1 extern crate alloc; 2 3 extern crate quote; 4 use proc_macro::TokenStream; 5 use quote::quote; 6 use syn::{ 7 __private::ToTokens, 8 parse::{self, Parse, ParseStream}, 9 spanned::Spanned, 10 ItemFn, Path, 11 }; 12 use uuid::Uuid; 13 14 /// 统一初始化宏, 15 /// 用于将函数注册到统一初始化列表中 16 /// 17 /// ## 用法 18 /// 19 /// ```rust 20 /// use system_error::SystemError; 21 /// use unified_init::define_unified_initializer_slice; 22 /// use unified_init_macros::unified_init; 23 /// 24 /// /// 初始化函数都将会被放到这个列表中 25 /// define_unified_initializer_slice!(INITIALIZER_LIST); 26 /// 27 /// #[unified_init(INITIALIZER_LIST)] 28 /// fn init1() -> Result<(), SystemError> { 29 /// Ok(()) 30 /// } 31 /// 32 /// #[unified_init(INITIALIZER_LIST)] 33 /// fn init2() -> Result<(), SystemError> { 34 /// Ok(()) 35 /// } 36 /// 37 /// fn main() { 38 /// assert_eq!(INITIALIZER_LIST.len(), 2); 39 /// } 40 /// 41 /// ``` 42 #[proc_macro_attribute] 43 pub fn unified_init(args: TokenStream, input: TokenStream) -> TokenStream { 44 do_unified_init(args, input) 45 .unwrap_or_else(|e| e.to_compile_error()) 46 .into() 47 } 48 49 fn do_unified_init(args: TokenStream, input: TokenStream) -> syn::Result<proc_macro2::TokenStream> { 50 // 解析属性数 51 let attr_arg = syn::parse::<UnifiedInitArg>(args)?; 52 // 获取当前函数 53 let function = syn::parse::<ItemFn>(input)?; 54 // 检查函数签名 55 check_function_signature(&function)?; 56 57 // 添加#[::linkme::distributed_slice(attr_args.initializer_instance)]属性 58 let target_slice = attr_arg.initializer_instance.get_ident().unwrap(); 59 60 // 在旁边添加一个UnifiedInitializer 61 let initializer = 62 generate_unified_initializer(&function, target_slice, function.sig.ident.to_string())?; 63 64 // 拼接 65 let mut output = proc_macro2::TokenStream::new(); 66 output.extend(function.into_token_stream()); 67 output.extend(initializer); 68 69 Ok(output) 70 } 71 72 /// 检查函数签名是否满足要求 73 /// 函数签名应该为 74 /// 75 /// ```rust 76 /// use system_error::SystemError; 77 /// fn xxx() -> Result<(), SystemError> { 78 /// Ok(()) 79 /// } 80 /// ``` 81 fn check_function_signature(function: &ItemFn) -> syn::Result<()> { 82 // 检查函数签名 83 if !function.sig.inputs.is_empty() { 84 return Err(syn::Error::new( 85 function.sig.inputs.span(), 86 "Expected no arguments", 87 )); 88 } 89 90 if let syn::ReturnType::Type(_, ty) = &function.sig.output { 91 // 确认返回类型为 Result<(), SystemError> 92 // 解析类型 93 94 let output_type: syn::Type = syn::parse2(ty.clone().into_token_stream())?; 95 96 // 检查类型是否为 Result<(), SystemError> 97 if let syn::Type::Path(type_path) = output_type { 98 if type_path.path.segments.last().unwrap().ident == "Result" { 99 // 检查泛型参数,看看是否满足 Result<(), SystemError> 100 if let syn::PathArguments::AngleBracketed(generic_args) = 101 type_path.path.segments.last().unwrap().arguments.clone() 102 { 103 if generic_args.args.len() != 2 { 104 return Err(syn::Error::new( 105 generic_args.span(), 106 "Expected two generic arguments", 107 )); 108 } 109 110 // 检查第一个泛型参数是否为() 111 if let syn::GenericArgument::Type(type_arg) = generic_args.args.first().unwrap() 112 { 113 if let syn::Type::Tuple(tuple) = type_arg { 114 if !tuple.elems.is_empty() { 115 return Err(syn::Error::new(tuple.span(), "Expected empty tuple")); 116 } 117 } else { 118 return Err(syn::Error::new(type_arg.span(), "Expected empty tuple")); 119 } 120 } else { 121 return Err(syn::Error::new( 122 generic_args.span(), 123 "Expected first generic argument to be a type", 124 )); 125 } 126 127 // 检查第二个泛型参数是否为SystemError 128 if let syn::GenericArgument::Type(type_arg) = generic_args.args.last().unwrap() 129 { 130 if let syn::Type::Path(type_path) = type_arg { 131 if type_path.path.segments.last().unwrap().ident == "SystemError" { 132 // 类型匹配,返回 Ok 133 return Ok(()); 134 } 135 } 136 } else { 137 return Err(syn::Error::new( 138 generic_args.span(), 139 "Expected second generic argument to be a type", 140 )); 141 } 142 143 return Err(syn::Error::new( 144 generic_args.span(), 145 "Expected second generic argument to be SystemError", 146 )); 147 } 148 149 return Ok(()); 150 } 151 } 152 } 153 154 Err(syn::Error::new( 155 function.sig.output.span(), 156 "Expected -> Result<(), SystemError>", 157 )) 158 } 159 160 /// 生成UnifiedInitializer全局变量 161 fn generate_unified_initializer( 162 function: &ItemFn, 163 target_slice: &syn::Ident, 164 raw_initializer_name: String, 165 ) -> syn::Result<proc_macro2::TokenStream> { 166 let initializer_name = format!( 167 "unified_initializer_{}_{}", 168 raw_initializer_name, 169 &Uuid::new_v4().to_simple().to_string().to_ascii_uppercase()[..8] 170 ) 171 .to_ascii_uppercase(); 172 173 // 获取函数的全名 174 let initializer_name_ident = syn::Ident::new(&initializer_name, function.sig.ident.span()); 175 176 let function_ident = &function.sig.ident; 177 178 // 生成UnifiedInitializer 179 let initializer = quote! { 180 #[::linkme::distributed_slice(#target_slice)] 181 static #initializer_name_ident: unified_init::UnifiedInitializer = ::unified_init::UnifiedInitializer::new(#raw_initializer_name, &(#function_ident as ::unified_init::UnifiedInitFunction)); 182 }; 183 184 Ok(initializer) 185 } 186 187 struct UnifiedInitArg { 188 initializer_instance: Path, 189 } 190 191 impl Parse for UnifiedInitArg { 192 fn parse(input: ParseStream) -> parse::Result<Self> { 193 let mut initializer_instance = None; 194 195 while !input.is_empty() { 196 if initializer_instance.is_some() { 197 return Err(parse::Error::new( 198 input.span(), 199 "Expected exactly one initializer instance", 200 )); 201 } 202 // 解析Ident 203 let ident = input.parse::<syn::Ident>()?; 204 205 // 将Ident转换为Path 206 let initializer = syn::Path::from(ident); 207 208 initializer_instance = Some(initializer); 209 } 210 211 if initializer_instance.is_none() { 212 return Err(parse::Error::new( 213 input.span(), 214 "Expected exactly one initializer instance", 215 )); 216 } 217 218 // 判断是否为标识符 219 if initializer_instance.as_ref().unwrap().get_ident().is_none() { 220 return Err(parse::Error::new( 221 initializer_instance.span(), 222 "Expected identifier", 223 )); 224 } 225 226 Ok(UnifiedInitArg { 227 initializer_instance: initializer_instance.unwrap(), 228 }) 229 } 230 } 231