SwiftSoup
is a pure Swift library, cross-platform (macOS, iOS, tvOS, watchOS and Linux!), for working with real-world HTML. It provides a very convenient API for extracting and manipulating data, using the best of DOM, CSS, and jQuery-like methods.
SwiftSoup
implements the WHATWG HTML5 specification, and parses HTML to the same DOM as modern browsers do.
- Scrape and parse HTML from a URL, file, or string
- Find and extract data, using DOM traversal or CSS selectors
- Manipulate the HTML elements, attributes, and text
- Clean user-submitted content against a safe white-list, to prevent XSS attacks
- Output tidy HTML
SwiftSoup
is designed to deal with all varieties of HTML found in the wild; from pristine and validating, to invalid tag-soup;SwiftSoup
will create a sensible parse tree.
Swift 5 >=2.0.0
Swift 4.2 1.7.4
SwiftSoup is available through CocoaPods. To install it, simply add the following line to your Podfile:
pod 'SwiftSoup'
SwiftSoup is also available through Carthage. To install it, simply add the following line to your Cartfile:
github "scinfu/SwiftSoup"
SwiftSoup is also available through Swift Package Manager. To install it, simply add the dependency to your Package.Swift file:
...
dependencies: [
.package(url: "https://github.com/scinfu/SwiftSoup.git", from: "1.7.4"),
],
targets: [
.target( name: "YourTarget", dependencies: ["SwiftSoup"]),
]
...
pod try SwiftSoup
do {
let html = "<html><head><title>First parse</title></head>"
+ "<body><p>Parsed HTML into a doc.</p></body></html>"
let doc: Document = try SwiftSoup.parse(html)
return try doc.text()
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
- Unclosed tags (e.g.
<p>Lorem <p>Ipsum
parses to<p>Lorem</p> <p>Ipsum</p>
) - Implicit tags (e.g. a naked
<td>Table data</td>
is wrapped into a<table><tr><td>...
) - Reliably creating the document structure (
html
containing ahead
andbody
, and only appropriate elements within the head)
- Documents consist of Elements and TextNodes
- The inheritance chain is:
Document
extendsElement
extendsNode.TextNode
extendsNode
. - An Element contains a list of children Nodes, and has one parent Element. They also have provide a filtered list of child Elements only.
After parsing a document, and finding some elements, you'll want to get at the data inside those elements.
- To get the value of an attribute, use the
Node.attr(_ String key)
method - For the text on an element (and its combined children), use
Element.text()
- For HTML, use
Element.html()
, orNode.outerHtml()
as appropriate
do {
let html: String = "<p>An <a href='http://example.com/'><b>example</b></a> link.</p>";
let doc: Document = try SwiftSoup.parse(html)
let link: Element = try doc.select("a").first()!
let text: String = try doc.body()!.text(); // "An example link"
let linkHref: String = try link.attr("href"); // "http://example.com/"
let linkText: String = try link.text(); // "example""
let linkOuterH: String = try link.outerHtml(); // "<a href="http://example.com"><b>example</b></a>"
let linkInnerH: String = try link.html(); // "<b>example</b>"
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
The methods above are the core of the element data access methods. There are additional others:
Element.id()
Element.tagName()
Element.className()
andElement.hasClass(_ String className)
All of these accessor methods have corresponding setter methods to change the data.
You have HTML in a Swift String, and you want to parse that HTML to get at its contents, or to make sure it's well formed, or to modify it. The String may have come from user input, a file, or from the web.
Use the static SwiftSoup.parse(_ html: String)
method, or SwiftSoup.parse(_ html: String, _ baseUri: String)
.
do {
let html = "<html><head><title>First parse</title></head>"
+ "<body><p>Parsed HTML into a doc.</p></body></html>"
let doc: Document = try SwiftSoup.parse(html)
return try doc.text()
} catch Exception.Error(let type, let message) {
print("")
} catch {
print("")
}
The parse(_ html: String, _ baseUri: String)
method parses the input HTML into a new Document
. The base URI argument is used to resolve relative URLs into absolute URLs, and should be set to the URL where the document was fetched from. If that's not applicable, or if you know the HTML has a base element, you can use the parse(_ html: String)
method.
As long as you pass in a non-null string, you're guaranteed to have a successful, sensible parse, with a Document containing (at least) a head
and a body
element.
Once you have a Document
, you can get at the data using the appropriate methods in Document
and its supers Element
and Node
.
You have a fragment of body HTML (e.g. div
containing a couple of p tags; as opposed to a full HTML document) that you want to parse. Perhaps it was provided by a user submitting a comment, or editing the body of a page in a CMS.
Use the SwiftSoup.parseBodyFragment(_ html: String)
method.
do {
let html: String = "<div><p>Lorem ipsum.</p>"
let doc: Document = try SwiftSoup.parseBodyFragment(html)
let body: Element? = doc.body()
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
The parseBodyFragment
method creates an empty shell document, and inserts the parsed HTML into the body
element. If you used the normal SwiftSoup(_ html: String)
method, you would generally get the same result, but explicitly treating the input as a body fragment ensures that any bozo HTML provided by the user is parsed into the body
element.
The Document.body()
method retrieves the element children of the document's body
element; it is equivalent to doc.getElementsByTag("body")
.
If you are going to accept HTML input from a user, you need to be careful to avoid cross-site scripting attacks. See the documentation for the Whitelist
based cleaner, and clean the input with clean(String bodyHtml, Whitelist whitelist)
.
You want to allow untrusted users to supply HTML for output on your website (e.g. as comment submission). You need to clean this HTML to avoid cross-site scripting (XSS) attacks.
Use the SwiftSoup HTML Cleaner
with a configuration specified by a Whitelist
.
do {
let unsafe: String = "<p><a href='http://example.com/' onclick='stealCookies()'>Link</a></p>"
let safe: String = try SwiftSoup.clean(unsafe, Whitelist.basic())!
// now: <p><a href="http://example.com/" rel="nofollow">Link</a></p>
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
A cross-site scripting attack against your site can really ruin your day, not to mention your users'. Many sites avoid XSS attacks by not allowing HTML in user submitted content: they enforce plain text only, or use an alternative markup syntax like wiki-text or Markdown. These are seldom optimal solutions for the user, as they lower expressiveness, and force the user to learn a new syntax.
A better solution may be to use a rich text WYSIWYG editor (like CKEditor or TinyMCE). These output HTML, and allow the user to work visually. However, their validation is done on the client side: you need to apply a server-side validation to clean up the input and ensure the HTML is safe to place on your site. Otherwise, an attacker can avoid the client-side Javascript validation and inject unsafe HMTL directly into your site
The SwiftSoup whitelist sanitizer works by parsing the input HTML (in a safe, sand-boxed environment), and then iterating through the parse tree and only allowing known-safe tags and attributes (and values) through into the cleaned output.
It does not use regular expressions, which are inappropriate for this task.
SwiftSoup provides a range of Whitelist
configurations to suit most requirements; they can be modified if necessary, but take care.
The cleaner is useful not only for avoiding XSS, but also in limiting the range of elements the user can provide: you may be OK with textual a
, strong
elements, but not structural div
or table
elements.
- See the XSS cheat sheet and filter evasion guide, as an example of how regular-expression filters don't work, and why a safe whitelist parser-based sanitizer is the correct approach.
- See the
Cleaner
reference if you want to get aDocument
instead of a String return - See the
Whitelist
reference for the different canned options, and to create a custom whitelist - The nofollow link attribute
You have a parsed document that you would like to update attribute values on, before saving it out to disk, or sending it on as a HTTP response.
Use the attribute setter methods Element.attr(_ key: String, _ value: String)
, and Elements.attr(_ key: String, _ value: String)
.
If you need to modify the class attribute of an element, use the Element.addClass(_ className: String)
and Element.removeClass(_ className: String)
methods.
The Elements
collection has bulk attribute and class methods. For example, to add a rel="nofollow"
attribute to every a
element inside a div:
do {
try doc.select("div.comments a").attr("rel", "nofollow")
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
Like the other methods in Element
, the attr methods return the current Element
(or Elements
when working on a collection from a select). This allows convenient method chaining:
do {
try doc.select("div.masthead").attr("title", "swiftsoup").addClass("round-box");
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
You need to modify the HTML of an element.
Use the HTML setter methods in Element
:
do {
let doc: Document = try SwiftSoup.parse("<div>One</div><span>One</span>")
let div: Element = try doc.select("div").first()! // <div></div>
try div.html("<p>lorem ipsum</p>") // <div><p>lorem ipsum</p></div>
try div.prepend("<p>First</p>")
try div.append("<p>Last</p>")
print(div)
// now div is: <div><p>First</p><p>lorem ipsum</p><p>Last</p></div>
let span: Element = try doc.select("span").first()! // <span>One</span>
try span.wrap("<li><a href='http://example.com/'></a></li>")
print(doc)
// now: <li><a href="http://example.com/"><span>One</span></a></li>
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
Element.html(_ html: String)
clears any existing inner HTML in an element, and replaces it with parsed HTML.Element.prepend(_ first: String)
andElement.append(_ last: String)
add HTML to the start or end of an element's inner HTML, respectivelyElement.wrap(_ around: String)
wraps HTML around the outer HTML of an element.
You can also use the Element.prependElement(_ tag: String)
and Element.appendElement(_ tag: String)
methods to create new elements and insert them into the document flow as a child element.
You need to modify the text content of an HTML document.
Use the text setter methods of Element
:
do {
let doc: Document = try SwiftSoup.parse("")
let div: Element = try doc.select("div").first()! // <div></div>
try div.text("five > four") // <div>five > four</div>
try div.prepend("First ")
try div.append(" Last")
// now: <div>First five > four Last</div>
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
The text setter methods mirror the [[HTML setter|Set the HTML of an element]] methods:
Element.text(_ text: String)
clears any existing inner HTML in an element, and replaces it with the supplied text.Element.prepend(_ first: String)
andElement.append(_ last: String)
add text nodes to the start or end of an element's inner HTML, respectively The text should be supplied unencoded: characters like<
,>
etc will be treated as literals, not HTML.
You have a HTML document that you want to extract data from. You know generally the structure of the HTML document.
Use the DOM-like methods available after parsing HTML into a Document
.
do {
let html: String = "<a id=1 href='?foo=bar&mid<=true'>One</a> <a id=2 href='?foo=bar<qux&lg=1'>Two</a>"
let els: Elements = try SwiftSoup.parse(html).select("a")
for link: Element in els.array() {
let linkHref: String = try link.attr("href")
let linkText: String = try link.text()
}
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
Elements provide a range of DOM-like methods to find elements, and extract and manipulate their data. The DOM getters are contextual: called on a parent Document they find matching elements under the document; called on a child element they find elements under that child. In this way you can window in on the data you want.
getElementById(_ id: String)
getElementsByTag(_ tag:String)
getElementsByClass(_ className: String)
getElementsByAttribute(_ key: String)
(and related methods)- Element siblings:
siblingElements()
,firstElementSibling()
,lastElementSibling()
,nextElementSibling()
,previousElementSibling()
- Graph:
parent()
,children()
,child(_ index: Int)
attr(_ key: Strin)
to get andattr(_ key: String, _ value: String)
to set attributesattributes()
to get all attributesid()
,className()
andclassNames()
text()
to get andtext(_ value: String)
to set the text contenthtml()
to get andhtml(_ value: String)
to set the inner HTML contentouterHtml()
to get the outer HTML valuedata()
to get data content (e.g. of script and style tags)tag()
andtagName()
append(_ html: String)
,prepend(html: String)
appendText(text: String)
,prependText(text: String)
appendElement(tagName: String)
,prependElement(tagName: String)
html(_ value: String)
You want to find or manipulate elements using a CSS or jQuery-like selector syntax.
Use the Element.select(_ selector: String)
and Elements.select(_ selector: String)
methods:
do {
let doc: Document = try SwiftSoup.parse("...")
let links: Elements = try doc.select("a[href]") // a with href
let pngs: Elements = try doc.select("img[src$=.png]")
// img with src ending .png
let masthead: Element? = try doc.select("div.masthead").first()
// div with class=masthead
let resultLinks: Elements? = try doc.select("h3.r > a") // direct a after h3
} catch Exception.Error(let type, let message) {
print(message)
} catch {
print("error")
}
SwiftSoup elements support a CSS (or jQuery) like selector syntax to find matching elements, that allows very powerful and robust queries.
The select
method is available in a Document
, Element
, or in Elements
. It is contextual, so you can filter by selecting from a specific element, or by chaining select calls.
Select returns a list of Elements
(as Elements
), which provides a range of methods to extract and manipulate the results.
tagname
: find elements by tag, e.g.a
ns|tag
: find elements by tag in a namespace, e.g.fb|name
finds<fb:name>
elements#id
: find elements by ID, e.g.#logo
.class
: find elements by class name, e.g..masthead
[attribute]
: elements with attribute, e.g.[href]
[^attr]
: elements with an attribute name prefix, e.g.[^data-]
finds elements with HTML5 dataset attributes[attr=value]
: elements with attribute value, e.g.[width=500]
(also quotable, like[data-name='launch sequence']
)[attr^=value]
,[attr$=value]
,[attr*=value]
: elements with attributes that start with, end with, or contain the value, e.g.[href*=/path/]
[attr~=regex]
: elements with attribute values that match the regular expression; e.g.img[src~=(?i)\.(png|jpe?g)]
*
: all elements, e.g.*
el#id
: elements with ID, e.g.div#logo
el.class
: elements with class, e.g.div.masthead
el[attr]
: elements with attribute, e.g.a[href]
- Any combination, e.g.
a[href].highlight
- Ancestor
child
: child elements that descend from ancestor, e.g..body p
findsp
elements anywhere under a block with class "body" parent > child
: child elements that descend directly from parent, e.g.div.content > p
finds p elements; andbody > *
finds the direct children of the body tagsiblingA + siblingB
: finds sibling B element immediately preceded by sibling A, e.g.div.head + div
siblingA ~ siblingX
: finds sibling X element preceded by sibling A, e.g.h1 ~ p
el
,el
,el
: group multiple selectors, find unique elements that match any of the selectors; e.g.div.masthead
,div.logo
:lt(n)
: find elements whose sibling index (i.e. its position in the DOM tree relative to its parent) is less than n; e.g.td:lt(3)
:gt(n)
: find elements whose sibling index is greater than n; e.g.div p:gt(2)
:eq(n)
: find elements whose sibling index is equal to n; e.g.form input:eq(1)
:has(seletor)
: find elements that contain elements matching the selector; e.g.div:has(p)
:not(selector)
: find elements that do not match the selector; e.g.div:not(.logo)
:contains(text)
: find elements that contain the given text. The search is case-insensitive; e.g.p:contains(swiftsoup)
:containsOwn(text)
: find elements that directly contain the given text:matches(regex)
: find elements whose text matches the specified regular expression; e.g.div:matches((?i)login)
:matchesOwn(regex)
: find elements whose own text matches the specified regular expression- Note that the above indexed pseudo-selectors are 0-based, that is, the first element is at index 0, the second at 1, etc
let html = "<html><head><title>First parse</title></head><body><p>Parsed HTML into a doc.</p></body></html>"
guard let doc: Document = try? SwiftSoup.parse(html) else { return }
guard let elements = try? doc.getAllElements() else { return html }
for element in elements {
for textNode in element.textNodes() {
[...]
}
}
try doc.head()?.append("<style>html {font-size: 2em}</style>")
let html = "<div class=\"container-fluid\">"
+ "<div class=\"panel panel-default \">"
+ "<div class=\"panel-body\">"
+ "<form id=\"coupon_checkout\" action=\"http://uat.all.com.my/checkout/couponcode\" method=\"post\">"
+ "<input type=\"hidden\" name=\"transaction_id\" value=\"4245\">"
+ "<input type=\"hidden\" name=\"lang\" value=\"EN\">"
+ "<input type=\"hidden\" name=\"devicetype\" value=\"\">"
+ "<div class=\"input-group\">"
+ "<input type=\"text\" class=\"form-control\" id=\"coupon_code\" name=\"coupon\" placeholder=\"Coupon Code\">"
+ "<span class=\"input-group-btn\">"
+ "<button class=\"btn btn-primary\" type=\"submit\">Enter Code</button>"
+ "</span>"
+ "</div>"
+ "</form>"
+ "</div>"
+ "</div>"
guard let doc: Document = try? SwiftSoup.parse(html) else { return } // parse html
let elements = try doc.select("[name=transaction_id]") // query
let transaction_id = try elements.get(0) // select first element
let value = try transaction_id.val() // get value
print(value) // 4245
guard let doc: Document = try? SwiftSoup.parse(html) else { return } // parse html
guard let txt = try? doc.text() else { return }
print(txt)
let xml = "<?xml version='1' encoding='UTF-8' something='else'?><val>One</val>"
guard let doc = try? SwiftSoup.parse(xml, "", Parser.xmlParser()) else { return }
guard let element = try? doc.getElementsByTag("val").first() // Find first element
element.text("NewValue") // Edit Value
let valueString = element.text() // "NewValue"
do {
let doc: Document = try SwiftSoup.parse(html)
let srcs: Elements = try doc.select("img[src]")
let srcsStringArray: [String?] = srcs.array().map { try? $0.attr("src").description }
// do something with srcsStringArray
} catch Exception.Error(_, let message) {
print(message)
} catch {
print("error")
}
let html = "<a id=1 href='?foo=bar&mid<=true'>One</a> <a id=2 href='?foo=bar<qux&lg=1'>Two</a>"
guard let els: Elements = try? SwiftSoup.parse(html).select("a") else { return }
for element: Element in els.array() {
print(try? element.attr("href"))
}
Output:
"?foo=bar&mid<=true"
"?foo=bar<qux&lg=1"
let text = "Hello &<> Å å π 新 there ¾ © »"
print(Entities.escape(text))
print(Entities.unescape(text))
print(Entities.escape(text, OutputSettings().encoder(String.Encoding.ascii).escapeMode(Entities.EscapeMode.base)))
print(Entities.escape(text, OutputSettings().charset(String.Encoding.ascii).escapeMode(Entities.EscapeMode.extended)))
print(Entities.escape(text, OutputSettings().charset(String.Encoding.ascii).escapeMode(Entities.EscapeMode.xhtml)))
print(Entities.escape(text, OutputSettings().charset(String.Encoding.utf8).escapeMode(Entities.EscapeMode.extended)))
print(Entities.escape(text, OutputSettings().charset(String.Encoding.utf8).escapeMode(Entities.EscapeMode.xhtml)))
Output:
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
"Hello &<> Å å π 新 there ¾ © »"
Nabil Chatbi, [email protected]
SwiftSoup was ported to Swift from Java Jsoup library.
SwiftSoup is available under the MIT license. See the LICENSE file for more info.