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HTMLForge.jl

In the current state, HTMLForge.jl is a Julia wrapper around Google's Gumbo library for parsing HTML.

Important Note

HTMLForge is a continuation of the Gumbo.jl project, which is a Julia wrapper around the Gumbo C library.

Gumbo C library is no longer maintained, and HTMLForge is a fork of Gumbo.jl with the aim of maintaining the API of the original package while slowly removing C Gumbo dependency (since the renaming) and extending its functionality. If you were using Gumbo.jl, you should be able to switch to HTMLForge.jl with no changes to your code.

The long term plan

The long term plan is to make HTMLForge a pure Julia library. Alternatively, we can consider switching to a different C/Rust library that is still maintained.

Another goal is to make HTMX a first class citizen in HTMLForge - by adding types, functions and relevant syntax sugar to make it easy to work with HTMX in Julia/HTMLForge.

Getting started

Getting started is very easy:

julia> using HTMLForge

julia> parsehtml("<h1> Hello, world! </h1>")
"""
HTML Document:
<!DOCTYPE >
HTMLElement{:HTML}:
<HTML>
  <head></head>
  <body>
    <h1>
       Hello, world!
    </h1>
  </body>
</HTML>
"""

Read on for further documentation.

Installation

using Pkg
Pkg.add("HTMLForge")

or activate Pkg mode in the REPL by typing ], and then:

add HTMLForge

Basic usage

The workhorse is the parsehtml function, which takes a single argument, a valid UTF8 string, which is interpreted as HTML data to be parsed, e.g.:

parsehtml("<h1> Hello, world! </h1>")

Parsing an HTML file named filenamecan be done using:

julia> parsehtml(read(filename, String))

The result of a call to parsehtml is an HTMLDocument, a type which has two fields: doctype, which is the doctype of the parsed document (this will be the empty string if no doctype is provided), and root, which is a reference to the HTMLElement that is the root of the document.

Note that HTMLForge is a very permissive HTML parser, designed to gracefully handle the insanity that passes for HTML out on the wild, wild web. It will return a valid HTML document for any input, doing all sorts of algorithmic gymnastics to twist what you give it into valid HTML.

If you want an HTML validator, this is probably not your library. That said, parsehtml does take an optional Bool keyword argument, strict which, if true, causes an InvalidHTMLError to be thrown if the call to the HTMLForge C library produces any errors.

HTML types

This library defines a number of types for representing HTML.

HTMLDocument

HTMlDocument is what is returned from a call to parsehtml it has a doctype field, which contains the doctype of the parsed document, and a root field, which is a reference to the root of the document.

HTMLNodes

A document contains a tree of HTML Nodes, which are represented as children of the HTMLNode abstract type. The first of these is HTMLElement.

HTMLElement

mutable struct HTMLElement{T} <: HTMLNode
    children::Vector{HTMLNode}
    parent::HTMLNode
    attributes::Dict{String, String}
end

HTMLElement is probably the most interesting and frequently used type. An HTMLElement is parameterized by a symbol representing its tag. So an HTMLElement{:a} is a different type from an HTMLElement{:body}, etc. An empty HTMLElement of a given tag can be constructed as follows:

julia> HTMLElement(:div)
# HTMLElement{:div}:
# <div></div>

HTMLElements have a parent field, which refers to another HTMLNode. parent will always be an HTMLElement, unless the element has no parent (as is the case with the root of a document), in which case it will be a NullNode, a special type of HTMLNode which exists for just this purpose. Empty HTMLElements constructed as in the example above will also have a NullNode for a parent.

HTMLElements also have children, which is a vector of HTMLElement containing the children of this element, and attributes, which is a Dict mapping attribute names to values.

HTMLElements implement getindex, setindex!, and push!; indexing into or pushing onto an HTMLElement operates on its children array.

There are a number of convenience methods for working with HTMLElements:

  • tag(elem) get the tag of this element as a symbol

  • attrs(elem) return the attributes dict of this element

  • children(elem) return the children array of this element

  • getattr(elem, name) get the value of attribute name or raise a KeyError. Also supports being called with a default value (getattr(elem, name, default)) or function (getattr(f, elem, name)).

  • setattr!(elem, name, value) set the value of attribute name to value

HTMLText

type HTMLText <: HTMLNode
    parent::HTMLNode
    text::String
end

Represents text appearing in an HTML document. For example:

julia> doc = parsehtml("<h1> Hello, world! </h1>")
"""
HTML Document:
<!DOCTYPE >
HTMLElement{:HTML}:
<HTML>
  <head></head>
  <body>
    <h1>
       Hello, world!
    </h1>
  </body>
</HTML>

julia> doc.root[2][1][1]
HTML Text:  Hello, world!
"""

This type is quite simple, just a reference to its parent and the actual text it represents (this is also accessible by a text function). You can construct HTMLText instances as follows:

julia> HTMLText("Example text")
HTML Text: Example text

Just as with HTMLElements, the parent of an instance so constructed will be a NullNode.

Tree traversal

Use the iterators defined in AbstractTrees.jl, e.g.:

using AbstractTrees

using HTMLForge

doc = parsehtml("""
                <html>
                  <body>
                    <div>
                      <p></p> <a></a> <p></p>
                    </div>
                    <div>
                      <span></span>
                    </div>
                  </body>
                </html>
                """);

for elem in PreOrderDFS(doc.root) println(tag(elem)) end
# HTML
# head
# body
# div
# p
# a
# p
# div
# span

for elem in PostOrderDFS(doc.root) println(tag(elem)) end
# head
# p
# a
# p
# div
# span
# div
# body
# HTML

for elem in StatelessBFS(doc.root) println(tag(elem)) end
# HTML
# head
# body
# div
# div
# p
# a
# p
# span

TODOS

  • support CDATA
  • support comments