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-rw-r--r--vendor/serde_derive/src/internals/attr.rs1878
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diff --git a/vendor/serde_derive/src/internals/attr.rs b/vendor/serde_derive/src/internals/attr.rs
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+++ b/vendor/serde_derive/src/internals/attr.rs
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+use crate::internals::symbol::*;
+use crate::internals::{ungroup, Ctxt};
+use proc_macro2::{Spacing, Span, TokenStream, TokenTree};
+use quote::ToTokens;
+use std::borrow::Cow;
+use std::collections::BTreeSet;
+use std::iter::FromIterator;
+use syn::meta::ParseNestedMeta;
+use syn::parse::ParseStream;
+use syn::punctuated::Punctuated;
+use syn::{parse_quote, token, Ident, Lifetime, Token};
+
+// This module handles parsing of `#[serde(...)]` attributes. The entrypoints
+// are `attr::Container::from_ast`, `attr::Variant::from_ast`, and
+// `attr::Field::from_ast`. Each returns an instance of the corresponding
+// struct. Note that none of them return a Result. Unrecognized, malformed, or
+// duplicated attributes result in a span_err but otherwise are ignored. The
+// user will see errors simultaneously for all bad attributes in the crate
+// rather than just the first.
+
+pub use crate::internals::case::RenameRule;
+
+struct Attr<'c, T> {
+ cx: &'c Ctxt,
+ name: Symbol,
+ tokens: TokenStream,
+ value: Option<T>,
+}
+
+impl<'c, T> Attr<'c, T> {
+ fn none(cx: &'c Ctxt, name: Symbol) -> Self {
+ Attr {
+ cx,
+ name,
+ tokens: TokenStream::new(),
+ value: None,
+ }
+ }
+
+ fn set<A: ToTokens>(&mut self, obj: A, value: T) {
+ let tokens = obj.into_token_stream();
+
+ if self.value.is_some() {
+ let msg = format!("duplicate serde attribute `{}`", self.name);
+ self.cx.error_spanned_by(tokens, msg);
+ } else {
+ self.tokens = tokens;
+ self.value = Some(value);
+ }
+ }
+
+ fn set_opt<A: ToTokens>(&mut self, obj: A, value: Option<T>) {
+ if let Some(value) = value {
+ self.set(obj, value);
+ }
+ }
+
+ fn set_if_none(&mut self, value: T) {
+ if self.value.is_none() {
+ self.value = Some(value);
+ }
+ }
+
+ fn get(self) -> Option<T> {
+ self.value
+ }
+
+ fn get_with_tokens(self) -> Option<(TokenStream, T)> {
+ match self.value {
+ Some(v) => Some((self.tokens, v)),
+ None => None,
+ }
+ }
+}
+
+struct BoolAttr<'c>(Attr<'c, ()>);
+
+impl<'c> BoolAttr<'c> {
+ fn none(cx: &'c Ctxt, name: Symbol) -> Self {
+ BoolAttr(Attr::none(cx, name))
+ }
+
+ fn set_true<A: ToTokens>(&mut self, obj: A) {
+ self.0.set(obj, ());
+ }
+
+ fn get(&self) -> bool {
+ self.0.value.is_some()
+ }
+}
+
+struct VecAttr<'c, T> {
+ cx: &'c Ctxt,
+ name: Symbol,
+ first_dup_tokens: TokenStream,
+ values: Vec<T>,
+}
+
+impl<'c, T> VecAttr<'c, T> {
+ fn none(cx: &'c Ctxt, name: Symbol) -> Self {
+ VecAttr {
+ cx,
+ name,
+ first_dup_tokens: TokenStream::new(),
+ values: Vec::new(),
+ }
+ }
+
+ fn insert<A: ToTokens>(&mut self, obj: A, value: T) {
+ if self.values.len() == 1 {
+ self.first_dup_tokens = obj.into_token_stream();
+ }
+ self.values.push(value);
+ }
+
+ fn at_most_one(mut self) -> Option<T> {
+ if self.values.len() > 1 {
+ let dup_token = self.first_dup_tokens;
+ let msg = format!("duplicate serde attribute `{}`", self.name);
+ self.cx.error_spanned_by(dup_token, msg);
+ None
+ } else {
+ self.values.pop()
+ }
+ }
+
+ fn get(self) -> Vec<T> {
+ self.values
+ }
+}
+
+pub struct Name {
+ serialize: String,
+ serialize_renamed: bool,
+ deserialize: String,
+ deserialize_renamed: bool,
+ deserialize_aliases: BTreeSet<String>,
+}
+
+fn unraw(ident: &Ident) -> String {
+ ident.to_string().trim_start_matches("r#").to_owned()
+}
+
+impl Name {
+ fn from_attrs(
+ source_name: String,
+ ser_name: Attr<String>,
+ de_name: Attr<String>,
+ de_aliases: Option<VecAttr<String>>,
+ ) -> Name {
+ let mut alias_set = BTreeSet::new();
+ if let Some(de_aliases) = de_aliases {
+ for alias_name in de_aliases.get() {
+ alias_set.insert(alias_name);
+ }
+ }
+
+ let ser_name = ser_name.get();
+ let ser_renamed = ser_name.is_some();
+ let de_name = de_name.get();
+ let de_renamed = de_name.is_some();
+ Name {
+ serialize: ser_name.unwrap_or_else(|| source_name.clone()),
+ serialize_renamed: ser_renamed,
+ deserialize: de_name.unwrap_or(source_name),
+ deserialize_renamed: de_renamed,
+ deserialize_aliases: alias_set,
+ }
+ }
+
+ /// Return the container name for the container when serializing.
+ pub fn serialize_name(&self) -> &str {
+ &self.serialize
+ }
+
+ /// Return the container name for the container when deserializing.
+ pub fn deserialize_name(&self) -> &str {
+ &self.deserialize
+ }
+
+ fn deserialize_aliases(&self) -> &BTreeSet<String> {
+ &self.deserialize_aliases
+ }
+}
+
+#[derive(Copy, Clone)]
+pub struct RenameAllRules {
+ serialize: RenameRule,
+ deserialize: RenameRule,
+}
+
+impl RenameAllRules {
+ /// Returns a new `RenameAllRules` with the individual rules of `self` and
+ /// `other_rules` joined by `RenameRules::or`.
+ pub fn or(self, other_rules: Self) -> Self {
+ Self {
+ serialize: self.serialize.or(other_rules.serialize),
+ deserialize: self.deserialize.or(other_rules.deserialize),
+ }
+ }
+}
+
+/// Represents struct or enum attribute information.
+pub struct Container {
+ name: Name,
+ transparent: bool,
+ deny_unknown_fields: bool,
+ default: Default,
+ rename_all_rules: RenameAllRules,
+ rename_all_fields_rules: RenameAllRules,
+ ser_bound: Option<Vec<syn::WherePredicate>>,
+ de_bound: Option<Vec<syn::WherePredicate>>,
+ tag: TagType,
+ type_from: Option<syn::Type>,
+ type_try_from: Option<syn::Type>,
+ type_into: Option<syn::Type>,
+ remote: Option<syn::Path>,
+ identifier: Identifier,
+ has_flatten: bool,
+ serde_path: Option<syn::Path>,
+ is_packed: bool,
+ /// Error message generated when type can't be deserialized
+ expecting: Option<String>,
+ non_exhaustive: bool,
+}
+
+/// Styles of representing an enum.
+pub enum TagType {
+ /// The default.
+ ///
+ /// ```json
+ /// {"variant1": {"key1": "value1", "key2": "value2"}}
+ /// ```
+ External,
+
+ /// `#[serde(tag = "type")]`
+ ///
+ /// ```json
+ /// {"type": "variant1", "key1": "value1", "key2": "value2"}
+ /// ```
+ Internal { tag: String },
+
+ /// `#[serde(tag = "t", content = "c")]`
+ ///
+ /// ```json
+ /// {"t": "variant1", "c": {"key1": "value1", "key2": "value2"}}
+ /// ```
+ Adjacent { tag: String, content: String },
+
+ /// `#[serde(untagged)]`
+ ///
+ /// ```json
+ /// {"key1": "value1", "key2": "value2"}
+ /// ```
+ None,
+}
+
+/// Whether this enum represents the fields of a struct or the variants of an
+/// enum.
+#[derive(Copy, Clone)]
+pub enum Identifier {
+ /// It does not.
+ No,
+
+ /// This enum represents the fields of a struct. All of the variants must be
+ /// unit variants, except possibly one which is annotated with
+ /// `#[serde(other)]` and is a newtype variant.
+ Field,
+
+ /// This enum represents the variants of an enum. All of the variants must
+ /// be unit variants.
+ Variant,
+}
+
+impl Identifier {
+ #[cfg(feature = "deserialize_in_place")]
+ pub fn is_some(self) -> bool {
+ match self {
+ Identifier::No => false,
+ Identifier::Field | Identifier::Variant => true,
+ }
+ }
+}
+
+impl Container {
+ /// Extract out the `#[serde(...)]` attributes from an item.
+ pub fn from_ast(cx: &Ctxt, item: &syn::DeriveInput) -> Self {
+ let mut ser_name = Attr::none(cx, RENAME);
+ let mut de_name = Attr::none(cx, RENAME);
+ let mut transparent = BoolAttr::none(cx, TRANSPARENT);
+ let mut deny_unknown_fields = BoolAttr::none(cx, DENY_UNKNOWN_FIELDS);
+ let mut default = Attr::none(cx, DEFAULT);
+ let mut rename_all_ser_rule = Attr::none(cx, RENAME_ALL);
+ let mut rename_all_de_rule = Attr::none(cx, RENAME_ALL);
+ let mut rename_all_fields_ser_rule = Attr::none(cx, RENAME_ALL_FIELDS);
+ let mut rename_all_fields_de_rule = Attr::none(cx, RENAME_ALL_FIELDS);
+ let mut ser_bound = Attr::none(cx, BOUND);
+ let mut de_bound = Attr::none(cx, BOUND);
+ let mut untagged = BoolAttr::none(cx, UNTAGGED);
+ let mut internal_tag = Attr::none(cx, TAG);
+ let mut content = Attr::none(cx, CONTENT);
+ let mut type_from = Attr::none(cx, FROM);
+ let mut type_try_from = Attr::none(cx, TRY_FROM);
+ let mut type_into = Attr::none(cx, INTO);
+ let mut remote = Attr::none(cx, REMOTE);
+ let mut field_identifier = BoolAttr::none(cx, FIELD_IDENTIFIER);
+ let mut variant_identifier = BoolAttr::none(cx, VARIANT_IDENTIFIER);
+ let mut serde_path = Attr::none(cx, CRATE);
+ let mut expecting = Attr::none(cx, EXPECTING);
+ let mut non_exhaustive = false;
+
+ for attr in &item.attrs {
+ if attr.path() != SERDE {
+ non_exhaustive |=
+ matches!(&attr.meta, syn::Meta::Path(path) if path == NON_EXHAUSTIVE);
+ continue;
+ }
+
+ if let syn::Meta::List(meta) = &attr.meta {
+ if meta.tokens.is_empty() {
+ continue;
+ }
+ }
+
+ if let Err(err) = attr.parse_nested_meta(|meta| {
+ if meta.path == RENAME {
+ // #[serde(rename = "foo")]
+ // #[serde(rename(serialize = "foo", deserialize = "bar"))]
+ let (ser, de) = get_renames(cx, RENAME, &meta)?;
+ ser_name.set_opt(&meta.path, ser.as_ref().map(syn::LitStr::value));
+ de_name.set_opt(&meta.path, de.as_ref().map(syn::LitStr::value));
+ } else if meta.path == RENAME_ALL {
+ // #[serde(rename_all = "foo")]
+ // #[serde(rename_all(serialize = "foo", deserialize = "bar"))]
+ let one_name = meta.input.peek(Token![=]);
+ let (ser, de) = get_renames(cx, RENAME_ALL, &meta)?;
+ if let Some(ser) = ser {
+ match RenameRule::from_str(&ser.value()) {
+ Ok(rename_rule) => rename_all_ser_rule.set(&meta.path, rename_rule),
+ Err(err) => cx.error_spanned_by(ser, err),
+ }
+ }
+ if let Some(de) = de {
+ match RenameRule::from_str(&de.value()) {
+ Ok(rename_rule) => rename_all_de_rule.set(&meta.path, rename_rule),
+ Err(err) => {
+ if !one_name {
+ cx.error_spanned_by(de, err);
+ }
+ }
+ }
+ }
+ } else if meta.path == RENAME_ALL_FIELDS {
+ // #[serde(rename_all_fields = "foo")]
+ // #[serde(rename_all_fields(serialize = "foo", deserialize = "bar"))]
+ let one_name = meta.input.peek(Token![=]);
+ let (ser, de) = get_renames(cx, RENAME_ALL_FIELDS, &meta)?;
+
+ match item.data {
+ syn::Data::Enum(_) => {
+ if let Some(ser) = ser {
+ match RenameRule::from_str(&ser.value()) {
+ Ok(rename_rule) => {
+ rename_all_fields_ser_rule.set(&meta.path, rename_rule);
+ }
+ Err(err) => cx.error_spanned_by(ser, err),
+ }
+ }
+ if let Some(de) = de {
+ match RenameRule::from_str(&de.value()) {
+ Ok(rename_rule) => {
+ rename_all_fields_de_rule.set(&meta.path, rename_rule);
+ }
+ Err(err) => {
+ if !one_name {
+ cx.error_spanned_by(de, err);
+ }
+ }
+ }
+ }
+ }
+ syn::Data::Struct(_) => {
+ let msg = "#[serde(rename_all_fields)] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ syn::Data::Union(_) => {
+ let msg = "#[serde(rename_all_fields)] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ } else if meta.path == TRANSPARENT {
+ // #[serde(transparent)]
+ transparent.set_true(meta.path);
+ } else if meta.path == DENY_UNKNOWN_FIELDS {
+ // #[serde(deny_unknown_fields)]
+ deny_unknown_fields.set_true(meta.path);
+ } else if meta.path == DEFAULT {
+ if meta.input.peek(Token![=]) {
+ // #[serde(default = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, DEFAULT, &meta)? {
+ match &item.data {
+ syn::Data::Struct(syn::DataStruct { fields, .. }) => match fields {
+ syn::Fields::Named(_) | syn::Fields::Unnamed(_) => {
+ default.set(&meta.path, Default::Path(path));
+ }
+ syn::Fields::Unit => {
+ let msg = "#[serde(default = \"...\")] can only be used on structs that have fields";
+ cx.syn_error(meta.error(msg));
+ }
+ },
+ syn::Data::Enum(_) => {
+ let msg = "#[serde(default = \"...\")] can only be used on structs";
+ cx.syn_error(meta.error(msg));
+ }
+ syn::Data::Union(_) => {
+ let msg = "#[serde(default = \"...\")] can only be used on structs";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ }
+ } else {
+ // #[serde(default)]
+ match &item.data {
+ syn::Data::Struct(syn::DataStruct { fields, .. }) => match fields {
+ syn::Fields::Named(_) | syn::Fields::Unnamed(_) => {
+ default.set(meta.path, Default::Default);
+ }
+ syn::Fields::Unit => {
+ let msg = "#[serde(default)] can only be used on structs that have fields";
+ cx.error_spanned_by(fields, msg);
+ }
+ },
+ syn::Data::Enum(_) => {
+ let msg = "#[serde(default)] can only be used on structs";
+ cx.syn_error(meta.error(msg));
+ }
+ syn::Data::Union(_) => {
+ let msg = "#[serde(default)] can only be used on structs";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ }
+ } else if meta.path == BOUND {
+ // #[serde(bound = "T: SomeBound")]
+ // #[serde(bound(serialize = "...", deserialize = "..."))]
+ let (ser, de) = get_where_predicates(cx, &meta)?;
+ ser_bound.set_opt(&meta.path, ser);
+ de_bound.set_opt(&meta.path, de);
+ } else if meta.path == UNTAGGED {
+ // #[serde(untagged)]
+ match item.data {
+ syn::Data::Enum(_) => {
+ untagged.set_true(&meta.path);
+ }
+ syn::Data::Struct(_) => {
+ let msg = "#[serde(untagged)] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ syn::Data::Union(_) => {
+ let msg = "#[serde(untagged)] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ } else if meta.path == TAG {
+ // #[serde(tag = "type")]
+ if let Some(s) = get_lit_str(cx, TAG, &meta)? {
+ match &item.data {
+ syn::Data::Enum(_) => {
+ internal_tag.set(&meta.path, s.value());
+ }
+ syn::Data::Struct(syn::DataStruct { fields, .. }) => match fields {
+ syn::Fields::Named(_) => {
+ internal_tag.set(&meta.path, s.value());
+ }
+ syn::Fields::Unnamed(_) | syn::Fields::Unit => {
+ let msg = "#[serde(tag = \"...\")] can only be used on enums and structs with named fields";
+ cx.syn_error(meta.error(msg));
+ }
+ },
+ syn::Data::Union(_) => {
+ let msg = "#[serde(tag = \"...\")] can only be used on enums and structs with named fields";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ }
+ } else if meta.path == CONTENT {
+ // #[serde(content = "c")]
+ if let Some(s) = get_lit_str(cx, CONTENT, &meta)? {
+ match &item.data {
+ syn::Data::Enum(_) => {
+ content.set(&meta.path, s.value());
+ }
+ syn::Data::Struct(_) => {
+ let msg = "#[serde(content = \"...\")] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ syn::Data::Union(_) => {
+ let msg = "#[serde(content = \"...\")] can only be used on enums";
+ cx.syn_error(meta.error(msg));
+ }
+ }
+ }
+ } else if meta.path == FROM {
+ // #[serde(from = "Type")]
+ if let Some(from_ty) = parse_lit_into_ty(cx, FROM, &meta)? {
+ type_from.set_opt(&meta.path, Some(from_ty));
+ }
+ } else if meta.path == TRY_FROM {
+ // #[serde(try_from = "Type")]
+ if let Some(try_from_ty) = parse_lit_into_ty(cx, TRY_FROM, &meta)? {
+ type_try_from.set_opt(&meta.path, Some(try_from_ty));
+ }
+ } else if meta.path == INTO {
+ // #[serde(into = "Type")]
+ if let Some(into_ty) = parse_lit_into_ty(cx, INTO, &meta)? {
+ type_into.set_opt(&meta.path, Some(into_ty));
+ }
+ } else if meta.path == REMOTE {
+ // #[serde(remote = "...")]
+ if let Some(path) = parse_lit_into_path(cx, REMOTE, &meta)? {
+ if is_primitive_path(&path, "Self") {
+ remote.set(&meta.path, item.ident.clone().into());
+ } else {
+ remote.set(&meta.path, path);
+ }
+ }
+ } else if meta.path == FIELD_IDENTIFIER {
+ // #[serde(field_identifier)]
+ field_identifier.set_true(&meta.path);
+ } else if meta.path == VARIANT_IDENTIFIER {
+ // #[serde(variant_identifier)]
+ variant_identifier.set_true(&meta.path);
+ } else if meta.path == CRATE {
+ // #[serde(crate = "foo")]
+ if let Some(path) = parse_lit_into_path(cx, CRATE, &meta)? {
+ serde_path.set(&meta.path, path);
+ }
+ } else if meta.path == EXPECTING {
+ // #[serde(expecting = "a message")]
+ if let Some(s) = get_lit_str(cx, EXPECTING, &meta)? {
+ expecting.set(&meta.path, s.value());
+ }
+ } else {
+ let path = meta.path.to_token_stream().to_string().replace(' ', "");
+ return Err(
+ meta.error(format_args!("unknown serde container attribute `{}`", path))
+ );
+ }
+ Ok(())
+ }) {
+ cx.syn_error(err);
+ }
+ }
+
+ let mut is_packed = false;
+ for attr in &item.attrs {
+ if attr.path() == REPR {
+ let _ = attr.parse_args_with(|input: ParseStream| {
+ while let Some(token) = input.parse()? {
+ if let TokenTree::Ident(ident) = token {
+ is_packed |= ident == "packed";
+ }
+ }
+ Ok(())
+ });
+ }
+ }
+
+ Container {
+ name: Name::from_attrs(unraw(&item.ident), ser_name, de_name, None),
+ transparent: transparent.get(),
+ deny_unknown_fields: deny_unknown_fields.get(),
+ default: default.get().unwrap_or(Default::None),
+ rename_all_rules: RenameAllRules {
+ serialize: rename_all_ser_rule.get().unwrap_or(RenameRule::None),
+ deserialize: rename_all_de_rule.get().unwrap_or(RenameRule::None),
+ },
+ rename_all_fields_rules: RenameAllRules {
+ serialize: rename_all_fields_ser_rule.get().unwrap_or(RenameRule::None),
+ deserialize: rename_all_fields_de_rule.get().unwrap_or(RenameRule::None),
+ },
+ ser_bound: ser_bound.get(),
+ de_bound: de_bound.get(),
+ tag: decide_tag(cx, item, untagged, internal_tag, content),
+ type_from: type_from.get(),
+ type_try_from: type_try_from.get(),
+ type_into: type_into.get(),
+ remote: remote.get(),
+ identifier: decide_identifier(cx, item, field_identifier, variant_identifier),
+ has_flatten: false,
+ serde_path: serde_path.get(),
+ is_packed,
+ expecting: expecting.get(),
+ non_exhaustive,
+ }
+ }
+
+ pub fn name(&self) -> &Name {
+ &self.name
+ }
+
+ pub fn rename_all_rules(&self) -> RenameAllRules {
+ self.rename_all_rules
+ }
+
+ pub fn rename_all_fields_rules(&self) -> RenameAllRules {
+ self.rename_all_fields_rules
+ }
+
+ pub fn transparent(&self) -> bool {
+ self.transparent
+ }
+
+ pub fn deny_unknown_fields(&self) -> bool {
+ self.deny_unknown_fields
+ }
+
+ pub fn default(&self) -> &Default {
+ &self.default
+ }
+
+ pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.ser_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.de_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn tag(&self) -> &TagType {
+ &self.tag
+ }
+
+ pub fn type_from(&self) -> Option<&syn::Type> {
+ self.type_from.as_ref()
+ }
+
+ pub fn type_try_from(&self) -> Option<&syn::Type> {
+ self.type_try_from.as_ref()
+ }
+
+ pub fn type_into(&self) -> Option<&syn::Type> {
+ self.type_into.as_ref()
+ }
+
+ pub fn remote(&self) -> Option<&syn::Path> {
+ self.remote.as_ref()
+ }
+
+ pub fn is_packed(&self) -> bool {
+ self.is_packed
+ }
+
+ pub fn identifier(&self) -> Identifier {
+ self.identifier
+ }
+
+ pub fn has_flatten(&self) -> bool {
+ self.has_flatten
+ }
+
+ pub fn mark_has_flatten(&mut self) {
+ self.has_flatten = true;
+ }
+
+ pub fn custom_serde_path(&self) -> Option<&syn::Path> {
+ self.serde_path.as_ref()
+ }
+
+ pub fn serde_path(&self) -> Cow<syn::Path> {
+ self.custom_serde_path()
+ .map_or_else(|| Cow::Owned(parse_quote!(_serde)), Cow::Borrowed)
+ }
+
+ /// Error message generated when type can't be deserialized.
+ /// If `None`, default message will be used
+ pub fn expecting(&self) -> Option<&str> {
+ self.expecting.as_ref().map(String::as_ref)
+ }
+
+ pub fn non_exhaustive(&self) -> bool {
+ self.non_exhaustive
+ }
+}
+
+fn decide_tag(
+ cx: &Ctxt,
+ item: &syn::DeriveInput,
+ untagged: BoolAttr,
+ internal_tag: Attr<String>,
+ content: Attr<String>,
+) -> TagType {
+ match (
+ untagged.0.get_with_tokens(),
+ internal_tag.get_with_tokens(),
+ content.get_with_tokens(),
+ ) {
+ (None, None, None) => TagType::External,
+ (Some(_), None, None) => TagType::None,
+ (None, Some((_, tag)), None) => {
+ // Check that there are no tuple variants.
+ if let syn::Data::Enum(data) = &item.data {
+ for variant in &data.variants {
+ match &variant.fields {
+ syn::Fields::Named(_) | syn::Fields::Unit => {}
+ syn::Fields::Unnamed(fields) => {
+ if fields.unnamed.len() != 1 {
+ let msg =
+ "#[serde(tag = \"...\")] cannot be used with tuple variants";
+ cx.error_spanned_by(variant, msg);
+ break;
+ }
+ }
+ }
+ }
+ }
+ TagType::Internal { tag }
+ }
+ (Some((untagged_tokens, ())), Some((tag_tokens, _)), None) => {
+ let msg = "enum cannot be both untagged and internally tagged";
+ cx.error_spanned_by(untagged_tokens, msg);
+ cx.error_spanned_by(tag_tokens, msg);
+ TagType::External // doesn't matter, will error
+ }
+ (None, None, Some((content_tokens, _))) => {
+ let msg = "#[serde(tag = \"...\", content = \"...\")] must be used together";
+ cx.error_spanned_by(content_tokens, msg);
+ TagType::External
+ }
+ (Some((untagged_tokens, ())), None, Some((content_tokens, _))) => {
+ let msg = "untagged enum cannot have #[serde(content = \"...\")]";
+ cx.error_spanned_by(untagged_tokens, msg);
+ cx.error_spanned_by(content_tokens, msg);
+ TagType::External
+ }
+ (None, Some((_, tag)), Some((_, content))) => TagType::Adjacent { tag, content },
+ (Some((untagged_tokens, ())), Some((tag_tokens, _)), Some((content_tokens, _))) => {
+ let msg = "untagged enum cannot have #[serde(tag = \"...\", content = \"...\")]";
+ cx.error_spanned_by(untagged_tokens, msg);
+ cx.error_spanned_by(tag_tokens, msg);
+ cx.error_spanned_by(content_tokens, msg);
+ TagType::External
+ }
+ }
+}
+
+fn decide_identifier(
+ cx: &Ctxt,
+ item: &syn::DeriveInput,
+ field_identifier: BoolAttr,
+ variant_identifier: BoolAttr,
+) -> Identifier {
+ match (
+ &item.data,
+ field_identifier.0.get_with_tokens(),
+ variant_identifier.0.get_with_tokens(),
+ ) {
+ (_, None, None) => Identifier::No,
+ (_, Some((field_identifier_tokens, ())), Some((variant_identifier_tokens, ()))) => {
+ let msg =
+ "#[serde(field_identifier)] and #[serde(variant_identifier)] cannot both be set";
+ cx.error_spanned_by(field_identifier_tokens, msg);
+ cx.error_spanned_by(variant_identifier_tokens, msg);
+ Identifier::No
+ }
+ (syn::Data::Enum(_), Some(_), None) => Identifier::Field,
+ (syn::Data::Enum(_), None, Some(_)) => Identifier::Variant,
+ (syn::Data::Struct(syn::DataStruct { struct_token, .. }), Some(_), None) => {
+ let msg = "#[serde(field_identifier)] can only be used on an enum";
+ cx.error_spanned_by(struct_token, msg);
+ Identifier::No
+ }
+ (syn::Data::Union(syn::DataUnion { union_token, .. }), Some(_), None) => {
+ let msg = "#[serde(field_identifier)] can only be used on an enum";
+ cx.error_spanned_by(union_token, msg);
+ Identifier::No
+ }
+ (syn::Data::Struct(syn::DataStruct { struct_token, .. }), None, Some(_)) => {
+ let msg = "#[serde(variant_identifier)] can only be used on an enum";
+ cx.error_spanned_by(struct_token, msg);
+ Identifier::No
+ }
+ (syn::Data::Union(syn::DataUnion { union_token, .. }), None, Some(_)) => {
+ let msg = "#[serde(variant_identifier)] can only be used on an enum";
+ cx.error_spanned_by(union_token, msg);
+ Identifier::No
+ }
+ }
+}
+
+/// Represents variant attribute information
+pub struct Variant {
+ name: Name,
+ rename_all_rules: RenameAllRules,
+ ser_bound: Option<Vec<syn::WherePredicate>>,
+ de_bound: Option<Vec<syn::WherePredicate>>,
+ skip_deserializing: bool,
+ skip_serializing: bool,
+ other: bool,
+ serialize_with: Option<syn::ExprPath>,
+ deserialize_with: Option<syn::ExprPath>,
+ borrow: Option<BorrowAttribute>,
+ untagged: bool,
+}
+
+struct BorrowAttribute {
+ path: syn::Path,
+ lifetimes: Option<BTreeSet<syn::Lifetime>>,
+}
+
+impl Variant {
+ pub fn from_ast(cx: &Ctxt, variant: &syn::Variant) -> Self {
+ let mut ser_name = Attr::none(cx, RENAME);
+ let mut de_name = Attr::none(cx, RENAME);
+ let mut de_aliases = VecAttr::none(cx, RENAME);
+ let mut skip_deserializing = BoolAttr::none(cx, SKIP_DESERIALIZING);
+ let mut skip_serializing = BoolAttr::none(cx, SKIP_SERIALIZING);
+ let mut rename_all_ser_rule = Attr::none(cx, RENAME_ALL);
+ let mut rename_all_de_rule = Attr::none(cx, RENAME_ALL);
+ let mut ser_bound = Attr::none(cx, BOUND);
+ let mut de_bound = Attr::none(cx, BOUND);
+ let mut other = BoolAttr::none(cx, OTHER);
+ let mut serialize_with = Attr::none(cx, SERIALIZE_WITH);
+ let mut deserialize_with = Attr::none(cx, DESERIALIZE_WITH);
+ let mut borrow = Attr::none(cx, BORROW);
+ let mut untagged = BoolAttr::none(cx, UNTAGGED);
+
+ for attr in &variant.attrs {
+ if attr.path() != SERDE {
+ continue;
+ }
+
+ if let syn::Meta::List(meta) = &attr.meta {
+ if meta.tokens.is_empty() {
+ continue;
+ }
+ }
+
+ if let Err(err) = attr.parse_nested_meta(|meta| {
+ if meta.path == RENAME {
+ // #[serde(rename = "foo")]
+ // #[serde(rename(serialize = "foo", deserialize = "bar"))]
+ let (ser, de) = get_multiple_renames(cx, &meta)?;
+ ser_name.set_opt(&meta.path, ser.as_ref().map(syn::LitStr::value));
+ for de_value in de {
+ de_name.set_if_none(de_value.value());
+ de_aliases.insert(&meta.path, de_value.value());
+ }
+ } else if meta.path == ALIAS {
+ // #[serde(alias = "foo")]
+ if let Some(s) = get_lit_str(cx, ALIAS, &meta)? {
+ de_aliases.insert(&meta.path, s.value());
+ }
+ } else if meta.path == RENAME_ALL {
+ // #[serde(rename_all = "foo")]
+ // #[serde(rename_all(serialize = "foo", deserialize = "bar"))]
+ let one_name = meta.input.peek(Token![=]);
+ let (ser, de) = get_renames(cx, RENAME_ALL, &meta)?;
+ if let Some(ser) = ser {
+ match RenameRule::from_str(&ser.value()) {
+ Ok(rename_rule) => rename_all_ser_rule.set(&meta.path, rename_rule),
+ Err(err) => cx.error_spanned_by(ser, err),
+ }
+ }
+ if let Some(de) = de {
+ match RenameRule::from_str(&de.value()) {
+ Ok(rename_rule) => rename_all_de_rule.set(&meta.path, rename_rule),
+ Err(err) => {
+ if !one_name {
+ cx.error_spanned_by(de, err);
+ }
+ }
+ }
+ }
+ } else if meta.path == SKIP {
+ // #[serde(skip)]
+ skip_serializing.set_true(&meta.path);
+ skip_deserializing.set_true(&meta.path);
+ } else if meta.path == SKIP_DESERIALIZING {
+ // #[serde(skip_deserializing)]
+ skip_deserializing.set_true(&meta.path);
+ } else if meta.path == SKIP_SERIALIZING {
+ // #[serde(skip_serializing)]
+ skip_serializing.set_true(&meta.path);
+ } else if meta.path == OTHER {
+ // #[serde(other)]
+ other.set_true(&meta.path);
+ } else if meta.path == BOUND {
+ // #[serde(bound = "T: SomeBound")]
+ // #[serde(bound(serialize = "...", deserialize = "..."))]
+ let (ser, de) = get_where_predicates(cx, &meta)?;
+ ser_bound.set_opt(&meta.path, ser);
+ de_bound.set_opt(&meta.path, de);
+ } else if meta.path == WITH {
+ // #[serde(with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, WITH, &meta)? {
+ let mut ser_path = path.clone();
+ ser_path
+ .path
+ .segments
+ .push(Ident::new("serialize", Span::call_site()).into());
+ serialize_with.set(&meta.path, ser_path);
+ let mut de_path = path;
+ de_path
+ .path
+ .segments
+ .push(Ident::new("deserialize", Span::call_site()).into());
+ deserialize_with.set(&meta.path, de_path);
+ }
+ } else if meta.path == SERIALIZE_WITH {
+ // #[serde(serialize_with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, SERIALIZE_WITH, &meta)? {
+ serialize_with.set(&meta.path, path);
+ }
+ } else if meta.path == DESERIALIZE_WITH {
+ // #[serde(deserialize_with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, DESERIALIZE_WITH, &meta)? {
+ deserialize_with.set(&meta.path, path);
+ }
+ } else if meta.path == BORROW {
+ let borrow_attribute = if meta.input.peek(Token![=]) {
+ // #[serde(borrow = "'a + 'b")]
+ let lifetimes = parse_lit_into_lifetimes(cx, &meta)?;
+ BorrowAttribute {
+ path: meta.path.clone(),
+ lifetimes: Some(lifetimes),
+ }
+ } else {
+ // #[serde(borrow)]
+ BorrowAttribute {
+ path: meta.path.clone(),
+ lifetimes: None,
+ }
+ };
+ match &variant.fields {
+ syn::Fields::Unnamed(fields) if fields.unnamed.len() == 1 => {
+ borrow.set(&meta.path, borrow_attribute);
+ }
+ _ => {
+ let msg = "#[serde(borrow)] may only be used on newtype variants";
+ cx.error_spanned_by(variant, msg);
+ }
+ }
+ } else if meta.path == UNTAGGED {
+ untagged.set_true(&meta.path);
+ } else {
+ let path = meta.path.to_token_stream().to_string().replace(' ', "");
+ return Err(
+ meta.error(format_args!("unknown serde variant attribute `{}`", path))
+ );
+ }
+ Ok(())
+ }) {
+ cx.syn_error(err);
+ }
+ }
+
+ Variant {
+ name: Name::from_attrs(unraw(&variant.ident), ser_name, de_name, Some(de_aliases)),
+ rename_all_rules: RenameAllRules {
+ serialize: rename_all_ser_rule.get().unwrap_or(RenameRule::None),
+ deserialize: rename_all_de_rule.get().unwrap_or(RenameRule::None),
+ },
+ ser_bound: ser_bound.get(),
+ de_bound: de_bound.get(),
+ skip_deserializing: skip_deserializing.get(),
+ skip_serializing: skip_serializing.get(),
+ other: other.get(),
+ serialize_with: serialize_with.get(),
+ deserialize_with: deserialize_with.get(),
+ borrow: borrow.get(),
+ untagged: untagged.get(),
+ }
+ }
+
+ pub fn name(&self) -> &Name {
+ &self.name
+ }
+
+ pub fn aliases(&self) -> &BTreeSet<String> {
+ self.name.deserialize_aliases()
+ }
+
+ pub fn rename_by_rules(&mut self, rules: RenameAllRules) {
+ if !self.name.serialize_renamed {
+ self.name.serialize = rules.serialize.apply_to_variant(&self.name.serialize);
+ }
+ if !self.name.deserialize_renamed {
+ self.name.deserialize = rules.deserialize.apply_to_variant(&self.name.deserialize);
+ }
+ self.name
+ .deserialize_aliases
+ .insert(self.name.deserialize.clone());
+ }
+
+ pub fn rename_all_rules(&self) -> RenameAllRules {
+ self.rename_all_rules
+ }
+
+ pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.ser_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.de_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn skip_deserializing(&self) -> bool {
+ self.skip_deserializing
+ }
+
+ pub fn skip_serializing(&self) -> bool {
+ self.skip_serializing
+ }
+
+ pub fn other(&self) -> bool {
+ self.other
+ }
+
+ pub fn serialize_with(&self) -> Option<&syn::ExprPath> {
+ self.serialize_with.as_ref()
+ }
+
+ pub fn deserialize_with(&self) -> Option<&syn::ExprPath> {
+ self.deserialize_with.as_ref()
+ }
+
+ pub fn untagged(&self) -> bool {
+ self.untagged
+ }
+}
+
+/// Represents field attribute information
+pub struct Field {
+ name: Name,
+ skip_serializing: bool,
+ skip_deserializing: bool,
+ skip_serializing_if: Option<syn::ExprPath>,
+ default: Default,
+ serialize_with: Option<syn::ExprPath>,
+ deserialize_with: Option<syn::ExprPath>,
+ ser_bound: Option<Vec<syn::WherePredicate>>,
+ de_bound: Option<Vec<syn::WherePredicate>>,
+ borrowed_lifetimes: BTreeSet<syn::Lifetime>,
+ getter: Option<syn::ExprPath>,
+ flatten: bool,
+ transparent: bool,
+}
+
+/// Represents the default to use for a field when deserializing.
+pub enum Default {
+ /// Field must always be specified because it does not have a default.
+ None,
+ /// The default is given by `std::default::Default::default()`.
+ Default,
+ /// The default is given by this function.
+ Path(syn::ExprPath),
+}
+
+impl Default {
+ pub fn is_none(&self) -> bool {
+ match self {
+ Default::None => true,
+ Default::Default | Default::Path(_) => false,
+ }
+ }
+}
+
+impl Field {
+ /// Extract out the `#[serde(...)]` attributes from a struct field.
+ pub fn from_ast(
+ cx: &Ctxt,
+ index: usize,
+ field: &syn::Field,
+ attrs: Option<&Variant>,
+ container_default: &Default,
+ ) -> Self {
+ let mut ser_name = Attr::none(cx, RENAME);
+ let mut de_name = Attr::none(cx, RENAME);
+ let mut de_aliases = VecAttr::none(cx, RENAME);
+ let mut skip_serializing = BoolAttr::none(cx, SKIP_SERIALIZING);
+ let mut skip_deserializing = BoolAttr::none(cx, SKIP_DESERIALIZING);
+ let mut skip_serializing_if = Attr::none(cx, SKIP_SERIALIZING_IF);
+ let mut default = Attr::none(cx, DEFAULT);
+ let mut serialize_with = Attr::none(cx, SERIALIZE_WITH);
+ let mut deserialize_with = Attr::none(cx, DESERIALIZE_WITH);
+ let mut ser_bound = Attr::none(cx, BOUND);
+ let mut de_bound = Attr::none(cx, BOUND);
+ let mut borrowed_lifetimes = Attr::none(cx, BORROW);
+ let mut getter = Attr::none(cx, GETTER);
+ let mut flatten = BoolAttr::none(cx, FLATTEN);
+
+ let ident = match &field.ident {
+ Some(ident) => unraw(ident),
+ None => index.to_string(),
+ };
+
+ if let Some(borrow_attribute) = attrs.and_then(|variant| variant.borrow.as_ref()) {
+ if let Ok(borrowable) = borrowable_lifetimes(cx, &ident, field) {
+ if let Some(lifetimes) = &borrow_attribute.lifetimes {
+ for lifetime in lifetimes {
+ if !borrowable.contains(lifetime) {
+ let msg =
+ format!("field `{}` does not have lifetime {}", ident, lifetime);
+ cx.error_spanned_by(field, msg);
+ }
+ }
+ borrowed_lifetimes.set(&borrow_attribute.path, lifetimes.clone());
+ } else {
+ borrowed_lifetimes.set(&borrow_attribute.path, borrowable);
+ }
+ }
+ }
+
+ for attr in &field.attrs {
+ if attr.path() != SERDE {
+ continue;
+ }
+
+ if let syn::Meta::List(meta) = &attr.meta {
+ if meta.tokens.is_empty() {
+ continue;
+ }
+ }
+
+ if let Err(err) = attr.parse_nested_meta(|meta| {
+ if meta.path == RENAME {
+ // #[serde(rename = "foo")]
+ // #[serde(rename(serialize = "foo", deserialize = "bar"))]
+ let (ser, de) = get_multiple_renames(cx, &meta)?;
+ ser_name.set_opt(&meta.path, ser.as_ref().map(syn::LitStr::value));
+ for de_value in de {
+ de_name.set_if_none(de_value.value());
+ de_aliases.insert(&meta.path, de_value.value());
+ }
+ } else if meta.path == ALIAS {
+ // #[serde(alias = "foo")]
+ if let Some(s) = get_lit_str(cx, ALIAS, &meta)? {
+ de_aliases.insert(&meta.path, s.value());
+ }
+ } else if meta.path == DEFAULT {
+ if meta.input.peek(Token![=]) {
+ // #[serde(default = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, DEFAULT, &meta)? {
+ default.set(&meta.path, Default::Path(path));
+ }
+ } else {
+ // #[serde(default)]
+ default.set(&meta.path, Default::Default);
+ }
+ } else if meta.path == SKIP_SERIALIZING {
+ // #[serde(skip_serializing)]
+ skip_serializing.set_true(&meta.path);
+ } else if meta.path == SKIP_DESERIALIZING {
+ // #[serde(skip_deserializing)]
+ skip_deserializing.set_true(&meta.path);
+ } else if meta.path == SKIP {
+ // #[serde(skip)]
+ skip_serializing.set_true(&meta.path);
+ skip_deserializing.set_true(&meta.path);
+ } else if meta.path == SKIP_SERIALIZING_IF {
+ // #[serde(skip_serializing_if = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, SKIP_SERIALIZING_IF, &meta)? {
+ skip_serializing_if.set(&meta.path, path);
+ }
+ } else if meta.path == SERIALIZE_WITH {
+ // #[serde(serialize_with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, SERIALIZE_WITH, &meta)? {
+ serialize_with.set(&meta.path, path);
+ }
+ } else if meta.path == DESERIALIZE_WITH {
+ // #[serde(deserialize_with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, DESERIALIZE_WITH, &meta)? {
+ deserialize_with.set(&meta.path, path);
+ }
+ } else if meta.path == WITH {
+ // #[serde(with = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, WITH, &meta)? {
+ let mut ser_path = path.clone();
+ ser_path
+ .path
+ .segments
+ .push(Ident::new("serialize", Span::call_site()).into());
+ serialize_with.set(&meta.path, ser_path);
+ let mut de_path = path;
+ de_path
+ .path
+ .segments
+ .push(Ident::new("deserialize", Span::call_site()).into());
+ deserialize_with.set(&meta.path, de_path);
+ }
+ } else if meta.path == BOUND {
+ // #[serde(bound = "T: SomeBound")]
+ // #[serde(bound(serialize = "...", deserialize = "..."))]
+ let (ser, de) = get_where_predicates(cx, &meta)?;
+ ser_bound.set_opt(&meta.path, ser);
+ de_bound.set_opt(&meta.path, de);
+ } else if meta.path == BORROW {
+ if meta.input.peek(Token![=]) {
+ // #[serde(borrow = "'a + 'b")]
+ let lifetimes = parse_lit_into_lifetimes(cx, &meta)?;
+ if let Ok(borrowable) = borrowable_lifetimes(cx, &ident, field) {
+ for lifetime in &lifetimes {
+ if !borrowable.contains(lifetime) {
+ let msg = format!(
+ "field `{}` does not have lifetime {}",
+ ident, lifetime,
+ );
+ cx.error_spanned_by(field, msg);
+ }
+ }
+ borrowed_lifetimes.set(&meta.path, lifetimes);
+ }
+ } else {
+ // #[serde(borrow)]
+ if let Ok(borrowable) = borrowable_lifetimes(cx, &ident, field) {
+ borrowed_lifetimes.set(&meta.path, borrowable);
+ }
+ }
+ } else if meta.path == GETTER {
+ // #[serde(getter = "...")]
+ if let Some(path) = parse_lit_into_expr_path(cx, GETTER, &meta)? {
+ getter.set(&meta.path, path);
+ }
+ } else if meta.path == FLATTEN {
+ // #[serde(flatten)]
+ flatten.set_true(&meta.path);
+ } else {
+ let path = meta.path.to_token_stream().to_string().replace(' ', "");
+ return Err(
+ meta.error(format_args!("unknown serde field attribute `{}`", path))
+ );
+ }
+ Ok(())
+ }) {
+ cx.syn_error(err);
+ }
+ }
+
+ // Is skip_deserializing, initialize the field to Default::default() unless a
+ // different default is specified by `#[serde(default = "...")]` on
+ // ourselves or our container (e.g. the struct we are in).
+ if let Default::None = *container_default {
+ if skip_deserializing.0.value.is_some() {
+ default.set_if_none(Default::Default);
+ }
+ }
+
+ let mut borrowed_lifetimes = borrowed_lifetimes.get().unwrap_or_default();
+ if !borrowed_lifetimes.is_empty() {
+ // Cow<str> and Cow<[u8]> never borrow by default:
+ //
+ // impl<'de, 'a, T: ?Sized> Deserialize<'de> for Cow<'a, T>
+ //
+ // A #[serde(borrow)] attribute enables borrowing that corresponds
+ // roughly to these impls:
+ //
+ // impl<'de: 'a, 'a> Deserialize<'de> for Cow<'a, str>
+ // impl<'de: 'a, 'a> Deserialize<'de> for Cow<'a, [u8]>
+ if is_cow(&field.ty, is_str) {
+ let mut path = syn::Path {
+ leading_colon: None,
+ segments: Punctuated::new(),
+ };
+ let span = Span::call_site();
+ path.segments.push(Ident::new("_serde", span).into());
+ path.segments.push(Ident::new("__private", span).into());
+ path.segments.push(Ident::new("de", span).into());
+ path.segments
+ .push(Ident::new("borrow_cow_str", span).into());
+ let expr = syn::ExprPath {
+ attrs: Vec::new(),
+ qself: None,
+ path,
+ };
+ deserialize_with.set_if_none(expr);
+ } else if is_cow(&field.ty, is_slice_u8) {
+ let mut path = syn::Path {
+ leading_colon: None,
+ segments: Punctuated::new(),
+ };
+ let span = Span::call_site();
+ path.segments.push(Ident::new("_serde", span).into());
+ path.segments.push(Ident::new("__private", span).into());
+ path.segments.push(Ident::new("de", span).into());
+ path.segments
+ .push(Ident::new("borrow_cow_bytes", span).into());
+ let expr = syn::ExprPath {
+ attrs: Vec::new(),
+ qself: None,
+ path,
+ };
+ deserialize_with.set_if_none(expr);
+ }
+ } else if is_implicitly_borrowed(&field.ty) {
+ // Types &str and &[u8] are always implicitly borrowed. No need for
+ // a #[serde(borrow)].
+ collect_lifetimes(&field.ty, &mut borrowed_lifetimes);
+ }
+
+ Field {
+ name: Name::from_attrs(ident, ser_name, de_name, Some(de_aliases)),
+ skip_serializing: skip_serializing.get(),
+ skip_deserializing: skip_deserializing.get(),
+ skip_serializing_if: skip_serializing_if.get(),
+ default: default.get().unwrap_or(Default::None),
+ serialize_with: serialize_with.get(),
+ deserialize_with: deserialize_with.get(),
+ ser_bound: ser_bound.get(),
+ de_bound: de_bound.get(),
+ borrowed_lifetimes,
+ getter: getter.get(),
+ flatten: flatten.get(),
+ transparent: false,
+ }
+ }
+
+ pub fn name(&self) -> &Name {
+ &self.name
+ }
+
+ pub fn aliases(&self) -> &BTreeSet<String> {
+ self.name.deserialize_aliases()
+ }
+
+ pub fn rename_by_rules(&mut self, rules: RenameAllRules) {
+ if !self.name.serialize_renamed {
+ self.name.serialize = rules.serialize.apply_to_field(&self.name.serialize);
+ }
+ if !self.name.deserialize_renamed {
+ self.name.deserialize = rules.deserialize.apply_to_field(&self.name.deserialize);
+ }
+ self.name
+ .deserialize_aliases
+ .insert(self.name.deserialize.clone());
+ }
+
+ pub fn skip_serializing(&self) -> bool {
+ self.skip_serializing
+ }
+
+ pub fn skip_deserializing(&self) -> bool {
+ self.skip_deserializing
+ }
+
+ pub fn skip_serializing_if(&self) -> Option<&syn::ExprPath> {
+ self.skip_serializing_if.as_ref()
+ }
+
+ pub fn default(&self) -> &Default {
+ &self.default
+ }
+
+ pub fn serialize_with(&self) -> Option<&syn::ExprPath> {
+ self.serialize_with.as_ref()
+ }
+
+ pub fn deserialize_with(&self) -> Option<&syn::ExprPath> {
+ self.deserialize_with.as_ref()
+ }
+
+ pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.ser_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
+ self.de_bound.as_ref().map(|vec| &vec[..])
+ }
+
+ pub fn borrowed_lifetimes(&self) -> &BTreeSet<syn::Lifetime> {
+ &self.borrowed_lifetimes
+ }
+
+ pub fn getter(&self) -> Option<&syn::ExprPath> {
+ self.getter.as_ref()
+ }
+
+ pub fn flatten(&self) -> bool {
+ self.flatten
+ }
+
+ pub fn transparent(&self) -> bool {
+ self.transparent
+ }
+
+ pub fn mark_transparent(&mut self) {
+ self.transparent = true;
+ }
+}
+
+type SerAndDe<T> = (Option<T>, Option<T>);
+
+fn get_ser_and_de<'c, T, F, R>(
+ cx: &'c Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+ f: F,
+) -> syn::Result<(VecAttr<'c, T>, VecAttr<'c, T>)>
+where
+ T: Clone,
+ F: Fn(&Ctxt, Symbol, Symbol, &ParseNestedMeta) -> syn::Result<R>,
+ R: Into<Option<T>>,
+{
+ let mut ser_meta = VecAttr::none(cx, attr_name);
+ let mut de_meta = VecAttr::none(cx, attr_name);
+
+ let lookahead = meta.input.lookahead1();
+ if lookahead.peek(Token![=]) {
+ if let Some(both) = f(cx, attr_name, attr_name, meta)?.into() {
+ ser_meta.insert(&meta.path, both.clone());
+ de_meta.insert(&meta.path, both);
+ }
+ } else if lookahead.peek(token::Paren) {
+ meta.parse_nested_meta(|meta| {
+ if meta.path == SERIALIZE {
+ if let Some(v) = f(cx, attr_name, SERIALIZE, &meta)?.into() {
+ ser_meta.insert(&meta.path, v);
+ }
+ } else if meta.path == DESERIALIZE {
+ if let Some(v) = f(cx, attr_name, DESERIALIZE, &meta)?.into() {
+ de_meta.insert(&meta.path, v);
+ }
+ } else {
+ return Err(meta.error(format_args!(
+ "malformed {0} attribute, expected `{0}(serialize = ..., deserialize = ...)`",
+ attr_name,
+ )));
+ }
+ Ok(())
+ })?;
+ } else {
+ return Err(lookahead.error());
+ }
+
+ Ok((ser_meta, de_meta))
+}
+
+fn get_renames(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<SerAndDe<syn::LitStr>> {
+ let (ser, de) = get_ser_and_de(cx, attr_name, meta, get_lit_str2)?;
+ Ok((ser.at_most_one(), de.at_most_one()))
+}
+
+fn get_multiple_renames(
+ cx: &Ctxt,
+ meta: &ParseNestedMeta,
+) -> syn::Result<(Option<syn::LitStr>, Vec<syn::LitStr>)> {
+ let (ser, de) = get_ser_and_de(cx, RENAME, meta, get_lit_str2)?;
+ Ok((ser.at_most_one(), de.get()))
+}
+
+fn get_where_predicates(
+ cx: &Ctxt,
+ meta: &ParseNestedMeta,
+) -> syn::Result<SerAndDe<Vec<syn::WherePredicate>>> {
+ let (ser, de) = get_ser_and_de(cx, BOUND, meta, parse_lit_into_where)?;
+ Ok((ser.at_most_one(), de.at_most_one()))
+}
+
+fn get_lit_str(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Option<syn::LitStr>> {
+ get_lit_str2(cx, attr_name, attr_name, meta)
+}
+
+fn get_lit_str2(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta_item_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Option<syn::LitStr>> {
+ let expr: syn::Expr = meta.value()?.parse()?;
+ let mut value = &expr;
+ while let syn::Expr::Group(e) = value {
+ value = &e.expr;
+ }
+ if let syn::Expr::Lit(syn::ExprLit {
+ lit: syn::Lit::Str(lit),
+ ..
+ }) = value
+ {
+ let suffix = lit.suffix();
+ if !suffix.is_empty() {
+ cx.error_spanned_by(
+ lit,
+ format!("unexpected suffix `{}` on string literal", suffix),
+ );
+ }
+ Ok(Some(lit.clone()))
+ } else {
+ cx.error_spanned_by(
+ expr,
+ format!(
+ "expected serde {} attribute to be a string: `{} = \"...\"`",
+ attr_name, meta_item_name
+ ),
+ );
+ Ok(None)
+ }
+}
+
+fn parse_lit_into_path(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Option<syn::Path>> {
+ let string = match get_lit_str(cx, attr_name, meta)? {
+ Some(string) => string,
+ None => return Ok(None),
+ };
+
+ Ok(match string.parse() {
+ Ok(path) => Some(path),
+ Err(_) => {
+ cx.error_spanned_by(
+ &string,
+ format!("failed to parse path: {:?}", string.value()),
+ );
+ None
+ }
+ })
+}
+
+fn parse_lit_into_expr_path(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Option<syn::ExprPath>> {
+ let string = match get_lit_str(cx, attr_name, meta)? {
+ Some(string) => string,
+ None => return Ok(None),
+ };
+
+ Ok(match string.parse() {
+ Ok(expr) => Some(expr),
+ Err(_) => {
+ cx.error_spanned_by(
+ &string,
+ format!("failed to parse path: {:?}", string.value()),
+ );
+ None
+ }
+ })
+}
+
+fn parse_lit_into_where(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta_item_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Vec<syn::WherePredicate>> {
+ let string = match get_lit_str2(cx, attr_name, meta_item_name, meta)? {
+ Some(string) => string,
+ None => return Ok(Vec::new()),
+ };
+
+ Ok(
+ match string.parse_with(Punctuated::<syn::WherePredicate, Token![,]>::parse_terminated) {
+ Ok(predicates) => Vec::from_iter(predicates),
+ Err(err) => {
+ cx.error_spanned_by(string, err);
+ Vec::new()
+ }
+ },
+ )
+}
+
+fn parse_lit_into_ty(
+ cx: &Ctxt,
+ attr_name: Symbol,
+ meta: &ParseNestedMeta,
+) -> syn::Result<Option<syn::Type>> {
+ let string = match get_lit_str(cx, attr_name, meta)? {
+ Some(string) => string,
+ None => return Ok(None),
+ };
+
+ Ok(match string.parse() {
+ Ok(ty) => Some(ty),
+ Err(_) => {
+ cx.error_spanned_by(
+ &string,
+ format!("failed to parse type: {} = {:?}", attr_name, string.value()),
+ );
+ None
+ }
+ })
+}
+
+// Parses a string literal like "'a + 'b + 'c" containing a nonempty list of
+// lifetimes separated by `+`.
+fn parse_lit_into_lifetimes(
+ cx: &Ctxt,
+ meta: &ParseNestedMeta,
+) -> syn::Result<BTreeSet<syn::Lifetime>> {
+ let string = match get_lit_str(cx, BORROW, meta)? {
+ Some(string) => string,
+ None => return Ok(BTreeSet::new()),
+ };
+
+ if let Ok(lifetimes) = string.parse_with(|input: ParseStream| {
+ let mut set = BTreeSet::new();
+ while !input.is_empty() {
+ let lifetime: Lifetime = input.parse()?;
+ if !set.insert(lifetime.clone()) {
+ cx.error_spanned_by(
+ &string,
+ format!("duplicate borrowed lifetime `{}`", lifetime),
+ );
+ }
+ if input.is_empty() {
+ break;
+ }
+ input.parse::<Token![+]>()?;
+ }
+ Ok(set)
+ }) {
+ if lifetimes.is_empty() {
+ cx.error_spanned_by(string, "at least one lifetime must be borrowed");
+ }
+ return Ok(lifetimes);
+ }
+
+ cx.error_spanned_by(
+ &string,
+ format!("failed to parse borrowed lifetimes: {:?}", string.value()),
+ );
+ Ok(BTreeSet::new())
+}
+
+fn is_implicitly_borrowed(ty: &syn::Type) -> bool {
+ is_implicitly_borrowed_reference(ty) || is_option(ty, is_implicitly_borrowed_reference)
+}
+
+fn is_implicitly_borrowed_reference(ty: &syn::Type) -> bool {
+ is_reference(ty, is_str) || is_reference(ty, is_slice_u8)
+}
+
+// Whether the type looks like it might be `std::borrow::Cow<T>` where elem="T".
+// This can have false negatives and false positives.
+//
+// False negative:
+//
+// use std::borrow::Cow as Pig;
+//
+// #[derive(Deserialize)]
+// struct S<'a> {
+// #[serde(borrow)]
+// pig: Pig<'a, str>,
+// }
+//
+// False positive:
+//
+// type str = [i16];
+//
+// #[derive(Deserialize)]
+// struct S<'a> {
+// #[serde(borrow)]
+// cow: Cow<'a, str>,
+// }
+fn is_cow(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
+ let path = match ungroup(ty) {
+ syn::Type::Path(ty) => &ty.path,
+ _ => {
+ return false;
+ }
+ };
+ let seg = match path.segments.last() {
+ Some(seg) => seg,
+ None => {
+ return false;
+ }
+ };
+ let args = match &seg.arguments {
+ syn::PathArguments::AngleBracketed(bracketed) => &bracketed.args,
+ _ => {
+ return false;
+ }
+ };
+ seg.ident == "Cow"
+ && args.len() == 2
+ && match (&args[0], &args[1]) {
+ (syn::GenericArgument::Lifetime(_), syn::GenericArgument::Type(arg)) => elem(arg),
+ _ => false,
+ }
+}
+
+fn is_option(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
+ let path = match ungroup(ty) {
+ syn::Type::Path(ty) => &ty.path,
+ _ => {
+ return false;
+ }
+ };
+ let seg = match path.segments.last() {
+ Some(seg) => seg,
+ None => {
+ return false;
+ }
+ };
+ let args = match &seg.arguments {
+ syn::PathArguments::AngleBracketed(bracketed) => &bracketed.args,
+ _ => {
+ return false;
+ }
+ };
+ seg.ident == "Option"
+ && args.len() == 1
+ && match &args[0] {
+ syn::GenericArgument::Type(arg) => elem(arg),
+ _ => false,
+ }
+}
+
+// Whether the type looks like it might be `&T` where elem="T". This can have
+// false negatives and false positives.
+//
+// False negative:
+//
+// type Yarn = str;
+//
+// #[derive(Deserialize)]
+// struct S<'a> {
+// r: &'a Yarn,
+// }
+//
+// False positive:
+//
+// type str = [i16];
+//
+// #[derive(Deserialize)]
+// struct S<'a> {
+// r: &'a str,
+// }
+fn is_reference(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
+ match ungroup(ty) {
+ syn::Type::Reference(ty) => ty.mutability.is_none() && elem(&ty.elem),
+ _ => false,
+ }
+}
+
+fn is_str(ty: &syn::Type) -> bool {
+ is_primitive_type(ty, "str")
+}
+
+fn is_slice_u8(ty: &syn::Type) -> bool {
+ match ungroup(ty) {
+ syn::Type::Slice(ty) => is_primitive_type(&ty.elem, "u8"),
+ _ => false,
+ }
+}
+
+fn is_primitive_type(ty: &syn::Type, primitive: &str) -> bool {
+ match ungroup(ty) {
+ syn::Type::Path(ty) => ty.qself.is_none() && is_primitive_path(&ty.path, primitive),
+ _ => false,
+ }
+}
+
+fn is_primitive_path(path: &syn::Path, primitive: &str) -> bool {
+ path.leading_colon.is_none()
+ && path.segments.len() == 1
+ && path.segments[0].ident == primitive
+ && path.segments[0].arguments.is_empty()
+}
+
+// All lifetimes that this type could borrow from a Deserializer.
+//
+// For example a type `S<'a, 'b>` could borrow `'a` and `'b`. On the other hand
+// a type `for<'a> fn(&'a str)` could not borrow `'a` from the Deserializer.
+//
+// This is used when there is an explicit or implicit `#[serde(borrow)]`
+// attribute on the field so there must be at least one borrowable lifetime.
+fn borrowable_lifetimes(
+ cx: &Ctxt,
+ name: &str,
+ field: &syn::Field,
+) -> Result<BTreeSet<syn::Lifetime>, ()> {
+ let mut lifetimes = BTreeSet::new();
+ collect_lifetimes(&field.ty, &mut lifetimes);
+ if lifetimes.is_empty() {
+ let msg = format!("field `{}` has no lifetimes to borrow", name);
+ cx.error_spanned_by(field, msg);
+ Err(())
+ } else {
+ Ok(lifetimes)
+ }
+}
+
+fn collect_lifetimes(ty: &syn::Type, out: &mut BTreeSet<syn::Lifetime>) {
+ match ty {
+ syn::Type::Slice(ty) => {
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Array(ty) => {
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Ptr(ty) => {
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Reference(ty) => {
+ out.extend(ty.lifetime.iter().cloned());
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Tuple(ty) => {
+ for elem in &ty.elems {
+ collect_lifetimes(elem, out);
+ }
+ }
+ syn::Type::Path(ty) => {
+ if let Some(qself) = &ty.qself {
+ collect_lifetimes(&qself.ty, out);
+ }
+ for seg in &ty.path.segments {
+ if let syn::PathArguments::AngleBracketed(bracketed) = &seg.arguments {
+ for arg in &bracketed.args {
+ match arg {
+ syn::GenericArgument::Lifetime(lifetime) => {
+ out.insert(lifetime.clone());
+ }
+ syn::GenericArgument::Type(ty) => {
+ collect_lifetimes(ty, out);
+ }
+ syn::GenericArgument::AssocType(binding) => {
+ collect_lifetimes(&binding.ty, out);
+ }
+ _ => {}
+ }
+ }
+ }
+ }
+ }
+ syn::Type::Paren(ty) => {
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Group(ty) => {
+ collect_lifetimes(&ty.elem, out);
+ }
+ syn::Type::Macro(ty) => {
+ collect_lifetimes_from_tokens(ty.mac.tokens.clone(), out);
+ }
+ syn::Type::BareFn(_)
+ | syn::Type::Never(_)
+ | syn::Type::TraitObject(_)
+ | syn::Type::ImplTrait(_)
+ | syn::Type::Infer(_)
+ | syn::Type::Verbatim(_) => {}
+
+ #[cfg_attr(all(test, exhaustive), deny(non_exhaustive_omitted_patterns))]
+ _ => {}
+ }
+}
+
+fn collect_lifetimes_from_tokens(tokens: TokenStream, out: &mut BTreeSet<syn::Lifetime>) {
+ let mut iter = tokens.into_iter();
+ while let Some(tt) = iter.next() {
+ match &tt {
+ TokenTree::Punct(op) if op.as_char() == '\'' && op.spacing() == Spacing::Joint => {
+ if let Some(TokenTree::Ident(ident)) = iter.next() {
+ out.insert(syn::Lifetime {
+ apostrophe: op.span(),
+ ident,
+ });
+ }
+ }
+ TokenTree::Group(group) => {
+ let tokens = group.stream();
+ collect_lifetimes_from_tokens(tokens, out);
+ }
+ _ => {}
+ }
+ }
+}