Module:Calculator/AgilityObstacle
Documentation for this module may be created at Module:Calculator/AgilityObstacle/doc
local p = {}
local yesno = require('Module:Shared/Yesno')
local Num = require('Module:Number')
local Constants = require('Module:Constants')
local Agility = require('Module:Skills/Agility')
local Shared = require('Module:Shared')
local Icons = require('Module:Icons')
local function getItemIcon(itemName, amount)
if itemName == 'GP' then
return Icons.GP(amount)
end
if itemName == 'SC' then
return Icons.SC(amount)
end
return Icons.Icon({itemName, type='item', qty = amount, notext=true})
end
-- Gets all associated metadata from an obstacle based on its name.
local function getObstacle(name, costReduction)
name = Shared.specialTitleCase(name)
local obstacle = Agility.getObstacle(name) or Agility.getPillar(name)
if obstacle == nil then
error("Unknown Agility obstacle or pillar name: " .. name or '<name is nil>')
end
-- Resolve obstacle slot.
local slot = 0
if string.find(name, 'Pillar') then
if string.find(name, 'Elite') then
slot = 'Elite Pillar'
else
slot = 'Pillar'
end
else
slot = obstacle.category + 1
end
-- Apply cost reduction, if available.
local itemCosts = Agility.getObstacleCosts(obstacle)
if costReduction then
Agility.applyCostReduction(itemCosts, costReduction)
end
local obstacleInfo = {
Name = obstacle.name,
Slot = slot,
Obstacle = obstacle,
LevelRequirements = Agility.getObstacleRequirements(obstacle),
ItemCosts = itemCosts,
}
return obstacleInfo
end
local function getObstacles(obstacleNames, checkDoubleSlots, costReduction)
-- Collect all obstacles and filter out nill values.
local courseObstacles = {}
local courseSlots = {}
for _, v in pairs(obstacleNames) do
local currObstacle = getObstacle(v, costReduction)
if currObstacle then
if checkDoubleSlots and courseSlots[currObstacle.Slot] == true then
error('There are two or more obstacles in the same slot. Obstacle: ' .. currObstacle.Name .. ' Slot: ' .. currObstacle.Slot)
end
courseSlots[currObstacle.Slot] = true
table.insert(courseObstacles, currObstacle)
end
end
return courseObstacles
end
function p.calculateCourse(obstacleNames, checkDoubleSlots, costReduction)
local funcPoolCosts = function(tbl, item, amount)
Shared.addOrUpdate(tbl, item, function(x) x = x or 0 return x + amount end)
end
local courseObstacles = getObstacles(obstacleNames, checkDoubleSlots, costReduction)
-- Calculate the highest level requirements and the total amount of items
-- required to build this agility course.
local courseLevelRequirements = {}
local courseItemCosts = {
['Items'] = {}
}
for _, obstacle in pairs(courseObstacles) do
-- Pool together highest level requirements for the entire course.
for skill, level in pairs(obstacle.LevelRequirements) do
Shared.addOrUpdate(courseLevelRequirements, skill,
function(x)
if x then return math.max(x, level) else return level end
end)
end
-- Pool together total item costs to build the entire course course.
local obstacleCosts = obstacle.ItemCosts
if obstacleCosts['GP'] then funcPoolCosts(courseItemCosts, 'GP', obstacleCosts['GP']) end
if obstacleCosts['SC'] then funcPoolCosts(courseItemCosts, 'SC', obstacleCosts['SC']) end
for item, amount in pairs(obstacleCosts['Items']) do
funcPoolCosts(courseItemCosts['Items'], item, amount)
end
end
-- Sort course on category
local sortFunc = function(a, b)
-- Special case to sort pillars AFTER all regular obstacles.
local pillar = { ["Pillar"] = 99, ["Elite Pillar"] = 100 }
return (pillar[a.Slot] or a.Slot) < (pillar[b.Slot] or b.Slot)
end
table.sort(courseObstacles, sortFunc)
return {
Obstacles = courseObstacles,
CourseLevelRequirements = courseLevelRequirements,
CourseItemCosts = courseItemCosts
}
end
-- Stupid shenanigans to filter out numeric parameters.
-- Because just iterating over #args doesn't work for some reason...
function parseObstacleArgs(args)
local obstacleNames = {}
for k, v in pairs(args) do
k = tonumber(k)
if k then
table.insert(obstacleNames, v:match("^%s*(.-)%s*$"))
end
end
return obstacleNames
end
function p.getCourseList(frame)
local args = frame:getParent().args
return p._getCourseList(args)
end
function p._getCourseList(args)
-- Parse optional parameters
local costReduction = {
['GP'] = Num.toNumberOrDefault(args['gpCostReduction'], 0),
['SC'] = Num.toNumberOrDefault(args['scCostReduction'], 0),
['Item'] = Num.toNumberOrDefault(args['itemCostReduction'], 0),
}
local obstacleNames = parseObstacleArgs(args)
local courseRequirements = p.calculateCourse(obstacleNames, true, costReduction)
local html = mw.html.create()
local div = html:tag('div')
if yesno(args['includeObstacles'], true) == true then
div:tag('b'):wikitext('Obstacles')
local tbl = mw.html.create("table")
:addClass("wikitable stickyHeader text-align-left")
tbl :tag("tr")
:tag("th"):wikitext("Slot")
:tag("th"):wikitext("Obstacle")
for _, v in pairs(courseRequirements.Obstacles) do
tbl :tag('tr')
:tag('td')
:css('text-align', 'right')
:wikitext(v.Slot)
:tag('td')
:wikitext(Icons.Icon({v.Name, type='agility'}))
end
div:node(tbl)
div:wikitext('<br>')
end
if yesno(args['includeitems'], true) then
div:tag('b'):wikitext('Items Required')
local ul = div:tag('ul')
local courseItems = courseRequirements.CourseItemCosts
-- Put GP and SC at the top, and remove them from the list
-- to avoid sorting and re-adding them below.
if courseItems['GP'] then ul:tag('li'):wikitext(getItemIcon('GP', courseItems['GP'])) end
if courseItems['SC'] then ul:tag('li'):wikitext(getItemIcon('SC', courseItems['SC'])) end
local itemList = Shared.sortDictionary(courseItems['Items'],
function(a, b) return a.item < b.item end,
function(a, b) return {item = a, amount = b} end)
for _, v in pairs(itemList) do
ul:tag('li'):wikitext(getItemIcon(v.item, v.amount))
end
div:wikitext('<br>')
end
if yesno(args['includeskills'], true) then
div:tag('b'):wikitext('Skills Required')
local ul2 = div:tag('ul')
local skillList = Shared.sortDictionary(courseRequirements.CourseLevelRequirements,
function(a, b) return a.skill < b.skill end,
function(a, b) return {skill = a, level = b} end)
for _, v in pairs(skillList) do
ul2:tag('li'):wikitext(Icons._SkillReq(v.skill, v.level))
end
div:wikitext('<br>')
end
return tostring(html)
end
function p.getCourseTable(frame)
local args = frame:getParent().args
return p._getCourseTable(args)
end
function p._getCourseTable(args)
--== Local Functions for formatting Obstacle MetaData ==--
local function getBonusses(obstacle)
local bonuses = {}
for bonusName, bonusValue in pairs(obstacle.modifiers) do
table.insert(bonuses, Constants._getModifierText(bonusName, bonusValue))
end
if Shared.tableIsEmpty(bonuses) then
table.insert(bonuses, '<span style="color:red">None :(</span>')
end
return table.concat(bonuses, '<br/>')
end
local function getRequirements(requirementsTable)
local skillList = Shared.sortDictionary(requirementsTable,
function(a, b) return a.skill < b.skill end,
function(a, b) return {skill = a, level = b} end)
local res = {}
for _, v in pairs(skillList) do
table.insert(res, Icons._SkillReq(v.skill, v.level))
end
return table.concat(res, '<br/>')
end
local function getCosts(costsTable)
local res = {}
-- Order table with GP, SC first, then the other items.
if costsTable['GP'] then table.insert(res, getItemIcon('GP', costsTable['GP'])) end
if costsTable['SC'] then table.insert(res, getItemIcon('SC', costsTable['SC'])) end
local sortedCosts = Shared.sortDictionary(costsTable['Items'],
function(a, b) return a.item < b.item end,
function(a, b) return {item = a, amount = b} end)
for _, v in pairs(sortedCosts) do
table.insert(res, getItemIcon(v.item, v.amount))
end
return table.concat(res, '<br/>')
end
local function getTotalBonuses(obstacles)
local bonuses = {}
for _, obstacle in pairs(obstacles) do
for bonusName, bonusValue in pairs(obstacle.Obstacle.modifiers) do
table.insert(bonuses, {name = bonusName, value = bonusValue})
end
end
table.sort(bonuses, function(a, b) return a.name < b.name end)
local ret = {}
for _, bonus in pairs(bonuses) do
table.insert(ret, Constants._getModifierText(bonus.name, bonus.value))
end
if Shared.tableIsEmpty(ret) then
table.insert(ret, '<span style="color:red">None :(</span>')
end
return table.concat(ret, '<br/>')
end
--== Parse optional parameters==--
local showTotals = yesno(args['showtotals'], false)
local showbonus = yesno(args['showbonus'], true)
local showrequirements = yesno(args['showrequirements'], true)
local showcosts = yesno(args['showcosts'], true)
local obstacleMastery = yesno(args['obstacleMastery'], false)
local costReduction = {
['GP'] = Num.toNumberOrDefault(args['gpCostReduction'], 0),
['SC'] = Num.toNumberOrDefault(args['scCostReduction'], 0),
['Item'] = Num.toNumberOrDefault(args['itemCostReduction'], 0),
}
local obstacleNames = parseObstacleArgs(args)
local courseRequirements = p.calculateCourse(obstacleNames, true, costReduction)
--== Start of table formatting ==--
local tbl = mw.html.create("table")
:addClass("wikitable stickyheader")
local thr = tbl:tag('tr')
thr:tag('th'):wikitext('Slot')
thr:tag('th'):wikitext('Obstacle')
if showbonus then
thr:tag('th'):wikitext('Bonuses')
end
if showrequirements then
thr:tag('th'):wikitext('Requirements')
end
if showcosts then
thr:tag('th'):wikitext('Costs')
end
for _, obstacle in pairs(courseRequirements.Obstacles) do
local tr = tbl:tag('tr')
tr :tag('td')
:css('text-align', 'right')
:wikitext(obstacle.Slot)
:tag('td'):wikitext(Icons.Icon({obstacle.Name, type='agility'}))
if showbonus then
tr:tag('td'):wikitext(getBonusses(obstacle.Obstacle))
end
if showrequirements then
tr:tag('td'):wikitext(getRequirements(obstacle.LevelRequirements))
end
if showcosts then
tr:tag('td'):wikitext(getCosts(obstacle.ItemCosts))
end
end
if showTotals == true then
local tr = tbl:tag('tr')
tr :tag('th')
:attr('colspan', 2)
:wikitext('Totals')
if showbonus then
tr :tag('td')
:wikitext(getTotalBonuses(courseRequirements.Obstacles))
end
if showrequirements then
tr :tag('td')
:wikitext(getRequirements(courseRequirements.CourseLevelRequirements))
end
if showcosts then
tr :tag('td')
:wikitext(getCosts(courseRequirements.CourseItemCosts))
end
end
return tostring(tbl)
end
function p.test()
local obstacles = {"Rope Climb","Monkey Bars"," Balance Seesaw","Elite Pillar of Conflict"}
local obs = p.calculateCourse(obstacles)
end
return p