use sway_types::Span;
use crate::{
decl_engine::{DeclEngine, DeclRef, DeclRefFunction},
language::ty::*,
language::ModName,
semantic_analysis::namespace,
transform,
};
#[derive(Clone, Debug)]
pub struct TyModule {
pub span: Span,
pub submodules: Vec<(ModName, TySubmodule)>,
pub namespace: namespace::Namespace,
pub all_nodes: Vec<TyAstNode>,
pub attributes: transform::AttributesMap,
}
#[derive(Clone, Debug)]
pub struct TySubmodule {
pub module: TyModule,
pub mod_name_span: Span,
}
pub struct SubmodulesRecursive<'module> {
submods: std::slice::Iter<'module, (ModName, TySubmodule)>,
current: Option<(
&'module (ModName, TySubmodule),
Box<SubmodulesRecursive<'module>>,
)>,
}
impl TyModule {
pub fn submodules_recursive(&self) -> SubmodulesRecursive {
SubmodulesRecursive {
submods: self.submodules.iter(),
current: None,
}
}
pub fn test_fns<'a: 'b, 'b>(
&'b self,
decl_engine: &'a DeclEngine,
) -> impl '_ + Iterator<Item = (TyFunctionDecl, DeclRefFunction)> {
self.all_nodes.iter().filter_map(|node| {
if let TyAstNodeContent::Declaration(TyDecl::FunctionDecl(FunctionDecl {
decl_id,
subst_list: _,
name,
decl_span,
})) = &node.content
{
let fn_decl = decl_engine.get_function(decl_id);
if fn_decl.is_test() {
return Some((
fn_decl,
DeclRef::new(name.clone(), *decl_id, decl_span.clone()),
));
}
}
None
})
}
}
impl<'module> Iterator for SubmodulesRecursive<'module> {
type Item = &'module (ModName, TySubmodule);
fn next(&mut self) -> Option<Self::Item> {
loop {
self.current = match self.current.take() {
None => match self.submods.next() {
None => return None,
Some(submod) => {
Some((submod, Box::new(submod.1.module.submodules_recursive())))
}
},
Some((submod, mut submods)) => match submods.next() {
Some(next) => {
self.current = Some((submod, submods));
return Some(next);
}
None => return Some(submod),
},
}
}
}
}