dioxus/packages/ssr/src/lib.rs
2022-01-02 02:15:04 -05:00

435 lines
12 KiB
Rust

#![doc = include_str!("../README.md")]
use std::fmt::{Display, Formatter};
use dioxus_core::exports::bumpalo;
use dioxus_core::exports::bumpalo::Bump;
use dioxus_core::IntoVNode;
use dioxus_core::*;
pub struct SsrRenderer {
inner: bumpalo::Bump,
cfg: SsrConfig,
}
impl SsrRenderer {
pub fn new(cfg: impl FnOnce(SsrConfig) -> SsrConfig) -> Self {
Self {
cfg: cfg(SsrConfig::default()),
inner: bumpalo::Bump::new(),
}
}
pub fn render_lazy<'a>(&'a mut self, f: LazyNodes<'a, '_>) -> String {
let bump = &mut self.inner as *mut _;
let s = self.render_inner(f);
// reuse the bump's memory
unsafe { (&mut *bump as &mut bumpalo::Bump).reset() };
s
}
fn render_inner<'a>(&'a self, f: LazyNodes<'a, '_>) -> String {
let factory = NodeFactory::new(&self.inner);
let root = f.into_vnode(factory);
format!(
"{:}",
TextRenderer {
cfg: self.cfg.clone(),
root: &root,
vdom: None
}
)
}
}
pub fn render_lazy<'a>(f: LazyNodes<'a, '_>) -> String {
let bump = bumpalo::Bump::new();
let borrowed = &bump;
// Safety
//
// The lifetimes bounds on LazyNodes are really complicated - they need to support the nesting restrictions in
// regular component usage. The <'a> lifetime is used to enforce that all calls of IntoVnode use the same allocator.
//
// When LazyNodes are provided, they are FnOnce, but do not come with a allocator selected to borrow from. The <'a>
// lifetime is therefore longer than the lifetime of the allocator which doesn't exist... yet.
//
// Therefore, we cast our local bump alloactor into right lifetime. This is okay because our usage of the bump arena
// is *definitely* shorter than the <'a> lifetime, and we return *owned* data - not borrowed data.
let _b = unsafe { std::mem::transmute::<&Bump, &'a Bump>(borrowed) };
let root = f.into_vnode(NodeFactory::new(_b));
format!(
"{:}",
TextRenderer {
cfg: SsrConfig::default(),
root: &root,
vdom: None
}
)
}
pub fn render_vdom(dom: &VirtualDom) -> String {
format!("{:}", TextRenderer::from_vdom(dom, SsrConfig::default()))
}
pub fn render_vdom_cfg(dom: &VirtualDom, cfg: impl FnOnce(SsrConfig) -> SsrConfig) -> String {
format!(
"{:}",
TextRenderer::from_vdom(dom, cfg(SsrConfig::default()))
)
}
pub fn render_vdom_scope(vdom: &VirtualDom, scope: ScopeId) -> Option<String> {
Some(format!(
"{:}",
TextRenderer {
cfg: SsrConfig::default(),
root: vdom.get_scope(scope).unwrap().root_node(),
vdom: Some(vdom)
}
))
}
/// A configurable text renderer for the Dioxus VirtualDOM.
///
///
/// ## Details
///
/// This uses the `Formatter` infrastructure so you can write into anything that supports `write_fmt`. We can't accept
/// any generic writer, so you need to "Display" the text renderer. This is done through `format!` or `format_args!`
///
/// ## Example
/// ```ignore
/// static App: Component = |cx| cx.render(rsx!(div { "hello world" }));
/// let mut vdom = VirtualDom::new(App);
/// vdom.rebuild();
///
/// let renderer = TextRenderer::new(&vdom);
/// let output = format!("{}", renderer);
/// assert_eq!(output, "<div>hello world</div>");
/// ```
pub struct TextRenderer<'a, 'b> {
vdom: Option<&'a VirtualDom>,
root: &'b VNode<'a>,
cfg: SsrConfig,
}
impl Display for TextRenderer<'_, '_> {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
self.html_render(self.root, f, 0)
}
}
impl<'a> TextRenderer<'a, '_> {
pub fn from_vdom(vdom: &'a VirtualDom, cfg: SsrConfig) -> Self {
Self {
cfg,
root: vdom.base_scope().root_node(),
vdom: Some(vdom),
}
}
fn html_render(&self, node: &VNode, f: &mut std::fmt::Formatter, il: u16) -> std::fmt::Result {
match &node {
VNode::Text(text) => {
if self.cfg.indent {
for _ in 0..il {
write!(f, " ")?;
}
}
write!(f, "{}", text.text)?
}
VNode::Placeholder(_anchor) => {
//
if self.cfg.indent {
for _ in 0..il {
write!(f, " ")?;
}
}
write!(f, "<!-- -->")?;
}
VNode::Element(el) => {
if self.cfg.indent {
for _ in 0..il {
write!(f, " ")?;
}
}
write!(f, "<{}", el.tag)?;
let mut inner_html = None;
let mut attr_iter = el.attributes.iter().peekable();
while let Some(attr) = attr_iter.next() {
match attr.namespace {
None => match attr.name {
"dangerous_inner_html" => inner_html = Some(attr.value),
_ => write!(f, " {}=\"{}\"", attr.name, attr.value)?,
},
Some(ns) => {
// write the opening tag
write!(f, " {}=\"", ns)?;
let mut cur_ns_el = attr;
'ns_parse: loop {
write!(f, "{}:{};", cur_ns_el.name, cur_ns_el.value)?;
match attr_iter.peek() {
Some(next_attr) if next_attr.namespace == Some(ns) => {
cur_ns_el = attr_iter.next().unwrap();
}
_ => break 'ns_parse,
}
}
// write the closing tag
write!(f, "\"")?;
}
}
}
// we write the element's id as a data attribute
//
// when the page is loaded, the `querySelectorAll` will be used to collect all the nodes, and then add
// them interpreter's stack
if let (true, Some(id)) = (self.cfg.pre_render, node.try_mounted_id()) {
write!(f, " dio_el=\"{}\"", id)?;
for _listener in el.listeners {
// todo: write the listeners
}
}
match self.cfg.newline {
true => writeln!(f, ">")?,
false => write!(f, ">")?,
}
if let Some(inner_html) = inner_html {
write!(f, "{}", inner_html)?;
} else {
for child in el.children {
self.html_render(child, f, il + 1)?;
}
}
if self.cfg.newline {
writeln!(f)?;
}
if self.cfg.indent {
for _ in 0..il {
write!(f, " ")?;
}
}
write!(f, "</{}>", el.tag)?;
if self.cfg.newline {
writeln!(f)?;
}
}
VNode::Fragment(frag) => {
for child in frag.children {
self.html_render(child, f, il + 1)?;
}
}
VNode::Component(vcomp) => {
let idx = vcomp.scope.get().unwrap();
if let (Some(vdom), false) = (self.vdom, self.cfg.skip_components) {
let new_node = vdom.get_scope(idx).unwrap().root_node();
self.html_render(new_node, f, il + 1)?;
} else {
}
}
}
Ok(())
}
}
#[derive(Clone, Debug, Default)]
pub struct SsrConfig {
/// currently not supported - control if we indent the HTML output
indent: bool,
/// Control if elements are written onto a new line
newline: bool,
/// Choose to write ElementIDs into elements so the page can be re-hydrated later on
pre_render: bool,
// Currently not implemented
// Don't proceed onto new components. Instead, put the name of the component.
// TODO: components don't have names :(
skip_components: bool,
}
impl SsrConfig {
pub fn indent(mut self, a: bool) -> Self {
self.indent = a;
self
}
pub fn newline(mut self, a: bool) -> Self {
self.newline = a;
self
}
pub fn pre_render(mut self, a: bool) -> Self {
self.pre_render = a;
self
}
pub fn skip_components(mut self, a: bool) -> Self {
self.skip_components = a;
self
}
}
#[cfg(test)]
mod tests {
use super::*;
use dioxus_core::prelude::*;
use dioxus_core_macro::*;
use dioxus_html as dioxus_elements;
static SIMPLE_APP: Component = |cx| {
cx.render(rsx!(div {
"hello world!"
}))
};
static SLIGHTLY_MORE_COMPLEX: Component = |cx| {
cx.render(rsx! {
div { title: "About W3Schools",
(0..20).map(|f| rsx!{
div {
title: "About W3Schools",
style: "color:blue;text-align:center",
class: "About W3Schools",
p {
title: "About W3Schools",
"Hello world!: {f}"
}
}
})
}
})
};
static NESTED_APP: Component = |cx| {
cx.render(rsx!(
div {
SIMPLE_APP {}
}
))
};
static FRAGMENT_APP: Component = |cx| {
cx.render(rsx!(
div { "f1" }
div { "f2" }
div { "f3" }
div { "f4" }
))
};
#[test]
fn to_string_works() {
let mut dom = VirtualDom::new(SIMPLE_APP);
dom.rebuild();
dbg!(render_vdom(&dom));
}
#[test]
fn hydration() {
let mut dom = VirtualDom::new(NESTED_APP);
dom.rebuild();
dbg!(render_vdom_cfg(&dom, |c| c.pre_render(true)));
}
#[test]
fn nested() {
let mut dom = VirtualDom::new(NESTED_APP);
dom.rebuild();
dbg!(render_vdom(&dom));
}
#[test]
fn fragment_app() {
let mut dom = VirtualDom::new(FRAGMENT_APP);
dom.rebuild();
dbg!(render_vdom(&dom));
}
#[test]
fn write_to_file() {
use std::fs::File;
use std::io::Write;
let mut file = File::create("index.html").unwrap();
let mut dom = VirtualDom::new(SLIGHTLY_MORE_COMPLEX);
dom.rebuild();
file.write_fmt(format_args!(
"{}",
TextRenderer::from_vdom(&dom, SsrConfig::default())
))
.unwrap();
}
#[test]
fn styles() {
static STLYE_APP: Component = |cx| {
cx.render(rsx! {
div { color: "blue", font_size: "46px" }
})
};
let mut dom = VirtualDom::new(STLYE_APP);
dom.rebuild();
dbg!(render_vdom(&dom));
}
#[test]
fn lazy() {
let p1 = SsrRenderer::new(|c| c).render_lazy(rsx! {
div { "ello" }
});
let p2 = render_lazy(rsx! {
div {
"ello"
}
});
assert_eq!(p1, p2);
}
#[test]
fn big_lazy() {
let s = render_lazy(rsx! {
div {
div {
div {
h1 { "ello world" }
h1 { "ello world" }
h1 { "ello world" }
h1 { "ello world" }
h1 { "ello world" }
}
}
}
});
dbg!(s);
}
#[test]
fn inner_html() {
let s = render_lazy(rsx! {
div {
dangerous_inner_html: "<div> ack </div>"
}
});
dbg!(s);
}
}