An awesome Swift HTML DSL library using result builders.
import SwiftHtml
let doc = Document(.html) {
Html {
Head {
Title("Hello Swift HTML DSL")
Meta().charset("utf-8")
Meta().name(.viewport).content("width=device-width, initial-scale=1")
Link(rel: .stylesheet).href("./css/style.css")
}
Body {
Main {
Div {
Section {
Img(src: "./images/swift.png", alt: "Swift Logo")
.title("Picture of the Swift Logo")
H1("Lorem ipsum")
.class("red")
P("Lorem ipsum dolor sit amet, consectetur adipiscing elit.")
.class(["green", "blue"])
.spellcheck(false)
}
A("Download SwiftHtml now!")
.href("https://github.com/binarybirds/swift-html/")
.target(.blank)
.download()
Abbr("WTFPL")
.title("Do What The Fuck You Want To Public License")
}
}
.class("container")
Script().src("./js/main.js").async()
}
}
}
let html = DocumentRenderer(minify: false, indent: 2).render(doc)
print(html)
You can simply use SwiftHtml
as a dependency via the Swift Package Manager:
.package(url: "https://github.com/binarybirds/swift-html", from: "1.6.0"),
Add the SwiftHtml
product from the swift-html
package as a dependency to your target:
.product(name: "SwiftHtml", package: "swift-html"),
Import the framework:
import SwiftHtml
That's it.
You can define your own custom tags by subclassing the Tag
or EmptyTag
class.
You can follow the same pattern if you take a look at the core tags.
open class Div: Tag {
}
// <div></div> - standard tag
open class Br: EmptyTag {
}
// <br> - no closing tag
By default the name of the tag is automatically derived from the class name (lowercased), but you can also create your own tag type & name by overriding the createNode()
class function.
open class LastBuildDate: Tag {
open override class func createNode() -> Node {
Node(type: .standard, name: "lastBuildDate")
}
}
// <lastBuildDate></lastBuildDate> - standard tag with custom name
It is also possible to create tags with altered content or default attributes.
open class Description: Tag {
public init(_ contents: String) {
super.init()
setContents("<![CDATA[" + contents + "]]>")
}
}
// <description><![CDATA[lorem ipsum]]></description> - content wrapped in CDATA
open class Rss: Tag {
public init(@TagBuilder _ builder: () -> [Tag]) {
super.init(builder())
setAttributes([
.init(key: "version", value: "2.0"),
])
}
}
// <rss version="2.0">...</rss> - tag with a default attribute
You can set, add or delete the attributes of a given tag.
Leaf("example")
// set (override) the current attributes
.setAttributes([
.init(key: "a", value: "foo"),
.init(key: "b", value: "bar"),
.init(key: "c", value: "baz"),
])
// add a new attribute using a key & value
.attribute("foo", "example")
// add a new flag attribute (without a value)
.flagAttribute("bar")
// delete an attribute by using a key
.deleteAttribute("b")
// <leaf a="foo" c="baz" foo="example" bar></leaf>
You can also manage the class atrribute through helper methods.
Span("foo")
// set (override) class values
.class("a", "b", "c")
// add new class values
.class(add: ["d", "e", "f"])
// add new class value if the condition is true
.class(add: "b", true)
/// remove multiple class values
.class(remove: ["b", "c", "d"])
/// remove a class value if the condition is true
.class(remove: "e", true)
// <span class="a f"></span>
You can create your own attribute modifier via an extension.
public extension Guid {
func isPermalink(_ value: Bool = true) -> Self {
attribute("isPermalink", String(value))
}
}
There are other built-in type-safe attribute modifiers available on tags.
You can come up with your own Tag
composition system by introducing a new protocol.
protocol TagRepresentable {
func build() -> Tag
}
struct ListComponent: TagRepresentable {
let items: [String]
init(_ items: [String]) {
self.items = items
}
@TagBuilder
func build() -> Tag {
Ul {
items.map { Li($0) }
}
}
}
let tag = ListComponent(["a", "b", "c"]).build()
This way it is also possible to extend the TagBuilder
to support the new protocol.
extension TagBuilder {
static func buildExpression(_ expression: TagRepresentable) -> Tag {
expression.build()
}
static func buildExpression(_ expression: TagRepresentable) -> [Tag] {
[expression.build()]
}
static func buildExpression(_ expression: [TagRepresentable]) -> [Tag] {
expression.map { $0.build() }
}
static func buildExpression(_ expression: [TagRepresentable]) -> Tag {
GroupTag {
expression.map { $0.build() }
}
}
}
Sometimes you'll need extra parameters for the build function, so you have to call the build method by hand.
In those cases it is recommended to introduce a render
function instead of using build.
let tag = WebIndexTemplate(ctx) {
ListComponent(["a", "b", "c"])
.render(req)
}
.render(req)
If you want to create a lightweight template engine for the Vapor web framework using SwiftHtml, you can see a working example inside the Feather CMS core repository.