#include "../../weapons/weaponsystem.qh"
-#include "../../mutators/_mod.qh"
+#include <server/mutators/_mod.qh>
// traces multiple trajectories to find one that will impact the target
// 'end' vector is the place it aims for,
void lag_update(entity this)
{
- if (this.lag1_time) if (time > this.lag1_time) {this.lag_func(this, this.lag1_time, this.lag1_float1, this.lag1_float2, this.lag1_entity1, this.lag1_vec1, this.lag1_vec2, this.lag1_vec3, this.lag1_vec4);this.lag1_time = 0;}
- if (this.lag2_time) if (time > this.lag2_time) {this.lag_func(this, this.lag2_time, this.lag2_float1, this.lag2_float2, this.lag2_entity1, this.lag2_vec1, this.lag2_vec2, this.lag2_vec3, this.lag2_vec4);this.lag2_time = 0;}
- if (this.lag3_time) if (time > this.lag3_time) {this.lag_func(this, this.lag3_time, this.lag3_float1, this.lag3_float2, this.lag3_entity1, this.lag3_vec1, this.lag3_vec2, this.lag3_vec3, this.lag3_vec4);this.lag3_time = 0;}
- if (this.lag4_time) if (time > this.lag4_time) {this.lag_func(this, this.lag4_time, this.lag4_float1, this.lag4_float2, this.lag4_entity1, this.lag4_vec1, this.lag4_vec2, this.lag4_vec3, this.lag4_vec4);this.lag4_time = 0;}
- if (this.lag5_time) if (time > this.lag5_time) {this.lag_func(this, this.lag5_time, this.lag5_float1, this.lag5_float2, this.lag5_entity1, this.lag5_vec1, this.lag5_vec2, this.lag5_vec3, this.lag5_vec4);this.lag5_time = 0;}
+ if (this.lag1_time && time > this.lag1_time) { this.lag_func(this, this.lag1_time, this.lag1_float1, this.lag1_float2, this.lag1_entity1, this.lag1_vec1, this.lag1_vec2, this.lag1_vec3, this.lag1_vec4); this.lag1_time = 0; }
+ if (this.lag2_time && time > this.lag2_time) { this.lag_func(this, this.lag2_time, this.lag2_float1, this.lag2_float2, this.lag2_entity1, this.lag2_vec1, this.lag2_vec2, this.lag2_vec3, this.lag2_vec4); this.lag2_time = 0; }
+ if (this.lag3_time && time > this.lag3_time) { this.lag_func(this, this.lag3_time, this.lag3_float1, this.lag3_float2, this.lag3_entity1, this.lag3_vec1, this.lag3_vec2, this.lag3_vec3, this.lag3_vec4); this.lag3_time = 0; }
+ if (this.lag4_time && time > this.lag4_time) { this.lag_func(this, this.lag4_time, this.lag4_float1, this.lag4_float2, this.lag4_entity1, this.lag4_vec1, this.lag4_vec2, this.lag4_vec3, this.lag4_vec4); this.lag4_time = 0; }
+ if (this.lag5_time && time > this.lag5_time) { this.lag_func(this, this.lag5_time, this.lag5_float1, this.lag5_float2, this.lag5_entity1, this.lag5_vec1, this.lag5_vec2, this.lag5_vec3, this.lag5_vec4); this.lag5_time = 0; }
}
float lag_additem(entity this, float t, float f1, float f2, entity e1, vector v1, vector v2, vector v3, vector v4)
if(targ.team==0)
return false;
}
- else if(bot_ignore_bots)
- if(IS_BOT_CLIENT(targ))
- return false;
+ else if (autocvar_bot_ignore_bots && IS_BOT_CLIENT(targ))
+ return false;
if (!targ.takedamage)
return false;
if (IS_DEAD(targ))
return false;
- if (PHYS_INPUT_BUTTON_CHAT(targ))
+ if (PHYS_INPUT_BUTTON_CHAT(targ) && !autocvar_bot_typefrag)
return false;
if(targ.flags & FL_NOTARGET)
return false;
+ if(targ.alpha <= 0.1 && targ.alpha != 0)
+ return false; // invisible via alpha
if(MUTATOR_CALLHOOK(BotShouldAttack, this, targ))
return false;
void bot_lagfunc(entity this, float t, float f1, float f2, entity e1, vector v1, vector v2, vector v3, vector v4)
{
- if(this.flags & FL_INWATER)
- {
- this.bot_aimtarg = NULL;
- return;
- }
this.bot_aimtarg = e1;
this.bot_aimlatency = CS(this).ping; // FIXME? Shouldn't this be in the lag item?
//this.bot_aimorigin = v1;
this.bot_canfire = 1;
}
-float bot_aimdir(entity this, vector v, float maxfiredeviation)
+void bot_aimdir(entity this, vector v, float maxfiredeviation)
{
float dist, delta_t, blend;
vector desiredang, diffang;
+ this.bot_aimdir_executed = true;
+
//dprint("aim ", this.netname, ": old:", vtos(this.v_angle));
// make sure v_angle is sane first
this.v_angle_y = this.v_angle.y - floor(this.v_angle.y / 360) * 360;
this.v_angle_z = 0;
+ // invalid aim dir (can happen when bot overlaps target)
+ if(!v) return;
+
// get the desired angles to aim at
//dprint(" at:", vtos(v));
v = normalize(v);
+ this.bot_4th_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_4th
+ this.bot_5th_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_5th
);
+ desiredang.x = bound(-90, desiredang.x, 90);
// calculate turn angles
diffang = desiredang - this.bot_mouseaim;
//dprint(ftos(maxfiredeviation),"\n");
//dprint(" diff:", vtos(diffang), "\n");
- return this.bot_canfire && (time < this.bot_firetimer);
+ //return this.bot_canfire && (time < this.bot_firetimer);
}
vector bot_shotlead(vector targorigin, vector targvelocity, float shotspeed, float shotdelay)
bool bot_aim(entity this, .entity weaponentity, float shotspeed, float shotspeedupward, float maxshottime, bool applygravity)
{
- float f, r, hf, distanceratio;
+ float r, hf, distanceratio;
vector v;
/*
eprint(this);
return false;
}
- f = bot_aimdir(this, findtrajectory_velocity - shotspeedupward * '0 0 1', r);
+ bot_aimdir(this, findtrajectory_velocity - shotspeedupward * '0 0 1', r);
}
else
{
- f = bot_aimdir(this, v - shotorg, r);
+ bot_aimdir(this, v - shotorg, r);
//dprint("AIM: ");dprint(vtos(this.bot_aimtargorigin));dprint(" + ");dprint(vtos(this.bot_aimtargvelocity));dprint(" * ");dprint(ftos(this.bot_aimlatency + vlen(this.bot_aimtargorigin - shotorg) / shotspeed));dprint(" = ");dprint(vtos(v));dprint(" : aimdir = ");dprint(vtos(normalize(v - shotorg)));dprint(" : ");dprint(vtos(shotdir));dprint("\n");
//traceline(shotorg, shotorg + shotdir * 10000, false, this);
//if (trace_ent.takedamage)