LDoc2tl/ldoc/builtin/global.lua

286 lines
13 KiB
Lua
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

--- Lua global functions.
module 'global'
---
-- Issues an error when the value of its argument `v` is false (i.e.,
-- nil or false); otherwise, returns all its arguments. `message` is an error
-- message; when absent, it defaults to "assertion failed!"
function assert(v , message) end
---
-- This function is a generic interface to the garbage collector. It
-- performs different functions according to its first argument, `opt`:
--
-- * "stop": stops the garbage collector.
-- * "restart": restarts the garbage collector.
-- * "collect": performs a full garbage-collection cycle.
-- * "count": returns the total memory in use by Lua (in Kbytes).
-- * "step": performs a garbage-collection step. The step "size" is controlled
-- by `arg` (larger values mean more steps) in a non-specified way. If you
-- want to control the step size you must experimentally tune the value of
-- * "arg". Returns true if the step finished a collection cycle.
-- * "setpause": sets `arg` as the new value for the *pause* of the collector
-- (see §2.10). Returns the previous value for *pause*.
-- * "setstepmul": sets `arg` as the new value for the *step multiplier*
-- of the collector (see §2.10). Returns the previous value for *step*.
--
function collectgarbage(opt , arg) end
---
-- Opens the named file and executes its contents as a Lua chunk. When
-- called without arguments,
-- `dofile` executes the contents of the standard input (`stdin`). Returns
-- all values returned by the chunk. In case of errors, `dofile` propagates
-- the error to its caller (that is, `dofile` does not run in protected mode).
function dofile(filename) end
---
-- Terminates the last protected function called and returns `message`
-- as the error message. Function `error` never returns.
-- Usually, `error` adds some information about the error position at the
-- beginning of the message. The `level` argument specifies how to get the
-- error position. With level 1 (the default), the error position is where the
-- `error` function was called. Level 2 points the error to where the function
-- that called `error` was called; and so on. Passing a level 0 avoids the
-- addition of error position information to the message.
function error(message , level) end
---
-- A global variable (not a function) that holds the global environment
-- (that is, `_G._G = _G`). Lua itself does not use this variable; changing
-- its value does not affect any environment, nor vice-versa. (Use `setfenv`
-- to change environments.)
-- function _G end
-- * `_G._G`: _G._G
---
-- Returns the current environment in use by the function.
-- `f` can be a Lua function or a number that specifies the function at that
-- stack level: Level 1 is the function calling `getfenv`. If the given
-- function is not a Lua function, or if `f` is 0, `getfenv` returns the
-- global environment. The default for `f` is 1.
function getfenv(f) end
---
-- If `object` does not have a metatable, returns nil. Otherwise, if the
-- object's metatable has a `"__metatable"` field, returns the associated
-- value. Otherwise, returns the metatable of the given object.
function getmetatable(object) end
---
-- Returns three values: an iterator function, the table `t`, and 0,
-- so that the construction
-- for i,v in ipairs(t) do *body* end
-- will iterate over the pairs (`1,t[1]`), (`2,t[2]`), ..., up to the
-- first integer key absent from the table.
function ipairs(t) end
---
-- Loads a chunk using function `func` to get its pieces. Each call to
-- `func` must return a string that concatenates with previous results. A
-- return of an empty string, nil, or no value signals the end of the chunk.
-- If there are no errors, returns the compiled chunk as a function; otherwise,
-- returns nil plus the error message. The environment of the returned function
-- is the global environment.
-- `chunkname` is used as the chunk name for error messages and debug
-- information. When absent, it defaults to "`=(load)`".
function load(func , chunkname) end
---
-- Similar to `load`, but gets the chunk from file `filename` or from the
-- standard input, if no file name is given.
function loadfile(filename) end
---
-- Similar to `load`, but gets the chunk from the given string.
-- To load and run a given string, use the idiom
-- assert(loadstring(s))()
-- When absent, `chunkname` defaults to the given string.
function loadstring(string , chunkname) end
---
-- Allows a program to traverse all fields of a table. Its first argument is
-- a table and its second argument is an index in this table. `next` returns
-- the next index of the table and its associated value.
--
-- When called with nil
-- as its second argument, `next` returns an initial index and its associated
-- value. When called with the last index, or with nil in an empty table, `next`
-- returns nil.
--
-- If the second argument is absent, then it is interpreted as
-- nil. In particular, you can use `next(t)` to check whether a table is empty.
-- The order in which the indices are enumerated is not specified, *even for
-- numeric indices*. (To traverse a table in numeric order, use a numerical
-- for or the `ipairs` function.)
--
-- The behavior of `next` is *undefined* if, during the traversal, you assign
-- any value to a non-existent field in the table. You may however modify
-- existing fields. In particular, you may clear existing fields.
function next(table , index) end
---
-- Returns three values: the `next` function, the table `t`, and nil,
-- so that the construction
-- for k,v in pairs(t) do *body* end
-- will iterate over all keyvalue pairs of table `t`.
-- See function `next` for the caveats of modifying the table during its
-- traversal.
function pairs(t) end
---
-- Calls function `f` with the given arguments in *protected mode*. This
-- means that any error inside `f` is not propagated; instead, `pcall` catches
-- the error and returns a status code. Its first result is the status code (a
-- boolean), which is true if the call succeeds without errors. In such case,
-- `pcall` also returns all results from the call, after this first result. In
-- case of any error, `pcall` returns false plus the error message.
function pcall(f, arg1, ...) end
---
-- Receives any number of arguments, and prints their values to `stdout`,
-- using the `tostring` function to convert them to strings. `print` is not
-- intended for formatted output, but only as a quick way to show a value,
-- typically for debugging. For formatted output, use `string.format`.
function print(...) end
---
-- Checks whether `v1` is equal to `v2`, without invoking any
-- metamethod. Returns a boolean.
function rawequal(v1, v2) end
---
-- Gets the real value of `table[index]`, without invoking any
-- metamethod. `table` must be a table; `index` may be any value.
function rawget(table, index) end
---
-- Sets the real value of `table[index]` to `value`, without invoking any
-- metamethod. `table` must be a table, `index` any value different from nil,
-- and `value` any Lua value.
-- This function returns `table`.
function rawset(table, index, value) end
---
-- If `index` is a number, returns all arguments after argument number
-- `index`. Otherwise, `index` must be the string `"#"`, and `select` returns
-- the total number of extra arguments it received.
function select(index, ...) end
---
-- Sets the environment to be used by the given function. `f` can be a Lua
-- function or a number that specifies the function at that stack level: Level
-- 1 is the function calling `setfenv`. `setfenv` returns the given function.
-- As a special case, when `f` is 0 `setfenv` changes the environment of the
-- running thread. In this case, `setfenv` returns no values.
function setfenv(f, table) end
---
-- Sets the metatable for the given table. (You cannot change the metatable
-- of other types from Lua, only from C.) If `metatable` is nil, removes the
-- metatable of the given table. If the original metatable has a `"__metatable"`
-- field, raises an error.
-- This function returns `table`.
function setmetatable(table, metatable) end
---
-- Tries to convert its argument to a number. If the argument is already
-- a number or a string convertible to a number, then `tonumber` returns this
-- number; otherwise, it returns nil.
-- An optional argument specifies the base to interpret the numeral. The base
-- may be any integer between 2 and 36, inclusive. In bases above 10, the
-- letter '`A`' (in either upper or lower case) represents 10, '`B`' represents
-- 11, and so forth, with '`Z`' representing 35. In base 10 (the default),
-- the number can have a decimal part, as well as an optional exponent part
-- (see §2.1). In other bases, only unsigned integers are accepted.
function tonumber(e , base) end
---
-- Receives an argument of any type and converts it to a string in a
-- reasonable format. For complete control of how numbers are converted, use
-- `string.format`.
-- If the metatable of `e` has a `"__tostring"` field, then `tostring` calls
-- the corresponding value with `e` as argument, and uses the result of the
-- call as its result.
function tostring(e) end
---
-- Returns the type of its only argument, coded as a string. The possible
-- results of this function are "
-- `nil`" (a string, not the value nil), "`number`", "`string`", "`boolean`",
-- "`table`", "`function`", "`thread`", and "`userdata`".
function type(v) end
---
-- Returns the elements from the given table. This function is equivalent to
-- return list[i], list[i+1], ..., list[j]
-- except that the above code can be written only for a fixed number of
-- elements. By default, `i` is 1 and `j` is the length of the list, as
-- defined by the length operator (see §2.5.5).
function unpack(list , i , j) end
---
-- A global variable (not a function) that holds a string containing the
-- current interpreter version. The current contents of this variable is
-- "`Lua 5.1`".
-- function _VERSION end
-- * `_G._VERSION`: _G._VERSION
---
-- This function is similar to `pcall`, except that you can set a new
-- error handler.
-- `xpcall` calls function `f` in protected mode, using `err` as the error
-- handler. Any error inside `f` is not propagated; instead, `xpcall` catches
-- the error, calls the `err` function with the original error object, and
-- returns a status code. Its first result is the status code (a boolean),
-- which is true if the call succeeds without errors. In this case, `xpcall`
-- also returns all results from the call, after this first result. In case
-- of any error, `xpcall` returns false plus the result from `err`.
function xpcall(f, err) end
---
-- Creates a module. If there is a table in `package.loaded[name]`,
-- this table is the module. Otherwise, if there is a global table `t`
-- with the given name, this table is the module. Otherwise creates a new
-- table `t` and sets it as the value of the global `name` and the value of
-- `package.loaded[name]`. This function also initializes `t._NAME` with the
-- given name, `t._M` with the module (`t` itself), and `t._PACKAGE` with the
-- package name (the full module name minus last component; see below). Finally,
-- `module` sets `t` as the new environment of the current function and the
-- new value of `package.loaded[name]`, so that `require` returns `t`.
-- If `name` is a compound name (that is, one with components separated by
-- dots), `module` creates (or reuses, if they already exist) tables for each
-- component. For instance, if `name` is `a.b.c`, then `module` stores the
-- module table in field `c` of field `b` of global `a`.
-- This function can receive optional *options* after the module name, where
-- each option is a function to be applied over the module.
function module(name , ...) end
---
-- Loads the given module. The function starts by looking into the
-- `package.loaded` table to determine whether `modname` is already
-- loaded. If it is, then `require` returns the value stored at
-- `package.loaded[modname]`. Otherwise, it tries to find a *loader* for
-- the module.
-- To find a loader, `require` is guided by the `package.loaders` array. By
-- changing this array, we can change how `require` looks for a module. The
-- following explanation is based on the default configuration for
-- `package.loaders`.
-- First `require` queries `package.preload[modname]`. If it has a value,
-- this value (which should be a function) is the loader. Otherwise `require`
-- searches for a Lua loader using the path stored in `package.path`. If
-- that also fails, it searches for a C loader using the path stored in
-- `package.cpath`. If that also fails, it tries an *all-in-one* loader (see
-- `package.loaders`).
-- Once a loader is found, `require` calls the loader with a single argument,
-- `modname`. If the loader returns any value, `require` assigns the returned
-- value to `package.loaded[modname]`. If the loader returns no value and
-- has not assigned any value to `package.loaded[modname]`, then `require`
-- assigns true to this entry. In any case, `require` returns the final value
-- of `package.loaded[modname]`.
-- If there is any error loading or running the module, or if it cannot find
-- any loader for the module, then `require` signals an error.
function require(modname) end