mirror of
https://github.com/Refactorio/RedMew.git
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179 lines
9.4 KiB
Lua
179 lines
9.4 KiB
Lua
local perlin = require 'map_gen.shared.perlin_noise'
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local simplex = require 'map_gen.shared.simplex_noise'
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local tree_to_place = {'dry-tree', 'dry-hairy-tree', 'tree-06', 'tree-06', 'tree-01', 'tree-02', 'tree-03'}
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function run_terrain_module(event)
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if not global.terrain_seed_A then
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global.terrain_seed_A = math.random(10, 10000)
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end
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if not global.terrain_seed_B then
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global.terrain_seed_B = math.random(10, 10000)
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end
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local area = event.area
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local surface = event.surface
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local tiles = {}
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local tileswater = {}
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local entities = surface.find_entities(area)
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for _, entity in pairs(entities) do
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--if entity.type == "simple-entity" or entity.type == "resource" or entity.type == "tree" then
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if entity.type == 'simple-entity' or entity.type == 'tree' then
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--end
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entity.destroy()
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elseif (run_ores_module ~= nil and entity.type == 'resource') then
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entity.destroy()
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end
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end
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local top_left = area.left_top --make a more direct reference
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--do it only per chunk, cause cheaper than every square, and who care anyway.
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--local distance_bonus = 200 + math.sqrt(top_left.x*top_left.x + top_left.y*top_left.y) * 0.2
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--for x = 0, 31, 1 do
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-- for y = 0, 31, 1 do
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--game.print(top_left.x .."-" ..top_left.y .. " to " .. area.right_bottom.x .. "-" .. area.right_bottom.y)
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for x = top_left.x - 1, top_left.x + 32 do
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for y = top_left.y - 1, top_left.y + 32 do
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--local pos_x = top_left.x + x
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--local pos_y = top_left.y + y
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local tile = surface.get_tile(x, y)
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if tile.name ~= 'out-of-map' then
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local tile_to_insert = 'grass-3'
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local wiggle = 50 + perlin.noise((x * 0.005), (y * 0.005), global.terrain_seed_A + 71) * 60
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local terrain_A = perlin.noise((x * 0.005), (y * 0.005), global.terrain_seed_A + 19) * wiggle --For determining where water is
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local terrain_sqr = terrain_A * terrain_A --we can use this again to mess with other layers as well
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local terrain_D = 10 + perlin.noise((x * 0.001), (y * 0.001), global.terrain_seed_A + 5) * wiggle --terrain layer
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--local wiggle = 50 + Simplex.d2((x*0.005),(y*0.005),global.terrain_seed_A + 71) * 60
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--local terrain_A = Simplex.d2((x*0.005),(y*0.005),global.terrain_seed_A + 19) * wiggle --For determining where water is
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--local terrain_sqr = terrain_A * terrain_A --we can use this again to mess with other layers as well
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--local terrain_D = 10 + Simplex.d2((x*0.001),(y*0.001),global.terrain_seed_A + 5) * wiggle --terrain layer
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if terrain_sqr < 50 then --Main water areas
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--local deep = (terrain_sqr < 20) and true or false
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terrain_A = perlin.noise((x * 0.01), (y * 0.01), global.terrain_seed_A + 31) * 90 + (wiggle * -0.2) --we only gen this when we consider placing water
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--terrain_A = Simplex.d2((x*0.01),(y*0.01),global.terrain_seed_A + 31) * 90 + (wiggle * -0.2) --we only gen this when we consider placing water
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if terrain_A * terrain_A > 40 then --creates random bridges over the water by overlapping with another noise layer
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--table.insert(tileswater, {name = "water", position = {x,y}})
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--table.insert(tileswater, {name = "water", position = {x+1,y}})
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--table.insert(tileswater, {name = "water", position = {x,y+1}})
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--table.insert(tileswater, {name = "water", position = {x+1,y+1}})
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tile_to_insert = 'water'
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else
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if terrain_D >= 20 then
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tile_to_insert = 'sand-1'
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end
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end
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elseif terrain_sqr > 70 then
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wiggle = 100 + perlin.noise((x * 0.01), (y * 0.01), global.terrain_seed_B + 41) * 60
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local terrain_C = perlin.noise((x * 0.02), (y * 0.02), global.terrain_seed_A + 13) * wiggle --tree layer
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--wiggle = 100 + Simplex.d2((x*0.01),(y*0.01),global.terrain_seed_B + 41) * 60
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--local terrain_C = Simplex.d2((x*0.02),(y*0.02),global.terrain_seed_A + 13) * wiggle --tree layer
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--if surface.can_place_entity {name="stone", position={x,y}} then
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-- surface.create_entity {name="stone", position={x,y}, amount=math.floor(terrain_sqr)}
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--end
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if run_ores_module ~= nil then
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run_ores_module_setup()
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if x > top_left.x - 1 and x < top_left.x + 32 and y > top_left.y - 1 and y < top_left.y + 32 then
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run_ores_module_tile(surface, x, y)
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end
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end
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--if terrain_B > 35 then --we place ores
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-- local a = 5
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--
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-- if terrain_B < 76 then a = math.floor(terrain_B*0.75 + terrain_C*0.5) % 4 + 1 end --if its not super high we place normal ores
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--
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-- local res_amount = distance_bonus + terrain_sqr * 0.1
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-- res_amount = math.floor(res_amount * random_dense[a])
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--
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-- if surface.can_place_entity {name=random_ores[a], position={pos_x,pos_y}} then
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-- surface.create_entity {name=random_ores[a], position={pos_x,pos_y}, amount=res_amount}
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-- end
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--end
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--wiggle = 100 + perlin.noise((pos_x*0.02),(pos_y*0.02),global.terrain_seed_B + 71) * 60
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if terrain_D < 20 then
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if terrain_C < 4 then --we set grass-1 around near forest areas
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tile_to_insert = 'grass-1'
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if terrain_C < -20 and math.random(1, 3) == 1 then --dense trees
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local treenum = math.random(3, 7)
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if surface.can_place_entity {name = tree_to_place[treenum], position = {x, y}} then
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surface.create_entity {name = tree_to_place[treenum], position = {x, y}}
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end
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else
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if terrain_C < 0 and math.random(1, 7) == 1 then --less dense trees
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local treenum = math.random(3, 5)
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if surface.can_place_entity {name = tree_to_place[treenum], position = {x, y}} then
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surface.create_entity {name = tree_to_place[treenum], position = {x, y}}
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end
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end
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end
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end
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else
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if terrain_D < 30 then
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tile_to_insert = 'sand-1'
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if terrain_C < -20 and math.random(1, 7) == 1 then --dense trees
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local treenum = math.random(1, 3)
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if surface.can_place_entity {name = tree_to_place[treenum], position = {x, y}} then
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surface.create_entity {name = tree_to_place[treenum], position = {x, y}}
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end
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elseif terrain_C < 0 and math.random(1, 13) == 1 then --less dense trees
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local treenum = math.random(1, 2)
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if surface.can_place_entity {name = tree_to_place[treenum], position = {x, y}} then
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surface.create_entity {name = tree_to_place[treenum], position = {x, y}}
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end
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end
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else
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--if terrain_C > 40 and math.random(1,200) == 1 and surface.can_place_entity {name="crude-oil", position={pos_x,pos_y}} then
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-- surface.create_entity {name="crude-oil", position={pos_x,pos_y}, amount = math.random(20000,60000) +distance_bonus* 2000 }
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--end
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tile_to_insert = 'sand-3'
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end
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end
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if
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math.floor(terrain_D) % 5 == 1 and math.random(1, 70) == 1 and
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surface.can_place_entity {name = 'rock-big', position = {x, y}}
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then
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surface.create_entity {name = 'rock-big', position = {x, y}}
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end
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else
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if terrain_D >= 20 then
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if terrain_D < 30 then
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tile_to_insert = 'sand-1'
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else
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tile_to_insert = 'sand-3'
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end
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end
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end
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--if tile_to_insert == "water" then
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--table.insert(tileswater, {name = tile_to_insert, position = {x,y}})
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--else
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table.insert(tiles, {name = tile_to_insert, position = {x, y}})
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--end
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end
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end
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end
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--game.print("break end")
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--game.print(lowest .. " to " .. highest)
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surface.set_tiles(tiles, true)
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--surface.set_tiles(tileswater,true)
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end
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