//! Structural editing for ast.
use std::iter::empty;
use parser::T;
use crate::{
algo::neighbor,
ast::{self, edit::AstNodeEdit, make, GenericParamsOwner, WhereClause},
ted::{self, Position},
AstNode, AstToken, Direction,
};
use super::NameOwner;
pub trait GenericParamsOwnerEdit: ast::GenericParamsOwner + AstNodeEdit {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList;
fn get_or_create_where_clause(&self) -> ast::WhereClause;
}
impl GenericParamsOwnerEdit for ast::Fn {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList {
match self.generic_param_list() {
Some(it) => it,
None => {
let position = if let Some(name) = self.name() {
Position::after(name.syntax)
} else if let Some(fn_token) = self.fn_token() {
Position::after(fn_token)
} else if let Some(param_list) = self.param_list() {
Position::before(param_list.syntax)
} else {
Position::last_child_of(self.syntax())
};
create_generic_param_list(position)
}
}
}
fn get_or_create_where_clause(&self) -> WhereClause {
if self.where_clause().is_none() {
let position = if let Some(ty) = self.ret_type() {
Position::after(ty.syntax())
} else if let Some(param_list) = self.param_list() {
Position::after(param_list.syntax())
} else {
Position::last_child_of(self.syntax())
};
create_where_clause(position)
}
self.where_clause().unwrap()
}
}
impl GenericParamsOwnerEdit for ast::Impl {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList {
match self.generic_param_list() {
Some(it) => it,
None => {
let position = if let Some(imp_token) = self.impl_token() {
Position::after(imp_token)
} else {
Position::last_child_of(self.syntax())
};
create_generic_param_list(position)
}
}
}
fn get_or_create_where_clause(&self) -> WhereClause {
if self.where_clause().is_none() {
let position = if let Some(items) = self.assoc_item_list() {
Position::before(items.syntax())
} else {
Position::last_child_of(self.syntax())
};
create_where_clause(position)
}
self.where_clause().unwrap()
}
}
impl GenericParamsOwnerEdit for ast::Trait {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList {
match self.generic_param_list() {
Some(it) => it,
None => {
let position = if let Some(name) = self.name() {
Position::after(name.syntax)
} else if let Some(trait_token) = self.trait_token() {
Position::after(trait_token)
} else {
Position::last_child_of(self.syntax())
};
create_generic_param_list(position)
}
}
}
fn get_or_create_where_clause(&self) -> WhereClause {
if self.where_clause().is_none() {
let position = if let Some(items) = self.assoc_item_list() {
Position::before(items.syntax())
} else {
Position::last_child_of(self.syntax())
};
create_where_clause(position)
}
self.where_clause().unwrap()
}
}
impl GenericParamsOwnerEdit for ast::Struct {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList {
match self.generic_param_list() {
Some(it) => it,
None => {
let position = if let Some(name) = self.name() {
Position::after(name.syntax)
} else if let Some(struct_token) = self.struct_token() {
Position::after(struct_token)
} else {
Position::last_child_of(self.syntax())
};
create_generic_param_list(position)
}
}
}
fn get_or_create_where_clause(&self) -> WhereClause {
if self.where_clause().is_none() {
let tfl = self.field_list().and_then(|fl| match fl {
ast::FieldList::RecordFieldList(_) => None,
ast::FieldList::TupleFieldList(it) => Some(it),
});
let position = if let Some(tfl) = tfl {
Position::after(tfl.syntax())
} else if let Some(gpl) = self.generic_param_list() {
Position::after(gpl.syntax())
} else if let Some(name) = self.name() {
Position::after(name.syntax())
} else {
Position::last_child_of(self.syntax())
};
create_where_clause(position)
}
self.where_clause().unwrap()
}
}
impl GenericParamsOwnerEdit for ast::Enum {
fn get_or_create_generic_param_list(&self) -> ast::GenericParamList {
match self.generic_param_list() {
Some(it) => it,
None => {
let position = if let Some(name) = self.name() {
Position::after(name.syntax)
} else if let Some(enum_token) = self.enum_token() {
Position::after(enum_token)
} else {
Position::last_child_of(self.syntax())
};
create_generic_param_list(position)
}
}
}
fn get_or_create_where_clause(&self) -> WhereClause {
if self.where_clause().is_none() {
let position = if let Some(gpl) = self.generic_param_list() {
Position::after(gpl.syntax())
} else if let Some(name) = self.name() {
Position::after(name.syntax())
} else {
Position::last_child_of(self.syntax())
};
create_where_clause(position)
}
self.where_clause().unwrap()
}
}
fn create_where_clause(position: Position) {
let where_clause = make::where_clause(empty()).clone_for_update();
ted::insert(position, where_clause.syntax());
}
fn create_generic_param_list(position: Position) -> ast::GenericParamList {
let gpl = make::generic_param_list(empty()).clone_for_update();
ted::insert_raw(position, gpl.syntax());
gpl
}
impl ast::GenericParamList {
pub fn add_generic_param(&self, generic_param: ast::GenericParam) {
match self.generic_params().last() {
Some(last_param) => {
let mut elems = Vec::new();
if !last_param
.syntax()
.siblings_with_tokens(Direction::Next)
.any(|it| it.kind() == T![,])
{
elems.push(make::token(T![,]).into());
elems.push(make::tokens::single_space().into());
};
elems.push(generic_param.syntax().clone().into());
let after_last_param = Position::after(last_param.syntax());
ted::insert_all(after_last_param, elems);
}
None => {
let after_l_angle = Position::after(self.l_angle_token().unwrap());
ted::insert(after_l_angle, generic_param.syntax())
}
}
}
}
impl ast::WhereClause {
pub fn add_predicate(&self, predicate: ast::WherePred) {
if let Some(pred) = self.predicates().last() {
if !pred.syntax().siblings_with_tokens(Direction::Next).any(|it| it.kind() == T![,]) {
ted::append_child_raw(self.syntax(), make::token(T![,]));
}
}
ted::append_child(self.syntax(), predicate.syntax())
}
}
impl ast::TypeBoundList {
pub fn remove(&self) {
if let Some(colon) =
self.syntax().siblings_with_tokens(Direction::Prev).find(|it| it.kind() == T![:])
{
ted::remove_all(colon..=self.syntax().clone().into())
} else {
ted::remove(self.syntax())
}
}
}
impl ast::UseTree {
pub fn remove(&self) {
for &dir in [Direction::Next, Direction::Prev].iter() {
if let Some(next_use_tree) = neighbor(self, dir) {
let separators = self
.syntax()
.siblings_with_tokens(dir)
.skip(1)
.take_while(|it| it.as_node() != Some(next_use_tree.syntax()));
ted::remove_all_iter(separators);
break;
}
}
ted::remove(self.syntax())
}
}
impl ast::Use {
pub fn remove(&self) {
let next_ws = self
.syntax()
.next_sibling_or_token()
.and_then(|it| it.into_token())
.and_then(ast::Whitespace::cast);
if let Some(next_ws) = next_ws {
let ws_text = next_ws.syntax().text();
if let Some(rest) = ws_text.strip_prefix('\n') {
if rest.is_empty() {
ted::remove(next_ws.syntax())
} else {
ted::replace(next_ws.syntax(), make::tokens::whitespace(rest))
}
}
}
ted::remove(self.syntax())
}
}
#[cfg(test)]
mod tests {
use std::fmt;
use crate::SourceFile;
use super::*;
fn ast_mut_from_text<N: AstNode>(text: &str) -> N {
let parse = SourceFile::parse(text);
parse.tree().syntax().descendants().find_map(N::cast).unwrap().clone_for_update()
}
#[test]
fn test_create_generic_param_list() {
fn check_create_gpl<N: GenericParamsOwnerEdit + fmt::Display>(before: &str, after: &str) {
let gpl_owner = ast_mut_from_text::<N>(before);
gpl_owner.get_or_create_generic_param_list();
assert_eq!(gpl_owner.to_string(), after);
}
check_create_gpl::<ast::Fn>("fn foo", "fn foo<>");
check_create_gpl::<ast::Fn>("fn foo() {}", "fn foo<>() {}");
check_create_gpl::<ast::Impl>("impl", "impl<>");
check_create_gpl::<ast::Impl>("impl Struct {}", "impl<> Struct {}");
check_create_gpl::<ast::Impl>("impl Trait for Struct {}", "impl<> Trait for Struct {}");
check_create_gpl::<ast::Trait>("trait Trait<>", "trait Trait<>");
check_create_gpl::<ast::Trait>("trait Trait<> {}", "trait Trait<> {}");
check_create_gpl::<ast::Struct>("struct A", "struct A<>");
check_create_gpl::<ast::Struct>("struct A;", "struct A<>;");
check_create_gpl::<ast::Struct>("struct A();", "struct A<>();");
check_create_gpl::<ast::Struct>("struct A {}", "struct A<> {}");
check_create_gpl::<ast::Enum>("enum E", "enum E<>");
check_create_gpl::<ast::Enum>("enum E {", "enum E<> {");
}
}