Merge branch 'master' into terencehill/slider_anim_improvements

[xonotic/xonotic-data.pk3dir.git] / qcsrc / server / bot / aim.qc

#include "aim.qh"
#include "../_all.qh"

#include "bot.qh"

#include "../mutators/mutators_include.qh"

// traces multiple trajectories to find one that will impact the target
// 'end' vector is the place it aims for,
// returns true only if it hit targ (don't target non-solid entities)

float findtrajectorywithleading(vector org, vector m1, vector m2, entity targ, float shotspeed, float shotspeedupward, float maxtime, float shotdelay, entity ignore)
{
        float c, savesolid, shottime;
        vector dir, end, v, o;
        if (shotspeed < 1)
                return false; // could cause division by zero if calculated
        if (targ.solid < SOLID_BBOX) // SOLID_NOT and SOLID_TRIGGER
                return false; // could never hit it
        if (!tracetossent)
                tracetossent = spawn();
        tracetossent.owner = ignore;
        setsize(tracetossent, m1, m2);
        savesolid = targ.solid;
        targ.solid = SOLID_NOT;
        o = (targ.absmin + targ.absmax) * 0.5;
        shottime = ((vlen(o - org) / shotspeed) + shotdelay);
        v = targ.velocity * shottime + o;
        tracebox(o, targ.mins, targ.maxs, v, false, targ);
        v = trace_endpos;
        end = v + (targ.mins + targ.maxs) * 0.5;
        if ((vlen(end - org) / shotspeed + 0.2) > maxtime)
        {
                // out of range
                targ.solid = savesolid;
                return false;
        }

        if (!tracetossfaketarget)
                tracetossfaketarget = spawn();
        tracetossfaketarget.solid = savesolid;
        tracetossfaketarget.movetype = targ.movetype;
        setmodel(tracetossfaketarget, targ.model); // no low precision
        tracetossfaketarget.model = targ.model;
        tracetossfaketarget.modelindex = targ.modelindex;
        setsize(tracetossfaketarget, targ.mins, targ.maxs);
        setorigin(tracetossfaketarget, v);

        c = 0;
        dir = normalize(end - org);
        while (c < 10) // 10 traces
        {
                setorigin(tracetossent, org); // reset
                tracetossent.velocity = findtrajectory_velocity = normalize(dir) * shotspeed + shotspeedupward * '0 0 1';
                tracetoss(tracetossent, ignore); // love builtin functions...
                if (trace_ent == tracetossfaketarget) // done
                {
                        targ.solid = savesolid;

                        // make it disappear
                        tracetossfaketarget.solid = SOLID_NOT;
                        tracetossfaketarget.movetype = MOVETYPE_NONE;
                        tracetossfaketarget.model = "";
                        tracetossfaketarget.modelindex = 0;
                        // relink to remove it from physics considerations
                        setorigin(tracetossfaketarget, v);

                        return true;
                }
                dir.z = dir.z + 0.1; // aim up a little more
                c = c + 1;
        }
        targ.solid = savesolid;

        // make it disappear
        tracetossfaketarget.solid = SOLID_NOT;
        tracetossfaketarget.movetype = MOVETYPE_NONE;
        tracetossfaketarget.model = "";
        tracetossfaketarget.modelindex = 0;
        // relink to remove it from physics considerations
        setorigin(tracetossfaketarget, v);

        // leave a valid one even if it won't reach
        findtrajectory_velocity = normalize(end - org) * shotspeed + shotspeedupward * '0 0 1';
        return false;
}

void lag_update()
{
        if (self.lag1_time) if (time > self.lag1_time) {self.lag_func(self.lag1_time, self.lag1_float1, self.lag1_float2, self.lag1_entity1, self.lag1_vec1, self.lag1_vec2, self.lag1_vec3, self.lag1_vec4);self.lag1_time = 0;}
        if (self.lag2_time) if (time > self.lag2_time) {self.lag_func(self.lag2_time, self.lag2_float1, self.lag2_float2, self.lag2_entity1, self.lag2_vec1, self.lag2_vec2, self.lag2_vec3, self.lag2_vec4);self.lag2_time = 0;}
        if (self.lag3_time) if (time > self.lag3_time) {self.lag_func(self.lag3_time, self.lag3_float1, self.lag3_float2, self.lag3_entity1, self.lag3_vec1, self.lag3_vec2, self.lag3_vec3, self.lag3_vec4);self.lag3_time = 0;}
        if (self.lag4_time) if (time > self.lag4_time) {self.lag_func(self.lag4_time, self.lag4_float1, self.lag4_float2, self.lag4_entity1, self.lag4_vec1, self.lag4_vec2, self.lag4_vec3, self.lag4_vec4);self.lag4_time = 0;}
        if (self.lag5_time) if (time > self.lag5_time) {self.lag_func(self.lag5_time, self.lag5_float1, self.lag5_float2, self.lag5_entity1, self.lag5_vec1, self.lag5_vec2, self.lag5_vec3, self.lag5_vec4);self.lag5_time = 0;}
}

float lag_additem(float t, float f1, float f2, entity e1, vector v1, vector v2, vector v3, vector v4)
{
        if (self.lag1_time == 0) {self.lag1_time = t;self.lag1_float1 = f1;self.lag1_float2 = f2;self.lag1_entity1 = e1;self.lag1_vec1 = v1;self.lag1_vec2 = v2;self.lag1_vec3 = v3;self.lag1_vec4 = v4;return true;}
        if (self.lag2_time == 0) {self.lag2_time = t;self.lag2_float1 = f1;self.lag2_float2 = f2;self.lag2_entity1 = e1;self.lag2_vec1 = v1;self.lag2_vec2 = v2;self.lag2_vec3 = v3;self.lag2_vec4 = v4;return true;}
        if (self.lag3_time == 0) {self.lag3_time = t;self.lag3_float1 = f1;self.lag3_float2 = f2;self.lag3_entity1 = e1;self.lag3_vec1 = v1;self.lag3_vec2 = v2;self.lag3_vec3 = v3;self.lag3_vec4 = v4;return true;}
        if (self.lag4_time == 0) {self.lag4_time = t;self.lag4_float1 = f1;self.lag4_float2 = f2;self.lag4_entity1 = e1;self.lag4_vec1 = v1;self.lag4_vec2 = v2;self.lag4_vec3 = v3;self.lag4_vec4 = v4;return true;}
        if (self.lag5_time == 0) {self.lag5_time = t;self.lag5_float1 = f1;self.lag5_float2 = f2;self.lag5_entity1 = e1;self.lag5_vec1 = v1;self.lag5_vec2 = v2;self.lag5_vec3 = v3;self.lag5_vec4 = v4;return true;}
        // no room for it (what is the best thing to do here??)
        return false;
}

float bot_shouldattack(entity e)
{
        if (e.team == self.team)
        {
                if (e == self)
                        return false;
                if (teamplay)
                if (e.team != 0)
                        return false;
        }

        if(e.frozen)
                return false;

        // If neither player has ball then don't attack unless the ball is on the
        // ground.
        if (g_keepaway)
                if (!e.ballcarried && !self.ballcarried && ka_ball.owner)
                        return false;

        if(teamplay)
        {
                if(e.team==0)
                        return false;
        }
        else if(bot_ignore_bots)
                if(IS_BOT_CLIENT(e))
                        return false;

        if (!e.takedamage)
                return false;
        if (e.deadflag)
                return false;
        if (e.BUTTON_CHAT)
                return false;
        if(e.flags & FL_NOTARGET)
                return false;

        if(MUTATOR_CALLHOOK(BotShouldAttack, e))
                return false;

        return true;
}

void bot_lagfunc(float t, float f1, float f2, entity e1, vector v1, vector v2, vector v3, vector v4)
{
        if(self.flags & FL_INWATER)
        {
                self.bot_aimtarg = world;
                return;
        }
        self.bot_aimtarg = e1;
        self.bot_aimlatency = self.ping; // FIXME?  Shouldn't this be in the lag item?
        self.bot_aimselforigin = v1;
        self.bot_aimselfvelocity = v2;
        self.bot_aimtargorigin = v3;
        self.bot_aimtargvelocity = v4;
        if(skill <= 0)
                self.bot_canfire = (random() < 0.8);
        else if(skill <= 1)
                self.bot_canfire = (random() < 0.9);
        else if(skill <= 2)
                self.bot_canfire = (random() < 0.95);
        else
                self.bot_canfire = 1;
}

float bot_aimdir(vector v, float maxfiredeviation)
{
        float dist, delta_t, blend;
        vector desiredang, diffang;

        //dprint("aim ", self.netname, ": old:", vtos(self.v_angle));
        // make sure v_angle is sane first
        self.v_angle_y = self.v_angle.y - floor(self.v_angle.y / 360) * 360;
        self.v_angle_z = 0;

        // get the desired angles to aim at
        //dprint(" at:", vtos(v));
        v = normalize(v);
        //te_lightning2(world, self.origin + self.view_ofs, self.origin + self.view_ofs + v * 200);
        if (time >= self.bot_badaimtime)
        {
                self.bot_badaimtime = max(self.bot_badaimtime + 0.3, time);
                self.bot_badaimoffset = randomvec() * bound(0, 5 - 0.5 * (skill+self.bot_offsetskill), 5) * autocvar_bot_ai_aimskill_offset;
        }
        desiredang = vectoangles(v) + self.bot_badaimoffset;
        //dprint(" desired:", vtos(desiredang));
        if (desiredang.x >= 180)
                desiredang.x = desiredang.x - 360;
        desiredang.x = bound(-90, 0 - desiredang.x, 90);
        desiredang.z = self.v_angle.z;
        //dprint(" / ", vtos(desiredang));

        //// pain throws off aim
        //if (self.bot_painintensity)
        //{
        //      // shake from pain
        //      desiredang = desiredang + randomvec() * self.bot_painintensity * 0.2;
        //}

        // calculate turn angles
        diffang = (desiredang - self.bot_olddesiredang);
        // wrap yaw turn
        diffang.y = diffang.y - floor(diffang.y / 360) * 360;
        if (diffang.y >= 180)
                diffang.y = diffang.y - 360;
        self.bot_olddesiredang = desiredang;
        //dprint(" diff:", vtos(diffang));

        delta_t = time-self.bot_prevaimtime;
        self.bot_prevaimtime = time;
        // Here we will try to anticipate the comming aiming direction
        self.bot_1st_order_aimfilter= self.bot_1st_order_aimfilter
                + (diffang * (1 / delta_t)    - self.bot_1st_order_aimfilter) * bound(0, autocvar_bot_ai_aimskill_order_filter_1st,1);
        self.bot_2nd_order_aimfilter= self.bot_2nd_order_aimfilter
                + (self.bot_1st_order_aimfilter - self.bot_2nd_order_aimfilter) * bound(0, autocvar_bot_ai_aimskill_order_filter_2nd,1);
        self.bot_3th_order_aimfilter= self.bot_3th_order_aimfilter
                + (self.bot_2nd_order_aimfilter - self.bot_3th_order_aimfilter) * bound(0, autocvar_bot_ai_aimskill_order_filter_3th,1);
        self.bot_4th_order_aimfilter= self.bot_4th_order_aimfilter
                + (self.bot_3th_order_aimfilter - self.bot_4th_order_aimfilter) * bound(0, autocvar_bot_ai_aimskill_order_filter_4th,1);
        self.bot_5th_order_aimfilter= self.bot_5th_order_aimfilter
                + (self.bot_4th_order_aimfilter - self.bot_5th_order_aimfilter) * bound(0, autocvar_bot_ai_aimskill_order_filter_5th,1);

        //blend = (bound(0,skill,10)*0.1)*pow(1-bound(0,skill,10)*0.05,2.5)*5.656854249; //Plot formule before changing !
        blend = bound(0,skill+self.bot_aimskill,10)*0.1;
        desiredang = desiredang + blend *
        (
                  self.bot_1st_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_1st
                + self.bot_2nd_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_2nd
                + self.bot_3th_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_3th
                + self.bot_4th_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_4th
                + self.bot_5th_order_aimfilter * autocvar_bot_ai_aimskill_order_mix_5th
        );

        // calculate turn angles
        diffang = desiredang - self.bot_mouseaim;
        // wrap yaw turn
        diffang.y = diffang.y - floor(diffang.y / 360) * 360;
        if (diffang.y >= 180)
                diffang.y = diffang.y - 360;
        //dprint(" diff:", vtos(diffang));

        if (time >= self.bot_aimthinktime)
        {
                self.bot_aimthinktime = max(self.bot_aimthinktime + 0.5 - 0.05*(skill+self.bot_thinkskill), time);
                self.bot_mouseaim = self.bot_mouseaim + diffang * (1-random()*0.1*bound(1,10-(skill+self.bot_thinkskill),10));
        }

        //self.v_angle = self.v_angle + diffang * bound(0, r * frametime * (skill * 0.5 + 2), 1);

        diffang = self.bot_mouseaim - desiredang;
        // wrap yaw turn
        diffang.y = diffang.y - floor(diffang.y / 360) * 360;
        if (diffang.y >= 180)
                diffang.y = diffang.y - 360;
        desiredang = desiredang + diffang * bound(0,autocvar_bot_ai_aimskill_think,1);

        // calculate turn angles
        diffang = desiredang - self.v_angle;
        // wrap yaw turn
        diffang.y = diffang.y - floor(diffang.y / 360) * 360;
        if (diffang.y >= 180)
                diffang.y = diffang.y - 360;
        //dprint(" diff:", vtos(diffang));

        // jitter tracking
        dist = vlen(diffang);
        //diffang = diffang + randomvec() * (dist * 0.05 * (3.5 - bound(0, skill, 3)));

        // turn
        float r, fixedrate, blendrate;
        fixedrate = autocvar_bot_ai_aimskill_fixedrate / bound(1,dist,1000);
        blendrate = autocvar_bot_ai_aimskill_blendrate;
        r = max(fixedrate, blendrate);
        //self.v_angle = self.v_angle + diffang * bound(frametime, r * frametime * (2+skill*skill*0.05-random()*0.05*(10-skill)), 1);
        self.v_angle = self.v_angle + diffang * bound(delta_t, r * delta_t * (2+pow(skill+self.bot_mouseskill,3)*0.005-random()), 1);
        self.v_angle = self.v_angle * bound(0,autocvar_bot_ai_aimskill_mouse,1) + desiredang * bound(0,(1-autocvar_bot_ai_aimskill_mouse),1);
        //self.v_angle = self.v_angle + diffang * bound(0, r * frametime * (skill * 0.5 + 2), 1);
        //self.v_angle = self.v_angle + diffang * (1/ blendrate);
        self.v_angle_z = 0;
        self.v_angle_y = self.v_angle.y - floor(self.v_angle.y / 360) * 360;
        //dprint(" turn:", vtos(self.v_angle));

        makevectors(self.v_angle);
        shotorg = self.origin + self.view_ofs;
        shotdir = v_forward;

        //dprint(" dir:", vtos(v_forward));
        //te_lightning2(world, shotorg, shotorg + shotdir * 100);

        // calculate turn angles again
        //diffang = desiredang - self.v_angle;
        //diffang_y = diffang_y - floor(diffang_y / 360) * 360;
        //if (diffang_y >= 180)
        //      diffang_y = diffang_y - 360;

        //dprint("e ", vtos(diffang), " < ", ftos(maxfiredeviation), "\n");

        // decide whether to fire this time
        // note the maxfiredeviation is in degrees so this has to convert to radians first
        //if ((normalize(v) * shotdir) >= cos(maxfiredeviation * (3.14159265358979323846 / 180)))
        if ((normalize(v) * shotdir) >= cos(maxfiredeviation * (3.14159265358979323846 / 180)))
        if (vlen(trace_endpos-shotorg) < 500+500*bound(0, skill+self.bot_aggresskill, 10) || random()*random()>bound(0,(skill+self.bot_aggresskill)*0.05,1))
                self.bot_firetimer = time + bound(0.1, 0.5-(skill+self.bot_aggresskill)*0.05, 0.5);
        //traceline(shotorg,shotorg+shotdir*1000,false,world);
        //dprint(ftos(maxfiredeviation),"\n");
        //dprint(" diff:", vtos(diffang), "\n");

        return self.bot_canfire && (time < self.bot_firetimer);
}

vector bot_shotlead(vector targorigin, vector targvelocity, float shotspeed, float shotdelay)
{
        // Try to add code here that predicts gravity effect here, no clue HOW to though ... well not yet atleast...
        return targorigin + targvelocity * (shotdelay + vlen(targorigin - shotorg) / shotspeed);
}

float bot_aim(float shotspeed, float shotspeedupward, float maxshottime, float applygravity)
{
        float f, r, hf, distanceratio;
        vector v;
        /*
        eprint(self);
        dprint("bot_aim(", ftos(shotspeed));
        dprint(", ", ftos(shotspeedupward));
        dprint(", ", ftos(maxshottime));
        dprint(", ", ftos(applygravity));
        dprint(");\n");
        */

        hf = self.dphitcontentsmask;
        self.dphitcontentsmask = DPCONTENTS_SOLID | DPCONTENTS_BODY | DPCONTENTS_CORPSE;

        shotspeed *= W_WeaponSpeedFactor();
        shotspeedupward *= W_WeaponSpeedFactor();
        if (!shotspeed)
        {
                dprint("bot_aim: WARNING: weapon ", WEP_NAME(self.weapon), " shotspeed is zero!\n");
                shotspeed = 1000000;
        }
        if (!maxshottime)
        {
                dprint("bot_aim: WARNING: weapon ", WEP_NAME(self.weapon), " maxshottime is zero!\n");
                maxshottime = 1;
        }
        makevectors(self.v_angle);
        shotorg = self.origin + self.view_ofs;
        shotdir = v_forward;
        v = bot_shotlead(self.bot_aimtargorigin, self.bot_aimtargvelocity, shotspeed, self.bot_aimlatency);
        distanceratio = sqrt(bound(0,skill,10000))*0.3*(vlen(v-shotorg)-100)/autocvar_bot_ai_aimskill_firetolerance_distdegrees;
        distanceratio = bound(0,distanceratio,1);
        r =  (autocvar_bot_ai_aimskill_firetolerance_maxdegrees-autocvar_bot_ai_aimskill_firetolerance_mindegrees)
                * (1-distanceratio) + autocvar_bot_ai_aimskill_firetolerance_mindegrees;
        if (applygravity && self.bot_aimtarg)
        {
                if (!findtrajectorywithleading(shotorg, '0 0 0', '0 0 0', self.bot_aimtarg, shotspeed, shotspeedupward, maxshottime, 0, self))
                {
                        self.dphitcontentsmask = hf;
                        return false;
                }

                f = bot_aimdir(findtrajectory_velocity - shotspeedupward * '0 0 1', r);
        }
        else
        {
                f = bot_aimdir(v - shotorg, r);
                //dprint("AIM: ");dprint(vtos(self.bot_aimtargorigin));dprint(" + ");dprint(vtos(self.bot_aimtargvelocity));dprint(" * ");dprint(ftos(self.bot_aimlatency + vlen(self.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, self);
                //if (trace_ent.takedamage)
                //if (trace_fraction < 1)
                //if (!bot_shouldattack(trace_ent))
                //      return false;
                traceline(shotorg, self.bot_aimtargorigin, false, self);
                if (trace_fraction < 1)
                if (trace_ent != self.enemy)
                if (!bot_shouldattack(trace_ent))
                {
                        self.dphitcontentsmask = hf;
                        return false;
                }
        }

        //if (r > maxshottime * shotspeed)
        //      return false;
        self.dphitcontentsmask = hf;
        return true;
}