Difference between revisions of "Module:Test"
Jump to navigation
Jump to search
m (redefine print()) |
m (removed calls to debug.getinfo()) |
||
| Line 113: | Line 113: | ||
local function vardefine(var_name, var_value) | local function vardefine(var_name, var_value) | ||
| − | local fName = | + | local fName = "vardefine" |
assert(var_name, string.format("bad argument #1 to '%s' (argument missing, name of variable to define)", fName)) | assert(var_name, string.format("bad argument #1 to '%s' (argument missing, name of variable to define)", fName)) | ||
assert(var_name == "string", string.format("bad argument #1 to '%s' (string expected, got %s)", fName, type(var_name))) | assert(var_name == "string", string.format("bad argument #1 to '%s' (string expected, got %s)", fName, type(var_name))) | ||
| Line 212: | Line 212: | ||
function p.query(frame) | function p.query(frame) | ||
| − | local fName = | + | local fName = "query" |
if not (frame.args["defName"] or frame.args["label"]) then | if not (frame.args["defName"] or frame.args["label"]) then | ||
Revision as of 23:52, 9 April 2021
This module is used for development.
Purpose
This module is used to query information from the uploaded and parsed game files.
Its main purpose is to populate the infoboxes.
Usage
A note on the order of named parameters. All of the parameters that look like ...=... are called named parameters and their order is not important (this is true for all templates).
query
{{#invoke:Test|query|<def ID>[|...|][|tag|][|sibling=...]}}
The work-horse. Output varies based on use:
- If only the
<def ID>parameter is set, it will show the whole Def in the log. - If simple values are queried it will return them.
- If lists are queried it will return nothing but call
{{#vardefine}}on all the simple values within it. What got defined can be seen in the page's log.
Named parameters:
<def ID>
- This parameter identifies the Def so it is mandatory. It can take two forms, if both are defined then
defNametakes preference.
- This parameter identifies the Def so it is mandatory. It can take two forms, if both are defined then
defName=<defName><defName>(case sensitive) should be replaced with the actual defName of a Def.
label=<label><label>(case insensitive) should be replaced with the actual label of a Def.
[sibling=...](optional) (case sensitive)- Allows querying for something if we know its sibling's value (works only for values at the moment).
Anonymous parameters:
[|...|](optional) (case sensitive)- Anonymous paramaters before the last one (
[tag]) are here to help uniquely identify it. If the[tag]is already unique within a Def tree, then these additional parameters are not needed.
- Anonymous paramaters before the last one (
[|tag|](optional) (case sensitive)- The final anonymous parameter defines what is to be queried.
count
{{#invoke:Test|count|<def ID>[|...|][|tag|][|sibling=...]}}
Parameters are the same as for query. It's basically a wrapped up query that behaves a bit differently.
The difference is in how it handles lists. If a list is queried, unlike query, it will return the length of the list.
How-to
Take a look at a Def
{{#invoke:Test|query|label=desert}}
Lua error at line 234: Def not found.
Data is in the log.
Retrieve a simple value
{{#invoke:Test|query|defName=Caribou|description}}
Lua error: too many numeric arguments to 'query' (string, number or boolean already found).
Dealing with lists
{{#invoke:Test|query|defName=Mech_Scyther|tools}}
table
When a list is retrieved there will be no output but the log will contain a list of defined variables.
For convenience the list is reprinted here:
tools_1_linkedBodyPartsGroup = LeftBlade tools_1_cooldownTime = 2 tools_1_label = left blade tools_1_DPS = 10 tools_1_power = 20 tools_1_capacities_1 = Cut tools_1_capacities_2 = Stab tools_2_linkedBodyPartsGroup = RightBlade tools_2_cooldownTime = 2 tools_2_label = right blade tools_2_DPS = 10 tools_2_power = 20 tools_2_capacities_1 = Cut tools_2_capacities_2 = Stab tools_3_linkedBodyPartsGroup = HeadAttackTool tools_3_capacities_1 = Blunt tools_3_label = head tools_3_DPS = 4.5 tools_3_chanceFactor = 0.2 tools_3_power = 9 tools_3_cooldownTime = 2
All of the above can be accessed with the use of {{#var:...}}.
{{#var:tools_1_DPS}}
DPS is not a normal member of this table but has been added with Lua. Let's call it a virtual field.
Retrieve something if a sibling is known
{{#invoke:Test|query|label=guinea pig|minAge|sibling=AnimalAdult}}
0
-- redefine the print function to use mw.log
print = mw.log
---------------
-- load data --
---------------
-- wiki environment --
local Biomes = mw.loadData('Module:Test/data/biomes')
--local Buildings = mw.loadData('Module:Test/data/buildings')
local Races = mw.loadData('Module:Test/data/races')
-- dev environment --
--local Biomes = loadfile("./data/BiomeDefs.lua")()
--local Buildings = loadfile("./data/ThingDefs_Buildings.lua")()
--local Races = loadfile("./data/ThingDefs_Races.lua")()
-- aggregate the categories --
local data = {}
data["Biomes"] = Biomes
--data["Buildings"] = Buildings
data["Races"] = Races
------------------------
-- pretty print table --
------------------------
--[[ procedure: tprint ]]--
function tprint (tbl, indent)
if not indent then indent = 0 end
for k, v in pairs(tbl) do
formatting = string.rep(" ", indent) .. k .. ": "
if type(v) == "table" then
print(formatting)
tprint(v, indent+1)
elseif type(v) == 'boolean' then
print(formatting .. tostring(v))
else
print(formatting .. v)
end
end
end
--[[ function: shallowcopy ]]--
function shallowcopy(original_table)
local orig_type = type(original_table)
local copy
if orig_type == 'table' then
copy = {}
for orig_key, orig_value in pairs(original_table) do
copy[orig_key] = orig_value
end
else -- number, string, boolean, etc
copy = original_table
end
return copy
end
--[[ function: reverse_numeric_table ]]--
function reverse_numeric_table(tbl)
local reversed_table = {}
local length = #tbl
for i,v in ipairs(tbl) do
reversed_table[length + 1 - i] = v
end
return reversed_table
end
-----------------------------
-- small utility functions --
-----------------------------
--[[ function: find_key_name_of_value ]]--
local function find_key_name_of_value(value, tbl)
for k,v in pairs(tbl) do
if v == value then return k end
end
end
--[[ function: search_table_recursive ]]--
-- returns the value found by first occurrence of a key within a table (recursive)
local function search_table_recursive(key, tbl)
for k, v in pairs(tbl) do
if k == key then return v
elseif type(v) == "table" then
local found = search_table_recursive(key, v)
if found then return found end
end
end
end
--[[ function: find_parent_table ]]--
-- returns the parent table of an element specified by key, value (recursive)
local function find_parent_table(key, value, tbl)
for k, v in pairs(tbl) do
if k == key and v == value then return tbl
elseif type(v) == "table" then
local found = find_parent_table(key, value, v)
if found then return found end
end
end
end
--[[ procedure: vardefine ]]--
local function vardefine(var_name, var_value)
local fName = "vardefine"
assert(var_name, string.format("bad argument #1 to '%s' (argument missing, name of variable to define)", fName))
assert(var_name == "string", string.format("bad argument #1 to '%s' (string expected, got %s)", fName, type(var_name)))
assert(var_value, string.format("bad argument #2 to '%s' (argument missing, value to assign to variable)", fName))
assert(var_value == "string" or var_value == "number", string.format("bad argument #2 to '%s' (string or number expected, got %s)", fName, type(var_value)))
frame:callParserFunction('#vardefine', var_name, var_value)
end
--[[ procedure: overwrite_first_table_with_second ]]--
local function overwrite_first_table_with_second(first_table, second_table, ignore_keys)
ignore_keys = ignore_keys or {}
for k,v in pairs(second_table) do
local ignore = false
for _, ignored_key in ipairs(ignore_keys) do
if k == ignored_key then ignore = true end
end
if not ignore then
if type(v) == "table" then
if type(first_table[k]) == "table" then
overwrite_first_table_with_second(first_table[k], v)
else
first_table[k] = {}
overwrite_first_table_with_second(first_table[k], v)
end
else
first_table[k] = v
end
end
end
end
----------------------
-- dataset specific --
----------------------
--[[ function: find_def_table ]]--
local function find_def_table(def)
-- hidden variables: data
for k1,v1 in pairs(data) do
if type(v1) == "table" then
for k2,v2 in pairs(v1) do
if k2 == def then return v2 end
end
end
end
end
local function find_def_category_table(def)
for k1,v1 in pairs(data) do
if type(v1) == "table" then
for k2,v2 in pairs(v1) do
if k2 == def then return v1 end
end
end
end
end
--[[ function: merge_def_with_parents ]]--
local function merge_def_with_parents(def, ignore_keys)
-- hidden variables: ParentName and global data
local def_table = find_def_table(def)
local def_category_table = find_def_category_table(def)
local parent_names = {}
local parent_name = def_table["ParentName"]
local parent_table = def_category_table[parent_name]
while parent_name do
table.insert(parent_names, parent_name)
parent_name = parent_table["ParentName"]
parent_table = def_category_table[parent_name]
end
local inheritance_chain = shallowcopy(reverse_numeric_table(parent_names))
table.insert(inheritance_chain, def)
local merged = {}
local chain_length = #inheritance_chain
for i,v in ipairs(inheritance_chain) do
overwrite_first_table_with_second(merged, def_category_table[inheritance_chain[i]], ignore_keys)
end
return merged
end
--------------------------------
-- publicly exposed functions --
--------------------------------
local p = {}
function p.query(frame)
local fName = "query"
if not (frame.args["defName"] or frame.args["label"]) then
assert(frame.args["defName"], string.format("bad argument to '%s' (missing named argument 'defName' or 'label' needed to find a Def)", fName))
end
local def_table
if frame.args["defName"] then
def_table = find_def_table(frame.args["defName"])
if def_table then
def_table = merge_def_with_parents(frame.args["defName"], {"ParentName", "Abstract"})
end
end
if not def_table then
def_table = find_parent_table(find_key_name_of_value(frame.args["label"], frame.args), frame.args["label"], data["Races"])
if def_table then
def_table = merge_def_with_parents(def_table["defName"], {"ParentName", "Abstract"})
end
end
assert(def_table, "Def not found")
-- if there are no numeric arguments, output the def to log
local args_length = #frame.args
if args_length == 0 then
tprint(def_table)
end
-- get filtered data based on numeric arguments
local filtered = def_table
for i,v in ipairs(frame.args) do
filtered = search_table_recursive(v, filtered)
if type(filtered) == "string" or type(filtered) == "number" and i < args_length then
error(string.format("too many numeric arguments to '%s' (string, number or boolean already found)", fName), 0)
end
end
return filtered
end
-------------
-- logging --
-------------
--mw.log("Module:DefInfo:os.clock() " .. os.clock()*1000 .. " ms")
print("Module:DefInfo:os.clock() " .. os.clock()*1000 .. " ms")
return p