Module:Mmgtable
Module documentation
This documentation is transcluded from Module:Mmgtable/doc. [edit] [history] [purge]
Module:Mmgtable's function mmgtable is invoked by Template:Mmgtable.
Module:Mmgtable's function profit is invoked by Template:Mmgtable recurring/row.
Module:Mmgtable's function recurringTable is invoked by Template:Mmgtable recurring.
Module:Mmgtable requires Module:Currency.
Module:Mmgtable requires Module:Exchange.
Module:Mmgtable requires Module:Mainonly.
Module:Mmgtable requires Module:Number.
Module:Mmgtable requires Module:Yesno.
Implements {{Mmgtable}}
, used on money making guides. See template for documentation.
local p = {}
-- imports
local gePrice = require('Module:Exchange')._price
local yn = require('Module:Yesno')
local round = require('Module:Number')._round
local _coins = require('Module:Currency')._amount
local vdf = mw.ext.VariablesLua.vardefine
local lang = mw.getContentLanguage()
local title = mw.title.getCurrentTitle()
local onmain = require('Module:Mainonly').on_main
TAX_EXEMPT = mw.smw.ask({'[[Category:Items exempt from Grand Exchange tax]]'})
function expr(x)
local e_g, e = pcall(mw.ext.ParserFunctions.expr, x)
if e_g then
return e
end
return nil
end
function sigfig(x, p)
local x_sign = x < 0 and '-1' or '1'
local x = math.abs(x)
if x == 0 then
return 0
end
local n = math.floor(math.log10(x)) + 1 - p
return tonumber(x_sign) * math.pow(10,n) * round(x/math.pow(10, n), 0)
end
function autoround(x, f)
x = tonumber(x) or 0
local _x
if x < 0.1 and x > -0.1 then
_x = sigfig(x,2)
elseif x >= 100 or x <= -100 then
_x = round(x, 0)
else
_x = round(x, 2)
end
if f then
return lang:formatNum(_x)
end
return _x
end
function deduct_tax(name, val)
local tax_excluded = false
for _, v in ipairs(TAX_EXEMPT) do
local item = string.match(v[1], '%|(.*)]]$')
if item == name then
tax_excluded = true
end
end
if not tax_excluded then
return val - math.min(math.floor(val * 0.01), 5000000)
end
return val
end
-- Config constants, change as needed
MAX_INPUTS = 75
MAX_OUTPUTS = 75
MAX_XP = 75
function p.testmmgtable(args)
return p._mmgtable(mw.getCurrentFrame(), args)
end
function p.mmgtable(frame)
local args = frame:getParent().args
return p._mmgtable(frame, args)
end
-- Create an MMG table.
-- Frame is the frame the module was invoked from.
-- Args are the template arguments used when creating the table.
function p._mmgtable(frame, args)
local parsedInput = handleInputs(args)
local parsedOutput = handleOutputs(args)
local parsedXP = handleXP(args)
local is_per_kill = yn(args.isperkill)
local ret = mw.html.create('')
mw.logObject(parsedInput)
mw.logObject(parsedOutput)
mw.logObject(parsedXP)
local tbl = ret:tag('table'):addClass('wikitable mmg-table')
:cssText('width:100%;text-align:center;')
:tag('caption')
:wikitext(args['Activity'])
:done()
:tag('tr')
:tag('th')
:wikitext('Requirements')
:done()
:tag('td')
:attr('rowspan', '9')
:wikitext(args['Image'] or '{{{Image}}}')
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Skills')
:cssText('font-weight:normal')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Skill'] or 'None') -- Can leave blank if no reqs.
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Items')
:cssText('font-weight:normal')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Item'] or 'None') -- Can leave blank if no reqs.
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Quest')
:cssText('font-weight:normal')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Quest'] or 'None') -- Can leave blank if no reqs
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Other')
:cssText('font-weight:normal')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Other'] or 'None') -- Can leave blank if no reqs
:done()
:done()
:tag('tr')
:tag('th')
:attr('colspan', '2')
:wikitext('Results')
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Profit')
:cssText('font-weight:normal')
:done()
:tag('th')
:wikitext('Experience gained')
:cssText('font-weight:normal')
:done()
:done()
local xpTR = tbl:tag('tr')
local profitTD = xpTR:tag('td')
profitTD:addClass('mmg-varieswithkph')
:attr({['data-mmg-cost-ph'] = parsedOutput.valueph-parsedInput.valueph, ['data-mmg-cost-pk'] = parsedOutput.valuepk-parsedInput.valuepk})
:wikitext(_coins(autoround(parsedOutput.value - parsedInput.value), 'coins')..', after [[Grand Exchange#Convenience fee and item sink|tax]]')
local xpTD = xpTR:tag('td')
if args['Other Benefits'] then
xpTD:newline():wikitext(args['Other Benefits']):addClass('plainlist')
elseif #parsedXP.spans > 0 then
for i,v in ipairs(parsedXP.spans) do
xpTD:node(v)
end
else
xpTD:wikitext('None')
end
local putsTRH = tbl:tag('tr')
local inputTH = putsTRH:tag('th'):cssText('font-weight:normal')
inputTH:wikitext('Inputs')
if parsedInput.value ~= 0 then
inputTH:wikitext(' (')
:tag('span')
:addClass('mmg-varieswithkph')
:attr({['data-mmg-cost-ph'] = parsedInput.valueph, ['data-mmg-cost-pk'] = parsedInput.valuepk})
:wikitext(_coins(autoround(parsedInput.value), 'coins'))
:done()
:wikitext(')')
end
local outputTH = putsTRH:tag('th'):cssText('font-weight:normal')
outputTH:wikitext('Outputs')
if parsedOutput.value ~= 0 then
outputTH:wikitext(' (')
:tag('span')
:addClass('mmg-varieswithkph')
:attr({['data-mmg-cost-ph'] = parsedOutput.valueph, ['data-mmg-cost-pk'] = parsedOutput.valuepk})
:wikitext(_coins(autoround(parsedOutput.value), 'coins'))
:done()
:wikitext(', after [[Grand Exchange#Convenience fee and item sink|tax]])')
end
local inputTR = tbl:tag('tr')
local inputTD = inputTR:tag('td')
local outputTD = inputTR:tag('td')
for i,v in ipairs(parsedInput.spans) do
inputTD:node(v)
end
for i,v in ipairs(parsedOutput.spans) do
outputTD:node(v)
end
local kph_text = args['kph name'] or 'Kills per hour'
if is_per_kill then
tbl:addClass('mmg-isperkill')
:attr('data-default-kph', args.kph)
:attr('data-default-kph-name', kph_text)
end
if not(yn(args.noexports)) then
if is_per_kill then
vdf('kph', string.format('<span class="mmg-variable mmg-kph">%s</span>', args.kph))
vdf('default_kph', args.kph)
vdf('inputPH', string.format('<span class="mmg-variable mmg-input-ph" data-mmg-cost-ph="%s">%s</span>', parsedInput.valueph, _coins(autoround(parsedInput.valueph), 'nocoins')))
vdf('inputPK', string.format('<span class="mmg-variable mmg-input-pk" data-mmg-cost-pk="%s">%s</span>', parsedInput.valuepk, _coins(autoround(parsedInput.valuepk), 'nocoins')))
vdf('input', string.format('<span class="mmg-variable mmg-input" data-mmg-cost-ph="%s", data-mmg-cost-pk="%s">%s</span>', parsedInput.valueph, parsedInput.valuepk, _coins(autoround(parsedInput.value), 'nocoins')))
vdf('outputPH', string.format('<span class="mmg-variable mmg-output-ph" data-mmg-cost-ph="%s">%s</span>', parsedOutput.valueph, _coins(autoround(parsedOutput.valueph), 'nocoins')))
vdf('outputPK', string.format('<span class="mmg-variable mmg-output-pk" data-mmg-cost-pk="%s">%s</span>', parsedOutput.valuepk, _coins(autoround(parsedOutput.valuepk), 'nocoins')))
vdf('output', string.format('<span class="mmg-variable mmg-varieswithkph mmg-output" data-mmg-cost-ph="%s", data-mmg-cost-pk="%s">%s</span>', parsedOutput.valueph, parsedOutput.valuepk, _coins(autoround(parsedOutput.value), 'nocoins')))
vdf('profitPH', string.format('<span class="mmg-variable mmg-profit-ph" data-mmg-cost-ph="%s">%s</span>', parsedOutput.valueph-parsedInput.valueph, _coins(autoround(parsedOutput.valueph-parsedInput.valueph), 'nocoins')))
vdf('profitPK', string.format('<span class="mmg-variable mmg-profit-pk" data-mmg-cost-pk="%s">%s</span>', parsedOutput.valuepk-parsedInput.valuepk, _coins(autoround(parsedOutput.valuepk-parsedInput.valuepk), 'nocoins')))
vdf('profit', string.format('<span class="mmg-variable mmg-varieswithkph mmg-profit" data-mmg-cost-ph="%s", data-mmg-cost-pk="%s">%s</span>', parsedOutput.valueph-parsedInput.valueph, parsedOutput.valuepk-parsedInput.valuepk, _coins(autoround(parsedOutput.value-parsedInput.value), 'nocoins')))
else
vdf('input', string.format('<span class="mmg-input">%s</span>', parsedInput.value, _coins(autoround(parsedInput.value), 'nocoins')))
vdf('output', string.format('<span class="mmg-input">%s</span>', parsedOutput.value, _coins(autoround(parsedOutput.value), 'nocoins')))
vdf('profit', string.format('<span class="mmg-input">%s</span>', parsedOutput.value-parsedInput.value, _coins(autoround(parsedOutput.value-parsedInput.value), 'nocoins')))
vdf('input_raw', parsedInput.value)
vdf('output_raw', parsedOutput.value)
vdf('profit_raw', parsedOutput.value-parsedInput.value)
end
end
frame:callParserFunction('DISPLAYTITLE', title.subpageText)
frame:callParserFunction('DEFAULTSORT', title.subpageText)
local cats = '[[Category:Money making guides]]'
if args['Members'] == nil then
cats = cats .. '[[Category:Money making guides without a membership status]]'
elseif not(yn(args['Members'])) then
cats = cats .. '[[Category:MMG/F2P]]'
end
local final_profit = parsedOutput.value - parsedInput.value
local set_smw = true
if final_profit <= 100000 and yn(args['Members']) then
cats = cats .. '[[Category:Obsolete money making guides]]'
elseif ((final_profit <= 20000) and (parsedInput.value>0) ) then
cats = cats .. '[[Category:Obsolete money making guides]]'
elseif final_profit <= 15000 then
cats = cats .. '[[Category:Obsolete money making guides]]'
elseif yn(args.Exclude) then
cats = cats .. '[[Category:Obsolete money making guides]]'
else
cats = cats .. '[[Category:Worthwhile money making guides]]'
end
if args["Category"] then
local mmgcat = ({
["Combat/Low"] = "[[Category:MMG/Combat]]",
["Combat/Mid"] = "[[Category:MMG/Combat]]",
["Combat/High"] = "[[Category:MMG/Combat]]",
["Combat"] = "[[Category:MMG/Combat]]",
["Skilling"] = "[[Category:MMG/Skilling]]",
["Processing"] = "[[Category:MMG/Processing]]",
["Recurring"] = "[[Category:MMG/Recurring]]",
["Collecting"] = "[[Category:MMG/Collecting]]"
})[args["Category"]]
if mmgcat == nil then
cats = cats .. '[[Category:Money making guides with an invalid category]]'
else
cats = cats .. mmgcat
end
else
cats = cats .. '[[Category:Money making guides without a category]]'
end
if not onmain() then
set_smw = false
cats = ''
end
if set_smw then
local smw_data = {
members = yn(args.Members or 'yes', true),
skill = args.Skill,
quest = args.Quest,
activity = args.Activity,
category = args.Category,
skillcategory = args.SkillCategory,
intensity = args.Intensity,
isperkill = is_per_kill,
version = args.Version,
inputs = parsedInput.list,
outputs = parsedOutput.list
}
if is_per_kill then
smw_data.prices = {
input_perhour=parsedInput.valueph,
input_perkill=parsedInput.valuepk,
output_perhour=parsedOutput.valueph,
output_perkill=parsedOutput.valuepk,
default_kph=tonumber(args.kph) or 1,
kph_text=kph_text,
default_value=parsedOutput.value - parsedInput.value,
}
else
smw_data.prices = {
input=parsedInput.value,
output=parsedOutput.value,
value=parsedOutput.value - parsedInput.value
}
end
smw_data = mw.text.killMarkers(mw.text.nowiki(mw.text.jsonEncode(smw_data)))
mw.smw.set({
['MMG value']=parsedOutput.value - parsedInput.value,
['MMG JSON']=smw_data
})
end
return ret, cats
end
-- Calculate the profit and do nothing else.
function p.profit(frame)
local frame = frame or mw.getCurrentFrame()
local args = frame:getParent().args -- Template args, NOT #invoke args
return handleOutputs(args).value - handleInputs(args).value
end
-- Implements handleInputs and handleOutputs
-- See those functions for further details
function handleIteratedArgs(args, prefix, max_iters)
local frame = mw.getCurrentFrame()
local items = {}
local total_item_value = 0
local textlines = {}
local is_per_kill = yn(args.isperkill)
local defaultKPH = tonumber(args.kph) or 1
local value_per_kill = 0
local value_per_hour = 0
for i=1,max_iters,1 do
if not args[prefix..i] then break end
local pri = prefix..i
local span = mw.html.create('span')
span:addClass('mmg-itemline mmg-'..prefix:lower())
local name = args[pri]
local qty_param = args[pri..'num']
local actual_qty = nil
local value_param = args[pri..'value']
local actual_value = nil
local is_per_hour = not is_per_kill
if is_per_kill and yn(args[pri..'isph']) then
is_per_hour = true
end
-- Keep track of sanity check states - we want to handle them gracefully later.
local invalid_qty_present = false
local invalid_value_present = false
local failed_ge_lookup = false
local pricetype = ''
if qty_param then
actual_qty = tonumber(qty_param) or expr(qty_param)
invalid_qty_present = not actual_qty
actual_qty = actual_qty or 1
-- If the given quantity doesn't look like a number, we'll default to 1
-- but we should probably alert the user
-- since they might want to fix that
else
-- Default value of 1
actual_qty = 1
end
if value_param then
-- Again, if it was specified, it should be a number
-- If it isn't, we pretend it wasn't specified
-- but we alert the user because it's probably not what they want
actual_value = tonumber(value_param) or expr(value_param)
invalid_value_present = not actual_value
pricetype = 'value'
end
-- If we got the value earlier, skip this part
if not actual_value then
-- Here we try to find an exchange price
-- If we get here, and we can't get an exchange price
-- we default to 0.
-- This is almost certainly not what the user wants,
-- so we warn them about it.
local success, price = pcall(gePrice, name)
actual_value = success and tonumber(price) -- This is awful but still pleasant somehow
failed_ge_lookup = not actual_value
actual_value = actual_value or 0
-- GE takes 1% (rounding down) tax on items sold for > 99gp
-- except for a few random ones (chisel, spade, etc)
if prefix == 'Output' and actual_value > 99 then
actual_value = deduct_tax(name, actual_value)
end
pricetype = 'gemw'
end
local this_item_value, this_item_qty, attrName
local attrVal = actual_qty * actual_value
if is_per_kill and not is_per_hour then
span:addClass('mmg-varieswithkph')
this_item_qty = actual_qty * defaultKPH
this_item_value = attrVal * defaultKPH
value_per_kill = value_per_kill + attrVal
attrName = 'data-mmg-cost-pk'
else
this_item_qty = actual_qty
this_item_value = attrVal
value_per_hour = value_per_hour + attrVal
attrName = 'data-mmg-cost-ph'
end
total_item_value = total_item_value + this_item_value
span:tag('span'):addClass('mmg-quantity'):attr('data-mmg-qty', actual_qty):wikitext(autoround(this_item_qty, true))
if invalid_qty_present then
span:node(warning('Could not interpret \''..qty_param..'\' as a number, defaulting to 1'))
end
span:wikitext(string.format(' × [[File:%s.png|link=%s]] [[%s]] (', name, name, name))
span:tag('span'):addClass('mmg-cost'):attr(attrName, attrVal):wikitext(_coins(autoround(this_item_value), 'nocoins'))
span:wikitext(')')
if invalid_value_present then
span:node(warning('Could not interpret \''..value_param..'\' as a number, ignoring.'))
end
if failed_ge_lookup then
span:node(warning('Could not find exchange price for item \''..name..'\', please double-check the spelling'))
span:wikitext('[[Category:Money making guides with a failed GE lookup]]')
end
if args[pri..'note'] then
span:tag('span'):addClass('mmg-note'):wikitext(' ',args[pri..'note'])
end
table.insert(textlines, span)
table.insert(items, {name = name, qty = actual_qty, value = actual_value, isph = is_per_hour, pricetype=pricetype})
end
return {value = total_item_value, valuepk = value_per_kill, valueph = value_per_hour, spans = textlines, list = items}
end
-- args are the args supplied to the template, (or a subset of them contining all input arguments)
-- Returns a table. The table has three keys: 'value', 'text', and 'as_table'
---- 'value' contains the total value of the inputs specified by args
---- 'text' contains a formatted string based on the inputs specified by args. This can be directly plugged into the HTML table.
---- 'list' contains all the inputs as a Lua list. Each input is represented by a table with the following keys
------ 'name' being the name of the item
------ 'value' being the value of the item in question
------ 'qty' being the quantity specified for the item
function handleInputs(args)
return handleIteratedArgs(args, 'Input', MAX_INPUTS)
end
-- args are the args supplied to the template, (or a subset of them contining all output arguments)
-- Returns a table. The table has two keys: 'value', and 'text'
---- 'value' contains the total value of the outputs specified by args
---- 'text' contains a formatted string based on the outputs specified by args. This can be directly plugged into the HTML table.
---- 'list' contains all the outputs as a Lua list. Each output is represented by a table with the following keys
------ 'name' being the name of the item
------ 'value' being the value of the item in question
------ 'qty' being the quantity specified for the item
function handleOutputs(args)
return handleIteratedArgs(args, 'Output', MAX_OUTPUTS)
end
function handleXP(args)
local frame = mw.getCurrentFrame()
local items = {}
local textlines = {}
local is_per_kill = yn(args.isperkill)
local defaultKPH = tonumber(args.kph) or 1
for i=1,MAX_XP,1 do
if not args['Experience'..i] then break end
local pri = 'Experience'..i
local span = mw.html.create('span')
span:addClass('mmg-xpline')
local skill = args[pri]
local qty_param = args[pri..'num']
local actual_qty = tonumber(qty_param) or expr(qty_param) or 0
local is_per_hour = not is_per_kill
if is_per_kill and yn(args[pri..'isph']) then
is_per_hour = true
end
local this_item_value, attrName
if is_per_kill and not is_per_hour then
span:addClass('mmg-varieswithkph')
this_item_value = actual_qty * defaultKPH
attrName = 'data-mmg-xp-pk'
else
this_item_value = actual_qty
attrName = 'data-mmg-xp-ph'
end
-- TODO modulise SCP
span:attr(attrName, actual_qty)
:wikitext(frame:expandTemplate{title='SCP', args = { skill, autoround(this_item_value, true) }})
table.insert(textlines, span)
table.insert(items, { skill = skill, xp = actual_qty, isph = is_per_hour })
end
return { spans = textlines, items = items }
end
-- Creates a neat little warning message
function warning(msg)
return mw.html.create('span')
:addClass('mmg-warning')
:css({
['border-bottom'] = '1px red dotted',
color = 'red',
cursor = 'help'
})
:attr('title', msg)
:wikitext('*')
end
function p.recurringTable(frame)
return p._recurringTable(frame, frame:getParent().args)
end
function p._recurringTable(frame, args)
local parsedInput = handleInputs(args)
local parsedOutput = handleOutputs(args)
local timeAsString = nil
local num_good, numMinutes = pcall(mw.ext.ParserFunctions.expr, args['Activity Time'])
numMinutes = tonumber(numMinutes)
if not num_good or not numMinutes then
numMinutes = 1
end
if numMinutes < 1 then
local seconds = numMinutes * 60
timeAsString = seconds..' '..lang:plural(seconds, 'second', 'seconds')
else
timeAsString = numMinutes..' '..lang:plural(numMinutes, 'minute', 'minutes')
end
local tbl = mw.html.create('table')
local inputTR = mw.html.create('tr')
local inputTD = inputTR:tag('td')
local outputTD = inputTR:tag('td')
for i,v in ipairs(parsedInput.spans) do
inputTD:node(v)
end
for i,v in ipairs(parsedOutput.spans) do
outputTD:node(v)
end
-- This is one statement, defining a single variable. It goes on for 120 lines. I don't know how I feel about this tbh.
-- I mean how the heck would you even document this, for a start?
tbl:addClass('wikitable') -- I guess it's pretty self-documenting if you know HTML
:cssText('width:100%;text-align:center;') -- But like...
:tag('tr')
:tag('caption')
:wikitext(args['Activity'])
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Profit per instance')
:done()
:tag('td')
:attr('rowspan', '8')
:wikitext(args['Image'])
:done()
:done()
:tag('tr')
:tag('td')
:wikitext(_coins(round(parsedOutput.value - parsedInput.value, 0), 'coins'), ' per instance, after [[Grand Exchange#Convenience fee and item sink|tax]]')
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Activity time')
:done()
:done()
:tag('tr')
:tag('td')
:wikitext(timeAsString)
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Minimum recurrence time')
:done()
:done()
:tag('tr')
:tag('td')
:wikitext(args['Recurrence Time'])
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Effective profit')
:done()
:done()
:tag('tr')
:tag('td')
:wikitext(_coins(tostring(parsedOutput.value - parsedInput.value)..' * 60 / ('..args['Activity Time']..') round 0', 'coins') .. ' per hour, after [[Grand Exchange#Convenience fee and item sink|tax]]') -- A bit messy but it should do the job. Assuming Activity Time is a well-behaved number, of course.
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Skill requirements')
:done()
:tag('th')
:wikitext('Quest requirements')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Skill'] or 'None')
:done()
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Quest'] or 'None')
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Item requirements')
:done()
:tag('th')
:wikitext('Other requirements')
:done()
:done()
:tag('tr')
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Item'] or 'None')
:done()
:tag('td')
:addClass('plainlist')
:newline()
:wikitext(args['Other'] or 'None')
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Experience gained')
:done()
:tag('th')
:wikitext('Location')
:done()
:done()
:tag('tr')
:tag('td')
:wikitext(args['Other Benefits'] or 'None')
:done()
:tag('td')
:wikitext(args['Location'] or 'Anywhere') -- Sensible enough as a default
:done()
:done()
:tag('tr')
:tag('th')
:wikitext('Inputs')
:wikitext(' (', _coins(round(parsedInput.value, 0), 'coins'), ')')
:done()
:tag('th')
:wikitext('Outputs')
:wikitext(' (', _coins(round(parsedOutput.value, 0), 'coins'), ', after [[Grand Exchange#Convenience fee and item sink|tax]])')
:done()
:done()
:node(inputTR)
:done()
frame:callParserFunction('DISPLAYTITLE', title.subpageText)
frame:callParserFunction('DEFAULTSORT', title.subpageText)
local cats = '[[Category:Money making guides]][[Category:MMG/Recurring]]'
local final_profit = parsedOutput.value - parsedInput.value
local set_smw = true
if final_profit <= 0 then
cats = cats .. '[[Category:Obsolete money making guides]]'
else
cats = cats .. '[[Category:Worthwhile money making guides]]'
end
if not onmain() then
set_smw = false
cats = ''
end
if set_smw then
local smw_data = {
members = yn(args.Members or 'yes', true),
skill = args.Skill,
quest = args.Quest,
other = args.Other,
activity = args.Activity,
category = args.Category,
version = args.Version,
time = numMinutes,
recurrence = args['Recurrence Time'],
prices = {
input=parsedInput.value,
output=parsedOutput.value,
value=parsedOutput.value - parsedInput.value
},
inputs = parsedInput.list,
outputs = parsedOutput.list
}
smw_data = mw.text.killMarkers(mw.text.nowiki(mw.text.jsonEncode(smw_data)))
mw.smw.set({
['MMG value']=parsedOutput.value - parsedInput.value,
['MMG recurring JSON']=smw_data
})
end
return tbl, cats
end
return p