// use quote::{ quote }; use proc_macro_tools::syn::{ DeriveInput }; use iter_tools::{ Itertools, process_results }; use proc_macro_tools::*; pub type Result< T > = std::result::Result< T, syn::Error >; /// /// Descripotr of a field. /// #[allow( dead_code )] struct FormerField< 'a > { pub attrs : &'a Vec< syn::Attribute >, pub vis : &'a syn::Visibility, pub ident : &'a syn::Ident, pub colon_token : &'a Option< syn::token::Colon >, pub ty : &'a syn::Type, pub non_optional_ty : &'a syn::Type, pub is_optional : bool, pub type_container_kind : proc_macro_tools::ContainerKind, } /// /// Attribute to hold information about method to call after form. /// /// `#[ perform = ( fn after1< 'a >() -> Option< &'a str > ) ]` /// #[allow( dead_code )] struct AttributeFormAfter { paren_token : syn::token::Paren, signature : syn::Signature, } impl syn::parse::Parse for AttributeFormAfter { fn parse( input : syn::parse::ParseStream< '_ > ) -> Result< Self > { let input2; Ok( Self { paren_token : syn::parenthesized!( input2 in input ), signature : input2.parse()?, }) } } /// /// Attribute to hold information about default value. /// /// `#[ default = 13 ]` /// #[allow( dead_code )] struct AttributeDefault { // eq_token : syn::Token!{ = }, paren_token : syn::token::Paren, expr : syn::Expr, } impl syn::parse::Parse for AttributeDefault { fn parse( input : syn::parse::ParseStream< '_ > ) -> Result< Self > { let input2; Ok( Self { paren_token : syn::parenthesized!( input2 in input ), // eq_token : input.parse()?, expr : input2.parse()?, }) } } /// /// Is type under Option. /// fn is_optional( ty : &syn::Type ) -> bool { proc_macro_tools::type_rightmost( ty ) == Some( "Option".to_string() ) } /// /// Extract the first parameter of the type if such exist. /// fn parameter_internal_first( ty : &syn::Type ) -> Result< &syn::Type > { proc_macro_tools::type_parameters( ty, 0 ..= 0 ) .first() .map( | e | *e ) .ok_or_else( || syn_err!( ty, "Expects at least one parameter here:\n {}", qt!{ #ty } ) ) } /// /// Extract the first and the second parameters of the type if such exist. /// fn parameter_internal_first_two( ty : &syn::Type ) -> Result< ( &syn::Type, &syn::Type ) > { let on_err = || { syn_err!( ty, "Expects at least two parameters here:\n {}", qt!{ #ty } ) }; let result = proc_macro_tools::type_parameters( ty, 0 ..= 1 ); let mut iter = result.iter(); Ok (( iter.next().ok_or_else( on_err )?, iter.next().ok_or_else( on_err )?, ),) } /// /// Generate fields for initializer of a struct setting each field to `None`. /// /// ### Sample of output /// /// ```compile_fail /// int_1 : core::option::Option::None, /// string_1 : core::option::Option::None, /// int_optional_1 : core::option::Option::None, /// ``` /// #[inline] fn field_none_map( field : &FormerField< '_ > ) -> proc_macro2::TokenStream { let ident = Some( field.ident.clone() ); let tokens = qt! { ::core::option::Option::None }; let ty2 : syn::Type = syn::parse2( tokens ).unwrap(); qt! { #ident : #ty2 } } /// /// Generate field of the former for a field of the structure /// /// ### Sample of output /// /// ```compile_fail /// pub int_1 : core::option::Option< i32 >, /// pub string_1 : core::option::Option< String >, /// pub int_optional_1 : core::option::Option< i32 >, /// pub string_optional_1 : core::option::Option< String >, /// ``` /// #[inline] fn field_optional_map( field : &FormerField< '_ > ) -> proc_macro2::TokenStream { let ident = Some( field.ident.clone() ); let ty = field.ty.clone(); let ty2 = if is_optional( &ty ) { qt! { #ty } } else { qt! { ::core::option::Option< #ty > } }; qt! { pub #ident : #ty2 } } /// /// Generate code converting a field of the former to the field of the structure. /// /// ### Sample of output /// /// ```compile_fail /// let int_1 = if self.int_1.is_some() /// { /// self.int_1.take().unwrap() /// } /// else /// { /// let val : i32 = Default::default(); /// val /// }; /// ``` /// #[inline] fn field_form_map( field : &FormerField< '_ > ) -> Result< proc_macro2::TokenStream > { let ident = field.ident; let ty = field.ty; let mut default = None; for attr in field.attrs.iter() { let key_ident = attr.path.get_ident() .ok_or_else( || syn_err!( attr, "Expects simple key of an attirbute, but got:\n {}", qt!{ #attr } ) )?; let key_str = format!( "{}", key_ident ); match key_str.as_ref() { "default" => { let attr_default = syn::parse2::< AttributeDefault >( attr.tokens.clone() )?; default = Some( attr_default.expr ); } _ => { return Err( syn_err!( attr, "Unknown attribute {}", qt!{ #attr } ) ); } } } let tokens = if field.is_optional { let _else = if default == None { qt! { ::core::option::Option::None } } else { let default_val = default.unwrap(); qt! { ::core::option::Option::Some( ( #default_val ).into() ) } }; qt! { let #ident = if self.#ident.is_some() { ::core::option::Option::Some( self.#ident.take().unwrap() ) } else { #_else }; } } else { let _else = if default == None { qt! { let val : #ty = ::core::default::Default::default(); } } else { let default_val = default.unwrap(); qt! { let val : #ty = ( #default_val ).into(); } }; qt! { let #ident = if self.#ident.is_some() { self.#ident.take().unwrap() } else { #_else val }; } }; Ok( tokens ) } /// /// Extract name of a field out. /// #[inline] fn field_name_map( field : &FormerField< '_ > ) -> syn::Ident { let ident = field.ident.clone(); ident } /// /// Generate a fomer setter for the field. /// /// ### Sample of output /// /// ```compile_fail /// pub fn int_1< Src >( mut self, src : Src ) -> Self /// where Src : Into< i32 >, /// { /// debug_assert!( self.int_1.is_none() ); /// self.int_1 = Some( src.into() ); /// self /// } /// ``` /// #[inline] fn field_setter_map( field : &FormerField< '_ >, former_name_ident : &syn::Ident ) -> Result< proc_macro2::TokenStream > { let ident = &field.ident; let tokens = match &field.type_container_kind { proc_macro_tools::ContainerKind::No => { let non_optional_ty = &field.non_optional_ty; qt! { #[inline] pub fn #ident< Src >( mut self, src : Src ) -> Self where Src : ::core::convert::Into< #non_optional_ty >, { debug_assert!( self.#ident.is_none() ); self.#ident = ::core::option::Option::Some( src.into() ); self } } }, proc_macro_tools::ContainerKind::Vector => { let ty = &field.ty; let internal_ty = parameter_internal_first( ty )?; qt! { #[inline] pub fn #ident( mut self ) -> former::runtime::VectorFormer < #internal_ty, #ty, #former_name_ident, impl Fn( &mut #former_name_ident, ::core::option::Option< #ty > ) > { let container = self.#ident.take(); let on_end = | former : &mut #former_name_ident, container : ::core::option::Option< #ty > | { former.#ident = container; }; former::runtime::VectorFormer::new( self, container, on_end ) } } }, proc_macro_tools::ContainerKind::HashMap => { let ty = &field.ty; let ( k_ty, e_ty ) = parameter_internal_first_two( ty )?; qt! { #[inline] pub fn #ident( mut self ) -> former::runtime::HashMapFormer < #k_ty, #e_ty, #ty, #former_name_ident, impl Fn( &mut #former_name_ident, ::core::option::Option< #ty > ) > { let container = self.#ident.take(); let on_end = | former : &mut #former_name_ident, container : ::core::option::Option< #ty > | { former.#ident = container; }; former::runtime::HashMapFormer::new( self, container, on_end ) } } }, proc_macro_tools::ContainerKind::HashSet => { let ty = &field.ty; let internal_ty = parameter_internal_first( ty )?; qt! { #[inline] pub fn #ident( mut self ) -> former::runtime::HashSetFormer < #internal_ty, #ty, #former_name_ident, impl Fn( &mut #former_name_ident, ::core::option::Option< #ty > ) > { let container = self.#ident.take(); let on_end = | former : &mut #former_name_ident, container : ::core::option::Option< #ty > | { former.#ident = container; }; former::runtime::HashSetFormer::new( self, container, on_end ) } } }, }; Ok( tokens ) } /// /// Generate documentation for the former. /// fn doc_generate( name_ident : &syn::Ident ) -> ( String, String ) { let doc_former_mod = format! ( r#" Implementation of former for [{}]. "#, name_ident ); let doc_example1 = r#" use former::Former; #[derive( Former )] pub struct Struct1 { #[default( 31 )] field1 : i32, } "#; let doc_former_struct = format! ( r#" Object to form [{}]. If field's values is not set then default value of the field is set. For specifing custom default value use attribute `default`. For example: ``` {} ``` "#, name_ident, doc_example1 ); ( doc_former_mod, doc_former_struct ) } // pub fn former( input : proc_macro::TokenStream ) -> Result< proc_macro2::TokenStream > { // let ast = parse_macro_input!( input as DeriveInput ); let ast = match syn::parse::< DeriveInput >( input ) { Ok( syntax_tree ) => syntax_tree, Err( err ) => return Err( err ), }; let name_ident = &ast.ident; let generics = &ast.generics; let former_name = format!( "{}Former", name_ident ); let former_name_ident = syn::Ident::new( &former_name, name_ident.span() ); // use heck::ToSnakeCase; // let former_snake = name_ident.to_string().to_snake_case(); // let former_mod = format!( "{}_former", former_snake ); // let former_mod_ident = syn::Ident::new( &former_mod, name_ident.span() ); /* structure attribute */ let mut perform = qt! { return result; }; let mut perform_output = qt!{ #name_ident #generics }; let mut perform_generics = qt!{}; for attr in ast.attrs.iter() { if let Some( ident ) = attr.path.get_ident() { let ident_string = format!( "{}", ident ); if ident_string == "perform" { let attr_perform = syn::parse2::< AttributeFormAfter >( attr.tokens.clone() )?; let signature = &attr_perform.signature; let generics = &signature.generics; perform_generics = qt!{ #generics }; let perform_ident = &signature.ident; let output = &signature.output; match output { syn::ReturnType::Type( _, boxed_type ) => { perform_output = qt!{ #boxed_type }; }, _ => {}, } perform = qt! { return result.#perform_ident(); }; } } else { return Err( syn_err!( "Unknown structure attribute:\n{}", qt!{ attr } ) ); } } /* */ let fields = match ast.data { syn::Data::Struct( ref data_struct ) => match data_struct.fields { syn::Fields::Named( ref fields_named ) => { &fields_named.named }, _ => return Err( syn_err!( ast, "Unknown format of data, expected syn::Fields::Named( ref fields_named )\n {}", qt!{ #ast } ) ), }, _ => return Err( syn_err!( ast, "Unknown format of data, expected syn::Data::Struct( ref data_struct )\n {}", qt!{ #ast } ) ), }; let former_fields : Vec< Result< FormerField< '_ > > > = fields.iter().map( | field | { let attrs = &field.attrs; let vis = &field.vis; let ident = field.ident.as_ref() .ok_or_else( || syn_err!( field, "Expected that each field has key, but some does not:\n {}", qt!{ #field } ) )?; let colon_token = &field.colon_token; let ty = &field.ty; let is_optional = is_optional( &ty ); let type_container_kind = proc_macro_tools::type_container_kind( &ty ); let non_optional_ty : &syn::Type = if is_optional { parameter_internal_first( ty )? } else { ty }; let former_field = FormerField { attrs, vis, ident, colon_token, ty, non_optional_ty, is_optional, type_container_kind }; Ok( former_field ) }).collect(); let former_fields : Vec< _ > = process_results( former_fields, | iter | iter.collect() )?; let ( fields_none, fields_optional, fields_form, fields_names, fields_setter ) : ( Vec< _ >, Vec< _ >, Vec< _ >, Vec< _ >, Vec< _ > ) = former_fields.iter().map( | former_field | {( field_none_map( &former_field ), field_optional_map( &former_field ), field_form_map( &former_field ), field_name_map( &former_field ), field_setter_map( &former_field, &former_name_ident ), )}).multiunzip(); let ( _doc_former_mod, doc_former_struct ) = doc_generate( &name_ident ); let fields_setter : Vec< _ > = process_results( fields_setter, | iter | iter.collect() )?; let fields_form : Vec< _ > = process_results( fields_form, | iter | iter.collect() )?; let result = qt! { impl #generics #name_ident #generics { /// /// Make former, variation of builder pattern to form structure defining values of fields step by step. /// #[inline] pub fn former() -> #former_name_ident #generics { #former_name_ident { #( #fields_none, )* } } } // #[doc = #doc_former_mod] // mod #former_mod_ident // { // use; // use super::*; // use super::#name_ident; // #[cfg( feature = "in_wtools" )] // use wtools::former; #[doc = #doc_former_struct] #[derive( Debug )] pub struct #former_name_ident #generics { #( /// A field #fields_optional, )* } impl #generics #former_name_ident #generics { /// /// Finish setting options and call perform on formed entity. /// /// If `perform` defined then associated method is called and its result returned instead of entity. /// For example `perform()` of structure with : `#[ perform( fn after1< 'a >() -> Option< &'a str > )` returns `Option< &'a str >`. /// #[inline] pub fn perform #perform_generics ( self ) -> #perform_output { let result = self.form(); #perform } /// /// Finish setting options and return formed entity. /// /// `perform` has no effect on method `form`, but change behavior and returned type of mehod `perform`. /// #[inline] pub fn form( mut self ) -> #name_ident #generics { #( #fields_form )* let result = #name_ident { #( #fields_names, )* }; return result; } #( #fields_setter )* } // } // pub use #former_mod_ident::#former_name_ident; }; Ok( result ) } // // = Input : // // #[derive( Debug, PartialEq )] // pub struct Struct1 // { // pub int_1 : i32, // string_1 : String, // int_optional_1 : core::option::Option< i32 >, // string_optional_1 : Option< String >, // vec_1 : Vec< String >, // hashmap_strings_1 : std::collections::HashMap< String, String >, // hashset_strings_1 : std::collections::HashSet< String >, // } // // = Output : // // impl Struct1 // { // pub fn former() -> Struct1Former // { // Struct1Former // { // int_1 : core::option::Option::None, // string_1 : core::option::Option::None, // int_optional_1 : core::option::Option::None, // string_optional_1 : core::option::Option::None, // vec_1 : core::option::Option::None, // hashmap_strings_1 : core::option::Option::None, // hashset_strings_1 : core::option::Option::None, // } // } // } // // // // // #[derive( Debug )] // pub struct Struct1Former // { // pub int_1 : core::option::Option< i32 >, // pub string_1 : core::option::Option< String >, // pub int_optional_1 : core::option::Option< i32 >, // pub string_optional_1 : core::option::Option< String >, // pub vec_1 : core::option::Option< Vec< String > >, // pub hashmap_strings_1 : core::option::Option< std::collections::HashMap< String, String > >, // pub hashset_strings_1 : core::option::Option< std::collections::HashSet< String > >, // } // // // // // impl Struct1Former // { // fn form( mut self ) -> Struct1 // { // // let int_1 = if self.int_1.is_some() // { // self.int_1.take().unwrap() // } // else // { // let val : i32 = Default::default(); // val // }; // // let string_1 = if self.string_1.is_some() // { // self.string_1.take().unwrap() // } // else // { // let val : String = Default::default(); // val // }; // // let int_optional_1 = if self.int_optional_1.is_some() // { // Some( self.int_optional_1.take().unwrap() ) // } // else // { // None // }; // // let string_optional_1 = if self.string_optional_1.is_some() // { // Some( self.string_optional_1.take().unwrap() ) // } // else // { // None // }; // // let vec_1 = if self.vec_1.is_some() // { // self.vec_1.take().unwrap() // } // else // { // let val : Vec< String > = Default::default(); // val // }; // // let hashmap_strings_1 = if self.hashmap_strings_1.is_some() // { // self.hashmap_strings_1.take().unwrap() // } // else // { // let val : std::collections::HashMap< String, String > = Default::default(); // val // }; // // let hashset_strings_1 = if self.hashset_strings_1.is_some() // { // self.hashset_strings_1.take().unwrap() // } // else // { // let val : std::collections::HashSet< String > = Default::default(); // val // }; // // Struct1 // { // int_1, // string_1, // int_optional_1, // string_optional_1, // vec_1, // hashmap_strings_1, // hashset_strings_1, // } // // } // // pub fn int_1< Src >( mut self, src : Src ) -> Self // where Src : core::convert::Into< i32 >, // { // debug_assert!( self.int_1.is_none() ); // self.int_1 = Some( src.into() ); // self // } // // pub fn string_1< Src >( mut self, src : Src ) -> Self // where Src : core::convert::Into< String >, // { // debug_assert!( self.string_1.is_none() ); // self.string_1 = Some( src.into() ); // self // } // // pub fn string_optional_1< Src >( mut self, src : Src ) -> Self // where Src : core::convert::Into< String > // { // debug_assert!( self.string_optional_1.is_none() ); // self.string_optional_1 = Some( src.into() ); // self // } // // pub fn vec_1( mut self ) -> former::runtime::VectorFormer // < // String, // Vec< String >, // Struct1Former, // impl Fn( &mut Struct1Former, core::option::Option< Vec< String > > ) // > // { // let container = self.vec_1.take(); // let on_end = | former : &mut Struct1Former, container : core::option::Option< Vec< String > > | // { // former.vec_1 = container; // }; // former::runtime::VectorFormer::new( self, container, on_end ) // } // // pub fn hashmap_strings_1( mut self ) -> former::runtime::HashMapFormer // < // String, // String, // std::collections::HashMap< String, String >, // Struct1Former, // impl Fn( &mut Struct1Former, core::option::Option< std::collections::HashMap< String, String > > ) // > // { // let container = self.hashmap_strings_1.take(); // let on_end = | former : &mut Struct1Former, container : core::option::Option< std::collections::HashMap< String, String > > | // { // former.hashmap_strings_1 = container; // }; // former::runtime::HashMapFormer::new( self, container, on_end ) // } // // pub fn hashset_strings_1( mut self ) -> former::runtime::HashSetFormer // < // String, // std::collections::HashSet< String >, // Struct1Former, // impl Fn( &mut Struct1Former, core::option::Option< std::collections::HashSet< String > > ) // > // { // let container = self.hashset_strings_1.take(); // let on_end = | former : &mut Struct1Former, container : core::option::Option< std::collections::HashSet< String > > | // { // former.hashset_strings_1 = container; // }; // former::runtime::HashSetFormer::new( self, container, on_end ) // } // // } //