use aster; use syntax::ast::{ Ident, MetaItem, Item, }; use syntax::ast; use syntax::codemap::Span; use syntax::ext::base::{Annotatable, ExtCtxt}; use syntax::ext::build::AstBuilder; use syntax::ptr::P; use attr; use error::Error; pub fn expand_derive_serialize( cx: &mut ExtCtxt, span: Span, meta_item: &MetaItem, annotatable: &Annotatable, push: &mut FnMut(Annotatable) ) { let item = match *annotatable { Annotatable::Item(ref item) => item, _ => { cx.span_err( meta_item.span, "`#[derive(Serialize)]` may only be applied to structs and enums"); return; } }; let builder = aster::AstBuilder::new().span(span); let impl_item = match serialize_item(cx, &builder, &item) { Ok(item) => item, Err(Error) => { // An error occured, but it should have been reported already. return; } }; push(Annotatable::Item(impl_item)) } fn serialize_item( cx: &ExtCtxt, builder: &aster::AstBuilder, item: &Item, ) -> Result, Error> { let generics = match item.node { ast::ItemKind::Struct(_, ref generics) => generics, ast::ItemKind::Enum(_, ref generics) => generics, _ => { cx.span_err( item.span, "`#[derive(Serialize)]` may only be applied to structs and enums"); return Err(Error); } }; let impl_generics = builder.from_generics(generics.clone()) .add_ty_param_bound( builder.path().global().ids(&["serde", "ser", "Serialize"]).build() ) .build(); let ty = builder.ty().path() .segment(item.ident).with_generics(impl_generics.clone()).build() .build(); let body = try!(serialize_body(cx, &builder, &item, &impl_generics, ty.clone())); let where_clause = &impl_generics.where_clause; Ok(quote_item!(cx, impl $impl_generics ::serde::ser::Serialize for $ty $where_clause { fn serialize<__S>(&self, serializer: &mut __S) -> ::std::result::Result<(), __S::Error> where __S: ::serde::ser::Serializer, { $body } } ).unwrap()) } fn serialize_body( cx: &ExtCtxt, builder: &aster::AstBuilder, item: &Item, impl_generics: &ast::Generics, ty: P, ) -> Result, Error> { let container_attrs = try!(attr::ContainerAttrs::from_item(cx, item)); match item.node { ast::ItemKind::Struct(ref variant_data, _) => { serialize_item_struct( cx, builder, impl_generics, ty, item.span, variant_data, &container_attrs, ) } ast::ItemKind::Enum(ref enum_def, _) => { serialize_item_enum( cx, builder, item.ident, impl_generics, ty, enum_def, &container_attrs, ) } _ => { cx.span_bug(item.span, "expected ItemStruct or ItemEnum in #[derive(Serialize)]"); } } } fn serialize_item_struct( cx: &ExtCtxt, builder: &aster::AstBuilder, impl_generics: &ast::Generics, ty: P, span: Span, variant_data: &ast::VariantData, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { match *variant_data { ast::VariantData::Unit(_) => { serialize_unit_struct( cx, container_attrs, ) } ast::VariantData::Tuple(ref fields, _) if fields.len() == 1 => { serialize_newtype_struct( cx, container_attrs, ) } ast::VariantData::Tuple(ref fields, _) => { if fields.iter().any(|field| !field.node.kind.is_unnamed()) { cx.span_bug(span, "tuple struct has named fields") } serialize_tuple_struct( cx, &builder, impl_generics, ty, fields.len(), container_attrs, ) } ast::VariantData::Struct(ref fields, _) => { if fields.iter().any(|field| field.node.kind.is_unnamed()) { cx.span_bug(span, "struct has unnamed fields") } serialize_struct( cx, &builder, impl_generics, ty, fields, container_attrs, ) } } } fn serialize_unit_struct( cx: &ExtCtxt, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let type_name = container_attrs.serialize_name_expr(); Ok(quote_expr!(cx, serializer.serialize_unit_struct($type_name) )) } fn serialize_newtype_struct( cx: &ExtCtxt, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let type_name = container_attrs.serialize_name_expr(); Ok(quote_expr!(cx, serializer.serialize_newtype_struct($type_name, &self.0) )) } fn serialize_tuple_struct( cx: &ExtCtxt, builder: &aster::AstBuilder, impl_generics: &ast::Generics, ty: P, fields: usize, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let (visitor_struct, visitor_impl) = serialize_tuple_struct_visitor( cx, builder, ty.clone(), builder.ty() .ref_() .lifetime("'__a") .build_ty(ty.clone()), builder.id("serialize_tuple_struct_elt"), fields, impl_generics, ); let type_name = container_attrs.serialize_name_expr(); Ok(quote_expr!(cx, { $visitor_struct $visitor_impl serializer.serialize_tuple_struct($type_name, Visitor { value: self, state: 0, _structure_ty: ::std::marker::PhantomData::<&$ty>, }) })) } fn serialize_struct( cx: &ExtCtxt, builder: &aster::AstBuilder, impl_generics: &ast::Generics, ty: P, fields: &[ast::StructField], container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let (visitor_struct, visitor_impl) = try!(serialize_struct_visitor( cx, builder, ty.clone(), builder.ty() .ref_() .lifetime("'__a") .build_ty(ty.clone()), builder.id("serialize_struct_elt"), fields, impl_generics, )); let type_name = container_attrs.serialize_name_expr(); Ok(quote_expr!(cx, { $visitor_struct $visitor_impl serializer.serialize_struct($type_name, Visitor { value: self, state: 0, _structure_ty: ::std::marker::PhantomData::<&$ty>, }) })) } fn serialize_item_enum( cx: &ExtCtxt, builder: &aster::AstBuilder, type_ident: Ident, impl_generics: &ast::Generics, ty: P, enum_def: &ast::EnumDef, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let arms: Vec<_> = try!( enum_def.variants.iter() .enumerate() .map(|(variant_index, variant)| { serialize_variant( cx, builder, type_ident, impl_generics, ty.clone(), variant, variant_index, container_attrs, ) }) .collect() ); Ok(quote_expr!(cx, match *self { $arms } )) } fn serialize_variant( cx: &ExtCtxt, builder: &aster::AstBuilder, type_ident: Ident, generics: &ast::Generics, ty: P, variant: &ast::Variant, variant_index: usize, container_attrs: &attr::ContainerAttrs, ) -> Result { let type_name = container_attrs.serialize_name_expr(); let variant_ident = variant.node.name; let variant_attrs = try!(attr::VariantAttrs::from_variant(cx, variant)); let variant_name = variant_attrs.serialize_name_expr(); match variant.node.data { ast::VariantData::Unit(_) => { let pat = builder.pat().path() .id(type_ident).id(variant_ident) .build(); Ok(quote_arm!(cx, $pat => { ::serde::ser::Serializer::serialize_unit_variant( serializer, $type_name, $variant_index, $variant_name, ) } )) }, ast::VariantData::Tuple(ref fields, _) if fields.len() == 1 => { let field = builder.id("__simple_value"); let field = builder.pat().ref_id(field); let pat = builder.pat().enum_() .id(type_ident).id(variant_ident).build() .with_pats(Some(field).into_iter()) .build(); Ok(quote_arm!(cx, $pat => { ::serde::ser::Serializer::serialize_newtype_variant( serializer, $type_name, $variant_index, $variant_name, __simple_value, ) } )) }, ast::VariantData::Tuple(ref fields, _) => { let field_names: Vec = (0 .. fields.len()) .map(|i| builder.id(format!("__field{}", i))) .collect(); let pat = builder.pat().enum_() .id(type_ident).id(variant_ident).build() .with_pats( field_names.iter() .map(|field| builder.pat().ref_id(field)) ) .build(); let expr = serialize_tuple_variant( cx, builder, type_name, variant_index, variant_name, generics, ty, fields, field_names, ); Ok(quote_arm!(cx, $pat => { $expr } )) } ast::VariantData::Struct(ref fields, _) => { let field_names: Vec<_> = (0 .. fields.len()) .map(|i| builder.id(format!("__field{}", i))) .collect(); let pat = builder.pat().struct_() .id(type_ident).id(variant_ident).build() .with_pats( field_names.iter() .zip(fields.iter()) .map(|(id, field)| { let name = match field.node.kind { ast::NamedField(name, _) => name, ast::UnnamedField(_) => { cx.span_bug(field.span, "struct variant has unnamed fields") } }; (name, builder.pat().ref_id(id)) }) ) .build(); let expr = try!(serialize_struct_variant( cx, builder, variant_index, variant_name, generics, ty, fields, field_names, container_attrs, )); Ok(quote_arm!(cx, $pat => { $expr } )) } } } fn serialize_tuple_variant( cx: &ExtCtxt, builder: &aster::AstBuilder, type_name: P, variant_index: usize, variant_name: P, generics: &ast::Generics, structure_ty: P, fields: &[ast::StructField], field_names: Vec, ) -> P { let variant_ty = builder.ty().tuple() .with_tys( fields.iter().map(|field| { builder.ty() .ref_() .lifetime("'__a") .build_ty(field.node.ty.clone()) }) ) .build(); let (visitor_struct, visitor_impl) = serialize_tuple_struct_visitor( cx, builder, structure_ty.clone(), variant_ty, builder.id("serialize_tuple_variant_elt"), fields.len(), generics, ); let value_expr = builder.expr().tuple() .with_exprs( field_names.iter().map(|field| { builder.expr().id(field) }) ) .build(); quote_expr!(cx, { $visitor_struct $visitor_impl serializer.serialize_tuple_variant($type_name, $variant_index, $variant_name, Visitor { value: $value_expr, state: 0, _structure_ty: ::std::marker::PhantomData::<&$structure_ty>, }) }) } fn serialize_struct_variant( cx: &ExtCtxt, builder: &aster::AstBuilder, variant_index: usize, variant_name: P, generics: &ast::Generics, ty: P, fields: &[ast::StructField], field_names: Vec, container_attrs: &attr::ContainerAttrs, ) -> Result, Error> { let variant_generics = builder.generics() .with(generics.clone()) .add_lifetime_bound("'__serde_variant") .lifetime_name("'__serde_variant") .build(); let variant_struct = builder.item().struct_("__VariantStruct") .with_generics(variant_generics.clone()) .with_fields( fields.iter().map(|field| { builder.struct_field(field.node.ident().expect("struct has unnamed fields")) .with_attrs(field.node.attrs.iter().cloned()) .ty() .ref_() .lifetime("'__serde_variant") .build_ty(field.node.ty.clone()) }) ) .field("__serde_container_ty") .ty().phantom_data().build(ty.clone()) .build(); let variant_expr = builder.expr().struct_id("__VariantStruct") .with_id_exprs( fields.iter() .zip(field_names.iter()) .map(|(field, field_name)| { ( field.node.ident().expect("struct has unnamed fields"), builder.expr().id(field_name), ) }) ) .field("__serde_container_ty").path() .global() .id("std").id("marker") .segment("PhantomData") .with_ty(ty.clone()) .build() .build() .build(); let variant_ty = builder.ty().path() .segment("__VariantStruct") .with_generics(variant_generics.clone()) .build() .build(); let (visitor_struct, visitor_impl) = try!(serialize_struct_visitor( cx, builder, variant_ty.clone(), variant_ty.clone(), builder.id("serialize_struct_variant_elt"), fields, &variant_generics, )); let container_name = container_attrs.serialize_name_expr(); Ok(quote_expr!(cx, { $variant_struct $visitor_struct $visitor_impl serializer.serialize_struct_variant( $container_name, $variant_index, $variant_name, Visitor { value: $variant_expr, state: 0, _structure_ty: ::std::marker::PhantomData, }, ) })) } fn serialize_tuple_struct_visitor( cx: &ExtCtxt, builder: &aster::AstBuilder, structure_ty: P, variant_ty: P, serializer_method: ast::Ident, fields: usize, generics: &ast::Generics ) -> (P, P) { let arms: Vec = (0 .. fields) .map(|i| { let expr = builder.expr().method_call(serializer_method) .id("serializer") .arg().ref_().tup_field(i).field("value").self_() .build(); quote_arm!(cx, $i => { self.state += 1; Ok(Some(try!($expr))) } ) }) .collect(); let visitor_impl_generics = builder.from_generics(generics.clone()) .add_lifetime_bound("'__a") .lifetime_name("'__a") .build(); let where_clause = &visitor_impl_generics.where_clause; let visitor_generics = builder.from_generics(visitor_impl_generics.clone()) .strip_bounds() .build(); ( quote_item!(cx, struct Visitor $visitor_impl_generics $where_clause { state: usize, value: $variant_ty, _structure_ty: ::std::marker::PhantomData<&'__a $structure_ty>, } ).unwrap(), quote_item!(cx, impl $visitor_impl_generics ::serde::ser::SeqVisitor for Visitor $visitor_generics $where_clause { #[inline] fn visit(&mut self, serializer: &mut S) -> ::std::result::Result, S::Error> where S: ::serde::ser::Serializer { match self.state { $arms _ => Ok(None) } } #[inline] fn len(&self) -> Option { Some($fields) } } ).unwrap(), ) } fn serialize_struct_visitor( cx: &ExtCtxt, builder: &aster::AstBuilder, structure_ty: P, variant_ty: P, serializer_method: ast::Ident, fields: &[ast::StructField], generics: &ast::Generics, ) -> Result<(P, P), Error> { let field_attrs = try!( attr::get_struct_field_attrs(cx, &structure_ty, generics, fields) ); let arms: Vec = fields.iter().zip(field_attrs.iter()) .filter(|&(_, ref field_attr)| !field_attr.skip_serializing_field()) .enumerate() .map(|(i, (ref field, ref field_attr))| { let name = field.node.ident().expect("struct has unnamed field"); let key_expr = field_attr.serialize_name_expr(); let stmt = if let Some(expr) = field_attr.skip_serializing_field_if() { Some(quote_stmt!(cx, if $expr { continue; })) } else { None }; let field_expr = match field_attr.serialize_with() { Some(expr) => expr.clone(), None => quote_expr!(cx, &self.value.$name), }; let expr = quote_expr!(cx, serializer.$serializer_method($key_expr, $field_expr) ); quote_arm!(cx, $i => { self.state += 1; $stmt return Ok(Some(try!($expr))); } ) }) .collect(); let visitor_impl_generics = builder.from_generics(generics.clone()) .add_lifetime_bound("'__a") .lifetime_name("'__a") .build(); let where_clause = &visitor_impl_generics.where_clause; let visitor_generics = builder.from_generics(visitor_impl_generics.clone()) .strip_bounds() .build(); let len = field_attrs.iter() .filter(|field_attr| !field_attr.skip_serializing_field()) .map(|field_attr| { match field_attr.skip_serializing_field_if() { Some(expr) => { quote_expr!(cx, if $expr { 0 } else { 1 }) } None => { quote_expr!(cx, 1) } } }) .fold(quote_expr!(cx, 0), |sum, expr| quote_expr!(cx, $sum + $expr)); Ok(( quote_item!(cx, struct Visitor $visitor_impl_generics $where_clause { state: usize, value: $variant_ty, _structure_ty: ::std::marker::PhantomData<&'__a $structure_ty>, } ).unwrap(), quote_item!(cx, impl $visitor_impl_generics ::serde::ser::MapVisitor for Visitor $visitor_generics $where_clause { #[inline] fn visit(&mut self, serializer: &mut S) -> ::std::result::Result, S::Error> where S: ::serde::ser::Serializer, { loop { match self.state { $arms _ => { return Ok(None); } } } } #[inline] fn len(&self) -> Option { Some($len) } } ).unwrap(), )) }