From d6414f596f67ca6212738a0f51b9f0a28f0aaefe Mon Sep 17 00:00:00 2001 From: Mario Date: Sun, 22 May 2016 09:10:40 +1000 Subject: [PATCH] Cleanse steerlib and movelib of self --- qcsrc/common/physics/movelib.qc | 98 ++++----- qcsrc/common/physics/movelib.qh | 8 +- qcsrc/common/turrets/turret/ewheel.qc | 2 +- qcsrc/common/turrets/turret/walker.qc | 6 +- qcsrc/server/mutators/events.qh | 5 +- qcsrc/server/steerlib.qc | 297 +++++++++++++------------- qcsrc/server/steerlib.qh | 6 +- qcsrc/server/sv_main.qc | 62 +++--- qcsrc/server/t_quake.qc | 4 +- 9 files changed, 243 insertions(+), 245 deletions(-) diff --git a/qcsrc/common/physics/movelib.qc b/qcsrc/common/physics/movelib.qc index a27b8666e..cfdcbfd14 100644 --- a/qcsrc/common/physics/movelib.qc +++ b/qcsrc/common/physics/movelib.qc @@ -5,23 +5,23 @@ /** Simulate drag - self.velocity = movelib_dragvec(self.velocity,0.02,0.5); + this.velocity = movelib_dragvec(this.velocity,0.02,0.5); **/ -vector movelib_dragvec(float drag, float exp_) -{SELFPARAM(); +vector movelib_dragvec(entity this, float drag, float exp_) +{ float lspeed,ldrag; - lspeed = vlen(self.velocity); + lspeed = vlen(this.velocity); ldrag = lspeed * drag; ldrag = ldrag * (drag * exp_); ldrag = 1 - (ldrag / lspeed); - return self.velocity * ldrag; + return this.velocity * ldrag; } /** Simulate drag - self.velocity *= movelib_dragflt(somespeed,0.01,0.7); + this.velocity *= movelib_dragflt(somespeed,0.01,0.7); **/ float movelib_dragflt(float fspeed,float drag,float exp_) { @@ -37,70 +37,70 @@ float movelib_dragflt(float fspeed,float drag,float exp_) /** Do a inertia simulation based on velocity. Basicaly, this allows you to simulate loss of steering with higher speed. - self.velocity = movelib_inertmove_byspeed(self.velocity,newvel,1000,0.1,0.9); + this.velocity = movelib_inertmove_byspeed(this.velocity,newvel,1000,0.1,0.9); **/ -vector movelib_inertmove_byspeed(vector vel_new, float vel_max,float newmin,float oldmax) -{SELFPARAM(); +vector movelib_inertmove_byspeed(entity this, vector vel_new, float vel_max,float newmin,float oldmax) +{ float influense; - influense = vlen(self.velocity) * (1 / vel_max); + influense = vlen(this.velocity) * (1 / vel_max); influense = bound(newmin,influense,oldmax); - return (vel_new * (1 - influense)) + (self.velocity * influense); + return (vel_new * (1 - influense)) + (this.velocity * influense); } -vector movelib_inertmove(vector new_vel,float new_bias) -{SELFPARAM(); - return new_vel * new_bias + self.velocity * (1-new_bias); +vector movelib_inertmove(entity this, vector new_vel,float new_bias) +{ + return new_vel * new_bias + this.velocity * (1-new_bias); } -void movelib_move(vector force,float max_velocity,float drag,float theMass,float breakforce) -{SELFPARAM(); +void movelib_move(entity this, vector force,float max_velocity,float drag,float theMass,float breakforce) +{ float deltatime; float acceleration; float mspeed; vector breakvec; - deltatime = time - self.movelib_lastupdate; + deltatime = time - this.movelib_lastupdate; if (deltatime > 0.15) deltatime = 0; - self.movelib_lastupdate = time; + this.movelib_lastupdate = time; if (!deltatime) return; - mspeed = vlen(self.velocity); + mspeed = vlen(this.velocity); if (theMass) acceleration = vlen(force) / theMass; else acceleration = vlen(force); - if (IS_ONGROUND(self)) + if (IS_ONGROUND(this)) { if (breakforce) { - breakvec = (normalize(self.velocity) * (breakforce / theMass) * deltatime); - self.velocity = self.velocity - breakvec; + breakvec = (normalize(this.velocity) * (breakforce / theMass) * deltatime); + this.velocity = this.velocity - breakvec; } - self.velocity = self.velocity + force * (acceleration * deltatime); + this.velocity = this.velocity + force * (acceleration * deltatime); } if (drag) - self.velocity = movelib_dragvec(drag, 1); + this.velocity = movelib_dragvec(this, drag, 1); - if (self.waterlevel > 1) + if (this.waterlevel > 1) { - self.velocity = self.velocity + force * (acceleration * deltatime); - self.velocity = self.velocity + '0 0 0.05' * autocvar_sv_gravity * deltatime; + this.velocity = this.velocity + force * (acceleration * deltatime); + this.velocity = this.velocity + '0 0 0.05' * autocvar_sv_gravity * deltatime; } else - self.velocity = self.velocity + '0 0 -1' * autocvar_sv_gravity * deltatime; + this.velocity = this.velocity + '0 0 -1' * autocvar_sv_gravity * deltatime; - mspeed = vlen(self.velocity); + mspeed = vlen(this.velocity); if (max_velocity) if (mspeed > max_velocity) - self.velocity = normalize(self.velocity) * (mspeed - 50);//* max_velocity; + this.velocity = normalize(this.velocity) * (mspeed - 50);//* max_velocity; } /* @@ -112,17 +112,17 @@ void movelib_move(vector force,float max_velocity,float drag,float theMass,float .float buoyancy; float movelib_deltatime; -void movelib_startupdate() +void movelib_startupdate(entity this) { - movelib_deltatime = time - self.movelib_lastupdate; + movelib_deltatime = time - this.movelib_lastupdate; if (movelib_deltatime > 0.5) movelib_deltatime = 0; - self.movelib_lastupdate = time; + this.movelib_lastupdate = time; } -void movelib_update(vector dir,float force) +void movelib_update(entity this, vector dir,float force) { vector acceleration; float old_speed; @@ -135,30 +135,30 @@ void movelib_update(vector dir,float force) if(!movelib_deltatime) return; - v_z = self.velocity_z; - old_speed = vlen(self.velocity); - old_dir = normalize(self.velocity); + v_z = this.velocity_z; + old_speed = vlen(this.velocity); + old_dir = normalize(this.velocity); - //ggravity = (autocvar_sv_gravity / self.mass) * '0 0 100'; - acceleration = (force / self.mass) * dir; - //acceleration -= old_dir * (old_speed / self.mass); + //ggravity = (autocvar_sv_gravity / this.mass) * '0 0 100'; + acceleration = (force / this.mass) * dir; + //acceleration -= old_dir * (old_speed / this.mass); acceleration -= ggravity; - if(self.waterlevel > 1) + if(this.waterlevel > 1) { - ffriction = self.water_friction; - acceleration += self.buoyancy * '0 0 1'; + ffriction = this.water_friction; + acceleration += this.buoyancy * '0 0 1'; } else - if(IS_ONGROUND(self)) - ffriction = self.ground_friction; + if(IS_ONGROUND(this)) + ffriction = this.ground_friction; else - ffriction = self.air_friction; + ffriction = this.air_friction; acceleration *= ffriction; - //self.velocity = self.velocity * (ffriction * movelib_deltatime); - self.velocity += acceleration * movelib_deltatime; - self.velocity_z = v_z; + //this.velocity = this.velocity * (ffriction * movelib_deltatime); + this.velocity += acceleration * movelib_deltatime; + this.velocity_z = v_z; } */ diff --git a/qcsrc/common/physics/movelib.qh b/qcsrc/common/physics/movelib.qh index 90ea4b416..a64651b30 100644 --- a/qcsrc/common/physics/movelib.qh +++ b/qcsrc/common/physics/movelib.qh @@ -8,7 +8,7 @@ Simulate drag self.velocity = movelib_dragvec(self.velocity,0.02,0.5); **/ -vector movelib_dragvec(float drag, float exp_); +vector movelib_dragvec(entity this, float drag, float exp_); /** Simulate drag @@ -21,12 +21,12 @@ float movelib_dragflt(float fspeed,float drag,float exp_); Basicaly, this allows you to simulate loss of steering with higher speed. self.velocity = movelib_inertmove_byspeed(self.velocity,newvel,1000,0.1,0.9); **/ -vector movelib_inertmove_byspeed(vector vel_new, float vel_max,float newmin,float oldmax); +vector movelib_inertmove_byspeed(entity this, vector vel_new, float vel_max, float newmin, float oldmax); -vector movelib_inertmove(vector new_vel,float new_bias); +vector movelib_inertmove(entity this, vector new_vel, float new_bias); .float movelib_lastupdate; -void movelib_move(vector force,float max_velocity,float drag,float theMass,float breakforce); +void movelib_move(entity this, vector force, float max_velocity, float drag, float theMass, float breakforce); /* void movelib_move_simple(vector newdir,float velo,float blendrate) diff --git a/qcsrc/common/turrets/turret/ewheel.qc b/qcsrc/common/turrets/turret/ewheel.qc index d11c0867b..40603cca0 100644 --- a/qcsrc/common/turrets/turret/ewheel.qc +++ b/qcsrc/common/turrets/turret/ewheel.qc @@ -83,7 +83,7 @@ void ewheel_move_enemy() {SELFPARAM(); float newframe; - self.steerto = steerlib_arrive(self.enemy.origin,self.target_range_optimal); + self.steerto = steerlib_arrive(self, self.enemy.origin,self.target_range_optimal); self.moveto = self.origin + self.steerto * 128; diff --git a/qcsrc/common/turrets/turret/walker.qc b/qcsrc/common/turrets/turret/walker.qc index ebca240d0..afe85bf8c 100644 --- a/qcsrc/common/turrets/turret/walker.qc +++ b/qcsrc/common/turrets/turret/walker.qc @@ -161,7 +161,7 @@ void walker_rocket_think() if (self.enemy) { itime = max(edist / m_speed, 1); - newdir = steerlib_pull(self.enemy.origin + self.tur_shotorg); + newdir = steerlib_pull(self, self.enemy.origin + self.tur_shotorg); } else newdir = normalize(self.velocity); @@ -186,7 +186,7 @@ void walker_rocket_loop3() return; } - newdir = steerlib_pull(self.tur_shotorg); + newdir = steerlib_pull(self, self.tur_shotorg); WALKER_ROCKET_MOVE; self.angles = vectoangles(self.velocity); @@ -211,7 +211,7 @@ void walker_rocket_loop2() return; } - newdir = steerlib_pull(self.tur_shotorg); + newdir = steerlib_pull(self, self.tur_shotorg); WALKER_ROCKET_MOVE; } diff --git a/qcsrc/server/mutators/events.qh b/qcsrc/server/mutators/events.qh index fac7249c8..ad97997e2 100644 --- a/qcsrc/server/mutators/events.qh +++ b/qcsrc/server/mutators/events.qh @@ -195,7 +195,10 @@ bool ret_bool; MUTATOR_HOOKABLE(Turret_CheckFire, EV_Turret_CheckFire); /** return error to prevent entity spawn, or modify the entity */ -MUTATOR_HOOKABLE(OnEntityPreSpawn, EV_NO_ARGS); +#define EV_OnEntityPreSpawn(i, o) \ + /** turret */ i(entity, __self) \ + /**/ +MUTATOR_HOOKABLE(OnEntityPreSpawn, EV_OnEntityPreSpawn); /** runs in the event loop for players; is called for ALL player entities, also bots, also the dead, or spectators */ MUTATOR_HOOKABLE(PlayerPreThink, EV_NO_ARGS); diff --git a/qcsrc/server/steerlib.qc b/qcsrc/server/steerlib.qc index 849100091..0389efa37 100644 --- a/qcsrc/server/steerlib.qc +++ b/qcsrc/server/steerlib.qc @@ -7,44 +7,44 @@ /** Uniform pull towards a point **/ -vector steerlib_pull(vector point) -{SELFPARAM(); - return normalize(point - self.origin); +vector steerlib_pull(entity this, vector point) +{ + return normalize(point - this.origin); } /** Uniform push from a point **/ -#define steerlib_push(point) normalize(self.origin - point) +#define steerlib_push(ent,point) normalize(ent.origin - point) /* -vector steerlib_push(vector point) +vector steerlib_push(entity this, vector point) { - return normalize(self.origin - point); + return normalize(this.origin - point); } */ /** Pull toward a point, The further away, the stronger the pull. **/ -vector steerlib_arrive(vector point,float maximal_distance) -{SELFPARAM(); +vector steerlib_arrive(entity this, vector point, float maximal_distance) +{ float distance; vector direction; - distance = bound(0.001,vlen(self.origin - point),maximal_distance); - direction = normalize(point - self.origin); + distance = bound(0.001,vlen(this.origin - point),maximal_distance); + direction = normalize(point - this.origin); return direction * (distance / maximal_distance); } /** Pull toward a point increasing the pull the closer we get **/ -vector steerlib_attract(vector point, float maximal_distance) -{SELFPARAM(); +vector steerlib_attract(entity this, vector point, float maximal_distance) +{ float distance; vector direction; - distance = bound(0.001,vlen(self.origin - point),maximal_distance); - direction = normalize(point - self.origin); + distance = bound(0.001,vlen(this.origin - point),maximal_distance); + direction = normalize(point - this.origin); return direction * (1-(distance / maximal_distance)); } @@ -73,12 +73,12 @@ vector steerlib_attract2(vector point, float maximal_distance,float min_influens float i_target,i_current; if(!distance) - distance = vlen(self.origin - point); + distance = vlen(this.origin - point); distance = bound(0.001,distance,maximal_distance); - target_direction = normalize(point - self.origin); - current_direction = normalize(self.velocity); + target_direction = normalize(point - this.origin); + current_direction = normalize(this.velocity); i_target = bound(min_influense,(1-(distance / maximal_distance)),max_influense); i_current = 1 - i_target; @@ -97,13 +97,13 @@ vector steerlib_attract2(vector point, float maximal_distance,float min_influens /** Move away from a point. **/ -vector steerlib_repell(vector point,float maximal_distance) -{SELFPARAM(); +vector steerlib_repell(entity this, vector point,float maximal_distance) +{ float distance; vector direction; - distance = bound(0.001,vlen(self.origin - point),maximal_distance); - direction = normalize(self.origin - point); + distance = bound(0.001,vlen(this.origin - point),maximal_distance); + direction = normalize(this.origin - point); return direction * (1-(distance / maximal_distance)); } @@ -111,21 +111,21 @@ vector steerlib_repell(vector point,float maximal_distance) /** Try to keep at ideal_distance away from point **/ -vector steerlib_standoff(vector point,float ideal_distance) -{SELFPARAM(); +vector steerlib_standoff(entity this, vector point,float ideal_distance) +{ float distance; vector direction; - distance = vlen(self.origin - point); + distance = vlen(this.origin - point); if(distance < ideal_distance) { - direction = normalize(self.origin - point); + direction = normalize(this.origin - point); return direction * (distance / ideal_distance); } - direction = normalize(point - self.origin); + direction = normalize(point - this.origin); return direction * (ideal_distance / distance); } @@ -134,12 +134,12 @@ vector steerlib_standoff(vector point,float ideal_distance) A random heading in a forward halfcicrle use like: - self.target = steerlib_wander(256,32,self.target) + this.target = steerlib_wander(256,32,this.target) where range is the cicrle radius and tresh is how close we need to be to pick a new heading. **/ -vector steerlib_wander(float range,float tresh,vector oldpoint) -{SELFPARAM(); +vector steerlib_wander(entity this, float range, float tresh, vector oldpoint) +{ vector wander_point; wander_point = v_forward - oldpoint; @@ -148,20 +148,20 @@ vector steerlib_wander(float range,float tresh,vector oldpoint) range = bound(0,range,1); - wander_point = self.origin + v_forward * 128; + wander_point = this.origin + v_forward * 128; wander_point = wander_point + randomvec() * (range * 128) - randomvec() * (range * 128); - return normalize(wander_point - self.origin); + return normalize(wander_point - this.origin); } /** Dodge a point. dont work to well. **/ -vector steerlib_dodge(vector point,vector dodge_dir,float min_distance) -{SELFPARAM(); +vector steerlib_dodge(entity this, vector point, vector dodge_dir, float min_distance) +{ float distance; - distance = max(vlen(self.origin - point),min_distance); + distance = max(vlen(this.origin - point),min_distance); if (min_distance < distance) return '0 0 0'; @@ -173,21 +173,21 @@ vector steerlib_dodge(vector point,vector dodge_dir,float min_distance) Group will move towards the unified direction while keeping close to eachother. **/ .float flock_id; -vector steerlib_flock(float _radius, float standoff,float separation_force,float flock_force) -{SELFPARAM(); +vector steerlib_flock(entity this, float _radius, float standoff,float separation_force,float flock_force) +{ entity flock_member; vector push = '0 0 0', pull = '0 0 0'; float ccount = 0; - flock_member = findradius(self.origin, _radius); + flock_member = findradius(this.origin, _radius); while(flock_member) { - if(flock_member != self) - if(flock_member.flock_id == self.flock_id) + if(flock_member != this) + if(flock_member.flock_id == this.flock_id) { ++ccount; - push = push + (steerlib_repell(flock_member.origin,standoff) * separation_force); - pull = pull + (steerlib_arrive(flock_member.origin + flock_member.velocity, _radius) * flock_force); + push = push + (steerlib_repell(this, flock_member.origin,standoff) * separation_force); + pull = pull + (steerlib_arrive(this, flock_member.origin + flock_member.velocity, _radius) * flock_force); } flock_member = flock_member.chain; } @@ -199,21 +199,21 @@ vector steerlib_flock(float _radius, float standoff,float separation_force,float Group will move towards the unified direction while keeping close to eachother. xy only version (for ground movers). **/ -vector steerlib_flock2d(float _radius, float standoff,float separation_force,float flock_force) -{SELFPARAM(); +vector steerlib_flock2d(entity this, float _radius, float standoff,float separation_force,float flock_force) +{ entity flock_member; vector push = '0 0 0', pull = '0 0 0'; float ccount = 0; - flock_member = findradius(self.origin,_radius); + flock_member = findradius(this.origin,_radius); while(flock_member) { - if(flock_member != self) - if(flock_member.flock_id == self.flock_id) + if(flock_member != this) + if(flock_member.flock_id == this.flock_id) { ++ccount; - push = push + (steerlib_repell(flock_member.origin, standoff) * separation_force); - pull = pull + (steerlib_arrive(flock_member.origin + flock_member.velocity, _radius) * flock_force); + push = push + (steerlib_repell(this, flock_member.origin, standoff) * separation_force); + pull = pull + (steerlib_arrive(this, flock_member.origin + flock_member.velocity, _radius) * flock_force); } flock_member = flock_member.chain; } @@ -230,27 +230,27 @@ vector steerlib_flock2d(float _radius, float standoff,float separation_force,flo This results in a aligned movement (?!) much like flocking. **/ -vector steerlib_swarm(float _radius, float standoff,float separation_force,float swarm_force) -{SELFPARAM(); +vector steerlib_swarm(entity this, float _radius, float standoff,float separation_force,float swarm_force) +{ entity swarm_member; vector force = '0 0 0', center = '0 0 0'; float ccount = 0; - swarm_member = findradius(self.origin,_radius); + swarm_member = findradius(this.origin,_radius); while(swarm_member) { - if(swarm_member.flock_id == self.flock_id) + if(swarm_member.flock_id == this.flock_id) { ++ccount; center = center + swarm_member.origin; - force = force + (steerlib_repell(swarm_member.origin,standoff) * separation_force); + force = force + (steerlib_repell(this, swarm_member.origin,standoff) * separation_force); } swarm_member = swarm_member.chain; } center = center * (1 / ccount); - force = force + (steerlib_arrive(center,_radius) * swarm_force); + force = force + (steerlib_arrive(this, center,_radius) * swarm_force); return force; } @@ -260,8 +260,8 @@ vector steerlib_swarm(float _radius, float standoff,float separation_force,float Run four tracelines in a forward funnel, bias each diretion negative if something is found there. You need to call makevectors() (or equivalent) before this function to set v_forward and v_right **/ -vector steerlib_traceavoid(float pitch,float length) -{SELFPARAM(); +vector steerlib_traceavoid(entity this, float pitch,float length) +{ vector vup_left,vup_right,vdown_left,vdown_right; float fup_left,fup_right,fdown_left,fdown_right; vector upwish,downwish,leftwish,rightwish; @@ -272,28 +272,28 @@ vector steerlib_traceavoid(float pitch,float length) v_down = v_up * -1; vup_left = (v_forward + (v_left * pitch + v_up * pitch)) * length; - traceline(self.origin, self.origin + vup_left,MOVE_NOMONSTERS,self); + traceline(this.origin, this.origin + vup_left,MOVE_NOMONSTERS,this); fup_left = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); vup_right = (v_forward + (v_right * pitch + v_up * pitch)) * length; - traceline(self.origin,self.origin + vup_right ,MOVE_NOMONSTERS,self); + traceline(this.origin,this.origin + vup_right ,MOVE_NOMONSTERS,this); fup_right = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); vdown_left = (v_forward + (v_left * pitch + v_down * pitch)) * length; - traceline(self.origin,self.origin + vdown_left,MOVE_NOMONSTERS,self); + traceline(this.origin,this.origin + vdown_left,MOVE_NOMONSTERS,this); fdown_left = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); vdown_right = (v_forward + (v_right * pitch + v_down * pitch)) * length; - traceline(self.origin,self.origin + vdown_right,MOVE_NOMONSTERS,self); + traceline(this.origin,this.origin + vdown_right,MOVE_NOMONSTERS,this); fdown_right = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); upwish = v_up * (fup_left + fup_right); downwish = v_down * (fdown_left + fdown_right); leftwish = v_left * (fup_left + fdown_left); @@ -307,8 +307,8 @@ vector steerlib_traceavoid(float pitch,float length) Steer towards the direction least obstructed. Run tracelines in a forward trident, bias each direction negative if something is found there. **/ -vector steerlib_traceavoid_flat(float pitch, float length, vector vofs) -{SELFPARAM(); +vector steerlib_traceavoid_flat(entity this, float pitch, float length, vector vofs) +{ vector vt_left, vt_right,vt_front; float f_left, f_right,f_front; vector leftwish, rightwish,frontwish, v_left; @@ -317,20 +317,20 @@ vector steerlib_traceavoid_flat(float pitch, float length, vector vofs) vt_front = v_forward * length; - traceline(self.origin + vofs, self.origin + vofs + vt_front,MOVE_NOMONSTERS,self); + traceline(this.origin + vofs, this.origin + vofs + vt_front,MOVE_NOMONSTERS,this); f_front = trace_fraction; vt_left = (v_forward + (v_left * pitch)) * length; - traceline(self.origin + vofs, self.origin + vofs + vt_left,MOVE_NOMONSTERS,self); + traceline(this.origin + vofs, this.origin + vofs + vt_left,MOVE_NOMONSTERS,this); f_left = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); vt_right = (v_forward + (v_right * pitch)) * length; - traceline(self.origin + vofs, self.origin + vofs + vt_right ,MOVE_NOMONSTERS,self); + traceline(this.origin + vofs, this.origin + vofs + vt_right ,MOVE_NOMONSTERS,this); f_right = trace_fraction; - //te_lightning1(world,self.origin, trace_endpos); + //te_lightning1(world,this.origin, trace_endpos); leftwish = v_left * f_left; rightwish = v_right * f_right; @@ -379,15 +379,15 @@ float beamsweep_badpoint(vector point,float waterok) } //#define BEAMSTEER_VISUAL -float beamsweep(vector from, vector dir,float length, float step,float step_up, float step_down) -{SELFPARAM(); +float beamsweep(entity this, vector from, vector dir,float length, float step,float step_up, float step_down) +{ float i; vector a,b,u,d; u = '0 0 1' * step_up; d = '0 0 1' * step_down; - traceline(from + u, from - d,MOVE_NORMAL,self); + traceline(from + u, from - d,MOVE_NORMAL,this); if(trace_fraction == 1.0) return 0; @@ -399,11 +399,11 @@ float beamsweep(vector from, vector dir,float length, float step,float step_up, { b = a + dir * step; - tracebox(a + u,'-4 -4 -4','4 4 4', b + u,MOVE_NORMAL,self); + tracebox(a + u,'-4 -4 -4','4 4 4', b + u,MOVE_NORMAL,this); if(trace_fraction != 1.0) return i / length; - traceline(b + u, b - d,MOVE_NORMAL,self); + traceline(b + u, b - d,MOVE_NORMAL,this); if(trace_fraction == 1.0) return i / length; @@ -419,8 +419,8 @@ float beamsweep(vector from, vector dir,float length, float step,float step_up, return 1; } -vector steerlib_beamsteer(vector dir, float length, float step, float step_up, float step_down) -{SELFPARAM(); +vector steerlib_beamsteer(entity this, vector dir, float length, float step, float step_up, float step_down) +{ float bm_forward, bm_right, bm_left,p; vector vr,vl; @@ -428,31 +428,28 @@ vector steerlib_beamsteer(vector dir, float length, float step, float step_up, f vr = vectoangles(dir); //vr_x *= -1; - tracebox(self.origin + '0 0 1' * step_up, self.mins, self.maxs, ('0 0 1' * step_up) + self.origin + (dir * length), MOVE_NOMONSTERS, self); + tracebox(this.origin + '0 0 1' * step_up, this.mins, this.maxs, ('0 0 1' * step_up) + this.origin + (dir * length), MOVE_NOMONSTERS, this); if(trace_fraction == 1.0) { - //te_lightning1(self,self.origin,self.origin + (dir * length)); + //te_lightning1(this,this.origin,this.origin + (dir * length)); return dir; } - - - makevectors(vr); - bm_forward = beamsweep(self.origin, v_forward, length, step, step_up, step_down); + bm_forward = beamsweep(this, this.origin, v_forward, length, step, step_up, step_down); vr = normalize(v_forward + v_right * 0.125); vl = normalize(v_forward - v_right * 0.125); - bm_right = beamsweep(self.origin, vr, length, step, step_up, step_down); - bm_left = beamsweep(self.origin, vl, length, step, step_up, step_down); + bm_right = beamsweep(this, this.origin, vr, length, step, step_up, step_down); + bm_left = beamsweep(this, this.origin, vl, length, step, step_up, step_down); p = bm_left + bm_right; if(p == 2) { - //te_lightning1(self,self.origin + '0 0 32',self.origin + '0 0 32' + vr * length); - //te_lightning1(self.tur_head,self.origin + '0 0 32',self.origin + '0 0 32' + vl * length); + //te_lightning1(this,this.origin + '0 0 32',this.origin + '0 0 32' + vr * length); + //te_lightning1(this.tur_head,this.origin + '0 0 32',this.origin + '0 0 32' + vl * length); return v_forward; } @@ -461,8 +458,8 @@ vector steerlib_beamsteer(vector dir, float length, float step, float step_up, f vr = normalize(v_forward + v_right * p); vl = normalize(v_forward - v_right * p); - bm_right = beamsweep(self.origin, vr, length, step, step_up, step_down); - bm_left = beamsweep(self.origin, vl, length, step, step_up, step_down); + bm_right = beamsweep(this, this.origin, vr, length, step, step_up, step_down); + bm_left = beamsweep(this, this.origin, vl, length, step, step_up, step_down); if(bm_left + bm_right < 0.15) @@ -470,12 +467,12 @@ vector steerlib_beamsteer(vector dir, float length, float step, float step_up, f vr = normalize((v_forward*-1) + v_right * 0.75); vl = normalize((v_forward*-1) - v_right * 0.75); - bm_right = beamsweep(self.origin, vr, length, step, step_up, step_down); - bm_left = beamsweep(self.origin, vl, length, step, step_up, step_down); + bm_right = beamsweep(this, this.origin, vr, length, step, step_up, step_down); + bm_left = beamsweep(this, this.origin, vl, length, step, step_up, step_down); } - //te_lightning1(self,self.origin + '0 0 32',self.origin + '0 0 32' + vr * length); - //te_lightning1(self.tur_head,self.origin + '0 0 32',self.origin + '0 0 32' + vl * length); + //te_lightning1(this,this.origin + '0 0 32',this.origin + '0 0 32' + vr * length); + //te_lightning1(this.tur_head,this.origin + '0 0 32',this.origin + '0 0 32' + vl * length); bm_forward *= bm_forward; bm_right *= bm_right; @@ -495,15 +492,15 @@ vector steerlib_beamsteer(vector dir, float length, float step, float step_up, f ////////////////////////////////////////////// //#define TLIBS_TETSLIBS #ifdef TLIBS_TETSLIBS -void flocker_die() -{SELFPARAM(); - Send_Effect(EFFECT_ROCKET_EXPLODE, self.origin, '0 0 0', 1); +void flocker_die(entity this) +{ + Send_Effect(EFFECT_ROCKET_EXPLODE, this.origin, '0 0 0', 1); - self.owner.cnt += 1; - self.owner = world; + this.owner.cnt += 1; + this.owner = world; - self.nextthink = time; - self.think = SUB_Remove; + this.nextthink = time; + this.think = SUB_Remove; } @@ -512,50 +509,50 @@ void flocker_think() vector dodgemove,swarmmove; vector reprellmove,wandermove,newmove; - self.angles_x = self.angles.x * -1; - makevectors(self.angles); - self.angles_x = self.angles.x * -1; + this.angles_x = this.angles.x * -1; + makevectors(this.angles); + this.angles_x = this.angles.x * -1; - dodgemove = steerlib_traceavoid(0.35,1000); - swarmmove = steerlib_flock(500,75,700,500); - reprellmove = steerlib_repell(self.owner.enemy.origin+self.enemy.velocity,2000) * 700; + dodgemove = steerlib_traceavoid(this, 0.35,1000); + swarmmove = steerlib_flock(this, 500,75,700,500); + reprellmove = steerlib_repell(this, this.owner.enemy.origin+this.enemy.velocity,2000) * 700; - if(vlen(dodgemove) == 0) + if(dodgemove == '0 0 0') { - self.pos1 = steerlib_wander(0.5,0.1,self.pos1); - wandermove = self.pos1 * 50; + this.pos1 = steerlib_wander(this, 0.5,0.1,this.pos1); + wandermove = this.pos1 * 50; } else - self.pos1 = normalize(self.velocity); + this.pos1 = normalize(this.velocity); - dodgemove = dodgemove * vlen(self.velocity) * 5; + dodgemove = dodgemove * vlen(this.velocity) * 5; newmove = swarmmove + reprellmove + wandermove + dodgemove; - self.velocity = movelib_inertmove_byspeed(newmove,300,0.2,0.9); - //self.velocity = movelib_inertmove(dodgemove,0.65); + this.velocity = movelib_inertmove_byspeed(this, newmove,300,0.2,0.9); + //this.velocity = movelib_inertmove(this, dodgemove,0.65); - self.velocity = movelib_dragvec(0.01,0.6); + this.velocity = movelib_dragvec(this, 0.01,0.6); - self.angles = vectoangles(self.velocity); + this.angles = vectoangles(this.velocity); - if(self.health <= 0) - flocker_die(); + if(this.health <= 0) + flocker_die(this); else - self.nextthink = time + 0.1; + this.nextthink = time + 0.1; } MODEL(FLOCKER, "models/turrets/rocket.md3"); -void spawn_flocker() -{SELFPARAM(); +void spawn_flocker(entity this) +{ entity flocker = new(flocker); - setorigin(flocker, self.origin + '0 0 32'); + setorigin(flocker, this.origin + '0 0 32'); setmodel (flocker, MDL_FLOCKER); setsize (flocker, '-3 -3 -3', '3 3 3'); - flocker.flock_id = self.flock_id; - flocker.owner = self; + flocker.flock_id = this.flock_id; + flocker.owner = this; flocker.think = flocker_think; flocker.nextthink = time + random() * 5; PROJECTILE_MAKETRIGGER(flocker); @@ -566,18 +563,16 @@ void spawn_flocker() flocker.health = 10; flocker.pos1 = normalize(flocker.velocity + randomvec() * 0.1); - self.cnt = self.cnt -1; + this.cnt = this.cnt -1; } void flockerspawn_think() {SELFPARAM(); + if(this.cnt > 0) + spawn_flocker(this); - - if(self.cnt > 0) - spawn_flocker(); - - self.nextthink = time + self.delay; + this.nextthink = time + this.delay; } @@ -587,57 +582,57 @@ void flocker_hunter_think() entity e,ee; float d,bd; - self.angles_x = self.angles.x * -1; - makevectors(self.angles); - self.angles_x = self.angles.x * -1; + this.angles_x = this.angles.x * -1; + makevectors(this.angles); + this.angles_x = this.angles.x * -1; - if(self.enemy) - if(vdist(self.enemy.origin - self.origin, <, 64)) + if(this.enemy) + if(vdist(this.enemy.origin - this.origin, <, 64)) { - ee = self.enemy; + ee = this.enemy; ee.health = -1; - self.enemy = world; + this.enemy = world; } - if(!self.enemy) + if(!this.enemy) { - e = findchainfloat(flock_id,self.flock_id); + e = findchainfloat(flock_id,this.flock_id); while(e) { - d = vlen(self.origin - e.origin); + d = vlen(this.origin - e.origin); - if(e != self.owner) + if(e != this.owner) if(e != ee) if(d > bd) { - self.enemy = e; + this.enemy = e; bd = d; } e = e.chain; } } - if(self.enemy) - attractmove = steerlib_attract(self.enemy.origin+self.enemy.velocity * 0.1,5000) * 1250; + if(this.enemy) + attractmove = steerlib_attract(this, this.enemy.origin+this.enemy.velocity * 0.1,5000) * 1250; else - attractmove = normalize(self.velocity) * 200; + attractmove = normalize(this.velocity) * 200; - dodgemove = steerlib_traceavoid(0.35,1500) * vlen(self.velocity); + dodgemove = steerlib_traceavoid(this, 0.35,1500) * vlen(this.velocity); newmove = dodgemove + attractmove; - self.velocity = movelib_inertmove_byspeed(newmove,1250,0.3,0.7); - self.velocity = movelib_dragvec(0.01,0.5); + this.velocity = movelib_inertmove_byspeed(this, newmove,1250,0.3,0.7); + this.velocity = movelib_dragvec(this, 0.01,0.5); - self.angles = vectoangles(self.velocity); - self.nextthink = time + 0.1; + this.angles = vectoangles(this.velocity); + this.nextthink = time + 0.1; } float globflockcnt; spawnfunc(flockerspawn) -{SELFPARAM(); +{ ++globflockcnt; if(!this.cnt) this.cnt = 20; diff --git a/qcsrc/server/steerlib.qh b/qcsrc/server/steerlib.qh index 32ac07c3c..fa21610f0 100644 --- a/qcsrc/server/steerlib.qh +++ b/qcsrc/server/steerlib.qh @@ -2,6 +2,6 @@ .vector steerto; -vector steerlib_arrive(vector point,float maximal_distance); -vector steerlib_attract2(entity this, vector point, float min_influense,float max_distance,float max_influense); -vector steerlib_pull(vector point); +vector steerlib_arrive(entity this, vector point, float maximal_distance); +vector steerlib_attract2(entity this, vector point, float min_influense, float max_distance, float max_influense); +vector steerlib_pull(entity this, vector point); diff --git a/qcsrc/server/sv_main.qc b/qcsrc/server/sv_main.qc index 44bd23c8c..b33b96db1 100644 --- a/qcsrc/server/sv_main.qc +++ b/qcsrc/server/sv_main.qc @@ -240,20 +240,20 @@ bool DoesQ3ARemoveThisEntity(entity this); void SV_OnEntityPreSpawnFunction() {SELFPARAM(); __spawnfunc_expect = this; - if (self) - if (self.gametypefilter != "") - if (!isGametypeInFilter(MapInfo_LoadedGametype, teamplay, have_team_spawns, self.gametypefilter)) + if (this) + if (this.gametypefilter != "") + if (!isGametypeInFilter(MapInfo_LoadedGametype, teamplay, have_team_spawns, this.gametypefilter)) { - remove(self); + remove(this); return; } - if(self.cvarfilter != "") + if(this.cvarfilter != "") { float n, i, o, inv; string s, k, v; inv = 0; - s = self.cvarfilter; + s = this.cvarfilter; if(substring(s, 0, 1) == "+") { s = substring(s, 1, -1); @@ -352,41 +352,41 @@ LABEL(cvar_fail) if (!inv) { //print("cvarfilter fail\n"); - remove(self); + remove(this); return; } } - if(DoesQ3ARemoveThisEntity(self)) + if(DoesQ3ARemoveThisEntity(this)) { - remove(self); + remove(this); return; } // support special -1 and -2 angle from radiant - if (self.angles == '0 -1 0') - self.angles = '-90 0 0'; - else if (self.angles == '0 -2 0') - self.angles = '+90 0 0'; - - if(self.originjitter.x != 0) - self.origin_x = self.origin.x + (random() * 2 - 1) * self.originjitter.x; - if(self.originjitter.y != 0) - self.origin_y = self.origin.y + (random() * 2 - 1) * self.originjitter.y; - if(self.originjitter.z != 0) - self.origin_z = self.origin.z + (random() * 2 - 1) * self.originjitter.z; - if(self.anglesjitter.x != 0) - self.angles_x = self.angles.x + (random() * 2 - 1) * self.anglesjitter.x; - if(self.anglesjitter.y != 0) - self.angles_y = self.angles.y + (random() * 2 - 1) * self.anglesjitter.y; - if(self.anglesjitter.z != 0) - self.angles_z = self.angles.z + (random() * 2 - 1) * self.anglesjitter.z; - if(self.anglejitter != 0) - self.angles_y = self.angles.y + (random() * 2 - 1) * self.anglejitter; - - if(MUTATOR_CALLHOOK(OnEntityPreSpawn)) + if (this.angles == '0 -1 0') + this.angles = '-90 0 0'; + else if (this.angles == '0 -2 0') + this.angles = '+90 0 0'; + + if(this.originjitter.x != 0) + this.origin_x = this.origin.x + (random() * 2 - 1) * this.originjitter.x; + if(this.originjitter.y != 0) + this.origin_y = this.origin.y + (random() * 2 - 1) * this.originjitter.y; + if(this.originjitter.z != 0) + this.origin_z = this.origin.z + (random() * 2 - 1) * this.originjitter.z; + if(this.anglesjitter.x != 0) + this.angles_x = this.angles.x + (random() * 2 - 1) * this.anglesjitter.x; + if(this.anglesjitter.y != 0) + this.angles_y = this.angles.y + (random() * 2 - 1) * this.anglesjitter.y; + if(this.anglesjitter.z != 0) + this.angles_z = this.angles.z + (random() * 2 - 1) * this.anglesjitter.z; + if(this.anglejitter != 0) + this.angles_y = this.angles.y + (random() * 2 - 1) * this.anglejitter; + + if(MUTATOR_CALLHOOK(OnEntityPreSpawn, this)) { - remove(self); + remove(this); return; } } diff --git a/qcsrc/server/t_quake.qc b/qcsrc/server/t_quake.qc index c41f8ccf8..9096acc23 100644 --- a/qcsrc/server/t_quake.qc +++ b/qcsrc/server/t_quake.qc @@ -21,8 +21,8 @@ spawnfunc(weapon_supershotgun) {spawnfunc_weapon_machinegun(this);} spawnfunc(item_spikes) {spawnfunc_item_bullets(this);} //spawnfunc(item_armor1) {spawnfunc_item_armor_medium(this);} // FIXME: in Quake this is green armor, in Xonotic maps it is an armor shard spawnfunc(item_armor2) {spawnfunc_item_armor_large(this);} -void item_armorInv() {SELFPARAM();spawnfunc_item_armor_large(self);} -spawnfunc(item_health) {if (self.spawnflags & 2) spawnfunc_item_health_mega(this);else spawnfunc_item_health_medium(this);} +void item_armorInv() {SELFPARAM();spawnfunc_item_armor_large(this);} // FIXME: we require spawnfunc_ prefix for functions to be map entities +spawnfunc(item_health) {if (this.spawnflags & 2) spawnfunc_item_health_mega(this);else spawnfunc_item_health_medium(this);} //spawnfunc_item_spikes //spawnfunc_item_health -- 2.39.2