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use std::{fmt::Write, mem::replace};
use anyhow::Result;
use serde::{Deserialize, Serialize};
use turbo_rcstr::RcStr;
use turbo_tasks::{
FxIndexMap, NonLocalValue, ReadRef, ResolvedVc, TaskInput, TryJoinIterExt, ValueToString, Vc,
fxindexmap, trace::TraceRawVcs,
};
use super::{GetContentSourceContent, GetContentSourceContents};
/// The type of the route. This will decide about the remaining segments of the
/// route after the base.
#[derive(
TaskInput, Clone, Debug, PartialEq, Eq, Hash, Serialize, Deserialize, TraceRawVcs, NonLocalValue,
)]
pub enum RouteType {
Exact,
CatchAll,
Fallback,
NotFound,
}
/// Some normal segment of a route.
#[derive(
TaskInput, Clone, Debug, PartialEq, Eq, Hash, Serialize, Deserialize, TraceRawVcs, NonLocalValue,
)]
pub enum BaseSegment {
Static(RcStr),
Dynamic,
}
impl BaseSegment {
pub fn from_static_pathname(str: &str) -> impl Iterator<Item = BaseSegment> + '_ {
str.split('/')
.filter(|s| !s.is_empty())
.map(|s| BaseSegment::Static(s.into()))
}
}
/// This struct allows to cell a list of RouteTrees and merge them into one.
///
/// This can't be a single method `fn merge(Vec<Vc<RouteTree>>)` as this would
/// lead to creating new tasks over and over. A celled list leads to task reuse
/// and faster operation.
#[turbo_tasks::value(transparent)]
pub struct RouteTrees(Vec<ResolvedVc<RouteTree>>);
#[turbo_tasks::value_impl]
impl RouteTrees {
/// Merges the list of RouteTrees into one RouteTree.
#[turbo_tasks::function]
pub async fn merge(self: Vc<Self>) -> Result<Vc<RouteTree>> {
let trees = &*self.await?;
if trees.is_empty() {
return Ok(RouteTree::default().cell());
}
if trees.len() == 1 {
return Ok(**trees.iter().next().unwrap());
}
// Find common base
let mut tree_values = trees.iter().try_join().await?;
let mut common_base = 0;
let last_tree = tree_values.pop().unwrap();
'outer: while common_base < last_tree.base.len() {
for tree in tree_values.iter() {
if tree.base.len() <= common_base {
break 'outer;
}
if tree.base[common_base] != last_tree.base[common_base] {
break 'outer;
}
}
common_base += 1;
}
tree_values.push(last_tree);
// Normalize bases to common base
let trees = trees
.iter()
.enumerate()
.map(|(i, tree)| {
if tree_values[i].base.len() > common_base {
tree.with_base_len(common_base)
} else {
**tree
}
})
.collect::<Vec<_>>();
// Flat merge trees
let tree_values = trees.into_iter().try_join().await?;
let mut iter = tree_values.iter().map(|rr| &**rr);
let mut merged = iter.next().unwrap().clone();
merged.flat_merge(iter).await?;
Ok(merged.cell())
}
}
/// The prefix tree of routes. Also handling dynamic and catch all segments.
#[turbo_tasks::value]
#[derive(Default, Clone, Debug)]
pub struct RouteTree {
base: Vec<BaseSegment>,
sources: Vec<ResolvedVc<Box<dyn GetContentSourceContent>>>,
static_segments: FxIndexMap<RcStr, ResolvedVc<RouteTree>>,
dynamic_segments: Vec<ResolvedVc<RouteTree>>,
catch_all_sources: Vec<ResolvedVc<Box<dyn GetContentSourceContent>>>,
fallback_sources: Vec<ResolvedVc<Box<dyn GetContentSourceContent>>>,
not_found_sources: Vec<ResolvedVc<Box<dyn GetContentSourceContent>>>,
}
impl RouteTree {
/// Creates a route tree for a single route.
pub fn new_route_ref(
base_segments: Vec<BaseSegment>,
route_type: RouteType,
source: ResolvedVc<Box<dyn GetContentSourceContent>>,
) -> Self {
match route_type {
RouteType::Exact => Self {
base: base_segments,
sources: vec![source],
..Default::default()
},
RouteType::CatchAll => Self {
base: base_segments,
catch_all_sources: vec![source],
..Default::default()
},
RouteType::Fallback => Self {
base: base_segments,
fallback_sources: vec![source],
..Default::default()
},
RouteType::NotFound => Self {
base: base_segments,
not_found_sources: vec![source],
..Default::default()
},
}
}
async fn flat_merge(&mut self, others: impl IntoIterator<Item = &Self> + '_) -> Result<()> {
let mut static_segments = FxIndexMap::default();
for other in others {
debug_assert_eq!(self.base, other.base);
self.sources.extend(other.sources.iter().copied());
self.catch_all_sources
.extend(other.catch_all_sources.iter().copied());
self.fallback_sources
.extend(other.fallback_sources.iter().copied());
self.not_found_sources
.extend(other.not_found_sources.iter().copied());
for (key, value) in other.static_segments.iter() {
if let Some((key, self_value)) = self.static_segments.swap_remove_entry(key) {
static_segments.insert(key, vec![self_value, *value]);
} else if let Some(list) = static_segments.get_mut(key) {
list.push(*value);
} else {
static_segments.insert(key.clone(), vec![*value]);
}
}
self.dynamic_segments
.extend(other.dynamic_segments.iter().copied());
}
self.static_segments.extend(
static_segments
.into_iter()
.map(|(key, value)| async {
Ok((
key,
if value.len() == 1 {
value.into_iter().next().unwrap()
} else {
Vc::<RouteTrees>::cell(value).merge().to_resolved().await?
},
))
})
.try_join()
.await?,
);
Ok(())
}
fn prepend_base(&mut self, segments: Vec<BaseSegment>) {
self.base.splice(..0, segments);
}
}
#[turbo_tasks::value_impl]
impl ValueToString for RouteTree {
#[turbo_tasks::function]
async fn to_string(&self) -> Result<Vc<RcStr>> {
let RouteTree {
base,
sources,
static_segments,
dynamic_segments,
catch_all_sources,
fallback_sources,
not_found_sources,
} = self;
let mut result = "RouteTree(".to_string();
for segment in base {
match segment {
BaseSegment::Static(str) => write!(result, "/{str}")?,
BaseSegment::Dynamic => result.push_str("/[dynamic]"),
}
}
if !base.is_empty() {
result.push_str(", ");
}
for (key, tree) in static_segments {
let tree = tree.to_string().await?;
write!(result, "{key}: {tree}, ")?;
}
if !sources.is_empty() {
write!(result, "{} x source, ", sources.len())?;
}
if !dynamic_segments.is_empty() {
write!(result, "{} x dynamic, ", dynamic_segments.len())?;
}
if !catch_all_sources.is_empty() {
write!(result, "{} x catch-all, ", catch_all_sources.len())?;
}
if !fallback_sources.is_empty() {
write!(result, "{} x fallback, ", fallback_sources.len())?;
}
if !not_found_sources.is_empty() {
write!(result, "{} x not-found, ", not_found_sources.len())?;
}
if result.ends_with(", ") {
result.truncate(result.len() - 2);
}
result.push(')');
Ok(Vc::cell(result.into()))
}
}
#[turbo_tasks::value_impl]
impl RouteTree {
/// Creates an empty route tree.
#[turbo_tasks::function]
pub fn empty() -> Vc<RouteTree> {
RouteTree::default().cell()
}
/// Creates a route tree for a single route.
#[turbo_tasks::function]
pub fn new_route(
base_segments: Vec<BaseSegment>,
route_type: RouteType,
source: ResolvedVc<Box<dyn GetContentSourceContent>>,
) -> Vc<Self> {
RouteTree::new_route_ref(base_segments, route_type, source).cell()
}
/// Gets the [`GetContentSourceContent`]s for the given path.
// TODO(WEB-1252) It's unnecessary to compute all [`GetContentSourceContent`]s at once, we could
// return some lazy iterator to make it more efficient.
#[turbo_tasks::function]
pub async fn get(self: Vc<Self>, path: RcStr) -> Result<Vc<GetContentSourceContents>> {
let RouteTree {
base,
sources,
static_segments,
dynamic_segments,
catch_all_sources,
fallback_sources,
not_found_sources,
} = &*self.await?;
let mut results = Vec::new();
if path.is_empty() {
if !base.is_empty() {
return Ok(Vc::cell(vec![]));
}
results.extend(sources.iter().copied());
} else {
let mut segments = path.split('/');
for base in base.iter() {
let Some(segment) = segments.next() else {
return Ok(Vc::cell(vec![]));
};
match base {
BaseSegment::Static(str) => {
if str != segment {
return Ok(Vc::cell(vec![]));
}
}
BaseSegment::Dynamic => {
// always matching
}
}
}
if let Some(segment) = segments.next() {
let remainder = segments.remainder().unwrap_or("");
if let Some(tree) = static_segments.get(segment) {
results.extend(tree.get(remainder.into()).await?.iter().copied());
}
for tree in dynamic_segments.iter() {
results.extend(tree.get(remainder.into()).await?.iter().copied());
}
} else {
results.extend(sources.iter().copied());
};
}
results.extend(catch_all_sources.iter().copied());
results.extend(fallback_sources.iter().copied());
results.extend(not_found_sources.iter().copied());
Ok(Vc::cell(results))
}
/// Prepends a base path to all routes.
#[turbo_tasks::function]
pub async fn with_prepended_base(
self: Vc<Self>,
segments: Vec<BaseSegment>,
) -> Result<Vc<RouteTree>> {
let mut this = self.owned().await?;
this.prepend_base(segments);
Ok(this.cell())
}
#[turbo_tasks::function]
async fn with_base_len(self: Vc<Self>, base_len: usize) -> Result<Vc<RouteTree>> {
let this = self.await?;
if this.base.len() > base_len {
let mut inner = ReadRef::into_owned(this);
let mut drain = inner.base.drain(base_len..);
let selector_segment = drain.next().unwrap();
let inner_base = drain.collect();
let base = replace(&mut inner.base, inner_base);
debug_assert!(base.len() == base_len);
match selector_segment {
BaseSegment::Static(value) => Ok(RouteTree {
base,
static_segments: fxindexmap! { value => inner.resolved_cell() },
..Default::default()
}
.cell()),
BaseSegment::Dynamic => Ok(RouteTree {
base,
dynamic_segments: vec![inner.resolved_cell()],
..Default::default()
}
.cell()),
}
} else {
Ok(self)
}
}
/// Applies a transformation on all [`GetContentSourceContent`]s in the
/// tree.
#[turbo_tasks::function]
pub async fn map_routes(
self: Vc<Self>,
mapper: Vc<Box<dyn MapGetContentSourceContent>>,
) -> Result<Vc<Self>> {
let mut this = self.owned().await?;
let RouteTree {
base: _,
static_segments,
dynamic_segments,
sources,
catch_all_sources,
fallback_sources,
not_found_sources,
} = &mut this;
for s in sources.iter_mut() {
*s = mapper.map_get_content(**s).to_resolved().await?;
}
for s in catch_all_sources.iter_mut() {
*s = mapper.map_get_content(**s).to_resolved().await?;
}
for s in fallback_sources.iter_mut() {
*s = mapper.map_get_content(**s).to_resolved().await?;
}
for s in not_found_sources.iter_mut() {
*s = mapper.map_get_content(**s).to_resolved().await?;
}
for r in static_segments.values_mut() {
*r = r.map_routes(mapper).to_resolved().await?;
}
for r in dynamic_segments.iter_mut() {
*r = r.map_routes(mapper).to_resolved().await?;
}
Ok(this.cell())
}
}
/// Transformation functor
#[turbo_tasks::value_trait]
pub trait MapGetContentSourceContent {
#[turbo_tasks::function]
fn map_get_content(
self: Vc<Self>,
get_content: Vc<Box<dyn GetContentSourceContent>>,
) -> Vc<Box<dyn GetContentSourceContent>>;
}
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