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Move gas reaction defines to their own file (#39660)
* move gas reaction defines to their own file * eof * ditto
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code/__DEFINES/reactions.dm
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code/__DEFINES/reactions.dm
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//Defines used in atmos gas reactions. Used to be located in ..\modules\atmospherics\gasmixtures\reactions.dm, but were moved here because fusion added so fucking many.
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//Plasma fire properties
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#define OXYGEN_BURN_RATE_BASE 1.4
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#define PLASMA_BURN_RATE_DELTA 9
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#define PLASMA_MINIMUM_OXYGEN_NEEDED 2
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#define PLASMA_MINIMUM_OXYGEN_PLASMA_RATIO 30
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#define FIRE_CARBON_ENERGY_RELEASED 100000 //Amount of heat released per mole of burnt carbon into the tile
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#define FIRE_HYDROGEN_ENERGY_RELEASED 280000 //Amount of heat released per mole of burnt hydrogen and/or tritium(hydrogen isotope)
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#define FIRE_PLASMA_ENERGY_RELEASED 3000000 //Amount of heat released per mole of burnt plasma into the tile
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//General assmos defines.
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#define WATER_VAPOR_FREEZE 200
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#define NITRYL_FORMATION_ENERGY 100000
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#define TRITIUM_BURN_OXY_FACTOR 100
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#define TRITIUM_BURN_TRIT_FACTOR 10
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#define TRITIUM_BURN_RADIOACTIVITY_FACTOR 50000 //The neutrons gotta go somewhere. Completely arbitrary number.
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#define TRITIUM_MINIMUM_RADIATION_ENERGY 0.1 //minimum 0.01 moles trit or 10 moles oxygen to start producing rads
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#define SUPER_SATURATION_THRESHOLD 96
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#define STIMULUM_HEAT_SCALE 100000
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#define STIMULUM_FIRST_RISE 0.65
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#define STIMULUM_FIRST_DROP 0.065
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#define STIMULUM_SECOND_RISE 0.0009
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#define STIMULUM_ABSOLUTE_DROP 0.00000335
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#define REACTION_OPPRESSION_THRESHOLD 5
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#define NOBLIUM_FORMATION_ENERGY 2e9 //1 Mole of Noblium takes the planck energy to condense.
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//Plasma fusion properties
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#define FUSION_ENERGY_THRESHOLD 3e9 //Amount of energy it takes to start a fusion reaction
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#define FUSION_TEMPERATURE_THRESHOLD 1000 //Temperature required to start a fusion reaction
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#define FUSION_MOLE_THRESHOLD 250 //Mole count required (tritium/plasma) to start a fusion reaction
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#define FUSION_RELEASE_ENERGY_SUPER 3e9 //Amount of energy released in the fusion process, super tier
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#define FUSION_RELEASE_ENERGY_HIGH 1e9 //Amount of energy released in the fusion process, high tier
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#define FUSION_RELEASE_ENERGY_MID 5e8 //Amount of energy released in the fusion process, mid tier
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#define FUSION_RELEASE_ENERGY_LOW 1e8 //Amount of energy released in the fusion process, low tier
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#define FUSION_MEDIATION_FACTOR 80 //Arbitrary
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#define FUSION_SUPER_TIER_THRESHOLD 50 //anything above this is super tier
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#define FUSION_HIGH_TIER_THRESHOLD 20 //anything above this and below 50 is high tier
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#define FUSION_MID_TIER_THRESHOLD 5 //anything above this and below 20 is mid tier - below this is low tier, but that doesnt need a define
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#define FUSION_ENERGY_DIVISOR_SUPER 25 //power_ratio is divided by this during energy calculations
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#define FUSION_ENERGY_DIVISOR_HIGH 20
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#define FUSION_ENERGY_DIVISOR_MID 10
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#define FUSION_ENERGY_DIVISOR_LOW 2
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#define FUSION_GAS_CREATION_FACTOR_TRITIUM 0.40 //trit - one gas rather than two, so think about that when calculating stuff - 40% in total
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#define FUSION_GAS_CREATION_FACTOR_STIM 0.05 //stim percentage creation from high tier - 5%, 60% in total with pluox
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#define FUSION_GAS_CREATION_FACTOR_PLUOX 0.55 //pluox percentage creation from high tier - 55%, 60% in total with stim
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#define FUSION_GAS_CREATION_FACTOR_NITRYL 0.20 //nitryl and N2O - 80% in total
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#define FUSION_GAS_CREATION_FACTOR_N2O 0.60 //nitryl and N2O - 80% in total
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#define FUSION_GAS_CREATION_FACTOR_BZ 0.05 //BZ - 5% - 90% in total with CO2
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#define FUSION_GAS_CREATION_FACTOR_CO2 0.85 //CO2 - 85% - 90% in total with BZ
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#define FUSION_MID_TIER_RAD_PROB_FACTOR 2 //probability of radpulse is power ratio * this for whatever tier
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#define FUSION_LOW_TIER_RAD_PROB_FACTOR 5
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#define FUSION_EFFICIENCY_BASE 60 //used in the fusion efficiency calculations
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#define FUSION_EFFICIENCY_DIVISOR 0.6 //ditto
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#define FUSION_RADIATION_FACTOR 15000 //horizontal asymptote
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#define FUSION_RADIATION_CONSTANT 30 //equation is form of (ax) / (x + b), where a = radiation factor and b = radiation constant and x = power ratio (https://www.desmos.com/calculator/4i1f296phl)
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#define FUSION_ZAP_POWER_ASYMPTOTE 50000 //maximum value - not enough to instacrit but it'll still hurt like shit
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#define FUSION_ZAP_POWER_CONSTANT 75 //equation is of from [ax / (x + b)] + c, where a = zap power asymptote, b = zap power constant, c = zap power base and x = power ratio
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#define FUSION_ZAP_POWER_BASE 1000 //(https://www.desmos.com/calculator/vvbmhf4unm)
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#define FUSION_ZAP_RANGE_SUPER 9 //range of the tesla zaps that occur from fusion
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#define FUSION_ZAP_RANGE_HIGH 7
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#define FUSION_ZAP_RANGE_MID 5
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#define FUSION_ZAP_RANGE_LOW 3
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#define FUSION_PARTICLE_FACTOR_SUPER 4 //# of particles fired out is equal to rand(3,6) * this for whatever tier
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#define FUSION_PARTICLE_FACTOR_HIGH 3
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#define FUSION_PARTICLE_FACTOR_MID 2
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#define FUSION_PARTICLE_FACTOR_LOW 1
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@@ -1,66 +1,4 @@
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//Plasma fire properties
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#define OXYGEN_BURN_RATE_BASE 1.4
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#define PLASMA_BURN_RATE_DELTA 9
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#define PLASMA_MINIMUM_OXYGEN_NEEDED 2
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#define PLASMA_MINIMUM_OXYGEN_PLASMA_RATIO 30
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#define FIRE_CARBON_ENERGY_RELEASED 100000 //Amount of heat released per mole of burnt carbon into the tile
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#define FIRE_HYDROGEN_ENERGY_RELEASED 280000 //Amount of heat released per mole of burnt hydrogen and/or tritium(hydrogen isotope)
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#define FIRE_PLASMA_ENERGY_RELEASED 3000000 //Amount of heat released per mole of burnt plasma into the tile
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//General assmos defines.
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#define WATER_VAPOR_FREEZE 200
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#define NITRYL_FORMATION_ENERGY 100000
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#define TRITIUM_BURN_OXY_FACTOR 100
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#define TRITIUM_BURN_TRIT_FACTOR 10
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#define TRITIUM_BURN_RADIOACTIVITY_FACTOR 50000 //The neutrons gotta go somewhere. Completely arbitrary number.
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#define TRITIUM_MINIMUM_RADIATION_ENERGY 0.1 //minimum 0.01 moles trit or 10 moles oxygen to start producing rads
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#define SUPER_SATURATION_THRESHOLD 96
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#define STIMULUM_HEAT_SCALE 100000
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#define STIMULUM_FIRST_RISE 0.65
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#define STIMULUM_FIRST_DROP 0.065
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#define STIMULUM_SECOND_RISE 0.0009
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#define STIMULUM_ABSOLUTE_DROP 0.00000335
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#define REACTION_OPPRESSION_THRESHOLD 5
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#define NOBLIUM_FORMATION_ENERGY 2e9 //1 Mole of Noblium takes the planck energy to condense.
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//Plasma fusion properties
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#define FUSION_ENERGY_THRESHOLD 3e9 //Amount of energy it takes to start a fusion reaction
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#define FUSION_TEMPERATURE_THRESHOLD 1000 //Temperature required to start a fusion reaction
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#define FUSION_MOLE_THRESHOLD 250 //Mole count required (tritium/plasma) to start a fusion reaction
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#define FUSION_RELEASE_ENERGY_SUPER 3e9 //Amount of energy released in the fusion process, super tier
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#define FUSION_RELEASE_ENERGY_HIGH 1e9 //Amount of energy released in the fusion process, high tier
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#define FUSION_RELEASE_ENERGY_MID 5e8 //Amount of energy released in the fusion process, mid tier
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#define FUSION_RELEASE_ENERGY_LOW 1e8 //Amount of energy released in the fusion process, low tier
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#define FUSION_MEDIATION_FACTOR 80 //Arbitrary
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#define FUSION_SUPER_TIER_THRESHOLD 50 //anything above this is super tier
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#define FUSION_HIGH_TIER_THRESHOLD 20 //anything above this and below 50 is high tier
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#define FUSION_MID_TIER_THRESHOLD 5 //anything above this and below 20 is mid tier - below this is low tier, but that doesnt need a define
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#define FUSION_ENERGY_DIVISOR_SUPER 25 //power_ratio is divided by this during energy calculations
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#define FUSION_ENERGY_DIVISOR_HIGH 20
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#define FUSION_ENERGY_DIVISOR_MID 10
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#define FUSION_ENERGY_DIVISOR_LOW 2
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#define FUSION_GAS_CREATION_FACTOR_TRITIUM 0.40 //trit - one gas rather than two, so think about that when calculating stuff - 40% in total
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#define FUSION_GAS_CREATION_FACTOR_STIM 0.05 //stim percentage creation from high tier - 5%, 60% in total with pluox
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#define FUSION_GAS_CREATION_FACTOR_PLUOX 0.55 //pluox percentage creation from high tier - 55%, 60% in total with stim
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#define FUSION_GAS_CREATION_FACTOR_NITRYL 0.20 //nitryl and N2O - 80% in total
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#define FUSION_GAS_CREATION_FACTOR_N2O 0.60 //nitryl and N2O - 80% in total
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#define FUSION_GAS_CREATION_FACTOR_BZ 0.05 //BZ - 5% - 90% in total with CO2
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#define FUSION_GAS_CREATION_FACTOR_CO2 0.85 //CO2 - 85% - 90% in total with BZ
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#define FUSION_MID_TIER_RAD_PROB_FACTOR 2 //probability of radpulse is power ratio * this for whatever tier
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#define FUSION_LOW_TIER_RAD_PROB_FACTOR 5
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#define FUSION_EFFICIENCY_BASE 60 //used in the fusion efficiency calculations
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#define FUSION_EFFICIENCY_DIVISOR 0.6 //ditto
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#define FUSION_RADIATION_FACTOR 15000 //horizontal asymptote
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#define FUSION_RADIATION_CONSTANT 30 //equation is form of (ax) / (x + b), where a = radiation factor and b = radiation constant and x = power ratio (https://www.desmos.com/calculator/4i1f296phl)
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#define FUSION_ZAP_POWER_ASYMPTOTE 50000 //maximum value - not enough to instacrit but it'll still hurt like shit
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#define FUSION_ZAP_POWER_CONSTANT 75 //equation is of from [ax / (x + b)] + c, where a = zap power asymptote, b = zap power constant, c = zap power base and x = power ratio
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#define FUSION_ZAP_POWER_BASE 1000 //(https://www.desmos.com/calculator/vvbmhf4unm)
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#define FUSION_ZAP_RANGE_SUPER 9 //range of the tesla zaps that occur from fusion
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#define FUSION_ZAP_RANGE_HIGH 7
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#define FUSION_ZAP_RANGE_MID 5
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#define FUSION_ZAP_RANGE_LOW 3
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#define FUSION_PARTICLE_FACTOR_SUPER 4 //# of particles fired out is equal to rand(3,6) * this for whatever tier
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#define FUSION_PARTICLE_FACTOR_HIGH 3
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#define FUSION_PARTICLE_FACTOR_MID 2
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#define FUSION_PARTICLE_FACTOR_LOW 1
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//All defines used in reactions are located in ..\__DEFINES\reactions.dm
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/proc/init_gas_reactions()
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var/list/reaction_types = list()
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@@ -496,20 +434,3 @@
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if(new_heat_capacity > MINIMUM_HEAT_CAPACITY)
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air.temperature = max(((air.temperature*old_heat_capacity - energy_taken)/new_heat_capacity),TCMB)
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#undef OXYGEN_BURN_RATE_BASE
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#undef PLASMA_BURN_RATE_DELTA
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#undef PLASMA_MINIMUM_OXYGEN_NEEDED
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#undef PLASMA_MINIMUM_OXYGEN_PLASMA_RATIO
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#undef FIRE_CARBON_ENERGY_RELEASED
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#undef FIRE_PLASMA_ENERGY_RELEASED
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#undef WATER_VAPOR_FREEZE
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#undef NITRYL_FORMATION_ENERGY
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#undef TRITIUM_BURN_OXY_FACTOR
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#undef SUPER_SATURATION_THRESHOLD
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#undef STIMULUM_HEAT_SCALE
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#undef STIMULUM_FIRST_RISE
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#undef STIMULUM_FIRST_DROP
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#undef STIMULUM_SECOND_RISE
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#undef STIMULUM_ABSOLUTE_DROP
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#undef REACTION_OPPRESSION_THRESHOLD
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#undef NOBLIUM_FORMATION_ENERGY
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@@ -72,6 +72,7 @@
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#include "code\__DEFINES\qdel.dm"
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#include "code\__DEFINES\radiation.dm"
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#include "code\__DEFINES\radio.dm"
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#include "code\__DEFINES\reactions.dm"
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#include "code\__DEFINES\reagents.dm"
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#include "code\__DEFINES\reagents_specific_heat.dm"
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#include "code\__DEFINES\research.dm"
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