inspect.lua/README.md
2013-09-15 13:32:04 +02:00

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inspect.lua
===========
[![Build Status](https://travis-ci.org/kikito/inspect.lua.png?branch=master)](https://travis-ci.org/kikito/inspect.lua)
This function transform any Lua table into a human-readable representation of that table.
The objective here is human understanding (i.e. for debugging), not serialization or compactness.
Examples of use
===============
`inspect` has the following declaration: `str = inspect(value, <options>)`.
`value` can be any Lua value. `inspect` transforms simple types (like strings or numbers) into strings. Tables, on the other
hand, are rendered in a way a human can undersand.
"Array-like" tables are rendered horizontally:
inspect({1,2,3,4}) == "{ 1, 2, 3, 4 }"
"dictionary-like" tables are rendered with one element per line:
inspect({a=1,b=2}) == [[{
a = 1,
b = 2
}]]
The keys will be sorted alphanumerically when possible.
"Hybrid" tables will have the array part on the first line, and the dictionary part just below them:
inspect({1,2,3,b=2,a=1}) == [[{ 1, 2, 3,
a = 1,
b = 2
}]]
Tables can be nested, and will be indented with two spaces per level.
inspect({a={b=2}}) == [[{
a = {
b = 2
}
}]]
Functions, userdata and any other custom types from Luajit are simply as `<function x>`, `<userdata x>`, etc.:
inspect({ f = print, ud = some_user_data, thread = a_thread} ) == [[{
f = <function 1>,
u = <userdata 1>,
thread = <thread 1>
}]])
If the table has a metatable, inspect will include it at the end, in a special field called `<metatable>`:
inspect(setmetatable({a=1}, {b=2}) == [[{
a = 1
<metatable> = {
b = 2
}
}]])
`inspect` can handle tables with loops inside them. It will print `<id>` right before the table is printed out the first time, and replace the whole table with `<table id>` from then on, preventing infinite loops.
a = {1, 2}
b = {3, 4, a}
a[3] = b -- a references b, and b references a
inspect(a) = "<1>{ 1, 2, { 3, 4, <table 1> } }"
Notice that since both `a` appears more than once in the expression, it is prefixed by `<1>` and replaced by `<table 1>` every time it appears later on.
### options.depth
`inspect`'s second parameter allows controlling the maximum depth that will be printed out. When the max depth is reached, it'll just return `{...}`:
local t5 = {a = {b = {c = {d = {e = 5}}}}}
inspect(t5, {depth = 4}) == [[{
a = {
b = {
c = {
d = {...}
}
}
}
}]]
inspect(t5, {depth = 2}) == [[{
a = {
b = {...}
}
}]])
`options.depth` defaults to infinite (`math.huge`).
### options.filter
Sometimes it might be convenient to "filter out" some parts of the output. The `options.filter` option can do that.
`options.filter` accepts a table of values. Any value on that table will be rendered as `<filtered>`. This is useful for hiding things like long complex tables that are not interesting for the task at hand, for example an unuseful complex metatable.
local person = {name = 'peter'}
setmetatable(person, complex_mt)
inspect(x, {filter = {complex_mt}}) == [[{
name = "peter",
<metatable> = <filtered>
}]]
`options.filter` can also be a function. The function must return true for the values that must be filtered out.
local isEvenNumber = function(x) return type(x) == 'number' and x % 2 == 0 end
inspect({1,2,3,4,5}, {filter = isEvenNumber}) == "{ 1, <filtered>, 3, <filtered>, 5 }"
Gotchas / Warnings
==================
This method is *not* appropiate for saving/restoring tables. It is ment to be used by the programmer mainly while debugging a program.
Installation
============
Just copy the inspect.lua file somewhere in your projects (maybe inside a /lib/ folder) and require it accordingly.
Remember to store the value returned by require somewhere! (I suggest a local variable named inspect, altough others might like table.inspect)
local inspect = require 'inspect'
-- or --
table.inspect = require 'inspect'
Also, make sure to read the license file; the text of that license file must appear somewhere in your projects' files.
Specs
=====
This project uses [busted](http://olivinelabs.com/busted/) for its specs. If you want to run the specs, you will have to install telescope first. Then just execute the following from the root inspect folder:
busted