAIN_BLOCK_STOPS 4 // Knightmare added #define TRAIN_ROTATE 8 #define TRAIN_ROT_CONST 16 #define TRAIN_ANIM 32 #define TRAIN_ANIM_FAST 64 #define TRAIN_SMOOTH 128 #define TRAIN_SPLINE 8192 // // Support routines for movement (changes in origin using velocity) // // // Knightmare- smart functions for child movement // These constantly check the updated destination point // void Move_pos0_Final (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos0, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if (ent->moveinfo.remaining_distance == 0) { Move_Done (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.remaining_distance / FRAMETIME, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->think = Move_Done; ent->nextthink = level.time + FRAMETIME; } void Move_pos0_Think (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos0, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if ((ent->moveinfo.speed * FRAMETIME) >= ent->moveinfo.remaining_distance) { Move_pos0_Final (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.speed, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->nextthink = level.time + FRAMETIME; ent->think = Move_pos0_Think; } void Move_pos1_Final (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos1, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if (ent->moveinfo.remaining_distance == 0) { Move_Done (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.remaining_distance / FRAMETIME, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->think = Move_Done; ent->nextthink = level.time + FRAMETIME; } void Move_pos1_Think (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos1, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if ((ent->moveinfo.speed * FRAMETIME) >= ent->moveinfo.remaining_distance) { Move_pos1_Final (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.speed, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->nextthink = level.time + FRAMETIME; ent->think = Move_pos1_Think; } void Move_pos2_Final (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos2, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if (ent->moveinfo.remaining_distance == 0) { Move_Done (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.remaining_distance / FRAMETIME, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->think = Move_Done; ent->nextthink = level.time + FRAMETIME; } void Move_pos2_Think (edict_t *ent) { if (!ent->movewith_ent) return; VectorSubtract (ent->pos2, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); if ((ent->moveinfo.speed * FRAMETIME) >= ent->moveinfo.remaining_distance) { Move_pos2_Final (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.speed, ent->velocity); VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->nextthink = level.time + FRAMETIME; ent->think = Move_pos2_Think; } void Move_Done (edict_t *ent) { VectorClear (ent->velocity); if (ent->movewith && ent->movewith_ent) { VectorCopy (ent->movewith_ent->velocity, ent->velocity); } // call end function if (ent->moveinfo.endfunc) ent->moveinfo.endfunc (ent); } void Move_Final (edict_t *ent) { // if we're there, don't bother, we're done if (ent->moveinfo.remaining_distance == 0 || ent->smooth_movement) { Move_Done (ent); return; } // velocity = direction * distance * 10 // so we always reach the goal in 0.1 seconds VectorScale (ent->moveinfo.dir, ent->moveinfo.remaining_distance / FRAMETIME, ent->velocity); if (ent->movewith && ent->movewith_ent) { VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); } ent->think = Move_Done; ent->nextthink = level.time + FRAMETIME; } void Move_Begin (edict_t *ent) { float frames; // if we're within one timestamp of reaching the goal, go to Move_Final if ((ent->moveinfo.speed * FRAMETIME) >= ent->moveinfo.remaining_distance) { Move_Final (ent); return; } // set object's velocity to direction times speed VectorScale (ent->moveinfo.dir, ent->moveinfo.speed, ent->velocity); if (ent->movewith && ent->movewith_ent) { VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->moveinfo.remaining_distance -= ent->moveinfo.speed * FRAMETIME; ent->nextthink = level.time + FRAMETIME; ent->think = Move_Begin; } else { // if func_train is moving toward a moving path_corner if (!strcmp(ent->classname, "func_train") && ent->target_ent->movewith) { vec3_t dest; if (ent->spawnflags & TRAIN_ORIGIN) // Knightmare- func_train_origin support VectorCopy (ent->target_ent->s.origin, dest); else VectorSubtract (ent->target_ent->s.origin, ent->mins, dest); VectorCopy (ent->s.origin, ent->moveinfo.start_origin); VectorCopy (dest, ent->moveinfo.end_origin); if (ent->spawnflags & TRAIN_ROTATE && !(ent->target_ent->spawnflags & 2)) { vec3_t v, angles; if (ent->spawnflags & TRAIN_ORIGIN) { // Knightmare- func_train_origin support VectorSubtract(ent->target_ent->s.origin, ent->s.origin, v); } else { VectorAdd (ent->s.origin, ent->mins, v); VectorSubtract(ent->target_ent->s.origin, v, v); } vectoangles2(v,angles); ent->ideal_yaw = angles[YAW]; ent->ideal_pitch = angles[PITCH]; if (ent->ideal_pitch < 0) ent->ideal_pitch += 360; VectorClear (ent->movedir); ent->movedir[1] = 1.0; } VectorSubtract (dest, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); VectorScale (ent->moveinfo.dir, ent->moveinfo.speed, ent->velocity); ent->nextthink = level.time + FRAMETIME; ent->think = Move_Begin; } else { frames = floor((ent->moveinfo.remaining_distance / ent->moveinfo.speed) / FRAMETIME); ent->moveinfo.remaining_distance -= frames * ent->moveinfo.speed * FRAMETIME; ent->nextthink = level.time + (frames * FRAMETIME); ent->think = Move_Final; } } } void Think_AccelMove (edict_t *ent); void Move_Calc (edict_t *ent, vec3_t dest, void(*func)(edict_t*)) { VectorClear (ent->velocity); if (ent->movewith && ent->movewith_ent) { VectorCopy (ent->movewith_ent->velocity, ent->velocity); } VectorSubtract (dest, ent->s.origin, ent->moveinfo.dir); ent->moveinfo.remaining_distance = VectorNormalize (ent->moveinfo.dir); ent->moveinfo.endfunc = func; if (ent->movewith && ent->movewith_ent) { // Knightmare- use smart functions for child movement if (VectorCompare(dest, ent->pos0)) Move_pos0_Think(ent); else if (VectorCompare(dest, ent->pos1)) Move_pos1_Think(ent); else if (VectorCompare(dest, ent->pos2)) Move_pos2_Think(ent); else Move_Begin (ent); } else if (ent->moveinfo.speed == ent->moveinfo.accel && ent->moveinfo.speed == ent->moveinfo.decel) { // what does this mean? if (level.current_entity == ((ent->flags & FL_TEAMSLAVE) ? ent->teammaster : ent)) Move_Begin (ent); else if (ent->movewith) Move_Begin (ent); else // wait 0.1 second to start moving { ent->nextthink = level.time + FRAMETIME; ent->think = Move_Begin; } } else // accelerative { // clear speed ent->moveinfo.current_speed = 0; ent->think = Think_AccelMove; ent->nextthink = level.time + FRAMETIME; } } // // Knightmare- Support routines for bezier curve movement // void Spline_Calc (edict_t *train, vec3_t p1, vec3_t p2, vec3_t a1, vec3_t a2, float m, vec3_t p, vec3_t a) { /* p1, p2 = origins of path_* ents a1, a2 = angles from path_* ents m = decimal position along curve */ // Argh! - Bezier curve interpolation // the rest are computed locally vec3_t v1, v2; // direction vectors vec3_t c1, c2; // control-point coords vec3_t d, v; // temps float s; // vector scale // these greatly simplify/speed up equations // (make sure m is already assigned a value) float n = 1.0 - m; float m2 = m * m; float m3 = m2 * m; float n2 = n * n; float n3 = n2 * n; float mn2_3 = m * n2 * 3; float m2n_3 = m2 * n * 3; float mn_2 = m * n * 2; // Beziers need two control-points to define the shape of the curve. // These can be created from the available data. They are offset a // specific distance from the endpoints (path_*s), in the direction of // the endpoints' angle vectors (the 2nd control-point is offset in the // opposite direction). The distance used is a fraction of the total // distance between the endpoints, ensuring it's scaled proportionally. // The factor of 0.4 is simply based on experimentation, as a value that // yields nice even curves. AngleVectors (a1, v1, NULL, NULL); AngleVectors (a2, v2, NULL, NULL); VectorSubtract(p2, p1, d); s = sqrt(d[0] * d[0] + d[1] * d[1] + d[2] * d[2]) * 0.4; VectorMA (p1, s, v1, c1); VectorMA (p2, -s, v2, c2); // cubic interpolation of the four points // gives the position along the curve p[0] = n3 * p1[0] + mn2_3 * c1[0] + m2n_3 * c2[0] + m3 * p2[0]; p[1] = n3 * p1[1] + mn2_3 * c1[1] + m2n_3 * c2[1] + m3 * p2[1]; p[2] = n3 * p1[2] + mn2_3 * c1[2] + m2n_3 * c2[2] + m3 * p2[2]; // should be optional: // first derivative of bezier formula provides direction vector // along the curve (equation simplified in terms of m & n) v[0] = (n2 * p1[0] - (n2 - mn_2) * c1[0] - (mn_2 - m2) * c2[0] - m2 * p2[0]) / -s; v[1] = (n2 * p1[1] - (n2 - mn_2) * c1[1] - (mn_2 - m2) * c2[1] - m2 * p2[1]) / -s; v[2] = (n2 * p1[2] - (n2 - mn_2) * c1[2] - (mn_2 - m2) * c2[2] - m2 * p2[2]) / -s; vectoangles(v, a); if (train->roll_speed > 0) a[ROLL] = a1[ROLL] + m*(a2[ROLL] - a1[ROLL]); } // David Hyde's Spline support function void train_wait (edict_t *self); void Train_Move_Spline (edict_t *self) { edict_t *train; vec3_t p; vec3_t a; train = self->enemy; if (!train || !train->inuse) return; // Knightmare- check for killtargeted path_corners if ((!train->from) || (!train->from->inuse) || (!train->to) || (!train->to->inuse)) return; // Knightmare- check for removed spline flag- get da hell outta here if ( !(train->spawnflags & TRAIN_SPLINE) ) { self->think = train_children_think; return; } if ( (train->from != train->to) && !train->moveinfo.is_blocked && (train->spawnflags & TRAIN_START_ON)) { if (train->moveinfo.bezier_ratio >= 1.0) // Knightmare- don't keep moving at end of curve { VectorClear (self->avelocity); VectorClear (self->velocity); self->nextthink = level.time + FRAMETIME; return; } Spline_Calc (train, train->from->s.origin, train->to->s.origin, train->from->s.angles, train->to->s.angles, train->moveinfo.bezier_ratio, p, a); if ( !(train->spawnflags & TRAIN_ORIGIN) ) // Knightmare- func_train_origin support VectorSubtract(p, train->mins, p); VectorSubtract(p, train->s.origin, train->velocity); VectorScale (train->velocity, 10, train->velocity); VectorSubtract(a, train->s.angles, train->avelocity); VectorScale (train->avelocity, 10, train->avelocity); if (train->pitch_speed < 0) train->avelocity[PITCH] = 0; if (train->yaw_speed < 0) train->avelocity[YAW] = 0; if (train->roll_speed < 0) train->avelocity[ROLL] = 0; gi.linkentity(train); train->moveinfo.bezier_ratio += train->moveinfo.speed * FRAMETIME / train->moveinfo.distance; train_move_children(self); if (train->moveinfo.bezier_ratio >= 1.0) { train->moveinfo.endfunc = NULL; train->think = train_wait; train->nextthink = level.time + FRAMETIME; } } self->nextthink = level.time + FRAMETIME; } void check_reverse_rotation (edict_t *self, vec3_t point) { vec3_t vec; vec3_t vnext; vec_t rotation; vec_t cross; if (!(self->flags & FL_REVERSIBLE)) return; VectorSubtract(point,self->s.origin,vec); VectorCopy (self->move_origin,vnext); VectorNormalize(vec); VectorNormalize(vnext); if (self->spawnflags & DOOR_X_AXIS) { rotation = self->moveinfo.distance * self->movedir[ROLL]; cross = vec[1]*vnext[2] - vec[2]*vnext[1]; } else if (self->spawnflags & DOOR_Y_AXIS) { rotation = self->moveinfo.distance * self->movedir[PITCH]; cross = vec[2]*vnext[0] - vec[0]*vnext[2]; } else { rotation = self->moveinfo.distance * self->movedir[YAW]; cross = vec[0]*vnext[1] - vec[1]*vnext[0]; } if ((self->spawnflags & 1) && (DotProduct(vec,vnext) < 0)) cross = -cross; if ( (cross < 0) && (rotation > 0) ) { VectorNegate (self->movedir, self->movedir); VectorMA (self->pos1, self->moveinfo.distance, self->movedir, self->pos2); VectorCopy (self->pos2, self->moveinfo.end_angles); } else if ((cross > 0) && (rotation < 0)) { VectorNegate (self->movedir, self->movedir); VectorMA (self->pos1, self->moveinfo.distance, self->movedir, self->pos2); VectorCopy (self->pos2, self->moveinfo.end_angles); } } // // Support routines for angular movement (changes in angle using avelocity) // void AngleMove_Done (edict_t *ent) { //clear angular velocity VectorClear (ent->avelocity); //call end function if (ent->moveinfo.endfunc) ent->moveinfo.endfunc (ent); } void AngleMove_Final (edict_t *ent) { vec3_t move; //find out the move we need to make if (ent->moveinfo.state == STATE_UP) VectorSubtract (ent->moveinfo.end_angles, ent->s.angles, move); else VectorSubtract (ent->moveinfo.start_angles, ent->s.angles, move); //if we're there, we're done if (VectorCompare (move, vec3_origin)) { AngleMove_Done (ent); return; } //set speed to move there in one timestamp VectorScale (move, 1.0/FRAMETIME, ent->avelocity); //think again in 0.1 sec ent->think = AngleMove_Done; ent->nextthink = level.time + FRAMETIME; } void AngleMove_Begin (edict_t *ent) { vec3_t destdelta; float len; float traveltime; float frames; //PGM accelerate as needed if (ent->moveinfo.speed < ent->speed) { ent->moveinfo.speed += ent->accel; if (ent->moveinfo.speed > ent->speed) ent->moveinfo.speed = ent->speed; } //PGM // set destdelta to the vector needed to move if (ent->moveinfo.state == STATE_UP) VectorSubtract (ent->moveinfo.end_angles, ent->s.angles, destdelta); else VectorSubtract (ent->moveinfo.start_angles, ent->s.angles, destdelta); // calculate length of vector len = VectorLength (destdelta); // divide by speed to get time to reach dest traveltime = len / ent->moveinfo.speed; if (traveltime < FRAMETIME) { AngleMove_Final (ent); return; } frames = floor(traveltime / FRAMETIME); // scale the destdelta vector by the time spent traveling to get velocity VectorScale (destdelta, 1.0 / traveltime, ent->avelocity); //PGM // if we're done accelerating, act as a normal rotation if (ent->moveinfo.speed >= ent->speed) { // set nextthink to trigger a think when dest is reached ent->nextthink = level.time + frames * FRAMETIME; ent->think = AngleMove_Final; } else { ent->nextthink = level.time + FRAMETIME; ent->think = AngleMove_Begin; } //PGM } void AngleMove_Calc (edict_t *ent, void(*func)(edict_t*)) { //clear velocity VectorClear (ent->avelocity); //assign end function ent->moveinfo.endfunc = func; //PGM // if we're supposed to accelerate, this will tell anglemove_begin to do so if (ent->accel != ent->speed) ent->moveinfo.speed = 0; //PGM if (level.current_entity == ((ent->flags & FL_TEAMSLAVE) ? ent->teammaster : ent)) { AngleMove_Begin (ent); } else { ent->nextthink = level.time + FRAMETIME; ent->think = AngleMove_Begin; } } /* ============== Think_AccelMove The team has completed a frame of movement, so change the speed for the next frame ============== */ #define AccelerationDistance(target, rate) (target * ((target / rate) + 1) / 2) 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 = (-2 + sqrt(4 - 4 * f * (-2 * moveinfo->remaining_distance))) / (2 * f); decel_dist = AccelerationDistance (moveinfo->move_speed, moveinfo->decel); } moveinfo->decel_distance = decel_dist; }; 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) { 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 * (1.0 - (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) / 2.0; p2_distance = moveinfo->move_speed * (1.0 - (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; }; void Think_AccelMove (edict_t *ent) { ent->moveinfo.remaining_distance -= ent->moveinfo.current_speed; // PGM 04/21/98 - this should fix sthoms' sinking drop pod. Hopefully it wont break stuff. // if (ent->moveinfo.current_speed == 0) // starting or blocked plat_CalcAcceleratedMove(&ent->moveinfo); plat_Accelerate (&ent->moveinfo); // will the entire move complete on next frame? if (ent->moveinfo.remaining_distance <= ent->moveinfo.current_speed) { Move_Final (ent); return; } VectorScale (ent->moveinfo.dir, ent->moveinfo.current_speed * 10, ent->velocity); if (ent->movewith && ent->movewith_ent) VectorAdd (ent->movewith_ent->velocity, ent->velocity, ent->velocity); ent->nextthink = level.time + FRAMETIME; ent->think = Think_AccelMove; } void plat_go_down (edict_t *ent); void plat_hit_top (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_end) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_end, 1, ent->attenuation, 0); // was ATTN_STATIC // ent->s.sound = 0; } ent->s.sound = 0; // Knightmare- make sure this is always set to 0, lead mover or not! ent->moveinfo.state = STATE_TOP; ent->think = plat_go_down; ent->nextthink = level.time + 3; } void plat_hit_bottom (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_end) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_end, 1, ent->attenuation, 0); // was ATTN_STATIC // ent->s.sound = 0; } ent->s.sound = 0; // Knightmare- make sure this is always set to 0, lead mover or not! ent->moveinfo.state = STATE_BOTTOM; plat2_kill_danger_area (ent); // PGM } void plat_go_down (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_start) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_start, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = ent->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION ent->s.attenuation = ent->attenuation; #endif } ent->moveinfo.state = STATE_DOWN; Move_Calc (ent, ent->moveinfo.end_origin, plat_hit_bottom); } void plat_go_up (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_start) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_start, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = ent->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION ent->s.attenuation = ent->attenuation; #endif } ent->moveinfo.state = STATE_UP; Move_Calc (ent, ent->moveinfo.start_origin, plat_hit_top); plat2_spawn_danger_area(ent); // PGM } void plat_blocked (edict_t *self, edict_t *other) { if (!(other->svflags & SVF_MONSTER) && (!other->client) ) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100000, 1, 0, MOD_CRUSH); // if it's still there, nuke it if (other && other->inuse) // PGM BecomeExplosion1 (other); return; } // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } //PGM // gib dead things if (other->health < 1) { T_Damage(other, self, self, vec3_origin, other->s.origin, vec3_origin, 100, 1, 0, MOD_CRUSH); } //PGM T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); if (self->moveinfo.state == STATE_UP) plat_go_down (self); else if (self->moveinfo.state == STATE_DOWN) plat_go_up (self); } void Use_Plat (edict_t *ent, edict_t *other, edict_t *activator) { //====== //ROGUE // if a monster is using us, then allow the activity when stopped. if (other->svflags & SVF_MONSTER) { if (ent->moveinfo.state == STATE_TOP) plat_go_down (ent); else if (ent->moveinfo.state == STATE_BOTTOM) plat_go_up (ent); return; } //ROGUE //====== if (ent->think) return; // already down plat_go_down (ent); } void Touch_Plat_Center (edict_t *ent, edict_t *other, cplane_t *plane, csurface_t *surf) { if (!other->client) return; if (other->health <= 0) return; ent = ent->enemy; // now point at the plat, not the trigger if (ent->moveinfo.state == STATE_BOTTOM) plat_go_up (ent); else if (ent->moveinfo.state == STATE_TOP) ent->nextthink = level.time + 1; // the player is still on the plat, so delay going down } // PGM - plat2's change the trigger field //void plat_spawn_inside_trigger (edict_t *ent) edict_t *plat_spawn_inside_trigger (edict_t *ent) { edict_t *trigger; vec3_t tmin, tmax; // // middle trigger // trigger = G_Spawn(); trigger->touch = Touch_Plat_Center; trigger->movetype = MOVETYPE_NONE; trigger->solid = SOLID_TRIGGER; trigger->enemy = ent; if (ent->movewith) trigger->movewith = ent->movewith; VectorCopy (trigger->s.angles, trigger->org_angles); 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; // Knightmare- for PLAT_LOW_TRIGGER, we need to add st.lip, not subtract it! // tmin[2] = tmax[2] - (ent->pos1[2] - ent->pos2[2] + st.lip); if (ent->spawnflags & PLAT_LOW_TRIGGER) { tmin[2] = tmax[2] - (ent->pos1[2] - ent->pos2[2]) + st.lip; tmax[2] = tmin[2] + 8; } else tmin[2] = tmax[2] - (ent->pos1[2] - ent->pos2[2] + st.lip); if (tmax[0] - tmin[0] <= 0) { tmin[0] = (ent->mins[0] + ent->maxs[0]) *0.5; tmax[0] = tmin[0] + 1; } if (tmax[1] - tmin[1] <= 0) { tmin[1] = (ent->mins[1] + ent->maxs[1]) *0.5; tmax[1] = tmin[1] + 1; } VectorCopy (tmin, trigger->mins); VectorCopy (tmax, trigger->maxs); gi.linkentity (trigger); return trigger; // PGM 11/17/97 } /*QUAKED func_plat (0 .5 .8) ? PLAT_LOW_TRIGGER 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 50 "decel" overrides default 50 "lip" overrides default 8 unit 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. "sounds" 0,1 default 2-99 custom sound- e.g. plats/pt02_strt.wav, plats/pt02_mid.wav, plats/pt02_end.wav */ void SP_func_plat (edict_t *ent) { ent->class_id = ENTITY_FUNC_PLAT; VectorClear (ent->s.angles); ent->solid = SOLID_BSP; ent->movetype = MOVETYPE_PUSH; gi.setmodel (ent, ent->model); ent->blocked = plat_blocked; if (!ent->speed) ent->speed = 20; else ent->speed *= 0.1; if (!ent->accel) ent->accel = 5; else ent->accel *= 0.1; if (!ent->decel) ent->decel = 5; else ent->decel *= 0.1; if (!ent->dmg) ent->dmg = 2; if (ent->lip) st.lip = ent->lip; if (!st.lip) st.lip = ent->lip = 8; // pos1 is the top position, pos2 is the bottom VectorCopy (ent->s.origin, ent->pos1); VectorCopy (ent->s.origin, ent->pos2); if (ent->height) st.height = ent->height; if (st.height) ent->pos2[2] -= st.height; else ent->pos2[2] -= (ent->maxs[2] - ent->mins[2]) - st.lip; ent->postthink = train_move_children; //supports movewith ent->use = Use_Plat; plat_spawn_inside_trigger (ent); // the "start moving" trigger if (ent->targetname) { ent->moveinfo.state = STATE_TOP; //was STATE_UP } else { VectorCopy (ent->pos2, ent->s.origin); gi.linkentity (ent); 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; VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); ent->moveinfo.distance = ent->pos1[2] - ent->pos2[2]; //Knightmare- store distance if (ent->sounds > 1 && ent->sounds < 100) // custom sounds { ent->moveinfo.sound_start = gi.soundindex (va("plats/pt%02i_strt.wav", ent->sounds)); ent->moveinfo.sound_middle = gi.soundindex (va("plats/pt%02i_mid.wav", ent->sounds)); ent->moveinfo.sound_end = gi.soundindex (va("plats/pt%02i_end.wav", ent->sounds)); } else { ent->moveinfo.sound_start = gi.soundindex ("plats/pt1_strt.wav"); ent->moveinfo.sound_middle = gi.soundindex ("plats/pt1_mid.wav"); ent->moveinfo.sound_end = gi.soundindex ("plats/pt1_end.wav"); } if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; } // ========================================== // PLAT 2 // ========================================== #define PLAT2_CALLED 1 #define PLAT2_MOVING 2 #define PLAT2_WAITING 4 void plat2_go_down (edict_t *ent); void plat2_go_up (edict_t *ent); void plat2_spawn_danger_area (edict_t *ent) { vec3_t mins, maxs; VectorCopy (ent->mins, mins); VectorCopy (ent->maxs, maxs); maxs[2] = ent->mins[2] + 64; SpawnBadArea(mins, maxs, 0, ent); } void plat2_kill_danger_area (edict_t *ent) { edict_t *t; t = NULL; while ((t = G_Find (t, FOFS(classname), "bad_area"))) { if (t->owner == ent) G_FreeEdict(t); } } void plat2_hit_top (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_end) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_end, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = 0; } ent->moveinfo.state = STATE_TOP; if (ent->plat2flags & PLAT2_CALLED) { ent->plat2flags = PLAT2_WAITING; if (!(ent->spawnflags & PLAT2_TOGGLE)) { ent->think = plat2_go_down; ent->nextthink = level.time + 5.0; } if (deathmatch->value) ent->last_move_time = level.time - 1.0; else ent->last_move_time = level.time - 2.0; } else if (!(ent->spawnflags & PLAT2_TOP) && !(ent->spawnflags & PLAT2_TOGGLE)) { ent->plat2flags = 0; ent->think = plat2_go_down; ent->nextthink = level.time + 2.0; ent->last_move_time = level.time; } else { ent->plat2flags = 0; ent->last_move_time = level.time; } G_UseTargets (ent, ent); } void plat2_hit_bottom (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_end) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_end, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = 0; } ent->moveinfo.state = STATE_BOTTOM; if (ent->plat2flags & PLAT2_CALLED) { ent->plat2flags = PLAT2_WAITING; if (!(ent->spawnflags & PLAT2_TOGGLE)) { ent->think = plat2_go_up; ent->nextthink = level.time + 5.0; } if (deathmatch->value) ent->last_move_time = level.time - 1.0; else ent->last_move_time = level.time - 2.0; } else if ((ent->spawnflags & PLAT2_TOP) && !(ent->spawnflags & PLAT2_TOGGLE)) { ent->plat2flags = 0; ent->think = plat2_go_up; ent->nextthink = level.time + 2.0; ent->last_move_time = level.time; } else { ent->plat2flags = 0; ent->last_move_time = level.time; } plat2_kill_danger_area (ent); G_UseTargets (ent, ent); } void plat2_go_down (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_start) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_start, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = ent->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION ent->s.attenuation = ent->attenuation; #endif } ent->moveinfo.state = STATE_DOWN; ent->plat2flags |= PLAT2_MOVING; Move_Calc (ent, ent->moveinfo.end_origin, plat2_hit_bottom); } void plat2_go_up (edict_t *ent) { if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_start) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_start, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = ent->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION ent->s.attenuation = ent->attenuation; #endif } ent->moveinfo.state = STATE_UP; ent->plat2flags |= PLAT2_MOVING; plat2_spawn_danger_area(ent); Move_Calc (ent, ent->moveinfo.start_origin, plat2_hit_top); } void plat2_operate (edict_t *ent, edict_t *other) { int otherState; float pauseTime; float platCenter; edict_t *trigger; trigger = ent; ent = ent->enemy; // now point at the plat, not the trigger if (ent->plat2flags & PLAT2_MOVING) return; if ((ent->last_move_time + 2) > level.time) return; platCenter = (trigger->absmin[2] + trigger->absmax[2]) / 2; if (ent->moveinfo.state == STATE_TOP) { otherState = STATE_TOP; if (ent->spawnflags & PLAT2_BOX_LIFT) { if (platCenter > other->s.origin[2]) otherState = STATE_BOTTOM; } else { if (trigger->absmax[2] > other->s.origin[2]) otherState = STATE_BOTTOM; } } else { otherState = STATE_BOTTOM; if (other->s.origin[2] > platCenter) otherState = STATE_TOP; } ent->plat2flags = PLAT2_MOVING; if (deathmatch->value) pauseTime = 0.3; else pauseTime = 0.5; if (ent->moveinfo.state != otherState) { ent->plat2flags |= PLAT2_CALLED; pauseTime = 0.1; } ent->last_move_time = level.time; if (ent->moveinfo.state == STATE_BOTTOM) { ent->think = plat2_go_up; ent->nextthink = level.time + pauseTime; } else { ent->think = plat2_go_down; ent->nextthink = level.time + pauseTime; } } void Touch_Plat_Center2 (edict_t *ent, edict_t *other, cplane_t *plane, csurface_t *surf) { // this requires monsters to actively trigger plats, not just step on them. //FIXME - commented out for E3 //if (!other->client) // return; if (other->health <= 0) return; // PMM - don't let non-monsters activate plat2s if ((!(other->svflags & SVF_MONSTER)) && (!other->client)) return; plat2_operate(ent, other); } void plat2_blocked (edict_t *self, edict_t *other) { if (!(other->svflags & SVF_MONSTER) && (!other->client)) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100000, 1, 0, MOD_CRUSH); // if it's still there, nuke it if (other && other->inuse) BecomeExplosion1 (other); return; } // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } // gib dead things if (other->health < 1) { T_Damage(other, self, self, vec3_origin, other->s.origin, vec3_origin, 100, 1, 0, MOD_CRUSH); } T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); if (self->moveinfo.state == STATE_UP) plat2_go_down (self); else if (self->moveinfo.state == STATE_DOWN) plat2_go_up (self); } void Use_Plat2 (edict_t *ent, edict_t *other, edict_t *activator) { edict_t *trigger; int i; if (ent->moveinfo.state > STATE_BOTTOM) return; if ((ent->last_move_time + 2) > level.time) return; for (i = 1, trigger = g_edicts + 1; i < globals.num_edicts; i++, trigger++) { if (!trigger->inuse) continue; if (trigger->touch == Touch_Plat_Center2) { if (trigger->enemy == ent) { // Touch_Plat_Center2 (trigger, activator, NULL, NULL); plat2_operate (trigger, activator); return; } } } } void plat2_activate (edict_t *ent, edict_t *other, edict_t *activator) { edict_t *trigger; // if (ent->targetname) // ent->targetname[0] = 0; ent->use = Use_Plat2; trigger = plat_spawn_inside_trigger (ent); // the "start moving" trigger trigger->maxs[0]+=10; trigger->maxs[1]+=10; trigger->mins[0]-=10; trigger->mins[1]-=10; gi.linkentity (trigger); trigger->touch = Touch_Plat_Center2; // Override trigger touch function plat2_go_down(ent); } /*QUAKED func_plat2 (0 .5 .8) ? PLAT_LOW_TRIGGER PLAT2_TOGGLE PLAT2_TOP PLAT2_TRIGGER_TOP PLAT2_TRIGGER_BOTTOM BOX_LIFT speed default 150 PLAT_LOW_TRIGGER - creates a short trigger field at the bottom PLAT2_TOGGLE - plat will not return to default position. PLAT2_TOP - plat's default position will the the top. PLAT2_TRIGGER_TOP - plat will trigger it's targets each time it hits top PLAT2_TRIGGER_BOTTOM - plat will trigger it's targets each time it hits bottom BOX_LIFT - this indicates that the lift is a box, rather than just a platform 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 50 "decel" overrides default 50 "lip" no default If the "height" key is set, that will determine the amount the plat moves, instead of being implicitly determoveinfoned by the model's height. "sounds" 0,1 default 2-99 custom sound- e.g. plats/pt02_strt.wav, plats/pt02_mid.wav, plats/pt02_end.wav */ void SP_func_plat2 (edict_t *ent) { edict_t *trigger; ent->class_id = ENTITY_FUNC_PLAT2; VectorClear (ent->s.angles); ent->solid = SOLID_BSP; ent->movetype = MOVETYPE_PUSH; gi.setmodel (ent, ent->model); ent->blocked = plat2_blocked; if (!ent->speed) ent->speed = 20; else ent->speed *= 0.1; if (!ent->accel) ent->accel = 5; else ent->accel *= 0.1; if (!ent->decel) ent->decel = 5; else ent->decel *= 0.1; if (deathmatch->value) { ent->speed *= 2; ent->accel *= 2; ent->decel *= 2; } //PMM Added to kill things it's being blocked by if (!ent->dmg) ent->dmg = 2; if (ent->lip) st.lip = ent->lip; // if (!st.lip) // st.lip = 8; // pos1 is the top position, pos2 is the bottom VectorCopy (ent->s.origin, ent->pos1); VectorCopy (ent->s.origin, ent->pos2); if (ent->height) st.height = ent->height; if (st.height) ent->pos2[2] -= (st.height - st.lip); else ent->pos2[2] -= (ent->maxs[2] - ent->mins[2]) - st.lip; ent->moveinfo.state = STATE_TOP; if (ent->targetname) { ent->use = plat2_activate; } else { ent->use = Use_Plat2; trigger = plat_spawn_inside_trigger (ent); // the "start moving" trigger // PGM - debugging?? trigger->maxs[0]+=10; trigger->maxs[1]+=10; trigger->mins[0]-=10; trigger->mins[1]-=10; gi.linkentity (trigger); trigger->touch = Touch_Plat_Center2; // Override trigger touch function if (!(ent->spawnflags & PLAT2_TOP)) { VectorCopy (ent->pos2, ent->s.origin); ent->moveinfo.state = STATE_BOTTOM; } } ent->postthink = train_move_children; //supports movewith gi.linkentity (ent); ent->moveinfo.speed = ent->speed; ent->moveinfo.accel = ent->accel; ent->moveinfo.decel = ent->decel; ent->moveinfo.wait = ent->wait; VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); ent->moveinfo.distance = ent->pos1[2] - ent->pos2[2]; // Knightmare- store distance if (ent->sounds > 1 && ent->sounds < 100) // custom sounds { ent->moveinfo.sound_start = gi.soundindex (va("plats/pt%02i_strt.wav", ent->sounds)); ent->moveinfo.sound_middle = gi.soundindex (va("plats/pt%02i_mid.wav", ent->sounds)); ent->moveinfo.sound_end = gi.soundindex (va("plats/pt%02i_end.wav", ent->sounds)); } else { ent->moveinfo.sound_start = gi.soundindex ("plats/pt1_strt.wav"); ent->moveinfo.sound_middle = gi.soundindex ("plats/pt1_mid.wav"); ent->moveinfo.sound_end = gi.soundindex ("plats/pt1_end.wav"); } if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; } //==================================================================== /*QUAKED func_rotating (0 .5 .8) ? START_ON REVERSE X_AXIS Y_AXIS TOUCH_PAIN STOP ANIMATED ANIMATED_FAST !EASY !MED !HARD !DM !COOP ACCEL 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. func_rotating will use it's targets when it stops and starts. "speed" determines how fast it moves; default value is 100. "dmg" damage to inflict when blocked (2 default) "accel" if specified, is how much the rotation speed will increase per .1sec. REVERSE will cause the it to rotate in the opposite direction. STOP mean it will stop moving instead of pushing entities ACCEL means it will accelerate to it's final speed and decelerate when shutting down. */ //============ //PGM void rotating_accel (edict_t *self) { float current_speed; current_speed = VectorLength (self->avelocity); if (current_speed >= (self->speed - self->accel)) // done { VectorScale (self->movedir, self->speed, self->avelocity); G_UseTargets (self, self); } else { current_speed += self->accel; VectorScale (self->movedir, current_speed, self->avelocity); self->think = rotating_accel; self->nextthink = level.time + FRAMETIME; } } void rotating_decel (edict_t *self) { float current_speed; current_speed = VectorLength (self->avelocity); if (current_speed <= self->decel) // done { VectorClear (self->avelocity); G_UseTargets (self, self); self->touch = NULL; } else { current_speed -= self->decel; VectorScale (self->movedir, current_speed, self->avelocity); self->think = rotating_decel; self->nextthink = level.time + FRAMETIME; } } //PGM //============ void rotating_blocked (edict_t *self, edict_t *other) { // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); } void rotating_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { if (self->avelocity[0] || self->avelocity[1] || self->avelocity[2]) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); } void rotating_use (edict_t *self, edict_t *other, edict_t *activator) { if (!VectorCompare (self->avelocity, vec3_origin)) { self->s.sound = 0; //PGM if (self->spawnflags & 8192) // Decelerate rotating_decel (self); else { VectorClear (self->avelocity); G_UseTargets (self, self); self->touch = NULL; } //PGM } else { self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif //PGM if (self->spawnflags & 8192) // accelerate rotating_accel (self); else { VectorScale (self->movedir, self->speed, self->avelocity); G_UseTargets (self, self); } if (self->spawnflags & 16) self->touch = rotating_touch; //PGM } } void SP_func_rotating (edict_t *ent) { ent->class_id = ENTITY_FUNC_ROTATING; ent->solid = SOLID_BSP; if (ent->spawnflags & 32) ent->movetype = MOVETYPE_STOP; else ent->movetype = MOVETYPE_PUSH; // set the axis of rotation VectorClear (ent->movedir); if (ent->spawnflags & 4) ent->movedir[2] = 1.0; else if (ent->spawnflags & 8) ent->movedir[0] = 1.0; else // Z_AXIS ent->movedir[1] = 1.0; // check for reverse rotation if (ent->spawnflags & 2) VectorNegate (ent->movedir, ent->movedir); if (!ent->speed) ent->speed = 100; if (!ent->dmg) ent->dmg = 2; // Lazarus: Why was this removed? Dunno, but we're gonna use // our own sound anyway //ent->moveinfo.sound_middle = "doors/hydro1.wav"; if (st.noise) ent->moveinfo.sound_middle = gi.soundindex (st.noise); if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; ent->postthink = train_move_children; // supports movewith ent->use = rotating_use; if (ent->dmg) ent->blocked = rotating_blocked; if (ent->spawnflags & 1) ent->use (ent, NULL, NULL); if (ent->spawnflags & 64) ent->s.effects |= EF_ANIM_ALL; if (ent->spawnflags & 128) ent->s.effects |= EF_ANIM_ALLFAST; //PGM if (ent->spawnflags & 8192) // Accelerate / Decelerate { if (!ent->accel) ent->accel = 1; else if (ent->accel > ent->speed) ent->accel = ent->speed; if (!ent->decel) ent->decel = 1; else if (ent->decel > ent->speed) ent->decel = ent->speed; } //PGM gi.setmodel (ent, ent->model); gi.linkentity (ent); } /* Lazarus: SP_func_rotating_dh is identical to func_rotating, but allows you to build the model in a separate location (as with func_train, to get the lighting the way you'd like) then move at runtime to the origin of the "pathtarget". */ void func_rotating_dh_init (edict_t *ent) { edict_t *new_origin; new_origin = G_Find (NULL, FOFS(targetname), ent->pathtarget); if (new_origin) VectorCopy (new_origin->s.origin,ent->s.origin); SP_func_rotating (ent); } void SP_func_rotating_dh (edict_t *ent) { if ( !ent->pathtarget ) { SP_func_rotating(ent); return; } // Wait a few frames so that we're sure pathtarget has been parsed. ent->think = func_rotating_dh_init; ent->nextthink = level.time + 2*FRAMETIME; gi.linkentity(ent); } /* ====================================================================== 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" 0) default 1) silent 2-99 custom sound- e.g. switches/butn02.wav */ void button_done (edict_t *self) { self->moveinfo.state = STATE_BOTTOM; self->s.effects &= ~EF_ANIM23; self->s.effects |= EF_ANIM01; } void button_return (edict_t *self) { self->moveinfo.state = STATE_DOWN; Move_Calc (self, self->moveinfo.start_origin, button_done); self->s.frame = 0; if (self->health) self->takedamage = DAMAGE_YES; } void button_wait (edict_t *self) { self->moveinfo.state = STATE_TOP; self->s.effects &= ~EF_ANIM01; self->s.effects |= EF_ANIM23; G_UseTargets (self, self->activator); self->s.frame = 1; if (self->moveinfo.wait >= 0) { self->nextthink = level.time + self->moveinfo.wait; self->think = button_return; } } void button_fire (edict_t *self) { if (self->moveinfo.state == STATE_UP || self->moveinfo.state == STATE_TOP) return; self->moveinfo.state = STATE_UP; if (self->moveinfo.sound_start && !(self->flags & FL_TEAMSLAVE)) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC Move_Calc (self, self->moveinfo.end_origin, button_wait); } void button_use (edict_t *self, edict_t *other, edict_t *activator) { self->activator = activator; button_fire (self); } void button_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { if (!other->client) return; if (other->health <= 0) return; self->activator = other; button_fire (self); } void button_killed (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { self->activator = attacker; self->health = self->max_health; self->takedamage = DAMAGE_NO; button_fire (self); } void SP_func_button (edict_t *ent) { vec3_t abs_movedir; float dist; ent->class_id = ENTITY_FUNC_BUTTON; if (!VectorLength(ent->movedir)) G_SetMovedir (ent->s.angles, ent->movedir); ent->movetype = MOVETYPE_STOP; ent->solid = SOLID_BSP; gi.setmodel (ent, ent->model); if (ent->sounds > 1 && ent->sounds < 100) // custom sounds ent->moveinfo.sound_start = gi.soundindex (va("switches/butn%02i.wav", ent->sounds)); else if (ent->sounds != 1) ent->moveinfo.sound_start = gi.soundindex ("switches/butn2.wav"); if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; if (!ent->speed) ent->speed = 40; if (!ent->accel) ent->accel = ent->speed; if (!ent->decel) ent->decel = ent->speed; if (!ent->wait) ent->wait = 3; if (ent->lip) st.lip = ent->lip; if (!st.lip) st.lip = ent->lip = 4; VectorCopy (ent->s.origin, ent->pos1); abs_movedir[0] = fabs(ent->movedir[0]); abs_movedir[1] = fabs(ent->movedir[1]); abs_movedir[2] = fabs(ent->movedir[2]); dist = abs_movedir[0] * ent->size[0] + abs_movedir[1] * ent->size[1] + abs_movedir[2] * ent->size[2] - st.lip; VectorMA (ent->pos1, dist, ent->movedir, ent->pos2); ent->use = button_use; ent->s.effects |= EF_ANIM01; if (ent->health) { ent->max_health = ent->health; ent->die = button_killed; ent->takedamage = DAMAGE_YES; } else if (! ent->targetname) ent->touch = button_touch; ent->postthink = train_move_children; //supports movewith 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; ent->moveinfo.distance = dist; VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); gi.linkentity (ent); } //==================================================================== // // SP_func_trainbutton is a button linked to a func_train with the // "movewith" key. The button itself does NOT move relative to the // train, but the effect can be simulated with animations and sounds // // Spawnflags 1 = can be activated by looking at it and pressing +attack // 2 = can NOT be activated by touching - must use +attack // //==================================================================== void trainbutton_done (edict_t *self) { self->moveinfo.state = STATE_BOTTOM; self->s.effects &= ~EF_ANIM23; self->s.effects |= EF_ANIM01; } void trainbutton_return (edict_t *self) { self->moveinfo.state = STATE_DOWN; self->s.frame = 0; self->s.effects &= ~EF_ANIM23; self->s.effects |= EF_ANIM01; if (self->health) self->takedamage = DAMAGE_YES; } void trainbutton_wait (edict_t *self) { self->moveinfo.state = STATE_TOP; self->s.effects &= ~EF_ANIM01; self->s.effects |= EF_ANIM23; G_UseTargets (self, self->activator); self->s.frame = 1; if (self->moveinfo.wait >= 0) { self->nextthink = level.time + self->moveinfo.wait; self->think = trainbutton_return; } } void trainbutton_fire (edict_t *self) { if (self->moveinfo.state == STATE_UP || self->moveinfo.state == STATE_TOP) return; self->moveinfo.state = STATE_UP; if (self->moveinfo.sound_start && !(self->flags & FL_TEAMSLAVE)) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC trainbutton_wait(self); } void trainbutton_use (edict_t *self, edict_t *other, edict_t *activator) { self->activator = activator; trainbutton_fire (self); } void trainbutton_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { if (!other->client) return; if (other->health <= 0) return; self->activator = other; trainbutton_fire (self); } void trainbutton_killed (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { self->activator = attacker; self->health = self->max_health; self->takedamage = DAMAGE_NO; trainbutton_fire (self); } /*void movewith_init (edict_t *ent) { edict_t *e, *child; // Unnamed entities can't be movewith parents if (!ent->targetname) return; child = G_Find(NULL,FOFS(movewith),ent->targetname); e = ent; while (child) { child->movewith_ent = ent; // Copy parent's current angles to the child. They SHOULD be 0,0,0 at this point // for all currently supported parents, but ya never know. VectorCopy (ent->s.angles,child->parent_attach_angles); if (child->org_movetype < 0) child->org_movetype = child->movetype; if (child->movetype != MOVETYPE_NONE) child->movetype = MOVETYPE_PUSH; VectorCopy (child->mins,child->org_mins); VectorCopy (child->maxs,child->org_maxs); VectorSubtract(child->s.origin,ent->s.origin,child->movewith_offset); e->movewith_next = child; e = child; child = G_Find(child,FOFS(movewith),ent->targetname); } }*/ void SP_func_trainbutton (edict_t *ent) { if (!ent->movewith) { SP_func_button(ent); return; } ent->class_id = ENTITY_FUNC_TRAINBUTTON; G_SetMovedir (ent->s.angles, ent->movedir); ent->movetype = MOVETYPE_PUSH; ent->solid = SOLID_BSP; gi.setmodel (ent, ent->model); if (ent->sounds > 1 && ent->sounds < 100) // custom sounds ent->moveinfo.sound_start = gi.soundindex (va("switches/butn%02i.wav", ent->sounds)); else if (ent->sounds != 1) ent->moveinfo.sound_start = gi.soundindex ("switches/butn2.wav"); if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; if (!ent->wait) ent->wait = 3; ent->use = trainbutton_use; ent->s.effects |= EF_ANIM01; ent->blocked = train_blocked; ent->moveinfo.state = STATE_BOTTOM; ent->moveinfo.wait = ent->wait; if (!ent->targetname && !(ent->spawnflags & 2)) ent->touch = trainbutton_touch; gi.linkentity (ent); } /* ====================================================================== 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" 0) default 1) silent 2-4 not used 5-99 custom sound- e.g. doors/dr05_strt.wav, doors/dr05_mid.wav, doors/dr05_end.wav */ void door_use_areaportals (edict_t *self, qboolean open) { edict_t *t = NULL; if (!self->target) return; while ((t = G_Find (t, FOFS(targetname), self->target))) { if (Q_stricmp(t->classname, "func_areaportal") == 0) { gi.SetAreaPortalState (t->style, open); } } } void door_go_down (edict_t *self); // Lazarus void swinging_door_reset (edict_t *self) { self->moveinfo.state = STATE_BOTTOM; self->health = self->max_health; if (self->die) self->takedamage = DAMAGE_YES; VectorCopy (self->pos2, self->pos1); VectorMA (self->s.angles, self->moveinfo.distance, self->movedir, self->pos2); VectorCopy (self->pos1, self->moveinfo.start_angles); VectorCopy (self->pos2, self->moveinfo.end_angles); vectoangles2(self->move_origin,self->move_origin); VectorMA (self->move_origin,self->moveinfo.distance,self->movedir,self->move_origin); AngleVectors (self->move_origin,self->move_origin,NULL,NULL); } void door_hit_top (edict_t *self) { if ( (strcmp(self->classname, "func_door_rotating") == 0) || (strcmp(self->classname, "func_door_rot_dh") == 0) ) self->do_not_rotate = 0; if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC // self->s.sound = 0; } self->s.sound = 0; // Knightmare- make sure this is always set to 0, lead mover or not! self->moveinfo.state = STATE_TOP; if (self->flags & FL_REVOLVING) //Lazarus { self->think = swinging_door_reset; if (self->moveinfo.wait > 0) self->nextthink = level.time + self->moveinfo.wait; else self->think(self); return; } if (self->spawnflags & DOOR_TOGGLE) return; if (self->moveinfo.wait >= 0) { self->think = door_go_down; self->nextthink = level.time + self->moveinfo.wait; } } void door_hit_bottom (edict_t *self) { if ( (strcmp(self->classname, "func_door_rotating") == 0) || (strcmp(self->classname, "func_door_rot_dh") == 0) ) self->do_not_rotate = 0; if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC // self->s.sound = 0; } self->s.sound = 0; // Knightmare- make sure this is always set to 0, lead mover or not! self->moveinfo.state = STATE_BOTTOM; door_use_areaportals (self, false); } void door_go_down (edict_t *self) { if (!self) // sanity check return; if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } if (self->max_health) { self->takedamage = DAMAGE_YES; self->health = self->max_health; } self->moveinfo.state = STATE_DOWN; if (strcmp(self->classname, "func_door") == 0) Move_Calc (self, self->moveinfo.start_origin, door_hit_bottom); else if (strcmp(self->classname, "func_door_rotating") == 0) { self->do_not_rotate = 1; self->moveinfo.state = STATE_DOWN; AngleMove_Calc (self, door_hit_bottom); } else if (strcmp(self->classname, "func_door_rot_dh") == 0) { self->do_not_rotate = 1; self->moveinfo.state = STATE_DOWN; AngleMove_Calc (self, door_hit_bottom); } } void door_go_up (edict_t *self, edict_t *activator) { if (!self) // sanity check return; if (self->moveinfo.state == STATE_UP) return; // already going up if (self->moveinfo.state == STATE_TOP) { // reset top wait time if (self->moveinfo.wait >= 0) self->nextthink = level.time + self->moveinfo.wait; return; } if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } self->moveinfo.state = STATE_UP; if (strcmp(self->classname, "func_door") == 0) Move_Calc (self, self->moveinfo.end_origin, door_hit_top); else if (strcmp(self->classname, "func_door_rotating") == 0) { self->do_not_rotate = 1; self->moveinfo.state = STATE_UP; AngleMove_Calc (self, door_hit_top); } else if (strcmp(self->classname, "func_door_rot_dh") == 0) { self->do_not_rotate = 1; self->moveinfo.state = STATE_UP; AngleMove_Calc (self, door_hit_top); } G_UseTargets (self, activator); door_use_areaportals (self, true); } //====== //PGM void smart_water_go_up (edict_t *self) { float distance; edict_t *lowestPlayer; edict_t *ent; float lowestPlayerPt; int i; if (!self) // sanity check return; if (self->moveinfo.state == STATE_TOP) { // reset top wait time if (self->moveinfo.wait >= 0) self->nextthink = level.time + self->moveinfo.wait; return; } if (self->health) { if (self->absmax[2] >= self->health) { VectorClear (self->velocity); self->nextthink = 0; self->moveinfo.state = STATE_TOP; return; } } if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } // find the lowest player point. lowestPlayerPt = 999999; lowestPlayer = NULL; for (i=0 ; iinuse) && (ent->health > 0)) { if (ent->absmin[2] < lowestPlayerPt) { lowestPlayerPt = ent->absmin[2]; lowestPlayer = ent; } } } if (!lowestPlayer) { return; } distance = lowestPlayerPt - self->absmax[2]; // for the calculations, make sure we intend to go up at least a little. if (distance < self->accel) { distance = 100; self->moveinfo.speed = 5; } else self->moveinfo.speed = distance / self->accel; if (self->moveinfo.speed < 5) self->moveinfo.speed = 5; else if (self->moveinfo.speed > self->speed) self->moveinfo.speed = self->speed; // FIXME - should this allow any movement other than straight up? VectorSet(self->moveinfo.dir, 0, 0, 1); VectorScale (self->moveinfo.dir, self->moveinfo.speed, self->velocity); self->moveinfo.remaining_distance = distance; if (self->moveinfo.state != STATE_UP) { G_UseTargets (self, lowestPlayer); door_use_areaportals (self, true); self->moveinfo.state = STATE_UP; } self->think = smart_water_go_up; self->nextthink = level.time + FRAMETIME; } //PGM //====== // Knightmare- Zaero-specific door handling void door_openclose (edict_t *self, edict_t *other, edict_t *activator) { edict_t *ent; if (!self) // sanity check return; if (self->flags & FL_TEAMSLAVE) return; if (self->spawnflags & DOOR_TOGGLE) { if (self->moveinfo.state == STATE_UP || self->moveinfo.state == STATE_TOP) { // trigger all paired doors for (ent = self; ent; ent = ent->teamchain) { char *m = ent->message; ent->message = NULL; ent->touch = NULL; door_go_down (ent); ent->message = m; } return; } } // trigger all paired doors for (ent = self; ent; ent = ent->teamchain) { char *m = ent->message; ent->message = NULL; ent->touch = NULL; door_go_up (ent, activator); ent->message = m; } }; // end Zaero void door_use (edict_t *self, edict_t *other, edict_t *activator) { edict_t *ent; vec3_t center; // PGM if (!self) // sanity check return; // Knightmare- Zaero-specific door handling if ( IsZaeroMap() ) { if (self->active & DOOR_ACTIVE_TOGGLE) { for (ent = self; ent; ent = ent->teamchain) { if (ent->active & DOOR_ACTIVE_ON) { ent->touch = door_touch; ent->active &= ~DOOR_ACTIVE_ON; } else { ent->touch = NULL; ent->active |= DOOR_ACTIVE_ON; } } return; } door_openclose (self, other, activator); return; } // end Zaero if (self->flags & FL_TEAMSLAVE) return; if (self->spawnflags & DOOR_TOGGLE) { if (self->moveinfo.state == STATE_UP || self->moveinfo.state == STATE_TOP) { // trigger all paired doors for (ent = self ; ent ; ent = ent->teamchain) { ent->message = NULL; ent->touch = NULL; door_go_down (ent); } return; } } //PGM // smart water is different VectorAdd (self->mins, self->maxs, center); VectorScale (center, 0.5, center); if ((gi.pointcontents (center) & MASK_WATER) && self->spawnflags & 2) { self->message = NULL; self->touch = NULL; self->enemy = activator; smart_water_go_up (self); return; } //PGM // trigger all paired doors for (ent = self ; ent ; ent = ent->teamchain) { ent->message = NULL; ent->touch = NULL; door_go_up (ent, activator); } }; void Touch_DoorTrigger (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { if (!self || !other) // sanity check return; if (other->health <= 0) return; if (!(other->svflags & SVF_MONSTER) && (!other->client)) return; if ((self->owner->spawnflags & DOOR_NOMONSTER) && (other->svflags & SVF_MONSTER)) return; if (level.time < self->touch_debounce_time) return; // Zaero if ( IsZaeroMap() ) { if ( (self->owner->active & DOOR_ACTIVE_TOGGLE) && !(self->owner->active & DOOR_ACTIVE_ON) ) return; } // end Zaero self->touch_debounce_time = level.time + 1.0; // Zaero if ( IsZaeroMap() ) { door_openclose (self->owner, other, other); } else { door_use (self->owner, other, other); } // end Zaero } void Think_CalcMoveSpeed (edict_t *self) { edict_t *ent; float min; float time; float newspeed; float ratio; float dist; if (self->flags & FL_TEAMSLAVE) return; // only the team master does this // find the smallest distance any member of the team will be moving min = fabs(self->moveinfo.distance); for (ent = self->teamchain; ent; ent = ent->teamchain) { dist = fabs(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; ent = ent->teamchain) { newspeed = fabs(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; } } void Think_SpawnDoorTrigger (edict_t *ent) { edict_t *other; vec3_t mins, maxs; if (ent->flags & FL_TEAMSLAVE) return; // only the team leader spawns a trigger VectorCopy (ent->absmin, mins); VectorCopy (ent->absmax, maxs); for (other = ent->teamchain ; other ; other=other->teamchain) { AddPointToBounds (other->absmin, mins, maxs); AddPointToBounds (other->absmax, mins, maxs); } // expand mins[0] -= 60; mins[1] -= 60; maxs[0] += 60; maxs[1] += 60; other = G_Spawn (); VectorCopy (mins, other->mins); VectorCopy (maxs, other->maxs); other->owner = ent; other->solid = SOLID_TRIGGER; other->movetype = MOVETYPE_NONE; other->touch = Touch_DoorTrigger; if (ent->movewith) other->movewith = ent->movewith; VectorCopy (other->s.angles, other->org_angles); gi.linkentity (other); if (ent->spawnflags & DOOR_START_OPEN) door_use_areaportals (ent, true); Think_CalcMoveSpeed (ent); } void door_blocked (edict_t *self, edict_t *other) { edict_t *ent; if (!(other->svflags & SVF_MONSTER) && (!other->client) ) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100000, 1, 0, MOD_CRUSH); // if it's still there, nuke it if (other && other->inuse) BecomeExplosion1 (other); return; } // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); if (self->spawnflags & DOOR_CRUSHER) 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 ; ent = ent->teamchain) door_go_up (ent, ent->activator); } else { for (ent = self->teammaster ; ent ; ent = ent->teamchain) door_go_down (ent); } } } void func_explosive_explode (edict_t *self); void door_destroyed (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { if (self->moveinfo.state == STATE_DOWN || self->moveinfo.state == STATE_BOTTOM) door_use_areaportals(self,true); self->dmg = 0; func_explosive_explode(self); } void door_killed (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { edict_t *ent; for (ent = self->teammaster ; ent ; ent = ent->teamchain) { ent->health = ent->max_health; ent->takedamage = DAMAGE_NO; } door_use (self->teammaster, attacker, attacker); } void door_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { if (!self || !other) // sanity check return; if (!other->client) return; // Zaero if ( IsZaeroMap() && (self->message == NULL) ) return; if (level.time < self->touch_debounce_time) return; self->touch_debounce_time = level.time + 5.0; gi.centerprintf (other, "%s", self->message); gi.sound (other, CHAN_AUTO, gi.soundindex ("misc/talk1.wav"), 1, ATTN_NORM, 0); } void SP_func_door (edict_t *ent) { vec3_t abs_movedir; ent->class_id = ENTITY_FUNC_DOOR; if (ent->sounds > 4 && ent->sounds < 100) // custom sounds { ent->moveinfo.sound_start = gi.soundindex (va("doors/dr%02i_strt.wav", ent->sounds)); ent->moveinfo.sound_middle = gi.soundindex (va("doors/dr%02i_mid.wav", ent->sounds)); ent->moveinfo.sound_end = gi.soundindex (va("doors/dr%02i_end.wav", ent->sounds)); } else if (ent->sounds != 1) { ent->moveinfo.sound_start = gi.soundindex ("doors/dr1_strt.wav"); ent->moveinfo.sound_middle = gi.soundindex ("doors/dr1_mid.wav"); ent->moveinfo.sound_end = gi.soundindex ("doors/dr1_end.wav"); } else { ent->moveinfo.sound_start = 0; ent->moveinfo.sound_middle = 0; ent->moveinfo.sound_end = 0; } if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; if (!VectorLength(ent->movedir)) G_SetMovedir (ent->s.angles, ent->movedir); ent->movetype = MOVETYPE_PUSH; ent->solid = SOLID_BSP; gi.setmodel (ent, ent->model); ent->blocked = door_blocked; ent->use = door_use; // Lazarus: make noise field work w/o origin brush // create a speaker entity at center of bmodel // Removed because this breaks when the center point of // the door moves inside the wall (can't be heard). /*if (ent->moveinfo.sound_middle)// && ent->sounds > 4) { edict_t *speaker; ent->noise_index = ent->moveinfo.sound_middle; ent->moveinfo.sound_middle = 0; speaker = G_Spawn(); speaker->classname = "moving_speaker"; speaker->s.sound = 0; speaker->volume = 1; speaker->attenuation = 1; speaker->owner = ent; speaker->think = moving_speaker_think; speaker->nextthink = level.time + 2*FRAMETIME; speaker->spawnflags = 7; // owner must be moving to play ent->speaker = speaker; if (VectorLength(ent->s.origin)) VectorCopy (ent->s.origin,speaker->s.origin); else { VectorAdd (ent->absmin,ent->absmax,speaker->s.origin); VectorScale (speaker->s.origin,0.5,speaker->s.origin); } VectorSubtract (speaker->s.origin, ent->s.origin, speaker->offset); }*/ // end Lazarus if (!ent->speed) ent->speed = 100; if (deathmatch->value) ent->speed *= 2; if (!ent->accel) ent->accel = ent->speed; if (!ent->decel) ent->decel = ent->speed; if (!ent->wait) ent->wait = 3; if (ent->lip) st.lip = ent->lip; if (!st.lip) st.lip = ent->lip = 8; if (!ent->dmg) ent->dmg = 2; // calculate second position VectorCopy (ent->s.origin, ent->pos1); abs_movedir[0] = fabs(ent->movedir[0]); abs_movedir[1] = fabs(ent->movedir[1]); abs_movedir[2] = fabs(ent->movedir[2]); ent->moveinfo.distance = abs_movedir[0] * ent->size[0] + abs_movedir[1] * ent->size[1] + abs_movedir[2] * ent->size[2] - st.lip; VectorMA (ent->pos1, ent->moveinfo.distance, ent->movedir, ent->pos2); // if it starts open, switch the positions if (ent->spawnflags & DOOR_START_OPEN) { VectorCopy (ent->pos2, ent->s.origin); VectorCopy (ent->pos1, ent->pos2); VectorCopy (ent->s.origin, ent->pos1); } ent->moveinfo.state = STATE_BOTTOM; if (ent->health) { ent->takedamage = DAMAGE_YES; // Lazarus: negative health means "damage kills me" rather than "damage opens me" if (ent->health < 0) { PrecacheDebris(ent->gib_type); ent->die = door_destroyed; ent->health = -ent->health; } else ent->die = door_killed; ent->max_health = ent->health; } else if (ent->targetname && ent->message) { 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; VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); if (ent->spawnflags & 16) ent->s.effects |= EF_ANIM_ALL; if (ent->spawnflags & 64) ent->s.effects |= EF_ANIM_ALLFAST; // to simplify logic elsewhere, make non-teamed doors into a team of one if (!ent->team) ent->teammaster = ent; gi.linkentity (ent); // Zaero if ( IsZaeroMap() ) { // toggle active if (!(ent->active & DOOR_ACTIVE_TOGGLE)) ent->active = 0; } // end Zaero ent->postthink = train_move_children; // Knightmare- now supports movewith ent->nextthink = level.time + FRAMETIME; // Zaero if ( IsZaeroMap() ) { if ( (ent->health || ent->targetname) && !(ent->active & DOOR_ACTIVE_TOGGLE) ) ent->think = Think_CalcMoveSpeed; else ent->think = Think_SpawnDoorTrigger; } else { if (ent->health || ent->targetname) ent->think = Think_CalcMoveSpeed; else ent->think = Think_SpawnDoorTrigger; } // end Zaero } //PGM void Door_Activate (edict_t *self, edict_t *other, edict_t *activator) { self->use = NULL; if (self->health) { self->takedamage = DAMAGE_YES; self->die = door_killed; self->max_health = self->health; } if (self->health) self->think = Think_CalcMoveSpeed; else self->think = Think_SpawnDoorTrigger; self->nextthink = level.time + FRAMETIME; } //PGM /*QUAKED func_door_rotating (0 .5 .8) ? START_OPEN REVERSE CRUSHER NOMONSTER ANIMATED TOGGLE X_AXIS Y_AXIS EASY MED HARD DM COOP INACTIVE 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. "accel" if specified,is how much the rotation speed will increase each .1 sec. (default: no accel) REVERSE will cause the door to rotate in the opposite direction. INACTIVE will cause the door to be inactive until triggered. "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" 0) default 1) silent 2-4 not used 5-99 custom sound- e.g. doors/dr05_strt.wav, doors/dr05_mid.wav, doors/dr05_end.wav */ void SP_func_door_rotating (edict_t *ent) { ent->class_id = ENTITY_FUNC_DOOR_ROTATING; VectorClear (ent->s.angles); // set the axis of rotation VectorClear (ent->movedir); if (ent->spawnflags & DOOR_X_AXIS) ent->movedir[2] = 1.0; else if (ent->spawnflags & DOOR_Y_AXIS) ent->movedir[0] = 1.0; else // Z_AXIS ent->movedir[1] = 1.0; // check for reverse rotation if (ent->spawnflags & DOOR_REVERSE) VectorNegate (ent->movedir, ent->movedir); if (ent->distance) st.distance = ent->distance; if (!st.distance) { gi.dprintf("%s at %s with no distance set\n", ent->classname, vtos(ent->s.origin)); st.distance = 90; } VectorCopy (ent->s.angles, ent->pos1); VectorMA (ent->s.angles, st.distance, ent->movedir, ent->pos2); ent->moveinfo.distance = st.distance; ent->movetype = MOVETYPE_PUSH; ent->solid = SOLID_BSP; gi.setmodel (ent, ent->model); ent->blocked = door_blocked; ent->use = door_use; if (!ent->speed) ent->speed = 100; if (!ent->accel) ent->accel = ent->speed; if (!ent->decel) ent->decel = ent->speed; if (!ent->wait) ent->wait = 3; if (!ent->dmg) ent->dmg = 2; if (ent->sounds > 4 && ent->sounds < 100) // custom sounds { ent->moveinfo.sound_start = gi.soundindex (va("doors/dr%02i_strt.wav", ent->sounds)); ent->moveinfo.sound_middle = gi.soundindex (va("doors/dr%02i_mid.wav", ent->sounds)); ent->moveinfo.sound_end = gi.soundindex (va("doors/dr%02i_end.wav", ent->sounds)); } else if (ent->sounds != 1) { ent->moveinfo.sound_start = gi.soundindex ("doors/dr1_strt.wav"); ent->moveinfo.sound_middle = gi.soundindex ("doors/dr1_mid.wav"); ent->moveinfo.sound_end = gi.soundindex ("doors/dr1_end.wav"); } else { ent->moveinfo.sound_start = 0; ent->moveinfo.sound_middle = 0; ent->moveinfo.sound_end = 0; } if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; // if it starts open, switch the positions if (ent->spawnflags & DOOR_START_OPEN) { VectorCopy (ent->pos2, ent->s.angles); VectorCopy (ent->pos1, ent->pos2); VectorCopy (ent->s.angles, ent->pos1); VectorNegate (ent->movedir, ent->movedir); } if (ent->health) { ent->takedamage = DAMAGE_YES; ent->die = door_killed; ent->max_health = ent->health; } if (ent->targetname && ent->message) { gi.soundindex ("misc/talk.wav"); ent->touch = door_touch; } ent->do_not_rotate = 0; 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; VectorCopy (ent->s.origin, ent->moveinfo.start_origin); VectorCopy (ent->pos1, ent->moveinfo.start_angles); VectorCopy (ent->s.origin, ent->moveinfo.end_origin); VectorCopy (ent->pos2, ent->moveinfo.end_angles); if (ent->spawnflags & 16) ent->s.effects |= EF_ANIM_ALL; // to simplify logic elsewhere, make non-teamed doors into a team of one if (!ent->team) ent->teammaster = ent; ent->postthink = train_move_children; //supports movewith gi.linkentity (ent); ent->nextthink = level.time + FRAMETIME; if (ent->health || ent->targetname) ent->think = Think_CalcMoveSpeed; else ent->think = Think_SpawnDoorTrigger; //PGM if (ent->spawnflags & DOOR_INACTIVE) { ent->takedamage = DAMAGE_NO; ent->die = NULL; ent->think = NULL; ent->nextthink = 0; ent->use = Door_Activate; } //PGM } /* Lazarus: SP_func_door_rot_dh is identical to func_door_rotating, but allows you to build the model in a separate location (as with func_train, to get the lighting the way you'd like) then move at runtime to the origin of the "pathtarget". */ void func_door_rot_dh_init (edict_t *ent) { edict_t *new_origin; new_origin = G_Find (NULL, FOFS(targetname), ent->pathtarget); if (new_origin) { VectorCopy (new_origin->s.origin,ent->s.origin); VectorCopy (ent->s.origin, ent->moveinfo.start_origin); VectorCopy (ent->s.origin, ent->moveinfo.end_origin); gi.linkentity(ent); } ent->nextthink = level.time + FRAMETIME; if (ent->health || ent->targetname) ent->think = Think_CalcMoveSpeed; else ent->think = Think_SpawnDoorTrigger; } void SP_func_door_rot_dh (edict_t *ent) { SP_func_door_rotating(ent); if (!ent->pathtarget) return; // Wait a few frames so that we're sure pathtarget has been parsed. ent->think = func_door_rot_dh_init; ent->nextthink = level.time + 2*FRAMETIME; gi.linkentity(ent); } void smart_water_blocked (edict_t *self, edict_t *other) { if (!(other->svflags & SVF_MONSTER) && (!other->client) ) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100000, 1, 0, MOD_LAVA); // if it's still there, nuke it if (other && other->inuse) // PGM BecomeExplosion1 (other); return; } // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100, 1, 0, MOD_LAVA); } /*QUAKED func_water (0 .5 .8) ? START_OPEN SMART MUD 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. SMART causes the water to adjust its speed depending on distance to player. MUD turns the water to mud - difficult to move through, swallows players (speed = distance/accel, min 5, max self->speed) "accel" for smart water, the divisor to determine water speed. default 20 (smaller = faster) "health" maximum height of this water brush "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 */ void SP_func_water (edict_t *self) { vec3_t abs_movedir; self->class_id = ENTITY_FUNC_WATER; if (!VectorLength(self->movedir)) G_SetMovedir (self->s.angles, self->movedir); self->movetype = MOVETYPE_PUSH; self->solid = SOLID_BSP; gi.setmodel (self, self->model); if (self->spawnflags & 4) { level.mud_puddles++; self->svflags |= SVF_MUD; } if (!self->lip) self->lip = 0; st.lip = self->lip; switch (self->sounds) { default: break; case 1: // water self->moveinfo.sound_start = gi.soundindex ("world/mov_watr.wav"); self->moveinfo.sound_end = gi.soundindex ("world/stp_watr.wav"); break; case 2: // lava self->moveinfo.sound_start = gi.soundindex ("world/mov_watr.wav"); self->moveinfo.sound_end = gi.soundindex ("world/stp_watr.wav"); break; } // calculate second position VectorCopy (self->s.origin, self->pos1); abs_movedir[0] = fabs(self->movedir[0]); abs_movedir[1] = fabs(self->movedir[1]); abs_movedir[2] = fabs(self->movedir[2]); self->moveinfo.distance = abs_movedir[0] * self->size[0] + abs_movedir[1] * self->size[1] + abs_movedir[2] * self->size[2] - st.lip; VectorMA (self->pos1, self->moveinfo.distance, self->movedir, self->pos2); // if it starts open, switch the positions if (self->spawnflags & DOOR_START_OPEN) { VectorCopy (self->pos2, self->s.origin); VectorCopy (self->pos1, self->pos2); VectorCopy (self->s.origin, self->pos1); } VectorCopy (self->pos1, self->moveinfo.start_origin); VectorCopy (self->s.angles, self->moveinfo.start_angles); VectorCopy (self->pos2, self->moveinfo.end_origin); VectorCopy (self->s.angles, self->moveinfo.end_angles); self->moveinfo.state = STATE_BOTTOM; if (!self->speed) self->speed = 25; self->moveinfo.accel = self->moveinfo.decel = self->moveinfo.speed = self->speed; if ( self->spawnflags & 2) // smart water { // this is actually the divisor of the lowest player's distance to determine speed. // self->speed then becomes the cap of the speed. if (!self->accel) self->accel = 20; self->blocked = smart_water_blocked; } if (!self->wait) self->wait = -1; self->moveinfo.wait = self->wait; self->use = door_use; if (self->wait == -1) self->spawnflags |= DOOR_TOGGLE; self->classname = "func_door"; gi.linkentity (self); } /*QUAKED func_train (0 .5 .8) ? START_ON TOGGLE BLOCK_STOPS ROTATE ROT_CONST ANIM ANIM_FAST SMOOTH 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, needed if you want it to explode when destroyed health If this is set, the train will be destroyable noise looping sound to play when the train is in motion accel [1-100] specify a percentage to speed up every frame, i.e. 50 means increase speed by 50% every frame. decel Works exactly like accel. pitch_speed (Nose up & Down) in degrees per second (defualt 20) yaw_speed (Side-to-side "wiggle") in degrees per second (default 20) roll_speed (Banking) in degrees per second toward the next path corner's set roll turn_rider rotates player. 0=don't turn; 1=player turns with model The two below values are needed if the train is rotating and enclosed bleft Lower coordinate bounding a safe area in the train, default (-16, -16, -16) offset from train origin tright Upper coordinate bounding a safe area in the train, default (16, 16, 16) offset from train origin If the path_corner's wait = -1, then the train will stop and not restart unless the train is retriggered. To have other entities move with the train, set all the piece's team value to the same thing. They will move in unison. Better yet, you can set the train pieces' movewith values to the same as the train's targetname and they will move in unison, and also still be able to move relative to the train themselves, and can be attached and detached using target_movewith. NOTE: All the pieces must be created after the train entity, otherwise they will move ahead of it. */ void prox_movewith_host (edict_t *self); void train_move_prox (edict_t *self) { edict_t *ent = NULL; int i; if (!self->classname) return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!strcmp(ent->classname,"prox") && (ent->movewith_ent == self)) prox_movewith_host (ent); } } // Knightmare- this function moves the movewith children // Most of this code is by David Hyde, he got tired of just helping me piecemeal... void turret_stand (edict_t *self); void train_move_children (edict_t *self) { edict_t *ent = NULL; int i; vec3_t amove, angles; vec3_t forward, right, up; vec3_t parent_angle_change, offset; qboolean is_monster; if (!self->classname) return; if (!self->targetname) return; ent = g_edicts+1; // Skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname)) { ent->movewith_ent = self; // Backup and set movetype to push if (ent->movetype && (ent->movetype != MOVETYPE_PUSH)) // backup only non-push movetypes ent->oldmovetype = ent->movetype; ent->movetype = MOVETYPE_PUSH; // Set rotational offset if (!ent->movewith_set) { VectorCopy (ent->mins, ent->org_mins); VectorCopy (ent->maxs, ent->org_maxs); VectorSubtract (ent->s.origin, self->s.origin, ent->movewith_offset); // Remeber child's and parent's angles when child was attached VectorCopy (self->s.angles, ent->parent_attach_angles); VectorCopy (ent->s.angles, ent->child_attach_angles); // Knightmare- backup turret's old angle offset if (!strcmp(ent->classname, "monster_turret") && ent->offset) VectorCopy (ent->offset, ent->old_offset); ent->movewith_set = 1; } // Get change in parent's angles from when child was attached, this tells us how far we need to rotate VectorSubtract(self->s.angles, ent->parent_attach_angles, parent_angle_change); AngleVectors (parent_angle_change, forward, right, up); VectorNegate(right, right); // if (!strncmp(ent->classname,"monster_",8)) if (ent->svflags & SVF_MONSTER) is_monster = true; else is_monster = false; /* My old rotational movement code, the children always hanged off a bit... // Get length of offset offset_length = VectorLength (ent->movewith_offset); // Get angular vector vectoangles (ent->movewith_offset, dir); // Get rotation for this server frame VectorScale (self->avelocity, FRAMETIME, amove); // Add rotation VectorAdd (dir, amove, dir); // Reduce to angular vector AngleVectors (dir, dir, NULL, NULL); // Restore to original length VectorScale (dir, offset_length, ent->movewith_offset); // Add to origin of parent VectorAdd (self->s.origin, ent->movewith_offset, ent->s.origin); */ // For all but buttons, doors, and plats, move origin and match velocities if ( strcmp(ent->classname, "func_door") && strcmp(ent->classname, "func_button") && strcmp(ent->classname, "func_door_secret") && strcmp(ent->classname, "func_door_secret2") && strcmp(ent->classname, "func_plat") && strcmp(ent->classname, "func_plat2") && strcmp(ent->classname, "func_water") && strcmp(ent->classname, "turret_wall") && (strcmp(ent->classname, "monster_turret") || !(ent->spawnflags & 128)) ) { VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->s.origin); VectorMA (ent->s.origin, ent->movewith_offset[1], right, ent->s.origin); VectorMA (ent->s.origin, ent->movewith_offset[2], up, ent->s.origin); VectorCopy (self->velocity, ent->velocity); } // If parent is spinning, add appropriate velocities VectorSubtract(ent->s.origin, self->s.origin, offset); if (self->avelocity[PITCH] != 0) { ent->velocity[2] -= offset[0] * self->avelocity[PITCH] * M_PI / 180; ent->velocity[0] += offset[2] * self->avelocity[PITCH] * M_PI / 180; } if (self->avelocity[YAW] != 0) { ent->velocity[0] -= offset[1] * self->avelocity[YAW] * M_PI / 180.; ent->velocity[1] += offset[0] * self->avelocity[YAW] * M_PI / 180.; } if (self->avelocity[ROLL] != 0) { ent->velocity[1] -= offset[2] * self->avelocity[ROLL] * M_PI / 180; ent->velocity[2] += offset[1] * self->avelocity[ROLL] * M_PI / 180; } VectorScale (self->avelocity, FRAMETIME, amove); // Match angular velocities if (self->turn_rider) { if (!strcmp(ent->classname, "func_rotating")) { /* if (ent->movedir[0] > 0) ent->s.angles[1] = self->s.angles[1]; else if (ent->movedir[1] > 0) // ent->s.angles[1] += amove[1]; ent->s.angles[1] += (ent->child_attach_angles[1] + parent_angle_change[1]); else if (ent->movedir[2] > 0) ent->s.angles[1] = self->s.angles[1]; */ float cr, sr; float cy, sy; cy = cos((ent->s.angles[1]-parent_angle_change[1])*M_PI/180); sy = sin((ent->s.angles[1]-parent_angle_change[1])*M_PI/180); cr = cos((ent->s.angles[2]-parent_angle_change[2])*M_PI/180); sr = sin((ent->s.angles[2]-parent_angle_change[2])*M_PI/180); if (ent->movedir[0] > 0) { ent->s.angles[1] = parent_angle_change[1]; } else if (ent->movedir[1] > 0) { ent->s.angles[1] += amove[1]; ent->s.angles[2] = parent_angle_change[2]*cy; ent->s.angles[0] = -parent_angle_change[2]*sy; } else if (ent->movedir[2] > 0) { ent->s.angles[1] = parent_angle_change[0]*-sy; } } else if (!is_monster) { // Not a monster/actor. We want monsters/actors to be able to turn on // their own. if (!ent->do_not_rotate) { if ( !strcmp(ent->classname, "turret_breach") || !strcmp(ent->classname, "turret_base") ) VectorCopy (self->avelocity, ent->avelocity); else if (!strcmp(ent->classname, "func_door_rotating")) { VectorCopy (self->avelocity, ent->avelocity); // VectorCopy (parent_angle_change, ent->pos1); VectorAdd (ent->child_attach_angles, parent_angle_change, ent->pos1); VectorMA (ent->pos1, ent->moveinfo.distance, ent->movedir, ent->pos2); if (ent->moveinfo.state == STATE_TOP) VectorCopy (ent->pos2, ent->s.angles); else VectorCopy (ent->pos1, ent->s.angles); VectorCopy (ent->s.origin, ent->moveinfo.start_origin); VectorCopy (ent->pos1, ent->moveinfo.start_angles); VectorCopy (ent->s.origin, ent->moveinfo.end_origin); VectorCopy (ent->pos2, ent->moveinfo.end_angles); } //don't move child's angles if not moving self else if (ent->solid == SOLID_BSP) //&& (VectorLength(self->velocity) || VectorLength(self->avelocity)) ) { // Brush models always start out with angles=0,0,0 (after G_SetMoveDir). // Use more accuracy here. VectorCopy (self->avelocity, ent->avelocity); // VectorCopy (self->s.angles, ent->s.angles); VectorAdd (ent->child_attach_angles, parent_angle_change, ent->s.angles); } else if (ent->movetype == MOVETYPE_NONE) { VectorCopy (self->avelocity, ent->avelocity); // VectorCopy (self->s.angles, ent->s.angles); VectorAdd (ent->child_attach_angles, parent_angle_change, ent->s.angles); } else { // For point entities, best we can do is apply a delta to // the angles. This may result in foulups if anything gets blocked // VectorAdd (ent->s.angles, amove, ent->s.angles); VectorAdd (ent->child_attach_angles, parent_angle_change, ent->s.angles); } } } else if (is_monster) { // Knightmare- adjust monster_turret's aiming angles for yaw movement if (!strcmp(ent->classname, "monster_turret") && amove[YAW] != 0) { if (ent->offset && ent->old_offset && (ent->offset[1] != -1 && ent->offset[1] != -2)) { ent->offset[1] = ent->old_offset[1] + parent_angle_change[1]; // Don't let it hit -1 or -2, these are reserved for up and down while (ent->offset[1] < 0) ent->offset[1] += 360; while (ent->offset[1] >= 360) // Don't let it go over 360 ent->offset[1] -= 360; } // if it's inactive, rotate it like other point entities if (ent->s.frame < 2) VectorAdd (ent->child_attach_angles, parent_angle_change, ent->s.angles); // update aiming // else if (!strcmp(self->classname, "func_rotating") || !strcmp(self->classname, "func_rotating_dh")) // TurretAim (ent); } // otherwise don't re-angle turrets // else if (strcmp(ent->classname,"monster_turret")) // VectorAdd (ent->s.angles, amove, ent->s.angles); } } // Special cases: // Func_door/func_button and trigger fields if ( !strcmp(ent->classname, "func_door") || !strcmp(ent->classname, "func_button") || !strcmp(ent->classname, "func_door_secret") || !strcmp(ent->classname, "func_door_secret2") || !strcmp(ent->classname, "func_plat") || !strcmp(ent->classname, "func_plat2") || !strcmp(ent->classname, "func_water") || !strcmp(ent->classname, "turret_wall") || (!strcmp(ent->classname, "monster_turret") && ent->spawnflags & 128) ) { VectorAdd (ent->s.angles, ent->org_angles, angles); G_SetMovedir (angles, ent->movedir); // Knightmare- these entities need special calculations if (!strcmp(ent->classname, "monster_turret") || !strcmp(ent->classname, "turret_wall")) { vec3_t eforward, tangles; VectorAdd (ent->deploy_angles, parent_angle_change, tangles); AngleVectors (tangles, eforward, NULL, NULL); VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[1], right, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[2], up, ent->pos1); VectorMA (ent->pos1, 32, eforward, ent->pos2); } else if (!strcmp(ent->classname, "func_door_secret")) { vec3_t eforward, eright, eup; AngleVectors (ent->s.angles, eforward, eright, eup); VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->pos0); VectorMA (ent->pos0, ent->movewith_offset[1], right, ent->pos0); VectorMA (ent->pos0, ent->movewith_offset[2], up, ent->pos0); if (ent->spawnflags & 4) // SECRET_1ST_DOWN VectorMA (ent->pos0, -1 * ent->width, eup, ent->pos1); else VectorMA (ent->pos0, ent->side * ent->width, eright, ent->pos1); VectorMA (ent->pos1, ent->length, eforward, ent->pos2); } else if (!strcmp(ent->classname, "func_door_secret2")) { vec3_t eforward, eright, eup; AngleVectors (ent->s.angles, eforward, eright, eup); VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->pos0); VectorMA (ent->pos0, ent->movewith_offset[1], right, ent->pos0); VectorMA (ent->pos0, ent->movewith_offset[2], up, ent->pos0); if (ent->spawnflags & 64) // SEC_MOVE_FORWARD VectorScale (eforward, ent->length, eforward); else VectorScale (eforward, ent->length * -1 , eforward); if (ent->spawnflags & 32) // SEC_MOVE_RIGHT VectorScale (eright, ent->width, eright); else VectorScale (eright, ent->width * -1, eright); if (ent->spawnflags & 4) // SEC_1ST_DOWN { VectorAdd (ent->pos0, eforward, ent->pos1); VectorAdd (ent->pos1, eright, ent->pos2); } else { VectorAdd (ent->pos0, eright, ent->pos1); VectorAdd (ent->pos1, eforward, ent->pos2); } } else if (!strcmp(ent->classname, "func_plat") || !strcmp(ent->classname, "func_plat2")) { VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[1], right, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[2], up, ent->pos1); VectorCopy (ent->pos1, ent->pos2); ent->pos2[2] -= ent->moveinfo.distance; VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); } else // func_button or func_door or func_water { VectorMA (self->s.origin, ent->movewith_offset[0], forward, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[1], right, ent->pos1); VectorMA (ent->pos1, ent->movewith_offset[2], up, ent->pos1); VectorMA (ent->pos1, ent->moveinfo.distance, ent->movedir, ent->pos2); VectorCopy (ent->pos1, ent->moveinfo.start_origin); VectorCopy (ent->s.angles, ent->moveinfo.start_angles); VectorCopy (ent->pos2, ent->moveinfo.end_origin); VectorCopy (ent->s.angles, ent->moveinfo.end_angles); } if (ent->moveinfo.state == STATE_LOWEST || ent->moveinfo.state == STATE_BOTTOM || ent->moveinfo.state == STATE_TOP) { // Velocities for door/button movement are handled in normal // movement routines VectorCopy (self->velocity, ent->velocity); // Sanity insurance: if (!strcmp(ent->classname, "func_plat") || !strcmp(ent->classname, "func_plat2")) { // top and bottom states are reversed for plats if (ent->moveinfo.state == STATE_BOTTOM) VectorCopy (ent->pos2, ent->s.origin); else if (ent->moveinfo.state == STATE_TOP) VectorCopy (ent->pos1, ent->s.origin); } else { // STATE_LOWEST is for func_door_secret in its starting postion if (ent->moveinfo.state == STATE_LOWEST) VectorCopy (ent->pos0, ent->s.origin); else if (ent->moveinfo.state == STATE_BOTTOM) VectorCopy (ent->pos1, ent->s.origin); else if (ent->moveinfo.state == STATE_TOP) VectorCopy (ent->pos2, ent->s.origin); } } } if (amove[YAW]) { // Cross fingers here... move bounding boxes of doors and buttons if ( !strcmp(ent->classname, "func_door") || !strcmp(ent->classname, "func_button") || !strcmp(ent->classname, "func_door_secret") || !strcmp(ent->classname, "func_door_secret2") || !strcmp(ent->classname, "func_plat") || !strcmp(ent->classname, "func_plat2") || !strcmp(ent->classname, "func_water") || (ent->solid == SOLID_TRIGGER) || !strcmp(ent->classname, "turret_wall") || (!strcmp(ent->classname, "monster_turret") && ent->spawnflags & 128) ) { float ca, sa, yaw; vec3_t p00, p01, p10, p11; // Adjust bounding box for yaw yaw = ent->s.angles[YAW] * M_PI / 180.; ca = cos(yaw); sa = sin(yaw); p00[0] = ent->org_mins[0]*ca - ent->org_mins[1]*sa; p00[1] = ent->org_mins[1]*ca + ent->org_mins[0]*sa; p01[0] = ent->org_mins[0]*ca - ent->org_maxs[1]*sa; p01[1] = ent->org_maxs[1]*ca + ent->org_mins[0]*sa; p10[0] = ent->org_maxs[0]*ca - ent->org_mins[1]*sa; p10[1] = ent->org_mins[1]*ca + ent->org_maxs[0]*sa; p11[0] = ent->org_maxs[0]*ca - ent->org_maxs[1]*sa; p11[1] = ent->org_maxs[1]*ca + ent->org_maxs[0]*sa; ent->mins[0] = p00[0]; ent->mins[0] = min(ent->mins[0], p01[0]); ent->mins[0] = min(ent->mins[0], p10[0]); ent->mins[0] = min(ent->mins[0], p11[0]); ent->mins[1] = p00[1]; ent->mins[1] = min(ent->mins[1], p01[1]); ent->mins[1] = min(ent->mins[1], p10[1]); ent->mins[1] = min(ent->mins[1], p11[1]); ent->maxs[0] = p00[0]; ent->maxs[0] = max(ent->maxs[0], p01[0]); ent->maxs[0] = max(ent->maxs[0], p10[0]); ent->maxs[0] = max(ent->maxs[0], p11[0]); ent->maxs[1] = p00[1]; ent->maxs[1] = max(ent->maxs[1], p01[1]); ent->maxs[1] = max(ent->maxs[1], p10[1]); ent->maxs[1] = max(ent->maxs[1], p11[1]); } } // FMOD if (!Q_stricmp(ent->classname, "target_playback")) FMOD_UpdateSpeakerPos(ent); // Correct func_door_rotating start/end positions /* if (!strcmp(ent->classname,"func_door_rotating") && (!ent->do_not_rotate)) { VectorCopy (ent->s.angles, ent->pos1); VectorMA (ent->s.angles, ent->moveinfo.distance, ent->movedir, ent->pos2); VectorCopy (ent->s.origin, ent->moveinfo.start_origin); VectorCopy (ent->pos1, ent->moveinfo.start_angles); VectorCopy (ent->s.origin, ent->moveinfo.end_origin); VectorCopy (ent->pos2, ent->moveinfo.end_angles); }*/ ent->s.event = self->s.event; gi.linkentity(ent); } } // Knightmare- now move prox mines if (self->spawnflags & TRAIN_SPLINE) train_move_prox (self); } /* void Throw_child_debris (edict_t *self) { vec3_t origin; vec3_t chunkorigin; vec3_t size; int count; int mass; // bmodel origins are (0 0 0), we need to adjust that here VectorScale (self->size, 0.5, size); VectorAdd (self->absmin, size, origin); VectorCopy (origin, self->s.origin); self->takedamage = DAMAGE_NO; // start chunks towards the center VectorScale (size, 0.5, size); mass = self->mass; if (!mass) mass = 75; // big chunks if (mass >= 100) { count = mass / 100; if (count > 8) count = 8; while (count--) { chunkorigin[0] = origin[0] + crandom() * size[0]; chunkorigin[1] = origin[1] + crandom() * size[1]; chunkorigin[2] = origin[2] + crandom() * size[2]; ThrowDebris (self, "models/objects/debris1/tris.md2", 1, chunkorigin, 0, 0); } } // small chunks count = mass / 25; if (count > 16) count = 16; while (count--) { chunkorigin[0] = origin[0] + crandom() * size[0]; chunkorigin[1] = origin[1] + crandom() * size[1]; chunkorigin[2] = origin[2] + crandom() * size[2]; ThrowDebris (self, "models/objects/debris2/tris.md2", 2, chunkorigin, 0, 0); } }*/ void train_kill_children (edict_t *self) { edict_t *ent = NULL; int i; if (!self->targetname) return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname)) { //recursively destroy each child's children train_kill_children (ent); //if (ent->solid == SOLID_BSP) // Throw_child_debris(ent); //gib monsters if ((ent->svflags & SVF_MONSTER) || (ent->svflags & SVF_DEADMONSTER)) T_Damage (ent, ent, ent, vec3_origin, ent->s.origin, vec3_origin, (ent->health + 999), self->dmg, DAMAGE_NO_PROTECTION, MOD_TRIGGER_HURT); // else if (ent->solid == SOLID_BSP) // func_explosive_die (ent, self, self, 100, ent->s.origin); else if (ent->mass >= 400) BecomeExplosion3 (ent); else BecomeExplosion1 (ent); } } } void train_remove_children (edict_t *self) { edict_t *ent = NULL; int i; if (!self->targetname) return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname)) { //recursively remove each child's children train_remove_children (ent); G_FreeEdict(ent); } } } //Knightmare- these functions fade away the movewith children of func_breakaway #ifdef KMQUAKE2_ENGINE_MOD void fade_child (edict_t *ent); void fade_children (edict_t *self) { edict_t *ent = NULL; int i; if (!self->targetname) return; if (strcmp(self->classname, "func_breakaway")) //only for func_breakaway return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname) && (ent->s.modelindex > 0)) { if (ent->s.renderfx & RF_TRANSLUCENT) ent->s.alpha = 0.70; else if (ent->s.effects & EF_SPHERETRANS) ent->s.alpha = 0.30; else if (!(self->s.alpha) || self->s.alpha <= 0.0) ent->s.alpha = 1.00; fade_child (ent); } } } void fade_child (edict_t *ent) { ent->s.alpha -= 0.05; if (ent->s.alpha <= 0.0) { G_FreeEdict(ent); return; } ent->nextthink = level.time + 0.2; ent->think = fade_child; gi.linkentity (ent); } // Gotta have this for extractfuncs... void fade_children2 (edict_t *self) { } #else void fade_children (edict_t *self) { edict_t *ent = NULL; int i; if (!self->targetname) return; if (strcmp(self->classname, "func_breakaway")) //only for func_breakaway return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname) && (ent->s.modelindex > 0) && !(ent->s.effects & EF_SPHERETRANS) ) ent->s.renderfx |= RF_TRANSLUCENT; } } void fade_children2 (edict_t *self) { edict_t *ent = NULL; int i; if (!self->targetname) return; if (strcmp(self->classname, "func_breakaway")) //only for func_breakaway return; ent = g_edicts+1; // skip the worldspawn for (i = 1; i < globals.num_edicts; i++, ent++) { if (!ent->classname) continue; if (!ent->movewith) continue; if (!ent->inuse) return; if (!strcmp(ent->movewith, self->targetname)) { if (ent->s.modelindex > 0) { ent->s.effects |= EF_SPHERETRANS; ent->s.renderfx &= ~RF_TRANSLUCENT; } ent->nextthink = level.time + 2; ent->think = G_FreeEdict; } } } #endif void train_blocked (edict_t *self, edict_t *other) { if (!(other->svflags & SVF_MONSTER) && (!other->client) ) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, 100000, 1, 0, MOD_CRUSH); // if it's still there, nuke it if (other && other->inuse) { // Lazarus: Some of our ents don't have origin near the model vec3_t save; VectorCopy (other->s.origin,save); VectorMA (other->absmin, 0.5, other->size, other->s.origin); BecomeExplosion1 (other); } return; } VectorClear (self->avelocity); // don't turn children when blocked // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } if (level.time < self->touch_debounce_time) return; if (!self->dmg) return; self->touch_debounce_time = level.time + 0.5; T_Damage (other, self, self, vec3_origin, other->s.origin, vec3_origin, self->dmg, 1, 0, MOD_CRUSH); } void train_wait (edict_t *self) { if (self->target_ent->pathtarget) { char *savetarget; edict_t *ent; ent = self->target_ent; savetarget = ent->target; ent->target = ent->pathtarget; G_UseTargets (ent, self->activator); ent->target = savetarget; // make sure we didn't get killed by a killtarget if (!self->inuse) return; } // Lazarus: rotating trains if (self->target_ent && !(IsRogueMap())) { //Knightmare- skip this for Rogue maps // train speed changes are handled differently if (self->target_ent->speed) { self->speed = self->target_ent->speed; self->moveinfo.speed = self->speed; self->moveinfo.accel = self->moveinfo.decel = self->moveinfo.speed; } if (self->spawnflags & TRAIN_ROTATE) { if (self->target_ent->pitch_speed) self->pitch_speed = self->target_ent->pitch_speed; if (self->target_ent->yaw_speed) self->yaw_speed = self->target_ent->yaw_speed; if (self->target_ent->roll_speed) self->roll_speed = self->target_ent->roll_speed; } else if (self->spawnflags & TRAIN_ROT_CONST) { if (self->target_ent->pitch_speed) self->pitch_speed += self->target_ent->pitch_speed; if (self->target_ent->yaw_speed) self->yaw_speed += self->target_ent->yaw_speed; if (self->target_ent->roll_speed) self->roll_speed += self->target_ent->roll_speed; } } if (self->moveinfo.wait) { // Spline trains stop rotating when waiting if (self->spawnflags & TRAIN_SPLINE) { VectorClear (self->avelocity); VectorClear (self->velocity); train_move_children(self); } if (self->moveinfo.wait > 0) { // Lazarus: turn off animation for stationary trains if (!strcmp(self->classname, "func_train")) self->s.effects &= ~(EF_ANIM_ALL | EF_ANIM_ALLFAST); self->nextthink = level.time + self->moveinfo.wait; self->think = train_next; } else if (self->spawnflags & TRAIN_TOGGLE) // && wait < 0 { // PMM - clear target_ent, let train_next get called when we get used if (IsRogueMap()) // Knightmare- only do this for Rogue maps self->target_ent = NULL; else train_next (self); // pmm self->spawnflags &= ~TRAIN_START_ON; VectorClear (self->velocity); if ( !(self->spawnflags & TRAIN_ROT_CONST) ) VectorClear (self->avelocity); // Knightmare added // Lazarus: turn off animation for stationary trains if (!strcmp(self->classname, "func_train")) self->s.effects &= ~(EF_ANIM_ALL | EF_ANIM_ALLFAST); self->nextthink = 0; } if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC self->s.sound = 0; } } else { if (self->spawnflags & TRAIN_SPLINE) train_move_children(self); train_next (self); } } //PGM void train_piece_wait (edict_t *self) { } //PGM // // Rroff rotating train // void train_rotate (edict_t *self); void train_children_think (edict_t *self) { if (!self->enemy) return; if (self->enemy->spawnflags & TRAIN_ROTATE) { // The the train was changed from TRAIN_ROT_CONST to TRAIN_ROTATE // by a target_change... get da hell outta here. self->think = train_rotate; self->think(self); return; } // if (self->enemy->movewith_next && (self->enemy->movewith_next->movewith_ent == self->enemy)) // { // set_child_movement(self->enemy); // self->nextthink = level.time + FRAMETIME; // } else // if (level.time < 2) self->nextthink = level.time + FRAMETIME; } void train_rotate (edict_t *self) { float cur_yaw, idl_yaw, cur_pitch, idl_pitch, cur_roll, idl_roll; float yaw_vel, pitch_vel, roll_vel; float Dist_1, Dist_2, Distance; float train_speed; if (!self->enemy || !self->enemy->inuse) return; if (self->enemy->spawnflags & TRAIN_ROT_CONST) { // The the train was changed from TRAIN_ROTATE to TRAIN_ROT_CONST // by a target_change... get da hell outta here. self->think = train_children_think; self->think(self); return; } cur_yaw = self->enemy->s.angles[YAW]; idl_yaw = self->enemy->ideal_yaw; cur_pitch = self->enemy->s.angles[PITCH]; idl_pitch = self->enemy->ideal_pitch; cur_roll = self->enemy->s.angles[ROLL]; idl_roll = self->enemy->ideal_roll; // gi.dprintf("current angles=%g %g %g, ideal angles=%g %g %g\n", // cur_pitch,cur_yaw,cur_roll,idl_pitch,idl_yaw,idl_roll); yaw_vel = self->enemy->yaw_speed; pitch_vel = self->enemy->pitch_speed; roll_vel = self->enemy->roll_speed; if (cur_yaw == idl_yaw) self->enemy->avelocity[1] = 0; if (cur_pitch == idl_pitch) self->enemy->avelocity[0] = 0; if (cur_roll == idl_roll) self->enemy->avelocity[2] = 0; if ((cur_yaw == idl_yaw) && (cur_pitch == idl_pitch) && (cur_roll == idl_roll) ) { self->nextthink = level.time + FRAMETIME; return; } // YAW CHANGE CODE if (cur_yaw != idl_yaw) { if (cur_yaw < idl_yaw) { Dist_1 = (idl_yaw - cur_yaw)*10; Dist_2 = ((360 - idl_yaw) + cur_yaw)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < yaw_vel) yaw_vel = Distance; self->enemy->avelocity[YAW] = yaw_vel; } else { Distance = Dist_2; if (Distance < yaw_vel) yaw_vel = Distance; self->enemy->avelocity[YAW] = -yaw_vel; } } else { Dist_1 = (cur_yaw - idl_yaw)*10; Dist_2 = ((360 - cur_yaw) + idl_yaw)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < yaw_vel) yaw_vel = Distance; self->enemy->avelocity[YAW] = -yaw_vel; } else { Distance = Dist_2; if (Distance < yaw_vel) yaw_vel = Distance; self->enemy->avelocity[YAW] = yaw_vel; } } // gi.dprintf ("train cy: %g iy: %g ys: %g\n", cur_yaw, idl_yaw, self->enemy->avelocity[1]); if (self->enemy->s.angles[YAW] < 0) self->enemy->s.angles[YAW] += 360; if (self->enemy->s.angles[YAW] >= 360) self->enemy->s.angles[YAW] -= 360; } // Knightmare added // PITCH CHANGE CODE if (cur_pitch != idl_pitch) { if (cur_pitch < idl_pitch) { Dist_1 = (idl_pitch - cur_pitch)*10; Dist_2 = ((360 - idl_pitch) + cur_pitch)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < pitch_vel) pitch_vel = Distance; self->enemy->avelocity[PITCH] = pitch_vel; } else { Distance = Dist_2; if (Distance < pitch_vel) pitch_vel = Distance; self->enemy->avelocity[PITCH] = -pitch_vel; } } else { Dist_1 = (cur_pitch - idl_pitch)*10; Dist_2 = ((360 - cur_pitch) + idl_pitch)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < pitch_vel) pitch_vel = Distance; self->enemy->avelocity[PITCH] = -pitch_vel; } else { Distance = Dist_2; if (Distance < pitch_vel) pitch_vel = Distance; self->enemy->avelocity[PITCH] = pitch_vel; } } if (self->enemy->s.angles[PITCH] < 0) self->enemy->s.angles[PITCH] += 360; if (self->enemy->s.angles[PITCH] >= 360) self->enemy->s.angles[PITCH] -= 360; } // ROLL CHANGE CODE if (cur_roll != idl_roll) { if (cur_roll < idl_roll) { Dist_1 = (idl_roll - cur_roll)*10; Dist_2 = ((360 - idl_roll) + cur_roll)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < roll_vel) roll_vel = Distance; self->enemy->avelocity[ROLL] = roll_vel; } else { Distance = Dist_2; if (Distance < roll_vel) roll_vel = Distance; self->enemy->avelocity[ROLL] = -roll_vel; } } else { Dist_1 = (cur_roll - idl_roll)*10; Dist_2 = ((360 - cur_roll) + idl_roll)*10; if (Dist_1 < Dist_2) { Distance = Dist_1; if (Distance < roll_vel) roll_vel = Distance; self->enemy->avelocity[ROLL] = -roll_vel; } else { Distance = Dist_2; if (Distance < roll_vel) roll_vel = Distance; self->enemy->avelocity[ROLL] = roll_vel; } } if (self->enemy->s.angles[ROLL] < 0) self->enemy->s.angles[ROLL] += 360; if (self->enemy->s.angles[ROLL] >= 360) self->enemy->s.angles[ROLL] -= 360; } //ys = self->enemy->avelocity[1]; //gi.bprintf (PRINT_HIGH, "train cy: %i iy: %i ys: %i\n", cur_yaw, idl_yaw, ys); train_speed = VectorLength (self->enemy->velocity); if (train_speed == 0) //Don't rotate if we're stopped VectorClear (self->enemy->avelocity); self->nextthink = level.time + FRAMETIME; } void train_next (edict_t *self) { edict_t *ent; vec3_t dest; qboolean first; vec3_t daoldorigin; vec3_t v, angles; //Rroff // Knightmare added vec3_t adjusted_pathpoint; vec3_t corner_offset = {1, 1, 1}; // Knightmare- func_train_origin support // if (self->spawnflags & TRAIN_ORIGIN) // gi.dprintf ("train_next: pathing by train origin\n"); first = true; again: if (!self->target) { // gi.dprintf ("train_next: no next target\n"); return; } if (self->movetype == MOVETYPE_TOSS) { // gi.dprintf ("train_next: Strogg ship shot down\n"); return; } ent = G_PickTarget (self->target); if (!ent) { gi.dprintf ("train_next: bad target %s\n", self->target); return; } // Knightmare- calc the real target for the train's mins, // since that is 1 unit below the corner of the bmodel in all 3 dimensions if ( adjust_train_corners->value ) VectorSubtract(ent->s.origin, corner_offset, adjusted_pathpoint); else VectorCopy (ent->s.origin, adjusted_pathpoint); self->target = ent->target; // check for a teleport path_corner if (ent->spawnflags & 1) { if (!first) { gi.dprintf ("connected teleport path_corners, see %s at %s\n", ent->classname, vtos(ent->s.origin)); return; } first = false; VectorCopy (self->s.origin, daoldorigin); // Knightmare- copy old orgin for reference if (self->spawnflags & TRAIN_ORIGIN) // Knightmare- func_train_origin support VectorCopy (ent->s.origin, self->s.origin); else VectorSubtract (adjusted_pathpoint, self->mins, self->s.origin); // was ent->s.origin VectorCopy (self->s.origin, self->s.old_origin); self->s.event = EV_OTHER_TELEPORT; gi.linkentity (self); // Knightmare- move movewith children if (self->targetname) { edict_t *e = NULL; vec3_t dir; int i; VectorSubtract (self->s.origin, daoldorigin, dir); e = g_edicts+1; // skip the worldspawn // cycle through all ents to find ones to move with for (i = 1; i < globals.num_edicts; i++, e++) { if (!e->classname) continue; if (!e->movewith) continue; if (!strcmp(e->movewith, self->targetname)) { VectorAdd (dir, e->s.origin, e->s.origin); VectorCopy (e->s.origin, e->s.old_origin); e->s.event = EV_OTHER_TELEPORT; gi.linkentity (e); } } } goto again; } // PGM // DHW: This shouldn't go here... we're one path_corner behind. // Set speed before train_next is called // Knightmare- this is only used for Rogue maps // train speed changes are handled differently if ((ent->speed) && IsRogueMap()) { self->speed = ent->speed; self->moveinfo.speed = ent->speed; if (ent->accel) self->moveinfo.accel = ent->accel; else self->moveinfo.accel = ent->speed; if (ent->decel) self->moveinfo.decel = ent->decel; else self->moveinfo.decel = ent->speed; self->moveinfo.current_speed = 0; } //PGM self->moveinfo.wait = ent->wait; self->target_ent = ent; if (!(self->flags & FL_TEAMSLAVE)) { if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } if (self->spawnflags & TRAIN_ORIGIN) // Knightmare- func_train_origin support VectorCopy (ent->s.origin, dest); else VectorSubtract (adjusted_pathpoint, self->mins, dest); // was ent->s.origin self->moveinfo.state = STATE_TOP; VectorCopy (self->s.origin, self->moveinfo.start_origin); VectorCopy (dest, self->moveinfo.end_origin); if (self->spawnflags & TRAIN_SPLINE) { float speed; int frames; self->from = self->to; self->to = ent; self->moveinfo.bezier_ratio = 0.0; VectorSubtract(dest,self->s.origin,v); self->moveinfo.distance = VectorLength(v); frames = (int)(10 * self->moveinfo.distance/self->speed); if (frames < 1) frames = 1; speed = (10*self->moveinfo.distance)/(float)frames; self->moveinfo.speed = speed; self->moveinfo.accel = self->moveinfo.decel = self->moveinfo.speed; train_move_children (self); } // Rroff rotating if (self->spawnflags & TRAIN_ROTATE && !(ent->spawnflags & 2)) { // VectorSubtract (ent->s.origin, self->s.origin, v); // self->ideal_yaw = vectoyaw(v); // self->ideal_pitch = vectopitch(v); if (self->spawnflags & TRAIN_ORIGIN) { // Knightmare- func_train_origin support VectorSubtract(ent->s.origin, self->s.origin, v); } else { VectorAdd (self->s.origin, self->mins, v); VectorSubtract(adjusted_pathpoint, v, v); // was ent->s.origin } vectoangles2(v, angles); self->ideal_pitch = angles[PITCH]; self->ideal_yaw = angles[YAW]; if (self->ideal_pitch < 0) self->ideal_pitch += 360; self->ideal_roll = ent->roll; VectorClear (self->movedir); self->movedir[1] = 1.0; } // Knightmare- add angular speed for ROT_CONST trains if (self->spawnflags & TRAIN_ROT_CONST) { self->avelocity[PITCH] = self->pitch_speed; self->avelocity[YAW] = self->yaw_speed; self->avelocity[ROLL] = self->roll_speed; } Move_Calc (self, dest, train_wait); self->spawnflags |= TRAIN_START_ON; //PGM if (self->team && IsRogueMap()) { edict_t *e; vec3_t dir, dst; VectorSubtract (dest, self->s.origin, dir); for (e=self->teamchain; e; e = e->teamchain) { // Knightmare- don't move other func_trains with team- // this fixes the broken conveyors // if (strcmp(e->classname, "func_train") && strcmp(e->classname, "model_train")) { VectorAdd (dir, e->s.origin, dst); VectorCopy (e->s.origin, e->moveinfo.start_origin); VectorCopy (dst, e->moveinfo.end_origin); e->moveinfo.state = STATE_TOP; e->speed = self->speed; e->moveinfo.speed = self->moveinfo.speed; e->moveinfo.accel = self->moveinfo.accel; e->moveinfo.decel = self->moveinfo.decel; e->movetype = MOVETYPE_PUSH; Move_Calc (e, dst, train_piece_wait); } } } //PGM } void train_resume (edict_t *self) { edict_t *ent; vec3_t dest; vec3_t adjusted_pathpoint; vec3_t corner_offset = {1,1,1}; ent = self->target_ent; // Knightmare- calc the real target for the train's mins, // since that is 1 unit below the corner of the bmodel in all 3 dimensions if (adjust_train_corners->value) VectorSubtract(ent->s.origin, corner_offset, adjusted_pathpoint); else VectorCopy (ent->s.origin, adjusted_pathpoint); if (self->spawnflags & TRAIN_ORIGIN) // Knightmare- func_train_origin support VectorCopy (ent->s.origin, dest); else VectorSubtract (adjusted_pathpoint, self->mins, dest); // was ent->s.origin self->moveinfo.state = STATE_TOP; VectorCopy (self->s.origin, self->moveinfo.start_origin); VectorCopy (dest, self->moveinfo.end_origin); Move_Calc (self, dest, train_wait); self->spawnflags |= TRAIN_START_ON; // Lazarus if (self->spawnflags & TRAIN_ROT_CONST) { self->avelocity[0] = self->pitch_speed; self->avelocity[1] = self->yaw_speed; self->avelocity[2] = self->roll_speed; } } #define MODEL_TRAIN_ROTATE 32 #define MODEL_TRAIN_ROT_CONST 64 void func_train_find (edict_t *self) { edict_t *ent; vec3_t daoldorigin; // Knightmare added vec3_t adjusted_pathpoint; vec3_t corner_offset = {1,1,1}; if (!self->target) { gi.dprintf ("train_find: no target\n"); return; } ent = G_PickTarget (self->target); if (!ent) { gi.dprintf ("train_find: target %s not found\n", self->target); return; } // Lazarus: trains can change speed at path_corners if (ent->speed) { self->speed = ent->speed; self->moveinfo.speed = self->speed; self->moveinfo.accel = self->moveinfo.decel = self->moveinfo.speed; } if (ent->pitch_speed) self->pitch_speed = ent->pitch_speed; if (ent->yaw_speed) self->yaw_speed = ent->yaw_speed; if (ent->roll_speed) self->roll_speed = ent->roll_speed; // Lazarus: spline stuff self->from = self->to = ent; // end spline stuff self->target = ent->target; // Knightmare- calc the real target for the train's mins, //since that is 1 unit below the corner of the bmodel in all 3 dimensions if (adjust_train_corners->value) VectorSubtract(ent->s.origin, corner_offset, adjusted_pathpoint); else VectorCopy (ent->s.origin, adjusted_pathpoint); // Rroff // Knightmare- don't think_rotate if that flag isn't set // This fixes a bug with trains becoming invisble in some maps if (self->spawnflags & TRAIN_ROTATE) { ent->think = train_rotate; ent->enemy = self; ent->nextthink = level.time + FRAMETIME; } //end Rroff else if (self->spawnflags & TRAIN_SPLINE) { ent->think = Train_Move_Spline; ent->enemy = self; ent->nextthink = level.time + FRAMETIME; } else { ent->think = train_children_think; ent->enemy = self; ent->nextthink = level.time + FRAMETIME; } self->postthink = train_move_children; // Knightmare- supports movewith VectorCopy (self->s.origin, daoldorigin); // Knightmare- copy old orgin for reference if (self->spawnflags & TRAIN_ORIGIN) // Knightmare- func_train_origin support VectorCopy (ent->s.origin, self->s.origin); else VectorSubtract (adjusted_pathpoint, self->mins, self->s.origin); // was ent->s.origin VectorCopy (self->s.origin, self->s.old_origin); gi.linkentity (self); // Knightmare- move movewith pieces to spawning point if (self->targetname) { edict_t *e = NULL; vec3_t dir; int i; VectorSubtract (self->s.origin, daoldorigin, dir); e = g_edicts+1; // skip the worldspawn // cycle through all ents to find ones to move with for (i = 1; i < globals.num_edicts; i++, e++) { if (!e->classname) continue; if (!e->movewith) continue; if (!strcmp(e->movewith, self->targetname)) { // Knightmare- save distance moved for turret_breach to add to its firing point if (!strcmp(e->classname, "turret_breach") || !strcmp(e->classname, "model_turret")) VectorCopy (dir, e->aim_point); VectorAdd (dir, e->s.origin, e->s.origin); VectorCopy (e->s.origin, e->s.old_origin); //This is now the child's original position if ( (e->solid == SOLID_BSP) && strcmp(e->classname, "func_rotating") && strcmp(e->classname, "func_door_rotating")) ReInitialize_Entity(e); gi.linkentity (e); } } } // Knightmare- no sound or animation if we're not moving yet // sound is turned on in train_next self->s.sound = 0; self->s.effects &= ~(EF_ANIM_ALL | EF_ANIM_ALLFAST); // if not triggered, start immediately if (!self->targetname) self->spawnflags |= TRAIN_START_ON; if (self->spawnflags & TRAIN_START_ON) { // Lazarus: animated trains if (!strcmp(self->classname, "func_train")) { if (self->spawnflags & TRAIN_ANIM) self->s.effects |= EF_ANIM_ALL; else if (self->spawnflags & TRAIN_ANIM_FAST) self->s.effects |= EF_ANIM_ALLFAST; } self->nextthink = level.time + FRAMETIME; self->think = train_next; self->activator = self; } } void train_use (edict_t *self, edict_t *other, edict_t *activator) { self->activator = activator; if (self->spawnflags & TRAIN_START_ON) { if (!(self->spawnflags & TRAIN_TOGGLE)) return; self->spawnflags &= ~TRAIN_START_ON; VectorClear (self->velocity); VectorClear (self->avelocity); // Knightmare added if (!strcmp(self->classname, "func_train")) self->s.effects &= ~(EF_ANIM_ALL | EF_ANIM_ALLFAST); self->nextthink = 0; } else { if (!strcmp(self->classname, "func_train")) { if (self->spawnflags & TRAIN_ANIM) self->s.effects |= EF_ANIM_ALL; else if (self->spawnflags & TRAIN_ANIM_FAST) self->s.effects |= EF_ANIM_ALLFAST; } if (self->spawnflags & TRAIN_SPLINE) { // Back up a step self->moveinfo.bezier_ratio -= self->moveinfo.speed * FRAMETIME / self->moveinfo.distance; if (self->moveinfo.bezier_ratio < 0.) self->moveinfo.bezier_ratio = 0.; } if (self->target_ent) train_resume(self); else train_next(self); } } void SP_target_speaker (edict_t *ent); void SP_func_train (edict_t *self) { self->class_id = ENTITY_FUNC_TRAIN; self->movetype = MOVETYPE_PUSH; VectorClear (self->s.angles); self->blocked = train_blocked; if (self->spawnflags & TRAIN_BLOCK_STOPS) self->dmg = 0; else { if (!self->dmg) self->dmg = 100; } self->solid = SOLID_BSP; gi.setmodel (self, self->model); // usermodel (for alias model vehicles, etc) goes on modelindex2 if (self->usermodel && strlen(self->usermodel)) { char modelname[256]; // check for "models/" already in path if ( !strncmp(self->usermodel, "models/", 7) ) Com_sprintf(modelname, sizeof(modelname), "%s", self->usermodel); else Com_sprintf(modelname, sizeof(modelname), "models/%s", self->usermodel); self->s.modelindex2 = gi.modelindex (modelname); } if (self->spawnflags & TRAIN_ROTATE) //Lazarus move_origin code { self->flags |= FL_ROTTRAIN; if ( (!VectorLength(self->bleft)) && (!VectorLength(self->tright)) ) { VectorSet(self->bleft, -16, -16, -16); VectorSet(self->tright, 16, 16, 16); } VectorAdd (self->bleft,self->tright,self->move_origin); VectorScale (self->move_origin,0.5,self->move_origin); } if (self->spawnflags & TRAIN_SMOOTH) self->smooth_movement = 1; else self->smooth_movement = 0; // David Hyde's code for the origin offset VectorAdd (self->absmin, self->absmax, self->origin_offset); VectorScale (self->origin_offset, 0.5, self->origin_offset); VectorSubtract(self->origin_offset, self->s.origin, self->origin_offset); if (self->attenuation <= 0) self->attenuation = ATTN_IDLE; if (st.noise) { // create a speaker entity at center of bmodel edict_t *speaker; self->noise_index = gi.soundindex (st.noise); speaker = G_Spawn(); speaker->classname = "moving_speaker"; speaker->s.sound = 0; speaker->volume = 1; speaker->attenuation = self->attenuation; // was 3 speaker->owner = self; speaker->think = moving_speaker_think; speaker->nextthink = level.time + 2*FRAMETIME; speaker->spawnflags = 7; //looped on self->speaker = speaker; // VectorAdd (self->s.origin, self->origin_offset, speaker->s.origin); if (VectorLength(self->s.origin)) VectorCopy (self->s.origin, speaker->s.origin); else { VectorAdd (self->absmin,self->absmax, speaker->s.origin); VectorScale (speaker->s.origin, 0.5, speaker->s.origin); } VectorSubtract (speaker->s.origin, self->s.origin, speaker->offset); // gi.dprintf ("moving_speaker offset %s from func_train\n", vtos(speaker->offset)); } if (!self->speed) self->speed = 100; if ((self->spawnflags & TRAIN_ROTATE) && (self->spawnflags &TRAIN_ROT_CONST)) { self->spawnflags &= ~TRAIN_ROTATE; self->spawnflags &= ~TRAIN_ROT_CONST; self->spawnflags |= TRAIN_SPLINE; } self->moveinfo.speed = self->speed; // Knightmare- auto detect accel and decel values if (self->accel) self->moveinfo.accel = self->accel; else self->moveinfo.accel = self->moveinfo.speed; if (self->decel) self->moveinfo.decel = self->decel; else self->moveinfo.decel = self->moveinfo.speed; self->use = train_use; if (self->health && self->health > 0) //Knightmare- detect health { //the func_explosive is handled exactly the same way. (look in g_misc.c) self->die = func_explosive_die; //what to call when we die (in g_misc.c) self->takedamage = DAMAGE_YES; //we take damage hits (spark, bleed, etc) } if (self->spawnflags & TRAIN_ANIM) self->s.effects |= EF_ANIM_ALL; if (self->spawnflags & TRAIN_ANIM_FAST) self->s.effects |= EF_ANIM_ALLFAST; // Mappack gi.linkentity (self); if (self->target) { // start trains on the second frame, to make sure their targets have had // a chance to spawn self->nextthink = level.time + FRAMETIME; self->think = func_train_find; } else gi.dprintf ("func_train without a target at %s\n", vtos(self->absmin)); } void SP_func_train_origin (edict_t *self) { self->spawnflags |= TRAIN_ORIGIN; self->classname = "func_train"; SP_func_train (self); } /*QUAKED trigger_elevator (0.3 0.1 0.6) (-8 -8 -8) (8 8 8) */ void trigger_elevator_use (edict_t *self, edict_t *other, edict_t *activator) { edict_t *target; if (self->movetarget->nextthink) { // gi.dprintf("elevator busy\n"); return; } if (!other->pathtarget) { gi.dprintf("elevator used with no pathtarget\n"); return; } target = G_PickTarget (other->pathtarget); if (!target) { gi.dprintf("elevator used with bad pathtarget: %s\n", other->pathtarget); return; } self->movetarget->target_ent = target; train_resume (self->movetarget); } void trigger_elevator_init (edict_t *self) { if (!self->target) { gi.dprintf("trigger_elevator has no target\n"); return; } self->movetarget = G_PickTarget (self->target); if (!self->movetarget) { gi.dprintf("trigger_elevator unable to find target %s\n", self->target); return; } if (strcmp(self->movetarget->classname, "func_train") != 0) { gi.dprintf("trigger_elevator target %s is not a train\n", self->target); return; } self->use = trigger_elevator_use; self->svflags = SVF_NOCLIENT; } void SP_trigger_elevator (edict_t *self) { self->class_id = ENTITY_TRIGGER_ELEVATOR; self->think = trigger_elevator_init; self->nextthink = level.time + FRAMETIME; } /*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. */ void func_timer_think (edict_t *self) { G_UseTargets (self, self->activator); self->nextthink = level.time + self->wait + crandom() * self->random; } void func_timer_use (edict_t *self, edict_t *other, edict_t *activator) { self->activator = activator; // if on, turn it off if (self->nextthink) { self->nextthink = 0; return; } // turn it on if (self->delay) self->nextthink = level.time + self->delay; else func_timer_think (self); } void SP_func_timer (edict_t *self) { self->class_id = ENTITY_FUNC_TIMER; if (!self->wait) self->wait = 1.0; self->use = func_timer_use; self->think = func_timer_think; if (self->random >= self->wait) { self->random = self->wait - FRAMETIME; gi.dprintf("func_timer at %s has random >= wait\n", vtos(self->s.origin)); } if (self->spawnflags & 1) { self->nextthink = level.time + 1.0 + st.pausetime + self->delay + self->wait + crandom() * self->random; self->activator = self; } self->svflags = SVF_NOCLIENT; } /*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. TOGGLE this allows the conveyor to be turned on and off, starts off by default START_ON the conveyor will initially be present, only valid for TOGGLE walls "speed" default 102 "angle" direction in which to move stuff */ void func_conveyor_use (edict_t *self, edict_t *other, edict_t *activator) { if (self->spawnflags & 1) { self->spawnflags &= ~1; self->solid = SOLID_NOT; self->svflags |= SVF_NOCLIENT; } else { self->spawnflags |= 1; self->solid = SOLID_BSP; self->svflags &= ~SVF_NOCLIENT; KillBox (self); } gi.linkentity(self); if (!(self->spawnflags & 2)) self->use = NULL; /* if (self->spawnflags & 1) { self->speed = 0; self->spawnflags &= ~1; } else { self->speed = self->count; self->spawnflags |= 1; } if (!(self->spawnflags & 2)) self->count = 0;*/ } void SP_func_conveyor (edict_t *self) { self->class_id = ENTITY_FUNC_CONVEYOR; if (!self->speed) self->speed = 102; self->use = func_conveyor_use; gi.setmodel (self, self->model); self->movetype = MOVETYPE_CONVEYOR; if (!VectorLength(self->movedir)) G_SetMovedir (self->s.angles, self->movedir); /* // just a static conveyor if (!(self->spawnflags & 1) && !(self->spawnflags & 2)) { self->solid = SOLID_BSP; self->use = NULL; gi.linkentity (self); return; } // yell if the spawnflags are odd if (self->spawnflags & 1) { if (!(self->spawnflags & 2)) { gi.dprintf("func_conveyor START_ON without TOGGLE\n"); self->spawnflags |= 2; } }*/ if (self->spawnflags & 1) self->solid = SOLID_BSP; else { self->solid = SOLID_NOT; self->svflags |= SVF_NOCLIENT; } gi.linkentity (self); } /*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 shootable 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) "sounds" 0) default 1) silent 2-4 not used 5-99 custom sound- e.g. doors/dr05_strt.wav, doors/dr05_mid.wav, doors/dr05_end.wav */ #define SECRET_ALWAYS_SHOOT 1 #define SECRET_1ST_LEFT 2 #define SECRET_1ST_DOWN 4 void door_secret_move1 (edict_t *self); void door_secret_move2 (edict_t *self); void door_secret_move3 (edict_t *self); void door_secret_move4 (edict_t *self); void door_secret_move5 (edict_t *self); void door_secret_move6 (edict_t *self); void door_secret_done (edict_t *self); void door_secret_use (edict_t *self, edict_t *other, edict_t *activator) { // make sure we're not already moving if ((self->moveinfo.state != STATE_LOWEST) && (self->moveinfo.state != STATE_TOP)) return; //added sound if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC if (self->moveinfo.sound_middle) { self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } if (self->moveinfo.state == STATE_LOWEST) { self->moveinfo.state = STATE_DOWN; Move_Calc (self, self->pos1, door_secret_move1); door_use_areaportals (self, true); } else //Knightmare added { self->moveinfo.state = STATE_UP; Move_Calc (self, self->pos1, door_secret_move5); } } void door_secret_move1 (edict_t *self) { self->nextthink = level.time + 1.0; self->think = door_secret_move2; self->moveinfo.state = STATE_BOTTOM; //added sound self->s.sound = 0; if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC } void door_secret_move2 (edict_t *self) { //added sound if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC if (self->moveinfo.sound_middle) { self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } self->moveinfo.state = STATE_UP; Move_Calc (self, self->pos2, door_secret_move3); } void door_secret_move3 (edict_t *self) { self->moveinfo.state = STATE_TOP; //added sound self->s.sound = 0; if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC if (self->wait == -1) return; self->nextthink = level.time + self->wait; self->think = door_secret_move4; } void door_secret_move4 (edict_t *self) { //added sound if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC if (self->moveinfo.sound_middle) { self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } self->moveinfo.state = STATE_UP; Move_Calc (self, self->pos1, door_secret_move5); } void door_secret_move5 (edict_t *self) { self->nextthink = level.time + 1.0; self->think = door_secret_move6; self->moveinfo.state = STATE_BOTTOM; //added sound self->s.sound = 0; if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC } void door_secret_move6 (edict_t *self) { //added sound if (self->moveinfo.sound_start) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_start, 1, self->attenuation, 0); // was ATTN_STATIC if (self->moveinfo.sound_middle) { self->s.sound = self->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION self->s.attenuation = self->attenuation; #endif } self->moveinfo.state = STATE_DOWN; Move_Calc (self, self->pos0, door_secret_done); } void door_secret_done (edict_t *self) { if (!(self->targetname) || (self->spawnflags & SECRET_ALWAYS_SHOOT)) { self->health = 0; self->takedamage = DAMAGE_YES; } self->moveinfo.state = STATE_LOWEST; //added sound self->s.sound = 0; if (self->moveinfo.sound_end) gi.sound (self, CHAN_NO_PHS_ADD+CHAN_VOICE, self->moveinfo.sound_end, 1, self->attenuation, 0); // was ATTN_STATIC door_use_areaportals (self, false); } void door_secret_blocked (edict_t *self, edict_t *other) { if (!(other->svflags & SVF_MONSTER) && (!other->client) ) { // give it a chance to go away on it's own terms (like gibs) T_Damage (other, self, self, self->pos0, other->s.origin, self->pos0, 100000, 1, 0, MOD_CRUSH); // if it's still there, nuke it if (other && other->inuse) BecomeExplosion1 (other); return; } // Remove dead Q1 monsters, as they can't be gibbed if ( (other->svflags & SVF_DEADMONSTER) && (other->flags & FL_Q1_MONSTER) ) { G_FreeEdict(other); return; } if (level.time < self->touch_debounce_time) return; self->touch_debounce_time = level.time + 0.5; T_Damage (other, self, self, self->pos0, other->s.origin, self->pos0, self->dmg, 1, 0, MOD_CRUSH); } void door_secret_die (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { self->takedamage = DAMAGE_NO; door_secret_use (self, attacker, attacker); } void SP_func_door_secret (edict_t *ent) { vec3_t forward, right, up; ent->class_id = ENTITY_FUNC_DOOR_SECRET; if (ent->sounds > 4 && ent->sounds < 100) // custom sounds { ent->moveinfo.sound_start = gi.soundindex (va("doors/dr%02i_strt.wav", ent->sounds)); ent->moveinfo.sound_middle = gi.soundindex (va("doors/dr%02i_mid.wav", ent->sounds)); ent->moveinfo.sound_end = gi.soundindex (va("doors/dr%02i_end.wav", ent->sounds)); } else if (ent->sounds != 1) { ent->moveinfo.sound_start = gi.soundindex ("doors/dr1_strt.wav"); ent->moveinfo.sound_middle = gi.soundindex ("doors/dr1_mid.wav"); ent->moveinfo.sound_end = gi.soundindex ("doors/dr1_end.wav"); } else { ent->moveinfo.sound_start = 0; ent->moveinfo.sound_middle = 0; ent->moveinfo.sound_end = 0; } if (ent->attenuation <= 0) ent->attenuation = ATTN_STATIC; ent->movetype = MOVETYPE_PUSH; ent->solid = SOLID_BSP; gi.setmodel (ent, ent->model); ent->use = door_secret_use; ent->blocked = door_secret_blocked; // Knightmare- this was missing ent->moveinfo.state = STATE_LOWEST; if (!(ent->targetname) || (ent->spawnflags & SECRET_ALWAYS_SHOOT)) { ent->health = 0; ent->takedamage = DAMAGE_YES; ent->die = door_secret_die; } if (!ent->dmg) ent->dmg = 2; if (!ent->wait) ent->wait = 5; ent->moveinfo.accel = ent->moveinfo.decel = ent->moveinfo.speed = 50; // calculate positions VectorCopy (ent->s.origin, ent->pos0); AngleVectors (ent->s.angles, forward, right, up); VectorClear (ent->s.angles); //ent->side = 1.0 - (ent->spawnflags & SECRET_1ST_LEFT); if (ent->spawnflags & SECRET_1ST_LEFT) ent->side = -1.0; else ent->side = 1.0; if (!ent->width) { if (ent->spawnflags & SECRET_1ST_DOWN) ent->width = fabs(DotProduct(up, ent->size)) - 2; else ent->width = fabs(DotProduct(right, ent->size)) - 2; } if (!ent->length) ent->length = fabs(DotProduct(forward, ent->size)) - 2; if (ent->spawnflags & SECRET_1ST_DOWN) VectorMA (ent->s.origin, -1 * ent->width, up, ent->pos1); else VectorMA (ent->s.origin, ent->side * ent->width, right, ent->pos1); VectorMA (ent->pos1, ent->length, forward, ent->pos2); if (ent->health) { ent->takedamage = DAMAGE_YES; ent->die = door_killed; ent->max_health = ent->health; } else if (ent->targetname && ent->message) { gi.soundindex ("misc/talk.wav"); ent->touch = door_touch; } ent->classname = "func_door"; ent->postthink = train_move_children; //Knightmare- now supports movewith gi.linkentity (ent); } /*QUAKED func_killbox (1 0 0) ? Kills everything inside when fired, irrespective of protection. */ void use_killbox (edict_t *self, edict_t *other, edict_t *activator) { KillBox (self); } void SP_func_killbox (edict_t *ent) { ent->class_id = ENTITY_FUNC_KILLBOX; gi.setmodel (ent, ent->model); ent->use = use_killbox; ent->svflags = SVF_NOCLIENT; } //=================================================================== // LAZARUS additions //=================================================================== // // func_pushable // Moveable crate. Similar to misc_explobox, but: // 1) Uses a brush model rather than a .md2 model. Model can be ANY // shape, but the func_pushable uses the bounding box to determine // whether it is being touched or not, so cubes are generally best. // 2) Can be pushed off a ledge and damaged by falling // 3) Default dmg = 0 (no fireball) and health = 0 (indestructible) // 4) Plays a sound when moving // // targetname - If triggered, pushable object self-destructs, throwing // debris chunks and (if dmg>0) exploding // health - Damage sustained by object before it "dies". On death, // object throws debris and (if dmg>0) explodes. func_pushable // can be damaged by shooting (inapplicable in Tremor) or // by falling damage or by being crushed by a func_door, // func_train, etc. Set health=0 for a func_pushable that // cannot be damaged by falling or weapon fire. Set health=-1 // for func_pushable that will block MOVETYPE_PUSH entities // (func_door, etc.) // dmg - Radius damage due to object explosion. Set to 0 for // no fireball // mass - Weight of the object. Heavier objects are harder to push. // Default = 400. // sounds - Sound played when moved. // 0 = none // 1 = tank/thud.wav // 2 = weapons/rg_hum.wav // 3 = weapons/rockfly.wav // // SF=1 - Trigger spawn. Func_pushable is invisible and non-solid until triggered. // 2 - No knockback. Not moved by weapon fire (invulnerable func_pushables aren't // affected by weapon fire in either case) // //============= // box_movestep // // Similar to SV_movestep in monster code, but handles falling // objects, and doesn't balk at water/lava/slime //============= // qboolean box_movestep (edict_t *ent, vec3_t move, qboolean relink) { vec3_t oldorg, neworg, end; trace_t trace; float stepsize; vec3_t maxs, mins, origin; // try the move VectorAdd (ent->s.origin, ent->origin_offset, origin); VectorCopy (origin, oldorg); VectorAdd (origin, move, neworg); VectorCopy (ent->size, maxs); VectorScale (maxs, 0.5, maxs); VectorNegate (maxs, mins); // push down from a step height above the wished position stepsize = 1; neworg[2] += stepsize; VectorCopy (neworg, end); end[2] -= stepsize*2; trace = gi.trace (neworg, mins, maxs, end, ent, MASK_MONSTERSOLID); if (trace.allsolid) return false; if (trace.startsolid) { neworg[2] -= stepsize; trace = gi.trace (neworg, mins, maxs, end, ent, MASK_MONSTERSOLID); if (trace.allsolid || trace.startsolid) return false; } if (trace.fraction == 1) { // if box had the ground pulled out, go ahead and fall VectorAdd (ent->s.origin, move, ent->s.origin); if (relink) { gi.linkentity (ent); G_TouchTriggers (ent); } ent->groundentity = NULL; return true; } VectorCopy (trace.endpos, origin); VectorSubtract (origin, ent->origin_offset, ent->s.origin); ent->groundentity = trace.ent; ent->groundentity_linkcount = trace.ent->linkcount; // the move is ok if (relink) { gi.linkentity (ent); G_TouchTriggers (ent); } return true; } void box_die (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { if (self->deathtarget) { self->target = self->deathtarget; if (self->activator) G_UseTargets (self, self->activator); else G_UseTargets (self, attacker); self->target = NULL; } func_explosive_die (self, inflictor, attacker, damage, point); } void box_use (edict_t *self, edict_t *other, edict_t *activator) { self->activator = activator; box_die(self, self, other, self->health, vec3_origin); } // //=============== //box_walkmove // similar to M_walkmove, but: // 1) works with entities not on the ground // 2) calls moving box-specific box_movestep, which allows // boxes to fall //=============== // qboolean box_walkmove (edict_t *ent, float yaw, float dist) { vec3_t move; if (!ent->groundentity && !(ent->flags & (FL_FLY|FL_SWIM))) return false; yaw = yaw*M_PI*2 / 360; move[0] = cos(yaw)*dist; move[1] = sin(yaw)*dist; move[2] = 0; return box_movestep(ent, move, true); } void box_water_friction (edict_t *ent) { int i; float speed, newspeed, control; if (!(ent->flags & FL_SWIM)) return; // should not be here if (ent->waterlevel==0) return; // likewise if (ent->crane_control) return; // currently under control of a crane if ((ent->velocity[0]==0) && (ent->velocity[1]==0)) { ent->nextthink = 0; return; } for (i=0; i<2; i++) { if (ent->velocity[i] != 0) { speed = fabs(ent->velocity[i]); control = speed < 100 ? 100 : speed; newspeed = speed - (FRAMETIME * control * ent->waterlevel); if (newspeed < 0) newspeed = 0; newspeed /= speed; ent->velocity[i] *= newspeed; } } ent->nextthink = level.time + FRAMETIME; gi.linkentity(ent); } void box_touch (edict_t *self, edict_t *other, cplane_t *plane, csurface_t *surf) { float e; // coefficient of restitution float m; float ratio; float v11, v12, v21, v22; int axis; vec3_t v1, v2, v; vec3_t origin; edict_t *bottom, *top; // Knightmare- ignore prox mines attached to self if (!strcmp(other->classname, "prox") && other->movewith_ent && other->movewith_ent == self) return; // if other is another func_pushable, AND self is in // water, move in proportion to relative masses if (other->movetype == MOVETYPE_PUSHABLE) { int damage; float delta; float vslide; vec3_t dir, impact_v; // Check for impact damage first if (self->health > 0) { VectorSubtract(other->velocity,self->velocity,impact_v); delta = VectorLength(impact_v); delta = delta*delta*0.0001; if (delta > 30) { damage = (float)(other->mass)/(float)(self->mass) * ( (delta-30)/2 ); if (damage > 0) { VectorSubtract(self->s.origin,other->s.origin,dir); VectorNormalize(dir); T_Damage (self, other, other, dir, self->s.origin, vec3_origin, damage, 0, 0, MOD_FALLING); if (self->health <= 0) return; } } } if (self->waterlevel == 0) return; // 06/03/00 change: If either func_pushable is currently being moved // by crane, bail out. if (self->crane_control) return; if (other->crane_control) return; // Since func_pushables have a bounding box, impact will ALWAYS be on one of the // planes of the bounding box. The "plane" argument isn't always used, but since // all entities involved use a parallelepiped bounding box we can rely on offsets // to centers to figure out which side the impact is on. VectorAdd (self->absmax,self->absmin,v1); VectorScale (v1,0.5,v1); VectorAdd (other->absmax,other->absmin,v2); VectorScale (v2,0.5,v2); VectorSubtract(v1,v2,v); VectorNormalize(v); axis = 0; if (fabs(v[1]) > fabs(v[axis])) axis = 1; if (fabs(v[2]) > fabs(v[axis])) axis = 2; e = 0.5; // coefficient of restitution m = (float)(other->mass)/(float)(self->mass); v11 = self->velocity[axis]; v21 = other->velocity[axis]; v22 = ( e*(v11-v21) + v11 + m*v21 ) / (1.0 + m); v12 = v22 + e*(v21-v11); self->velocity[axis] = v12; other->velocity[axis] = v22; // Assuming frictionless surfaces, momentum of crate is conserved in // other two directions (so velocity doesn't change)... BUT we want // to get the bottom crate out from underneath the other one, // so we're gonna be a little "creative" if (axis == 2) { if (v[2] > 0) { bottom = other; top = self; VectorNegate(v,v); } else { bottom = self; top = other; } v[2] = 0; VectorNormalize(v); if (!VectorLength(v)) { v[0] = crandom(); v[1] = sqrt(1.0 - v[0]*v[0]); } vslide = 10; if (fabs(bottom->velocity[0]) < 50) bottom->velocity[0] += v[0] * vslide; if (fabs(bottom->velocity[1]) < 50) bottom->velocity[1] += v[1] * vslide; top->velocity[0] = -bottom->velocity[0]/2; top->velocity[1] = -bottom->velocity[1]/2; other->think = box_water_friction; other->nextthink = level.time + 0.2; gi.linkentity(other); self->think = box_water_friction; self->nextthink = level.time + 0.2; } else { // Frictionless horizontal motion for 1 second self->think = box_water_friction; self->nextthink = level.time + 1.0; } // Override oldvelocity VectorCopy (self->velocity,self->oldvelocity); gi.linkentity(self); return; } // if other is a monster or a player and box is on other's head and moving down, // do impact damage VectorAdd (self->s.origin,self->origin_offset,origin); if ( other->client || (other->svflags & SVF_MONSTER) ) { VectorAdd (self->absmax,self->absmin,v1); VectorScale (v1,0.5,v1); VectorSubtract(v1,other->s.origin,v); VectorNormalize(v); axis = 0; if (fabs(v[1]) > fabs(v[axis])) axis = 1; if (fabs(v[2]) > fabs(v[axis])) axis = 2; if (axis == 2 && v[axis] > 0) { v11 = VectorLength(self->velocity); VectorCopy (self->velocity,v); VectorNormalize(v); if (!other->groundentity) { other->velocity[2] = self->velocity[2]; gi.linkentity(other); } else if ((v11 > 0) && (v[2] < -0.7)) { int damage; float delta; vec3_t dir, impact_v; VectorSubtract(other->velocity,self->velocity,impact_v); delta = VectorLength(impact_v); delta = delta*delta*0.001; damage = (float)(self->mass)/(float)(other->mass) * delta; // always do some minimum amount of damage, or we get boxes on // heads, which looks awfully damn odd damage = max(2,damage); VectorSubtract(self->s.origin,other->s.origin,dir); VectorNormalize(dir); T_Damage (other, self, self, dir, other->s.origin, vec3_origin, damage, 0, 0, MOD_CRUSH); self->bounce_me = 1; return; } } else if ( (other->groundentity == self) && (self->velocity[2] > 0)) { self->bounce_me = 2; other->velocity[2] = self->velocity[2]; gi.linkentity(other); return; } } // if not a player return if (!other->client) return; // if func_pushable is on ground and has a mass > 1000, go away if (self->groundentity && self->mass > 1000) return; // if player not pressing use key, do nothing if (!other->client->use) { if (self->activator == other) self->activator = NULL; return; } // if player in contact with this func_pushable is already pushing // something else, return if ((other->client->push != NULL) && (other->client->push != self)) { if (self->activator == other) self->activator = NULL; return; } // if another player got here first, he maintains control if (self->activator) { if (self->activator->client) { if (self->activator != other) { return; } } } VectorAdd (self->absmax,self->absmin,v1); VectorScale (v1,0.5,v1); // if func_pushable isn't in front of pusher, do nothing if (!point_infront(other,v1)) { if (self->activator == other) self->activator = NULL; return; } // if player isn't on solid ground AND object isn't in water, // OR if player is standing on this box, do nothing if ( ((!other->groundentity) && (self->waterlevel==0)) || (other->groundentity == self) ) { if (self->activator == other) self->activator = NULL; return; } // if this box has another box stacked on top, balk if ( CrateOnTop (NULL, self) ) { if (self->activator == other) self->activator = NULL; return; } // Give object a little nudge to give us some clearance VectorSubtract (v1, other->s.origin, v); box_walkmove (self, vectoyaw(v), 4); // Now get the offset from the player to the object, // and preserve that offset in ClientThink by shifting // object as needed. VectorSubtract(other->s.origin,self->s.origin,self->offset); self->offset[2] = 0; self->activator = other; other->client->push = self; ratio = (float)other->mass / (float)self->mass; other->client->maxvelocity = 20. * ratio; // Knightmare- don't autoswitch if client-side chasecam is on if (tpp_auto->value && (!cl_thirdperson->value || deathmatch->value || coop->value) && !other->client->chasetoggle && !other->client->chaseactive) { // Cmd_Chasecam_Toggle(other); ChasecamStart (other); other->client->chasetoggle = 0; } // test crap // self->s.renderfx = RF_TRANSLUCENT; // gi.linkentity(self); } void func_pushable_spawn (edict_t *self, edict_t *other, edict_t *activator) { self->solid = SOLID_BSP; self->movetype = MOVETYPE_PUSHABLE; self->svflags &= ~SVF_NOCLIENT; self->use = box_use; self->clipmask = MASK_PLAYERSOLID|MASK_MONSTERSOLID; self->touch = box_touch; } void SP_func_pushable (edict_t *self) { // vec3_t border = {2,2,2}; vec3_t border = {1,1,1}; self->class_id = ENTITY_FUNC_PUSHABLE; // Knightmare- precache different gib types PrecacheDebris (self->gib_type); gi.setmodel (self, self->model); // usermodel (for alias model pushables) goes on modelindex2 if (self->usermodel && strlen(self->usermodel)) { char modelname[256]; // check for "models/" already in path if ( !strncmp(self->usermodel, "models/", 7) ) Com_sprintf(modelname, sizeof(modelname), "%s", self->usermodel); else Com_sprintf(modelname, sizeof(modelname), "models/%s", self->usermodel); self->s.modelindex2 = gi.modelindex (modelname); } // Game places a 2 unit border around brush model absmin and absmax VectorAdd (self->mins, border, self->mins); VectorSubtract (self->maxs, border, self->maxs); VectorAdd (self->absmin, border, self->absmin); VectorSubtract (self->absmax, border, self->absmax); if (!self->mass) self->mass = 400; if (st.item) // Knightmare- item support { self->item = FindItemByClassname (st.item); if (!self->item) gi.dprintf("%s at %s has bad item: %s\n", self->classname, vtos(self->s.origin), st.item); } self->flags = FL_SWIM; if (self->health > 0) { self->die = box_die; self->takedamage = DAMAGE_YES; } else { self->die = NULL; self->takedamage = DAMAGE_NO; } if (self->spawnflags & 2) { // trigger spawn self->solid = SOLID_NOT; self->movetype = MOVETYPE_NONE; self->use = func_pushable_spawn; self->svflags |= SVF_NOCLIENT; } else { self->solid = SOLID_BSP; self->movetype = MOVETYPE_PUSHABLE; self->use = box_use; self->clipmask = MASK_PLAYERSOLID|MASK_MONSTERSOLID; self->touch = box_touch; self->think = M_droptofloor; self->nextthink = level.time + 2 * FRAMETIME; } if (self->spawnflags & 4) self->flags |= FL_NO_KNOCKBACK; switch (self->sounds) { case 1: self->noise_index = gi.soundindex ("tank/thud.wav"); break; case 2: self->noise_index = gi.soundindex ("weapons/rg_hum.wav"); break; case 3: self->noise_index = gi.soundindex ("weapons/rockfly.wav"); break; } if (self->sounds && !VectorLength(self->s.origin) ) { edict_t *speaker; speaker = G_Spawn(); speaker->classname = "moving_speaker"; speaker->s.sound = 0; speaker->volume = 1; speaker->attenuation = ATTN_STATIC; // was 1 speaker->owner = self; speaker->noise_index = self->noise_index; speaker->think = moving_speaker_think; speaker->nextthink = level.time + 2*FRAMETIME; speaker->spawnflags = 11; // owner must be moving and on ground to play self->speaker = speaker; VectorAdd (self->absmin,self->absmax,speaker->s.origin); VectorScale (speaker->s.origin,0.5,speaker->s.origin); VectorSubtract(speaker->s.origin, self->s.origin, speaker->offset); // gi.dprintf ("moving_speaker offset %s from pushable\n", vtos(speaker->offset)); } // Move up 1 unit so that func_pushable sitting directly on a func_train // won't block it's movement (since train has a 1 unit border) self->s.origin[2] += 1; gi.linkentity (self); } /*QUAKED func_door_swinging (0 .5 .9) ? IGNORE REVOLVE CRUSHER NO_MONSTER ANIMATED TOGLLE X_AXIS Y_AXIS A 2-way rotating door, identical to func_door_rotating, but will always open AWAY from whoever opens it Spawnflags: IGNORE: (Ignore Activator) determines what side of the door the activator is on is disabled. REVOLVING: The door will never close, but instead can be repeatedly triggered to rotate distance degrees again, in either direction. "distance" deg/rotation (default=90) "dmg" damage when blocked (default=2) "health" if activated by shooting at it "followtarget" info_notnull opp. origin "killtarget" entity to attack "message" to print when trigger is inactive "movewith" make it part of a train or other mover "pathtarget" Targetname of the entity whose origin the func_door_swinging is to use as a spawning location at runtime. Normally this locating entity should be an info_notnull. "sounds" 0 = Audible (default) 1 = Silent "speed" in degrees/sec door swings (Default=100) "target" Targetname of the entity to be triggered when the door opens. If the target is a func_areaportal, the areaportal will be triggered again when the door closes. "targetname" Name of the specific door. A door with a targetname cannot be opened without another triggering entity which targets it, but it can be shot (if health>0). "team" Team name of the specific door. Doors with a identical team names will move together, and will all stop if one is blocked. "turn_rider" If non-zero, a player or other entity riding on the door will rotate as the door rotates. (Default=0) "wait" If REVOLVING is not set, this is the time in seconds for the door to wait before returning to its closed position. If wait=-1, the door will never return. For non-REVOLVING doors, the default=3. If REVOLVING is set, this is the time in seconds to wait before the door will accept another trigger input after it completes its move. If wait=-1, the door cannot be triggered again. For REVOLVING doors, the default=0. */ // // func_door_swinging is identical to func_door_rotating, but will always open AWAY // from whoever opens it. If opened by a trigger the normal func_door_rotating rotation // is used. // void swinging_door_killed (edict_t *self, edict_t *inflictor, edict_t *attacker, int damage, vec3_t point) { edict_t *ent; edict_t *master; for (ent = self->teammaster ; ent ; ent = ent->teamchain) { ent->health = ent->max_health; ent->takedamage = DAMAGE_NO; } master = self->teammaster; if (master->spawnflags & DOOR_TOGGLE) { if (master->moveinfo.state == STATE_UP || master->moveinfo.state == STATE_TOP) { // trigger all paired doors for (ent = master ; ent ; ent = ent->teamchain) { ent->message = NULL; ent->touch = NULL; door_go_down (ent); } return; } } // trigger all paired doors for (ent = master ; ent ; ent = ent->teamchain) { ent->message = NULL; ent->touch = NULL; ent->do_not_rotate = 1; if (ent->moveinfo.state == STATE_UP) continue; // already going up if (ent->moveinfo.state == STATE_TOP) { // reset top wait time if (ent->moveinfo.wait >= 0) ent->nextthink = level.time + ent->moveinfo.wait; return; } check_reverse_rotation(ent,point); if (!(ent->flags & FL_TEAMSLAVE)) { if (ent->moveinfo.sound_start) gi.sound (ent, CHAN_NO_PHS_ADD+CHAN_VOICE, ent->moveinfo.sound_start, 1, ent->attenuation, 0); // was ATTN_STATIC ent->s.sound = ent->moveinfo.sound_middle; #ifdef LOOP_SOUND_ATTENUATION ent->s.attenuation = ent->attenuation; #endif } ent->moveinfo.state = STATE_UP; AngleMove_Calc (ent, door_hit_top); G_UseTargets (ent, attacker); door_use_areaportals (ent, true); } } void func_door_swinging_init (edict_t *self) { edict_t *new_origin; edict_t *follow; follow = G_Find (NULL, FOFS(targetname), self->followtarget); if (!follow) { gi.dprintf("func_door_swinging at %s, followtarget not found\n",vtos(self->s.origin)); G_FreeEdict(self); return; } VectorSubtract(follow->s.origin,self->s.origin,self->move_origin); VectorNormalize(self->move_origin); G_FreeEdict(follow); if (self->pathtarget) { new_origin = G_Find (NULL, FOFS(targetname), self->pathtarget); if (new_origin) { VectorCopy (new_origin->s.origin,self->s.origin); VectorCopy (self->s.origin, self->moveinfo.start_origin); VectorCopy (self->s.origin, self->moveinfo.end_origin); gi.linkentity(self); } } self->nextthink = level.time + FRAMETIME; if (self->health || self->targetname) self->think = Think_CalcMoveSpeed; else self->think = Think_SpawnDoorTrigger; } void SP_func_door_swinging (edict_t *self) { int pivot; self->class_id = ENTITY_FUNC_PIVOT; pivot = self->spawnflags & 1; // 1 means "start open" for normal doors, so turn it self->spawnflags &= ~1; // off temporarily until normal door initialization // is done if (self->spawnflags & DOOR_REVERSE) { self->spawnflags &= ~DOOR_REVERSE; self->flags |= FL_REVOLVING; } if (!self->followtarget) { gi.dprintf("func_door_swinging with no followtarget at %s\n",vtos(self->s.origin)); G_FreeEdict(self); return; } SP_func_door_rotating (self); self->spawnflags |= pivot; if ( pivot && (self->health > 0) ) self->die = swinging_door_killed; self->postthink = train_move_children; //supports movewith self->flags |= FL_REVERSIBLE; // strcpy(self->classname, "func_door_rotating"); self->classname = "func_door_rotating"; // Wait a few frames so that we're sure pathtarget has been parsed. self->think = func_door_swinging_init; self->nextthink = level.time + 2*FRAMETIME; gi.linkentity(self); } /*QUAKED func_bobbingwater (0 .5 .8) ? START_ON MUD Moveable, bobbing water The water only bobs when triggered. When allowed to "close" on its own, it will not bob during movement to its original position. If you want the func_bobbingwater to bob at both ends of its motion, then don't set its wait to >=0. Instead, use wait=-1 and re-trigger it to "close" START_OPEN causes the water to move to its destination when spawned and operate in reverse.. MUD turns the water to mud - difficult to move through, swallows players "angle" Direction the bobbingwater will move on the XY plane. Default=0. "angles" Direction the bobbingwater will move in 3 dimensions, specified by pitch and yaw. Roll is ignored. Syntax is pitch yaw 0. Default=0 0 0. "speed" in units/second that the bobbingwater moves. Default=25. "targetname" Name of the specific bobbingwater. "team" name of the specific bobbingwater. Bobbingwaters with a identical team names will move together, and if solid, will all stop if one is blocked. A func_bobbingwater may be teamed with a func_water. "wait" in seconds for the bobbingwater to wait before it returns to its "closed" position. If wait=-1, the bobbingwater must be retriggered in order for it to close. This will also result in the bob effect taking place on both ends of the bobbingwater's motion, rather than just its "opening" motion. Default=-1 "wait" Number of seconds until reset. Continuous = -1 "lip" Lip units visible after move "sounds" Default= 1 0 :No Sounds 1 :Water (Default) 2 :Lava "bob" Amplitude of motion" Default= 16 "duration" Time between bobbing cycles. Default= 8 */ // // Bobbing water - identical to func_water, but bobs up and down with // amplitude specified by "bob" value and duration of one cycle specified by // "duration" // void bob_think (edict_t *self) { float delta; int time = self->duration*10; float t1, t0, z0, z1; t0 = self->bobframe%time; t1 = (self->bobframe+1)%time; z0 = sin(2*M_PI*t0/time); z1 = sin(2*M_PI*t1/time); delta = self->bob/2 * (z1-z0); self->velocity[2] = delta/FRAMETIME; self->nextthink = level.time + FRAMETIME; self->bobframe = (self->bobframe+1)%time; gi.linkentity(self); } void bob_init (edict_t *self) { self->bobframe = 0; self->think = bob_think; self->nextthink = level.time + FRAMETIME; } void SP_func_bobbingwater(edict_t *self) { vec3_t abs_movedir; if (!VectorLength(self->movedir)) G_SetMovedir (self->s.angles, self->movedir); self->movetype = MOVETYPE_PUSH; self->solid = SOLID_BSP; gi.setmodel (self, self->model); if (self->spawnflags & 2) { level.mud_puddles++; self->svflags |= SVF_MUD; } switch (self->sounds) { default: break; case 1: // water self->moveinfo.sound_start = gi.soundindex ("world/mov_watr.wav"); self->moveinfo.sound_end = gi.soundindex ("world/stp_watr.wav"); break; case 2: // lava self->moveinfo.sound_start = gi.soundindex ("world/mov_watr.wav"); self->moveinfo.sound_end = gi.soundindex ("world/stp_watr.wav"); break; } if (self->lip) st.lip = self->lip; // calculate second position VectorCopy (self->s.origin, self->pos1); abs_movedir[0] = fabs(self->movedir[0]); abs_movedir[1] = fabs(self->movedir[1]); abs_movedir[2] = fabs(self->movedir[2]); self->moveinfo.distance = abs_movedir[0] * self->size[0] + abs_movedir[1] * self->size[1] + abs_movedir[2] * self->size[2] - st.lip; VectorMA (self->pos1, self->moveinfo.distance, self->movedir, self->pos2); // if it starts open, switch the positions if (self->spawnflags & DOOR_START_OPEN) { VectorCopy (self->pos2, self->s.origin); VectorCopy (self->pos1, self->pos2); VectorCopy (self->s.origin, self->pos1); } VectorCopy (self->pos1, self->moveinfo.start_origin); VectorCopy (self->s.angles, self->moveinfo.start_angles); VectorCopy (self->pos2, self->moveinfo.end_origin); VectorCopy (self->s.angles, self->moveinfo.end_angles); self->moveinfo.state = STATE_BOTTOM; if (!self->speed) self->speed = 25; self->moveinfo.accel = self->moveinfo.decel = self->moveinfo.speed = self->speed; if (!self->wait) self->wait = -1; self->moveinfo.wait = self->wait; self->use = door_use; if (self->wait == -1) self->spawnflags |= DOOR_TOGGLE; self->classname = "func_door"; self->flags |= FL_BOB; if (!self->bob) self->bob = 16; if (!self->duration) self->duration = 8; self->think = bob_init; self->nextthink = level.time + FRAMETIME; gi.linkentity (self); } // // func_pivot - works like a see-saw // void pivot_blocked (edict_t *self, edict_t *other) { VectorCopy (vec3_origin ,self->avelocity); gi.linkentity(self); } void pivot_stop(edict_t *ent) { VectorClear (ent->avelocity); gi.linkentity(ent); } void pivot_touch(edict_t *ent, edict_t *other, cplane_t *plane, csurface_t *surf) { float time; vec3_t offset; vec3_t avelocity; vec3_t delta; if (!other->mass) return; // other is weightless if (!other->groundentity) return; // other is in air if (other->groundentity != ent) return; // other is not standing on ent VectorSubtract(ent->s.origin,other->s.origin,offset); offset[2] = 0.; // z offset is irrelevant VectorCopy (ent->avelocity,avelocity); if (ent->spawnflags & 1) { avelocity[PITCH] = -other->mass*offset[0]/400; // if (avelocity[PITCH] = ent->avelocity[PITCH]) return; if (offset[0] > 0) ent->move_angles[PITCH] = ent->pos2[PITCH]; else ent->move_angles[PITCH] = ent->pos1[PITCH]; VectorSubtract(ent->move_angles,ent->s.angles,delta); time = delta[PITCH]/avelocity[PITCH]; } else { avelocity[ROLL] = other->mass*offset[1]/400; // if (avelocity[ROLL] = ent->avelocity[ROLL]) return; if (offset[1] > 0) ent->move_angles[ROLL] = ent->pos1[ROLL]; else ent->move_angles[ROLL] = ent->pos2[ROLL]; VectorSubtract(ent->move_angles,ent->s.angles,delta); time = delta[ROLL]/avelocity[ROLL]; } gi.dprintf("time=%f, v=%f %f %f\n",time,avelocity[0],avelocity[1],avelocity[2]); if (time > 0) { VectorCopy (avelocity,ent->avelocity); ent->think = pivot_stop; ent->nextthink = level.time + time; gi.linkentity(ent); } else { VectorClear (ent->avelocity); ent->nextthink = 0; } } void pivot_init (edict_t *ent) { float zmin; trace_t tr; vec3_t start, end; VectorClear (ent->pos1); VectorClear (ent->pos2); if (ent->spawnflags & 1) { end[0] = start[0] = ent->absmin[0]; end[1] = start[1] = (ent->absmin[1]+ent->absmax[1])/2; start[2] = ent->absmin[2]; end[2] = ent->absmin[2] - (ent->s.origin[0]-ent->absmin[0]); tr=gi.trace(start,NULL,NULL,end,ent,MASK_SOLID); if (tr.fraction < 1.0) zmin = tr.endpos[2]; else zmin = end[2]; ent->pos2[PITCH] = asin((ent->absmin[2]-zmin)/(ent->s.origin[0]-ent->absmin[0])); end[0] = start[0] = ent->absmax[0]; end[2] = ent->absmin[2] - (ent->absmax[0]-ent->s.origin[0]); tr=gi.trace(start,NULL,NULL,end,ent,MASK_SOLID); if (tr.fraction < 1.0) zmin = tr.endpos[2]; else zmin = end[2]; ent->pos1[PITCH] = asin((ent->absmin[2]-zmin)/(ent->absmax[0]-ent->s.origin[0])); ent->pos1[PITCH] *= 180/M_PI; ent->pos2[PITCH] *= -180/M_PI; } else { end[0] = start[0] = (ent->absmin[0]+ent->absmax[0])/2; end[1] = start[1] = ent->absmin[1]; start[2] = ent->absmin[2]; end[2] = ent->absmin[2] - (ent->s.origin[1]-ent->absmin[1]); tr=gi.trace(start,NULL,NULL,end,ent,MASK_SOLID); if (tr.fraction < 1.0) zmin = tr.endpos[2]; else zmin = end[2]; ent->pos1[ROLL] = asin((ent->absmin[2]-zmin)/(ent->s.origin[1]-ent->absmin[1])); end[1] = start[1] = ent->absmax[1]; end[2] = ent->absmin[2] - (ent->absmax[1]-ent->s.origin[1]); tr=gi.trace(start,NULL,NULL,end,ent,MASK_SOLID); if (tr.fraction < 1.0) zmin = tr.endpos[2]; else zmin = end[2]; ent->pos2[ROLL] = asin((ent->absmin[2]-zmin)/(ent->absmax[1]-ent->s.origin[1])); ent->pos1[ROLL] *= 180/M_PI; ent->pos2[ROLL] *= -180/M_PI; } VectorClear (ent->move_angles); gi.linkentity(ent); } void SP_func_pivot (edict_t *ent) { ent->solid = SOLID_BSP; ent->movetype = MOVETYPE_PUSH; if (!ent->speed) ent->speed = 100; if (!ent->dmg) ent->dmg = 2; ent->touch = pivot_touch; ent->blocked = pivot_blocked; ent->gravity = 0; ent->think = pivot_init; ent->nextthink = level.time + FRAMETIME; gi.setmodel (ent, ent->model); gi.linkentity (ent); }