mirror of
https://github.com/AppFlowy-IO/AppFlowy.git
synced 2024-08-30 18:12:39 +00:00
248 lines
8.8 KiB
Rust
248 lines
8.8 KiB
Rust
use crate::proto_buf::util::*;
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use flowy_ast::*;
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use proc_macro2::{Span, TokenStream};
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pub fn make_de_token_steam(ast_result: &ASTResult, ast: &ASTContainer) -> Option<TokenStream> {
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let pb_ty = ast.pb_attrs.pb_struct_type()?;
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let struct_ident = &ast.ident;
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let build_take_fields = ast
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.data
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.all_fields()
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.filter(|f| !f.pb_attrs.skip_pb_deserializing())
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.flat_map(|field| {
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if let Some(func) = field.pb_attrs.deserialize_pb_with() {
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let member = &field.member;
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Some(quote! { o.#member=#struct_ident::#func(pb); })
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} else if field.pb_attrs.is_one_of() {
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token_stream_for_one_of(ast_result, field)
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} else {
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token_stream_for_field(ast_result, &field.member, field.ty, false)
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}
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});
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let de_token_stream: TokenStream = quote! {
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impl std::convert::TryFrom<bytes::Bytes> for #struct_ident {
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type Error = ::protobuf::ProtobufError;
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fn try_from(bytes: bytes::Bytes) -> Result<Self, Self::Error> {
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Self::try_from(&bytes)
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}
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}
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impl std::convert::TryFrom<&bytes::Bytes> for #struct_ident {
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type Error = ::protobuf::ProtobufError;
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fn try_from(bytes: &bytes::Bytes) -> Result<Self, Self::Error> {
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let pb: crate::protobuf::#pb_ty = ::protobuf::Message::parse_from_bytes(bytes)?;
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Ok(#struct_ident::from(pb))
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}
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}
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impl std::convert::TryFrom<&[u8]> for #struct_ident {
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type Error = ::protobuf::ProtobufError;
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fn try_from(bytes: &[u8]) -> Result<Self, Self::Error> {
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let pb: crate::protobuf::#pb_ty = ::protobuf::Message::parse_from_bytes(bytes)?;
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Ok(#struct_ident::from(pb))
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}
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}
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impl std::convert::From<crate::protobuf::#pb_ty> for #struct_ident {
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fn from(mut pb: crate::protobuf::#pb_ty) -> Self {
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let mut o = Self::default();
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#(#build_take_fields)*
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o
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}
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}
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};
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Some(de_token_stream)
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// None
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}
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fn token_stream_for_one_of(ast_result: &ASTResult, field: &ASTField) -> Option<TokenStream> {
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let member = &field.member;
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let ident = get_member_ident(ast_result, member)?;
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let ty_info = match parse_ty(ast_result, field.ty) {
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Ok(ty_info) => ty_info,
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Err(e) => {
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eprintln!("token_stream_for_one_of failed: {:?} with error: {}", member, e);
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panic!();
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}
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}?;
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let bracketed_ty_info = ty_info.bracket_ty_info.as_ref().as_ref();
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let has_func = format_ident!("has_{}", ident.to_string());
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match ident_category(bracketed_ty_info.unwrap().ident) {
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TypeCategory::Enum => {
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let get_func = format_ident!("get_{}", ident.to_string());
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let ty = bracketed_ty_info.unwrap().ty;
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Some(quote! {
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if pb.#has_func() {
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let enum_de_from_pb = #ty::from(&pb.#get_func());
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o.#member = Some(enum_de_from_pb);
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}
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})
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}
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TypeCategory::Primitive => {
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let get_func = format_ident!("get_{}", ident.to_string());
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Some(quote! {
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if pb.#has_func() {
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o.#member=Some(pb.#get_func());
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}
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})
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}
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TypeCategory::Str => {
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let take_func = format_ident!("take_{}", ident.to_string());
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Some(quote! {
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if pb.#has_func() {
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o.#member=Some(pb.#take_func());
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}
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})
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}
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TypeCategory::Array => {
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let take_func = format_ident!("take_{}", ident.to_string());
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Some(quote! {
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if pb.#has_func() {
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o.#member=Some(pb.#take_func());
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}
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})
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}
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_ => {
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let take_func = format_ident!("take_{}", ident.to_string());
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let ty = bracketed_ty_info.unwrap().ty;
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Some(quote! {
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if pb.#has_func() {
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let val = #ty::from(pb.#take_func());
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o.#member=Some(val);
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}
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})
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}
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}
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}
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fn token_stream_for_field(
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ast_result: &ASTResult,
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member: &syn::Member,
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ty: &syn::Type,
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is_option: bool,
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) -> Option<TokenStream> {
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let ident = get_member_ident(ast_result, member)?;
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let ty_info = match parse_ty(ast_result, ty) {
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Ok(ty_info) => ty_info,
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Err(e) => {
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eprintln!("token_stream_for_field: {:?} with error: {}", member, e);
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panic!()
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}
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}?;
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match ident_category(ty_info.ident) {
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TypeCategory::Array => {
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assert_bracket_ty_is_some(ast_result, &ty_info);
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token_stream_for_vec(ast_result, member, &ty_info.bracket_ty_info.unwrap())
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}
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TypeCategory::Map => {
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assert_bracket_ty_is_some(ast_result, &ty_info);
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token_stream_for_map(ast_result, member, &ty_info.bracket_ty_info.unwrap())
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}
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TypeCategory::Protobuf => {
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// if the type wrapped by SingularPtrField, should call take first
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let take = syn::Ident::new("take", Span::call_site());
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// inner_type_ty would be the type of the field. (e.g value of AnyData)
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let ty = ty_info.ty;
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Some(quote! {
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let some_value = pb.#member.#take();
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if some_value.is_some() {
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let struct_de_from_pb = #ty::from(some_value.unwrap());
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o.#member = struct_de_from_pb;
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}
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})
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}
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TypeCategory::Enum => {
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let ty = ty_info.ty;
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Some(quote! {
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let enum_de_from_pb = #ty::from(&pb.#member);
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o.#member = enum_de_from_pb;
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})
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}
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TypeCategory::Str => {
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let take_ident = syn::Ident::new(&format!("take_{}", ident), Span::call_site());
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if is_option {
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Some(quote! {
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if pb.#member.is_empty() {
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o.#member = None;
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} else {
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o.#member = Some(pb.#take_ident());
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}
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})
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} else {
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Some(quote! {
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o.#member = pb.#take_ident();
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})
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}
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}
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TypeCategory::Opt => token_stream_for_field(ast_result, member, ty_info.bracket_ty_info.unwrap().ty, true),
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TypeCategory::Primitive | TypeCategory::Bytes => {
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// eprintln!("😄 #{:?}", &field.name().unwrap());
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if is_option {
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Some(quote! { o.#member = Some(pb.#member.clone()); })
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} else {
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Some(quote! { o.#member = pb.#member.clone(); })
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}
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}
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}
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}
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fn token_stream_for_vec(ctxt: &ASTResult, member: &syn::Member, bracketed_type: &TyInfo) -> Option<TokenStream> {
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let ident = get_member_ident(ctxt, member)?;
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match ident_category(bracketed_type.ident) {
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TypeCategory::Protobuf => {
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let ty = bracketed_type.ty;
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// Deserialize from pb struct of type vec, should call take_xx(), get the
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// repeated_field and then calling the into_iter。
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let take_ident = format_ident!("take_{}", ident.to_string());
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Some(quote! {
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o.#member = pb.#take_ident()
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.into_iter()
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.map(|m| #ty::from(m))
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.collect();
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})
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}
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TypeCategory::Bytes => {
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// Vec<u8>
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Some(quote! {
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o.#member = pb.#member.clone();
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})
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}
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_ => {
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// String
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let take_ident = format_ident!("take_{}", ident.to_string());
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Some(quote! {
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o.#member = pb.#take_ident().into_vec();
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})
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}
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}
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}
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fn token_stream_for_map(ast_result: &ASTResult, member: &syn::Member, ty_info: &TyInfo) -> Option<TokenStream> {
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let ident = get_member_ident(ast_result, member)?;
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let take_ident = format_ident!("take_{}", ident.to_string());
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let ty = ty_info.ty;
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match ident_category(ty_info.ident) {
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TypeCategory::Protobuf => Some(quote! {
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let mut m: std::collections::HashMap<String, #ty> = std::collections::HashMap::new();
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pb.#take_ident().into_iter().for_each(|(k,v)| {
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m.insert(k.clone(), #ty::from(v));
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});
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o.#member = m;
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}),
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_ => Some(quote! {
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let mut m: std::collections::HashMap<String, #ty> = std::collections::HashMap::new();
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pb.#take_ident().into_iter().for_each(|(k,mut v)| {
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m.insert(k.clone(), v);
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});
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o.#member = m;
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}),
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}
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}
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