// the power cell // charge from 0 to 100% // fits in APC to provide backup power /obj/item/cell/Initialize() . = ..() charge = maxcharge update_icon() /obj/item/cell/Created() //Newly built cells spawn with no charge to prevent power exploits charge = 0 update_icon() /obj/item/cell/get_cell() return src /obj/item/cell/drain_power(var/drain_check, var/surge, var/power = 0) if(drain_check) return 1 if(charge <= 0) return 0 var/cell_amt = power * CELLRATE return use(cell_amt) / CELLRATE /obj/item/cell/update_icon() cut_overlays() if(charge < 0.01) return else if(charge/maxcharge >=0.995) add_overlay("cell-o2") else add_overlay("cell-o1") /obj/item/cell/proc/percent() // return % charge of cell return 100.0*charge/maxcharge /obj/item/cell/proc/fully_charged() return (charge == maxcharge) // checks if the power cell is able to provide the specified amount of charge /obj/item/cell/proc/check_charge(var/amount) return (charge >= amount) // use power from a cell, returns the amount actually used /obj/item/cell/proc/use(var/amount) if (QDELING(src)) return 0 if(rigged && amount > 0) explode() return 0 var/used = min(charge, amount) charge -= used return used // Checks if the specified amount can be provided. If it can, it removes the amount // from the cell and returns 1. Otherwise drains the charge to exactly 0 and returns 0. /obj/item/cell/proc/checked_use(var/amount) . = check_charge(amount) use(amount) // recharge the cell /obj/item/cell/proc/give(var/amount) if (QDELING(src)) return 0 if(rigged && amount > 0) explode() return 0 if(maxcharge < amount) return 0 var/amount_used = min(maxcharge-charge,amount) charge += amount_used return amount_used /obj/item/cell/examine(mob/user) . = ..() if(get_dist(src, user) > 1) return if(maxcharge <= 2500) to_chat(user, "[desc]\nThe manufacturer's label states this cell has a power rating of [maxcharge]J, and that you should not swallow it.\nThe charge meter reads [round(src.percent() )]%.") else to_chat(user, "This power cell has an exciting chrome finish, as it is an uber-capacity cell type! It has a power rating of [maxcharge]J!\nThe charge meter reads [round(src.percent() )]%.") /obj/item/cell/attackby(obj/item/W, mob/user) if(istype(W, /obj/item/reagent_containers/syringe)) var/obj/item/reagent_containers/syringe/S = W to_chat(user, "You inject the solution into the power cell.") if(S.reagents.has_reagent(/decl/reagent/toxin/phoron, 5)) rigged = 1 log_admin("LOG: [user.name] ([user.ckey]) injected a power cell with phoron, rigging it to explode.",ckey=key_name(user)) message_admins("[key_name_admin(user)] injected a power cell with phoron, rigging it to explode.") S.reagents.clear_reagents() return else if(istype(W, /obj/item/device/assembly_holder)) var/obj/item/device/assembly_holder/assembly = W if (istype(assembly.a_left, /obj/item/device/assembly/signaler) && istype(assembly.a_right, /obj/item/device/assembly/signaler)) //TODO: Look into this bad code user.drop_item() user.drop_from_inventory(src) new /obj/item/device/radiojammer/improvised(assembly, src, user) else to_chat(user, "You'd need both devices to be signallers for this to work.") return else if(W.ismultitool() && ishuman(user) && user.get_inactive_hand() == src) if(charge < 10) to_chat(user, SPAN_WARNING("\The [src] doesn't have enough charge to produce sufficient current!")) return var/mob/living/carbon/human/H = user var/siemens_coeff = 1 if(H.gloves) siemens_coeff = H.gloves.siemens_coefficient if(siemens_coeff >= 0.75 && prob(10 * siemens_coeff)) to_chat(H, SPAN_WARNING("You probe \the [src] with \the [W] and feel a jolt of electricity shoot through you! It reads out that [100 * siemens_coeff]% of the current was let through.")) H.electrocute_act(5, src, siemens_coeff, H.hand ? BP_R_HAND : BP_L_HAND) // hand holding the battery gets shocked else to_chat(H, SPAN_NOTICE("You probe \the [src] with \the [W]. It reads out that [100 * siemens_coeff]% of the current was let through.")) return return ..() /obj/item/cell/proc/explode() var/turf/T = get_turf(src.loc) /* * 1000-cell explosion(T, -1, 0, 1, 1) * 2500-cell explosion(T, -1, 0, 1, 1) * 10000-cell explosion(T, -1, 1, 3, 3) * 15000-cell explosion(T, -1, 2, 4, 4) * */ if (charge==0) return var/devastation_range = -1 //round(charge/11000) var/heavy_impact_range = round(sqrt(charge)/60) var/light_impact_range = round(sqrt(charge)/30) var/flash_range = light_impact_range if (light_impact_range==0) rigged = 0 corrupt() return //explosion(T, 0, 1, 2, 2) log_admin("LOG: Rigged power cell explosion, last touched by [fingerprintslast]") message_admins("LOG: Rigged power cell explosion, last touched by [fingerprintslast]") explosion(T, devastation_range, heavy_impact_range, light_impact_range, flash_range) qdel(src) /obj/item/cell/proc/corrupt() charge /= 2 maxcharge /= 2 if (prob(10)) rigged = 1 //broken batterys are dangerous /obj/item/cell/emp_act(severity) //remove this once emp changes on dev are merged in if(isrobot(loc)) var/mob/living/silicon/robot/R = loc severity *= R.cell_emp_mult charge -= maxcharge / severity if (charge < 0) charge = 0 ..() /obj/item/cell/ex_act(severity) switch(severity) if(1.0) qdel(src) return if(2.0) if (prob(50)) qdel(src) return if (prob(50)) corrupt() if(3.0) if (prob(25)) qdel(src) return if (prob(25)) corrupt() return /obj/item/cell/proc/get_electrocute_damage() switch (charge) /* if (9000 to INFINITY) return min(rand(90,150),rand(90,150)) if (2500 to 9000-1) return min(rand(70,145),rand(70,145)) if (1750 to 2500-1) return min(rand(35,110),rand(35,110)) if (1500 to 1750-1) return min(rand(30,100),rand(30,100)) if (750 to 1500-1) return min(rand(25,90),rand(25,90)) if (250 to 750-1) return min(rand(20,80),rand(20,80)) if (100 to 250-1) return min(rand(20,65),rand(20,65))*/ if (1000000 to INFINITY) return min(rand(50,160),rand(50,160)) if (200000 to 1000000-1) return min(rand(25,80),rand(25,80)) if (100000 to 200000-1)//Ave powernet return min(rand(20,60),rand(20,60)) if (50000 to 100000-1) return min(rand(15,40),rand(15,40)) if (1000 to 50000-1) return min(rand(10,20),rand(10,20)) else return 0