adamo-physics/data-final-fixes.lua

require("factsheet")

-- Updates to rocket physics.
data.raw.ammo["rocket"].ammo_type.action.action_delivery.starting_speed = 0.95
data.raw.ammo["explosive-rocket"].ammo_type.action.action_delivery.starting_speed = .95
data.raw.projectile["rocket"].acceleration=0.8
data.raw.projectile["explosive-rocket"].acceleration=0.8
if data.raw.gun["rocket-launcher"] then
    data.raw.gun["rocket-launcher"].attack_parameters.range=38
end

-- Reduce electric-turret drain by factor of 24.
for _,turret in pairs(data.raw["electric-turret"]) do
	if turret.energy_source
	and turret.energy_source.type
	and turret.energy_source.type == "electric" then
		turret.energy_source.drain = 
			energy_div(
				(turret.energy_source.drain or "24kW"),
				24
			)
	end
end

-- Pre rocket launcher
if data.raw["ammo-turret"]["pre-rocket-turret"] then
		data.raw["ammo-turret"]["pre-rocket-turret"].attack_parameters.range=60
		data.raw["ammo-turret"]["pre-rocket-turret"].attack_parameters.min_range=25
end

-- Aircraft mod launcher.
if data.raw.gun["aircraft-rocket-launcher"] then
		data.raw.gun["aircraft-rocket-launcher"].
			attack_parameters.range=60
end

-- Helicopter mod launcher
if data.raw.gun["heli-rocket-launcher-item"] then
	data.raw.gun["heli-rocket-launcher-item"].attack_parameters.range=60
end

-- Predictabowl's vehicle rocket launcher
 if data.raw.gun["vehicle-rocket-launcher"] then
     data.raw.gun["vehicle-rocket-launcher"].attack_parameters.range=50
 end
 
 if data.raw.gun["vehicle-rocket-launcher-2"] then
     data.raw.gun["vehicle-rocket-launcher-2"].attack_parameters.range=60
 end

for _,heatpipe in pairs(data.raw["heat-pipe"]) do
	heatpipe.heat_buffer.specific_heat =
		energy_div(
			heatpipe.heat_buffer.specific_heat,
			nuke_fuel_quotient
		)
	heatpipe.heat_buffer.max_transfer =
		energy_div(
			heatpipe.heat_buffer.max_transfer,
			gen_eff
		)
end

local set_burner_colors = function(entity)
	local entity = entity_or_bust(entity)
	if not entity then return end
	local burner = table_or_bust(get_energy_source(entity))
	if not burner then return end
	local color
	if burner.type == "fluid" and burner.burns_fluid then
		color = colors.gas_fire_glow
	elseif uses_fuel_type("chemical",entity) then
		color = colors.chemical_fire_glow
	elseif burner.type == "heat" then
		color = colors.chemical_fire_glow
	else return end
	local min_size = 0.05*get_collision_hypotenuse(entity)
	local glow_num = 0.3*get_collision_hypotenuse(entity)
	burner.light_flicker = {
		color = color,
		minimum_light_size = min_size,
		light_intensity_to_size_coefficient = glow_num
	}
	local viz = table_or_bust(entity.working_visualisations)
	if viz then
		for _,subtab in pairs(viz) do
			if type(subtab.light) == "table" then
				subtab.light.color = color
			end
		end
	end
	log("Made physical burner colors for "
		..entity.name
		.." ("
		..tostring(color.r)
		.." "
		..tostring(color.g)
		.." "
		..tostring(color.b)
		..")"
		)
end

for _,boiler in pairs(data.raw.boiler) do
	boiler.target_temperature = chem_temp_max
	boiler.fluid_box.height =
		(boiler.fluid_box.height or 1)/gen_eff
	boiler.output_fluid_box.height =
		(boiler.output_fluid_box.height or 1)/gen_eff
	boiler.energy_consumption = energy_div(
		boiler.energy_consumption,gen_eff
	)
	if boiler.burner
	and type(boiler.burner) == "table" then
		boiler.burner.effectivity = 
			(boiler.burner.effectivity or 1)
			*boiler_eff
	end
	if boiler.energy_source
	and type(boiler.energy_source) == "table" then
		boiler.energy_source.effectivity =
			(boiler.energy_source.effectivity or 1)
			*boiler_eff
		if boiler.energy_source.type == "heat" then
			boiler.target_temperature =	nuke_temp_max
		elseif boiler.energy_source.type == "electric" then
			boiler.target_temperature = 100
		else
			set_burner_colors(boiler)
		end
	end
end

for _,generator in pairs(data.raw.generator) do
	generator.effectivity =
		(generator.effectivity or 1)
		*gen_eff
	if generator.fluid_box then
		generator.fluid_box.height = 
			(generator.fluid_box.height or 1)/gen_eff
	end
	if generator.name:find "steam" then
		if generator.name:find "turbine" then
			generator.maximum_temperature =	nuke_temp_max
		else
			generator.maximum_temperature =	chem_temp_max
		end
	end
end

for _,item in pairs(data.raw.item) do
	if item.fuel_value then
		if item.fuel_category == "chemical" then
			item.fuel_value = energy_div(
				item.fuel_value,chem_fuel_quotient
			)
		elseif item.fuel_category == "nuclear"
		or item.fuel_category 
		== "adamo-nuclear-thermal-reaction" then
			item.fuel_value = energy_div(
				item.fuel_value,nuke_fuel_quotient
			)
		end
	end
end

for _,fluid in pairs(data.raw.fluid) do
	if fluid.fuel_value then
		fluid.fuel_value = energy_div(
			fluid.fuel_value,chem_fuel_quotient
		)
	end
end

for _,furnace in pairs(data.raw.furnace) do
	set_burner_colors(furnace)
	if furnace.energy_source
	and (
		furnace.energy_source.type == "burner"
		or furnace.energy_source.type == "fluid"
	) then
		
		furnace.energy_source.effectivity = 
			(furnace.energy_source.effectivity or 1)
			*furnace_eff
	elseif furnace.burner then
		furnace.burner.effectivity = 
			(furnace.burner.effectivity or 1)
			*furnace_eff
	end
end

for _,machine in pairs(data.raw["assembling-machine"]) do
	if machine.energy_source.type == "burner" then
		set_burner_colors(machine)
		machine.energy_source.effectivity = 
			(machine.energy_source.effectivity or 1)
			*(furnace_eff)
	elseif machine.burner then
		set_burner_colors(machine)
		machine.burner.effectivity = 
			(machine.burner.effectivity or 1)
			*(furnace_eff)
	end
end

-- nuclear fuel items must have their fuel_values 
-- adjusted elsewhere to compenstate for this increase
for _,reactor in pairs(data.raw.reactor) do 
	reactor.consumption	= 
		energy_mult(reactor.consumption,reactor_consump_mult)
	reactor.energy_source.effectivity = reactor_eff
	reactor.heat_buffer.max_transfer = energy_div(
		reactor.heat_buffer.max_transfer,gen_eff
		)
end

for _,panel in pairs(data.raw["solar-panel"]) do
	panel.production = 
		energy_mult(
			panel.production,
			solar_panel_eff
		)
end

for _,battery in pairs(data.raw["accumulator"]) do
	local energy_source = get_energy_source(battery)
	if energy_source then
		energy_source.input_flow_limit = 
			energy_mult(
				energy_source.input_flow_limit,
				solar_panel_eff
			)
		energy_source.output_flow_limit = 
			energy_mult(
				energy_source.output_flow_limit,
				solar_panel_eff
			)
	end	
end

-- This should only set colors on burner inserters.
for _,inserter in pairs(data.raw["inserter"]) do
	set_burner_colors(inserter)
end