adamo-chemical/data-final-fixes.lua

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require("factsheet")
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--adamo.opts.debugging = true
--adamo.opts.logging = true
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local binding_time_mult = 1
local binding_prod_mult = 5
local separation_time_mult = 1/2
local separation_prod_mult = 2
local vapor_time_mult = 2
local vapor_prod_mult = 5
local screening_efficiency = 0.5
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chem_category_list = {
"crafting-with-fluid",
"chemistry",
"drugs",
"drugs-et-et",
"drugs-to-et",
"drugs-et-to",
"drugs-to-to",
"drugs-tre-tre",
"agitation",
"advanced-agitation",
"drugged-science",
"gold-mining",
"super-gold-mining"
}
function is_chem_category(category)
if type(category) ~= "string" then return false end
for _,category_name in pairs(chem_category_list) do
if category == category_name then return true end
end
return false
end
smelting_category_list = {
"smelting"
}
function is_smelting_category(category)
if type(category) ~= "string" then return false end
for _,category_name in pairs(smelting_category_list) do
if category == category_name then return true end
end
return false
end
manufacturing_names = {
"steel-plate",
"belt",
"inserter",
"rounds",
"barrel"
}
manufacturing_subgroups = {
"intermediate-product",
"science-pack",
}
catalyst_names = {
"iron-plate",
"copper-plate",
}
function manufacturing_needed_for(ingredient)
local itemname = ingredient
if type(itemname) == "table" then
itemname = ingredient.name or ingredient[1]
end
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for _,matchname in pairs(manufacturing_names) do
if itemname:match(matchname)
or itemname == matchname then
return true
end
end
if type(data.raw.item[itemname]) == "table" then
if data.raw.item[itemname].normal
or data.raw.item[itemname].expensive then
for _,subgroup in pairs(manufacturing_subgroups) do
if (
data.raw.item[itemname].normal.subgroup
or data.raw.item[itemname].expensive.subgroup
) == subgroup then
return true
end
end
end
for _,subgroup in pairs(manufacturing_subgroups) do
if data.raw.item[itemname].subgroup == subgroup then
return true
end
end
end
return false
end
function is_plate(io_type)
local io_type = io_prototype_or_bust(io_type)
if not io_type then return end
return (io_type.name or io_type[1]):match("plate")
end
function is_catalyst(io_type)
local io_type = io_prototype_or_bust(io_type)
if not io_type then return end
if io_type.catalyst_amount then
if io_type.catalyst_amount > 0 then
return true
else
return false
end
end
local itemname = io_type.name or io_type[1]
for _,matchname in pairs(catalyst_names) do
if itemname:match(matchname)
or itemname == matchname then
return true
end
end
return false
end
function chemical_category(
name,
solid_input_count,
solid_output_count,
fluid_input_count,
fluid_output_count,
catalyst_inputs,
catalyst_outputs,
takes_water,
outputs_water,
uses_carbonation
)
local solid_output_count = solid_output_count - catalyst_outputs
local solid_input_count = solid_input_count - catalyst_inputs
if uses_carbonation then
solid_input_count = solid_input_count - 1
end
if fluid_input_count == 0
and fluid_output_count == 0 then
if solid_input_count < solid_output_count then
return "adamo-chemical-separation"
elseif solid_input_count == solid_output_count then
return "adamo-chemical-manufacturing"
elseif solid_output_count == 1
and solid_input_count > 1 then
return "adamo-chemical-firing"
else
return "adamo-chemical-manufacturing"
end
end
if solid_output_count == 0
and solid_input_count == 0 then
return "adamo-chemical-vaporworks"
end
-- from this point everything has fluids and solids
if takes_water
and fluid_input_count == 1
and solid_input_count == 0
then
return "adamo-chemical-vaporworks"
end
if solid_input_count > solid_output_count
and fluid_input_count > 0
and fluid_output_count > 0
and fluid_input_count >= solid_input_count
then
return "adamo-chemical-disassociation"
end
if takes_water then
fluid_input_count = fluid_input_count - 1
end
-- water is incidental for these
if fluid_input_count == 0
and fluid_output_count == 0 then
if solid_input_count < solid_output_count then
return "adamo-chemical-separation"
end
end
if solid_input_count == solid_output_count then
if fluid_input_count < fluid_output_count then
return "adamo-chemical-recovery"
elseif fluid_input_count == fluid_output_count then
if fluid_input_count > 0 then
return "adamo-chemical-displacement"
end
return "adamo-chemical-binding"
elseif fluid_input_count > fluid_output_count then
return "adamo-chemical-activation"
end
end
if takes_water then
fluid_input_count = fluid_input_count + 1
end
if fluid_input_count > 0
--and fluid_output_count >= 0 implied
and solid_output_count > 0
and solid_output_count < (fluid_output_count + 2)
then
if solid_input_count < solid_output_count
or (
(
solid_input_count
- fluid_input_count
+ fluid_output_count
) < solid_output_count
) then
return "adamo-chemical-deposition"
end
if solid_input_count > solid_output_count
and fluid_output_count == 0 then
return "adamo-chemical-binding"
end
end
return "adamo-chemical-manufacturing"
end
-- Calcination smelting should give back some resources.
-- at time_mult 5 and 150kW, ~10-25 ore_mult is the range
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-- between stone and steel furnace power use
local ore_mult = 1/adamo.geo.ore.impurity_ratio
local time_mult = ore_mult/5
local flux_name = "adamo-chemical-calcite"
local clinker_name = "adamo-chemical-clinker"
local fluxxing_category = "adamo-chemical-firing"
local fluxxing_subgroup = fluxxing_category
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local calcinate_recipe = function(recipe,mult)
local recipe = recipe_or_bust(recipe)
if not recipe then return nil end
if type(mult) ~= "number"
or mult <= 0 then mult = ore_mult end
local flux_recipe = util.table.deepcopy(recipe)
flux_recipe.name = flux_recipe.name.."-calcined"
mult_recipe_energy(flux_recipe,time_mult/ore_mult*mult)
set_main_product(flux_recipe,get_main_result(flux_recipe))
mult_in_recipe(flux_recipe,mult)
flux_recipe.category = fluxxing_category
flux_recipe.subgroup = fluxxing_subgroup
local ore_count = 0
for ore,plate in pairs(adamo.chem.fluxables) do
if uses_ingredient(flux_recipe,plate) then
io_manip(flux_recipe,plate,ore)
end
local x,this_ore_count,x =
get_ingredient(flux_recipe,ore)
ore_count = ore_count + (this_ore_count or 0)
-- Adds extra ore to account for impurities.
--if this_ore_count > 0 then
-- add_ingredient(
-- flux_recipe,
-- ore,
-- ore_count/ore_mult
-- )
--end
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end
if ore_count == 0 then
if uses_ingredient(flux_recipe,"stone") then
x,stone_count,x = get_ingredient(flux_recipe,"stone")
io_manip(flux_recipe,"stone",clinker_name,1/2)
local flux_count = math.ceil(stone_count/2)
add_ingredient(flux_recipe,flux_name,flux_count)
return flux_recipe
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else
return nil
end
end
local flux_count = math.ceil(ore_count/ore_mult)
local clinker_count = flux_count
local mineral_count = flux_count
local clinker_prob = 1/adamo.chem.ratio.lime_per_clinker
add_ingredient(flux_recipe,flux_name,flux_count)
add_result(flux_recipe,clinker_name,clinker_count,clinker_prob)
for chemical,abundance in pairs(adamo.geo.ore.mineral_results) do
if data.raw.item[chemical] then
add_result(
flux_recipe,
chemical,
mineral_count,
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abundance
)
end
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end
return flux_recipe
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end
-- Generate chemical engineering recipes.
-- Should be able to use hydrofluoric acid to clean chips, make batteries, do science.
local processing_unit_from_hf_recipe =
util.table.deepcopy(data.raw.recipe["processing-unit"])
processing_unit_from_hf_recipe.name = "adamo-chemical-processing-unit"
for _,ingredient in pairs(processing_unit_from_hf_recipe.normal.ingredients) do
if ingredient.type and ingredient.name == "sulfuric-acid" then
ingredient.name = "adamo-chemical-hydrofluoric-acid"
end
end
for _,ingredient in pairs(processing_unit_from_hf_recipe.expensive.ingredients) do
if ingredient.type and ingredient.name == "sulfuric-acid" then
ingredient.name = "adamo-chemical-hydrofluoric-acid"
end
end
local fluoride_battery_recipe =
util.table.deepcopy(data.raw.recipe["battery"])
fluoride_battery_recipe.name =
"adamo-chemical-fluoride-battery"
fluoride_battery_recipe.normal.result_count = 1
fluoride_battery_recipe.normal.ingredients = {{
"copper-plate",1
},{
"iron-plate", 1
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},{
"adamo-chemical-calcite",1
},{
"solid-fuel",1
},{
name = "adamo-chemical-hydrofluoric-acid",
type = "fluid",
amount = 10
}}
fluoride_battery_recipe.expensive.result_count = 1
fluoride_battery_recipe.expensive.ingredients = {{
"copper-plate",2
},{
"iron-plate", 2
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},{
"adamo-chemical-calcite",2
},{
"solid-fuel",2
},{
name = "adamo-chemical-hydrofluoric-acid",
type = "fluid",
amount = 20
}}
local fluorite_science_pack = util.table.deepcopy(
data.raw.recipe["chemical-science-pack"]
)
fluorite_science_pack.name = "chemical-science-pack-from-fluorite"
fluorite_science_pack.category = "advanced-crafting"
fluorite_science_pack.category = "crafting-with-fluid"
fluorite_science_pack.category = "chemistry"
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mult_recipe_energy(fluorite_science_pack,1/2)
replace_in_recipe(
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fluorite_science_pack,
"sulfur",
"adamo-chemical-hydrofluoric-acid",
10
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)
mult_in_recipe(
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fluorite_science_pack,
1.5,
"chemical-science-pack"
)
mult_in_recipe(
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fluorite_science_pack,
1.5,
"engine-unit"
)
adamo.recipe.tint.apply(fluorite_science_pack)
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data:extend({
processing_unit_from_hf_recipe,
fluoride_battery_recipe,
fluorite_science_pack
})
adamo.tech.add.recipe(
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"advanced-electronics-2",
processing_unit_from_hf_recipe.name
)
adamo.tech.add.recipes(
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"adamo-chemical-fluorine-processing",
{
fluoride_battery_recipe.name,
fluorite_science_pack.name
}
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)
adamo.recipes.set.productivity({
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fluoride_battery_recipe.name,
processing_unit_from_hf_recipe.name,
fluorite_science_pack.name
})
-- Now make copies of everything.
for _,recipe in pairs(data.raw.recipe) do
local category = get_recipe_category(recipe)
local main_result = get_main_result(recipe)
local new_category
local solid_input_count = 0
local fluid_input_count = 0
local solid_output_count = 0
local fluid_output_count = 0
local uses_plates = false
local catalyst_inputs = 0
local catalyst_outputs = 0
local takes_water = false
local outputs_water = false
local uses_carbonation = false
local uses_manufacturing = false
if is_smelting_category(category)
and has_ingredients(recipe) and has_results(recipe) then
local calcined_recipe = calcinate_recipe(recipe)
if calcined_recipe then
adamo.recipe.mirror.techs(recipe,calcined_recipe)
if adamo.recipe.test.productivity(recipe) then
adamo.recipe.set.productivity(calcined_recipe)
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end
data:extend({calcined_recipe})
end
end
if is_chem_category(category)
and has_ingredients(recipe) and has_results(recipe) then
local plate_count = 0
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for k,ingredient
in pairs(
recipe.ingredients
or recipe.expensive.ingredients
or recipe.normal.ingredients
) do
if ingredient.type ~= "fluid" then
if manufacturing_needed_for(ingredient) then
uses_manufacturing = true
end
if is_plate(ingredient) then
plate_count = plate_count + 1
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end
if is_catalyst(ingredient) then
catalyst_inputs = catalyst_inputs + 1
end
if (ingredient.name or ingredient[1])
== "solid-fuel" then
uses_carbonation = true
end
solid_input_count = solid_input_count + 1
elseif ingredient.name == "water" then
takes_water = true
fluid_input_count = fluid_input_count + 1
else
fluid_input_count = fluid_input_count + 1
end
end
if plate_count > 1 then uses_manufacturing = true end
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if type(recipe.results) == "table"
or (
recipe.expensive
and type(recipe.expensive.results) == "table"
) or (
recipe.normal
and type(recipe.normal.results) == "table"
) then
for k,result
in pairs(
recipe.results
or recipe.expensive.results
or recipe.normal.results
) do
if result.type ~= "fluid" then
solid_output_count = solid_output_count + 1
if is_catalyst(result) then
catalyst_outputs = catalyst_outputs + 1
end
else
if result.name == "water" then
outputs_water = true
end
fluid_output_count = fluid_output_count + 1
end
end
elseif recipe.result then
solid_output_count = 1
elseif recipe.normal.result then
solid_output_count = 1
elseif recipe.expensive.result then
solid_output_count = 1
end
-- Assign new recipe type.
if uses_manufacturing then
new_category = "adamo-chemical-manufacturing"
elseif 2*catalyst_inputs
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> (fluid_input_count + solid_input_count) then
new_category = "adamo-chemical-manufacturing"
else
new_category = chemical_category(
recipe.name,
solid_input_count,
solid_output_count,
fluid_input_count,
fluid_output_count,
catalyst_inputs,
catalyst_outputs,
takes_water,
outputs_water,
uses_carbonation
)
if new_category == "adamo-chemical-binding"
and not adamochemical.mixer then
new_category = "adamo-chemical-manufacturing"
end
end
if not (
new_category == "adamo-chemical-manufacturing"
and category == "crafting-with-fluid"
) then
local new_recipe = util.table.deepcopy(recipe)
format_ingredients(new_recipe)
format_results(new_recipe)
new_recipe.name = "adamo-cc-"..recipe.name
if main_result then
set_main_product(new_recipe,main_result)
end
new_recipe.category = new_category
new_recipe.subgroup = new_category
if new_category == "adamo-chemical-binding" then
mult_recipe_energy(new_recipe,binding_time_mult)
mult_in_recipe(new_recipe,binding_prod_mult)
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elseif new_category == "adamo-chemical-separation" then
mult_recipe_energy(new_recipe,separation_time_mult)
mult_in_recipe(new_recipe,separation_prod_mult)
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elseif new_category == "adamo-chemical-vaporworks" then
mult_recipe_energy(new_recipe,vapor_time_mult)
mult_in_recipe(new_recipe,vapor_prod_mult)
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end
adamo.recipe.tint.apply(new_recipe)
if new_recipe.normal then
new_recipe.normal.always_show_products = true
new_recipe.normal.show_amount_in_title = false
if new_recipe.expensive then
new_recipe.expensive.always_show_products = true
new_recipe.expensive.show_amount_in_title = false
end
else
new_recipe.always_show_products = true
new_recipe.show_amount_in_title = false
end
new_recipe.localised_name = string.gsub(new_category,"adamo%-chemical%-","Chemical ")
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data:extend({new_recipe})
if adamo.recipe.test.productivity(recipe) then
adamo.recipe.set.productivity(new_recipe)
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end
adamo.recipe.mirror.techs(recipe,new_recipe)
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end
end
end
-- Screeners should screen.
if data.raw["recipe-category"]["screening"] then
for _,recipe in pairs(data.raw.recipe) do
if recipe.category == "adamo-chemical-separation" then
local screen_recipe =
util.table.deepcopy(recipe)
screen_recipe.name =
screen_recipe.name
.."-by-screening"
screen_recipe.category = "screening"
screen_recipe.hide_from_player_crafting = true
screen_recipe.order = screen_recipe.order
if uses_ingredient(screen_recipe,"water") then
remove_ingredient(screen_recipe,"water")
for _,ingred_name in pairs(
get_io_names(screen_recipe)
) do
mult_in_recipe(
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screen_recipe,
1/screening_efficiency,
ingred_name
)
mult_in_recipe(
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screen_recipe,
separation_time_mult
)
mult_recipe_energy(
screen_recipe,
separation_time_mult
)
end
end
data:extend({screen_recipe})
adamo.recipe.mirror.techs(recipe,screen_recipe)
if adamo.recipe.test.productivity(recipe) then
adamo.recipe.set.productivity(screen_recipe)
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end
end
end
end