//! This crate demonstrates how to implement a custom renderer for Dioxus VNodes via the `TextRenderer` renderer. //! The `TextRenderer` consumes a Dioxus Virtual DOM, progresses its event queue, and renders the VNodes to a String. //! //! While `VNode` supports "to_string" directly, it renders child components as the RSX! macro tokens. For custom components, //! an external renderer is needed to progress the component lifecycles. The `TextRenderer` shows how to use the Virtual DOM //! API to progress these lifecycle events to generate a fully-mounted Virtual DOM instance which can be renderer in the //! `render` method. use std::fmt::{Display, Formatter}; use dioxus_core::*; pub fn render_vnode(vnode: &VNode, string: &mut String) {} pub fn render_vdom(dom: &VirtualDom) -> String { format!("{:}", TextRenderer::from_vdom(dom)) } pub fn render_vdom_scope(vdom: &VirtualDom, scope: ScopeId) -> Option { Some(format!( "{:}", TextRenderer { cfg: SsrConfig::default(), root: vdom.get_scope(scope).unwrap().root(), vdom: Some(vdom) } )) } 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, // 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 Default for SsrConfig { fn default() -> Self { Self { indent: false, newline: false, _skip_components: false, } } } /// 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 /// const App: FC<()> = |cx| cx.render(rsx!(div { "hello world" })); /// let mut vdom = VirtualDom::new(App); /// vdom.rebuild_in_place(); /// /// let renderer = TextRenderer::new(&vdom); /// let output = format!("{}", renderer); /// assert_eq!(output, "
hello world
"); /// ``` pub struct TextRenderer<'a> { vdom: Option<&'a VirtualDom>, root: &'a 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) -> Self { Self { root: vdom.base_scope().root(), vdom: Some(vdom), cfg: SsrConfig::default(), } } fn html_render(&self, node: &VNode, f: &mut std::fmt::Formatter, il: u16) -> std::fmt::Result { match &node.kind { VNodeKind::Text(text) => { if self.cfg.indent { for _ in 0..il { write!(f, " ")?; } } write!(f, "{}", text.text)? } VNodeKind::Element(el) => { if self.cfg.indent { for _ in 0..il { write!(f, " ")?; } } write!(f, "<{}", el.tag_name)?; let mut attr_iter = el.attributes.iter().peekable(); while let Some(attr) = attr_iter.next() { match attr.namespace { None => 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, "\"")?; } } } match self.cfg.newline { true => write!(f, ">\n")?, false => write!(f, ">")?, } for child in el.children { self.html_render(child, f, il + 1)?; } if self.cfg.newline { write!(f, "\n")?; } if self.cfg.indent { for _ in 0..il { write!(f, " ")?; } } write!(f, "", el.tag_name)?; if self.cfg.newline { write!(f, "\n")?; } } VNodeKind::Fragment(frag) => { for child in frag.children { self.html_render(child, f, il + 1)?; } } VNodeKind::Component(vcomp) => { let idx = vcomp.ass_scope.get().unwrap(); if let Some(vdom) = self.vdom { let new_node = vdom.get_scope(idx).unwrap().root(); self.html_render(new_node, f, il + 1)?; } } VNodeKind::Suspended { .. } => { // we can't do anything with suspended nodes } } Ok(()) } } #[cfg(test)] mod tests { use super::*; use dioxus_core as dioxus; use dioxus_core::prelude::*; use dioxus_html as dioxus_elements; use dioxus_html::GlobalAttributes; const SIMPLE_APP: FC<()> = |cx| { cx.render(rsx!(div { "hello world!" })) }; const SLIGHTLY_MORE_COMPLEX: FC<()> = |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}" } } })} } }) }; const NESTED_APP: FC<()> = |cx| { cx.render(rsx!( div { SIMPLE_APP {} } )) }; const FRAGMENT_APP: FC<()> = |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_in_place().expect("failed to run virtualdom"); dbg!(render_vdom(&dom)); } #[test] fn nested() { let mut dom = VirtualDom::new(NESTED_APP); dom.rebuild_in_place().expect("failed to run virtualdom"); dbg!(render_vdom(&dom)); } #[test] fn fragment_app() { let mut dom = VirtualDom::new(FRAGMENT_APP); dom.rebuild_in_place().expect("failed to run virtualdom"); 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_in_place().expect("failed to run virtualdom"); file.write_fmt(format_args!("{}", TextRenderer::from_vdom(&dom))) .unwrap(); } // #[test] // fn styles() { // const STLYE_APP: FC<()> = |cx| { // // // cx.render(rsx! { // div { // style: { // color: "blue", // font_size: "46px" // } // } // }) // }; // let mut dom = VirtualDom::new(STLYE_APP); // dom.rebuild_in_place().expect("failed to run virtualdom"); // dbg!(render_vdom(&dom)); // } }