#include "havocbot.qh"
+#include "roles.qh"
+
#include <server/defs.qh>
#include <server/miscfunctions.qh>
#include "../cvars.qh"
#include <lib/warpzone/common.qh>
-.float speed;
-
void havocbot_ai(entity this)
{
if(this.draggedby)
bot_strategytoken_taken = true;
}
+ if (this.goalcurrent && wasfreed(this.goalcurrent))
+ {
+ navigation_clearroute(this);
+ navigation_goalrating_timeout_force(this);
+ return;
+ }
+
if(IS_DEAD(this) || STAT(FROZEN, this))
{
if (this.goalcurrent)
}
}
-void havocbot_keyboard_movement(entity this, vector destorg)
+void havocbot_bunnyhop(entity this, vector dir)
{
- vector keyboard;
-
- if (time > this.havocbot_keyboardtime)
+ bool can_run = false;
+ if (!(this.aistatus & AI_STATUS_ATTACKING) && this.goalcurrent && !IS_PLAYER(this.goalcurrent)
+ && vdist(vec2(this.velocity), >=, autocvar_sv_maxspeed) && !(this.aistatus & AI_STATUS_DANGER_AHEAD)
+ && this.waterlevel <= WATERLEVEL_WETFEET && !IS_DUCKED(this)
+ && IS_ONGROUND(this) && !(this.goalcurrent_prev && (this.goalcurrent_prev.wpflags & WAYPOINTFLAG_JUMP)))
{
- float sk = skill + this.bot_moveskill;
- this.havocbot_keyboardtime =
- max(
- this.havocbot_keyboardtime
- + 0.05 / max(1, sk + this.havocbot_keyboardskill)
- + random() * 0.025 / max(0.00025, skill + this.havocbot_keyboardskill)
- , time);
- keyboard = CS(this).movement / autocvar_sv_maxspeed;
-
- float trigger = autocvar_bot_ai_keyboard_threshold;
- float trigger1 = -trigger;
-
- // categorize forward movement
- // at skill < 1.5 only forward
- // at skill < 2.5 only individual directions
- // at skill < 4.5 only individual directions, and forward diagonals
- // at skill >= 4.5, all cases allowed
- if (keyboard.x > trigger)
- {
- keyboard.x = 1;
- if (sk < 2.5)
- keyboard.y = 0;
- }
- else if (keyboard.x < trigger1 && sk > 1.5)
+ vector vel_angles = vectoangles(this.velocity);
+ vector deviation = vel_angles - vectoangles(dir);
+ while (deviation.y < -180) deviation.y = deviation.y + 360;
+ while (deviation.y > 180) deviation.y = deviation.y - 360;
+ if (fabs(deviation.y) < autocvar_bot_ai_bunnyhop_dir_deviation_max)
{
- keyboard.x = -1;
- if (sk < 4.5)
- keyboard.y = 0;
- }
- else
- {
- keyboard.x = 0;
- if (sk < 1.5)
- keyboard.y = 0;
+ vector gco = get_closer_dest(this.goalcurrent, this.origin);
+ float vel = vlen(vec2(this.velocity));
+
+ // with the current physics, jump distance grows linearly with the speed
+ float jump_distance = 52.661 + 0.606 * vel;
+ jump_distance += this.origin.z - gco.z; // roughly take into account vertical distance too
+ if (vdist(vec2(gco - this.origin), >, max(0, jump_distance)))
+ can_run = true;
+ else if (!(this.goalcurrent.wpflags & WAYPOINTFLAG_JUMP)
+ && !(this.goalcurrent.wpflags & WAYPOINTFLAG_TELEPORT)
+ && this.goalstack01 && !wasfreed(this.goalstack01) && !(this.goalstack01.wpflags & WAYPOINTFLAG_JUMP)
+ && vdist(vec2(gco - this.goalstack01.origin), >, 70))
+ {
+ vector gno = (this.goalstack01.absmin + this.goalstack01.absmax) * 0.5;
+ vector ang = vectoangles(gco - this.origin);
+ deviation = vectoangles(gno - gco) - vel_angles;
+ while (deviation.y < -180) deviation.y = deviation.y + 360;
+ while (deviation.y > 180) deviation.y = deviation.y - 360;
+
+ float max_turn_angle = autocvar_bot_ai_bunnyhop_turn_angle_max;
+ max_turn_angle -= autocvar_bot_ai_bunnyhop_turn_angle_reduction * ((vel - autocvar_sv_maxspeed) / autocvar_sv_maxspeed);
+ if ((ang.x < 90 || ang.x > 360 - autocvar_bot_ai_bunnyhop_downward_pitch_max)
+ && fabs(deviation.y) < max(autocvar_bot_ai_bunnyhop_turn_angle_min, max_turn_angle))
+ {
+ can_run = true;
+ }
+ }
}
- if (sk < 4.5)
- keyboard.z = 0;
-
- if (keyboard.y > trigger)
- keyboard.y = 1;
- else if (keyboard.y < trigger1)
- keyboard.y = -1;
- else
- keyboard.y = 0;
-
- if (keyboard.z > trigger)
- keyboard.z = 1;
- else if (keyboard.z < trigger1)
- keyboard.z = -1;
- else
- keyboard.z = 0;
-
- this.havocbot_keyboard = keyboard * autocvar_sv_maxspeed;
- if (this.havocbot_ducktime > time)
- PHYS_INPUT_BUTTON_CROUCH(this) = true;
}
- keyboard = this.havocbot_keyboard;
- float blend = bound(0, vlen(destorg - this.origin) / autocvar_bot_ai_keyboard_distance, 1); // When getting close move with 360 degree
- //dprint("movement ", vtos(CS(this).movement), " keyboard ", vtos(keyboard), " blend ", ftos(blend), "\n");
- CS(this).movement = CS(this).movement + (keyboard - CS(this).movement) * blend;
-}
-
-void havocbot_bunnyhop(entity this, vector dir)
-{
- float bunnyhopdistance;
- vector deviation;
- float maxspeed;
-
- // Don't jump when attacking
- if(this.aistatus & AI_STATUS_ATTACKING)
- return;
-
- if(IS_PLAYER(this.goalcurrent))
- return;
-
- maxspeed = autocvar_sv_maxspeed;
-
- if(this.aistatus & AI_STATUS_RUNNING && vdist(this.velocity, <, autocvar_sv_maxspeed * 0.75)
- || this.aistatus & AI_STATUS_DANGER_AHEAD)
+ if (can_run)
{
- this.aistatus &= ~AI_STATUS_RUNNING;
- PHYS_INPUT_BUTTON_JUMP(this) = false;
- this.bot_canruntogoal = 0;
- this.bot_timelastseengoal = 0;
- return;
+ PHYS_INPUT_BUTTON_JUMP(this) = true;
+ this.aistatus |= AI_STATUS_RUNNING;
}
-
- if(this.waterlevel > WATERLEVEL_WETFEET)
+ else
{
- this.aistatus &= ~AI_STATUS_RUNNING;
- return;
+ if (IS_ONGROUND(this) || this.waterlevel > WATERLEVEL_WETFEET)
+ this.aistatus &= ~AI_STATUS_RUNNING;
}
+}
+
+void havocbot_keyboard_movement(entity this, vector destorg)
+{
+ if(time <= this.havocbot_keyboardtime)
+ return;
- if(this.bot_lastseengoal != this.goalcurrent && !(this.aistatus & AI_STATUS_RUNNING))
+ float sk = skill + this.bot_moveskill;
+ this.havocbot_keyboardtime =
+ max(
+ this.havocbot_keyboardtime
+ + 0.05 / max(1, sk + this.havocbot_keyboardskill)
+ + random() * 0.025 / max(0.00025, skill + this.havocbot_keyboardskill)
+ , time);
+ vector keyboard = CS(this).movement / autocvar_sv_maxspeed;
+
+ float trigger = autocvar_bot_ai_keyboard_threshold;
+
+ // categorize forward movement
+ // at skill < 1.5 only forward
+ // at skill < 2.5 only individual directions
+ // at skill < 4.5 only individual directions, and forward diagonals
+ // at skill >= 4.5, all cases allowed
+ if (keyboard.x > trigger)
{
- this.bot_canruntogoal = 0;
- this.bot_timelastseengoal = 0;
+ keyboard.x = 1;
+ if (sk < 2.5)
+ keyboard.y = 0;
}
-
- vector gco = get_closer_dest(this.goalcurrent, this.origin);
- bunnyhopdistance = vlen(this.origin - gco);
-
- // Run only to visible goals
- if(IS_ONGROUND(this))
- if(vdist(vec2(this.velocity), >=, autocvar_sv_maxspeed)) // if -really- running
- if(checkpvs(this.origin + this.view_ofs, this.goalcurrent))
+ else if (keyboard.x < -trigger && sk > 1.5)
{
- this.bot_lastseengoal = this.goalcurrent;
-
- // seen it before
- if(this.bot_timelastseengoal)
- {
- // for a period of time
- if(time - this.bot_timelastseengoal > autocvar_bot_ai_bunnyhop_firstjumpdelay)
- {
- float checkdistance;
- checkdistance = true;
-
- // don't run if it is too close
- if(this.bot_canruntogoal==0)
- {
- if(bunnyhopdistance > autocvar_bot_ai_bunnyhop_startdistance)
- this.bot_canruntogoal = 1;
- else
- this.bot_canruntogoal = -1;
- }
-
- if(this.bot_canruntogoal != 1)
- return;
-
- if(this.aistatus & AI_STATUS_ROAMING)
- if(this.goalcurrent.classname=="waypoint")
- if (!(this.goalcurrent.wpflags & WAYPOINTFLAG_PERSONAL))
- if(fabs(gco.z - this.origin.z) < this.maxs.z - this.mins.z)
- if(this.goalstack01 && !wasfreed(this.goalstack01))
- {
- vector gno = (this.goalstack01.absmin + this.goalstack01.absmax) * 0.5;
- deviation = vectoangles(gno - this.origin) - vectoangles(gco - this.origin);
- while (deviation.y < -180) deviation.y = deviation.y + 360;
- while (deviation.y > 180) deviation.y = deviation.y - 360;
-
- if(fabs(deviation.y) < 20)
- if(bunnyhopdistance < vlen(this.origin - gno))
- if(fabs(gno.z - gco.z) < this.maxs.z - this.mins.z)
- {
- if(vdist(gco - gno, >, autocvar_bot_ai_bunnyhop_startdistance))
- if(checkpvs(this.origin + this.view_ofs, this.goalstack01))
- {
- checkdistance = false;
- }
- }
- }
-
- if(checkdistance)
- {
- this.aistatus &= ~AI_STATUS_RUNNING;
- // increase stop distance in case the goal is on a slope or a lower platform
- if(bunnyhopdistance > autocvar_bot_ai_bunnyhop_stopdistance + (this.origin.z - gco.z))
- PHYS_INPUT_BUTTON_JUMP(this) = true;
- }
- else
- {
- this.aistatus |= AI_STATUS_RUNNING;
- PHYS_INPUT_BUTTON_JUMP(this) = true;
- }
- }
- }
- else
- {
- this.bot_timelastseengoal = time;
- }
+ keyboard.x = -1;
+ if (sk < 4.5)
+ keyboard.y = 0;
}
else
{
- this.bot_timelastseengoal = 0;
+ keyboard.x = 0;
+ if (sk < 1.5)
+ keyboard.y = 0;
}
+ if (sk < 4.5)
+ keyboard.z = 0;
-#if 0
- // Release jump button
- if(!cvar("sv_pogostick"))
- if((IS_ONGROUND(this)) == 0)
- {
- if(this.velocity.z < 0 || vlen(this.velocity)<maxspeed)
- PHYS_INPUT_BUTTON_JUMP(this) = false;
+ if (keyboard.y > trigger)
+ keyboard.y = 1;
+ else if (keyboard.y < -trigger)
+ keyboard.y = -1;
+ else
+ keyboard.y = 0;
- // Strafe
- if(this.aistatus & AI_STATUS_RUNNING)
- if(vlen(this.velocity)>maxspeed)
- {
- deviation = vectoangles(dir) - vectoangles(this.velocity);
- while (deviation.y < -180) deviation.y = deviation.y + 360;
- while (deviation.y > 180) deviation.y = deviation.y - 360;
+ if (keyboard.z > trigger)
+ keyboard.z = 1;
+ else if (keyboard.z < -trigger)
+ keyboard.z = -1;
+ else
+ keyboard.z = 0;
- if(fabs(deviation.y)>10)
- CS(this).movement_x = 0;
+ // make sure bots don't get stuck if havocbot_keyboardtime is very high
+ if (keyboard == '0 0 0')
+ this.havocbot_keyboardtime = min(this.havocbot_keyboardtime, time + 0.2);
- if(deviation.y>10)
- CS(this).movement_y = maxspeed * -1;
- else if(deviation.y<10)
- CS(this).movement_y = maxspeed;
+ this.havocbot_keyboard = keyboard * autocvar_sv_maxspeed;
+ if (this.havocbot_ducktime > time)
+ PHYS_INPUT_BUTTON_CROUCH(this) = true;
- }
- }
-#endif
+ keyboard = this.havocbot_keyboard;
+ float blend = bound(0, vlen(destorg - this.origin) / autocvar_bot_ai_keyboard_distance, 1); // When getting close move with 360 degree
+ //dprint("movement ", vtos(CS(this).movement), " keyboard ", vtos(keyboard), " blend ", ftos(blend), "\n");
+ CS(this).movement = CS(this).movement + (keyboard - CS(this).movement) * blend;
}
// return true when bot isn't getting closer to the current goal
bool havocbot_checkgoaldistance(entity this, vector gco)
{
+ if (this.bot_stop_moving_timeout > time)
+ return false;
float curr_dist_z = max(20, fabs(this.origin.z - gco.z));
float curr_dist_2d = max(20, vlen(vec2(this.origin - gco)));
float distance_time = this.goalcurrent_distance_time;
vector diff;
vector dir;
vector flatdir;
- vector evadeobstacle;
- vector evadelava;
float dodge_enemy_factor = 1;
float maxspeed;
//float dist;
CS(this).movement = '0 0 0';
maxspeed = autocvar_sv_maxspeed;
+ PHYS_INPUT_BUTTON_CROUCH(this) = boolean(this.goalcurrent.wpflags & WAYPOINTFLAG_CROUCH);
+
PHYS_INPUT_BUTTON_JETPACK(this) = false;
// Jetpack navigation
if(this.navigation_jetpack_goal)
}
vector gco = (this.goalcurrent.absmin + this.goalcurrent.absmax) * 0.5;
if (this.origin.z > gco.z && vdist(vec2(this.velocity), <, autocvar_sv_maxspeed))
- this.aistatus &= ~AI_STATUS_OUT_JUMPPAD;
+ {
+ if (this.velocity.z < 0)
+ this.aistatus &= ~AI_STATUS_OUT_JUMPPAD;
+ }
else if(havocbot_checkgoaldistance(this, gco))
{
navigation_clearroute(this);
}
else //if (!(this.aistatus & AI_STATUS_OUT_JUMPPAD))
{
- if(this.origin.z - this.lastteleport_origin.z > (this.maxs.z - this.mins.z) * 0.5)
+ if(this.velocity.z > 0 && this.origin.z - this.lastteleport_origin.z > (this.maxs.z - this.mins.z) * 0.5)
{
vector velxy = this.velocity; velxy_z = 0;
if(vdist(velxy, <, autocvar_sv_maxspeed * 0.2))
return;
}
- else if(!this.jumppadcount && !this.goalcurrent.wphardwired
+ else if(!this.jumppadcount && !waypoint_is_hardwiredlink(this.goalcurrent_prev, this.goalcurrent)
+ && !(this.goalcurrent_prev && this.goalcurrent_prev.wpflags & WAYPOINTFLAG_JUMP)
&& GetResource(this, RES_HEALTH) + GetResource(this, RES_ARMOR) > ROCKETJUMP_DAMAGE())
{
if(this.velocity.z < 0)
dir = normalize(diff);
flatdir = (diff.z == 0) ? dir : normalize(vec2(diff));
+ vector evadedanger = '0 0 0';
+
//if (this.bot_dodgevector_time < time)
{
//this.bot_dodgevector_time = time + cvar("bot_ai_dodgeupdateinterval");
//this.bot_dodgevector_jumpbutton = 1;
- evadeobstacle = '0 0 0';
- evadelava = '0 0 0';
this.aistatus &= ~AI_STATUS_DANGER_AHEAD;
makevectors(this.v_angle.y * '0 1 0');
vector flat_diff = vec2(diff);
offset = max(32, current_speed * cos(deviation.y * DEG2RAD) * 0.3) * flatdir;
vector actual_destorg = this.origin + offset;
- if (!this.goalstack01 || this.goalcurrent.wpflags & (WAYPOINTFLAG_TELEPORT | WAYPOINTFLAG_LADDER))
+ if (this.goalcurrent_prev && (this.goalcurrent_prev.wpflags & WAYPOINTFLAG_JUMP))
+ {
+ if (time > this.bot_stop_moving_timeout
+ && fabs(deviation.y) > 20 && current_speed > maxspeed * 0.4
+ && vdist(vec2(this.origin - this.goalcurrent_prev.origin), <, 50))
+ {
+ this.bot_stop_moving_timeout = time + 0.1;
+ }
+ if (current_speed > autocvar_sv_maxspeed * 0.9
+ && vlen2(flat_diff) < vlen2(vec2(this.goalcurrent_prev.origin - destorg))
+ && vdist(vec2(this.origin - this.goalcurrent_prev.origin), >, 50)
+ && vdist(vec2(this.origin - this.goalcurrent_prev.origin), <, 150)
+ )
+ {
+ PHYS_INPUT_BUTTON_JUMP(this) = true;
+ // avoid changing route while bot is jumping a gap
+ navigation_goalrating_timeout_extend_if_needed(this, 1.5);
+ }
+ }
+ else if (!this.goalstack01 || (this.goalcurrent.wpflags & (WAYPOINTFLAG_TELEPORT | WAYPOINTFLAG_LADDER)))
{
if (vlen2(flat_diff) < vlen2(offset))
{
turning = true;
}
- LABEL(jump_check);
+ LABEL(jumpobstacle_check);
dir = flatdir = normalize(actual_destorg - this.origin);
- if (turning || fabs(deviation.y) < 50) // don't even try to jump if deviation is too high
+ bool jump_forbidden = false;
+ if (!turning && fabs(deviation.y) > 50)
+ jump_forbidden = true;
+ else if (IS_DUCKED(this))
+ {
+ tracebox(this.origin, PL_MIN_CONST, PL_MAX_CONST, this.origin, false, this);
+ if (trace_startsolid)
+ jump_forbidden = true;
+ }
+
+ if (!jump_forbidden)
{
tracebox(this.origin, this.mins, this.maxs, actual_destorg, false, this);
if (trace_fraction < 1 && trace_plane_normal.z < 0.7)
actual_destorg = destorg;
turning = false;
this.bot_tracewalk_time = time + 0.25;
- goto jump_check;
+ goto jumpobstacle_check;
}
s = trace_fraction;
// don't artificially reduce max jump height in real-time
this.goalcurrent_distance_time = -time; // mark second try
}
- // Check for water/slime/lava and dangerous edges
- // (only when the bot is on the ground or jumping intentionally)
-
if (skill + this.bot_moveskill <= 3 && time > this.bot_stop_moving_timeout
&& current_speed > maxspeed * 0.9 && fabs(deviation.y) > 70)
{
this.bot_stop_moving_timeout = time + 0.4 + random() * 0.2;
}
- offset = (vdist(this.velocity, >, 32) ? this.velocity * 0.2 : v_forward * 32);
+ // Check for water/slime/lava and dangerous edges
+ // (only when the bot is on the ground or jumping intentionally)
+
+ offset = (vdist(this.velocity, >, 32) ? this.velocity * 0.2 : flatdir * 32);
vector dst_ahead = this.origin + this.view_ofs + offset;
vector dst_down = dst_ahead - '0 0 3000';
traceline(this.origin + this.view_ofs, dst_ahead, true, NULL);
bool unreachable = false;
s = CONTENT_SOLID;
- if(trace_fraction == 1 && this.jumppadcount == 0 && !this.goalcurrent.wphardwired )
+ bool danger_detected = false;
+ if (trace_fraction == 1 && !this.jumppadcount
+ && !waypoint_is_hardwiredlink(this.goalcurrent_prev, this.goalcurrent)
+ && !(this.goalcurrent_prev && (this.goalcurrent_prev.wpflags & WAYPOINTFLAG_JUMP)))
if((IS_ONGROUND(this)) || (this.aistatus & AI_STATUS_RUNNING) || (this.aistatus & AI_STATUS_ROAMING) || PHYS_INPUT_BUTTON_JUMP(this))
{
// Look downwards
traceline(dst_ahead , dst_down, true, NULL);
//te_lightning2(NULL, this.origin + this.view_ofs, dst_ahead); // Draw "ahead" look
- //te_lightning2(NULL, dst_ahead, dst_down); // Draw "downwards" look
+ //te_lightning2(NULL, dst_ahead, trace_endpos); // Draw "downwards" look
if(trace_endpos.z < this.origin.z + this.mins.z)
{
s = pointcontents(trace_endpos + '0 0 1');
if (s != CONTENT_SOLID)
if (s == CONTENT_LAVA || s == CONTENT_SLIME)
- evadelava = normalize(this.velocity) * -1;
+ danger_detected = true;
else if (s == CONTENT_SKY)
- evadeobstacle = normalize(this.velocity) * -1;
+ danger_detected = true;
else if (tracebox_hits_trigger_hurt(dst_ahead, this.mins, this.maxs, trace_endpos))
{
// the traceline check isn't enough but is good as optimization,
unreachable = true;
}
else
- evadelava = normalize(this.velocity) * -1;
+ danger_detected = true;
}
}
}
}
+ if (danger_detected && fabs(deviation.y) < 80
+ && (fabs(deviation.y) > 5 || vdist(vec2(this.velocity), >, maxspeed * 1.5)))
+ {
+ evadedanger = normalize(this.velocity) * -1;
+ evadedanger.z = 0;
+ }
dir = flatdir;
- evadeobstacle.z = 0;
- evadelava.z = 0;
makevectors(this.v_angle.y * '0 1 0');
- if(evadeobstacle || evadelava || (s == CONTENT_WATER))
+ if (danger_detected || (s == CONTENT_WATER))
{
this.aistatus |= AI_STATUS_DANGER_AHEAD;
if(IS_PLAYER(this.goalcurrent))
}
// slow down if bot is in the air and goal is under it
- if (!this.goalcurrent.wphardwired
+ if (!waypoint_is_hardwiredlink(this.goalcurrent_prev, this.goalcurrent)
&& vdist(flat_diff, <, 250) && this.origin.z - destorg.z > 120
&& (!IS_ONGROUND(this) || vdist(vec2(this.velocity), >, maxspeed * 0.3)))
{
// tracebox wouldn't work when bot is still on the ledge
traceline(this.origin, this.origin - '0 0 200', true, this);
if (this.origin.z - trace_endpos.z > 120)
- evadeobstacle = normalize(this.velocity) * -1;
+ evadedanger = normalize(this.velocity) * -1;
}
if(unreachable)
dodge = havocbot_dodge(this);
if (dodge)
dodge *= bound(0, 0.5 + (skill + this.bot_dodgeskill) * 0.1, 1);
- dodge += evadeobstacle + evadelava;
- evadelava = evadelava * bound(1,3-(skill+this.bot_dodgeskill),3); //Noobs fear lava a lot and take more distance from it
+ evadedanger *= bound(1, 3 - (skill + this.bot_dodgeskill), 3); // Noobs fear dangers a lot and take more distance from them
if (this.enemy)
{
traceline(this.origin, (this.enemy.absmin + this.enemy.absmax) * 0.5, true, NULL);
if (!ladder_zdir)
{
dir *= dodge_enemy_factor;
- dir = normalize(dir + dodge);
+ dir = normalize(dir + dodge + evadedanger);
}
makevectors(this.v_angle);
havocbot_keyboard_movement(this, destorg);
// Bunnyhop!
- //if(this.aistatus & AI_STATUS_ROAMING)
- if(!bunnyhop_forbidden && this.goalcurrent)
- if(skill+this.bot_moveskill >= autocvar_bot_ai_bunnyhop_skilloffset)
+ if (!bunnyhop_forbidden && skill + this.bot_moveskill >= autocvar_bot_ai_bunnyhop_skilloffset)
havocbot_bunnyhop(this, dir);
- if ((dir * v_up) >= autocvar_sv_jumpvelocity*0.5 && (IS_ONGROUND(this))) PHYS_INPUT_BUTTON_JUMP(this) = true;
- if (((dodge * v_up) > 0) && random()*frametime >= 0.2*bound(0,(10-skill-this.bot_dodgeskill)*0.1,1)) PHYS_INPUT_BUTTON_JUMP(this) = true;
- if (((dodge * v_up) < 0) && random()*frametime >= 0.5*bound(0,(10-skill-this.bot_dodgeskill)*0.1,1)) this.havocbot_ducktime=time+0.3/bound(0.1,skill+this.bot_dodgeskill,10);
+ if (dir * v_up >= autocvar_sv_jumpvelocity * 0.5 && IS_ONGROUND(this))
+ PHYS_INPUT_BUTTON_JUMP(this) = true;
+ if (dodge)
+ {
+ if (dodge * v_up > 0 && random() * frametime >= 0.2 * bound(0, (10 - skill - this.bot_dodgeskill) * 0.1, 1))
+ PHYS_INPUT_BUTTON_JUMP(this) = true;
+ if (dodge * v_up < 0 && random() * frametime >= 0.5 * bound(0, (10 - skill - this.bot_dodgeskill) * 0.1, 1))
+ this.havocbot_ducktime = time + 0.3 / bound(0.1, skill + this.bot_dodgeskill, 10);
+ }
}
entity havocbot_gettarget(entity this, bool secondary)
this.enemy = NULL;
return;
}
+
if (this.enemy)
{
if (!bot_shouldattack(this, this.enemy))
this.enemy = NULL;
this.havocbot_chooseenemy_finished = time;
}
- else if (this.havocbot_stickenemy)
+ else if (this.havocbot_stickenemy_time && time < this.havocbot_stickenemy_time)
{
// tracking last chosen enemy
- // if enemy is visible
- // and not really really far away
- // and we're not severely injured
- // then keep tracking for a half second into the future
- traceline(this.origin+this.view_ofs, ( this.enemy.absmin + this.enemy.absmax ) * 0.5,false,NULL);
+ vector targ_pos = (this.enemy.absmin + this.enemy.absmax) * 0.5;
+ traceline(this.origin + this.view_ofs, targ_pos, false, NULL);
if (trace_ent == this.enemy || trace_fraction == 1)
- if (vdist(((this.enemy.absmin + this.enemy.absmax) * 0.5) - this.origin, <, 1000))
- if (GetResource(this, RES_HEALTH) > 30)
+ if (vdist(targ_pos - this.origin, <, 1000))
{
// remain tracking him for a shot while (case he went after a small corner or pilar
this.havocbot_chooseenemy_finished = time + 0.5;
return;
}
- // enemy isn't visible, or is far away, or we're injured severely
- // so stop preferring this enemy
- // (it will still take a half second until a new one is chosen)
- this.havocbot_stickenemy = 0;
+
+ // stop preferring this enemy
+ this.havocbot_stickenemy_time = 0;
}
}
if (time < this.havocbot_chooseenemy_finished)
this.havocbot_chooseenemy_finished = time + autocvar_bot_ai_enemydetectioninterval;
vector eye = this.origin + this.view_ofs;
entity best = NULL;
- float bestrating = 100000000;
+ float bestrating = autocvar_bot_ai_enemydetectionradius ** 2;
// Backup hit flags
int hf = this.dphitcontentsmask;
vector v = (it.absmin + it.absmax) * 0.5;
float rating = vlen2(v - eye);
- if (vdist(v - eye, <, autocvar_bot_ai_enemydetectionradius))
- if (bestrating > rating)
- if (bot_shouldattack(this, it))
+ if (rating < bestrating && bot_shouldattack(this, it))
{
traceline(eye, v, true, this);
if (trace_ent == it || trace_fraction >= 1)
{
scan_secondary_targets = true;
// restart the loop
- bestrating = 100000000;
+ bestrating = autocvar_bot_ai_enemydetectionradius ** 2;
goto scan_targets;
}
this.dphitcontentsmask = hf;
this.enemy = best;
- this.havocbot_stickenemy = true;
+ this.havocbot_stickenemy_time = time + autocvar_bot_ai_enemydetectioninterval_stickingtoenemy;
if(best && best.classname == "misc_breakablemodel")
- this.havocbot_stickenemy = false;
+ this.havocbot_stickenemy_time = 0;
}
float havocbot_chooseweapon_checkreload(entity this, .entity weaponentity, int new_weapon)