//! It also generates relevant memory-management functions and free-standing functions with
//! parameters mapped.
-use std::collections::{HashMap, hash_map};
+use std::collections::{HashMap, hash_map, HashSet};
use std::env;
use std::fs::File;
use std::io::{Read, Write};
let mut module_iter = module.rsplitn(2, "::");
module_iter.next().unwrap();
let module = module_iter.next().unwrap();
- let imports = ImportResolver::new(module.splitn(2, "::").next().unwrap(), &$crate_types.lib_ast.dependencies,
+ let imports = ImportResolver::new(module.splitn(2, "::").next().unwrap(), &$crate_types.lib_ast,
module, &$crate_types.lib_ast.modules.get(module).unwrap().items);
TypeResolver::new(module, imports, $crate_types)
} }
writeln!(w, "#[allow(unused)]").unwrap();
writeln!(w, "/// Used only if an object of this type is returned as a trait impl by a method").unwrap();
writeln!(w, "pub(crate) 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, "\tlet _ = unsafe {{ Box::from_raw(this_ptr as *mut native{}) }};\n}}", struct_name).unwrap();
writeln!(w, "#[allow(unused)]").unwrap();
writeln!(w, "impl {} {{", struct_name).unwrap();
writeln!(w, "\tpub(crate) fn get_native_ref(&self) -> &'static native{} {{", struct_name).unwrap();
/// Trait struct containing a pointer to the passed struct's inner field and the wrapper functions.
///
/// A few non-crate Traits are hard-coded including Default.
-fn writeln_impl<W: std::io::Write>(w: &mut W, i: &syn::ItemImpl, types: &mut TypeResolver) {
+fn writeln_impl<W: std::io::Write>(w: &mut W, w_uses: &mut HashSet<String, NonRandomHash>, i: &syn::ItemImpl, types: &mut TypeResolver) {
match export_status(&i.attrs) {
ExportStatus::Export => {},
ExportStatus::NoExport|ExportStatus::TestOnly => return,
// type-conversion logic without actually knowing the concrete native type.
if !resolved_path.starts_with(types.module_path) {
if !first_seg_is_stdlib(resolved_path.split("::").next().unwrap()) {
- writeln!(w, "use crate::{}::native{} as native{};", resolved_path.rsplitn(2, "::").skip(1).next().unwrap(), ident, ident).unwrap();
- writeln!(w, "use crate::{};", resolved_path).unwrap();
- writeln!(w, "use crate::{}_free_void;", resolved_path).unwrap();
+ w_uses.insert(format!("use crate::{}::native{} as native{};", resolved_path.rsplitn(2, "::").skip(1).next().unwrap(), ident, ident));
+ w_uses.insert(format!("use crate::{};", resolved_path));
+ w_uses.insert(format!("use crate::{}_free_void;", resolved_path));
} else {
- writeln!(w, "use {} as native{};", resolved_path, ident).unwrap();
+ w_uses.insert(format!("use {} as native{};", resolved_path, ident));
}
}
writeln!(w, "impl From<native{}> for crate::{} {{", ident, full_trait_path).unwrap();
}
}
} else if let Some(resolved_path) = types.maybe_resolve_ident(&ident) {
- create_alias_for_impl(resolved_path, i, types, move |aliased_impl, types| writeln_impl(w, &aliased_impl, types));
+ create_alias_for_impl(resolved_path, i, types, move |aliased_impl, types| writeln_impl(w, w_uses, &aliased_impl, types));
} else {
eprintln!("Not implementing anything for {} due to no-resolve (probably the type isn't pub)", ident);
}
let alias_resolver_override;
let alias_resolver = if alias_module != types.module_path {
- alias_resolver_override = ImportResolver::new(types.types.crate_name, &types.crate_types.lib_ast.dependencies,
+ alias_resolver_override = ImportResolver::new(types.types.crate_name, &types.crate_types.lib_ast,
alias_module, &types.crate_types.lib_ast.modules.get(alias_module).unwrap().items);
&alias_resolver_override
} else { &types.types };
// *** File/Crate Walking Logic ***
// ********************************
-fn convert_priv_mod<'a, 'b: 'a, W: std::io::Write>(w: &mut W, libast: &'b FullLibraryAST, crate_types: &CrateTypes<'b>, out_dir: &str, mod_path: &str, module: &'b syn::ItemMod) {
+fn convert_priv_mod<'a, 'b: 'a, W: std::io::Write>(w: &mut W, w_uses: &mut HashSet<String, NonRandomHash>, libast: &'b FullLibraryAST, crate_types: &CrateTypes<'b>, out_dir: &str, mod_path: &str, module: &'b syn::ItemMod) {
// We want to ignore all items declared in this module (as they are not pub), but we still need
// to give the ImportResolver any use statements, so we copy them here.
let mut use_items = Vec::new();
use_items.push(item);
}
}
- let import_resolver = ImportResolver::from_borrowed_items(mod_path.splitn(2, "::").next().unwrap(), &libast.dependencies, mod_path, &use_items);
+ let import_resolver = ImportResolver::from_borrowed_items(mod_path.splitn(2, "::").next().unwrap(), libast, mod_path, &use_items);
let mut types = TypeResolver::new(mod_path, import_resolver, crate_types);
writeln!(w, "mod {} {{\n{}", module.ident, DEFAULT_IMPORTS).unwrap();
for item in module.content.as_ref().unwrap().1.iter() {
match item {
- syn::Item::Mod(m) => convert_priv_mod(w, libast, crate_types, out_dir, &format!("{}::{}", mod_path, module.ident), m),
+ syn::Item::Mod(m) => convert_priv_mod(w, w_uses, libast, crate_types, out_dir, &format!("{}::{}", mod_path, module.ident), m),
syn::Item::Impl(i) => {
- writeln_impl(w, i, &mut types);
+ writeln_impl(w, w_uses, i, &mut types);
},
_ => {},
}
let _ = std::fs::create_dir((&new_file_path.as_ref() as &std::path::Path).parent().unwrap());
let mut out = std::fs::OpenOptions::new().write(true).create(true).truncate(true)
.open(new_file_path).expect("Unable to open new src file");
+ let mut out_uses = HashSet::default();
writeln!(out, "// This file is Copyright its original authors, visible in version control").unwrap();
writeln!(out, "// history and in the source files from which this was generated.").unwrap();
eprintln!("Converting {} entries...", module);
- let import_resolver = ImportResolver::new(orig_crate, &libast.dependencies, module, items);
+ let import_resolver = ImportResolver::new(orig_crate, libast, module, items);
let mut type_resolver = TypeResolver::new(module, import_resolver, crate_types);
for item in items.iter() {
}
},
syn::Item::Impl(i) => {
- writeln_impl(&mut out, &i, &mut type_resolver);
+ writeln_impl(&mut out, &mut out_uses, &i, &mut type_resolver);
},
syn::Item::Struct(s) => {
if let syn::Visibility::Public(_) = s.vis {
}
},
syn::Item::Mod(m) => {
- convert_priv_mod(&mut out, libast, crate_types, out_dir, &format!("{}::{}", module, m.ident), m);
+ convert_priv_mod(&mut out, &mut out_uses, libast, crate_types, out_dir, &format!("{}::{}", module, m.ident), m);
},
syn::Item::Const(c) => {
// Re-export any primitive-type constants.
}
}
+ for use_stmt in out_uses {
+ writeln!(out, "{}", use_stmt).unwrap();
+ }
+
out.flush().unwrap();
}
}
let ASTModule { ref attrs, ref items, .. } = astmod;
assert_eq!(export_status(&attrs), ExportStatus::Export);
- let import_resolver = ImportResolver::new(orig_crate, &ast_storage.dependencies, module, items);
+ let import_resolver = ImportResolver::new(orig_crate, ast_storage, module, items);
let mut types = TypeResolver::new(module, import_resolver, crate_types);
for item in items.iter() {
}
fn walk_private_mod<'a>(ast_storage: &'a FullLibraryAST, orig_crate: &str, module: String, items: &'a syn::ItemMod, crate_types: &mut CrateTypes<'a>) {
- let import_resolver = ImportResolver::new(orig_crate, &ast_storage.dependencies, &module, &items.content.as_ref().unwrap().1);
+ let import_resolver = ImportResolver::new(orig_crate, ast_storage, &module, &items.content.as_ref().unwrap().1);
for item in items.content.as_ref().unwrap().1.iter() {
match item {
syn::Item::Mod(m) => walk_private_mod(ast_storage, orig_crate, format!("{}::{}", module, m.ident), m, crate_types),
let ASTModule { ref attrs, ref items, submods: _ } = astmod;
assert_eq!(export_status(&attrs), ExportStatus::Export);
let orig_crate = module.splitn(2, "::").next().unwrap();
- let import_resolver = ImportResolver::new(orig_crate, &ast_storage.dependencies, module, items);
+ let import_resolver = ImportResolver::new(orig_crate, ast_storage, module, items);
for item in items.iter() {
match item {