use proc_macro::TokenStream; use quote::quote; use syn::ext::IdentExt; use syn::{Block, Error, FnArg, ImplItem, ItemImpl, Pat, ReturnType, Type, TypeReference}; use crate::args::{self, RenameRuleExt, RenameTarget}; use crate::output_type::OutputType; use crate::utils::{ generate_default, generate_guards, generate_validator, get_cfg_attrs, get_crate_name, get_param_getter_ident, get_rustdoc, get_type_path_and_name, parse_graphql_attrs, remove_graphql_attrs, GeneratorResult, }; pub fn generate( object_args: &args::Object, item_impl: &mut ItemImpl, ) -> GeneratorResult { let crate_name = get_crate_name(object_args.internal); let (self_ty, self_name) = get_type_path_and_name(item_impl.self_ty.as_ref())?; let generics = &item_impl.generics; let where_clause = &item_impl.generics.where_clause; let extends = object_args.extends; let gql_typename = object_args .name .clone() .unwrap_or_else(|| RenameTarget::Type.rename(self_name.clone())); let desc = if object_args.use_type_description { quote! { ::std::option::Option::Some(::description()) } } else { get_rustdoc(&item_impl.attrs)? .map(|s| quote!(::std::option::Option::Some(#s))) .unwrap_or_else(|| quote!(::std::option::Option::None)) }; let mut resolvers = Vec::new(); let mut schema_fields = Vec::new(); let mut find_entities = Vec::new(); let mut add_keys = Vec::new(); let mut create_entity_types = Vec::new(); for item in &mut item_impl.items { if let ImplItem::Method(method) = item { let method_args: args::ObjectField = parse_graphql_attrs(&method.attrs)?.unwrap_or_default(); if method_args.entity { let cfg_attrs = get_cfg_attrs(&method.attrs); if method.sig.asyncness.is_none() { return Err(Error::new_spanned(&method, "Must be asynchronous").into()); } let ty = match &method.sig.output { ReturnType::Type(_, ty) => OutputType::parse(ty)?, ReturnType::Default => { return Err(Error::new_spanned(&method.sig.output, "Missing type").into()) } }; let mut create_ctx = true; 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.", ) .into()); } } else if let FnArg::Typed(pat) = arg { if idx == 0 { return Err(Error::new_spanned( pat, "The self receiver must be the first parameter.", ) .into()); } match (&*pat.pat, &*pat.ty) { (Pat::Ident(arg_ident), Type::Path(arg_ty)) => { args.push(( arg_ident.clone(), arg_ty.clone(), parse_graphql_attrs::(&pat.attrs)? .unwrap_or_default(), )); remove_graphql_attrs(&mut pat.attrs); } (arg, 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, "Only types that implement `InputType` can be used as input arguments.", ) .into()); } else { create_ctx = false; } } } _ => { return Err(Error::new_spanned(arg, "Invalid argument type.").into()) } } } } if create_ctx { let arg = syn::parse2::(quote! { _: &#crate_name::Context<'_> }).unwrap(); method.sig.inputs.insert(1, arg); } let entity_type = ty.value_type(); let mut key_pat = Vec::new(); let mut key_getter = Vec::new(); let mut use_keys = Vec::new(); let mut keys = Vec::new(); let mut keys_str = String::new(); let mut requires_getter = Vec::new(); let all_key = args.iter().all(|(_, _, arg)| !arg.key); if args.is_empty() { return Err(Error::new_spanned( method, "Entity need to have at least one key.", ) .into()); } for (ident, ty, args::Argument { name, key, .. }) in &args { let is_key = all_key || *key; let name = name.clone().unwrap_or_else(|| { object_args .rename_args .rename(ident.ident.unraw().to_string(), RenameTarget::Argument) }); if is_key { if !keys_str.is_empty() { keys_str.push(' '); } keys_str.push_str(&name); key_pat.push(quote! { ::std::option::Option::Some(#ident) }); key_getter.push(quote! { params.get(#name).and_then(|value| { let value: ::std::option::Option<#ty> = #crate_name::InputType::parse(::std::option::Option::Some(::std::clone::Clone::clone(&value))).ok(); value }) }); keys.push(name); use_keys.push(ident); } else { // requires requires_getter.push(quote! { let #ident: #ty = #crate_name::InputType::parse(params.get(#name).cloned()). map_err(|err| err.into_server_error().at(ctx.item.pos))?; }); use_keys.push(ident); } } add_keys.push(quote! { registry.add_keys(&<#entity_type as #crate_name::Type>::type_name(), #keys_str); }); create_entity_types.push( quote! { <#entity_type as #crate_name::Type>::create_type_info(registry); }, ); let field_ident = &method.sig.ident; if let OutputType::Value(inner_ty) = &ty { let block = &method.block; let new_block = quote!({ { let value:#inner_ty = async move #block.await; ::std::result::Result::Ok(value) } }); method.block = syn::parse2::(new_block).expect("invalid block"); method.sig.output = syn::parse2::(quote! { -> #crate_name::Result<#inner_ty> }) .expect("invalid result type"); } let do_find = quote! { self.#field_ident(ctx, #(#use_keys),*).await.map_err(|err| err.into_server_error().at(ctx.item.pos))? }; find_entities.push(( args.len(), quote! { #(#cfg_attrs)* if typename == &<#entity_type as #crate_name::Type>::type_name() { if let (#(#key_pat),*) = (#(#key_getter),*) { #(#requires_getter)* let ctx_obj = ctx.with_selection_set(&ctx.item.node.selection_set); return #crate_name::OutputType::resolve(&#do_find, &ctx_obj, ctx.item).await.map(::std::option::Option::Some); } } }, )); } else if !method_args.skip { if method.sig.asyncness.is_none() { return Err(Error::new_spanned(&method, "Must be asynchronous").into()); } let field_name = method_args.name.clone().unwrap_or_else(|| { object_args .rename_fields .rename(method.sig.ident.unraw().to_string(), RenameTarget::Field) }); let field_desc = get_rustdoc(&method.attrs)? .map(|s| quote! { ::std::option::Option::Some(#s) }) .unwrap_or_else(|| quote! {::std::option::Option::None}); let field_deprecation = method_args .deprecation .as_ref() .map(|s| quote! { ::std::option::Option::Some(#s) }) .unwrap_or_else(|| quote! {::std::option::Option::None}); let external = method_args.external; let requires = match &method_args.requires { Some(requires) => quote! { ::std::option::Option::Some(#requires) }, None => quote! { ::std::option::Option::None }, }; let provides = match &method_args.provides { Some(provides) => quote! { ::std::option::Option::Some(#provides) }, None => quote! { ::std::option::Option::None }, }; let ty = match &method.sig.output { ReturnType::Type(_, ty) => OutputType::parse(ty)?, ReturnType::Default => { return Err(Error::new_spanned(&method.sig.output, "Missing type").into()) } }; let cache_control = { let public = method_args.cache_control.is_public(); let max_age = method_args.cache_control.max_age; quote! { #crate_name::CacheControl { public: #public, max_age: #max_age, } } }; let cfg_attrs = get_cfg_attrs(&method.attrs); let mut create_ctx = true; 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.", ) .into()); } } else if let FnArg::Typed(pat) = arg { if idx == 0 { return Err(Error::new_spanned( pat, "The self receiver must be the first parameter.", ) .into()); } match (&*pat.pat, &*pat.ty) { (Pat::Ident(arg_ident), Type::Path(arg_ty)) => { args.push(( arg_ident.clone(), arg_ty.clone(), parse_graphql_attrs::(&pat.attrs)? .unwrap_or_default(), )); remove_graphql_attrs(&mut pat.attrs); } (arg, 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, "Only types that implement `InputType` can be used as input arguments.", ) .into()); } create_ctx = false; } } _ => { return Err(Error::new_spanned(arg, "Invalid argument type.").into()) } } } } if create_ctx { let arg = syn::parse2::(quote! { _: &#crate_name::Context<'_> }).unwrap(); method.sig.inputs.insert(1, arg); } 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, default_with, validator, .. }, ) in args { let name = name.clone().unwrap_or_else(|| { object_args .rename_args .rename(ident.ident.unraw().to_string(), RenameTarget::Argument) }); let desc = desc .as_ref() .map(|s| quote! {::std::option::Option::Some(#s)}) .unwrap_or_else(|| quote! {::std::option::Option::None}); let default = generate_default(&default, &default_with)?; let schema_default = default .as_ref() .map(|value| { quote! { ::std::option::Option::Some(::std::string::ToString::to_string( &<#ty as #crate_name::InputType>::to_value(&#value) )) } }) .unwrap_or_else(|| quote! {::std::option::Option::None}); let validator = match &validator { Some(meta) => { let stream = generate_validator(&crate_name, meta)?; quote!(::std::option::Option::Some(#stream)) } None => quote!(::std::option::Option::None), }; schema_args.push(quote! { args.insert(#name, #crate_name::registry::MetaInputValue { name: #name, description: #desc, ty: <#ty as #crate_name::Type>::create_type_info(registry), default_value: #schema_default, validator: #validator, }); }); let param_ident = &ident.ident; use_params.push(quote! { #param_ident }); let default = match default { Some(default) => { quote! { ::std::option::Option::Some(|| -> #ty { #default }) } } None => quote! { ::std::option::Option::None }, }; let param_getter_name = get_param_getter_ident(&ident.ident.to_string()); get_params.push(quote! { #[allow(non_snake_case)] let #param_getter_name = || -> #crate_name::ServerResult<#ty> { ctx.param_value(#name, #default) }; #[allow(non_snake_case)] let #ident: #ty = #param_getter_name()?; }); } let schema_ty = ty.value_type(); schema_fields.push(quote! { #(#cfg_attrs)* fields.insert(::std::borrow::ToOwned::to_owned(#field_name), #crate_name::registry::MetaField { name: ::std::borrow::ToOwned::to_owned(#field_name), description: #field_desc, args: { let mut args = #crate_name::indexmap::IndexMap::new(); #(#schema_args)* args }, ty: <#schema_ty as #crate_name::Type>::create_type_info(registry), deprecation: #field_deprecation, cache_control: #cache_control, external: #external, provides: #provides, requires: #requires, }); }); let field_ident = &method.sig.ident; if let OutputType::Value(inner_ty) = &ty { let block = &method.block; let new_block = quote!({ { let value:#inner_ty = async move #block.await; ::std::result::Result::Ok(value) } }); method.block = syn::parse2::(new_block).expect("invalid block"); method.sig.output = syn::parse2::(quote! { -> #crate_name::Result<#inner_ty> }) .expect("invalid result type"); } let resolve_obj = quote! { { let res = self.#field_ident(ctx, #(#use_params),*).await; res.map_err(|err| err.into_server_error().at(ctx.item.pos))? } }; let guard = match &method_args.guard { Some(meta_list) => generate_guards(&crate_name, meta_list)?, None => None, }; let guard = guard.map(|guard| { quote! { #guard.check(ctx).await .map_err(|err| err.into_server_error().at(ctx.item.pos))?; } }); resolvers.push(quote! { #(#cfg_attrs)* if ctx.item.node.name.node == #field_name { #(#get_params)* #guard let ctx_obj = ctx.with_selection_set(&ctx.item.node.selection_set); let res = #resolve_obj; return #crate_name::OutputType::resolve(&res, &ctx_obj, ctx.item).await.map(::std::option::Option::Some); } }); } remove_graphql_attrs(&mut method.attrs); } } let cache_control = { let public = object_args.cache_control.is_public(); let max_age = object_args.cache_control.max_age; quote! { #crate_name::CacheControl { public: #public, max_age: #max_age, } } }; find_entities.sort_by(|(a, _), (b, _)| b.cmp(a)); let find_entities_iter = find_entities.iter().map(|(_, code)| code); if resolvers.is_empty() && create_entity_types.is_empty() { return Err(Error::new_spanned( &self_ty, "A GraphQL Object type must define one or more fields.", ) .into()); } let expanded = quote! { #item_impl #[allow(clippy::all, clippy::pedantic)] impl #generics #crate_name::Type for #self_ty #where_clause { fn type_name() -> ::std::borrow::Cow<'static, ::std::primitive::str> { ::std::borrow::Cow::Borrowed(#gql_typename) } fn create_type_info(registry: &mut #crate_name::registry::Registry) -> ::std::string::String { let ty = registry.create_type::(|registry| #crate_name::registry::MetaType::Object { name: ::std::borrow::ToOwned::to_owned(#gql_typename), description: #desc, fields: { let mut fields = #crate_name::indexmap::IndexMap::new(); #(#schema_fields)* fields }, cache_control: #cache_control, extends: #extends, keys: ::std::option::Option::None, }); #(#create_entity_types)* #(#add_keys)* ty } } #[allow(clippy::all, clippy::pedantic, clippy::suspicious_else_formatting)] #[allow(unused_braces, unused_variables, unused_parens, unused_mut)] #[#crate_name::async_trait::async_trait] impl#generics #crate_name::resolver_utils::ContainerType for #self_ty #where_clause { async fn resolve_field(&self, ctx: &#crate_name::Context<'_>) -> #crate_name::ServerResult<::std::option::Option<#crate_name::Value>> { #(#resolvers)* ::std::result::Result::Ok(::std::option::Option::None) } async fn find_entity(&self, ctx: &#crate_name::Context<'_>, params: &#crate_name::Value) -> #crate_name::ServerResult<::std::option::Option<#crate_name::Value>> { let params = match params { #crate_name::Value::Object(params) => params, _ => return ::std::result::Result::Ok(::std::option::Option::None), }; let typename = if let ::std::option::Option::Some(#crate_name::Value::String(typename)) = params.get("__typename") { typename } else { return ::std::result::Result::Err( #crate_name::ServerError::new(r#""__typename" must be an existing string."#) .at(ctx.item.pos) ); }; #(#find_entities_iter)* ::std::result::Result::Ok(::std::option::Option::None) } } #[allow(clippy::all, clippy::pedantic)] #[#crate_name::async_trait::async_trait] impl #generics #crate_name::OutputType for #self_ty #where_clause { async fn resolve(&self, ctx: &#crate_name::ContextSelectionSet<'_>, _field: &#crate_name::Positioned<#crate_name::parser::types::Field>) -> #crate_name::ServerResult<#crate_name::Value> { #crate_name::resolver_utils::resolve_container(ctx, self).await } } impl #generics #crate_name::ObjectType for #self_ty #where_clause {} }; Ok(expanded.into()) }