This crate provides the html!
macro for building fully type checked HTML
documents inside your Rust code using roughly JSX compatible syntax.
This crate is a fork of the great Bodil Stokke's typed-html crate. Opted for a fork instead of maintainership because not currently intending to use or maintain the Wasm compatibility (for now).
let mut doc: DOMTree<String> = html!(
<html>
<head>
<title>"Hello Axo"</title>
<meta name=Metadata::Author content="Axo Developer Co."/>
</head>
<body>
<h1>">o_o<"</h1>
<p class="official">
"The tool company for tool companies"
</p>
{ (0..3).map(|_| html!(
<p class="emphasis">
">o_o<"
</p>
)) }
<p class="citation-needed">
"Every company should be a developer experience company."
</p>
</body>
</html>
);
let doc_str = doc.to_string();
This macro largely follows JSX syntax, but with some differences:
- Text nodes must be quoted, because there's only so much Rust's tokeniser can
handle outside string literals. So, instead of
<p>Hello</p>
, you need to write<p>"Hello"</p>
. (The parser will throw an error asking you to do this if you forget.) - Element attributes will accept simple Rust expressions, but the parser has its limits, as it's not a full Rust parser. You can use literals, variables, dotted properties, type constructors and single function or method calls. If you use something the parser isn't currently capable of handling, it will complain. You can put braces or parentheses around the expression if the parser doesn't understand it. You can use any Rust code inside a brace or parenthesis block.
The macro will only accept valid HTML5 tags, with no tags or attributes marked experimental or obsolete. If it won't accept something you want it to accept, we can discuss it over a pull request (experimental tags and attributes, in particular, are mostly omitted just for brevity, and you're welcome to implement them).
The structure validation is simplistic by necessity, as it defers to the type system: a few elements will have one or more required children, and any element which accepts children will have a restriction on the type of the children, usually a broad group as defined by the HTML spec. Many elements have restrictions on children of children, or require a particular ordering of optional elements, which isn't currently validated.
Brace blocks in the attribute value position should return the expected type for the attribute. The type checker will complain if you return an unsupported type. You can also use literals or a few simple Rust expressions as attribute values (see the Syntax section above).
The html!
macro will add an .into()
call to the value
expression, so that you can use any type that has an Into<A>
trait
defined for the actual attribute type A
.
As a special case, if you use a string literal, the macro will instead use the
FromStr<A>
trait to try and parse the string literal into the
expected type. This is extremely useful for eg. CSS classes, letting you type
class="css-class-1 css-class-2"
instead of going to the trouble of
constructing a SpacedSet<Class>
. The big caveat for this:
currently, the macro is not able to validate the string at compile time, and the
conversion will panic at runtime if the string is invalid.
let classList: SpacedSet<Class> = ["foo", "bar", "baz"].try_into()?;
html!(
<div>
<div class="foo bar baz" /> // parses a string literal
<div class=["foo", "bar", "baz"] /> // uses From<[&str, &str, &str]>
<div class=classList /> // uses a variable in scope
<div class={ // evaluates a code block
SpacedSet::try_from(["foo", "bar", "baz"])?
} />
</div>
)
Brace blocks in the child node position are expected to return an
IntoIterator
of DOMTree
s. You can return single
elements or text nodes, as they both implement IntoIterator
for themselves.
The macro will consume this iterator at runtime and insert the generated nodes
as children in the expected position.
html!(
<ul>
{ (1..=5).map(|i| html!(
<li>{ text!("{}", i) }</li>
)) }
</ul>
)
You have two options for actually producing something useful from the DOM tree that comes out of the macro.
The DOM tree data structure implements Display
, so you can call
to_string()
on it to render it to a String
. If you
plan to do this, the type of the tree should be DOMTree<String>
to
ensure you're not using any event handlers that can't be printed.
let doc: DOMTree<String> = html!(
<p>"Hello Axo"</p>
);
let doc_str = doc.to_string();
assert_eq!("<p>Hello Axo</p>", doc_str);
The DOM tree structure also implements a method called vnode()
, which renders
the tree to a tree of VNode
s, which is a mirror of the generated tree
with every attribute value rendered into String
s. You can walk this virtual
DOM tree and pass it on to your favourite virtual DOM system.
This software is subject to the terms of the Mozilla Public License, v. 2.0. If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
Copyright 2018 Bodil Stokke, 2022 Axo Developer Co.