/// Write out the impl block for a defined trait struct which has a supertrait
fn do_write_impl_trait<W: std::io::Write>(w: &mut W, trait_path: &str, _trait_name: &syn::Ident, for_obj: &str) {
-eprintln!("{}", trait_path);
match trait_path {
"lightning::util::ser::Writeable" => {
writeln!(w, "impl {} for {} {{", trait_path, for_obj).unwrap();
writeln!(w, "}}\n").unwrap();
writeln!(w, "impl Drop for {} {{\n\tfn drop(&mut self) {{", struct_name).unwrap();
writeln!(w, "\t\tif self.is_owned && !<*mut native{}>::is_null(self.inner) {{", ident).unwrap();
- writeln!(w, "\t\t\tlet _ = unsafe {{ Box::from_raw(self.inner) }};\n\t\t}}\n\t}}\n}}").unwrap();
+ writeln!(w, "\t\t\tlet _ = unsafe {{ Box::from_raw(ObjOps::untweak_ptr(self.inner)) }};\n\t\t}}\n\t}}\n}}").unwrap();
writeln!(w, "/// Frees any resources used by the {}, if is_owned is set and inner is non-NULL.", struct_name).unwrap();
writeln!(w, "#[no_mangle]\npub extern \"C\" fn {}_free(this_obj: {}) {{ }}", struct_name, struct_name).unwrap();
writeln!(w, "#[allow(unused)]").unwrap();
writeln!(w, "extern \"C\" fn {}_free_void(this_ptr: *mut c_void) {{", struct_name).unwrap();
writeln!(w, "\tunsafe {{ let _ = Box::from_raw(this_ptr as *mut native{}); }}\n}}", struct_name).unwrap();
writeln!(w, "#[allow(unused)]").unwrap();
- writeln!(w, "/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy").unwrap();
writeln!(w, "impl {} {{", struct_name).unwrap();
+ writeln!(w, "\tpub(crate) fn get_native_ref(&self) -> &'static native{} {{", struct_name).unwrap();
+ writeln!(w, "\t\tunsafe {{ &*ObjOps::untweak_ptr(self.inner) }}").unwrap();
+ writeln!(w, "\t}}").unwrap();
+ writeln!(w, "\tpub(crate) fn get_native_mut_ref(&self) -> &'static mut native{} {{", struct_name).unwrap();
+ writeln!(w, "\t\tunsafe {{ &mut *ObjOps::untweak_ptr(self.inner) }}").unwrap();
+ writeln!(w, "\t}}").unwrap();
+ writeln!(w, "\t/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy").unwrap();
writeln!(w, "\tpub(crate) fn take_inner(mut self) -> *mut native{} {{", struct_name).unwrap();
writeln!(w, "\t\tassert!(self.is_owned);").unwrap();
- writeln!(w, "\t\tlet ret = self.inner;").unwrap();
+ writeln!(w, "\t\tlet ret = ObjOps::untweak_ptr(self.inner);").unwrap();
writeln!(w, "\t\tself.inner = std::ptr::null_mut();").unwrap();
writeln!(w, "\t\tret").unwrap();
writeln!(w, "\t}}\n}}").unwrap();
}
if let Some(ident) = &field.ident {
- let ref_type = syn::Type::Reference(syn::TypeReference {
- 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_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();
- let local_var = types.write_to_c_conversion_new_var(w, &format_ident!("inner_val"), &ref_type, Some(&gen_types), true);
- if local_var { write!(w, "\n\t").unwrap(); }
- types.write_to_c_conversion_inline_prefix(w, &ref_type, Some(&gen_types), true);
- write!(w, "inner_val").unwrap();
- types.write_to_c_conversion_inline_suffix(w, &ref_type, Some(&gen_types), true);
- writeln!(w, "\n}}").unwrap();
+ if let Some(ref_type) = types.create_ownable_reference(&field.ty, Some(&gen_types)) {
+ if types.understood_c_type(&ref_type, Some(&gen_types)) {
+ 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 this_ptr.get_native_mut_ref().{};\n\t", ident).unwrap();
+ let local_var = types.write_to_c_conversion_new_var(w, &format_ident!("inner_val"), &ref_type, Some(&gen_types), true);
+ if local_var { write!(w, "\n\t").unwrap(); }
+ types.write_to_c_conversion_inline_prefix(w, &ref_type, Some(&gen_types), true);
+ write!(w, "inner_val").unwrap();
+ types.write_to_c_conversion_inline_suffix(w, &ref_type, Some(&gen_types), true);
+ writeln!(w, "\n}}").unwrap();
+ }
}
if types.understood_c_type(&field.ty, Some(&gen_types)) {
write!(w, ") {{\n\t").unwrap();
let local_var = types.write_from_c_conversion_new_var(w, &format_ident!("val"), &field.ty, Some(&gen_types));
if local_var { write!(w, "\n\t").unwrap(); }
- write!(w, "unsafe {{ &mut *this_ptr.inner }}.{} = ", ident).unwrap();
+ write!(w, "unsafe {{ &mut *ObjOps::untweak_ptr(this_ptr.inner) }}.{} = ", ident).unwrap();
types.write_from_c_conversion_prefix(w, &field.ty, Some(&gen_types));
write!(w, "val").unwrap();
types.write_from_c_conversion_suffix(w, &field.ty, Some(&gen_types));
write!(w, "\n\t").unwrap();
}
}
- writeln!(w, "{} {{ inner: Box::into_raw(Box::new(native{} {{", struct_name, s.ident).unwrap();
+ writeln!(w, "{} {{ inner: ObjOps::heap_alloc(native{} {{", struct_name, s.ident).unwrap();
for field in fields.named.iter() {
write!(w, "\t\t{}: ", field.ident.as_ref().unwrap()).unwrap();
types.write_from_c_conversion_prefix(w, &field.ty, Some(&gen_types));
types.write_from_c_conversion_suffix(w, &field.ty, Some(&gen_types));
writeln!(w, ",").unwrap();
}
- writeln!(w, "\t}})), is_owned: true }}\n}}").unwrap();
+ writeln!(w, "\t}}), is_owned: true }}\n}}").unwrap();
}
}
}
// type-conversion logic without actually knowing the concrete native type.
writeln!(w, "impl From<native{}> for crate::{} {{", ident, full_trait_path).unwrap();
writeln!(w, "\tfn from(obj: native{}) -> Self {{", ident).unwrap();
- writeln!(w, "\t\tlet mut rust_obj = {} {{ inner: Box::into_raw(Box::new(obj)), is_owned: true }};", ident).unwrap();
+ writeln!(w, "\t\tlet mut rust_obj = {} {{ inner: ObjOps::heap_alloc(obj), is_owned: true }};", ident).unwrap();
writeln!(w, "\t\tlet mut ret = {}_as_{}(&rust_obj);", ident, trait_obj.ident).unwrap();
writeln!(w, "\t\t// We want to free rust_obj when ret gets drop()'d, not rust_obj, so wipe rust_obj's pointer and set ret's free() fn").unwrap();
writeln!(w, "\t\trust_obj.inner = std::ptr::null_mut();").unwrap();
writeln!(w, "/// This copies the `inner` pointer in this_arg and thus the returned {} must be freed before this_arg is", trait_obj.ident).unwrap();
write!(w, "#[no_mangle]\npub extern \"C\" fn {}_as_{}(this_arg: &{}) -> crate::{} {{\n", ident, trait_obj.ident, ident, full_trait_path).unwrap();
writeln!(w, "\tcrate::{} {{", full_trait_path).unwrap();
- writeln!(w, "\t\tthis_arg: unsafe {{ (*this_arg).inner as *mut c_void }},").unwrap();
+ writeln!(w, "\t\tthis_arg: unsafe {{ ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void }},").unwrap();
writeln!(w, "\t\tfree: None,").unwrap();
macro_rules! write_meth {
(s, t) => {
if let Some(supertrait_obj) = types.crate_types.traits.get(s) {
writeln!(w, "\t\t{}: crate::{} {{", t, s).unwrap();
- writeln!(w, "\t\t\tthis_arg: unsafe {{ (*this_arg).inner as *mut c_void }},").unwrap();
+ writeln!(w, "\t\t\tthis_arg: unsafe {{ ObjOps::untweak_ptr((*this_arg).inner) as *mut c_void }},").unwrap();
writeln!(w, "\t\t\tfree: None,").unwrap();
for item in supertrait_obj.items.iter() {
match item {
} else if path_matches_nongeneric(&trait_path.1, &["Default"]) {
writeln!(w, "/// Creates a \"default\" {}. See struct and individual field documentaiton for details on which values are used.", ident).unwrap();
write!(w, "#[must_use]\n#[no_mangle]\npub extern \"C\" fn {}_default() -> {} {{\n", ident, ident).unwrap();
- write!(w, "\t{} {{ inner: Box::into_raw(Box::new(Default::default())), is_owned: true }}\n", ident).unwrap();
+ write!(w, "\t{} {{ inner: ObjOps::heap_alloc(Default::default()), is_owned: true }}\n", ident).unwrap();
write!(w, "}}\n").unwrap();
} else if path_matches_nongeneric(&trait_path.1, &["core", "cmp", "PartialEq"]) {
} else if path_matches_nongeneric(&trait_path.1, &["core", "cmp", "Eq"]) {
writeln!(w, "\tfn clone(&self) -> Self {{").unwrap();
writeln!(w, "\t\tSelf {{").unwrap();
writeln!(w, "\t\t\tinner: if <*mut native{}>::is_null(self.inner) {{ std::ptr::null_mut() }} else {{", ident).unwrap();
- writeln!(w, "\t\t\t\tBox::into_raw(Box::new(unsafe {{ &*self.inner }}.clone())) }},").unwrap();
+ writeln!(w, "\t\t\t\tObjOps::heap_alloc(unsafe {{ &*ObjOps::untweak_ptr(self.inner) }}.clone()) }},").unwrap();
writeln!(w, "\t\t\tis_owned: true,").unwrap();
writeln!(w, "\t\t}}\n\t}}\n}}").unwrap();
writeln!(w, "#[allow(unused)]").unwrap();
if takes_owned_self {
write!(w, "(*unsafe {{ Box::from_raw(this_arg.take_inner()) }}).{}(", m.sig.ident).unwrap();
} else if takes_mut_self {
- write!(w, "unsafe {{ &mut (*(this_arg.inner as *mut native{})) }}.{}(", ident, m.sig.ident).unwrap();
+ write!(w, "unsafe {{ &mut (*ObjOps::untweak_ptr(this_arg.inner as *mut native{})) }}.{}(", ident, m.sig.ident).unwrap();
} else {
- write!(w, "unsafe {{ &*this_arg.inner }}.{}(", m.sig.ident).unwrap();
+ write!(w, "unsafe {{ &*ObjOps::untweak_ptr(this_arg.inner) }}.{}(", m.sig.ident).unwrap();
}
},
_ => unimplemented!(),
}
}
+/// Replaces upper case charachters with underscore followed by lower case except the first
+/// charachter and repeated upper case characthers (which are only made lower case).
+fn camel_to_snake_case(camel: &str) -> String {
+ let mut res = "".to_string();
+ let mut last_upper = -1;
+ for (idx, c) in camel.chars().enumerate() {
+ if c.is_uppercase() {
+ if last_upper != idx as isize - 1 { res.push('_'); }
+ res.push(c.to_lowercase().next().unwrap());
+ last_upper = idx as isize;
+ } else {
+ res.push(c);
+ }
+ }
+ res
+}
+
/// Print a mapping of an enum. If all of the enum's fields are C-mapped in some form (or the enum
/// is unitary), we generate an equivalent enum with all types replaced with their C mapped
assert!(gen_types.learn_generics(&e.generics, types));
let mut needs_free = false;
+ let mut constr = Vec::new();
writeln!(w, "#[must_use]\n#[derive(Clone)]\n#[repr(C)]\npub enum {} {{", e.ident).unwrap();
for var in e.variants.iter() {
assert_eq!(export_status(&var.attrs), ExportStatus::Export); // We can't partially-export a mirrored enum
writeln_docs(w, &var.attrs, "\t");
write!(w, "\t{}", var.ident).unwrap();
+ writeln!(&mut constr, "#[no_mangle]\n/// Utility method to constructs a new {}-variant {}", var.ident, e.ident).unwrap();
+ let constr_name = camel_to_snake_case(&format!("{}", var.ident));
+ write!(&mut constr, "pub extern \"C\" fn {}_{}(", e.ident, constr_name).unwrap();
+ let mut empty_tuple_variant = false;
if let syn::Fields::Named(fields) = &var.fields {
needs_free = true;
writeln!(w, " {{").unwrap();
- for field in fields.named.iter() {
+ for (idx, field) in fields.named.iter().enumerate() {
if export_status(&field.attrs) == ExportStatus::TestOnly { continue; }
writeln_field_docs(w, &field.attrs, "\t\t", types, Some(&gen_types), &field.ty);
write!(w, "\t\t{}: ", field.ident.as_ref().unwrap()).unwrap();
+ write!(&mut constr, "{}{}: ", if idx != 0 { ", " } else { "" }, field.ident.as_ref().unwrap()).unwrap();
types.write_c_type(w, &field.ty, Some(&gen_types), false);
+ types.write_c_type(&mut constr, &field.ty, Some(&gen_types), false);
writeln!(w, ",").unwrap();
}
write!(w, "\t}}").unwrap();
} else if let syn::Fields::Unnamed(fields) = &var.fields {
- let mut empty_tuple_variant = false;
if fields.unnamed.len() == 1 {
let mut empty_check = Vec::new();
types.write_c_type(&mut empty_check, &fields.unnamed[0].ty, Some(&gen_types), false);
write!(w, "(").unwrap();
for (idx, field) in fields.unnamed.iter().enumerate() {
if export_status(&field.attrs) == ExportStatus::TestOnly { continue; }
+ write!(&mut constr, "{}: ", ('a' as u8 + idx as u8) as char).unwrap();
types.write_c_type(w, &field.ty, Some(&gen_types), false);
+ types.write_c_type(&mut constr, &field.ty, Some(&gen_types), false);
if idx != fields.unnamed.len() - 1 {
write!(w, ",").unwrap();
+ write!(&mut constr, ",").unwrap();
}
}
write!(w, ")").unwrap();
}
}
if var.discriminant.is_some() { unimplemented!(); }
+ write!(&mut constr, ") -> {} {{\n\t{}::{}", e.ident, e.ident, var.ident).unwrap();
+ if let syn::Fields::Named(fields) = &var.fields {
+ writeln!(&mut constr, " {{").unwrap();
+ for field in fields.named.iter() {
+ writeln!(&mut constr, "\t\t{},", field.ident.as_ref().unwrap()).unwrap();
+ }
+ writeln!(&mut constr, "\t}}").unwrap();
+ } else if let syn::Fields::Unnamed(fields) = &var.fields {
+ if !empty_tuple_variant {
+ write!(&mut constr, "(").unwrap();
+ for idx in 0..fields.unnamed.len() {
+ write!(&mut constr, "{}, ", ('a' as u8 + idx as u8) as char).unwrap();
+ }
+ writeln!(&mut constr, ")").unwrap();
+ } else {
+ writeln!(&mut constr, "").unwrap();
+ }
+ }
+ writeln!(&mut constr, "}}").unwrap();
writeln!(w, ",").unwrap();
}
writeln!(w, "}}\nuse {}::{} as native{};\nimpl {} {{", types.module_path, e.ident, e.ident, e.ident).unwrap();
writeln!(w, "pub extern \"C\" fn {}_clone(orig: &{}) -> {} {{", e.ident, e.ident, e.ident).unwrap();
writeln!(w, "\torig.clone()").unwrap();
writeln!(w, "}}").unwrap();
+ w.write_all(&constr).unwrap();
write_cpp_wrapper(cpp_headers, &format!("{}", e.ident), needs_free, None);
}