mirror of
https://gitlab.com/gaelysam/mapgen_rivers.git
synced 2024-12-29 12:20:41 +01:00
167 lines
5.0 KiB
Lua
167 lines
5.0 KiB
Lua
local modpath = minetest.get_modpath(minetest.get_current_modname()) .. '/'
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local worldpath = minetest.get_worldpath() .. '/'
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local load_map = dofile(modpath .. 'load.lua')
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local function copy_if_needed(filename)
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local wfilename = worldpath..filename
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local wfile = io.open(wfilename, 'r')
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if wfile then
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wfile:close()
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return
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end
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local mfilename = modpath..filename
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local mfile = io.open(mfilename, 'r')
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local wfile = io.open(wfilename, 'w')
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wfile:write(mfile:read("*all"))
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mfile:close()
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wfile:close()
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end
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copy_if_needed('size')
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local sfile = io.open(worldpath..'size')
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local X = tonumber(sfile:read('*l'))
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local Z = tonumber(sfile:read('*l'))
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sfile:close()
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copy_if_needed('dem')
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local dem = load_map('dem', 2, true, X*Z)
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copy_if_needed('lakes')
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local lakes = load_map('lakes', 2, true, X*Z)
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copy_if_needed('bounds_x')
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local bounds_x = load_map('bounds_x', 4, false, (X-1)*Z)
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copy_if_needed('bounds_y')
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local bounds_z = load_map('bounds_y', 4, false, X*(Z-1))
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copy_if_needed('offset_x')
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local offset_x = load_map('offset_x', 1, true, X*Z)
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for k, v in ipairs(offset_x) do
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offset_x[k] = (v+0.5)/256
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end
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copy_if_needed('offset_y')
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local offset_z = load_map('offset_y', 1, true, X*Z)
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for k, v in ipairs(offset_z) do
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offset_z[k] = (v+0.5)/256
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end
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local function index(x, z)
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return z*X+x+1
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end
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local blocksize = mapgen_rivers.blocksize
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local min_catchment = mapgen_rivers.min_catchment
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local max_catchment = mapgen_rivers.max_catchment
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-- Width coefficients: coefficients solving
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-- wfactor * min_catchment ^ wpower = 1/(2*blocksize)
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-- wfactor * max_catchment ^ wpower = 1
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local wpower = math.log(2*blocksize)/math.log(max_catchment/min_catchment)
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local wfactor = 1 / max_catchment ^ wpower
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local function river_width(flow)
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flow = math.abs(flow)
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if flow < min_catchment then
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return 0
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end
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return math.min(wfactor * flow ^ wpower, 1)
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end
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local function make_polygons(minp, maxp)
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local chulens = maxp.z - minp.z + 1
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local polygons = {}
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local xpmin, xpmax = math.max(math.floor(minp.x/blocksize - 0.5), 0), math.min(math.ceil(maxp.x/blocksize), X-2)
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local zpmin, zpmax = math.max(math.floor(minp.z/blocksize - 0.5), 0), math.min(math.ceil(maxp.z/blocksize), Z-2)
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for xp = xpmin, xpmax do
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for zp=zpmin, zpmax do
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local iA = index(xp, zp)
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local iB = index(xp+1, zp)
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local iC = index(xp+1, zp+1)
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local iD = index(xp, zp+1)
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local poly_x = {offset_x[iA]+xp, offset_x[iB]+xp+1, offset_x[iC]+xp+1, offset_x[iD]+xp}
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local poly_z = {offset_z[iA]+zp, offset_z[iB]+zp, offset_z[iC]+zp+1, offset_z[iD]+zp+1}
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local polygon = {x=poly_x, z=poly_z, i={iA, iB, iC, iD}}
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local bounds = {}
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local xmin = math.max(math.floor(blocksize*math.min(unpack(poly_x)))+1, minp.x)
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local xmax = math.min(math.floor(blocksize*math.max(unpack(poly_x))), maxp.x)
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for x=xmin, xmax do
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bounds[x] = {}
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end
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local i1 = 4
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for i2=1, 4 do -- Loop on 4 edges
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local x1, x2 = poly_x[i1], poly_x[i2]
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local lxmin = math.floor(blocksize*math.min(x1, x2))+1
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local lxmax = math.floor(blocksize*math.max(x1, x2))
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if lxmin <= lxmax then
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local z1, z2 = poly_z[i1], poly_z[i2]
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local a = (z1-z2) / (x1-x2)
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local b = blocksize*(z1 - a*x1)
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for x=math.max(lxmin, minp.x), math.min(lxmax, maxp.x) do
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table.insert(bounds[x], a*x+b)
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end
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end
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i1 = i2
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end
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for x=xmin, xmax do
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local xlist = bounds[x]
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table.sort(xlist)
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local c = math.floor(#xlist/2)
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for l=1, c do
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local zmin = math.max(math.floor(xlist[l*2-1])+1, minp.z)
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local zmax = math.min(math.floor(xlist[l*2]), maxp.z)
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local i = (x-minp.x) * chulens + (zmin-minp.z) + 1
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for z=zmin, zmax do
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polygons[i] = polygon
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i = i + 1
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end
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end
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end
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polygon.dem = {dem[iA], dem[iB], dem[iC], dem[iD]}
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polygon.lake = math.min(lakes[iA], lakes[iB], lakes[iC], lakes[iD])
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local river_west = river_width(bounds_z[iA])
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local river_north = river_width(bounds_x[iA-zp])
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local river_east = 1-river_width(bounds_z[iB])
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local river_south = 1-river_width(bounds_x[iD-zp-1])
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if river_west > river_east then
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local mean = (river_west + river_east) / 2
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river_west = mean
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river_east = mean
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end
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if river_north > river_south then
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local mean = (river_north + river_south) / 2
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river_north = mean
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river_south = mean
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end
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polygon.rivers = {river_west, river_north, river_east, river_south}
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local around = {0,0,0,0,0,0,0,0}
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if zp > 0 then
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around[1] = river_width(bounds_z[iA-X])
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around[2] = river_width(bounds_z[iB-X])
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end
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if xp < X-2 then
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around[3] = river_width(bounds_x[iB-zp])
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around[4] = river_width(bounds_x[iC-zp-1])
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end
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if zp < Z-2 then
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around[5] = river_width(bounds_z[iC])
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around[6] = river_width(bounds_z[iD])
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end
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if xp > 0 then
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around[7] = river_width(bounds_x[iD-zp-2])
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around[8] = river_width(bounds_x[iA-zp-1])
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end
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polygon.river_corners = {math.max(around[8], around[1]), math.max(around[2], around[3]), math.max(around[4], around[5]), math.max(around[6], around[7])}
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end
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end
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return polygons
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end
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return make_polygons
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