/* server/entities/map_entities.qc logic and entities pertaining to in-game traps Copyright (C) 2021-2022 NZ:P Team This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #define TRAP_SPAWNFLAG_REQUIRESPOWER 1 // // -------------------- // Electric Trap // -------------------- // #define ELECTRICTRAP_MODE_TIMER 0 // Der Riese style; trap cools down after X seconds. #define ELECTRICTRAP_MODE_ROUND 1 // SNN/Verruckt style; trap cools down at end of Round. // // Electric Switch On Animation // void() A_ElecSwitchOn1 = [ 1, A_ElecSwitchOn2 ] {self.frame = 0;}; void() A_ElecSwitchOn2 = [ 2, A_ElecSwitchOn3 ] {self.frame = 1;}; void() A_ElecSwitchOn3 = [ 3, A_ElecSwitchOn4 ] {self.frame = 2;}; void() A_ElecSwitchOn4 = [ 4, SUB_Null ] {self.frame = 2;}; // // Electric Swich Off Animation // void() A_ElecSwitchOff1 = [ 1, A_ElecSwitchOff2 ] {self.frame = 2;}; void() A_ElecSwitchOff2 = [ 2, A_ElecSwitchOff3 ] {self.frame = 1;}; void() A_ElecSwitchOff3 = [ 3, SUB_Null ] {self.frame = 0;}; // // zapper_do_damage // Called when entities touch the Electric barrier. // void() zapper_do_damage { entity tempe; // Player Logic: // - Trap instantly kills player on contact without Jugg, // having Jugg/Toughness reduces damage to only 50. // - 1.25s delay before damage can be dealt again. // - Player is slowed down by 50% for 2.5 seconds. (Stop sprinting) if (other.classname == "player") { // Inflict Damage if (other.damage_timer < time) { if (other.perks & P_JUG) DamageHandler(other, self, 50, S_ZAPPER); else DamageHandler(other, self, other.health, S_ZAPPER); other.damage_timer = time + 1.25; } // Inflict Speed Penalty if (other.speed_penalty_time < time) { other.speed_penalty = 0.5; other.speed_penalty_time = time + 2.5; // Make sure we can't sprint if (other.sprinting) { tempe = self; self = other; W_SprintStop(); self = tempe; } } } // Zombie Logic: // - Zombie can take up to 1.25 seconds to die after contact, // cannot damage in this state. // - Has a chance to gib. // - No normal death sound, play elec sound on contact, then // again on death. // - Zombies do not drop Power-Ups when killed via traps. if (other.classname == "ai_zombie_head" || other.classname == "ai_zombie_rarm" || other.classname == "ai_zombie_larm") { // If we're a limb, grab our body. other = other.owner; } if (other.classname == "ai_zombie" && !other.electro_targeted) { tempe = self; self = other; Z_ElectroShock(); self = tempe; } // Dog Logic: // - Dogs should always explode on contact, instantly. // - Trap plays Electro-Shock sound, dog plays explosion. else if (other.classname == "ai_dog") { sound(self, CHAN_WEAPON, "sounds/machines/elec_shock.wav", 1, ATTN_NORM); tempe = self; self = other; self.electro_targeted = true; self.th_die(); self = tempe; } } void zapper_play () { entity zents = find(world, targetname, self.target); local vector org = self.origin; local vector targetorg = zents.origin; if (zents) { #ifdef FTE te_lightning1(self, self.origin, zents.origin); #else WriteByte (MSG_BROADCAST, SVC_TEMPENTITY); WriteByte (MSG_BROADCAST, TE_LIGHTNING1); WriteEntity (MSG_BROADCAST, self); WriteCoord (MSG_BROADCAST, org_x); WriteCoord (MSG_BROADCAST, org_y); WriteCoord (MSG_BROADCAST, org_z); WriteCoord (MSG_BROADCAST, targetorg_x); WriteCoord (MSG_BROADCAST, targetorg_y); WriteCoord (MSG_BROADCAST, targetorg_z); #endif // FTE } zents.touch = zapper_do_damage; self.think = zapper_play; self.nextthink = time + (0.5*random()); } void() zapper_touch; void() zapper_cooldown = { A_ElecSwitchOff1(); self.touch = zapper_touch; } void zapper_stop() { entity zents; entity tempe; zents = find(world, zappername, self.zappername); while (zents) { if (zents.classname == "zapper_light") { zents.skin = 0; } else if (zents.classname == "zapper_switch") { tempe = self; self = zents; self.state = 0; if (self.mode == ELECTRICTRAP_MODE_TIMER) { self.think = zapper_cooldown; self.nextthink = time + self.cooldown; } self = tempe; } else if (zents.classname == "zapper_node" && zents.target) { zents.think = SUB_Null; entity zent_target = find(world, targetname, self.target); if (zent_target != world) zent_target.touch = SUB_Null; zents.nextthink = 0; } zents.touch = SUB_Null; zents = find(zents, zappername, self.zappername); } remove(self); } void zapper_start(string zapper) { entity zents; entity tempe; float lasting_time = 0; zents = find(world, zappername, zapper); while (zents) { if (zents.classname == "zapper_light") { zents.skin = 1; } else if (zents.classname == "zapper_switch") { tempe = self; self = zents; self.state = 1; lasting_time = self.calc_time; A_ElecSwitchOn1(); self = tempe; } else if (zents.classname == "zapper_node" && zents.target) { zents.think = zapper_play; zents.nextthink = time + 0.1; } zents = find(zents, zappername, zapper); } tempe = spawn(); tempe.think = zapper_stop; tempe.nextthink = time + lasting_time; tempe.zappername = zapper; } void zapper_touch () { if (other.classname != "player") { return; } if (self.requirespower == true && !isPowerOn) { useprint (other, 8, 0, 0); return; } if (self.state == 0) { useprint (other, 11, self.cost, self.weapon); if (!other.button7 || other.semiuse) { return; } other.semiuse = true; if (other.points < self.cost) { centerprint(other, STR_NOTENOUGHPOINTS); sound(other, 0, "sounds/misc/denybuy.wav", 1, 1); return; } zapper_start(self.zappername); addmoney(other, -1*self.cost, false); } } void() zapper_switch = { // // Set Default Stats for Compatibility // // Model if (!self.model) self.model = "models/machines/quake_scale/zapper/z_switch.mdl"; // Cost if (!self.cost) self.cost = 1000; // Cooldown Time if (!self.cooldown) self.cooldown = 30; // Lasting Time if (!self.calc_time) self.calc_time = 60; // Requires Power if (self.spawnflags & TRAP_SPAWNFLAG_REQUIRESPOWER) self.requirespower = true; self.solid = SOLID_TRIGGER; precache_model(self.model); precache_sound("sounds/machines/elec_shock.wav"); setorigin(self, self.origin); setmodel(self, self.model); setsize(self, '-4 -4 -4', '4 4 4'); self.state = 0; self.touch = zapper_touch; self.movetype = MOVETYPE_NONE; self.classname = "zapper_switch"; }; void() set_zapper_bbox = { vector bbmin, bbmax; // Retrieve the distance between this zapper and the one // it's linked to. entity other_zapper = find(world, targetname, self.target); float distance = abs(vlen(other_zapper.origin - self.origin)); // Point upward by default bbmin = '-20 -20 -4'; bbmax_x = 20; bbmax_y = 20; bbmax_z = distance/2; // X Axis if (self.angles_x) { switch(self.angles_x) { // Pointed 'Upward' case 0: bbmin = '-20 -20 -4'; bbmax_x = 20; bbmax_y = 20; bbmax_z = distance/2; break; // Pointed 'Leftward' case 90: bbmin_x = -distance/2; bbmin_y = -20; bbmin_z = -20; bbmax = '4 20 20'; break; // Pointed 'Downward' case 180: bbmin_x = -20; bbmin_y = -20; bbmin_z = -distance/2; bbmax = '20 20 4'; break; // Pointed 'Rightward' case 270: bbmin = '-4 20 20'; bbmax_x = distance/2; bbmax_y = 20; bbmax_z = 20; break; default: bprint(PRINT_HIGH, "WARN: Invalid X axis rotation for zapper_node.\n"); bprint(PRINT_HIGH, " Collision box is going to be incorrect.\n"); break; } } else if (self.angles_z) { // Z Axis switch(abs(self.angles_z)) { // Pointed 'Upward' case 0: bbmin = '-20 -20 -4'; bbmax_x = 20; bbmax_y = 20; bbmax_z = distance/2; break; // Pointed 'Leftward' case 90: bbmin_x = -20; bbmin_y = -distance/2; bbmin_x = -20; bbmax = '20 4 20'; break; // Pointed 'Downward' case 180: bbmin_x = -20; bbmin_y = -20; bbmin_z = -distance/2; bbmax = '20 20 4'; break; // Pointed 'Rightward' case 270: bbmin = '-20 -4 -20'; bbmax_x = 20; bbmax_y = distance/2; bbmax_x = 20; break; default: bprint(PRINT_HIGH, "WARN: Invalid Z axis rotation for zapper_node.\n"); bprint(PRINT_HIGH, " Collision box is going to be incorrect.\n"); break; } } if (self.angles_y) { bprint(PRINT_HIGH, "WARN: zapper_node object with Y axis rotation.\n"); bprint(PRINT_HIGH, " Use r_showbboxes to verify zap collision.\n"); } setsize(self, bbmin, bbmax); } void() zapper_node = { // // Set Default Stats for Compatibility // // Model if (!self.model) self.model = "models/machines/quake_scale/zapper/z_zap.mdl"; self.solid = SOLID_TRIGGER; precache_model(self.model); setorigin(self, self.origin); setmodel(self, self.model); makevectors(self.angles); setsize (self, VEC_HULL_MIN, VEC_HULL_MAX); self.movetype = MOVETYPE_NONE; self.think = set_zapper_bbox; self.nextthink = time + 2; self.classname = "zapper_node"; }; void() zapper_light = { // // Set Default Stats for Compatibility // // Model if (!self.model) self.model = "models/machines/quake_scale/zapper/z_light.mdl"; self.solid = SOLID_TRIGGER; precache_model(self.model); setorigin(self, self.origin); setmodel(self, self.model); setsize(self, '-4 -4 -4', '4 4 4'); self.movetype = MOVETYPE_NONE; self.classname = "zapper_light"; }; void() trigger_electro = { self.classname = "zapper_field"; InitTrigger (); self.solid = SOLID_TRIGGER; };