use std::collections::BTreeMap; use quote::quote; use crate::attrs::ExportScope; use crate::function::{ flatten_type_groups, print_type, ExportedFn, FnNamespaceAccess, FnSpecialAccess, FN_GET, FN_IDX_GET, FN_IDX_SET, FN_SET, }; use crate::module::Module; pub type ExportedConst = (String, Box, syn::Expr); pub fn generate_body( fns: &mut [ExportedFn], consts: &[ExportedConst], sub_modules: &mut [Module], parent_scope: &ExportScope, ) -> proc_macro2::TokenStream { let mut set_fn_statements: Vec = Vec::new(); let mut set_const_statements: Vec = Vec::new(); let mut add_mod_blocks: Vec = Vec::new(); let mut set_flattened_mod_blocks: Vec = Vec::new(); let str_type_path = syn::parse2::(quote! { str }).unwrap(); let string_type_path = syn::parse2::(quote! { String }).unwrap(); for (const_name, _, _) in consts { let const_literal = syn::LitStr::new(&const_name, proc_macro2::Span::call_site()); let const_ref = syn::Ident::new(&const_name, proc_macro2::Span::call_site()); set_const_statements.push( syn::parse2::(quote! { m.set_var(#const_literal, #const_ref); }) .unwrap(), ); } for item_mod in sub_modules { item_mod.update_scope(&parent_scope); if item_mod.skipped() { continue; } let module_name = item_mod.module_name(); let exported_name: syn::LitStr = syn::LitStr::new( item_mod.exported_name().as_ref(), proc_macro2::Span::call_site(), ); let cfg_attrs: Vec<&syn::Attribute> = item_mod .attrs() .iter() .filter(|&a| a.path.get_ident().map(|i| *i == "cfg").unwrap_or(false)) .collect(); add_mod_blocks.push( syn::parse2::(quote! { { #(#cfg_attrs)* m.set_sub_module(#exported_name, self::#module_name::rhai_module_generate()); } }) .unwrap(), ); set_flattened_mod_blocks.push( syn::parse2::(quote! { { #(#cfg_attrs)* self::#module_name::rhai_generate_into_module(m, flatten); } }) .unwrap(), ); } // NB: these are token streams, because re-parsing messes up "> >" vs ">>" let mut gen_fn_tokens: Vec = Vec::new(); for function in fns { function.update_scope(&parent_scope); if function.skipped() { continue; } let fn_token_name = syn::Ident::new( &format!("{}_token", function.name().to_string()), function.name().span(), ); let reg_names = function.exported_names(); let fn_input_types: Vec = function .arg_list() .map(|fn_arg| match fn_arg { syn::FnArg::Receiver(_) => panic!("internal error: receiver fn outside impl!?"), syn::FnArg::Typed(syn::PatType { ref ty, .. }) => { let arg_type = match flatten_type_groups(ty.as_ref()) { syn::Type::Reference(syn::TypeReference { mutability: None, ref elem, .. }) => match flatten_type_groups(elem.as_ref()) { syn::Type::Path(ref p) if p.path == str_type_path => { syn::parse2::(quote! { ImmutableString }) .unwrap() } _ => panic!("internal error: non-string shared reference!?"), }, syn::Type::Path(ref p) if p.path == string_type_path => { syn::parse2::(quote! { ImmutableString }) .unwrap() } syn::Type::Reference(syn::TypeReference { mutability: Some(_), ref elem, .. }) => match flatten_type_groups(elem.as_ref()) { syn::Type::Path(ref p) => syn::parse2::(quote! { #p }) .unwrap(), _ => panic!("internal error: invalid mutable reference!?"), }, t => t.clone(), }; syn::parse2::(quote! { TypeId::of::<#arg_type>()}) .unwrap() } }) .collect(); for fn_literal in reg_names { let mut namespace = FnNamespaceAccess::Internal; match function.params().special { FnSpecialAccess::None => (), FnSpecialAccess::Index(_) | FnSpecialAccess::Property(_) => { let reg_name = fn_literal.value(); if reg_name.starts_with(FN_GET) || reg_name.starts_with(FN_SET) || reg_name == FN_IDX_GET || reg_name == FN_IDX_SET { namespace = FnNamespaceAccess::Global; } } } match function.params().namespace { FnNamespaceAccess::Unset => (), ns => namespace = ns, } let ns_str = syn::Ident::new( match namespace { FnNamespaceAccess::Unset => unreachable!(), FnNamespaceAccess::Global => "Global", FnNamespaceAccess::Internal => "Internal", }, fn_literal.span(), ); #[cfg(feature = "metadata")] let param_names = quote! { Some(#fn_token_name::PARAM_NAMES) }; #[cfg(not(feature = "metadata"))] let param_names = quote! { None }; set_fn_statements.push( syn::parse2::(quote! { m.set_fn(#fn_literal, FnNamespace::#ns_str, FnAccess::Public, #param_names, &[#(#fn_input_types),*], #fn_token_name().into()); }) .unwrap(), ); } gen_fn_tokens.push(quote! { #[allow(non_camel_case_types)] pub struct #fn_token_name(); }); gen_fn_tokens.push(function.generate_impl(&fn_token_name.to_string())); } let mut generate_fn_call = syn::parse2::(quote! { pub mod generate_info { #[allow(unused_imports)] use super::*; pub fn rhai_module_generate() -> Module { let mut m = Module::new(); rhai_generate_into_module(&mut m, false); m.build_index(); m } #[allow(unused_mut)] pub fn rhai_generate_into_module(m: &mut Module, flatten: bool) { #(#set_fn_statements)* #(#set_const_statements)* if flatten { #(#set_flattened_mod_blocks)* } else { #(#add_mod_blocks)* } } } }) .unwrap(); let (_, generate_call_content) = generate_fn_call.content.take().unwrap(); quote! { #(#generate_call_content)* #(#gen_fn_tokens)* } } pub fn check_rename_collisions(fns: &Vec) -> Result<(), syn::Error> { fn make_key(name: impl ToString, item_fn: &ExportedFn) -> String { item_fn .arg_list() .fold(name.to_string(), |mut arg_str, fn_arg| { let type_string: String = match fn_arg { syn::FnArg::Receiver(_) => unimplemented!("receiver rhai_fns not implemented"), syn::FnArg::Typed(syn::PatType { ref ty, .. }) => print_type(ty), }; arg_str.push('.'); arg_str.push_str(&type_string); arg_str }) } let mut renames = BTreeMap::::new(); let mut fn_defs = BTreeMap::::new(); for item_fn in fns.iter() { if !item_fn.params().name.is_empty() || item_fn.params().special != FnSpecialAccess::None { let mut names: Vec<_> = item_fn .params() .name .iter() .map(|n| (n.clone(), n.clone())) .collect(); if let Some((s, n, _)) = item_fn.params().special.get_fn_name() { names.push((s, n)); } for (name, fn_name) in names { let current_span = item_fn.params().span.unwrap(); let key = make_key(&name, item_fn); if let Some(other_span) = renames.insert(key, current_span) { let mut err = syn::Error::new( current_span, format!("duplicate Rhai signature for '{}'", &fn_name), ); err.combine(syn::Error::new( other_span, format!("duplicated function renamed '{}'", &fn_name), )); return Err(err); } } } else { let ident = item_fn.name(); if let Some(other_span) = fn_defs.insert(ident.to_string(), ident.span()) { let mut err = syn::Error::new( ident.span(), format!("duplicate function '{}'", ident.to_string()), ); err.combine(syn::Error::new( other_span, format!("duplicated function '{}'", ident.to_string()), )); return Err(err); } let key = make_key(ident, item_fn); if let Some(fn_span) = renames.get(&key) { let mut err = syn::Error::new( ident.span(), format!("duplicate Rhai signature for '{}'", &ident), ); err.combine(syn::Error::new( *fn_span, format!("duplicated function '{}'", &ident), )); return Err(err); } } } Ok(()) }