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yog_interop/
lib.rs

1//! Yog inter-mod communication — proc-macros for cross-mod function calls.
2//!
3//! # Export (manual registration, auto-generated binding symbol)
4//!
5//! ```ignore
6//! use yog_api::{yog_export, Registry};
7//!
8//! #[yog_export]
9//! pub fn register_pipe(api: *const yog_api::YogApi, json: *const std::ffi::c_char) {
10//!     // ...
11//! }
12//!
13//! fn register(registry: &mut Registry) {
14//!     // Manual export registration (loader scanning coming later)
15//!     registry.interop().export("register_pipe", register_pipe as *const std::ffi::c_void);
16//! }
17//! ```
18//!
19//! # Import (auto-wired by loader)
20//!
21//! ```ignore
22//! yog_api::import! {
23//!     from "yog-pipes" {
24//!         fn register_pipe(api: *const yog_api::YogApi, json: *const std::ffi::c_char);
25//!     }
26//! }
27//!
28//! // Use like a normal function — loader wires it at init time
29//! register_pipe(api, json_ptr);
30//! ```
31
32use proc_macro::TokenStream;
33use quote::{format_ident, quote};
34
35// ── #[yog_export] ─────────────────────────────────────────────────────────
36
37/// Universal export macro — works on both structs and functions.
38///
39/// **On structs**: auto-derives `rkyv::Archive`, `rkyv::Serialize`,
40/// `rkyv::Deserialize`. Equivalent to:
41/// ```ignore
42/// #[derive(rkyv::Archive, rkyv::Serialize, rkyv::Deserialize)]
43/// #[archive(check_bytes)]
44/// struct MyStruct { ... }
45/// ```
46///
47/// **On functions**: generates a C-ABI wrapper using rkyv zero-copy
48/// serialization + auto-registers the export via `export_mod!`.
49///
50/// Supported fn signatures:
51/// - `fn(InputType) -> OutputType`  (single arg)
52/// - `fn() -> OutputType`          (no arg)
53/// - `fn(InputType)`               (no return)
54/// For multi-arg: `fn((A, B)) -> C`.
55///
56/// No manual `registry.interop().export()` needed.
57#[proc_macro_attribute]
58pub fn yog_export(_attr: TokenStream, item: TokenStream) -> TokenStream {
59    // Try parsing as a struct or enum first (more common for types)
60    if let Ok(s) = syn::parse2::<syn::ItemStruct>(proc_macro2::TokenStream::from(item.clone())) {
61        let vis = &s.vis;
62        let ident = &s.ident;
63        let generics = &s.generics;
64        let fields = &s.fields;
65        let attrs = &s.attrs;
66        return TokenStream::from(quote! {
67            #[derive(::yog_api::rkyv::Archive, ::yog_api::rkyv::Serialize, ::yog_api::rkyv::Deserialize)]
68            #(#attrs)*
69            #vis struct #ident #generics #fields
70        });
71    }
72    if let Ok(e) = syn::parse2::<syn::ItemEnum>(proc_macro2::TokenStream::from(item.clone())) {
73        let vis = &e.vis;
74        let ident = &e.ident;
75        let generics = &e.generics;
76        let variants = &e.variants;
77        let attrs = &e.attrs;
78        return TokenStream::from(quote! {
79            #[derive(::yog_api::rkyv::Archive, ::yog_api::rkyv::Serialize, ::yog_api::rkyv::Deserialize)]
80            #(#attrs)*
81            #vis enum #ident #generics { #variants }
82        });
83    }
84
85    // Fall through to function handling
86    let func = syn::parse_macro_input!(item as syn::ItemFn);
87    let name = &func.sig.ident;
88    let vis = &func.vis;
89    let sig = &func.sig;
90    let block = &func.block;
91    let name_str = name.to_string();
92    let wrap_name = format_ident!("__yog_wrap_{}", name);
93    let _init_name = format_ident!("__yog_export_init_{}", name);
94
95    // Extract input and output types
96    let inputs = &func.sig.inputs;
97    let output = match &func.sig.output {
98        syn::ReturnType::Default => quote! { () },
99        syn::ReturnType::Type(_, ty) => quote! { #ty },
100    };
101
102    // Build the wrapper body — handles both arg and no-arg cases
103    let call_fn = if inputs.is_empty() {
104        quote! { #name() }
105    } else {
106        // Multi-arg: serialize as tuple, then deserialize and destructure
107        let arg_names: Vec<_> = inputs.iter().map(|arg| {
108            match arg {
109                syn::FnArg::Typed(pat_type) => &pat_type.pat,
110                syn::FnArg::Receiver(_) => unreachable!(),
111            }
112        }).collect();
113        quote! { #name(#(#arg_names),*) }
114    };
115
116    // Extract the single input type (or unit for no-arg fns)
117    let input_type = if inputs.is_empty() {
118        quote! { () }
119    } else {
120        // Take the first (and should be only) argument type
121        match inputs.first().unwrap() {
122            syn::FnArg::Typed(pat_type) => {
123                let ty = &pat_type.ty;
124                quote! { #ty }
125            }
126            _ => quote! { () },
127        }
128    };
129
130    let expanded = quote! {
131        #vis #sig #block
132
133        // ctor — runs before main(), pushes entry to export registry
134        #[doc(hidden)]
135        #[ctor::ctor]
136        fn __yog_export_ctor_{name}() {
137            ::yog_api::__yog_export_registry()
138                .lock()
139                .unwrap()
140                .push(::yog_api::YogExportEntry {
141                    name: #name_str,
142                    ptr: #wrap_name as usize,
143                });
144        }
145
146        // C-ABI wrapper — deserializes input via rkyv, calls fn, serializes output.
147        #[doc(hidden)]
148        #[no_mangle]
149        pub unsafe extern "C" fn #wrap_name(
150            input_ptr: *const u8,
151            input_len: u32,
152            out_data: *mut *mut u8,
153            out_len: *mut u32,
154            out_cap: *mut u32,
155        ) {
156            let input_slice = std::slice::from_raw_parts(input_ptr, input_len as usize);
157            let args: #input_type = ::yog_api::rkyv::from_bytes::<_, ::yog_api::rkyv::rancor::Error>(input_slice)
158                .expect("yog: deserialization failed in export wrapper");
159            let result: #output = #call_fn;
160            let aligned = ::yog_api::rkyv::to_bytes::<_, 256>(&result)
161                .unwrap_or_default();
162            let bytes: Vec<u8> = aligned.to_vec();
163            *out_data = bytes.as_ptr() as *mut u8;
164            *out_len = bytes.len() as u32;
165            *out_cap = bytes.capacity() as u32;
166            std::mem::forget(bytes); // caller frees via __yog_free_buffer
167        }
168    };
169
170    TokenStream::from(expanded)
171}
172
173// ── import! macro ────────────────────────────────────────────────────────
174
175/// Declare imported functions from another mod. Generates public wrapper
176/// functions and `__yog_bind_NAME` entry points for the loader.
177///
178/// ```ignore
179/// yog_api::import! {
180///     from "yog-pipes" {
181///         fn register_pipe(api: *const YogApi, json: *const c_char) -> bool;
182///     }
183/// }
184/// register_pipe(api, json_ptr); // auto-wired
185/// ```
186#[proc_macro]
187pub fn import(input: TokenStream) -> TokenStream {
188    let import_block = syn::parse_macro_input!(input as ImportBlock);
189    let mod_name = &import_block.mod_name;
190    let mut out = proc_macro2::TokenStream::new();
191
192    for func in &import_block.funcs {
193        let name = &func.sig.ident;
194        let name_str = name.to_string();
195        let slot_name = format_ident!("__yog_slot_{}", name);
196        let bind_name = format_ident!("__yog_bind_{}", name);
197        let fn_sig = &func.sig;
198        let vis = &func.vis;
199        let inputs = &fn_sig.inputs;
200        let output = &fn_sig.output;
201
202        // Extract input type (single arg or unit)
203        let _input_type = if inputs.is_empty() {
204            quote! { () }
205        } else {
206            match inputs.first().unwrap() {
207                syn::FnArg::Typed(pat_type) => {
208                    let ty = &pat_type.ty;
209                    quote! { #ty }
210                }
211                _ => quote! { () },
212            }
213        };
214
215        let output_type = match output {
216            syn::ReturnType::Default => quote! { () },
217            syn::ReturnType::Type(_, ty) => quote! { #ty },
218        };
219
220        // Build arg forwarding for the public function
221        let arg_names: Vec<_> = inputs.iter().map(|arg| {
222            match arg {
223                syn::FnArg::Typed(pat_type) => &pat_type.pat,
224                syn::FnArg::Receiver(_) => unreachable!("self not allowed in imports"),
225            }
226        }).collect();
227
228        // Serialize the arg (or nothing for no-arg fns)
229        let serialize_block = if inputs.is_empty() {
230            quote! { let input_bytes = Vec::new(); }
231        } else {
232            quote! {
233                let aligned = ::yog_api::rkyv::to_bytes::<_, 256>(&(#(#arg_names),*))
234                    .unwrap_or_default();
235                let input_bytes: Vec<u8> = aligned.to_vec();
236            }
237        };
238
239        // C-ABI wrapper type — shared by all exports
240        let wrapper_ty = quote! {
241            unsafe extern "C" fn(
242                input_ptr: *const u8, input_len: u32,
243                out_data: *mut *mut u8, out_len: *mut u32, out_cap: *mut u32,
244            )
245        };
246
247        let _init_name = format_ident!("__yog_import_init_{}", name);
248
249        let wrapper = quote! {
250            // ctor — runs before main(), pushes entry to import registry
251            #[doc(hidden)]
252            #[ctor::ctor]
253            fn __yog_import_ctor_{name}() {
254                ::yog_api::__yog_import_registry()
255                    .lock()
256                    .unwrap()
257                    .push(::yog_api::YogImportEntry {
258                        mod_id: #mod_name,
259                        symbol: #name_str,
260                        bind_fn: #bind_name as usize,
261                    });
262            }
263
264            #[allow(non_snake_case)]
265            #vis fn #name(#inputs) #output {
266                #serialize_block
267                let f = #slot_name.get()
268                    .expect(concat!("yog: import '", #mod_name, ":", #name_str, "' not bound — is mod '", #mod_name, "' loaded?"));
269                let mut out_data: *mut u8 = std::ptr::null_mut();
270                let mut out_len: u32 = 0;
271                let mut out_cap: u32 = 0;
272                unsafe {
273                    f(
274                        input_bytes.as_ptr(), input_bytes.len() as u32,
275                        &mut out_data, &mut out_len, &mut out_cap,
276                    );
277                    let output_slice = std::slice::from_raw_parts(out_data, out_len as usize);
278                    let result: #output_type = ::yog_api::rkyv::from_bytes::<_, ::yog_api::rkyv::rancor::Error>(output_slice)
279                        .expect(concat!("yog: deserialization failed in import '", #mod_name, ":", #name_str, "'"));
280                    // Free the buffer allocated by the export wrapper
281                    let _ = Vec::from_raw_parts(out_data, out_len as usize, out_cap as usize);
282                    result
283                }
284            }
285
286            static #slot_name: ::std::sync::OnceLock<#wrapper_ty>
287                = ::std::sync::OnceLock::new();
288
289            #[doc(hidden)]
290            #[no_mangle]
291            pub unsafe extern "C" fn #bind_name(ptr: *const ::std::os::raw::c_void) {
292                let f: #wrapper_ty = ::std::mem::transmute(ptr);
293                #slot_name.set(f).ok();
294            }
295        };
296
297        out.extend(wrapper);
298    }
299
300    TokenStream::from(out)
301}
302
303// ── Parse helpers ────────────────────────────────────────────────────────
304
305struct ImportBlock {
306    mod_name: String,
307    funcs: Vec<syn::ItemFn>,
308}
309
310impl syn::parse::Parse for ImportBlock {
311    fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
312        let from_kw: syn::Ident = input.parse()?;
313        if from_kw != "from" {
314            return Err(syn::Error::new(from_kw.span(), "expected `from`"));
315        }
316        let lit: syn::LitStr = input.parse()?;
317        let mod_name = lit.value();
318
319        let content;
320        syn::braced!(content in input);
321        let mut funcs = Vec::new();
322        while !content.is_empty() {
323            funcs.push(content.parse::<syn::ItemFn>()?);
324            let _ = content.parse::<syn::Token![;]>();
325        }
326
327        Ok(ImportBlock { mod_name, funcs })
328    }
329}