Module:FunList: Difference between revisions

From Melvor Idle
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(Define metatable outside of ctor)
 
(24 intermediate revisions by the same user not shown)
Line 1: Line 1:
local funlist = {}
local funlist = {}
funlist.__index = funlist
local funlist_mt = {
__index = funlist,
__pairs = function(t) return pairs(t.mytable) end,
__ipairs = function(t) return ipairs(t.mytable) end
}


-- Constructor
-- Constructor
function funlist.new(tbl)
function funlist.new(tbl)
     assert(type(tbl) == 'table')
     assert(type(tbl) == 'table', 'Value must be a non-nil table.')
    assert(tbl ~= nil)
 
local self = setmetatable({}, funlist_mt)
    local self = setmetatable({}, funlist)
   
self.mytable = tbl
self.mytable = tbl
self.sortSelectors = {}
return self
return self
end
end
Line 105: Line 110:


-- Returns the first element of a sequence.
-- Returns the first element of a sequence.
function funlist:first()
function funlist:first(predicate)
for _, v in pairs(self.mytable) do
if predicate then
return v
for _, v in pairs(self.mytable) do
if predicate(v) == true then
return v
end
end
else
for _, v in pairs(self.mytable) do
return v
end
end
end
error('No items in sequence.')
error('No items in sequence.')
Line 113: Line 126:


-- Returns the first element of a sequence, or a default value if no element is found.
-- Returns the first element of a sequence, or a default value if no element is found.
function funlist:firstOrDefault(defaultItem)
function funlist:firstOrDefault(predicate, defaultItem)
for _, v in pairs(self.mytable) do
if predicate then
return v
for _, v in pairs(self.mytable) do
if predicate(v) == true then
return v
end
end
else
for _, v in pairs(self.mytable) do
return v
end
end
end
return defaultItem
return defaultItem
Line 194: Line 215:
end
end


-- Sorts the internal table by default Lua sorting behaviour
-- Unless specific sorting is requested.
function funlist:sort()
function funlist:sort()
table.sort(self.mytable)
function hasSortData()
for _, _ in pairs(self.sortSelectors) do
return true
end
end
if hasSortData() == true then
self:executeSort()
else
table.sort(self.mytable)
end
return self
return self
end
end
Line 204: Line 237:
end
end


function funlist:sortBy(selector)
function funlist:executeSort()
assert(selector)
local sortFunc = function(left, right)
local sortFunc = function(left, right)
return selector(left) < selector(right)
for _, sortMeta in pairs(self.sortSelectors) do
local selector = sortMeta.selector
local sortAscending = sortMeta.ascending
local leftVal = selector(left)
local rightVal = selector(right)
if leftVal ~= rightVal then
if sortAscending then
return leftVal < rightVal
else
return leftVal > rightVal
end
end
end
end
end
table.sort(self.mytable, sortFunc)
table.sort(self.mytable, sortFunc)
self.sortSelectors = {}
return self
end
-- Adds a sort condition
function funlist:sortBy(selector)
assert(selector)
table.insert(self.sortSelectors, {
selector = selector,
ascending = true
})
return self
return self
end
end
Line 215: Line 272:
function funlist:sortByDecending(selector)
function funlist:sortByDecending(selector)
assert(selector)
assert(selector)
local sortFunc = function(left, right)
table.insert(self.sortSelectors, {
return selector(left) > selector(right)
selector = selector,
end
ascending = false
table.sort(self.mytable, sortFunc)
})
return self
return self
end
 
function funlist:thenBy(selector)
return self:sortBy(selector)
end
 
function funlist:thenByDecending(selector)
return self:sortByDecending(selector)
end
end


Line 242: Line 307:
local tbl = selector(item)
local tbl = selector(item)
-- Resulting object must be a table here!
-- Resulting object must be a table here!
assert(typeof(tbl) == 'table')
assert(type(tbl) == 'table')
for _, value in pairs(tbl) do
for _, value in pairs(tbl) do
Line 248: Line 313:
end
end
end
end
self.mytable = result
return self
end
end


Line 269: Line 336:
local dict = {}
local dict = {}
for _, item in pairs(self.mytable) do
for _, item in pairs(self.mytable) do
local key = keyselector(item)
local key = keySelector(item)
local val = valueSelector(item)
local val = valueSelector(item)
if dict[key] then
error('Duplicate key error.')
end
dict[key] = val
dict[key] = val
end
return dict
end
function funlist:distinct()
local hashSet = {}
local uniques = {}
-- Filter out unique values.
for _, v in pairs(self.mytable) do
if not hashSet[v] then
hashSet[v] = true
table.insert(uniques, v)
end
end
end
-- Create and return a new FL so we can chain more functions if needed.
self.mytable = uniques
local newFL = funlist.new(dict)
return self
return newFL
end
end


function funlist:toLookup()
function funlist:distinctBy(selector)
assert(selector)
local hashSet = {}
local uniques = {}
-- Filter out unique values.
for _, item in pairs(self.mytable) do
local v = selector(item)
if not hashSet[v] then
hashSet[v] = true
table.insert(uniques, item)
end
end
self.mytable = uniques
return self
end
 
function funlist:groupBy(keySelector, valueSelector)
assert(keySelector)
local lookup = {}
 
-- Filter out unique values.
for _, item in pairs(self.mytable) do
local key = keySelector(item)
local value = valueSelector and valueSelector(item) or item
 
if not lookup[key] then
lookup[key] = {}
end
 
table.insert(lookup[key], value)
end
self.mytable = lookup
return self
end
end


function funlist:getTable()
function funlist:toTable()
return self.mytable
return self.mytable
end
end

Latest revision as of 15:51, 20 July 2024

Documentation for this module may be created at Module:FunList/doc 

local funlist = {}
local funlist_mt = {
	__index = funlist,
	__pairs = function(t) return pairs(t.mytable) end,
	__ipairs = function(t) return ipairs(t.mytable) end
}

-- Constructor
function funlist.new(tbl)
    assert(type(tbl) == 'table', 'Value must be a non-nil table.')
	
	local self = setmetatable({}, funlist_mt)
    
	self.mytable = tbl
	self.sortSelectors = {}
	return self
end

-- Private functions.
local function getElementAtIndex(tbl, index)
	assert(tonumber(index))
	local ix = tonumber(index)
	local i = 0
	if ix >= 0 then
		for _, v in pairs(tbl) do
			i = i + 1
			if i == ix then
				return true, v
			end
		end
	end
	
	return false, nil
end

-- Public functions
-- Determines whether all elements of a sequence satisfy a condition.
function funlist:all(predicate)
	assert(predicate)
	for _, v in pairs(self.mytable) do
		if predicate(v) == false then
			return false
		end
	end
	return true	
end

-- Determines whether any element of a sequence exists or satisfies a condition.
function funlist:any(predicate)
	if predicate then
		for _, v in pairs(self.mytable) do
			if predicate(v) == true then
				return true
			end
		end
	else
		for _, _ in pairs(self.mytable) do
			return true
		end
	end
	return false
end

-- Appends a value to the end of the sequence.
function funlist:append(item)
	assert(item)
	table.insert(self.mytable, item)
	
	return self
end

-- Determines whether a sequence contains a specified element.
function funlist:contains(item)
	assert(item)
	for _, v in pairs(self.mytable) do
		if self:isEqual(v, item) == true then
			return true
		end
	end
	return false
end

-- Returns the number of elements in a sequence.
function funlist:count()
	local count = 0
	for _, _ in pairs(self.mytable) do
		count = count + 1
	end
	return count
end

-- Returns the element at a specified index in a sequence.
function funlist:itemAt(index)
	local found, item = getElementAtIndex(self.mytable, index)
	if found == true then
		return item
	end
	
	error('Index out of range')
end

-- Returns the element at a specified index in a sequence or a default value if the index is out of range.
function funlist:itemAtOrDefault(index, defaultItem)
	local found, item = getElementAtIndex(self.mytable, index)
	if found == true then
		return item
	end
	return defaultItem
end

-- Returns the first element of a sequence.
function funlist:first(predicate)
	if predicate then
		for _, v in pairs(self.mytable) do
			if predicate(v) == true then 
				return v 
			end
		end
	else
		for _, v in pairs(self.mytable) do
			return v
		end
	end
	error('No items in sequence.')
end

-- Returns the first element of a sequence, or a default value if no element is found.
function funlist:firstOrDefault(predicate, defaultItem)
	if predicate then
		for _, v in pairs(self.mytable) do
			if predicate(v) == true then
				return v
			end
		end	
	else
		for _, v in pairs(self.mytable) do
			return v
		end
	end
	return defaultItem
end

-- Returns the last element of a sequence.
function funlist:last()
	if self:any() == false then
		error('Sequence contains no items.')
	end
	local last = nil
	for _, v in pairs(self.mytable) do
		last = v
	end
	return last
end

-- Returns the last element of a sequence, or a default value if no element is found.
function funlist:lastOrDefault(defaultItem)
	if self:any() == false then
		return defaultItem
	end
	local last = nil
	for _, v in pairs(self.mytable) do
		last = v
	end
	return last
end

-- Returns the maximum value in a sequence of values.
function funlist:max()
	local h = self:first()
	for _, v in pairs(self.mytable) do
		local num = tonumber(v)
		if num == nil then error('Value is NaN') end
		if num > h then h = num end
	end
	return h
end

-- Returns the minimum value in a sequence of values.
function funlist:min()
	local l = self:first()
	for _, v in pairs(self.mytable) do
		local num = tonumber(v)
		if num == nil then error('Value is NaN') end
		if num < l then l = num end
	end
	return l
end

function funlist:sum()
	local total = 0
	for _, v in pairs(self.mytable) do
		local num = tonumber(v)
		if num == nil then error('Value is NaN') end
		total = total + num
	end
	return total
end

-- Adds elements from one sequence to the other.
function funlist:concat(tbl)
	assert(type(tbl) == 'table')
    for _, v in pairs(tbl) do
    	table.insert(self.mytable, v)
    end
    return self
end

-- Adds elements from one sequence to the other by key.
function funlist:join(tbl)
	assert(type(tbl) == 'table')
	for k, v in pairs(tbl) do
		self.mytable[k] = v
	end
	return self
end

-- Sorts the internal table by default Lua sorting behaviour
-- Unless specific sorting is requested.
function funlist:sort()
	function hasSortData()
		for _, _ in pairs(self.sortSelectors) do
			return true
		end
	end
	
	if hasSortData() == true then
		self:executeSort()
	else
		table.sort(self.mytable)
	end
	return self
end

function funlist:sortDecending()
	table.sort(self.mytable, function(left, right) return left > right end)
	return self
end

function funlist:executeSort()
	local sortFunc = function(left, right)
		for _, sortMeta in pairs(self.sortSelectors) do
			local selector = sortMeta.selector
			local sortAscending = sortMeta.ascending
			
			local leftVal = selector(left)
			local rightVal = selector(right)
			if leftVal ~= rightVal then
				if sortAscending then
					return leftVal < rightVal
				else
					return leftVal > rightVal
				end
			end
		end	
	end
	
	table.sort(self.mytable, sortFunc)
	self.sortSelectors = {}
	return self
end

-- Adds a sort condition 
function funlist:sortBy(selector)
	assert(selector)
	table.insert(self.sortSelectors, {
		selector = selector,
		ascending = true
	})
	return self
end

function funlist:sortByDecending(selector)
	assert(selector)
	table.insert(self.sortSelectors, {
		selector = selector,
		ascending = false
	})
	return self
end

function funlist:thenBy(selector)
	return self:sortBy(selector)
end

function funlist:thenByDecending(selector)
	return self:sortByDecending(selector)
end

-- Projects each element of a sequence into a new form.
function funlist:select(selector)
	assert(selector)
	local result = {}
    for _, v in pairs(self.mytable) do
    	local val = selector(v)
    	assert(val)
        table.insert(result, selector(v))
    end
    self.mytable = result
    return self
end

-- Projects each element of a sequence into a new form and flattens the result.
function funlist:selectMany(selector)
	assert(selector)
	local result = {}
	for _, item in pairs(self.mytable) do
		local tbl = selector(item)
		-- Resulting object must be a table here!
		assert(type(tbl) == 'table')
		
		for _, value in pairs(tbl) do
			table.insert(result, value)
		end
	end
	self.mytable = result
	return self
end

-- Filters a sequence of values based on a predicate.
function funlist:where(predicate)
	assert(predicate)
    local result = {}
    for k, v in pairs(self.mytable) do
        if predicate(v) then
        	result[k] = v
        end
    end
    self.mytable = result
    return self	
end

function funlist:toDictionary(keySelector, valueSelector)
	assert(keySelector)
	assert(valueSelector)
	
	local dict = {}
	for _, item in pairs(self.mytable) do
		local key = keySelector(item)
		local val = valueSelector(item)
		
		if dict[key] then 
			error('Duplicate key error.')
		end
		dict[key] = val
	end

	return dict
end

function funlist:distinct()
	local hashSet = {}
	local uniques = {}
	-- Filter out unique values.
	for _, v in pairs(self.mytable) do
		if not hashSet[v] then
			hashSet[v] = true
			table.insert(uniques, v)
		end
	end
	
	self.mytable = uniques
	return self
end

function funlist:distinctBy(selector)
	assert(selector)
	local hashSet = {}
	local uniques = {}
	-- Filter out unique values.
	for _, item in pairs(self.mytable) do
		local v = selector(item)
		if not hashSet[v] then
			hashSet[v] = true
			table.insert(uniques, item)
		end
	end
	
	self.mytable = uniques
	return self
end

function funlist:groupBy(keySelector, valueSelector)
	assert(keySelector)
	local lookup = {}

	-- Filter out unique values.
	for _, item in pairs(self.mytable) do
		local key = keySelector(item)
		local value = valueSelector and valueSelector(item) or item

		if not lookup[key] then
			lookup[key] = {}
		end

		table.insert(lookup[key], value)
	end
	
	self.mytable = lookup
	return self
end

function funlist:toTable()
	return self.mytable
end

-- Helper function to check if objects are equal.
function funlist.isEqual(obj1, obj2)
	local type1 = type(obj1)
    local type2 = type(obj2)

    if type1 ~= type2 then
        return false
    end

    if type1 == "number" or type1 == "string" or type1 == "boolean" then
        return obj1 == obj2
    elseif type1 == "table" then
        if #obj1 ~= #obj2 then
            return false
        end
        for k, v in pairs(obj1) do
            if not isEqual(v, obj2[k]) then
                return false
            end
        end
        return true
    else
        return obj1 == obj2
    end
end

return funlist
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