Ported C++mos from yogs (help me)
This commit is contained in:
@@ -246,9 +246,9 @@
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/obj/effect/chrono_field/return_air() //we always have nominal air and temperature
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var/datum/gas_mixture/GM = new
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GM.gases[/datum/gas/oxygen] = MOLES_O2STANDARD
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GM.gases[/datum/gas/nitrogen] = MOLES_N2STANDARD
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GM.temperature = T20C
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GM.set_moles(/datum/gas/oxygen, MOLES_O2STANDARD)
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GM.set_moles(/datum/gas/nitrogen, MOLES_N2STANDARD)
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GM.set_temperature(T20C)
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return GM
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/obj/effect/chrono_field/Move()
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@@ -437,7 +437,6 @@ GLOBAL_LIST_EMPTY(PDAs)
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dat += "Unable to obtain a reading.<br>"
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else
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var/datum/gas_mixture/environment = T.return_air()
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var/list/env_gases = environment.gases
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var/pressure = environment.return_pressure()
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var/total_moles = environment.total_moles()
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@@ -445,12 +444,12 @@ GLOBAL_LIST_EMPTY(PDAs)
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dat += "Air Pressure: [round(pressure,0.1)] kPa<br>"
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if (total_moles)
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for(var/id in env_gases)
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var/gas_level = env_gases[id]/total_moles
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for(var/id in environment.get_gases())
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var/gas_level = environment.get_moles(id)/total_moles
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if(gas_level > 0)
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dat += "[GLOB.meta_gas_names[id]]: [round(gas_level*100, 0.01)]%<br>"
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dat += "Temperature: [round(environment.temperature-T0C)]°C<br>"
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dat += "Temperature: [round(environment.return_temperature()-T0C)]°C<br>"
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dat += "<br>"
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else//Else it links to the cart menu proc. Although, it really uses menu hub 4--menu 4 doesn't really exist as it simply redirects to hub.
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dat += cartridge.generate_menu()
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@@ -553,41 +553,38 @@ SLIME SCANNER
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else
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to_chat(user, "<span class='alert'>Pressure: [round(pressure, 0.01)] kPa</span>")
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if(total_moles)
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var/list/env_gases = environment.gases
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var/o2_concentration = env_gases[/datum/gas/oxygen]/total_moles
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var/n2_concentration = env_gases[/datum/gas/nitrogen]/total_moles
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var/co2_concentration = env_gases[/datum/gas/carbon_dioxide]/total_moles
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var/plasma_concentration = env_gases[/datum/gas/plasma]/total_moles
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var/o2_concentration = environment.get_moles(/datum/gas/oxygen)/total_moles
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var/n2_concentration = environment.get_moles(/datum/gas/nitrogen)/total_moles
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var/co2_concentration = environment.get_moles(/datum/gas/carbon_dioxide)/total_moles
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var/plasma_concentration = environment.get_moles(/datum/gas/plasma)/total_moles
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if(abs(n2_concentration - N2STANDARD) < 20)
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to_chat(user, "<span class='info'>Nitrogen: [round(n2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/nitrogen], 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>Nitrogen: [round(n2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/nitrogen), 0.01)] mol)</span>")
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else
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to_chat(user, "<span class='alert'>Nitrogen: [round(n2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/nitrogen], 0.01)] mol)</span>")
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to_chat(user, "<span class='alert'>Nitrogen: [round(n2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/nitrogen), 0.01)] mol)</span>")
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if(abs(o2_concentration - O2STANDARD) < 2)
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to_chat(user, "<span class='info'>Oxygen: [round(o2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/oxygen], 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>Oxygen: [round(o2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/oxygen), 0.01)] mol)</span>")
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else
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to_chat(user, "<span class='alert'>Oxygen: [round(o2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/oxygen], 0.01)] mol)</span>")
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to_chat(user, "<span class='alert'>Oxygen: [round(o2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/oxygen), 0.01)] mol)</span>")
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if(co2_concentration > 0.01)
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to_chat(user, "<span class='alert'>CO2: [round(co2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/carbon_dioxide], 0.01)] mol)</span>")
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to_chat(user, "<span class='alert'>CO2: [round(co2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/carbon_dioxide), 0.01)] mol)</span>")
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else
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to_chat(user, "<span class='info'>CO2: [round(co2_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/carbon_dioxide], 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>CO2: [round(co2_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/carbon_dioxide), 0.01)] mol)</span>")
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if(plasma_concentration > 0.005)
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to_chat(user, "<span class='alert'>Plasma: [round(plasma_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/plasma], 0.01)] mol)</span>")
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to_chat(user, "<span class='alert'>Plasma: [round(plasma_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/plasma), 0.01)] mol)</span>")
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else
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to_chat(user, "<span class='info'>Plasma: [round(plasma_concentration*100, 0.01)] % ([round(env_gases[/datum/gas/plasma], 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>Plasma: [round(plasma_concentration*100, 0.01)] % ([round(environment.get_moles(/datum/gas/plasma), 0.01)] mol)</span>")
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GAS_GARBAGE_COLLECT(environment.gases)
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for(var/id in env_gases)
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for(var/id in environment.get_gases())
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if(id in GLOB.hardcoded_gases)
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continue
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var/gas_concentration = env_gases[id]/total_moles
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to_chat(user, "<span class='alert'>[GLOB.meta_gas_names[id]]: [round(gas_concentration*100, 0.01)] % ([round(env_gases[id], 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>Temperature: [round(environment.temperature-T0C, 0.01)] °C ([round(environment.temperature, 0.01)] K)</span>")
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var/gas_concentration = environment.get_moles(id)/total_moles
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to_chat(user, "<span class='alert'>[GLOB.meta_gas_names[id]]: [round(gas_concentration*100, 0.01)] % ([round(environment.get_moles(id), 0.01)] mol)</span>")
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to_chat(user, "<span class='info'>Temperature: [round(environment.return_temperature()-T0C, 0.01)] °C ([round(environment.return_temperature(), 0.01)] K)</span>")
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/obj/item/analyzer/AltClick(mob/user) //Barometer output for measuring when the next storm happens
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. = ..()
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@@ -665,8 +662,8 @@ SLIME SCANNER
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var/total_moles = air_contents.total_moles()
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var/pressure = air_contents.return_pressure()
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var/volume = air_contents.return_volume() //could just do mixture.volume... but safety, I guess?
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var/temperature = air_contents.temperature
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var/volume = air_contents.return_volume()
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var/temperature = air_contents.return_temperature()
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var/cached_scan_results = air_contents.analyzer_results
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if(total_moles > 0)
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@@ -674,10 +671,9 @@ SLIME SCANNER
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to_chat(user, "<span class='notice'>Volume: [volume] L</span>")
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to_chat(user, "<span class='notice'>Pressure: [round(pressure,0.01)] kPa</span>")
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var/list/cached_gases = air_contents.gases
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for(var/id in cached_gases)
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var/gas_concentration = cached_gases[id]/total_moles
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to_chat(user, "<span class='notice'>[GLOB.meta_gas_names[id]]: [round(gas_concentration*100, 0.01)] % ([round(cached_gases[id], 0.01)] mol)</span>")
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for(var/id in air_contents.get_gases())
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var/gas_concentration = air_contents.get_moles(id)/total_moles
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to_chat(user, "<span class='notice'>[GLOB.meta_gas_names[id]]: [round(gas_concentration*100, 0.01)] % ([round(air_contents.get_moles(id), 0.01)] mol)</span>")
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to_chat(user, "<span class='notice'>Temperature: [round(temperature - T0C,0.01)] °C ([round(temperature, 0.01)] K)</span>")
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else
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@@ -168,8 +168,8 @@
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target_self = TRUE
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if(change_volume)
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if(!target_self)
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target.volume += tank_two.volume
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target.volume += tank_one.air_contents.volume
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target.set_volume(target.return_volume() + tank_two.volume)
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target.set_volume(target.return_volume() + tank_one.air_contents.return_volume())
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var/datum/gas_mixture/temp
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temp = tank_one.air_contents.remove_ratio(1)
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target.merge(temp)
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@@ -180,11 +180,11 @@
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/obj/item/transfer_valve/proc/split_gases()
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if (!valve_open || !tank_one || !tank_two)
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return
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var/ratio1 = tank_one.air_contents.volume/tank_two.air_contents.volume
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var/ratio1 = tank_one.air_contents.return_volume()/tank_two.air_contents.return_volume()
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var/datum/gas_mixture/temp
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temp = tank_two.air_contents.remove_ratio(ratio1)
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tank_one.air_contents.merge(temp)
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tank_two.air_contents.volume -= tank_one.air_contents.volume
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tank_two.air_contents.set_volume(tank_two.air_contents.return_volume() - tank_one.air_contents.return_volume())
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/*
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Exadv1: I know this isn't how it's going to work, but this was just to check
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@@ -205,11 +205,10 @@
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//TODO: DEFERRED Consider checking to make sure tank pressure is high enough before doing this...
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//Transfer 5% of current tank air contents to turf
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var/datum/gas_mixture/air_transfer = ptank.air_contents.remove_ratio(release_amount)
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if(air_transfer.gases[/datum/gas/plasma])
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air_transfer.gases[/datum/gas/plasma] *= 5
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air_transfer.set_moles(/datum/gas/plasma, air_transfer.get_moles(/datum/gas/plasma) * 5)
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target.assume_air(air_transfer)
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//Burn it based on transfered gas
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target.hotspot_expose((ptank.air_contents.temperature*2) + 380,500)
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target.hotspot_expose((ptank.air_contents.return_temperature()*2) + 380,500)
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//location.hotspot_expose(1000,500,1)
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SSair.add_to_active(target, 0)
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@@ -17,7 +17,7 @@
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/obj/item/tank/jetpack/New()
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..()
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if(gas_type)
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air_contents.gases[gas_type] = ((6 * ONE_ATMOSPHERE) * volume / (R_IDEAL_GAS_EQUATION * T20C))
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air_contents.set_moles(gas_type, ((6 * ONE_ATMOSPHERE) * volume / (R_IDEAL_GAS_EQUATION * T20C)))
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ion_trail = new
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ion_trail.set_up(src)
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@@ -21,7 +21,7 @@
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/obj/item/tank/internals/oxygen/New()
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..()
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air_contents.gases[/datum/gas/oxygen] = (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/oxygen, (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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@@ -48,8 +48,8 @@
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/obj/item/tank/internals/anesthetic/New()
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..()
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air_contents.gases[/datum/gas/oxygen] = (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * O2STANDARD
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air_contents.gases[/datum/gas/nitrous_oxide] = (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * N2STANDARD
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air_contents.set_moles(/datum/gas/oxygen, (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * O2STANDARD)
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air_contents.set_moles(/datum/gas/nitrous_oxide, (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * N2STANDARD)
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return
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/*
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@@ -65,8 +65,8 @@
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/obj/item/tank/internals/air/New()
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..()
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air_contents.gases[/datum/gas/oxygen] = (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * O2STANDARD
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air_contents.gases[/datum/gas/nitrogen] = (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * N2STANDARD
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air_contents.set_moles(/datum/gas/oxygen, (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * O2STANDARD)
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air_contents.set_moles(/datum/gas/nitrogen, (6*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C) * N2STANDARD)
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return
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@@ -84,7 +84,7 @@
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/obj/item/tank/internals/plasma/New()
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..()
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air_contents.gases[/datum/gas/plasma] = (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/plasma, (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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/obj/item/tank/internals/plasma/attackby(obj/item/W, mob/user, params)
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@@ -101,8 +101,8 @@
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return ..()
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/obj/item/tank/internals/plasma/full/New()
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..() // Plasma asserted in parent
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air_contents.gases[/datum/gas/plasma] = (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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..()
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air_contents.set_moles(/datum/gas/plasma, (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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@@ -120,12 +120,12 @@
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/obj/item/tank/internals/plasmaman/New()
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..()
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air_contents.gases[/datum/gas/plasma] = (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/plasma, (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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/obj/item/tank/internals/plasmaman/full/New()
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..() // Plasma asserted in parent
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air_contents.gases[/datum/gas/plasma] = (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/plasma, (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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@@ -139,7 +139,7 @@
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/obj/item/tank/internals/plasmaman/belt/full/New()
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..() // Plasma asserted in parent
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air_contents.gases[/datum/gas/plasma] = (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/plasma, (10*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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@@ -161,7 +161,7 @@
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/obj/item/tank/internals/emergency_oxygen/New()
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..()
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air_contents.gases[/datum/gas/oxygen] = (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C)
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air_contents.set_moles(/datum/gas/oxygen, (3*ONE_ATMOSPHERE)*volume/(R_IDEAL_GAS_EQUATION*T20C))
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return
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/obj/item/tank/internals/emergency_oxygen/engi
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@@ -64,7 +64,7 @@
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..()
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air_contents = new(volume) //liters
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air_contents.temperature = T20C
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air_contents.set_temperature(T20C)
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START_PROCESSING(SSobj, src)
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@@ -87,7 +87,7 @@
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. += "<span class='notice'>The pressure gauge reads [round(src.air_contents.return_pressure(),0.01)] kPa.</span>"
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var/celsius_temperature = src.air_contents.temperature-T0C
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var/celsius_temperature = src.air_contents.return_temperature()-T0C
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var/descriptive
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if (celsius_temperature < 20)
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@@ -226,7 +226,7 @@
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if(tank_pressure < distribute_pressure)
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distribute_pressure = tank_pressure
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var/moles_needed = distribute_pressure*volume_to_return/(R_IDEAL_GAS_EQUATION*air_contents.temperature)
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var/moles_needed = distribute_pressure*volume_to_return/(R_IDEAL_GAS_EQUATION*air_contents.return_temperature())
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return remove_air(moles_needed)
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