Export,
NoExport,
TestOnly,
+ /// This is used only for traits to indicate that users should not be able to implement their
+ /// own version of a trait, but we should export Rust implementations of the trait (and the
+ /// trait itself).
+ /// Concretly, this means that we do not implement the Rust trait for the C trait struct.
+ NotImplementable,
}
/// Gets the ExportStatus of an object (struct, fn, etc) given its attributes.
pub fn export_status(attrs: &[syn::Attribute]) -> ExportStatus {
let line = format!("{}", lit);
if line.contains("(C-not exported)") {
return ExportStatus::NoExport;
+ } else if line.contains("(C-not implementable)") {
+ return ExportStatus::NotImplementable;
}
},
_ => unimplemented!(),
for field in fields.named.iter() {
match export_status(&field.attrs) {
ExportStatus::Export|ExportStatus::TestOnly => {},
+ ExportStatus::NotImplementable => panic!("(C-not implementable) should only appear on traits!"),
ExportStatus::NoExport => return true,
}
}
for field in fields.unnamed.iter() {
match export_status(&field.attrs) {
ExportStatus::Export|ExportStatus::TestOnly => {},
+ ExportStatus::NotImplementable => panic!("(C-not implementable) should only appear on traits!"),
ExportStatus::NoExport => return true,
}
}
/// concrete C container struct, etc).
#[must_use]
pub struct GenericTypes<'a, 'b> {
+ self_ty: Option<(String, &'a syn::Path)>,
parent: Option<&'b GenericTypes<'b, 'b>>,
typed_generics: HashMap<&'a syn::Ident, (String, Option<&'a syn::Path>)>,
+ default_generics: HashMap<&'a syn::Ident, (syn::Type, syn::Type)>,
}
impl<'a, 'p: 'a> GenericTypes<'a, 'p> {
- pub fn new() -> Self {
- Self { parent: None, typed_generics: HashMap::new(), }
+ pub fn new(self_ty: Option<(String, &'a syn::Path)>) -> Self {
+ Self { self_ty, parent: None, typed_generics: HashMap::new(), default_generics: HashMap::new(), }
}
/// push a new context onto the stack, allowing for a new set of generics to be learned which
/// will override any lower contexts, but which will still fall back to resoltion via lower
/// contexts.
pub fn push_ctx<'c>(&'c self) -> GenericTypes<'a, 'c> {
- GenericTypes { parent: Some(self), typed_generics: HashMap::new(), }
+ GenericTypes { self_ty: None, parent: Some(self), typed_generics: HashMap::new(), default_generics: HashMap::new(), }
}
/// Learn the generics in generics in the current context, given a TypeResolver.
match generic {
syn::GenericParam::Type(type_param) => {
let mut non_lifetimes_processed = false;
- for bound in type_param.bounds.iter() {
+ 'bound_loop: for bound in type_param.bounds.iter() {
if let syn::TypeParamBound::Trait(trait_bound) = bound {
if let Some(ident) = single_ident_generic_path_to_ident(&trait_bound.path) {
match &format!("{}", ident) as &str { "Send" => continue, "Sync" => continue, _ => {} }
if path == "Sized" { continue; }
if non_lifetimes_processed { return false; }
non_lifetimes_processed = true;
- let new_ident = if path != "std::ops::Deref" {
+ let new_ident = if path != "std::ops::Deref" && path != "core::ops::Deref" {
path = "crate::".to_string() + &path;
Some(&trait_bound.path)
+ } else if trait_bound.path.segments.len() == 1 {
+ // If we're templated on Deref<Target = ConcreteThing>, store
+ // the reference type in `default_generics` which handles full
+ // types and not just paths.
+ if let syn::PathArguments::AngleBracketed(ref args) =
+ trait_bound.path.segments[0].arguments {
+ for subargument in args.args.iter() {
+ match subargument {
+ syn::GenericArgument::Lifetime(_) => {},
+ syn::GenericArgument::Binding(ref b) => {
+ if &format!("{}", b.ident) != "Target" { return false; }
+ let default = &b.ty;
+ self.default_generics.insert(&type_param.ident, (parse_quote!(&#default), parse_quote!(&#default)));
+ break 'bound_loop;
+ },
+ _ => unimplemented!(),
+ }
+ }
+ None
+ } else { None }
} else { None };
self.typed_generics.insert(&type_param.ident, (path, new_ident));
} else { return false; }
}
}
+ if let Some(default) = type_param.default.as_ref() {
+ assert!(type_param.bounds.is_empty());
+ self.default_generics.insert(&type_param.ident, (default.clone(), parse_quote!(&#default)));
+ }
},
_ => {},
}
if p.path.leading_colon.is_some() { return false; }
let mut p_iter = p.path.segments.iter();
if let Some(gen) = self.typed_generics.get_mut(&p_iter.next().unwrap().ident) {
- if gen.0 != "std::ops::Deref" { return false; }
+ if gen.0 != "std::ops::Deref" && gen.0 != "core::ops::Deref" { return false; }
if &format!("{}", p_iter.next().unwrap().ident) != "Target" { return false; }
let mut non_lifetimes_processed = false;
// implement Deref<Target=Self> for relevant types). We don't
// bother to implement it for associated types, however, so we just
// ignore such bounds.
- let new_ident = if path != "std::ops::Deref" {
+ let new_ident = if path != "std::ops::Deref" && path != "core::ops::Deref" {
path = "crate::".to_string() + &path;
Some(&tr.path)
} else { None };
/// Attempt to resolve an Ident as a generic parameter and return the full path.
pub fn maybe_resolve_ident<'b>(&'b self, ident: &syn::Ident) -> Option<&'b String> {
+ if let Some(ty) = &self.self_ty {
+ if format!("{}", ident) == "Self" {
+ return Some(&ty.0);
+ }
+ }
if let Some(res) = self.typed_generics.get(ident).map(|(a, _)| a) {
return Some(res);
}
None
}
}
+
/// Attempt to resolve a Path as a generic parameter and return the full path. as both a string
/// and syn::Path.
pub fn maybe_resolve_path<'b>(&'b self, path: &syn::Path) -> Option<(&'b String, &'a syn::Path)> {
if let Some(ident) = path.get_ident() {
+ if let Some(ty) = &self.self_ty {
+ if format!("{}", ident) == "Self" {
+ return Some((&ty.0, ty.1));
+ }
+ }
if let Some(res) = self.typed_generics.get(ident).map(|(a, b)| (a, b.unwrap())) {
return Some(res);
}
}
}
+trait ResolveType<'a> { fn resolve_type(&'a self, ty: &'a syn::Type) -> &'a syn::Type; }
+impl<'a, 'b, 'c: 'a + 'b> ResolveType<'c> for Option<&GenericTypes<'a, 'b>> {
+ fn resolve_type(&'c self, ty: &'c syn::Type) -> &'c syn::Type {
+ if let Some(us) = self {
+ match ty {
+ syn::Type::Path(p) => {
+ if let Some(ident) = p.path.get_ident() {
+ if let Some((ty, _)) = us.default_generics.get(ident) {
+ return ty;
+ }
+ }
+ },
+ syn::Type::Reference(syn::TypeReference { elem, .. }) => {
+ if let syn::Type::Path(p) = &**elem {
+ if let Some(ident) = p.path.get_ident() {
+ if let Some((_, refty)) = us.default_generics.get(ident) {
+ return refty;
+ }
+ }
+ }
+ }
+ _ => {},
+ }
+ }
+ ty
+ }
+}
+
#[derive(Clone, PartialEq)]
// The type of declaration and the object itself
pub enum DeclType<'a> {
priv_modules: HashSet<syn::Ident>,
}
impl<'mod_lifetime, 'crate_lft: 'mod_lifetime> ImportResolver<'mod_lifetime, 'crate_lft> {
- fn process_use_intern(crate_name: &str, dependencies: &HashSet<syn::Ident>, imports: &mut HashMap<syn::Ident, (String, syn::Path)>,
+ fn process_use_intern(crate_name: &str, module_path: &str, dependencies: &HashSet<syn::Ident>, imports: &mut HashMap<syn::Ident, (String, syn::Path)>,
u: &syn::UseTree, partial_path: &str, mut path: syn::punctuated::Punctuated<syn::PathSegment, syn::token::Colon2>) {
let new_path;
macro_rules! push_path {
($ident: expr, $path_suffix: expr) => {
- if partial_path == "" && !dependencies.contains(&$ident) {
+ if partial_path == "" && format!("{}", $ident) == "super" {
+ let mut mod_iter = module_path.rsplitn(2, "::");
+ mod_iter.next().unwrap();
+ let super_mod = mod_iter.next().unwrap();
+ new_path = format!("{}{}", super_mod, $path_suffix);
+ assert_eq!(path.len(), 0);
+ for module in super_mod.split("::") {
+ path.push(syn::PathSegment { ident: syn::Ident::new(module, Span::call_site()), arguments: syn::PathArguments::None });
+ }
+ } else if partial_path == "" && !dependencies.contains(&$ident) {
new_path = format!("{}::{}{}", crate_name, $ident, $path_suffix);
let crate_name_ident = format_ident!("{}", crate_name);
path.push(parse_quote!(#crate_name_ident));
match u {
syn::UseTree::Path(p) => {
push_path!(p.ident, "::");
- Self::process_use_intern(crate_name, dependencies, imports, &p.tree, &new_path, path);
+ Self::process_use_intern(crate_name, module_path, dependencies, imports, &p.tree, &new_path, path);
},
syn::UseTree::Name(n) => {
push_path!(n.ident, "");
},
syn::UseTree::Group(g) => {
for i in g.items.iter() {
- Self::process_use_intern(crate_name, dependencies, imports, i, partial_path, path.clone());
+ Self::process_use_intern(crate_name, module_path, dependencies, imports, i, partial_path, path.clone());
}
},
syn::UseTree::Rename(r) => {
}
}
- fn process_use(crate_name: &str, dependencies: &HashSet<syn::Ident>, imports: &mut HashMap<syn::Ident, (String, syn::Path)>, u: &syn::ItemUse) {
+ fn process_use(crate_name: &str, module_path: &str, dependencies: &HashSet<syn::Ident>, imports: &mut HashMap<syn::Ident, (String, syn::Path)>, u: &syn::ItemUse) {
if let syn::Visibility::Public(_) = u.vis {
// We actually only use these for #[cfg(fuzztarget)]
eprintln!("Ignoring pub(use) tree!");
return;
}
if u.leading_colon.is_some() { eprintln!("Ignoring leading-colon use!"); return; }
- Self::process_use_intern(crate_name, dependencies, imports, &u.tree, "", syn::punctuated::Punctuated::new());
+ Self::process_use_intern(crate_name, module_path, dependencies, imports, &u.tree, "", syn::punctuated::Punctuated::new());
}
fn insert_primitive(imports: &mut HashMap<syn::Ident, (String, syn::Path)>, id: &str) {
}
pub fn new(crate_name: &'mod_lifetime str, dependencies: &'mod_lifetime HashSet<syn::Ident>, module_path: &'mod_lifetime str, contents: &'crate_lft [syn::Item]) -> Self {
+ Self::from_borrowed_items(crate_name, dependencies, module_path, &contents.iter().map(|a| a).collect::<Vec<_>>())
+ }
+ pub fn from_borrowed_items(crate_name: &'mod_lifetime str, dependencies: &'mod_lifetime HashSet<syn::Ident>, module_path: &'mod_lifetime str, contents: &[&'crate_lft syn::Item]) -> Self {
let mut imports = HashMap::new();
// Add primitives to the "imports" list:
Self::insert_primitive(&mut imports, "bool");
for item in contents.iter() {
match item {
- syn::Item::Use(u) => Self::process_use(crate_name, dependencies, &mut imports, &u),
+ syn::Item::Use(u) => Self::process_use(crate_name, module_path, dependencies, &mut imports, &u),
syn::Item::Struct(s) => {
if let syn::Visibility::Public(_) = s.vis {
match export_status(&s.attrs) {
ExportStatus::Export => { declared.insert(s.ident.clone(), DeclType::StructImported); },
ExportStatus::NoExport => { declared.insert(s.ident.clone(), DeclType::StructIgnored); },
ExportStatus::TestOnly => continue,
+ ExportStatus::NotImplementable => panic!("(C-not implementable) should only appear on traits!"),
}
}
},
match export_status(&e.attrs) {
ExportStatus::Export if is_enum_opaque(e) => { declared.insert(e.ident.clone(), DeclType::EnumIgnored); },
ExportStatus::Export => { declared.insert(e.ident.clone(), DeclType::MirroredEnum); },
+ ExportStatus::NotImplementable => panic!("(C-not implementable) should only appear on traits!"),
_ => continue,
}
}
},
- syn::Item::Trait(t) if export_status(&t.attrs) == ExportStatus::Export => {
- if let syn::Visibility::Public(_) = t.vis {
- declared.insert(t.ident.clone(), DeclType::Trait(t));
+ syn::Item::Trait(t) => {
+ match export_status(&t.attrs) {
+ ExportStatus::Export|ExportStatus::NotImplementable => {
+ if let syn::Visibility::Public(_) = t.vis {
+ declared.insert(t.ident.clone(), DeclType::Trait(t));
+ }
+ },
+ _ => continue,
}
},
syn::Item::Mod(m) => {
format!("::{}", seg.ident)
}).collect();
let first_seg_str = format!("{}", first_seg.ident);
- if first_seg_str == "std" {
- Some(first_seg_str + &remaining)
- } else if let Some((imp, _)) = self.imports.get(&first_seg.ident) {
+ if let Some((imp, _)) = self.imports.get(&first_seg.ident) {
if remaining != "" {
Some(imp.clone() + &remaining)
} else {
}
} else if let Some(_) = self.priv_modules.get(&first_seg.ident) {
Some(format!("{}::{}{}", self.module_path, first_seg.ident, remaining))
+ } else if first_seg_str == "std" || first_seg_str == "core" || self.dependencies.contains(&first_seg.ident) {
+ Some(first_seg_str + &remaining)
} else { None }
}
}
pub fn resolve_imported_refs(&self, mut ty: syn::Type) -> syn::Type {
match &mut ty {
syn::Type::Path(p) => {
-eprintln!("rir {:?}", p);
if p.path.segments.len() != 1 { unimplemented!(); }
let mut args = p.path.segments[0].arguments.clone();
if let syn::PathArguments::AngleBracketed(ref mut generics) = &mut args {
}
}
+/// List of manually-generated types which are clonable
+fn initial_clonable_types() -> HashSet<String> {
+ let mut res = HashSet::new();
+ res.insert("crate::c_types::u5".to_owned());
+ res.insert("crate::c_types::ThirtyTwoBytes".to_owned());
+ res.insert("crate::c_types::PublicKey".to_owned());
+ res.insert("crate::c_types::Transaction".to_owned());
+ res.insert("crate::c_types::TxOut".to_owned());
+ res.insert("crate::c_types::Signature".to_owned());
+ res.insert("crate::c_types::RecoverableSignature".to_owned());
+ res.insert("crate::c_types::Secp256k1Error".to_owned());
+ res.insert("crate::c_types::IOError".to_owned());
+ res
+}
+
/// Top-level struct tracking everything which has been defined while walking the crate.
pub struct CrateTypes<'a> {
/// This may contain structs or enums, but only when either is mapped as
opaques: HashMap::new(), mirrored_enums: HashMap::new(), traits: HashMap::new(),
type_aliases: HashMap::new(), reverse_alias_map: HashMap::new(),
templates_defined: RefCell::new(HashMap::default()),
- clonable_types: RefCell::new(HashSet::new()), trait_impls: HashMap::new(),
+ clonable_types: RefCell::new(initial_clonable_types()), trait_impls: HashMap::new(),
template_file: RefCell::new(template_file), lib_ast: &libast,
}
}
if self.is_primitive(ty) { return true; }
match ty {
"()" => true,
- "crate::c_types::Signature" => true,
- "crate::c_types::TxOut" => true,
_ => false,
}
}
// for arrays are different (https://github.com/eqrion/cbindgen/issues/528)
"[u8; 32]" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
+ "[u8; 20]" if !is_ref => Some("crate::c_types::TwentyBytes"),
"[u8; 16]" if !is_ref => Some("crate::c_types::SixteenBytes"),
"[u8; 10]" if !is_ref => Some("crate::c_types::TenBytes"),
"[u8; 4]" if !is_ref => Some("crate::c_types::FourBytes"),
"[u8; 3]" if !is_ref => Some("crate::c_types::ThreeBytes"), // Used for RGB values
"str" if is_ref => Some("crate::c_types::Str"),
- "String" if !is_ref => Some("crate::c_types::derived::CVec_u8Z"),
- "String" if is_ref => Some("crate::c_types::Str"),
+ "alloc::string::String"|"String" => Some("crate::c_types::Str"),
- "std::time::Duration" => Some("u64"),
+ "std::time::Duration"|"core::time::Duration" => Some("u64"),
+ "std::time::SystemTime" => Some("u64"),
"std::io::Error" => Some("crate::c_types::IOError"),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bech32::u5" => Some("crate::c_types::u5"),
+
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
=> Some("crate::c_types::PublicKey"),
"bitcoin::secp256k1::Signature" => Some("crate::c_types::Signature"),
+ "bitcoin::secp256k1::recovery::RecoverableSignature" => Some("crate::c_types::RecoverableSignature"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if is_ref => Some("*const [u8; 32]"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if !is_ref => Some("crate::c_types::SecretKey"),
- "bitcoin::secp256k1::Error" if !is_ref => Some("crate::c_types::Secp256k1Error"),
+ "bitcoin::secp256k1::Error"|"secp256k1::Error"
+ if !is_ref => Some("crate::c_types::Secp256k1Error"),
"bitcoin::blockdata::script::Script" if is_ref => Some("crate::c_types::u8slice"),
"bitcoin::blockdata::script::Script" if !is_ref => Some("crate::c_types::derived::CVec_u8Z"),
"bitcoin::blockdata::transaction::OutPoint" => Some("crate::lightning::chain::transaction::OutPoint"),
"bitcoin::blockdata::block::Block" if is_ref => Some("crate::c_types::u8slice"),
// Newtypes that we just expose in their original form.
- "bitcoin::hash_types::Txid" if is_ref => Some("*const [u8; 32]"),
- "bitcoin::hash_types::Txid" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
- "bitcoin::hash_types::BlockHash" if is_ref => Some("*const [u8; 32]"),
- "bitcoin::hash_types::BlockHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if is_ref => Some("*const [u8; 32]"),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
"bitcoin::secp256k1::Message" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
- "lightning::ln::channelmanager::PaymentHash" if is_ref => Some("*const [u8; 32]"),
- "lightning::ln::channelmanager::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
- "lightning::ln::channelmanager::PaymentPreimage" if is_ref => Some("*const [u8; 32]"),
- "lightning::ln::channelmanager::PaymentPreimage" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
- "lightning::ln::channelmanager::PaymentSecret" if is_ref => Some("crate::c_types::ThirtyTwoBytes"),
- "lightning::ln::channelmanager::PaymentSecret" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
+ "lightning::ln::PaymentHash" if is_ref => Some("*const [u8; 32]"),
+ "lightning::ln::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
+ "lightning::ln::PaymentPreimage" if is_ref => Some("*const [u8; 32]"),
+ "lightning::ln::PaymentPreimage" if !is_ref => Some("crate::c_types::ThirtyTwoBytes"),
+ "lightning::ln::PaymentSecret" => Some("crate::c_types::ThirtyTwoBytes"),
// Override the default since Records contain an fmt with a lifetime:
"lightning::util::logger::Record" => Some("*const std::os::raw::c_char"),
"[u8; 32]" if is_ref => Some("unsafe { &*"),
"[u8; 32]" if !is_ref => Some(""),
+ "[u8; 20]" if !is_ref => Some(""),
"[u8; 16]" if !is_ref => Some(""),
"[u8; 10]" if !is_ref => Some(""),
"[u8; 4]" if !is_ref => Some(""),
"[usize]" if is_ref => Some(""),
"str" if is_ref => Some(""),
- "String" if !is_ref => Some("String::from_utf8("),
+ "alloc::string::String"|"String" => Some(""),
+ "std::io::Error" if !is_ref => Some(""),
// Note that we'll panic for String if is_ref, as we only have non-owned memory, we
// cannot create a &String.
- "std::time::Duration" => Some("std::time::Duration::from_secs("),
+ "std::time::Duration"|"core::time::Duration" => Some("std::time::Duration::from_secs("),
+ "std::time::SystemTime" => Some("(::std::time::SystemTime::UNIX_EPOCH + std::time::Duration::from_secs("),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bech32::u5" => Some(""),
+
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
if is_ref => Some("&"),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
=> Some(""),
"bitcoin::secp256k1::Signature" if is_ref => Some("&"),
"bitcoin::secp256k1::Signature" => Some(""),
+ "bitcoin::secp256k1::recovery::RecoverableSignature" => Some(""),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if is_ref => Some("&::bitcoin::secp256k1::key::SecretKey::from_slice(&unsafe { *"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
"bitcoin::hash_types::Txid" if is_ref => Some("&::bitcoin::hash_types::Txid::from_slice(&unsafe { &*"),
"bitcoin::hash_types::Txid" if !is_ref => Some("::bitcoin::hash_types::Txid::from_slice(&"),
"bitcoin::hash_types::BlockHash" => Some("::bitcoin::hash_types::BlockHash::from_slice(&"),
- "lightning::ln::channelmanager::PaymentHash" if !is_ref => Some("::lightning::ln::channelmanager::PaymentHash("),
- "lightning::ln::channelmanager::PaymentHash" if is_ref => Some("&::lightning::ln::channelmanager::PaymentHash(unsafe { *"),
- "lightning::ln::channelmanager::PaymentPreimage" if !is_ref => Some("::lightning::ln::channelmanager::PaymentPreimage("),
- "lightning::ln::channelmanager::PaymentPreimage" if is_ref => Some("&::lightning::ln::channelmanager::PaymentPreimage(unsafe { *"),
- "lightning::ln::channelmanager::PaymentSecret" => Some("::lightning::ln::channelmanager::PaymentSecret("),
+ "lightning::ln::PaymentHash" if !is_ref => Some("::lightning::ln::PaymentHash("),
+ "lightning::ln::PaymentHash" if is_ref => Some("&::lightning::ln::PaymentHash(unsafe { *"),
+ "lightning::ln::PaymentPreimage" if !is_ref => Some("::lightning::ln::PaymentPreimage("),
+ "lightning::ln::PaymentPreimage" if is_ref => Some("&::lightning::ln::PaymentPreimage(unsafe { *"),
+ "lightning::ln::PaymentSecret" => Some("::lightning::ln::PaymentSecret("),
// List of traits we map (possibly during processing of other files):
"crate::util::logger::Logger" => Some(""),
"[u8; 32]" if is_ref => Some("}"),
"[u8; 32]" if !is_ref => Some(".data"),
+ "[u8; 20]" if !is_ref => Some(".data"),
"[u8; 16]" if !is_ref => Some(".data"),
"[u8; 10]" if !is_ref => Some(".data"),
"[u8; 4]" if !is_ref => Some(".data"),
"[u8]" if is_ref => Some(".to_slice()"),
"[usize]" if is_ref => Some(".to_slice()"),
- "str" if is_ref => Some(".into()"),
- "String" if !is_ref => Some(".into_rust()).unwrap()"),
+ "str" if is_ref => Some(".into_str()"),
+ "alloc::string::String"|"String" => Some(".into_string()"),
+ "std::io::Error" if !is_ref => Some(".to_rust()"),
- "std::time::Duration" => Some(")"),
+ "std::time::Duration"|"core::time::Duration" => Some(")"),
+ "std::time::SystemTime" => Some("))"),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bech32::u5" => Some(".into()"),
+
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
=> Some(".into_rust()"),
"bitcoin::secp256k1::Signature" => Some(".into_rust()"),
+ "bitcoin::secp256k1::recovery::RecoverableSignature" => Some(".into_rust()"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if !is_ref => Some(".into_rust()"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
"bitcoin::hash_types::Txid" if is_ref => Some(" }[..]).unwrap()"),
"bitcoin::hash_types::Txid" => Some(".data[..]).unwrap()"),
"bitcoin::hash_types::BlockHash" if !is_ref => Some(".data[..]).unwrap()"),
- "lightning::ln::channelmanager::PaymentHash" if !is_ref => Some(".data)"),
- "lightning::ln::channelmanager::PaymentHash" if is_ref => Some(" })"),
- "lightning::ln::channelmanager::PaymentPreimage" if !is_ref => Some(".data)"),
- "lightning::ln::channelmanager::PaymentPreimage" if is_ref => Some(" })"),
- "lightning::ln::channelmanager::PaymentSecret" => Some(".data)"),
+ "lightning::ln::PaymentHash" if !is_ref => Some(".data)"),
+ "lightning::ln::PaymentHash" if is_ref => Some(" })"),
+ "lightning::ln::PaymentPreimage" if !is_ref => Some(".data)"),
+ "lightning::ln::PaymentPreimage" if is_ref => Some(" })"),
+ "lightning::ln::PaymentSecret" => Some(".data)"),
// List of traits we map (possibly during processing of other files):
"crate::util::logger::Logger" => Some(""),
"[u8]" if is_ref => Some(("crate::c_types::u8slice::from_slice(", ")")),
"[usize]" if is_ref => Some(("crate::c_types::usizeslice::from_slice(", ")")),
- "bitcoin::blockdata::transaction::Transaction" if is_ref => Some(("::bitcoin::consensus::encode::serialize(", ")")),
- "bitcoin::blockdata::transaction::Transaction" if !is_ref => Some(("::bitcoin::consensus::encode::serialize(&", ")")),
"bitcoin::blockdata::block::BlockHeader" if is_ref => Some(("{ let mut s = [0u8; 80]; s[..].copy_from_slice(&::bitcoin::consensus::encode::serialize(", ")); s }")),
"bitcoin::blockdata::block::Block" if is_ref => Some(("::bitcoin::consensus::encode::serialize(", ")")),
"bitcoin::hash_types::Txid" => None,
"Option" => Some("local_"),
"[u8; 32]" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
- "[u8; 32]" if is_ref => Some("&"),
+ "[u8; 32]" if is_ref => Some(""),
+ "[u8; 20]" if !is_ref => Some("crate::c_types::TwentyBytes { data: "),
"[u8; 16]" if !is_ref => Some("crate::c_types::SixteenBytes { data: "),
"[u8; 10]" if !is_ref => Some("crate::c_types::TenBytes { data: "),
"[u8; 4]" if !is_ref => Some("crate::c_types::FourBytes { data: "),
- "[u8; 3]" if is_ref => Some("&"),
+ "[u8; 3]" if is_ref => Some(""),
"[u8]" if is_ref => Some("local_"),
"[usize]" if is_ref => Some("local_"),
"str" if is_ref => Some(""),
- "String" => Some(""),
+ "alloc::string::String"|"String" => Some(""),
- "std::time::Duration" => Some(""),
+ "std::time::Duration"|"core::time::Duration" => Some(""),
+ "std::time::SystemTime" => Some(""),
"std::io::Error" if !is_ref => Some("crate::c_types::IOError::from_rust("),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bech32::u5" => Some(""),
+
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
=> Some("crate::c_types::PublicKey::from_rust(&"),
"bitcoin::secp256k1::Signature" => Some("crate::c_types::Signature::from_rust(&"),
+ "bitcoin::secp256k1::recovery::RecoverableSignature" => Some("crate::c_types::RecoverableSignature::from_rust(&"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if is_ref => Some(""),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if !is_ref => Some("crate::c_types::SecretKey::from_rust("),
- "bitcoin::secp256k1::Error" if !is_ref => Some("crate::c_types::Secp256k1Error::from_rust("),
+ "bitcoin::secp256k1::Error"|"secp256k1::Error"
+ if !is_ref => Some("crate::c_types::Secp256k1Error::from_rust("),
"bitcoin::blockdata::script::Script" if is_ref => Some("crate::c_types::u8slice::from_slice(&"),
"bitcoin::blockdata::script::Script" if !is_ref => Some(""),
- "bitcoin::blockdata::transaction::Transaction" => Some("crate::c_types::Transaction::from_vec(local_"),
+ "bitcoin::blockdata::transaction::Transaction" if is_ref => Some("crate::c_types::Transaction::from_bitcoin("),
+ "bitcoin::blockdata::transaction::Transaction" => Some("crate::c_types::Transaction::from_bitcoin(&"),
"bitcoin::blockdata::transaction::OutPoint" => Some("crate::c_types::bitcoin_to_C_outpoint("),
"bitcoin::blockdata::transaction::TxOut" if !is_ref => Some("crate::c_types::TxOut::from_rust("),
"bitcoin::network::constants::Network" => Some("crate::bitcoin::network::Network::from_bitcoin("),
"bitcoin::hash_types::Txid" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
// Newtypes that we just expose in their original form.
- "bitcoin::hash_types::Txid" if is_ref => Some(""),
- "bitcoin::hash_types::BlockHash" if is_ref => Some(""),
- "bitcoin::hash_types::BlockHash" => Some("crate::c_types::ThirtyTwoBytes { data: "),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if is_ref => Some(""),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
"bitcoin::secp256k1::Message" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
- "lightning::ln::channelmanager::PaymentHash" if is_ref => Some("&"),
- "lightning::ln::channelmanager::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
- "lightning::ln::channelmanager::PaymentPreimage" if is_ref => Some("&"),
- "lightning::ln::channelmanager::PaymentPreimage" => Some("crate::c_types::ThirtyTwoBytes { data: "),
- "lightning::ln::channelmanager::PaymentSecret" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
+ "lightning::ln::PaymentHash" if is_ref => Some("&"),
+ "lightning::ln::PaymentHash" if !is_ref => Some("crate::c_types::ThirtyTwoBytes { data: "),
+ "lightning::ln::PaymentPreimage" if is_ref => Some("&"),
+ "lightning::ln::PaymentPreimage" => Some("crate::c_types::ThirtyTwoBytes { data: "),
+ "lightning::ln::PaymentSecret" => Some("crate::c_types::ThirtyTwoBytes { data: "),
// Override the default since Records contain an fmt with a lifetime:
"lightning::util::logger::Record" => Some("local_"),
"[u8; 32]" if !is_ref => Some(" }"),
"[u8; 32]" if is_ref => Some(""),
+ "[u8; 20]" if !is_ref => Some(" }"),
"[u8; 16]" if !is_ref => Some(" }"),
"[u8; 10]" if !is_ref => Some(" }"),
"[u8; 4]" if !is_ref => Some(" }"),
"[usize]" if is_ref => Some(""),
"str" if is_ref => Some(".into()"),
- "String" if !is_ref => Some(".into_bytes().into()"),
- "String" if is_ref => Some(".as_str().into()"),
+ "alloc::string::String"|"String" if is_ref => Some(".as_str().into()"),
+ "alloc::string::String"|"String" => Some(".into()"),
- "std::time::Duration" => Some(".as_secs()"),
+ "std::time::Duration"|"core::time::Duration" => Some(".as_secs()"),
+ "std::time::SystemTime" => Some(".duration_since(::std::time::SystemTime::UNIX_EPOCH).expect(\"Times must be post-1970\").as_secs()"),
"std::io::Error" if !is_ref => Some(")"),
- "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"
+ "bech32::u5" => Some(".into()"),
+
+ "bitcoin::secp256k1::key::PublicKey"|"bitcoin::secp256k1::PublicKey"|"secp256k1::key::PublicKey"
=> Some(")"),
"bitcoin::secp256k1::Signature" => Some(")"),
+ "bitcoin::secp256k1::recovery::RecoverableSignature" => Some(")"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if !is_ref => Some(")"),
"bitcoin::secp256k1::key::SecretKey"|"bitcoin::secp256k1::SecretKey"
if is_ref => Some(".as_ref()"),
- "bitcoin::secp256k1::Error" if !is_ref => Some(")"),
+ "bitcoin::secp256k1::Error"|"secp256k1::Error"
+ if !is_ref => Some(")"),
"bitcoin::blockdata::script::Script" if is_ref => Some("[..])"),
"bitcoin::blockdata::script::Script" if !is_ref => Some(".into_bytes().into()"),
"bitcoin::blockdata::transaction::Transaction" => Some(")"),
"bitcoin::hash_types::Txid" if !is_ref => Some(".into_inner() }"),
// Newtypes that we just expose in their original form.
- "bitcoin::hash_types::Txid" if is_ref => Some(".as_inner()"),
- "bitcoin::hash_types::BlockHash" if is_ref => Some(".as_inner()"),
- "bitcoin::hash_types::BlockHash" => Some(".into_inner() }"),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if is_ref => Some(".as_inner()"),
+ "bitcoin::hash_types::Txid"|"bitcoin::hash_types::BlockHash"|"bitcoin_hashes::sha256::Hash"
+ if !is_ref => Some(".into_inner() }"),
"bitcoin::secp256k1::Message" if !is_ref => Some(".as_ref().clone() }"),
- "lightning::ln::channelmanager::PaymentHash" if is_ref => Some(".0"),
- "lightning::ln::channelmanager::PaymentHash" => Some(".0 }"),
- "lightning::ln::channelmanager::PaymentPreimage" if is_ref => Some(".0"),
- "lightning::ln::channelmanager::PaymentPreimage" => Some(".0 }"),
- "lightning::ln::channelmanager::PaymentSecret" if !is_ref => Some(".0 }"),
+ "lightning::ln::PaymentHash" if is_ref => Some(".0"),
+ "lightning::ln::PaymentHash" => Some(".0 }"),
+ "lightning::ln::PaymentPreimage" if is_ref => Some(".0"),
+ "lightning::ln::PaymentPreimage" => Some(".0 }"),
+ "lightning::ln::PaymentSecret" => Some(".0 }"),
// Override the default since Records contain an fmt with a lifetime:
"lightning::util::logger::Record" => Some(".as_ptr()"),
fn empty_val_check_suffix_from_path(&self, full_path: &str) -> Option<&str> {
match full_path {
- "lightning::ln::channelmanager::PaymentSecret" => Some(".data == [0; 32]"),
- "bitcoin::secp256k1::key::PublicKey" => Some(".is_null()"),
+ "lightning::ln::PaymentSecret" => Some(".data == [0; 32]"),
+ "secp256k1::key::PublicKey"|"bitcoin::secp256k1::key::PublicKey" => Some(".is_null()"),
"bitcoin::secp256k1::Signature" => Some(".is_null()"),
_ => None
}
}
/// Returns true if the path is a "transparent" container, ie an Option or a container which does
/// not require a generated continer class.
- fn is_path_transparent_container(&self, full_path: &syn::Path, generics: Option<&GenericTypes>, is_ref: bool) -> bool {
+ pub fn is_path_transparent_container(&self, full_path: &syn::Path, generics: Option<&GenericTypes>, is_ref: bool) -> bool {
let inner_iter = match &full_path.segments.last().unwrap().arguments {
syn::PathArguments::None => return false,
syn::PathArguments::AngleBracketed(args) => args.args.iter().map(|arg| {
(").into(), Err(mut e) => crate::c_types::CResultTempl::err(".to_string(), "e".to_string())],
").into() }", ContainerPrefixLocation::PerConv))
},
- "Vec" if !is_ref => {
+ "Vec" => {
+ if is_ref {
+ // We should only get here if the single contained has an inner
+ assert!(self.c_type_has_inner(single_contained.unwrap()));
+ }
Some(("Vec::new(); for mut item in ", vec![(format!(".drain(..) {{ local_{}.push(", var_name), "item".to_string())], "); }", ContainerPrefixLocation::PerConv))
},
"Slice" => {
- Some(("Vec::new(); for item in ", vec![(format!(".iter() {{ local_{}.push(", var_name), "**item".to_string())], "); }", ContainerPrefixLocation::PerConv))
+ Some(("Vec::new(); for item in ", vec![(format!(".iter() {{ local_{}.push(", var_name), "item".to_string())], "); }", ContainerPrefixLocation::PerConv))
},
"Option" => {
- if let Some(syn::Type::Path(p)) = single_contained {
- let inner_path = self.resolve_path(&p.path, generics);
+ let contained_struct = if let Some(syn::Type::Path(p)) = single_contained {
+ Some(self.resolve_path(&p.path, generics))
+ } else if let Some(syn::Type::Reference(r)) = single_contained {
+ if let syn::Type::Path(p) = &*r.elem {
+ Some(self.resolve_path(&p.path, generics))
+ } else { None }
+ } else { None };
+ if let Some(inner_path) = contained_struct {
if self.is_primitive(&inner_path) {
return Some(("if ", vec![
(format!(".is_none() {{ {}::COption_{}Z::None }} else {{ ", Self::generated_container_path(), inner_path),
format!("{}::COption_{}Z::Some({}.unwrap())", Self::generated_container_path(), inner_path, var_access))
], " }", ContainerPrefixLocation::NoPrefix));
} else if self.c_type_has_inner_from_path(&inner_path) {
+ let is_inner_ref = if let Some(syn::Type::Reference(_)) = single_contained { true } else { false };
if is_ref {
return Some(("if ", vec![
- (".is_none() { std::ptr::null() } else { ".to_owned(), format!("({}.as_ref().unwrap())", var_access))
+ (".is_none() { std::ptr::null() } else { ".to_owned(),
+ format!("({}{}.unwrap())", var_access, if is_inner_ref { "" } else { ".as_ref()" }))
], " }", ContainerPrefixLocation::OutsideConv));
} else {
return Some(("if ", vec![
self.types.get_declared_type(ident)
}
/// Returns true if the object at the given path is mapped as X { inner: *mut origX, .. }.
- pub fn c_type_has_inner_from_path(&self, full_path: &str) -> bool{
+ pub fn c_type_has_inner_from_path(&self, full_path: &str) -> bool {
self.crate_types.opaques.get(full_path).is_some()
}
+ /// Returns true if the object at the given path is mapped as X { inner: *mut origX, .. }.
+ pub fn c_type_has_inner(&self, ty: &syn::Type) -> bool {
+ match ty {
+ syn::Type::Path(p) => {
+ let full_path = self.resolve_path(&p.path, None);
+ self.c_type_has_inner_from_path(&full_path)
+ },
+ syn::Type::Reference(r) => {
+ self.c_type_has_inner(&*r.elem)
+ },
+ _ => false,
+ }
+ }
pub fn maybe_resolve_ident(&self, id: &syn::Ident) -> Option<String> {
self.types.maybe_resolve_ident(id)
/// unint'd memory).
pub fn write_empty_rust_val<W: std::io::Write>(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type) {
match t {
+ syn::Type::Reference(r) => {
+ self.write_empty_rust_val(generics, w, &*r.elem)
+ },
syn::Type::Path(p) => {
let resolved = self.resolve_path(&p.path, generics);
if self.crate_types.opaques.get(&resolved).is_some() {
split.next().unwrap();
let tail_str = split.next().unwrap();
assert!(split.next().is_none());
- let len = &tail_str[..tail_str.len() - 1];
+ let len = usize::from_str_radix(&tail_str[..tail_str.len() - 1], 10).unwrap();
Some(parse_quote!([u8; #len]))
} else { None }
} else { None }
/// See EmptyValExpectedTy for information on return types.
fn write_empty_rust_val_check_suffix<W: std::io::Write>(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type) -> EmptyValExpectedTy {
match t {
+ syn::Type::Reference(r) => {
+ return self.write_empty_rust_val_check_suffix(generics, w, &*r.elem);
+ },
syn::Type::Path(p) => {
let resolved = self.resolve_path(&p.path, generics);
if let Some(arr_ty) = self.is_real_type_array(&resolved) {
/// Prints a suffix to determine if a variable is empty (ie was set by write_empty_rust_val).
pub fn write_empty_rust_val_check<W: std::io::Write>(&self, generics: Option<&GenericTypes>, w: &mut W, t: &syn::Type, var_access: &str) {
match t {
+ syn::Type::Reference(r) => {
+ self.write_empty_rust_val_check(generics, w, &*r.elem, var_access);
+ },
syn::Type::Path(_) => {
write!(w, "{}", var_access).unwrap();
self.write_empty_rust_val_check_suffix(generics, w, t);
}
fn write_conversion_inline_intern<W: std::io::Write,
- LP: Fn(&str, bool, bool) -> Option<String>, DL: Fn(&mut W, &DeclType, &str, bool, bool), SC: Fn(bool) -> &'static str>
+ LP: Fn(&str, bool, bool) -> Option<String>, DL: Fn(&mut W, &DeclType, &str, bool, bool), SC: Fn(bool, Option<&str>) -> String>
(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, is_mut: bool, ptr_for_ref: bool,
tupleconv: &str, prefix: bool, sliceconv: SC, path_lookup: LP, decl_lookup: DL) {
- match t {
+ match generics.resolve_type(t) {
syn::Type::Reference(r) => {
self.write_conversion_inline_intern(w, &*r.elem, generics, true, r.mutability.is_some(),
ptr_for_ref, tupleconv, prefix, sliceconv, path_lookup, decl_lookup);
let resolved_path = self.resolve_path(&p.path, generics);
if let Some(aliased_type) = self.crate_types.type_aliases.get(&resolved_path) {
return self.write_conversion_inline_intern(w, aliased_type, None, is_ref, is_mut, ptr_for_ref, tupleconv, prefix, sliceconv, path_lookup, decl_lookup);
+ } else if self.is_primitive(&resolved_path) {
+ if is_ref && prefix {
+ write!(w, "*").unwrap();
+ }
} else if let Some(c_type) = path_lookup(&resolved_path, is_ref, ptr_for_ref) {
write!(w, "{}", c_type).unwrap();
} else if self.crate_types.opaques.get(&resolved_path).is_some() {
write!(w, "{}", path_lookup("[u8]", is_ref, ptr_for_ref).unwrap()).unwrap();
} else if let syn::Type::Reference(r) = &*s.elem {
if let syn::Type::Path(p) = &*r.elem {
- write!(w, "{}", sliceconv(self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)))).unwrap();
+ write!(w, "{}", sliceconv(self.c_type_has_inner_from_path(&self.resolve_path(&p.path, generics)), None)).unwrap();
} else { unimplemented!(); }
} else if let syn::Type::Tuple(t) = &*s.elem {
assert!(!t.elems.is_empty());
if prefix {
- write!(w, "&local_").unwrap();
+ write!(w, "{}", sliceconv(false, None)).unwrap();
} else {
let mut needs_map = false;
for e in t.elems.iter() {
}
}
if needs_map {
- write!(w, ".iter().map(|(").unwrap();
+ let mut map_str = Vec::new();
+ write!(&mut map_str, ".map(|(").unwrap();
for i in 0..t.elems.len() {
- write!(w, "{}{}", if i != 0 { ", " } else { "" }, ('a' as u8 + i as u8) as char).unwrap();
+ write!(&mut map_str, "{}{}", if i != 0 { ", " } else { "" }, ('a' as u8 + i as u8) as char).unwrap();
}
- write!(w, ")| (").unwrap();
+ write!(&mut map_str, ")| (").unwrap();
for (idx, e) in t.elems.iter().enumerate() {
if let syn::Type::Reference(_) = e {
- write!(w, "{}{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap();
+ write!(&mut map_str, "{}{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap();
} else if let syn::Type::Path(_) = e {
- write!(w, "{}*{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap();
+ write!(&mut map_str, "{}*{}", if idx != 0 { ", " } else { "" }, (idx as u8 + 'a' as u8) as char).unwrap();
} else { unimplemented!(); }
}
- write!(w, ")).collect::<Vec<_>>()[..]").unwrap();
+ write!(&mut map_str, "))").unwrap();
+ write!(w, "{}", sliceconv(false, Some(&String::from_utf8(map_str).unwrap()))).unwrap();
+ } else {
+ write!(w, "{}", sliceconv(false, None)).unwrap();
}
}
} else { unimplemented!(); }
}
fn write_to_c_conversion_inline_prefix_inner<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool, from_ptr: bool) {
- self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "0u8 /*", true, |_| "local_",
+ self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "() /*", true, |_, _| "local_".to_owned(),
|a, b, c| self.to_c_conversion_inline_prefix_from_path(a, b, c),
|w, decl_type, decl_path, is_ref, _is_mut| {
match decl_type {
- DeclType::MirroredEnum if is_ref && ptr_for_ref => write!(w, "crate::{}::from_native(&", decl_path).unwrap(),
- DeclType::MirroredEnum if is_ref => write!(w, "&crate::{}::from_native(&", decl_path).unwrap(),
+ DeclType::MirroredEnum if is_ref && ptr_for_ref => write!(w, "crate::{}::from_native(", decl_path).unwrap(),
+ DeclType::MirroredEnum if is_ref => write!(w, "&crate::{}::from_native(", decl_path).unwrap(),
DeclType::MirroredEnum => write!(w, "crate::{}::native_into(", decl_path).unwrap(),
DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref && from_ptr =>
write!(w, "crate::{} {{ inner: unsafe {{ (", decl_path).unwrap(),
DeclType::EnumIgnored|DeclType::StructImported if is_ref && ptr_for_ref =>
- write!(w, "crate::{} {{ inner: unsafe {{ ( (&(", decl_path).unwrap(),
+ write!(w, "crate::{} {{ inner: unsafe {{ ( (&(*", decl_path).unwrap(),
DeclType::EnumIgnored|DeclType::StructImported if is_ref =>
write!(w, "&crate::{} {{ inner: unsafe {{ (", decl_path).unwrap(),
DeclType::EnumIgnored|DeclType::StructImported if !is_ref && from_ptr =>
write!(w, "crate::{} {{ inner: ", decl_path).unwrap(),
DeclType::EnumIgnored|DeclType::StructImported if !is_ref =>
write!(w, "crate::{} {{ inner: Box::into_raw(Box::new(", decl_path).unwrap(),
- DeclType::Trait(_) if is_ref => write!(w, "&").unwrap(),
+ DeclType::Trait(_) if is_ref => write!(w, "").unwrap(),
DeclType::Trait(_) if !is_ref => {},
_ => panic!("{:?}", decl_path),
}
self.write_to_c_conversion_inline_prefix_inner(w, t, generics, false, ptr_for_ref, false);
}
fn write_to_c_conversion_inline_suffix_inner<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool, from_ptr: bool) {
- self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "*/", false, |_| ".into()",
+ self.write_conversion_inline_intern(w, t, generics, is_ref, false, ptr_for_ref, "*/", false, |_, _| ".into()".to_owned(),
|a, b, c| self.to_c_conversion_inline_suffix_from_path(a, b, c),
|w, decl_type, _full_path, is_ref, _is_mut| match decl_type {
DeclType::MirroredEnum => write!(w, ")").unwrap(),
}
fn write_from_c_conversion_prefix_inner<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool) {
- self.write_conversion_inline_intern(w, t, generics, is_ref, false, false, "() /*", true, |_| "&local_",
+ self.write_conversion_inline_intern(w, t, generics, is_ref, false, false, "() /*", true, |_, _| "&local_".to_owned(),
|a, b, _c| self.from_c_conversion_prefix_from_path(a, b),
|w, decl_type, _full_path, is_ref, is_mut| match decl_type {
DeclType::StructImported if is_ref && ptr_for_ref => write!(w, "unsafe {{ &*(*").unwrap(),
}
fn write_from_c_conversion_suffix_inner<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, ptr_for_ref: bool) {
self.write_conversion_inline_intern(w, t, generics, is_ref, false, false, "*/", false,
- |has_inner| match has_inner {
- false => ".iter().collect::<Vec<_>>()[..]",
- true => "[..]",
+ |has_inner, map_str_opt| match (has_inner, map_str_opt) {
+ (false, Some(map_str)) => format!(".iter(){}.collect::<Vec<_>>()[..]", map_str),
+ (false, None) => ".iter().collect::<Vec<_>>()[..]".to_owned(),
+ (true, None) => "[..]".to_owned(),
+ (true, Some(_)) => unreachable!(),
},
|a, b, _c| self.from_c_conversion_suffix_from_path(a, b),
|w, decl_type, _full_path, is_ref, _is_mut| match decl_type {
// Note that compared to the above conversion functions, the following two are generally
// significantly undertested:
pub fn write_from_c_conversion_to_ref_prefix<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) {
- self.write_conversion_inline_intern(w, t, generics, false, false, false, "() /*", true, |_| "&local_",
+ self.write_conversion_inline_intern(w, t, generics, false, false, false, "() /*", true, |_, _| "&local_".to_owned(),
|a, b, _c| {
if let Some(conv) = self.from_c_conversion_prefix_from_path(a, b) {
Some(format!("&{}", conv))
}
pub fn write_from_c_conversion_to_ref_suffix<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>) {
self.write_conversion_inline_intern(w, t, generics, false, false, false, "*/", false,
- |has_inner| match has_inner {
- false => ".iter().collect::<Vec<_>>()[..]",
- true => "[..]",
+ |has_inner, map_str_opt| match (has_inner, map_str_opt) {
+ (false, Some(map_str)) => format!(".iter(){}.collect::<Vec<_>>()[..]", map_str),
+ (false, None) => ".iter().collect::<Vec<_>>()[..]".to_owned(),
+ (true, None) => "[..]".to_owned(),
+ (true, Some(_)) => unreachable!(),
},
|a, b, _c| self.from_c_conversion_suffix_from_path(a, b),
|w, decl_type, _full_path, is_ref, _is_mut| match decl_type {
// pretty manual here and most of the below special-cases are for Options.
let mut needs_ref_map = false;
let mut only_contained_type = None;
+ let mut only_contained_type_nonref = None;
let mut only_contained_has_inner = false;
let mut contains_slice = false;
if $args_len == 1 {
only_contained_has_inner = ty_has_inner;
let arg = $args_iter().next().unwrap();
if let syn::Type::Reference(t) = arg {
- only_contained_type = Some(&*t.elem);
+ only_contained_type = Some(arg);
+ only_contained_type_nonref = Some(&*t.elem);
if let syn::Type::Path(_) = &*t.elem {
is_ref = true;
} else if let syn::Type::Slice(_) = &*t.elem {
// do an extra mapping step.
needs_ref_map = !only_contained_has_inner;
} else {
- only_contained_type = Some(&arg);
+ only_contained_type = Some(arg);
+ only_contained_type_nonref = Some(arg);
}
}
write!(&mut var, "{}", var_name).unwrap();
let var_access = String::from_utf8(var.into_inner()).unwrap();
- let conv_ty = if needs_ref_map { only_contained_type.as_ref().unwrap() } else { ty };
+ let conv_ty = if needs_ref_map { only_contained_type_nonref.as_ref().unwrap() } else { ty };
write!(w, "{} {{ ", pfx).unwrap();
let new_var_name = format!("{}_{}", ident, idx);
} }
}
- match t {
+ match generics.resolve_type(t) {
syn::Type::Reference(r) => {
if let syn::Type::Slice(_) = &*r.elem {
self.write_conversion_new_var_intern(w, ident, var, &*r.elem, generics, is_ref, ptr_for_ref, to_c, path_lookup, container_lookup, var_prefix, var_suffix)
}
self.write_c_mangled_container_path_intern(w, args, generics, ident, is_ref, is_mut, ptr_for_ref, false)
}
+ pub fn get_c_mangled_container_type(&self, args: Vec<&syn::Type>, generics: Option<&GenericTypes>, template_name: &str) -> Option<String> {
+ let mut out = Vec::new();
+ if !self.write_c_mangled_container_path(&mut out, args, generics, template_name, false, false, false) {
+ return None;
+ }
+ Some(String::from_utf8(out).unwrap())
+ }
// **********************************
// *** C Type Equivalent Printing ***
}
}
fn write_c_type_intern<W: std::io::Write>(&self, w: &mut W, t: &syn::Type, generics: Option<&GenericTypes>, is_ref: bool, is_mut: bool, ptr_for_ref: bool) -> bool {
- match t {
+ match generics.resolve_type(t) {
syn::Type::Path(p) => {
if p.qself.is_some() {
return false;