use crate::args; use crate::utils::{build_value_repr, check_reserved_name, get_crate_name}; use inflector::Inflector; use proc_macro::TokenStream; use quote::quote; use syn::{ Error, FnArg, ImplItem, ItemImpl, Pat, Result, ReturnType, Type, TypeImplTrait, TypeReference, }; pub fn generate(object_args: &args::Object, item_impl: &mut ItemImpl) -> Result { let crate_name = get_crate_name(object_args.internal); let (self_ty, self_name) = match item_impl.self_ty.as_ref() { Type::Path(path) => ( path, path.path .segments .last() .map(|s| s.ident.to_string()) .unwrap(), ), _ => return Err(Error::new_spanned(&item_impl.self_ty, "Invalid type")), }; let generics = &item_impl.generics; let gql_typename = object_args .name .clone() .unwrap_or_else(|| self_name.clone()); check_reserved_name(&gql_typename, object_args.internal)?; let desc = object_args .desc .as_ref() .map(|s| quote! {Some(#s)}) .unwrap_or_else(|| quote! {None}); let mut create_stream = Vec::new(); let mut schema_fields = Vec::new(); for item in &mut item_impl.items { if let ImplItem::Method(method) = item { if let Some(field) = args::Field::parse(&method.attrs)? { let ident = &method.sig.ident; let field_name = field .name .clone() .unwrap_or_else(|| method.sig.ident.to_string().to_camel_case()); let field_desc = field .desc .as_ref() .map(|s| quote! {Some(#s)}) .unwrap_or_else(|| quote! {None}); let field_deprecation = field .deprecation .as_ref() .map(|s| quote! {Some(#s)}) .unwrap_or_else(|| quote! {None}); if method.sig.asyncness.is_none() { return Err(Error::new_spanned( &method.sig.asyncness, "The subscription stream function must be asynchronous", )); } let mut arg_ctx = false; let mut args = Vec::new(); for (idx, arg) in method.sig.inputs.iter_mut().enumerate() { if let FnArg::Receiver(receiver) = arg { if idx != 0 { return Err(Error::new_spanned( receiver, "The self receiver must be the first parameter.", )); } } else if let FnArg::Typed(pat) = arg { if idx == 0 { return Err(Error::new_spanned( pat, "The self receiver must be the first parameter.", )); } match (&*pat.pat, &*pat.ty) { (Pat::Ident(arg_ident), Type::Path(arg_ty)) => { args.push(( arg_ident, arg_ty, args::Argument::parse(&crate_name, &pat.attrs)?, )); pat.attrs.clear(); } (_, Type::Reference(TypeReference { elem, .. })) => { if let Type::Path(path) = elem.as_ref() { if idx != 1 || path.path.segments.last().unwrap().ident != "Context" { return Err(Error::new_spanned( arg, "The Context must be the second argument.", )); } arg_ctx = true; } } _ => { return Err(Error::new_spanned(arg, "Incorrect argument type")); } } } else { return Err(Error::new_spanned(arg, "Incorrect argument type")); } } let mut schema_args = Vec::new(); let mut use_params = Vec::new(); let mut get_params = Vec::new(); for ( ident, ty, args::Argument { name, desc, default, validator, }, ) in args { let name = name .clone() .unwrap_or_else(|| ident.ident.to_string().to_camel_case()); let desc = desc .as_ref() .map(|s| quote! {Some(#s)}) .unwrap_or_else(|| quote! {None}); let schema_default = default .as_ref() .map(|v| { let s = v.to_string(); quote! {Some(#s)} }) .unwrap_or_else(|| quote! {None}); schema_args.push(quote! { args.insert(#name, #crate_name::registry::InputValue { name: #name, description: #desc, ty: <#ty as #crate_name::Type>::create_type_info(registry), default_value: #schema_default, validator: #validator, }); }); use_params.push(quote! { #ident }); let default = match &default { Some(default) => { let repr = build_value_repr(&crate_name, &default); quote! {|| #repr } } None => quote! { || #crate_name::Value::Null }, }; get_params.push(quote! { let #ident: #ty = ctx.param_value(#name, ctx.position, #default)?; }); } let stream_ty = match &method.sig.output { ReturnType::Default => { return Err(Error::new_spanned( &method.sig.output, "Must be return a stream type", )) } ReturnType::Type(_, ty) => { if let Type::ImplTrait(TypeImplTrait { bounds, .. }) = ty.as_ref() { quote! { #bounds } } else { quote! { #ty } } } }; schema_fields.push(quote! { fields.insert(#field_name.to_string(), #crate_name::registry::Field { name: #field_name.to_string(), description: #field_desc, args: { let mut args = std::collections::HashMap::new(); #(#schema_args)* args }, ty: <#stream_ty as #crate_name::futures::stream::Stream>::Item::create_type_info(registry), deprecation: #field_deprecation, cache_control: Default::default(), external: false, requires: None, provides: None, }); }); let ctx_param = if arg_ctx { quote! { &ctx, } } else { quote! {} }; create_stream.push(quote! { if ctx.name.as_str() == #field_name { let field_name = ctx.result_name().to_string(); #(#get_params)* let field_selection_set = std::sync::Arc::new(ctx.selection_set.clone()); let schema = schema.clone(); let pos = ctx.position; let environment = environment.clone(); let stream = #crate_name::futures::stream::StreamExt::then(self.#ident(#ctx_param #(#use_params),*).await.fuse(), move |msg| { let environment = environment.clone(); let field_selection_set = field_selection_set.clone(); let schema = schema.clone(); async move { let resolve_id = std::sync::atomic::AtomicUsize::default(); let ctx_selection_set = environment.create_context( &schema, Some(#crate_name::QueryPathNode { parent: None, segment: #crate_name::QueryPathSegment::Name("time"), }), &*field_selection_set, &resolve_id, ); #crate_name::OutputValueType::resolve(&msg, &ctx_selection_set, pos).await } }). filter_map(move |res| { let res = res.ok().map(|value| { #crate_name::serde_json::json!({ &field_name: value }) }); async move { res } }); return Ok(Box::pin(stream)); } }); method.attrs.clear(); } } } let expanded = quote! { #item_impl impl #generics #crate_name::Type for #self_ty { fn type_name() -> std::borrow::Cow<'static, str> { std::borrow::Cow::Borrowed(#gql_typename) } #[allow(bare_trait_objects)] fn create_type_info(registry: &mut #crate_name::registry::Registry) -> String { registry.create_type::(|registry| #crate_name::registry::Type::Object { name: #gql_typename.to_string(), description: #desc, fields: { let mut fields = std::collections::HashMap::new(); #(#schema_fields)* fields }, cache_control: Default::default(), extends: false, keys: None, }) } } #[#crate_name::async_trait::async_trait] impl #crate_name::SubscriptionType for SubscriptionRoot { #[allow(unused_variables)] #[allow(bare_trait_objects)] async fn create_field_stream( &self, ctx: &#crate_name::Context<'_>, schema: &#crate_name::Schema, environment: std::sync::Arc<#crate_name::Environment>, ) -> #crate_name::Result + Send>>> where Query: #crate_name::ObjectType + Send + Sync + 'static, Mutation: #crate_name::ObjectType + Send + Sync + 'static, Self: Send + Sync + 'static + Sized, { #(#create_stream)* Err(#crate_name::QueryError::FieldNotFound { field_name: ctx.name.clone(), object: #gql_typename.to_string(), }.into_error(ctx.position)) } } }; Ok(expanded.into()) }