#![recursion_limit = "1024"] extern crate proc_macro; use proc_macro2; use quote::quote; use proc_macro::TokenStream; fn impl_field(ident: &proc_macro2::TokenStream, ty: &syn::Type) -> proc_macro2::TokenStream { match *ty { syn::Type::Array(ref array) => match array.len { syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(ref int), .. }) => { let size = int.base10_parse::().unwrap(); quote! { #ident: { let mut __tmp: #ty = [0u8.into(); #size]; src.gread_inout_with(offset, &mut __tmp, ctx)?; __tmp } } } _ => panic!("Pread derive with bad array constexpr"), }, syn::Type::Group(ref group) => impl_field(ident, &group.elem), _ => { quote! { #ident: src.gread_with::<#ty>(offset, ctx)? } } } } fn impl_struct( name: &syn::Ident, fields: &syn::punctuated::Punctuated, generics: &syn::Generics, ) -> proc_macro2::TokenStream { let items: Vec<_> = fields .iter() .enumerate() .map(|(i, f)| { let ident = &f.ident.as_ref().map(|i| quote! {#i}).unwrap_or({ let t = proc_macro2::Literal::usize_unsuffixed(i); quote! {#t} }); let ty = &f.ty; impl_field(ident, ty) }) .collect(); let gl = &generics.lt_token; let gp = &generics.params; let gg = &generics.gt_token; let gn = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident } } p => quote! { #p }, }); let gn = quote! { #gl #( #gn ),* #gg }; let gw = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident : ::scroll::ctx::TryFromCtx<'a, ::scroll::Endian> + ::std::convert::From + ::std::marker::Copy, ::scroll::Error : ::std::convert::From<< #ident as ::scroll::ctx::TryFromCtx<'a, ::scroll::Endian>>::Error>, < #ident as ::scroll::ctx::TryFromCtx<'a, ::scroll::Endian>>::Error : ::std::convert::From } }, p => quote! { #p } }); quote! { #( #gi ),* , } } else { quote! {} }; quote! { impl<'a, #gp > ::scroll::ctx::TryFromCtx<'a, ::scroll::Endian> for #name #gn where #gw #name #gn : 'a { type Error = ::scroll::Error; #[inline] fn try_from_ctx(src: &'a [u8], ctx: ::scroll::Endian) -> ::scroll::export::result::Result<(Self, usize), Self::Error> { use ::scroll::Pread; let offset = &mut 0; let data = Self { #(#items,)* }; Ok((data, *offset)) } } } } fn impl_try_from_ctx(ast: &syn::DeriveInput) -> proc_macro2::TokenStream { let name = &ast.ident; let generics = &ast.generics; match ast.data { syn::Data::Struct(ref data) => match data.fields { syn::Fields::Named(ref fields) => impl_struct(name, &fields.named, generics), syn::Fields::Unnamed(ref fields) => impl_struct(name, &fields.unnamed, generics), _ => { panic!("Pread can not be derived for unit structs") } }, _ => panic!("Pread can only be derived for structs"), } } #[proc_macro_derive(Pread)] pub fn derive_pread(input: TokenStream) -> TokenStream { let ast: syn::DeriveInput = syn::parse(input).unwrap(); let gen = impl_try_from_ctx(&ast); gen.into() } fn impl_pwrite_field(ident: &proc_macro2::TokenStream, ty: &syn::Type) -> proc_macro2::TokenStream { match ty { syn::Type::Array(ref array) => match array.len { syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(ref int), .. }) => { let size = int.base10_parse::().unwrap(); quote! { for i in 0..#size { dst.gwrite_with(&self.#ident[i], offset, ctx)?; } } } _ => panic!("Pwrite derive with bad array constexpr"), }, syn::Type::Group(group) => impl_pwrite_field(ident, &group.elem), _ => { quote! { dst.gwrite_with(&self.#ident, offset, ctx)? } } } } fn impl_try_into_ctx( name: &syn::Ident, fields: &syn::punctuated::Punctuated, generics: &syn::Generics, ) -> proc_macro2::TokenStream { let items: Vec<_> = fields .iter() .enumerate() .map(|(i, f)| { let ident = &f.ident.as_ref().map(|i| quote! {#i}).unwrap_or({ let t = proc_macro2::Literal::usize_unsuffixed(i); quote! {#t} }); let ty = &f.ty; impl_pwrite_field(ident, ty) }) .collect(); let gl = &generics.lt_token; let gp = &generics.params; let gg = &generics.gt_token; let gn = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident } } p => quote! { #p }, }); let gn = quote! { #gl #( #gn ),* #gg }; let gwref = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { &'a #ident : ::scroll::ctx::TryIntoCtx<::scroll::Endian>, ::scroll::Error: ::std::convert::From<<&'a #ident as ::scroll::ctx::TryIntoCtx<::scroll::Endian>>::Error>, <&'a #ident as ::scroll::ctx::TryIntoCtx<::scroll::Endian>>::Error: ::std::convert::From } }, p => quote! { #p } }); quote! { where #( #gi ),* } } else { quote! {} }; let gw = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident : ::scroll::ctx::TryIntoCtx<::scroll::Endian>, ::scroll::Error: ::std::convert::From<<#ident as ::scroll::ctx::TryIntoCtx<::scroll::Endian>>::Error>, <#ident as ::scroll::ctx::TryIntoCtx<::scroll::Endian>>::Error: ::std::convert::From } }, p => quote! { #p } }); quote! { where Self: ::std::marker::Copy, #( #gi ),* } } else { quote! {} }; quote! { impl<'a, #gp > ::scroll::ctx::TryIntoCtx<::scroll::Endian> for &'a #name #gn #gwref { type Error = ::scroll::Error; #[inline] fn try_into_ctx(self, dst: &mut [u8], ctx: ::scroll::Endian) -> ::scroll::export::result::Result { use ::scroll::Pwrite; let offset = &mut 0; #(#items;)*; Ok(*offset) } } impl #gl #gp #gg ::scroll::ctx::TryIntoCtx<::scroll::Endian> for #name #gn #gw { type Error = ::scroll::Error; #[inline] fn try_into_ctx(self, dst: &mut [u8], ctx: ::scroll::Endian) -> ::scroll::export::result::Result { (&self).try_into_ctx(dst, ctx) } } } } fn impl_pwrite(ast: &syn::DeriveInput) -> proc_macro2::TokenStream { let name = &ast.ident; let generics = &ast.generics; match ast.data { syn::Data::Struct(ref data) => match data.fields { syn::Fields::Named(ref fields) => impl_try_into_ctx(name, &fields.named, generics), syn::Fields::Unnamed(ref fields) => impl_try_into_ctx(name, &fields.unnamed, generics), _ => { panic!("Pwrite can not be derived for unit structs") } }, _ => panic!("Pwrite can only be derived for structs"), } } #[proc_macro_derive(Pwrite)] pub fn derive_pwrite(input: TokenStream) -> TokenStream { let ast: syn::DeriveInput = syn::parse(input).unwrap(); let gen = impl_pwrite(&ast); gen.into() } fn size_with( name: &syn::Ident, fields: &syn::punctuated::Punctuated, generics: &syn::Generics, ) -> proc_macro2::TokenStream { let items: Vec<_> = fields .iter() .map(|f| { let ty = &f.ty; match *ty { syn::Type::Array(ref array) => { let elem = &array.elem; match array.len { syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(ref int), .. }) => { let size = int.base10_parse::().unwrap(); quote! { (#size * <#elem>::size_with(ctx)) } } _ => panic!("Pread derive with bad array constexpr"), } } _ => { quote! { <#ty>::size_with(ctx) } } } }) .collect(); let gl = &generics.lt_token; let gp = &generics.params; let gg = &generics.gt_token; let gn = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident } } p => quote! { #p }, }); let gn = quote! { #gl #( #gn ),* #gg }; let gw = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident : ::scroll::ctx::SizeWith<::scroll::Endian> } } p => quote! { #p }, }); quote! { where #( #gi ),* } } else { quote! {} }; quote! { impl #gl #gp #gg ::scroll::ctx::SizeWith<::scroll::Endian> for #name #gn #gw { #[inline] fn size_with(ctx: &::scroll::Endian) -> usize { 0 #(+ #items)* } } } } fn impl_size_with(ast: &syn::DeriveInput) -> proc_macro2::TokenStream { let name = &ast.ident; let generics = &ast.generics; match ast.data { syn::Data::Struct(ref data) => match data.fields { syn::Fields::Named(ref fields) => size_with(name, &fields.named, generics), syn::Fields::Unnamed(ref fields) => size_with(name, &fields.unnamed, generics), _ => { panic!("SizeWith can not be derived for unit structs") } }, _ => panic!("SizeWith can only be derived for structs"), } } #[proc_macro_derive(SizeWith)] pub fn derive_sizewith(input: TokenStream) -> TokenStream { let ast: syn::DeriveInput = syn::parse(input).unwrap(); let gen = impl_size_with(&ast); gen.into() } fn impl_cread_struct( name: &syn::Ident, fields: &syn::punctuated::Punctuated, generics: &syn::Generics, ) -> proc_macro2::TokenStream { let items: Vec<_> = fields.iter().enumerate().map(|(i, f)| { let ident = &f.ident.as_ref().map(|i|quote!{#i}).unwrap_or({let t = proc_macro2::Literal::usize_unsuffixed(i); quote!{#t}}); let ty = &f.ty; match *ty { syn::Type::Array(ref array) => { let arrty = &array.elem; match array.len { syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(ref int), ..}) => { let size = int.base10_parse::().unwrap(); let incr = quote! { ::scroll::export::mem::size_of::<#arrty>() }; quote! { #ident: { let mut __tmp: #ty = [0u8.into(); #size]; for i in 0..__tmp.len() { __tmp[i] = src.cread_with(*offset, ctx); *offset += #incr; } __tmp } } }, _ => panic!("IOread derive with bad array constexpr") } }, _ => { let size = quote! { ::scroll::export::mem::size_of::<#ty>() }; quote! { #ident: { let res = src.cread_with::<#ty>(*offset, ctx); *offset += #size; res } } } } }).collect(); let gl = &generics.lt_token; let gp = &generics.params; let gg = &generics.gt_token; let gn = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident } } p => quote! { #p }, }); let gn = quote! { #gl #( #gn ),* #gg }; let gw = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident : ::scroll::ctx::FromCtx<::scroll::Endian> + ::std::convert::From + ::std::marker::Copy } }, p => quote! { #p } }); quote! { where #( #gi ),* , } } else { quote! {} }; quote! { impl #gl #gp #gg ::scroll::ctx::FromCtx<::scroll::Endian> for #name #gn #gw { #[inline] fn from_ctx(src: &[u8], ctx: ::scroll::Endian) -> Self { use ::scroll::Cread; let offset = &mut 0; let data = Self { #(#items,)* }; data } } } } fn impl_from_ctx(ast: &syn::DeriveInput) -> proc_macro2::TokenStream { let name = &ast.ident; let generics = &ast.generics; match ast.data { syn::Data::Struct(ref data) => match data.fields { syn::Fields::Named(ref fields) => impl_cread_struct(name, &fields.named, generics), syn::Fields::Unnamed(ref fields) => impl_cread_struct(name, &fields.unnamed, generics), _ => { panic!("IOread can not be derived for unit structs") } }, _ => panic!("IOread can only be derived for structs"), } } #[proc_macro_derive(IOread)] pub fn derive_ioread(input: TokenStream) -> TokenStream { let ast: syn::DeriveInput = syn::parse(input).unwrap(); let gen = impl_from_ctx(&ast); gen.into() } fn impl_into_ctx( name: &syn::Ident, fields: &syn::punctuated::Punctuated, generics: &syn::Generics, ) -> proc_macro2::TokenStream { let items: Vec<_> = fields .iter() .enumerate() .map(|(i, f)| { let ident = &f.ident.as_ref().map(|i| quote! {#i}).unwrap_or({ let t = proc_macro2::Literal::usize_unsuffixed(i); quote! {#t} }); let ty = &f.ty; let size = quote! { ::scroll::export::mem::size_of::<#ty>() }; match *ty { syn::Type::Array(ref array) => { let arrty = &array.elem; quote! { let size = ::scroll::export::mem::size_of::<#arrty>(); for i in 0..self.#ident.len() { dst.cwrite_with(self.#ident[i], *offset, ctx); *offset += size; } } } _ => { quote! { dst.cwrite_with(self.#ident, *offset, ctx); *offset += #size; } } } }) .collect(); let gl = &generics.lt_token; let gp = &generics.params; let gg = &generics.gt_token; let gn = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident } } p => quote! { #p }, }); let gw = if !gp.is_empty() { let gi = gp.iter().map(|param: &syn::GenericParam| match param { syn::GenericParam::Type(ref t) => { let ident = &t.ident; quote! { #ident : ::scroll::ctx::IntoCtx<::scroll::Endian> + ::std::marker::Copy } } p => quote! { #p }, }); quote! { where #( #gi ),* } } else { quote! {} }; let gn = quote! { #gl #( #gn ),* #gg }; quote! { impl<'a, #gp > ::scroll::ctx::IntoCtx<::scroll::Endian> for &'a #name #gn #gw { #[inline] fn into_ctx(self, dst: &mut [u8], ctx: ::scroll::Endian) { use ::scroll::Cwrite; let offset = &mut 0; #(#items;)*; () } } impl #gl #gp #gg ::scroll::ctx::IntoCtx<::scroll::Endian> for #name #gn #gw { #[inline] fn into_ctx(self, dst: &mut [u8], ctx: ::scroll::Endian) { (&self).into_ctx(dst, ctx) } } } } fn impl_iowrite(ast: &syn::DeriveInput) -> proc_macro2::TokenStream { let name = &ast.ident; let generics = &ast.generics; match ast.data { syn::Data::Struct(ref data) => match data.fields { syn::Fields::Named(ref fields) => impl_into_ctx(name, &fields.named, generics), syn::Fields::Unnamed(ref fields) => impl_into_ctx(name, &fields.unnamed, generics), _ => { panic!("IOwrite can not be derived for unit structs") } }, _ => panic!("IOwrite can only be derived for structs"), } } #[proc_macro_derive(IOwrite)] pub fn derive_iowrite(input: TokenStream) -> TokenStream { let ast: syn::DeriveInput = syn::parse(input).unwrap(); let gen = impl_iowrite(&ast); gen.into() }