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use std::cell::RefCell;
use std::rc::Rc;
use fxhash::FxHashMap;
use url::Url;
use crate::router::ResourceDef;
use crate::web::error::UrlGenerationError;
use crate::web::httprequest::HttpRequest;
#[derive(Clone, Debug)]
pub struct ResourceMap {
root: ResourceDef,
parent: RefCell<Option<Rc<ResourceMap>>>,
named: FxHashMap<String, ResourceDef>,
patterns: Vec<(ResourceDef, Option<Rc<ResourceMap>>)>,
}
impl ResourceMap {
pub fn new(root: ResourceDef) -> Self {
ResourceMap {
root,
parent: RefCell::new(None),
named: FxHashMap::default(),
patterns: Vec::new(),
}
}
pub fn add(&mut self, pattern: &mut ResourceDef, nested: Option<Rc<ResourceMap>>) {
pattern.set_id(self.patterns.len() as u16);
self.patterns.push((pattern.clone(), nested));
if !pattern.name().is_empty() {
self.named
.insert(pattern.name().to_string(), pattern.clone());
}
}
pub(crate) fn finish(&self, current: Rc<ResourceMap>) {
for (_, nested) in &self.patterns {
if let Some(ref nested) = nested {
*nested.parent.borrow_mut() = Some(current.clone());
nested.finish(nested.clone());
}
}
}
}
impl ResourceMap {
pub fn url_for<U, I>(
&self,
req: &HttpRequest,
name: &str,
elements: U,
) -> Result<Url, UrlGenerationError>
where
U: IntoIterator<Item = I>,
I: AsRef<str>,
{
let mut path = String::new();
let mut elements = elements.into_iter();
if self.patterns_for(name, &mut path, &mut elements)?.is_some() {
if path.starts_with('/') {
let conn = req.connection_info();
Ok(Url::parse(&format!(
"{}://{}{}",
conn.scheme(),
conn.host(),
path
))?)
} else {
Ok(Url::parse(&path)?)
}
} else {
Err(UrlGenerationError::ResourceNotFound)
}
}
fn patterns_for<U, I>(
&self,
name: &str,
path: &mut String,
elements: &mut U,
) -> Result<Option<()>, UrlGenerationError>
where
U: Iterator<Item = I>,
I: AsRef<str>,
{
if self.pattern_for(name, path, elements)?.is_some() {
Ok(Some(()))
} else {
self.parent_pattern_for(name, path, elements)
}
}
fn pattern_for<U, I>(
&self,
name: &str,
path: &mut String,
elements: &mut U,
) -> Result<Option<()>, UrlGenerationError>
where
U: Iterator<Item = I>,
I: AsRef<str>,
{
if let Some(pattern) = self.named.get(name) {
if pattern.pattern().starts_with('/') {
self.fill_root(path, elements)?;
}
if pattern.resource_path(path, elements) {
Ok(Some(()))
} else {
Err(UrlGenerationError::NotEnoughElements)
}
} else {
for (_, rmap) in &self.patterns {
if let Some(ref rmap) = rmap {
if rmap.pattern_for(name, path, elements)?.is_some() {
return Ok(Some(()));
}
}
}
Ok(None)
}
}
fn fill_root<U, I>(
&self,
path: &mut String,
elements: &mut U,
) -> Result<(), UrlGenerationError>
where
U: Iterator<Item = I>,
I: AsRef<str>,
{
if let Some(ref parent) = *self.parent.borrow() {
parent.fill_root(path, elements)?;
}
if self.root.resource_path(path, elements) {
Ok(())
} else {
Err(UrlGenerationError::NotEnoughElements)
}
}
fn parent_pattern_for<U, I>(
&self,
name: &str,
path: &mut String,
elements: &mut U,
) -> Result<Option<()>, UrlGenerationError>
where
U: Iterator<Item = I>,
I: AsRef<str>,
{
if let Some(ref parent) = *self.parent.borrow() {
if let Some(pattern) = parent.named.get(name) {
self.fill_root(path, elements)?;
if pattern.resource_path(path, elements) {
Ok(Some(()))
} else {
Err(UrlGenerationError::NotEnoughElements)
}
} else {
parent.parent_pattern_for(name, path, elements)
}
} else {
Ok(None)
}
}
}