X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=c-bindings-gen%2Fsrc%2Fmain.rs;h=cb7305bd7ee2356676326c30e8b699625d75b574;hb=787d5d9810dfc71006f3ed0c8a21290be5ea6c54;hp=4c14074143966fe89b0f54c6979c5889ca4e87dc;hpb=d7a6aee121ef6089376b0c856e11c4b1d70521b6;p=ldk-c-bindings diff --git a/c-bindings-gen/src/main.rs b/c-bindings-gen/src/main.rs index 4c14074..cb7305b 100644 --- a/c-bindings-gen/src/main.rs +++ b/c-bindings-gen/src/main.rs @@ -237,7 +237,9 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "\t/// An opaque pointer which is passed to your function implementations as an argument.").unwrap(); writeln!(w, "\t/// This has no meaning in the LDK, and can be NULL or any other value.").unwrap(); writeln!(w, "\tpub this_arg: *mut c_void,").unwrap(); - let mut generated_fields = Vec::new(); // Every field's (name, Option) except this_arg, used in Clone generation + // We store every field's (name, Option, docs) except this_arg, used in Clone generation + // docs is only set if its a function which should be callable on the object itself in C++ + let mut generated_fields = Vec::new(); for item in t.items.iter() { match item { &syn::TraitItem::Method(ref m) => { @@ -256,7 +258,7 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty let mut meth_gen_types = gen_types.push_ctx(); assert!(meth_gen_types.learn_generics(&m.sig.generics, types)); - writeln_docs(w, &m.attrs, "\t"); + writeln_fn_docs(w, &m.attrs, "\t", types, Some(&meth_gen_types), m.sig.inputs.iter(), &m.sig.output); if let syn::ReturnType::Type(_, rtype) = &m.sig.output { if let syn::Type::Reference(r) = &**rtype { @@ -271,14 +273,14 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty // happen) as well as provide an Option<>al function pointer which is // called when the trait method is called which allows updating on the fly. write!(w, "\tpub {}: ", m.sig.ident).unwrap(); - generated_fields.push((format!("{}", m.sig.ident), None)); + generated_fields.push((format!("{}", m.sig.ident), None, None)); types.write_c_type(w, &*r.elem, Some(&meth_gen_types), false); writeln!(w, ",").unwrap(); writeln!(w, "\t/// Fill in the {} field as a reference to it will be given to Rust after this returns", m.sig.ident).unwrap(); writeln!(w, "\t/// Note that this takes a pointer to this object, not the this_ptr like other methods do").unwrap(); writeln!(w, "\t/// This function pointer may be NULL if {} is filled in when this object is created and never needs updating.", m.sig.ident).unwrap(); writeln!(w, "\tpub set_{}: Option,", m.sig.ident, trait_name).unwrap(); - generated_fields.push((format!("set_{}", m.sig.ident), None)); + generated_fields.push((format!("set_{}", m.sig.ident), None, None)); // Note that cbindgen will now generate // typedef struct Thing {..., set_thing: (const struct Thing*), ...} Thing; // which does not compile since Thing is not defined before it is used. @@ -290,8 +292,12 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "\t#[must_use]").unwrap(); } + let mut cpp_docs = Vec::new(); + writeln_fn_docs(&mut cpp_docs, &m.attrs, "\t * ", types, Some(&meth_gen_types), m.sig.inputs.iter(), &m.sig.output); + let docs_string = "\t/**\n".to_owned() + &String::from_utf8(cpp_docs).unwrap().replace("///", "") + "\t */\n"; + write!(w, "\tpub {}: extern \"C\" fn (", m.sig.ident).unwrap(); - generated_fields.push((format!("{}", m.sig.ident), None)); + generated_fields.push((format!("{}", m.sig.ident), None, Some(docs_string))); write_method_params(w, &m.sig, "c_void", types, Some(&meth_gen_types), true, false); writeln!(w, ",").unwrap(); }, @@ -306,26 +312,32 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "\t/// The new {} is provided, and should be mutated as needed to perform a", trait_name).unwrap(); writeln!(w, "\t/// deep copy of the object pointed to by this_arg or avoid any double-freeing.").unwrap(); writeln!(w, "\tpub cloned: Option,", trait_name, trait_name).unwrap(); - generated_fields.push(("cloned".to_owned(), None)); + generated_fields.push(("cloned".to_owned(), None, None)); }, ("std::cmp::Eq", _)|("core::cmp::Eq", _) => { - writeln!(w, "\t/// Checks if two objects are equal given this object's this_arg pointer and another object.").unwrap(); + let eq_docs = "Checks if two objects are equal given this object's this_arg pointer and another object."; + writeln!(w, "\t/// {}", eq_docs).unwrap(); writeln!(w, "\tpub eq: extern \"C\" fn (this_arg: *const c_void, other_arg: &{}) -> bool,", trait_name).unwrap(); - generated_fields.push(("eq".to_owned(), None)); + generated_fields.push(("eq".to_owned(), None, Some(format!("\t/** {} */\n", eq_docs)))); }, ("std::hash::Hash", _)|("core::hash::Hash", _) => { - writeln!(w, "\t/// Calculate a succinct non-cryptographic hash for an object given its this_arg pointer.").unwrap(); - writeln!(w, "\t/// This is used, for example, for inclusion of this object in a hash map.").unwrap(); + let hash_docs_a = "Calculate a succinct non-cryptographic hash for an object given its this_arg pointer."; + let hash_docs_b = "This is used, for example, for inclusion of this object in a hash map."; + writeln!(w, "\t/// {}", hash_docs_a).unwrap(); + writeln!(w, "\t/// {}", hash_docs_b).unwrap(); writeln!(w, "\tpub hash: extern \"C\" fn (this_arg: *const c_void) -> u64,").unwrap(); - generated_fields.push(("hash".to_owned(), None)); + generated_fields.push(("hash".to_owned(), None, + Some(format!("\t/**\n\t * {}\n\t * {}\n\t */\n", hash_docs_a, hash_docs_b)))); }, ("Send", _) => {}, ("Sync", _) => {}, (s, i) => { + // TODO: Both of the below should expose supertrait methods in C++, but doing so is + // nontrivial. generated_fields.push(if types.crate_types.traits.get(s).is_none() { let (docs, name, ret) = convert_trait_impl_field(s); writeln!(w, "\t/// {}", docs).unwrap(); writeln!(w, "\tpub {}: extern \"C\" fn (this_arg: *const c_void) -> {},", name, ret).unwrap(); - (name, None) // Assume clonable + (name, None, None) // Assume clonable } else { // For in-crate supertraits, just store a C-mapped copy of the supertrait as a member. writeln!(w, "\t/// Implementation of {} for this object.", i).unwrap(); @@ -333,14 +345,14 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "\tpub {}: crate::{},", i, s).unwrap(); (format!("{}", i), if !is_clonable { Some(format!("crate::{}_clone_fields", s)) - } else { None }) + } else { None }, None) }); } ) ); writeln!(w, "\t/// Frees any resources associated with this object given its this_arg pointer.").unwrap(); writeln!(w, "\t/// Does not need to free the outer struct containing function pointers and may be NULL is no resources need to be freed.").unwrap(); writeln!(w, "\tpub free: Option,").unwrap(); - generated_fields.push(("free".to_owned(), None)); + generated_fields.push(("free".to_owned(), None, None)); writeln!(w, "}}").unwrap(); macro_rules! impl_trait_for_c { @@ -449,7 +461,7 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "pub(crate) extern \"C\" fn {}_clone_fields(orig: &{}) -> {} {{", trait_name, trait_name, trait_name).unwrap(); writeln!(w, "\t{} {{", trait_name).unwrap(); writeln!(w, "\t\tthis_arg: orig.this_arg,").unwrap(); - for (field, clone_fn) in generated_fields.iter() { + for (field, clone_fn, _) in generated_fields.iter() { if let Some(f) = clone_fn { // If the field isn't clonable, blindly assume its a trait and hope for the best. writeln!(w, "\t\t{}: {}(&orig.{}),", field, f, field).unwrap(); @@ -522,7 +534,8 @@ fn writeln_trait<'a, 'b, W: std::io::Write>(w: &mut W, t: &'a syn::ItemTrait, ty writeln!(w, "\t\t\tf(self.this_arg);").unwrap(); writeln!(w, "\t\t}}\n\t}}\n}}").unwrap(); - write_cpp_wrapper(cpp_headers, &trait_name, true); + write_cpp_wrapper(cpp_headers, &trait_name, true, Some(generated_fields.drain(..) + .filter_map(|(name, _, docs)| if let Some(docs) = docs { Some((name, docs)) } else { None }).collect())); } /// Write out a simple "opaque" type (eg structs) which contain a pointer to the native Rust type @@ -567,7 +580,7 @@ fn writeln_opaque(w: &mut W, ident: &syn::Ident, struct_name: writeln!(w, "\t\tret").unwrap(); writeln!(w, "\t}}\n}}").unwrap(); - write_cpp_wrapper(cpp_headers, &format!("{}", ident), true); + write_cpp_wrapper(cpp_headers, &format!("{}", ident), true, None); } /// Writes out all the relevant mappings for a Rust struct, deferring to writeln_opaque to generate @@ -604,7 +617,7 @@ fn writeln_struct<'a, 'b, W: std::io::Write>(w: &mut W, s: &'a syn::ItemStruct, and_token: syn::Token!(&)(Span::call_site()), lifetime: None, mutability: None, elem: Box::new(field.ty.clone()) }); if types.understood_c_type(&ref_type, Some(&gen_types)) { - writeln_docs(w, &field.attrs, ""); + writeln_arg_docs(w, &field.attrs, "", types, Some(&gen_types), vec![].drain(..), Some(&ref_type)); write!(w, "#[no_mangle]\npub extern \"C\" fn {}_get_{}(this_ptr: &{}) -> ", struct_name, ident, struct_name).unwrap(); types.write_c_type(w, &ref_type, Some(&gen_types), true); write!(w, " {{\n\tlet mut inner_val = &mut unsafe {{ &mut *this_ptr.inner }}.{};\n\t", ident).unwrap(); @@ -617,7 +630,7 @@ fn writeln_struct<'a, 'b, W: std::io::Write>(w: &mut W, s: &'a syn::ItemStruct, } if types.understood_c_type(&field.ty, Some(&gen_types)) { - writeln_docs(w, &field.attrs, ""); + writeln_arg_docs(w, &field.attrs, "", types, Some(&gen_types), vec![("val".to_owned(), &field.ty)].drain(..), None); write!(w, "#[no_mangle]\npub extern \"C\" fn {}_set_{}(this_ptr: &mut {}, mut val: ", struct_name, ident, struct_name).unwrap(); types.write_c_type(w, &field.ty, Some(&gen_types), false); write!(w, ") {{\n\t").unwrap(); @@ -1045,8 +1058,10 @@ fn writeln_impl(w: &mut W, i: &syn::ItemImpl, types: &mut Typ ExportStatus::NoExport|ExportStatus::TestOnly => continue, ExportStatus::NotImplementable => panic!("(C-not implementable) must only appear on traits"), } + let mut meth_gen_types = gen_types.push_ctx(); + assert!(meth_gen_types.learn_generics(&m.sig.generics, types)); if m.defaultness.is_some() { unimplemented!(); } - writeln_docs(w, &m.attrs, ""); + writeln_fn_docs(w, &m.attrs, "", types, Some(&meth_gen_types), m.sig.inputs.iter(), &m.sig.output); if let syn::ReturnType::Type(_, _) = &m.sig.output { writeln!(w, "#[must_use]").unwrap(); } @@ -1056,8 +1071,6 @@ fn writeln_impl(w: &mut W, i: &syn::ItemImpl, types: &mut Typ DeclType::StructImported => format!("{}", ident), _ => unimplemented!(), }; - let mut meth_gen_types = gen_types.push_ctx(); - assert!(meth_gen_types.learn_generics(&m.sig.generics, types)); write_method_params(w, &m.sig, &ret_type, types, Some(&meth_gen_types), false, true); write!(w, " {{\n\t").unwrap(); write_method_var_decl_body(w, &m.sig, "", types, Some(&meth_gen_types), false); @@ -1191,7 +1204,7 @@ fn writeln_enum<'a, 'b, W: std::io::Write>(w: &mut W, e: &'a syn::ItemEnum, type writeln!(w, " {{").unwrap(); for field in fields.named.iter() { if export_status(&field.attrs) == ExportStatus::TestOnly { continue; } - writeln_docs(w, &field.attrs, "\t\t"); + writeln_field_docs(w, &field.attrs, "\t\t", types, Some(&gen_types), &field.ty); write!(w, "\t\t{}: ", field.ident.as_ref().unwrap()).unwrap(); types.write_c_type(w, &field.ty, Some(&gen_types), false); writeln!(w, ",").unwrap(); @@ -1360,7 +1373,7 @@ fn writeln_enum<'a, 'b, W: std::io::Write>(w: &mut W, e: &'a syn::ItemEnum, type writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{", e.ident, e.ident, e.ident).unwrap(); writeln!(w, "\torig.clone()").unwrap(); writeln!(w, "}}").unwrap(); - write_cpp_wrapper(cpp_headers, &format!("{}", e.ident), needs_free); + write_cpp_wrapper(cpp_headers, &format!("{}", e.ident), needs_free, None); } fn writeln_fn<'a, 'b, W: std::io::Write>(w: &mut W, f: &'a syn::ItemFn, types: &mut TypeResolver<'b, 'a>) { @@ -1369,11 +1382,11 @@ fn writeln_fn<'a, 'b, W: std::io::Write>(w: &mut W, f: &'a syn::ItemFn, types: & ExportStatus::NoExport|ExportStatus::TestOnly => return, ExportStatus::NotImplementable => panic!("(C-not implementable) must only appear on traits"), } - writeln_docs(w, &f.attrs, ""); - let mut gen_types = GenericTypes::new(None); if !gen_types.learn_generics(&f.sig.generics, types) { return; } + writeln_fn_docs(w, &f.attrs, "", types, Some(&gen_types), f.sig.inputs.iter(), &f.sig.output); + write!(w, "#[no_mangle]\npub extern \"C\" fn {}(", f.sig.ident).unwrap(); write_method_params(w, &f.sig, "", types, Some(&gen_types), false, true); write!(w, " {{\n\t").unwrap(); @@ -1509,7 +1522,7 @@ fn convert_file<'a, 'b>(libast: &'a FullLibraryAST, crate_types: &CrateTypes<'a> if let syn::Type::Path(p) = &*c.ty { let resolved_path = type_resolver.resolve_path(&p.path, None); if type_resolver.is_primitive(&resolved_path) { - writeln_docs(&mut out, &c.attrs, ""); + writeln_field_docs(&mut out, &c.attrs, "", &mut type_resolver, None, &*c.ty); writeln!(out, "\n#[no_mangle]").unwrap(); writeln!(out, "pub static {}: {} = {}::{};", c.ident, resolved_path, module, c.ident).unwrap(); } @@ -1744,7 +1757,7 @@ fn main() { // For container templates which we created while walking the crate, make sure we add C++ // mapped types so that C++ users can utilize the auto-destructors available. for (ty, has_destructor) in libtypes.templates_defined.borrow().iter() { - write_cpp_wrapper(&mut cpp_header_file, ty, *has_destructor); + write_cpp_wrapper(&mut cpp_header_file, ty, *has_destructor, None); } writeln!(cpp_header_file, "}}").unwrap();