mirror of
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147 lines
3.3 KiB
Lua
147 lines
3.3 KiB
Lua
--[[
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set type with appropriate operations
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]]
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local path = (...):gsub("set", "")
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local class = require(path .. "class")
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local table = require(path .. "tablex") --shadow global table module
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local set = class()
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--construct a new set
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--elements is an optional ordered table of elements to be added to the set
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function set:new(elements)
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self = self:init({
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_keyed = {},
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_ordered = {},
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})
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if elements then
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for _, v in ipairs(elements) do
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self:add(v)
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end
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end
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return self
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end
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--check if an element is present in the set
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function set:has(v)
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return self._keyed[v] or false
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end
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--add a value to the set, if it's not already present
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function set:add(v)
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if not self:has(v) then
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self._keyed[v] = true
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table.insert(self._ordered, v)
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end
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return self
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end
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--remove a value from the set, if it's present
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function set:remove(v)
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if self:has(v) then
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self._keyed[v] = nil
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table.remove_value(self._ordered, v)
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end
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return self
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end
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--iterate the values in the set, along with their index
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--the index is useless but harmless, and adding a custom iterator seems
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--like a really easy way to encourage people to use slower-than-optimal code
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function set:ipairs()
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return ipairs(self._ordered)
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end
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--get a copy of the values in the set, as a simple table
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function set:values()
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return table.copy(self._ordered)
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end
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--get a direct reference to the internal list of values in the set
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--do NOT modify the result, or you'll break the set!
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--for read-only access it avoids a needless table copy
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--(eg this is sensible to pass to functional apis)
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function set:values_readonly()
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return self._ordered
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end
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--modifying operations
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--add all the elements present in the other set
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function set:add_set(other)
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for i, v in other:ipairs() do
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self:add(v)
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end
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return self
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end
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--remove all the elements present in the other set
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function set:subtract_set(other)
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for i, v in other:ipairs() do
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self:remove(v)
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end
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return self
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end
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--new collection operations
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--copy a set
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function set:copy()
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return set:new():add_set(self)
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end
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--create a new set containing the complement of the other set contained in this one
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--the elements present in this set but not present in the other set will remain in the result
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function set:complement(other)
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return self:copy():subtract_set(other)
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end
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--alias
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set.difference = set.complement
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--create a new set containing the union of this set with another
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--an element present in either set will be present in the result
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function set:union(other)
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return self:copy():add_set(other)
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end
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--create a new set containing the intersection of this set with another
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--only the elements present in both sets will remain in the result
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function set:intersection(other)
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local r = set:new()
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for i, v in self:ipairs() do
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if other:has(v) then
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r:add(v)
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end
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end
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return r
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end
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--create a new set containing the symmetric difference of this set with another
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--only the elements not present in both sets will remain in the result
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--similiar to a logical XOR operation
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--
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--equal to self:union(other):subtract_set(self:intersection(other))
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-- but with much less wasted effort
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function set:symmetric_difference(other)
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local r = set:new()
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for i, v in self:ipairs() do
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if not other:has(v) then
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r:add(v)
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end
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end
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for i, v in other:ipairs() do
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if not self:has(v) then
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r:add(v)
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end
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end
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return r
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end
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--alias
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set.xor = set.symmetric_difference
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--
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return set
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