cairo_lang_plugins/plugins/derive/
mod.rsuse cairo_lang_defs::patcher::{PatchBuilder, RewriteNode};
use cairo_lang_defs::plugin::{
MacroPlugin, MacroPluginMetadata, PluginDiagnostic, PluginGeneratedFile, PluginResult,
};
use cairo_lang_syntax::attribute::structured::{
AttributeArg, AttributeArgVariant, AttributeStructurize,
};
use cairo_lang_syntax::node::ast::{
AttributeList, MemberList, OptionWrappedGenericParamList, VariantList,
};
use cairo_lang_syntax::node::db::SyntaxGroup;
use cairo_lang_syntax::node::helpers::{GenericParamEx, QueryAttrs};
use cairo_lang_syntax::node::{Terminal, TypedStablePtr, TypedSyntaxNode, ast};
use itertools::{Itertools, chain};
use smol_str::SmolStr;
mod clone;
mod debug;
mod default;
mod destruct;
mod hash;
mod panic_destruct;
mod partial_eq;
mod serde;
#[derive(Debug, Default)]
#[non_exhaustive]
pub struct DerivePlugin;
const DERIVE_ATTR: &str = "derive";
impl MacroPlugin for DerivePlugin {
fn generate_code(
&self,
db: &dyn SyntaxGroup,
item_ast: ast::ModuleItem,
metadata: &MacroPluginMetadata<'_>,
) -> PluginResult {
generate_derive_code_for_type(db, metadata, match item_ast {
ast::ModuleItem::Struct(struct_ast) => DeriveInfo::new(
db,
struct_ast.name(db),
struct_ast.attributes(db),
struct_ast.generic_params(db),
TypeVariantInfo::Struct(extract_members(db, struct_ast.members(db))),
),
ast::ModuleItem::Enum(enum_ast) => DeriveInfo::new(
db,
enum_ast.name(db),
enum_ast.attributes(db),
enum_ast.generic_params(db),
TypeVariantInfo::Enum(extract_variants(db, enum_ast.variants(db))),
),
ast::ModuleItem::ExternType(extern_type_ast) => DeriveInfo::new(
db,
extern_type_ast.name(db),
extern_type_ast.attributes(db),
extern_type_ast.generic_params(db),
TypeVariantInfo::Extern,
),
_ => return PluginResult::default(),
})
}
fn declared_attributes(&self) -> Vec<String> {
vec![DERIVE_ATTR.to_string(), default::DEFAULT_ATTR.to_string()]
}
}
struct MemberInfo {
name: SmolStr,
_ty: String,
attributes: AttributeList,
}
enum TypeVariantInfo {
Enum(Vec<MemberInfo>),
Struct(Vec<MemberInfo>),
Extern,
}
struct GenericParamsInfo {
ordered: Vec<SmolStr>,
type_generics: Vec<SmolStr>,
other_generics: Vec<String>,
}
impl GenericParamsInfo {
fn new(db: &dyn SyntaxGroup, generic_params: OptionWrappedGenericParamList) -> Self {
let mut ordered = vec![];
let mut type_generics = vec![];
let mut other_generics = vec![];
if let OptionWrappedGenericParamList::WrappedGenericParamList(gens) = generic_params {
for param in gens.generic_params(db).elements(db) {
ordered.push(param.name(db).map(|n| n.text(db)).unwrap_or_else(|| "_".into()));
if let ast::GenericParam::Type(t) = param {
type_generics.push(t.name(db).text(db));
} else {
other_generics.push(param.as_syntax_node().get_text_without_trivia(db));
}
}
}
Self { ordered, type_generics, other_generics }
}
fn format_generics_with_trait_params_only(
&self,
additional_demands: impl Fn(&SmolStr) -> Vec<String>,
) -> String {
chain!(
self.type_generics.iter().map(|s| s.to_string()),
self.other_generics.iter().cloned(),
self.type_generics.iter().flat_map(additional_demands)
)
.join(", ")
}
fn format_generics_with_trait(
&self,
additional_demands: impl Fn(&SmolStr) -> Vec<String>,
) -> String {
if self.ordered.is_empty() {
"".to_string()
} else {
format!("<{}>", self.format_generics_with_trait_params_only(additional_demands))
}
}
fn format_generics(&self) -> String {
if self.ordered.is_empty() {
"".to_string()
} else {
format!("<{}>", self.ordered.iter().join(", "))
}
}
}
pub struct DeriveInfo {
name: SmolStr,
attributes: AttributeList,
generics: GenericParamsInfo,
specific_info: TypeVariantInfo,
}
impl DeriveInfo {
fn new(
db: &dyn SyntaxGroup,
ident: ast::TerminalIdentifier,
attributes: AttributeList,
generic_args: OptionWrappedGenericParamList,
specific_info: TypeVariantInfo,
) -> Self {
Self {
name: ident.text(db),
attributes,
generics: GenericParamsInfo::new(db, generic_args),
specific_info,
}
}
fn format_impl_header(
&self,
derived_trait_module: &str,
derived_trait_name: &str,
dependent_traits: &[&str],
) -> String {
format!(
"impl {name}{derived_trait_name}{generics_impl} of \
{derived_trait_module}::{derived_trait_name}::<{full_typename}>",
name = self.name,
generics_impl = self.generics.format_generics_with_trait(|t| dependent_traits
.iter()
.map(|d| format!("+{d}<{t}>"))
.collect()),
full_typename = self.full_typename(),
)
}
fn full_typename(&self) -> String {
format!("{name}{generics}", name = self.name, generics = self.generics.format_generics())
}
}
fn extract_members(db: &dyn SyntaxGroup, members: MemberList) -> Vec<MemberInfo> {
members
.elements(db)
.into_iter()
.map(|member| MemberInfo {
name: member.name(db).text(db),
_ty: member.type_clause(db).ty(db).as_syntax_node().get_text_without_trivia(db),
attributes: member.attributes(db),
})
.collect()
}
fn extract_variants(db: &dyn SyntaxGroup, variants: VariantList) -> Vec<MemberInfo> {
variants
.elements(db)
.into_iter()
.map(|variant| MemberInfo {
name: variant.name(db).text(db),
_ty: match variant.type_clause(db) {
ast::OptionTypeClause::Empty(_) => "()".to_string(),
ast::OptionTypeClause::TypeClause(t) => {
t.ty(db).as_syntax_node().get_text_without_trivia(db)
}
},
attributes: variant.attributes(db),
})
.collect()
}
fn generate_derive_code_for_type(
db: &dyn SyntaxGroup,
metadata: &MacroPluginMetadata<'_>,
info: DeriveInfo,
) -> PluginResult {
let mut diagnostics = vec![];
let mut builder = PatchBuilder::new(db, &info.attributes);
for attr in info.attributes.query_attr(db, DERIVE_ATTR) {
let attr = attr.structurize(db);
if attr.args.is_empty() {
diagnostics.push(PluginDiagnostic::error(
attr.args_stable_ptr.untyped(),
"Expected args.".into(),
));
continue;
}
for arg in attr.args {
let AttributeArg {
variant: AttributeArgVariant::Unnamed(ast::Expr::Path(derived_path)),
..
} = arg
else {
diagnostics.push(PluginDiagnostic::error(&arg.arg, "Expected path.".into()));
continue;
};
let derived = derived_path.as_syntax_node().get_text_without_trivia(db);
if let Some(code) = match derived.as_str() {
"Copy" | "Drop" => Some(get_empty_impl(&derived, &info)),
"Clone" => clone::handle_clone(&info, &derived_path, &mut diagnostics),
"Debug" => debug::handle_debug(&info, &derived_path, &mut diagnostics),
"Default" => default::handle_default(db, &info, &derived_path, &mut diagnostics),
"Destruct" => destruct::handle_destruct(&info, &derived_path, &mut diagnostics),
"Hash" => hash::handle_hash(&info, &derived_path, &mut diagnostics),
"PanicDestruct" => {
panic_destruct::handle_panic_destruct(&info, &derived_path, &mut diagnostics)
}
"PartialEq" => {
partial_eq::handle_partial_eq(&info, &derived_path, &mut diagnostics)
}
"Serde" => serde::handle_serde(&info, &derived_path, &mut diagnostics),
_ => {
if !metadata.declared_derives.contains(&derived) {
diagnostics.push(PluginDiagnostic::error(
&derived_path,
format!("Unknown derive `{derived}` - a plugin might be missing."),
));
}
None
}
} {
builder.add_modified(RewriteNode::mapped_text(code, db, &derived_path));
}
}
}
let (content, code_mappings) = builder.build();
PluginResult {
code: (!content.is_empty()).then(|| PluginGeneratedFile {
name: "impls".into(),
code_mappings,
content,
aux_data: None,
diagnostics_note: Default::default(),
}),
diagnostics,
remove_original_item: false,
}
}
fn get_empty_impl(derived_trait: &str, info: &DeriveInfo) -> String {
format!(
"{};\n",
info.format_impl_header("core::traits", derived_trait, &[&format!(
"core::traits::{derived_trait}"
)])
)
}
fn unsupported_for_extern_diagnostic(path: &ast::ExprPath) -> PluginDiagnostic {
PluginDiagnostic::error(path, "Unsupported trait for derive for extern types.".into())
}