.float race_penalty; .float restart_jump; float sv_accelerate; float sv_friction; float sv_maxspeed; float sv_airaccelerate; float sv_maxairspeed; float sv_stopspeed; float sv_gravity; float sv_airaccel_sideways_friction; float sv_airaccel_qw; float sv_airstopaccelerate; float sv_airstrafeaccelerate; float sv_maxairstrafespeed; float sv_aircontrol; float sv_warsowbunny_airforwardaccel; float sv_warsowbunny_accel; float sv_warsowbunny_topspeed; float sv_warsowbunny_turnaccel; float sv_warsowbunny_backtosideratio; .float ladder_time; .entity ladder_entity; .float gravity; .float swamp_slowdown; .float lastflags; .float lastground; .float wasFlying; .float spectatorspeed; .float doublejump_nextjumptime; /* ============= PlayerJump When you press the jump key ============= */ void PlayerJump (void) { float mjumpheight; mjumpheight = cvar("sv_jumpvelocity"); if (self.waterlevel >= WATERLEVEL_SWIMMING) { if (self.watertype == CONTENT_WATER) self.velocity_z = 200; else if (self.watertype == CONTENT_SLIME) self.velocity_z = 80; else self.velocity_z = 50; return; } if (!(self.flags & FL_ONGROUND)) return; if(!sv_pogostick) if (!(self.flags & FL_JUMPRELEASED)) return; if(self.health <= g_bloodloss) return; if(sv_doublejump) if(time < self.doublejump_nextjumptime) return; if(g_runematch) { if(self.runes & RUNE_SPEED) { if(self.runes & CURSE_SLOW) mjumpheight = mjumpheight * cvar("g_balance_rune_speed_combo_jumpheight"); else mjumpheight = mjumpheight * cvar("g_balance_rune_speed_jumpheight"); } else if(self.runes & CURSE_SLOW) { mjumpheight = mjumpheight * cvar("g_balance_curse_slow_jumpheight"); } } if(g_minstagib && (self.items & IT_INVINCIBLE)) { mjumpheight = mjumpheight * cvar("g_minstagib_speed_jumpheight"); } if(!(self.lastflags & FL_ONGROUND)) { if(cvar("speedmeter")) dprint(strcat("landing velocity: ", vtos(self.velocity), " (abs: ", ftos(vlen(self.velocity)), ")\n")); if(self.lastground < time - 0.3) self.velocity = self.velocity * (1 - cvar("sv_friction_on_land")); if(self.jumppadcount > 1) dprint(strcat(ftos(self.jumppadcount), "x jumppad combo\n")); self.jumppadcount = 0; } self.velocity_z = self.velocity_z + mjumpheight; self.oldvelocity_z = self.velocity_z; self.flags &~= FL_ONGROUND; self.flags &~= FL_JUMPRELEASED; if (self.crouch) setanim(self, self.anim_duckjump, FALSE, TRUE, TRUE); else setanim(self, self.anim_jump, FALSE, TRUE, TRUE); if(g_jump_grunt) PlayerSound(playersound_jump, CHAN_PLAYER, VOICETYPE_PLAYERSOUND); if(sv_doublejump) { // we're moving upwards at self.velocity_z // only allow jumping after we got 3 units upwards // so we for sure leave the FL_ONGROUND check // // but as this sucks because of factoring in gravity, we'll just do it // for 4 units, and constant velocity self.doublejump_nextjumptime = time + 4 / max(40, self.velocity_z); // max 0.1s blocking of jumps } self.restart_jump = -1; // restart jump anim next time // value -1 is used to not use the teleport bit (workaround for tiny hitch when re-jumping) } void CheckWaterJump() { local vector start, end; // check for a jump-out-of-water makevectors (self.angles); start = self.origin; start_z = start_z + 8; v_forward_z = 0; normalize(v_forward); end = start + v_forward*24; traceline (start, end, TRUE, self); if (trace_fraction < 1) { // solid at waist start_z = start_z + self.maxs_z - 8; end = start + v_forward*24; self.movedir = trace_plane_normal * -50; traceline (start, end, TRUE, self); if (trace_fraction == 1) { // open at eye level self.flags |= FL_WATERJUMP; self.velocity_z = 225; self.flags &~= FL_JUMPRELEASED; self.teleport_time = time + 2; // safety net return; } } }; float racecar_angle(float forward, float down) { float ret, angle_mult; if(forward < 0) { forward = -forward; down = -down; } ret = vectoyaw('0 1 0' * down + '1 0 0' * forward); angle_mult = forward / (800 + forward); if(ret > 180) return ret * angle_mult + 360 * (1 - angle_mult); else return ret * angle_mult; } void RaceCarPhysics() { // using this move type for "big rigs" // the engine does not push the entity! float accel, steer, f; vector angles_save, rigvel; angles_save = self.angles; accel = bound(-1, self.movement_x / sv_maxspeed, 1); steer = bound(-1, self.movement_y / sv_maxspeed, 1); if(g_bugrigs_reverse_speeding) { if(accel < 0) { // back accel is DIGITAL // to prevent speedhack if(accel < -0.5) accel = -1; else accel = 0; } } self.angles_x = 0; self.angles_z = 0; makevectors(self.angles); // new forward direction! if(self.flags & FL_ONGROUND || g_bugrigs_air_steering) { float myspeed, upspeed, steerfactor, accelfactor; myspeed = self.velocity * v_forward; upspeed = self.velocity * v_up; // responsiveness factor for steering and acceleration f = 1 / (1 + pow(max(-myspeed, myspeed) / g_bugrigs_speed_ref, g_bugrigs_speed_pow)); //MAXIMA: f(v) := 1 / (1 + (v / g_bugrigs_speed_ref) ^ g_bugrigs_speed_pow); if(myspeed < 0 && g_bugrigs_reverse_spinning) steerfactor = -myspeed * g_bugrigs_steer; else steerfactor = -myspeed * f * g_bugrigs_steer; if(myspeed < 0 && g_bugrigs_reverse_speeding) accelfactor = g_bugrigs_accel; else accelfactor = f * g_bugrigs_accel; //MAXIMA: accel(v) := f(v) * g_bugrigs_accel; if(accel < 0) { if(myspeed > 0) { myspeed = max(0, myspeed - frametime * (g_bugrigs_friction_floor - g_bugrigs_friction_brake * accel)); } else { if(!g_bugrigs_reverse_speeding) myspeed = min(0, myspeed + frametime * g_bugrigs_friction_floor); } } else { if(myspeed >= 0) { myspeed = max(0, myspeed - frametime * g_bugrigs_friction_floor); } else { if(g_bugrigs_reverse_stopping) myspeed = 0; else myspeed = min(0, myspeed + frametime * (g_bugrigs_friction_floor + g_bugrigs_friction_brake * accel)); } } // terminal velocity = velocity at which 50 == accelfactor, that is, 1549 units/sec //MAXIMA: friction(v) := g_bugrigs_friction_floor; self.angles_y += steer * frametime * steerfactor; // apply steering makevectors(self.angles); // new forward direction! myspeed += accel * accelfactor * frametime; rigvel = myspeed * v_forward + '0 0 1' * upspeed; } else { myspeed = vlen(self.velocity); // responsiveness factor for steering and acceleration f = 1 / (1 + pow(max(0, myspeed / g_bugrigs_speed_ref), g_bugrigs_speed_pow)); steerfactor = -myspeed * f; self.angles_y += steer * frametime * steerfactor; // apply steering rigvel = self.velocity; makevectors(self.angles); // new forward direction! } rigvel = rigvel * max(0, 1 - vlen(rigvel) * g_bugrigs_friction_air * frametime); //MAXIMA: airfriction(v) := v * v * g_bugrigs_friction_air; //MAXIMA: total_acceleration(v) := accel(v) - friction(v) - airfriction(v); //MAXIMA: solve(total_acceleration(v) = 0, v); if(g_bugrigs_planar_movement) { vector rigvel_xy, neworigin, up; float mt; rigvel_z -= frametime * sv_gravity; // 4x gravity plays better rigvel_xy = rigvel; rigvel_xy_z = 0; if(g_bugrigs_planar_movement_car_jumping && !g_touchexplode) // touchexplode is a better way to handle collisions mt = MOVE_NORMAL; else mt = MOVE_NOMONSTERS; tracebox(self.origin, self.mins, self.maxs, self.origin + '0 0 1024', mt, self); up = trace_endpos - self.origin; // BUG RIGS: align the move to the surface instead of doing collision testing // can we move? tracebox(trace_endpos, self.mins, self.maxs, trace_endpos + rigvel_xy * frametime, mt, self); // align to surface tracebox(trace_endpos, self.mins, self.maxs, trace_endpos - up + '0 0 1' * rigvel_z * frametime, mt, self); if(trace_fraction < 0.5) { trace_fraction = 1; neworigin = self.origin; } else neworigin = trace_endpos; if(trace_fraction < 1) { // now set angles_x so that the car points parallel to the surface self.angles = vectoangles( '1 0 0' * v_forward_x * trace_plane_normal_z + '0 1 0' * v_forward_y * trace_plane_normal_z + '0 0 1' * -(v_forward_x * trace_plane_normal_x + v_forward_y * trace_plane_normal_y) ); self.flags |= FL_ONGROUND; } else { // now set angles_x so that the car points forward, but is tilted in velocity direction self.flags &~= FL_ONGROUND; } self.velocity = (neworigin - self.origin) * (1.0 / frametime); self.movetype = MOVETYPE_NOCLIP; } else { rigvel_z -= frametime * sv_gravity; // 4x gravity plays better self.velocity = rigvel; self.movetype = MOVETYPE_FLY; } trace_fraction = 1; tracebox(self.origin, self.mins, self.maxs, self.origin - '0 0 4', MOVE_NORMAL, self); if(trace_fraction != 1) { self.angles = vectoangles2( '1 0 0' * v_forward_x * trace_plane_normal_z + '0 1 0' * v_forward_y * trace_plane_normal_z + '0 0 1' * -(v_forward_x * trace_plane_normal_x + v_forward_y * trace_plane_normal_y), trace_plane_normal ); } else { vector vel_local; vel_local_x = v_forward * self.velocity; vel_local_y = v_right * self.velocity; vel_local_z = v_up * self.velocity; self.angles_x = racecar_angle(vel_local_x, vel_local_z); self.angles_z = racecar_angle(-vel_local_y, vel_local_z); } // smooth the angles vector vf1, vu1, smoothangles; makevectors(self.angles); f = bound(0, frametime * g_bugrigs_angle_smoothing, 1); if(f == 0) f = 1; vf1 = v_forward * f; vu1 = v_up * f; makevectors(angles_save); vf1 = vf1 + v_forward * (1 - f); vu1 = vu1 + v_up * (1 - f); smoothangles = vectoangles2(vf1, vu1); self.angles_x = -smoothangles_x; self.angles_z = smoothangles_z; } void CPM_PM_Aircontrol(vector wishdir, float wishspeed) { float zspeed, xyspeed, dot, k; if(self.movement_x == 0 || self.movement_y != 0) return; // can't control movement if not moving forward or backward zspeed = self.velocity_z; self.velocity_z = 0; xyspeed = vlen(self.velocity); self.velocity = normalize(self.velocity); dot = self.velocity * wishdir; k = 32; k *= sv_aircontrol*dot*dot*frametime; if(dot > 0) // we can't change direction while slowing down self.velocity = normalize(self.velocity * xyspeed + wishdir * k); self.velocity = self.velocity * xyspeed; self.velocity_z = zspeed; } var float speedclamp_mode = 0; // example config for alternate speed clamping: // sv_airaccel_qw 0.8 // sv_airaccel_sideways_friction 0 // prvm_globalset server speedclamp_mode 1 // (or 2) void PM_Accelerate(vector wishdir, float wishspeed, float wishspeed0, float accel, float accelqw, float sidefric) { float vel_straight; float vel_z; vector vel_perpend; float addspeed; float savespeed; if(cvar("sv_gameplayfix_q2airaccelerate")) wishspeed0 = wishspeed; savespeed = self.velocity * self.velocity; vel_straight = self.velocity * wishdir; vel_z = self.velocity_z; vel_perpend = self.velocity - vel_straight * wishdir - vel_z * '0 0 1'; if(wishspeed0) { if(speedclamp_mode) { // 1. move as normal, but fake a forward move to get the maximum ALLOWED speed float vel_xy; vel_xy = sqrt(vel_straight * vel_straight + vel_perpend * vel_perpend); addspeed = wishspeed - vel_xy; if(addspeed > 0) vel_xy = vel_xy + min(addspeed, accel * frametime * wishspeed0) * accelqw; if(wishspeed > 0) vel_xy = vel_xy + accel * frametime * wishspeed0 * (1 - accelqw); if(speedclamp_mode == 2) { // havoc style: // accelerate normally, then clamp the total velocity to the just calculated maxspeed addspeed = wishspeed - vel_straight; if(addspeed > 0) vel_straight = vel_straight + min(addspeed, accel * frametime * wishspeed0) * accelqw; if(wishspeed > 0) vel_straight = vel_straight + accel * frametime * wishspeed0 * (1 - accelqw); vel_xy = vel_xy / sqrt(vel_straight * vel_straight + vel_perpend * vel_perpend); if(vel_xy < 1) { vel_straight = vel_straight * vel_xy; vel_perpend = vel_perpend * vel_xy; } } else { // div0 style: // 2. accelerate actually, using our acceleration factor and the max allowed forward speed we derived // we may add at most a vector length of min(wishspeed, accel * frametime * wishspeed0) // however, the absolute value must not exceed vel_xy addspeed = accel * frametime * wishspeed0; addspeed = bound(0, sqrt(vel_xy * vel_xy - vel_perpend * vel_perpend) - vel_straight, addspeed); // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ // this is how much we can add without exceeding vel_xy vel_straight += addspeed; } } else { addspeed = wishspeed - vel_straight; if(addspeed > 0) vel_straight = vel_straight + min(addspeed, accel * frametime * wishspeed0) * accelqw; if(wishspeed > 0) vel_straight = vel_straight + accel * frametime * wishspeed0 * (1 - accelqw); } } if(sidefric < 0 && (vel_perpend*vel_perpend)) { float f, fminimum; f = (1 - frametime * wishspeed * sidefric); fminimum = (savespeed - vel_straight*vel_straight) / (vel_perpend*vel_perpend); if(fminimum <= 0) vel_perpend = vel_perpend * f; else vel_perpend = vel_perpend * min(1, max(fminimum, f)); } else vel_perpend = vel_perpend * (1 - frametime * wishspeed * sidefric); self.velocity = vel_straight * wishdir + vel_z * '0 0 1' + vel_perpend; } void PM_AirAccelerate(vector wishdir, float wishspeed) { vector curvel, wishvel, acceldir, curdir; float addspeed, accelspeed, curspeed, f; float dot; if(wishspeed == 0) return; curvel = self.velocity; curvel_z = 0; curspeed = vlen(curvel); if(wishspeed > curspeed * 1.01) { wishspeed = min(wishspeed, curspeed + sv_warsowbunny_airforwardaccel * sv_maxspeed * frametime); } else { f = max(0, (sv_warsowbunny_topspeed - curspeed) / (sv_warsowbunny_topspeed - sv_maxspeed)); wishspeed = max(curspeed, sv_maxspeed) + sv_warsowbunny_accel * f * sv_maxspeed * frametime; } wishvel = wishdir * wishspeed; acceldir = wishvel - curvel; addspeed = vlen(acceldir); acceldir = normalize(acceldir); accelspeed = min(addspeed, sv_warsowbunny_turnaccel * sv_maxspeed * frametime); if(sv_warsowbunny_backtosideratio < 1) { curdir = normalize(curvel); dot = acceldir * curdir; if(dot < 0) acceldir = acceldir - (1 - sv_warsowbunny_backtosideratio) * dot * curdir; } self.velocity += accelspeed * acceldir; } .vector movement_old; .float buttons_old; .vector v_angle_old; .string lastclassname; void Nixnex_GiveCurrentWeapon(); .float() PlayerPhysplug; string specialcommand = "xwxwxsxsxaxdxaxdx1x "; .float specialcommand_pos; void SpecialCommand() { #ifdef TETRIS TetrisImpulse(); #else if(!CheatImpulse(99)) print("A hollow voice says \"Plugh\".\n"); #endif } float speedaward_speed; string speedaward_holder; void race_send_speedaward(float msg) { // send the best speed of the round WriteByte(msg, SVC_TEMPENTITY); WriteByte(msg, TE_CSQC_RACE); WriteByte(msg, RACE_NET_SPEED_AWARD); WriteShort(msg, floor(speedaward_speed+0.5)); WriteString(msg, speedaward_holder); } float speedaward_alltimebest; string speedaward_alltimebest_holder; void race_send_speedaward_alltimebest(float msg) { // send the best speed WriteByte(msg, SVC_TEMPENTITY); WriteByte(msg, TE_CSQC_RACE); WriteByte(msg, RACE_NET_SPEED_AWARD_BEST); WriteShort(msg, floor(speedaward_alltimebest+0.5)); WriteString(msg, speedaward_alltimebest_holder); } string GetMapname(void); float speedaward_lastupdate; float speedaward_lastsent; void SV_PlayerPhysics() { local vector wishvel, wishdir, v; local float wishspeed, f, maxspd_mod, spd, maxairspd, airaccel, swampspd_mod, buttons; string temps; float buttons_prev; float not_allowed_to_move; string c; if(self.PlayerPhysplug) if(self.PlayerPhysplug()) return; self.race_movetime_frac += frametime; f = floor(self.race_movetime_frac); self.race_movetime_frac -= f; self.race_movetime_count += f; self.race_movetime = self.race_movetime_frac + self.race_movetime_count; anticheat_physics(); buttons = self.BUTTON_ATCK + 2 * self.BUTTON_JUMP + 4 * self.BUTTON_ATCK2 + 8 * self.BUTTON_ZOOM + 16 * self.BUTTON_CROUCH + 32 * self.BUTTON_HOOK + 64 * self.BUTTON_USE + 128 * (self.movement_x < 0) + 256 * (self.movement_x > 0) + 512 * (self.movement_y < 0) + 1024 * (self.movement_y > 0); if(!buttons) c = "x"; else if(buttons == 1) c = "1"; else if(buttons == 2) c = " "; else if(buttons == 128) c = "s"; else if(buttons == 256) c = "w"; else if(buttons == 512) c = "a"; else if(buttons == 1024) c = "d"; else c = "?"; if(c == substring(specialcommand, self.specialcommand_pos, 1)) { self.specialcommand_pos += 1; if(self.specialcommand_pos >= strlen(specialcommand)) { self.specialcommand_pos = 0; SpecialCommand(); return; } } else if(self.specialcommand_pos && (c != substring(specialcommand, self.specialcommand_pos - 1, 1))) self.specialcommand_pos = 0; if(!sv_maxidle_spectatorsareidle || self.movetype == MOVETYPE_WALK) { if(buttons != self.buttons_old || self.movement != self.movement_old || self.v_angle != self.v_angle_old) self.parm_idlesince = time; } buttons_prev = self.buttons_old; self.buttons_old = buttons; self.movement_old = self.movement; self.v_angle_old = self.v_angle; if(time < self.nickspamtime) if(self.nickspamcount >= cvar("g_nick_flood_penalty_yellow")) { // slight annoyance for nick change scripts self.movement = -1 * self.movement; self.BUTTON_ATCK = self.BUTTON_JUMP = self.BUTTON_ATCK2 = self.BUTTON_ZOOM = self.BUTTON_CROUCH = self.BUTTON_HOOK = self.BUTTON_USE = 0; if(self.nickspamcount >= cvar("g_nick_flood_penalty_red")) // if you are persistent and the slight annoyance above does not stop you, I'll show you! { self.angles_x = random() * 360; self.angles_y = random() * 360; // at least I'm not forcing retardedview by also assigning to angles_z self.fixangle = 1; } } if (self.punchangle != '0 0 0') { f = vlen(self.punchangle) - 10 * frametime; if (f > 0) self.punchangle = normalize(self.punchangle) * f; else self.punchangle = '0 0 0'; } if (self.punchvector != '0 0 0') { f = vlen(self.punchvector) - 30 * frametime; if (f > 0) self.punchvector = normalize(self.punchvector) * f; else self.punchvector = '0 0 0'; } if (clienttype(self) == CLIENTTYPE_BOT) { if(playerdemo_read()) return; bot_think(); } self.items &~= IT_USING_JETPACK; if(self.classname == "player") { if(self.race_penalty) if(time > self.race_penalty) self.race_penalty = 0; not_allowed_to_move = 0; if(self.race_penalty) not_allowed_to_move = 1; if(!cvar("sv_ready_restart_after_countdown")) if(time < game_starttime) not_allowed_to_move = 1; if(not_allowed_to_move) { self.velocity = '0 0 0'; self.movetype = MOVETYPE_NONE; self.disableclientprediction = 2; } else if(self.disableclientprediction == 2) { if(self.movetype == MOVETYPE_NONE) self.movetype = MOVETYPE_WALK; self.disableclientprediction = 0; } } if (self.movetype == MOVETYPE_NONE) return; maxspd_mod = 1; if(g_runematch) { if(self.runes & RUNE_SPEED) { if(self.runes & CURSE_SLOW) maxspd_mod = maxspd_mod * cvar("g_balance_rune_speed_combo_moverate"); else maxspd_mod = maxspd_mod * cvar("g_balance_rune_speed_moverate"); } else if(self.runes & CURSE_SLOW) { maxspd_mod = maxspd_mod * cvar("g_balance_curse_slow_moverate"); } } if(g_minstagib && (self.items & IT_INVINCIBLE)) { maxspd_mod = cvar("g_minstagib_speed_moverate"); } if(g_nexball && self.ballcarried) { maxspd_mod = cvar("g_nexball_basketball_carrier_speed"); } swampspd_mod = 1; if(self.in_swamp) { swampspd_mod = self.swamp_slowdown; //cvar("g_balance_swamp_moverate"); } if(self.classname != "player") { maxspd_mod = cvar("sv_spectator_speed_multiplier"); if(!self.spectatorspeed) self.spectatorspeed = maxspd_mod; if(self.impulse && self.impulse <= 19) { if(self.lastclassname != "player") { if(self.impulse == 10 || self.impulse == 15 || self.impulse == 18) self.spectatorspeed = bound(1, self.spectatorspeed + 0.5, 5); else if(self.impulse == 11) self.spectatorspeed = maxspd_mod; else if(self.impulse == 12 || self.impulse == 16 || self.impulse == 19) self.spectatorspeed = bound(1, self.spectatorspeed - 0.5, 5); else if(self.impulse >= 1 && self.impulse <= 9) self.spectatorspeed = 1 + 0.5 * (self.impulse - 1); } // otherwise just clear self.impulse = 0; } maxspd_mod = self.spectatorspeed; } spd = max(sv_maxspeed, sv_maxairspeed) * maxspd_mod * swampspd_mod; if(self.speed != spd) { self.speed = spd; temps = ftos(spd); stuffcmd(self, strcat("cl_forwardspeed ", temps, "\n")); stuffcmd(self, strcat("cl_backspeed ", temps, "\n")); stuffcmd(self, strcat("cl_sidespeed ", temps, "\n")); stuffcmd(self, strcat("cl_upspeed ", temps, "\n")); } maxspd_mod *= swampspd_mod; // only one common speed modder please! swampspd_mod = 1; // if dead, behave differently if (self.deadflag) goto end; if (!self.fixangle && !g_bugrigs) { self.angles_x = 0; self.angles_y = self.v_angle_y; self.angles_z = 0; } if(self.flags & FL_ONGROUND) if(self.wasFlying) { self.wasFlying = 0; if(self.waterlevel < WATERLEVEL_SWIMMING) if(time >= self.ladder_time) if not(self.hook) { self.nextstep = time + 0.3 + random() * 0.1; trace_dphitq3surfaceflags = 0; tracebox(self.origin, self.mins, self.maxs, self.origin - '0 0 1', MOVE_NOMONSTERS, self); if not(trace_dphitq3surfaceflags & Q3SURFACEFLAG_NOSTEPS) { if(trace_dphitq3surfaceflags & Q3SURFACEFLAG_METALSTEPS) GlobalSound(globalsound_metalfall, CHAN_PLAYER, VOICETYPE_PLAYERSOUND); else GlobalSound(globalsound_fall, CHAN_PLAYER, VOICETYPE_PLAYERSOUND); } } } if(IsFlying(self)) self.wasFlying = 1; if(self.classname == "player") { if(sv_doublejump) { self.flags &~= FL_ONGROUND; tracebox(self.origin + '0 0 1', self.mins, self.maxs, self.origin - '0 0 1', MOVE_NORMAL, self); if(trace_fraction < 1 && trace_plane_normal_z > 0.7) self.flags |= FL_ONGROUND; } if (self.BUTTON_JUMP) PlayerJump (); else self.flags |= FL_JUMPRELEASED; if (self.waterlevel == WATERLEVEL_SWIMMING) CheckWaterJump (); } if (self.flags & FL_WATERJUMP ) { self.velocity_x = self.movedir_x; self.velocity_y = self.movedir_y; if (time > self.teleport_time || self.waterlevel == WATERLEVEL_NONE) { self.flags &~= FL_WATERJUMP; self.teleport_time = 0; } } else if (g_bugrigs && self.classname == "player") { RaceCarPhysics(); } else if (self.movetype == MOVETYPE_NOCLIP || self.movetype == MOVETYPE_FLY) { // noclipping or flying self.flags &~= FL_ONGROUND; self.velocity = self.velocity * (1 - frametime * sv_friction); makevectors(self.v_angle); //wishvel = v_forward * self.movement_x + v_right * self.movement_y + v_up * self.movement_z; wishvel = v_forward * self.movement_x + v_right * self.movement_y + '0 0 1' * self.movement_z; // acceleration wishdir = normalize(wishvel); wishspeed = vlen(wishvel); if (wishspeed > sv_maxspeed*maxspd_mod) wishspeed = sv_maxspeed*maxspd_mod; if (time >= self.teleport_time) PM_Accelerate(wishdir, wishspeed, wishspeed, sv_accelerate*maxspd_mod, 1, 0); } else if (self.waterlevel >= WATERLEVEL_SWIMMING) { // swimming self.flags &~= FL_ONGROUND; makevectors(self.v_angle); //wishvel = v_forward * self.movement_x + v_right * self.movement_y + v_up * self.movement_z; wishvel = v_forward * self.movement_x + v_right * self.movement_y + '0 0 1' * self.movement_z; if (wishvel == '0 0 0') wishvel = '0 0 -60'; // drift towards bottom wishdir = normalize(wishvel); wishspeed = vlen(wishvel); if (wishspeed > sv_maxspeed*maxspd_mod) wishspeed = sv_maxspeed*maxspd_mod; wishspeed = wishspeed * 0.7; // water friction self.velocity = self.velocity * (1 - frametime * sv_friction); // water acceleration PM_Accelerate(wishdir, wishspeed, wishspeed, sv_accelerate*maxspd_mod, 1, 0); } else if (time < self.ladder_time) { // on a spawnfunc_func_ladder or swimming in spawnfunc_func_water self.flags &~= FL_ONGROUND; self.velocity = self.velocity * (1 - frametime * sv_friction); makevectors(self.v_angle); //wishvel = v_forward * self.movement_x + v_right * self.movement_y + v_up * self.movement_z; wishvel = v_forward * self.movement_x + v_right * self.movement_y + '0 0 1' * self.movement_z; if (self.gravity) self.velocity_z = self.velocity_z + self.gravity * sv_gravity * frametime; else self.velocity_z = self.velocity_z + sv_gravity * frametime; if (self.ladder_entity.classname == "func_water") { f = vlen(wishvel); if (f > self.ladder_entity.speed) wishvel = wishvel * (self.ladder_entity.speed / f); self.watertype = self.ladder_entity.skin; f = self.ladder_entity.origin_z + self.ladder_entity.maxs_z; if ((self.origin_z + self.view_ofs_z) < f) self.waterlevel = WATERLEVEL_SUBMERGED; else if ((self.origin_z + (self.mins_z + self.maxs_z) * 0.5) < f) self.waterlevel = WATERLEVEL_SWIMMING; else if ((self.origin_z + self.mins_z + 1) < f) self.waterlevel = WATERLEVEL_WETFEET; else { self.waterlevel = WATERLEVEL_NONE; self.watertype = CONTENT_EMPTY; } } // acceleration wishdir = normalize(wishvel); wishspeed = vlen(wishvel); if (wishspeed > sv_maxspeed*maxspd_mod) wishspeed = sv_maxspeed*maxspd_mod; if (time >= self.teleport_time) { // water acceleration PM_Accelerate(wishdir, wishspeed, wishspeed, sv_accelerate*maxspd_mod, 1, 0); } } else if ((self.items & IT_JETPACK) && self.BUTTON_HOOK && (!cvar("g_jetpack_fuel") || self.ammo_fuel >= 0.01 || self.items & IT_UNLIMITED_WEAPON_AMMO)) { //makevectors(self.v_angle_y * '0 1 0'); makevectors(self.v_angle); wishvel = v_forward * self.movement_x + v_right * self.movement_y; // add remaining speed as Z component maxairspd = sv_maxairspeed*max(1, maxspd_mod); // fix speedhacks :P wishvel = normalize(wishvel) * min(vlen(wishvel) / maxairspd, 1); // add the unused velocity as up component wishvel_z = 0; // if(self.BUTTON_JUMP) wishvel_z = sqrt(max(0, 1 - wishvel * wishvel)); // it is now normalized, so... float a_side, a_up, a_add, a_diff; a_side = cvar("g_jetpack_acceleration_side"); a_up = cvar("g_jetpack_acceleration_up"); a_add = cvar("g_jetpack_antigravity") * sv_gravity; wishvel_x *= a_side; wishvel_y *= a_side; wishvel_z *= a_up; wishvel_z += a_add; float best; best = 0; ////////////////////////////////////////////////////////////////////////////////////// // finding the maximum over all vectors of above form // with wishvel having an absolute value of 1 ////////////////////////////////////////////////////////////////////////////////////// // we're finding the maximum over // f(a_side, a_up, a_add, z) := a_side * (1 - z^2) + (a_add + a_up * z)^2; // for z in the range from -1 to 1 ////////////////////////////////////////////////////////////////////////////////////// // maximum is EITHER attained at the single extreme point: a_diff = a_side * a_side - a_up * a_up; if(a_diff != 0) { f = a_add * a_up / a_diff; // this is the zero of diff(f(a_side, a_up, a_add, z), z) if(f > -1 && f < 1) // can it be attained? { best = (a_diff + a_add * a_add) * (a_diff + a_up * a_up) / a_diff; //print("middle\n"); } } // OR attained at z = 1: f = (a_up + a_add) * (a_up + a_add); if(f > best) { best = f; //print("top\n"); } // OR attained at z = -1: f = (a_up - a_add) * (a_up - a_add); if(f > best) { best = f; //print("bottom\n"); } best = sqrt(best); ////////////////////////////////////////////////////////////////////////////////////// //print("best possible acceleration: ", ftos(best), "\n"); float fxy, fz; fxy = bound(0, 1 - (self.velocity * normalize(wishvel_x * '1 0 0' + wishvel_y * '0 1 0')) / cvar("g_jetpack_maxspeed_side"), 1); if(wishvel_z - sv_gravity > 0) fz = bound(0, 1 - self.velocity_z / cvar("g_jetpack_maxspeed_up"), 1); else fz = bound(0, 1 + self.velocity_z / cvar("g_jetpack_maxspeed_up"), 1); float fvel; fvel = vlen(wishvel); wishvel_x *= fxy; wishvel_y *= fxy; wishvel_z = (wishvel_z - sv_gravity) * fz + sv_gravity; fvel = min(1, vlen(wishvel) / best); if(cvar("g_jetpack_fuel") && !(self.items & IT_UNLIMITED_WEAPON_AMMO)) f = min(1, self.ammo_fuel / (cvar("g_jetpack_fuel") * frametime * fvel)); else f = 1; //print("this acceleration: ", ftos(vlen(wishvel) * f), "\n"); if (f > 0 && wishvel != '0 0 0') { self.velocity = self.velocity + wishvel * f * frametime; if not(self.items & IT_UNLIMITED_WEAPON_AMMO) self.ammo_fuel -= cvar("g_jetpack_fuel") * frametime * fvel * f; self.flags &~= FL_ONGROUND; self.items |= IT_USING_JETPACK; // jetpack also inhibits health regeneration, but only for 1 second self.pauseregen_finished = max(self.pauseregen_finished, time + cvar("g_balance_pause_fuel_regen")); } } else if (self.flags & FL_ONGROUND) { // we get here if we ran out of ammo if((self.items & IT_JETPACK) && self.BUTTON_HOOK && !(buttons_prev & 32)) sprint(self, "You don't have any fuel for the ^2Jetpack\n"); // walking makevectors(self.v_angle_y * '0 1 0'); wishvel = v_forward * self.movement_x + v_right * self.movement_y; if(!(self.lastflags & FL_ONGROUND)) { if(cvar("speedmeter")) dprint(strcat("landing velocity: ", vtos(self.velocity), " (abs: ", ftos(vlen(self.velocity)), ")\n")); if(self.lastground < time - 0.3) self.velocity = self.velocity * (1 - cvar("sv_friction_on_land")); if(self.jumppadcount > 1) dprint(strcat(ftos(self.jumppadcount), "x jumppad combo\n")); self.jumppadcount = 0; } #ifdef LETS_TEST_FTEQCC if(self.velocity_x || self.velocity_y) { // good } else { if(self.velocity_x) checkclient(); if(self.velocity_y) checkclient(); } #endif v = self.velocity; v_z = 0; f = vlen(v); if(f > 0) { if (f < sv_stopspeed) f = 1 - frametime * (sv_stopspeed / f) * sv_friction; else f = 1 - frametime * sv_friction; if (f > 0) self.velocity = self.velocity * f; else self.velocity = '0 0 0'; } // acceleration wishdir = normalize(wishvel); wishspeed = vlen(wishvel); if (wishspeed > sv_maxspeed*maxspd_mod) wishspeed = sv_maxspeed*maxspd_mod; if (self.crouch) wishspeed = wishspeed * 0.5; if (time >= self.teleport_time) PM_Accelerate(wishdir, wishspeed, wishspeed, sv_accelerate*maxspd_mod, 1, 0); } else { float wishspeed0; // we get here if we ran out of ammo if((self.items & IT_JETPACK) && self.BUTTON_HOOK && !(buttons_prev & 32)) sprint(self, "You don't have any fuel for the ^2Jetpack\n"); if(maxspd_mod < 1) { maxairspd = sv_maxairspeed*maxspd_mod; airaccel = sv_airaccelerate*maxspd_mod; } else { maxairspd = sv_maxairspeed; airaccel = sv_airaccelerate; } // airborn makevectors(self.v_angle_y * '0 1 0'); wishvel = v_forward * self.movement_x + v_right * self.movement_y; // acceleration wishdir = normalize(wishvel); wishspeed = wishspeed0 = vlen(wishvel); if (wishspeed0 > sv_maxspeed*maxspd_mod) wishspeed0 = sv_maxspeed*maxspd_mod; if (wishspeed > maxairspd) wishspeed = maxairspd; if (self.crouch) wishspeed = wishspeed * 0.5; if (time >= self.teleport_time) { float accelerating; float wishspeed2; float airaccelqw; airaccelqw = sv_airaccel_qw; accelerating = (self.velocity * wishdir > 0); wishspeed2 = wishspeed; // CPM if(sv_airstopaccelerate) if(self.velocity * wishdir < 0) airaccel = sv_airstopaccelerate*maxspd_mod; if(self.movement_x == 0 && self.movement_y != 0) { if(sv_maxairstrafespeed) { wishspeed = min(wishspeed, sv_maxairstrafespeed*maxspd_mod); if(sv_maxairstrafespeed < sv_maxairspeed) airaccelqw = 1; } if(sv_airstrafeaccelerate) { airaccel = sv_airstrafeaccelerate*maxspd_mod; if(sv_airstrafeaccelerate > sv_airaccelerate) airaccelqw = 1; } } // !CPM if(sv_warsowbunny_turnaccel && accelerating && self.movement_y == 0 && self.movement_x != 0) PM_AirAccelerate(wishdir, wishspeed); else PM_Accelerate(wishdir, wishspeed, wishspeed0, airaccel, airaccelqw, sv_airaccel_sideways_friction / maxairspd); if(sv_aircontrol) CPM_PM_Aircontrol(wishdir, wishspeed2); } } if((g_cts || g_race) && self.classname != "observer") { if(vlen(self.velocity - self.velocity_z * '0 0 1') > speedaward_speed) { speedaward_speed = vlen(self.velocity - self.velocity_z * '0 0 1'); speedaward_holder = self.netname; speedaward_lastupdate = time; } if(speedaward_speed > speedaward_lastsent && time - speedaward_lastupdate > 1) { string rr; if(g_cts) rr = CTS_RECORD; else rr = RACE_RECORD; race_send_speedaward(MSG_ALL); speedaward_lastsent = speedaward_speed; if (speedaward_speed > speedaward_alltimebest) { speedaward_alltimebest = speedaward_speed; speedaward_alltimebest_holder = speedaward_holder; db_put(ServerProgsDB, strcat(GetMapname(), rr, "speed/speed"), ftos(speedaward_alltimebest)); db_put(ServerProgsDB, strcat(GetMapname(), rr, "speed/netname"), speedaward_alltimebest_holder); race_send_speedaward_alltimebest(MSG_ALL); } } } :end if(self.flags & FL_ONGROUND) self.lastground = time; self.lastflags = self.flags; self.lastclassname = self.classname; };