Module:FunList/Iterators
From Melvor Idle
Documentation for this module may be created at Module:FunList/Iterators/doc
-- Helper Functions --
local function isType(obj, class)
local mt = getmetatable(obj)
while mt do
if mt == class then
return true
end
mt = getmetatable(mt)
end
return false
end
-- BASE ENUMERATOR CLASS --
--enumerable = {}
local Enumerator = {}
local Enumerator_mt = {
__index = Enumerator,
__pairs = function(t) return t:overridePairs() end,
__ipairs = function(t) return t:overridePairs(0) end
}
function Enumerator.new()
local self = setmetatable({}, Enumerator_mt)
self.current = nil
self.index = nil
-- Assume by default we are not dealing with a simple array
self.isArray = false
return self
end
function Enumerator:moveNext()
error('Not implemented in base class.')
end
function Enumerator:getEnumerator(isArray)
error('Not implemented in base class.')
end
-- Hooks the moveNext function into the Lua 'pairs' function
function Enumerator:overridePairs(startIndex)
-- Get or create clean enumerator. This ensures the state is 0.
local enum = self:getEnumerator(startIndex == 0)
enum.current = nil
enum.index = startIndex
local function iterator(t, k)
if enum:moveNext() == true then
return enum.index, enum.current
end
return nil, nil
end
return iterator, enum, enum.index
end
-- TABLE ENUMERATOR CLASS --
-- This is essentially a wrapper for the table object,
-- since it provides no state machine esque iteration out of the box
local TableEnumerator = setmetatable({}, { __index = Enumerator })
TableEnumerator.__index = TableEnumerator
TableEnumerator.__pairs = Enumerator_mt.__pairs
TableEnumerator.__ipairs = Enumerator_mt.__ipairs
function TableEnumerator.new(tbl)
local self = setmetatable(Enumerator.new(), TableEnumerator)
self.tbl = tbl or {} -- Allow creation of empty enumerable
self.state = 0
return self
end
function TableEnumerator:moveNext()
if self.state == 0 then
self.state = 1
end
if self.isArray == true then
-- Iterate using ipairs, starting from index 1
self.index = self.index + 1
self.current = self.tbl[self.index]
return self.current ~= nil
else
-- Iterate using pairs
local key = self.index
key = next(self.tbl, key)
self.index = key
if key ~= nil then
self.current = self.tbl[key]
return true
end
end
return false
end
-- startIndex is used to determine if the underlying table should be treated
-- as an array or as a mixed table. It is ignored in the other enumerators as
-- they just call moveNext on the enumerator instead.
function TableEnumerator:getEnumerator(isArray)
local instance = nil
if self.state == 0 then
instance = self
else
instance = TableEnumerator.new(self.tbl)
end
instance.isArray = isArray
return instance
end
-- SELECT ENUMERATOR --
local SelectEnumerator = setmetatable({}, { __index = Enumerator })
SelectEnumerator.__index = SelectEnumerator
SelectEnumerator.__pairs = Enumerator_mt.__pairs
SelectEnumerator.__ipairs = Enumerator_mt.__ipairs
function SelectEnumerator.new(source, selector)
local self = setmetatable(Enumerator.new(), SelectEnumerator)
self.state = 0
self.source = source
self.selector = selector
self.enumerator = nil
self.position = 0
return self
end
function SelectEnumerator:moveNext()
if self.state == 0 then
self.state = 1
self.position = 0
self.enumerator = self.source:getEnumerator(self.isArray)
end
if self.state == 1 then
local enumerator = self.enumerator
if enumerator:moveNext() == true then
local sourceElement = enumerator.current
self.index = enumerator.index -- Preserve index
self.position = self.position + 1
self.current = self.selector(sourceElement, self.position)
assert(self.current, 'Selected value must be non-nil')
return true
end
end
return false
end
function SelectEnumerator:getEnumerator()
if self.state == 0 then
return self
else
return SelectEnumerator.new(self.source, self.selector)
end
end
-- WHERE ENUMERATOR --
local WhereEnumerator = setmetatable({}, { __index = Enumerator })
WhereEnumerator.__index = WhereEnumerator
WhereEnumerator.__pairs = Enumerator_mt.__pairs
WhereEnumerator.__ipairs = Enumerator_mt.__ipairs
function WhereEnumerator.new(source, predicate)
local self = setmetatable(Enumerator.new(), WhereEnumerator)
self.state = 0
self.source = source
self.predicate = predicate
self.enumerator = nil
return self
end
function WhereEnumerator:moveNext()
if self.state == 0 then
self.state = 1
self.position = 0
self.enumerator = self.source:getEnumerator(self.isArray)
end
if self.state == 1 then
local enumerator = self.enumerator
while enumerator:moveNext() == true do
local sourceElement = enumerator.current
if self.predicate(sourceElement) == true then
self.index = enumerator.index
self.current = sourceElement
return true
end
end
end
return false
end
function WhereEnumerator:getEnumerator()
if self.state == 0 then
return self
else
return WhereEnumerator.new(self.source, self.predicate)
end
end
-- WHERE ENUMERATOR --
local SelectManyEnumerator = setmetatable({}, { __index = Enumerator })
SelectManyEnumerator.__index = SelectManyEnumerator
SelectManyEnumerator.__pairs = Enumerator_mt.__pairs
SelectManyEnumerator.__ipairs = Enumerator_mt.__ipairs
function SelectManyEnumerator.new(source, selector)
local self = setmetatable(Enumerator.new(), SelectManyEnumerator)
self.state = 0
self.source = source
self.selector = selector
self.position = 0
self.enumerator = nil -- Enumerator of the source Enumerable
self.sourceEnumerator = nil -- Enumerator of the nested Enumerable
return self
end
function SelectManyEnumerator:moveNext()
while true do
-- Setup state
if self.state == 0 then
self.position = 0
self.enumerator = self.source:getEnumerator(self.isArray)
self.state = -3 -- signal to get (first) nested enumerator
end
-- Grab next value from nested enumerator
if self.state == -4 then
if self.sourceEnumerator:moveNext() then
self.current = self.sourceEnumerator.current
self.index = self.sourceEnumerator.index
self.state = -4 -- signal to get next item
return true
else
self.state = -3 -- signal to get next enumerator
end
end
-- Grab nest nested enumerator
if self.state == -3 then
if self.enumerator:moveNext() then
local current = self.enumerator.current
self.position = self.position + 1
local sourceTable = self.selector(current, self.position)
if not isType(sourceTable, Enumerator) then
-- We need to turn the nested table into an enumerator
self.sourceEnumerator = TableEnumerator.new(sourceTable)
:getEnumerator(self.isArray)
else
self.sourceEnumerator = sourceTable
end
self.state = -4 -- signal to get next item
else
-- enumerator doesn't have any more nested enumerators.
return false
end
end
end
end
function SelectManyEnumerator:getEnumerator()
if self.state == 0 then
return self
else
return SelectManyEnumerator.new(self.source, self.predicate)
end
end
return {
Enumerator = Enumerator,
TableEnumerator = TableEnumerator,
SelectEnumerator = SelectEnumerator,
WhereEnumerator = WhereEnumerator,
SelectManyEnumerator = SelectManyEnumerator
}