lenn
/
dioxus-mirror
cermin dari https://github.com/DioxusLabs/dioxus.git


			
				
					
						
						
							123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351
							#![cfg(not(miri))]

use dioxus::prelude::Props;
use dioxus_core::*;
use std::{cfg, collections::HashSet};

fn random_ns() -> Option<&'static str> {
    let namespace = rand::random::<u8>() % 2;
    match namespace {
        0 => None,
        1 => Some(Box::leak(
            format!("ns{}", rand::random::<usize>()).into_boxed_str(),
        )),
        _ => unreachable!(),
    }
}

fn create_random_attribute(attr_idx: &mut usize) -> TemplateAttribute<'static> {
    match rand::random::<u8>() % 2 {
        0 => TemplateAttribute::Static {
            name: Box::leak(format!("attr{}", rand::random::<usize>()).into_boxed_str()),
            value: Box::leak(format!("value{}", rand::random::<usize>()).into_boxed_str()),
            namespace: random_ns(),
        },
        1 => TemplateAttribute::Dynamic {
            id: {
                let old_idx = *attr_idx;
                *attr_idx += 1;
                old_idx
            },
        },
        _ => unreachable!(),
    }
}

fn create_random_template_node(
    dynamic_node_types: &mut Vec<DynamicNodeType>,
    template_idx: &mut usize,
    attr_idx: &mut usize,
    depth: usize,
) -> TemplateNode<'static> {
    match rand::random::<u8>() % 4 {
        0 => {
            let attrs = {
                let attrs: Vec<_> = (0..(rand::random::<usize>() % 10))
                    .map(|_| create_random_attribute(attr_idx))
                    .collect();
                Box::leak(attrs.into_boxed_slice())
            };
            TemplateNode::Element {
                tag: Box::leak(format!("tag{}", rand::random::<usize>()).into_boxed_str()),
                namespace: random_ns(),
                attrs,
                children: {
                    if depth > 4 {
                        &[]
                    } else {
                        let children: Vec<_> = (0..(rand::random::<usize>() % 3))
                            .map(|_| {
                                create_random_template_node(
                                    dynamic_node_types,
                                    template_idx,
                                    attr_idx,
                                    depth + 1,
                                )
                            })
                            .collect();
                        Box::leak(children.into_boxed_slice())
                    }
                },
            }
        }
        1 => TemplateNode::Text {
            text: Box::leak(format!("{}", rand::random::<usize>()).into_boxed_str()),
        },
        2 => TemplateNode::DynamicText {
            id: {
                let old_idx = *template_idx;
                *template_idx += 1;
                dynamic_node_types.push(DynamicNodeType::Text);
                old_idx
            },
        },
        3 => TemplateNode::Dynamic {
            id: {
                let old_idx = *template_idx;
                *template_idx += 1;
                dynamic_node_types.push(DynamicNodeType::Other);
                old_idx
            },
        },
        _ => unreachable!(),
    }
}

fn generate_paths(
    node: &TemplateNode<'static>,
    current_path: &[u8],
    node_paths: &mut Vec<Vec<u8>>,
    attr_paths: &mut Vec<Vec<u8>>,
) {
    match node {
        TemplateNode::Element { children, attrs, .. } => {
            for attr in *attrs {
                match attr {
                    TemplateAttribute::Static { .. } => {}
                    TemplateAttribute::Dynamic { .. } => {
                        attr_paths.push(current_path.to_vec());
                    }
                }
            }
            for (i, child) in children.iter().enumerate() {
                let mut current_path = current_path.to_vec();
                current_path.push(i as u8);
                generate_paths(child, &current_path, node_paths, attr_paths);
            }
        }
        TemplateNode::Text { .. } => {}
        TemplateNode::DynamicText { .. } => {
            node_paths.push(current_path.to_vec());
        }
        TemplateNode::Dynamic { .. } => {
            node_paths.push(current_path.to_vec());
        }
    }
}

enum DynamicNodeType {
    Text,
    Other,
}

fn create_random_template(name: &'static str) -> (Template<'static>, Vec<DynamicNodeType>) {
    let mut dynamic_node_type = Vec::new();
    let mut template_idx = 0;
    let mut attr_idx = 0;
    let roots = (0..(1 + rand::random::<usize>() % 5))
        .map(|_| {
            create_random_template_node(&mut dynamic_node_type, &mut template_idx, &mut attr_idx, 0)
        })
        .collect::<Vec<_>>();
    assert!(!roots.is_empty());
    let roots = Box::leak(roots.into_boxed_slice());
    let mut node_paths = Vec::new();
    let mut attr_paths = Vec::new();
    for (i, root) in roots.iter().enumerate() {
        generate_paths(root, &[i as u8], &mut node_paths, &mut attr_paths);
    }
    let node_paths = Box::leak(
        node_paths
            .into_iter()
            .map(|v| &*Box::leak(v.into_boxed_slice()))
            .collect::<Vec<_>>()
            .into_boxed_slice(),
    );
    let attr_paths = Box::leak(
        attr_paths
            .into_iter()
            .map(|v| &*Box::leak(v.into_boxed_slice()))
            .collect::<Vec<_>>()
            .into_boxed_slice(),
    );
    (
        Template { name, roots, node_paths, attr_paths },
        dynamic_node_type,
    )
}

fn create_random_dynamic_node(cx: &ScopeState, depth: usize) -> DynamicNode {
    let range = if depth > 5 { 1 } else { 4 };
    match rand::random::<u8>() % range {
        0 => DynamicNode::Placeholder(Default::default()),
        1 => cx.make_node((0..(rand::random::<u8>() % 5)).map(|_| {
            VNode::new(
                None,
                Template {
                    name: concat!(file!(), ":", line!(), ":", column!(), ":0"),
                    roots: &[TemplateNode::Dynamic { id: 0 }],
                    node_paths: &[&[0]],
                    attr_paths: &[],
                },
                bumpalo::collections::Vec::new_in(cx.bump()),
                cx.bump().alloc([cx.component(
                    create_random_element,
                    DepthProps { depth, root: false },
                    "create_random_element",
                )]),
                &[],
            )
        })),
        2 => cx.component(
            create_random_element,
            DepthProps { depth, root: false },
            "create_random_element",
        ),
        3 => {
            let data = String::from("borrowed data");
            let bumpped = cx.bump().alloc(data);
            cx.component(
                create_random_element_borrowed,
                BorrowedDepthProps { borrow: &*bumpped, inner: DepthProps { depth, root: false } },
                "create_random_element_borrowed",
            )
        }
        _ => unreachable!(),
    }
}

fn create_random_dynamic_attr(cx: &ScopeState) -> Attribute {
    let value = match rand::random::<u8>() % 7 {
        0 => AttributeValue::Text(Box::leak(
            format!("{}", rand::random::<usize>()).into_boxed_str(),
        )),
        1 => AttributeValue::Float(rand::random()),
        2 => AttributeValue::Int(rand::random()),
        3 => AttributeValue::Bool(rand::random()),
        4 => cx.any_value(rand::random::<usize>()),
        5 => AttributeValue::None,
        6 => {
            let value = cx.listener(|e: Event<String>| println!("{:?}", e));
            return Attribute::new("ondata", value, None, false);
        }
        _ => unreachable!(),
    };
    Attribute::new(
        Box::leak(format!("attr{}", rand::random::<usize>()).into_boxed_str()),
        value,
        random_ns(),
        rand::random(),
    )
}

static mut TEMPLATE_COUNT: usize = 0;

#[derive(Props)]
struct BorrowedDepthProps<'a> {
    borrow: &'a str,
    inner: DepthProps,
}

fn create_random_element_borrowed<'a>(cx: Scope<'a, BorrowedDepthProps<'a>>) -> Element<'a> {
    println!("{}", cx.props.borrow);
    let bump = cx.bump();
    let allocated = bump.alloc(Scoped { scope: cx, props: &cx.props.inner });
    create_random_element(allocated)
}

#[derive(PartialEq, Props)]
struct DepthProps {
    depth: usize,
    root: bool,
}

fn create_random_element(cx: Scope<DepthProps>) -> Element {
    if rand::random::<usize>() % 10 == 0 {
        cx.needs_update();
    }
    let range = if cx.props.root { 2 } else { 3 };
    let node = match rand::random::<usize>() % range {
        0 | 1 => {
            let (template, dynamic_node_types) = create_random_template(Box::leak(
                format!(
                    "{}{}",
                    concat!(file!(), ":", line!(), ":", column!(), ":"),
                    {
                        unsafe {
                            let old = TEMPLATE_COUNT;
                            TEMPLATE_COUNT += 1;
                            old
                        }
                    }
                )
                .into_boxed_str(),
            ));
            let node = VNode::new(
                None,
                template,
                bumpalo::collections::Vec::new_in(cx.bump()),
                {
                    let dynamic_nodes: Vec<_> = dynamic_node_types
                        .iter()
                        .map(|ty| match ty {
                            DynamicNodeType::Text => DynamicNode::Text(VText::new(Box::leak(
                                format!("{}", rand::random::<usize>()).into_boxed_str(),
                            ))),
                            DynamicNodeType::Other => {
                                create_random_dynamic_node(cx, cx.props.depth + 1)
                            }
                        })
                        .collect();
                    cx.bump().alloc(dynamic_nodes)
                },
                cx.bump().alloc(
                    (0..template.attr_paths.len())
                        .map(|_| create_random_dynamic_attr(cx))
                        .collect::<Vec<_>>(),
                ),
            );
            Some(node)
        }
        _ => None,
    };
    // println!("{node:#?}");
    node
}

// test for panics when creating random nodes and templates
#[test]
fn create() {
    let repeat_count = if cfg!(miri) { 100 } else { 1000 };
    for _ in 0..repeat_count {
        let mut vdom =
            VirtualDom::new_with_props(create_random_element, DepthProps { depth: 0, root: true });
        let _ = vdom.rebuild();
    }
}

// test for panics when diffing random nodes
// This test will change the template every render which is not very realistic, but it helps stress the system
#[test]
fn diff() {
    let repeat_count = if cfg!(miri) { 100 } else { 1000 };
    for _ in 0..repeat_count {
        let mut vdom =
            VirtualDom::new_with_props(create_random_element, DepthProps { depth: 0, root: true });
        let _ = vdom.rebuild();
        // A list of all elements that have had event listeners
        // This is intentionally never cleared, so that we can test that calling event listeners that are removed doesn't cause a panic
        let mut event_listeners = HashSet::new();
        for _ in 0..100 {
            for &id in &event_listeners {
                println!("firing event on {:?}", id);
                vdom.handle_event(
                    "data",
                    std::rc::Rc::new(String::from("hello world")),
                    id,
                    true,
                );
            }
            {
                let muts = vdom.render_immediate();
                for mut_ in muts.edits {
                    if let Mutation::NewEventListener { name, id } = mut_ {
                        println!("new event listener on {:?} for {:?}", id, name);
                        event_listeners.insert(id);
                    }
                }
            }
        }
    }
}