X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=c-bindings-gen%2Fsrc%2Ftypes.rs;h=1cd3e88aceec2bfca45028d4208358d34fe66534;hb=3de0d5027919a51348d1daa6100558bfbb466ef7;hp=eacae9034264a214b071c2bc03203e1216893d81;hpb=88424ca6dafb29e4312953108bc48d6e5dbbeca1;p=rust-lightning diff --git a/c-bindings-gen/src/types.rs b/c-bindings-gen/src/types.rs index eacae9034..1cd3e88ac 100644 --- a/c-bindings-gen/src/types.rs +++ b/c-bindings-gen/src/types.rs @@ -3,6 +3,8 @@ use std::fs::File; use std::io::Write; use std::hash; +use crate::blocks::*; + use proc_macro2::{TokenTree, Span}; // The following utils are used purely to build our known types maps - they break down all the @@ -745,8 +747,8 @@ impl<'a, 'c: 'a> TypeResolver<'a, 'c> { "Result" if !is_ref => { Some(("match ", vec![(" { Ok(mut o) => crate::c_types::CResultTempl::ok(".to_string(), "o".to_string()), - ("), Err(mut e) => crate::c_types::CResultTempl::err(".to_string(), "e".to_string())], - ") }")) + (").into(), Err(mut e) => crate::c_types::CResultTempl::err(".to_string(), "e".to_string())], + ").into() }")) }, "Vec" if !is_ref => { Some(("Vec::new(); for item in ", vec![(format!(".drain(..) {{ local_{}.push(", var_name), "item".to_string())], "); }")) @@ -1053,7 +1055,7 @@ impl<'a, 'c: 'a> TypeResolver<'a, 'c> { pub fn write_rust_type(&self, w: &mut W, generics: Option<&GenericTypes>, t: &syn::Type) { match t { syn::Type::Path(p) => { - if p.qself.is_some() || p.path.leading_colon.is_some() { + if p.qself.is_some() { unimplemented!(); } self.write_rust_path(w, generics, &p.path); @@ -1712,153 +1714,83 @@ impl<'a, 'c: 'a> TypeResolver<'a, 'c> { // *** C Container Type Equivalent and alias Printing *** // ****************************************************** - fn write_template_constructor(&mut self, w: &mut W, container_type: &str, mangled_container: &str, args: &Vec<&syn::Type>, generics: Option<&GenericTypes>, is_ref: bool) -> bool { - if container_type == "Result" { - assert_eq!(args.len(), 2); - macro_rules! write_fn { - ($call: expr) => { { - writeln!(w, "#[no_mangle]\npub extern \"C\" fn {}_{}() -> {} {{", mangled_container, $call, mangled_container).unwrap(); - writeln!(w, "\t{}::CResultTempl::{}(0)\n}}\n", Self::container_templ_path(), $call).unwrap(); - } } - } - macro_rules! write_alias { - ($call: expr, $item: expr) => { { - write!(w, "#[no_mangle]\npub static {}_{}: extern \"C\" fn (", mangled_container, $call).unwrap(); - if let syn::Type::Path(syn::TypePath { path, .. }) = $item { - let resolved = self.resolve_path(path, generics); - if self.is_known_container(&resolved, is_ref) || self.is_transparent_container(&resolved, is_ref) { - self.write_c_mangled_container_path_intern(w, Self::path_to_generic_args(path), generics, - &format!("{}", single_ident_generic_path_to_ident(path).unwrap()), is_ref, false, false, false); - } else { - self.write_template_generics(w, &mut [$item].iter().map(|t| *t), generics, is_ref, true); - } - } else if let syn::Type::Tuple(syn::TypeTuple { elems, .. }) = $item { - self.write_c_mangled_container_path_intern(w, elems.iter().collect(), generics, - &format!("{}Tuple", elems.len()), is_ref, false, false, false); - } else { unimplemented!(); } - write!(w, ") -> {} =\n\t{}::CResultTempl::<", mangled_container, Self::container_templ_path()).unwrap(); - self.write_template_generics(w, &mut args.iter().map(|t| *t), generics, is_ref, true); - writeln!(w, ">::{};\n", $call).unwrap(); - } } - } - match args[0] { - syn::Type::Tuple(t) if t.elems.is_empty() => write_fn!("ok"), - _ => write_alias!("ok", args[0]), - } - match args[1] { - syn::Type::Tuple(t) if t.elems.is_empty() => write_fn!("err"), - _ => write_alias!("err", args[1]), - } - } else if container_type.ends_with("Tuple") { - write!(w, "#[no_mangle]\npub extern \"C\" fn {}_new(", mangled_container).unwrap(); - for (idx, gen) in args.iter().enumerate() { - write!(w, "{}{}: ", if idx != 0 { ", " } else { "" }, ('a' as u8 + idx as u8) as char).unwrap(); - if !self.write_c_type_intern(w, gen, None, false, false, false) { return false; } - } - writeln!(w, ") -> {} {{", mangled_container).unwrap(); - write!(w, "\t{} {{ ", mangled_container).unwrap(); - for idx in 0..args.len() { - write!(w, "{}, ", ('a' as u8 + idx as u8) as char).unwrap(); - } - writeln!(w, "}}\n}}\n").unwrap(); - } else { - writeln!(w, "").unwrap(); - } - true - } - - fn write_template_generics<'b, W: std::io::Write>(&self, w: &mut W, args: &mut dyn Iterator, generics: Option<&GenericTypes>, is_ref: bool, in_crate: bool) { + fn write_template_generics<'b, W: std::io::Write>(&mut self, w: &mut W, args: &mut dyn Iterator, generics: Option<&GenericTypes>, is_ref: bool) -> bool { + assert!(!is_ref); // We don't currently support outer reference types for (idx, t) in args.enumerate() { if idx != 0 { write!(w, ", ").unwrap(); } - if let syn::Type::Tuple(tup) = t { - if tup.elems.is_empty() { - write!(w, "u8").unwrap(); - } else { - write!(w, "{}::C{}TupleTempl<", Self::container_templ_path(), tup.elems.len()).unwrap(); - self.write_template_generics(w, &mut tup.elems.iter(), generics, is_ref, in_crate); - write!(w, ">").unwrap(); - } - } else if let syn::Type::Path(p_arg) = t { - let resolved_generic = self.resolve_path(&p_arg.path, generics); - if self.is_primitive(&resolved_generic) { - write!(w, "{}", resolved_generic).unwrap(); - } else if let Some(c_type) = self.c_type_from_path(&resolved_generic, is_ref, false) { - if self.is_known_container(&resolved_generic, is_ref) { - write!(w, "{}::C{}Templ<", Self::container_templ_path(), single_ident_generic_path_to_ident(&p_arg.path).unwrap()).unwrap(); - assert_eq!(p_arg.path.segments.len(), 1); - if let syn::PathArguments::AngleBracketed(args) = &p_arg.path.segments.iter().next().unwrap().arguments { - self.write_template_generics(w, &mut args.args.iter().map(|gen| - if let syn::GenericArgument::Type(t) = gen { t } else { unimplemented!() }), - generics, is_ref, in_crate); - } else { unimplemented!(); } - write!(w, ">").unwrap(); - } else if resolved_generic == "Option" { - if let syn::PathArguments::AngleBracketed(args) = &p_arg.path.segments.iter().next().unwrap().arguments { - self.write_template_generics(w, &mut args.args.iter().map(|gen| - if let syn::GenericArgument::Type(t) = gen { t } else { unimplemented!() }), - generics, is_ref, in_crate); - } else { unimplemented!(); } - } else if in_crate { - write!(w, "{}", c_type).unwrap(); - } else { - self.write_rust_type(w, generics, &t); - } - } else { - // If we just write out resolved_generic, it may mostly work, however for - // original types which are generic, we need the template args. We could - // figure them out and write them out, too, but its much easier to just - // reference the native{} type alias which exists at least for opaque types. - if in_crate { - write!(w, "crate::{}", resolved_generic).unwrap(); - } else { - let path_name: Vec<&str> = resolved_generic.rsplitn(2, "::").collect(); - if path_name.len() > 1 { - write!(w, "crate::{}::native{}", path_name[1], path_name[0]).unwrap(); - } else { - write!(w, "crate::native{}", path_name[0]).unwrap(); - } - } - } - } else if let syn::Type::Reference(r_arg) = t { + if let syn::Type::Reference(r_arg) = t { + if !self.write_c_type_intern(w, &*r_arg.elem, generics, false, false, false) { return false; } + + // While write_c_type_intern, above is correct, we don't want to blindly convert a + // reference to something stupid, so check that the container is either opaque or a + // predefined type (currently only Transaction). if let syn::Type::Path(p_arg) = &*r_arg.elem { let resolved = self.resolve_path(&p_arg.path, generics); - if self.crate_types.opaques.get(&resolved).is_some() { - write!(w, "crate::{}", resolved).unwrap(); - } else { - let cty = self.c_type_from_path(&resolved, true, true).expect("Template generics should be opaque or have a predefined mapping"); - w.write(cty.as_bytes()).unwrap(); - } + assert!(self.crate_types.opaques.get(&resolved).is_some() || + self.c_type_from_path(&resolved, true, true).is_some(), "Template generics should be opaque or have a predefined mapping"); } else { unimplemented!(); } - } else if let syn::Type::Array(a_arg) = t { - if let syn::Type::Path(p_arg) = &*a_arg.elem { - let resolved = self.resolve_path(&p_arg.path, generics); - assert!(self.is_primitive(&resolved)); - if let syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(len), .. }) = &a_arg.len { - write!(w, "{}", - self.c_type_from_path(&format!("[{}; {}]", resolved, len.base10_digits()), is_ref, false).unwrap()).unwrap(); - } - } + } else { + if !self.write_c_type_intern(w, t, generics, false, false, false) { return false; } } } + true } fn check_create_container(&mut self, mangled_container: String, container_type: &str, args: Vec<&syn::Type>, generics: Option<&GenericTypes>, is_ref: bool) -> bool { if !self.crate_types.templates_defined.get(&mangled_container).is_some() { let mut created_container: Vec = Vec::new(); - write!(&mut created_container, "pub type {} = ", mangled_container).unwrap(); - write!(&mut created_container, "{}::C{}Templ<", Self::container_templ_path(), container_type).unwrap(); - self.write_template_generics(&mut created_container, &mut args.iter().map(|t| *t), generics, is_ref, true); - writeln!(&mut created_container, ">;").unwrap(); + if container_type == "Result" { + let mut a_ty: Vec = Vec::new(); + if let syn::Type::Tuple(tup) = args.iter().next().unwrap() { + if tup.elems.is_empty() { + write!(&mut a_ty, "()").unwrap(); + } else { + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t).take(1), generics, is_ref) { return false; } + } + } else { + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t).take(1), generics, is_ref) { return false; } + } + + let mut b_ty: Vec = Vec::new(); + if let syn::Type::Tuple(tup) = args.iter().skip(1).next().unwrap() { + if tup.elems.is_empty() { + write!(&mut b_ty, "()").unwrap(); + } else { + if !self.write_template_generics(&mut b_ty, &mut args.iter().map(|t| *t).skip(1), generics, is_ref) { return false; } + } + } else { + if !self.write_template_generics(&mut b_ty, &mut args.iter().map(|t| *t).skip(1), generics, is_ref) { return false; } + } - write!(&mut created_container, "#[no_mangle]\npub static {}_free: extern \"C\" fn({}) = ", mangled_container, mangled_container).unwrap(); - write!(&mut created_container, "{}::C{}Templ_free::<", Self::container_templ_path(), container_type).unwrap(); - self.write_template_generics(&mut created_container, &mut args.iter().map(|t| *t), generics, is_ref, true); - writeln!(&mut created_container, ">;").unwrap(); + write_result_block(&mut created_container, &mangled_container, &String::from_utf8(a_ty).unwrap(), &String::from_utf8(b_ty).unwrap()); + } else if container_type == "Vec" { + let mut a_ty: Vec = Vec::new(); + if !self.write_template_generics(&mut a_ty, &mut args.iter().map(|t| *t), generics, is_ref) { return false; } + write_vec_block(&mut created_container, &mangled_container, &String::from_utf8(a_ty).unwrap()); + } else if container_type.ends_with("Tuple") { + let mut tuple_args = Vec::new(); + for arg in args.iter() { + let mut ty: Vec = Vec::new(); + if !self.write_template_generics(&mut ty, &mut [arg].iter().map(|t| **t), generics, is_ref) { return false; } + tuple_args.push(String::from_utf8(ty).unwrap()); + } + write_tuple_block(&mut created_container, &mangled_container, &tuple_args); - if !self.write_template_constructor(&mut created_container, container_type, &mangled_container, &args, generics, is_ref) { - return false; + write!(&mut created_container, "#[no_mangle]\npub extern \"C\" fn {}_new(", mangled_container).unwrap(); + for (idx, gen) in args.iter().enumerate() { + write!(&mut created_container, "{}{}: ", if idx != 0 { ", " } else { "" }, ('a' as u8 + idx as u8) as char).unwrap(); + if !self.write_c_type_intern(&mut created_container, gen, generics, false, false, false) { return false; } + } + writeln!(&mut created_container, ") -> {} {{", mangled_container).unwrap(); + write!(&mut created_container, "\t{} {{ ", mangled_container).unwrap(); + for idx in 0..args.len() { + write!(&mut created_container, "{}, ", ('a' as u8 + idx as u8) as char).unwrap(); + } + writeln!(&mut created_container, "}}\n}}\n").unwrap(); + } else { + unreachable!(); } self.crate_types.templates_defined.insert(mangled_container.clone(), true); @@ -1957,7 +1889,6 @@ impl<'a, 'c: 'a> TypeResolver<'a, 'c> { } else if let syn::Type::Path(p_arg) = arg { write_path!(p_arg, None); } else if let syn::Type::Reference(refty) = arg { - if args.len() != 1 { return false; } if let syn::Type::Path(p_arg) = &*refty.elem { write_path!(p_arg, None); } else if let syn::Type::Slice(_) = &*refty.elem { @@ -1965,6 +1896,7 @@ impl<'a, 'c: 'a> TypeResolver<'a, 'c> { // make it a pointer so that its an option. Note that we cannot always convert // the Vec-as-slice (ie non-ref types) containers, so sometimes need to be able // to edit it, hence we use *mut here instead of *const. + if args.len() != 1 { return false; } write!(w, "*mut ").unwrap(); self.write_c_type(w, arg, None, true); } else { return false; }