use lib::*; use de::value::{BorrowedBytesDeserializer, BytesDeserializer}; use de::{Deserialize, Deserializer, Error, IntoDeserializer, Visitor}; #[cfg(any(feature = "std", feature = "alloc"))] use de::{DeserializeSeed, MapAccess, Unexpected}; #[cfg(any(feature = "std", feature = "alloc"))] pub use self::content::{ Content, ContentDeserializer, ContentRefDeserializer, EnumDeserializer, InternallyTaggedUnitVisitor, TagContentOtherField, TagContentOtherFieldVisitor, TagOrContentField, TagOrContentFieldVisitor, TaggedContentVisitor, UntaggedUnitVisitor, }; pub use seed::InPlaceSeed; /// If the missing field is of type `Option` then treat is as `None`, /// otherwise it is an error. pub fn missing_field<'de, V, E>(field: &'static str) -> Result where V: Deserialize<'de>, E: Error, { struct MissingFieldDeserializer(&'static str, PhantomData); impl<'de, E> Deserializer<'de> for MissingFieldDeserializer where E: Error, { type Error = E; fn deserialize_any(self, _visitor: V) -> Result where V: Visitor<'de>, { Err(Error::missing_field(self.0)) } fn deserialize_option(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_none() } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } let deserializer = MissingFieldDeserializer(field, PhantomData); Deserialize::deserialize(deserializer) } #[cfg(any(feature = "std", feature = "alloc"))] pub fn borrow_cow_str<'de: 'a, 'a, D, R>(deserializer: D) -> Result where D: Deserializer<'de>, R: From>, { struct CowStrVisitor; impl<'a> Visitor<'a> for CowStrVisitor { type Value = Cow<'a, str>; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("a string") } fn visit_str(self, v: &str) -> Result where E: Error, { Ok(Cow::Owned(v.to_owned())) } fn visit_borrowed_str(self, v: &'a str) -> Result where E: Error, { Ok(Cow::Borrowed(v)) } fn visit_string(self, v: String) -> Result where E: Error, { Ok(Cow::Owned(v)) } fn visit_bytes(self, v: &[u8]) -> Result where E: Error, { match str::from_utf8(v) { Ok(s) => Ok(Cow::Owned(s.to_owned())), Err(_) => Err(Error::invalid_value(Unexpected::Bytes(v), &self)), } } fn visit_borrowed_bytes(self, v: &'a [u8]) -> Result where E: Error, { match str::from_utf8(v) { Ok(s) => Ok(Cow::Borrowed(s)), Err(_) => Err(Error::invalid_value(Unexpected::Bytes(v), &self)), } } fn visit_byte_buf(self, v: Vec) -> Result where E: Error, { match String::from_utf8(v) { Ok(s) => Ok(Cow::Owned(s)), Err(e) => Err(Error::invalid_value( Unexpected::Bytes(&e.into_bytes()), &self, )), } } } deserializer.deserialize_str(CowStrVisitor).map(From::from) } #[cfg(any(feature = "std", feature = "alloc"))] pub fn borrow_cow_bytes<'de: 'a, 'a, D, R>(deserializer: D) -> Result where D: Deserializer<'de>, R: From>, { struct CowBytesVisitor; impl<'a> Visitor<'a> for CowBytesVisitor { type Value = Cow<'a, [u8]>; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("a byte array") } fn visit_str(self, v: &str) -> Result where E: Error, { Ok(Cow::Owned(v.as_bytes().to_vec())) } fn visit_borrowed_str(self, v: &'a str) -> Result where E: Error, { Ok(Cow::Borrowed(v.as_bytes())) } fn visit_string(self, v: String) -> Result where E: Error, { Ok(Cow::Owned(v.into_bytes())) } fn visit_bytes(self, v: &[u8]) -> Result where E: Error, { Ok(Cow::Owned(v.to_vec())) } fn visit_borrowed_bytes(self, v: &'a [u8]) -> Result where E: Error, { Ok(Cow::Borrowed(v)) } fn visit_byte_buf(self, v: Vec) -> Result where E: Error, { Ok(Cow::Owned(v)) } } deserializer .deserialize_bytes(CowBytesVisitor) .map(From::from) } #[cfg(any(feature = "std", feature = "alloc"))] mod content { // This module is private and nothing here should be used outside of // generated code. // // We will iterate on the implementation for a few releases and only have to // worry about backward compatibility for the `untagged` and `tag` attributes // rather than for this entire mechanism. // // This issue is tracking making some of this stuff public: // https://github.com/serde-rs/serde/issues/741 use lib::*; use __private::size_hint; use actually_private; use de::{ self, Deserialize, DeserializeSeed, Deserializer, EnumAccess, Expected, IgnoredAny, MapAccess, SeqAccess, Unexpected, Visitor, }; /// Used from generated code to buffer the contents of the Deserializer when /// deserializing untagged enums and internally tagged enums. /// /// Not public API. Use serde-value instead. #[derive(Debug, Clone)] pub enum Content<'de> { Bool(bool), U8(u8), U16(u16), U32(u32), U64(u64), I8(i8), I16(i16), I32(i32), I64(i64), F32(f32), F64(f64), Char(char), String(String), Str(&'de str), ByteBuf(Vec), Bytes(&'de [u8]), None, Some(Box>), Unit, Newtype(Box>), Seq(Vec>), Map(Vec<(Content<'de>, Content<'de>)>), } impl<'de> Content<'de> { pub fn as_str(&self) -> Option<&str> { match *self { Content::Str(x) => Some(x), Content::String(ref x) => Some(x), Content::Bytes(x) => str::from_utf8(x).ok(), Content::ByteBuf(ref x) => str::from_utf8(x).ok(), _ => None, } } #[cold] fn unexpected(&self) -> Unexpected { match *self { Content::Bool(b) => Unexpected::Bool(b), Content::U8(n) => Unexpected::Unsigned(n as u64), Content::U16(n) => Unexpected::Unsigned(n as u64), Content::U32(n) => Unexpected::Unsigned(n as u64), Content::U64(n) => Unexpected::Unsigned(n), Content::I8(n) => Unexpected::Signed(n as i64), Content::I16(n) => Unexpected::Signed(n as i64), Content::I32(n) => Unexpected::Signed(n as i64), Content::I64(n) => Unexpected::Signed(n), Content::F32(f) => Unexpected::Float(f as f64), Content::F64(f) => Unexpected::Float(f), Content::Char(c) => Unexpected::Char(c), Content::String(ref s) => Unexpected::Str(s), Content::Str(s) => Unexpected::Str(s), Content::ByteBuf(ref b) => Unexpected::Bytes(b), Content::Bytes(b) => Unexpected::Bytes(b), Content::None | Content::Some(_) => Unexpected::Option, Content::Unit => Unexpected::Unit, Content::Newtype(_) => Unexpected::NewtypeStruct, Content::Seq(_) => Unexpected::Seq, Content::Map(_) => Unexpected::Map, } } } impl<'de> Deserialize<'de> for Content<'de> { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { // Untagged and internally tagged enums are only supported in // self-describing formats. let visitor = ContentVisitor { value: PhantomData }; deserializer.__deserialize_content(actually_private::T, visitor) } } struct ContentVisitor<'de> { value: PhantomData>, } impl<'de> ContentVisitor<'de> { fn new() -> Self { ContentVisitor { value: PhantomData } } } impl<'de> Visitor<'de> for ContentVisitor<'de> { type Value = Content<'de>; fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result { fmt.write_str("any value") } fn visit_bool(self, value: bool) -> Result where F: de::Error, { Ok(Content::Bool(value)) } fn visit_i8(self, value: i8) -> Result where F: de::Error, { Ok(Content::I8(value)) } fn visit_i16(self, value: i16) -> Result where F: de::Error, { Ok(Content::I16(value)) } fn visit_i32(self, value: i32) -> Result where F: de::Error, { Ok(Content::I32(value)) } fn visit_i64(self, value: i64) -> Result where F: de::Error, { Ok(Content::I64(value)) } fn visit_u8(self, value: u8) -> Result where F: de::Error, { Ok(Content::U8(value)) } fn visit_u16(self, value: u16) -> Result where F: de::Error, { Ok(Content::U16(value)) } fn visit_u32(self, value: u32) -> Result where F: de::Error, { Ok(Content::U32(value)) } fn visit_u64(self, value: u64) -> Result where F: de::Error, { Ok(Content::U64(value)) } fn visit_f32(self, value: f32) -> Result where F: de::Error, { Ok(Content::F32(value)) } fn visit_f64(self, value: f64) -> Result where F: de::Error, { Ok(Content::F64(value)) } fn visit_char(self, value: char) -> Result where F: de::Error, { Ok(Content::Char(value)) } fn visit_str(self, value: &str) -> Result where F: de::Error, { Ok(Content::String(value.into())) } fn visit_borrowed_str(self, value: &'de str) -> Result where F: de::Error, { Ok(Content::Str(value)) } fn visit_string(self, value: String) -> Result where F: de::Error, { Ok(Content::String(value)) } fn visit_bytes(self, value: &[u8]) -> Result where F: de::Error, { Ok(Content::ByteBuf(value.into())) } fn visit_borrowed_bytes(self, value: &'de [u8]) -> Result where F: de::Error, { Ok(Content::Bytes(value)) } fn visit_byte_buf(self, value: Vec) -> Result where F: de::Error, { Ok(Content::ByteBuf(value)) } fn visit_unit(self) -> Result where F: de::Error, { Ok(Content::Unit) } fn visit_none(self) -> Result where F: de::Error, { Ok(Content::None) } fn visit_some(self, deserializer: D) -> Result where D: Deserializer<'de>, { Deserialize::deserialize(deserializer).map(|v| Content::Some(Box::new(v))) } fn visit_newtype_struct(self, deserializer: D) -> Result where D: Deserializer<'de>, { Deserialize::deserialize(deserializer).map(|v| Content::Newtype(Box::new(v))) } fn visit_seq(self, mut visitor: V) -> Result where V: SeqAccess<'de>, { let mut vec = Vec::with_capacity(size_hint::cautious(visitor.size_hint())); while let Some(e) = try!(visitor.next_element()) { vec.push(e); } Ok(Content::Seq(vec)) } fn visit_map(self, mut visitor: V) -> Result where V: MapAccess<'de>, { let mut vec = Vec::with_capacity(size_hint::cautious(visitor.size_hint())); while let Some(kv) = try!(visitor.next_entry()) { vec.push(kv); } Ok(Content::Map(vec)) } fn visit_enum(self, _visitor: V) -> Result where V: EnumAccess<'de>, { Err(de::Error::custom( "untagged and internally tagged enums do not support enum input", )) } } /// This is the type of the map keys in an internally tagged enum. /// /// Not public API. pub enum TagOrContent<'de> { Tag, Content(Content<'de>), } struct TagOrContentVisitor<'de> { name: &'static str, value: PhantomData>, } impl<'de> TagOrContentVisitor<'de> { fn new(name: &'static str) -> Self { TagOrContentVisitor { name: name, value: PhantomData, } } } impl<'de> DeserializeSeed<'de> for TagOrContentVisitor<'de> { type Value = TagOrContent<'de>; fn deserialize(self, deserializer: D) -> Result where D: Deserializer<'de>, { // Internally tagged enums are only supported in self-describing // formats. deserializer.deserialize_any(self) } } impl<'de> Visitor<'de> for TagOrContentVisitor<'de> { type Value = TagOrContent<'de>; fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result { write!(fmt, "a type tag `{}` or any other value", self.name) } fn visit_bool(self, value: bool) -> Result where F: de::Error, { ContentVisitor::new() .visit_bool(value) .map(TagOrContent::Content) } fn visit_i8(self, value: i8) -> Result where F: de::Error, { ContentVisitor::new() .visit_i8(value) .map(TagOrContent::Content) } fn visit_i16(self, value: i16) -> Result where F: de::Error, { ContentVisitor::new() .visit_i16(value) .map(TagOrContent::Content) } fn visit_i32(self, value: i32) -> Result where F: de::Error, { ContentVisitor::new() .visit_i32(value) .map(TagOrContent::Content) } fn visit_i64(self, value: i64) -> Result where F: de::Error, { ContentVisitor::new() .visit_i64(value) .map(TagOrContent::Content) } fn visit_u8(self, value: u8) -> Result where F: de::Error, { ContentVisitor::new() .visit_u8(value) .map(TagOrContent::Content) } fn visit_u16(self, value: u16) -> Result where F: de::Error, { ContentVisitor::new() .visit_u16(value) .map(TagOrContent::Content) } fn visit_u32(self, value: u32) -> Result where F: de::Error, { ContentVisitor::new() .visit_u32(value) .map(TagOrContent::Content) } fn visit_u64(self, value: u64) -> Result where F: de::Error, { ContentVisitor::new() .visit_u64(value) .map(TagOrContent::Content) } fn visit_f32(self, value: f32) -> Result where F: de::Error, { ContentVisitor::new() .visit_f32(value) .map(TagOrContent::Content) } fn visit_f64(self, value: f64) -> Result where F: de::Error, { ContentVisitor::new() .visit_f64(value) .map(TagOrContent::Content) } fn visit_char(self, value: char) -> Result where F: de::Error, { ContentVisitor::new() .visit_char(value) .map(TagOrContent::Content) } fn visit_str(self, value: &str) -> Result where F: de::Error, { if value == self.name { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_str(value) .map(TagOrContent::Content) } } fn visit_borrowed_str(self, value: &'de str) -> Result where F: de::Error, { if value == self.name { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_borrowed_str(value) .map(TagOrContent::Content) } } fn visit_string(self, value: String) -> Result where F: de::Error, { if value == self.name { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_string(value) .map(TagOrContent::Content) } } fn visit_bytes(self, value: &[u8]) -> Result where F: de::Error, { if value == self.name.as_bytes() { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_bytes(value) .map(TagOrContent::Content) } } fn visit_borrowed_bytes(self, value: &'de [u8]) -> Result where F: de::Error, { if value == self.name.as_bytes() { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_borrowed_bytes(value) .map(TagOrContent::Content) } } fn visit_byte_buf(self, value: Vec) -> Result where F: de::Error, { if value == self.name.as_bytes() { Ok(TagOrContent::Tag) } else { ContentVisitor::new() .visit_byte_buf(value) .map(TagOrContent::Content) } } fn visit_unit(self) -> Result where F: de::Error, { ContentVisitor::new() .visit_unit() .map(TagOrContent::Content) } fn visit_none(self) -> Result where F: de::Error, { ContentVisitor::new() .visit_none() .map(TagOrContent::Content) } fn visit_some(self, deserializer: D) -> Result where D: Deserializer<'de>, { ContentVisitor::new() .visit_some(deserializer) .map(TagOrContent::Content) } fn visit_newtype_struct(self, deserializer: D) -> Result where D: Deserializer<'de>, { ContentVisitor::new() .visit_newtype_struct(deserializer) .map(TagOrContent::Content) } fn visit_seq(self, visitor: V) -> Result where V: SeqAccess<'de>, { ContentVisitor::new() .visit_seq(visitor) .map(TagOrContent::Content) } fn visit_map(self, visitor: V) -> Result where V: MapAccess<'de>, { ContentVisitor::new() .visit_map(visitor) .map(TagOrContent::Content) } fn visit_enum(self, visitor: V) -> Result where V: EnumAccess<'de>, { ContentVisitor::new() .visit_enum(visitor) .map(TagOrContent::Content) } } /// Used by generated code to deserialize an internally tagged enum. /// /// Not public API. pub struct TaggedContent<'de, T> { pub tag: T, pub content: Content<'de>, } /// Not public API. pub struct TaggedContentVisitor<'de, T> { tag_name: &'static str, expecting: &'static str, value: PhantomData>, } impl<'de, T> TaggedContentVisitor<'de, T> { /// Visitor for the content of an internally tagged enum with the given /// tag name. pub fn new(name: &'static str, expecting: &'static str) -> Self { TaggedContentVisitor { tag_name: name, expecting: expecting, value: PhantomData, } } } impl<'de, T> DeserializeSeed<'de> for TaggedContentVisitor<'de, T> where T: Deserialize<'de>, { type Value = TaggedContent<'de, T>; fn deserialize(self, deserializer: D) -> Result where D: Deserializer<'de>, { // Internally tagged enums are only supported in self-describing // formats. deserializer.deserialize_any(self) } } impl<'de, T> Visitor<'de> for TaggedContentVisitor<'de, T> where T: Deserialize<'de>, { type Value = TaggedContent<'de, T>; fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result { fmt.write_str(self.expecting) } fn visit_seq(self, mut seq: S) -> Result where S: SeqAccess<'de>, { let tag = match try!(seq.next_element()) { Some(tag) => tag, None => { return Err(de::Error::missing_field(self.tag_name)); } }; let rest = de::value::SeqAccessDeserializer::new(seq); Ok(TaggedContent { tag: tag, content: try!(Content::deserialize(rest)), }) } fn visit_map(self, mut map: M) -> Result where M: MapAccess<'de>, { let mut tag = None; let mut vec = Vec::with_capacity(size_hint::cautious(map.size_hint())); while let Some(k) = try!(map.next_key_seed(TagOrContentVisitor::new(self.tag_name))) { match k { TagOrContent::Tag => { if tag.is_some() { return Err(de::Error::duplicate_field(self.tag_name)); } tag = Some(try!(map.next_value())); } TagOrContent::Content(k) => { let v = try!(map.next_value()); vec.push((k, v)); } } } match tag { None => Err(de::Error::missing_field(self.tag_name)), Some(tag) => Ok(TaggedContent { tag: tag, content: Content::Map(vec), }), } } } /// Used by generated code to deserialize an adjacently tagged enum. /// /// Not public API. pub enum TagOrContentField { Tag, Content, } /// Not public API. pub struct TagOrContentFieldVisitor { pub tag: &'static str, pub content: &'static str, } impl<'de> DeserializeSeed<'de> for TagOrContentFieldVisitor { type Value = TagOrContentField; fn deserialize(self, deserializer: D) -> Result where D: Deserializer<'de>, { deserializer.deserialize_str(self) } } impl<'de> Visitor<'de> for TagOrContentFieldVisitor { type Value = TagOrContentField; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { write!(formatter, "{:?} or {:?}", self.tag, self.content) } fn visit_str(self, field: &str) -> Result where E: de::Error, { if field == self.tag { Ok(TagOrContentField::Tag) } else if field == self.content { Ok(TagOrContentField::Content) } else { Err(de::Error::invalid_value(Unexpected::Str(field), &self)) } } } /// Used by generated code to deserialize an adjacently tagged enum when /// ignoring unrelated fields is allowed. /// /// Not public API. pub enum TagContentOtherField { Tag, Content, Other, } /// Not public API. pub struct TagContentOtherFieldVisitor { pub tag: &'static str, pub content: &'static str, } impl<'de> DeserializeSeed<'de> for TagContentOtherFieldVisitor { type Value = TagContentOtherField; fn deserialize(self, deserializer: D) -> Result where D: Deserializer<'de>, { deserializer.deserialize_str(self) } } impl<'de> Visitor<'de> for TagContentOtherFieldVisitor { type Value = TagContentOtherField; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { write!( formatter, "{:?}, {:?}, or other ignored fields", self.tag, self.content ) } fn visit_str(self, field: &str) -> Result where E: de::Error, { if field == self.tag { Ok(TagContentOtherField::Tag) } else if field == self.content { Ok(TagContentOtherField::Content) } else { Ok(TagContentOtherField::Other) } } } /// Not public API pub struct ContentDeserializer<'de, E> { content: Content<'de>, err: PhantomData, } impl<'de, E> ContentDeserializer<'de, E> where E: de::Error, { #[cold] fn invalid_type(self, exp: &Expected) -> E { de::Error::invalid_type(self.content.unexpected(), exp) } fn deserialize_integer(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_float(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::F32(v) => visitor.visit_f32(v), Content::F64(v) => visitor.visit_f64(v), Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), _ => Err(self.invalid_type(&visitor)), } } } fn visit_content_seq<'de, V, E>(content: Vec>, visitor: V) -> Result where V: Visitor<'de>, E: de::Error, { let seq = content.into_iter().map(ContentDeserializer::new); let mut seq_visitor = de::value::SeqDeserializer::new(seq); let value = try!(visitor.visit_seq(&mut seq_visitor)); try!(seq_visitor.end()); Ok(value) } fn visit_content_map<'de, V, E>( content: Vec<(Content<'de>, Content<'de>)>, visitor: V, ) -> Result where V: Visitor<'de>, E: de::Error, { let map = content .into_iter() .map(|(k, v)| (ContentDeserializer::new(k), ContentDeserializer::new(v))); let mut map_visitor = de::value::MapDeserializer::new(map); let value = try!(visitor.visit_map(&mut map_visitor)); try!(map_visitor.end()); Ok(value) } /// Used when deserializing an internally tagged enum because the content /// will be used exactly once. impl<'de, E> Deserializer<'de> for ContentDeserializer<'de, E> where E: de::Error, { type Error = E; fn deserialize_any(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Bool(v) => visitor.visit_bool(v), Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), Content::F32(v) => visitor.visit_f32(v), Content::F64(v) => visitor.visit_f64(v), Content::Char(v) => visitor.visit_char(v), Content::String(v) => visitor.visit_string(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(v) => visitor.visit_byte_buf(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::Unit => visitor.visit_unit(), Content::None => visitor.visit_none(), Content::Some(v) => visitor.visit_some(ContentDeserializer::new(*v)), Content::Newtype(v) => visitor.visit_newtype_struct(ContentDeserializer::new(*v)), Content::Seq(v) => visit_content_seq(v, visitor), Content::Map(v) => visit_content_map(v, visitor), } } fn deserialize_bool(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Bool(v) => visitor.visit_bool(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_i8(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i16(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u8(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u16(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_f32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_float(visitor) } fn deserialize_f64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_float(visitor) } fn deserialize_char(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Char(v) => visitor.visit_char(v), Content::String(v) => visitor.visit_string(v), Content::Str(v) => visitor.visit_borrowed_str(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_str(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_string(visitor) } fn deserialize_string(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::String(v) => visitor.visit_string(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(v) => visitor.visit_byte_buf(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_bytes(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_byte_buf(visitor) } fn deserialize_byte_buf(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::String(v) => visitor.visit_string(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(v) => visitor.visit_byte_buf(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::Seq(v) => visit_content_seq(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_option(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::None => visitor.visit_none(), Content::Some(v) => visitor.visit_some(ContentDeserializer::new(*v)), Content::Unit => visitor.visit_unit(), _ => visitor.visit_some(self), } } fn deserialize_unit(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Unit => visitor.visit_unit(), // Allow deserializing newtype variant containing unit. // // #[derive(Deserialize)] // #[serde(tag = "result")] // enum Response { // Success(T), // } // // We want {"result":"Success"} to deserialize into Response<()>. Content::Map(ref v) if v.is_empty() => visitor.visit_unit(), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_unit_struct( self, _name: &'static str, visitor: V, ) -> Result where V: Visitor<'de>, { match self.content { // As a special case, allow deserializing untagged newtype // variant containing unit struct. // // #[derive(Deserialize)] // struct Info; // // #[derive(Deserialize)] // #[serde(tag = "topic")] // enum Message { // Info(Info), // } // // We want {"topic":"Info"} to deserialize even though // ordinarily unit structs do not deserialize from empty map/seq. Content::Map(ref v) if v.is_empty() => visitor.visit_unit(), Content::Seq(ref v) if v.is_empty() => visitor.visit_unit(), _ => self.deserialize_any(visitor), } } fn deserialize_newtype_struct( self, _name: &str, visitor: V, ) -> Result where V: Visitor<'de>, { match self.content { Content::Newtype(v) => visitor.visit_newtype_struct(ContentDeserializer::new(*v)), _ => visitor.visit_newtype_struct(self), } } fn deserialize_seq(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Seq(v) => visit_content_seq(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_tuple(self, _len: usize, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_seq(visitor) } fn deserialize_tuple_struct( self, _name: &'static str, _len: usize, visitor: V, ) -> Result where V: Visitor<'de>, { self.deserialize_seq(visitor) } fn deserialize_map(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::Map(v) => visit_content_map(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_struct( self, _name: &'static str, _fields: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { match self.content { Content::Seq(v) => visit_content_seq(v, visitor), Content::Map(v) => visit_content_map(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_enum( self, _name: &str, _variants: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { let (variant, value) = match self.content { Content::Map(value) => { let mut iter = value.into_iter(); let (variant, value) = match iter.next() { Some(v) => v, None => { return Err(de::Error::invalid_value( de::Unexpected::Map, &"map with a single key", )); } }; // enums are encoded in json as maps with a single key:value pair if iter.next().is_some() { return Err(de::Error::invalid_value( de::Unexpected::Map, &"map with a single key", )); } (variant, Some(value)) } s @ Content::String(_) | s @ Content::Str(_) => (s, None), other => { return Err(de::Error::invalid_type( other.unexpected(), &"string or map", )); } }; visitor.visit_enum(EnumDeserializer::new(variant, value)) } fn deserialize_identifier(self, visitor: V) -> Result where V: Visitor<'de>, { match self.content { Content::String(v) => visitor.visit_string(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(v) => visitor.visit_byte_buf(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::U8(v) => visitor.visit_u8(v), Content::U64(v) => visitor.visit_u64(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_ignored_any(self, visitor: V) -> Result where V: Visitor<'de>, { drop(self); visitor.visit_unit() } fn __deserialize_content( self, _: actually_private::T, visitor: V, ) -> Result, Self::Error> where V: Visitor<'de, Value = Content<'de>>, { let _ = visitor; Ok(self.content) } } impl<'de, E> ContentDeserializer<'de, E> { /// private API, don't use pub fn new(content: Content<'de>) -> Self { ContentDeserializer { content: content, err: PhantomData, } } } pub struct EnumDeserializer<'de, E> where E: de::Error, { variant: Content<'de>, value: Option>, err: PhantomData, } impl<'de, E> EnumDeserializer<'de, E> where E: de::Error, { pub fn new(variant: Content<'de>, value: Option>) -> EnumDeserializer<'de, E> { EnumDeserializer { variant: variant, value: value, err: PhantomData, } } } impl<'de, E> de::EnumAccess<'de> for EnumDeserializer<'de, E> where E: de::Error, { type Error = E; type Variant = VariantDeserializer<'de, Self::Error>; fn variant_seed(self, seed: V) -> Result<(V::Value, Self::Variant), E> where V: de::DeserializeSeed<'de>, { let visitor = VariantDeserializer { value: self.value, err: PhantomData, }; seed.deserialize(ContentDeserializer::new(self.variant)) .map(|v| (v, visitor)) } } pub struct VariantDeserializer<'de, E> where E: de::Error, { value: Option>, err: PhantomData, } impl<'de, E> de::VariantAccess<'de> for VariantDeserializer<'de, E> where E: de::Error, { type Error = E; fn unit_variant(self) -> Result<(), E> { match self.value { Some(value) => de::Deserialize::deserialize(ContentDeserializer::new(value)), None => Ok(()), } } fn newtype_variant_seed(self, seed: T) -> Result where T: de::DeserializeSeed<'de>, { match self.value { Some(value) => seed.deserialize(ContentDeserializer::new(value)), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"newtype variant", )), } } fn tuple_variant(self, _len: usize, visitor: V) -> Result where V: de::Visitor<'de>, { match self.value { Some(Content::Seq(v)) => { de::Deserializer::deserialize_any(SeqDeserializer::new(v), visitor) } Some(other) => Err(de::Error::invalid_type( other.unexpected(), &"tuple variant", )), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"tuple variant", )), } } fn struct_variant( self, _fields: &'static [&'static str], visitor: V, ) -> Result where V: de::Visitor<'de>, { match self.value { Some(Content::Map(v)) => { de::Deserializer::deserialize_any(MapDeserializer::new(v), visitor) } Some(Content::Seq(v)) => { de::Deserializer::deserialize_any(SeqDeserializer::new(v), visitor) } Some(other) => Err(de::Error::invalid_type( other.unexpected(), &"struct variant", )), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"struct variant", )), } } } struct SeqDeserializer<'de, E> where E: de::Error, { iter: > as IntoIterator>::IntoIter, err: PhantomData, } impl<'de, E> SeqDeserializer<'de, E> where E: de::Error, { fn new(vec: Vec>) -> Self { SeqDeserializer { iter: vec.into_iter(), err: PhantomData, } } } impl<'de, E> de::Deserializer<'de> for SeqDeserializer<'de, E> where E: de::Error, { type Error = E; #[inline] fn deserialize_any(mut self, visitor: V) -> Result where V: de::Visitor<'de>, { let len = self.iter.len(); if len == 0 { visitor.visit_unit() } else { let ret = try!(visitor.visit_seq(&mut self)); let remaining = self.iter.len(); if remaining == 0 { Ok(ret) } else { Err(de::Error::invalid_length(len, &"fewer elements in array")) } } } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } impl<'de, E> de::SeqAccess<'de> for SeqDeserializer<'de, E> where E: de::Error, { type Error = E; fn next_element_seed(&mut self, seed: T) -> Result, Self::Error> where T: de::DeserializeSeed<'de>, { match self.iter.next() { Some(value) => seed.deserialize(ContentDeserializer::new(value)).map(Some), None => Ok(None), } } fn size_hint(&self) -> Option { size_hint::from_bounds(&self.iter) } } struct MapDeserializer<'de, E> where E: de::Error, { iter: , Content<'de>)> as IntoIterator>::IntoIter, value: Option>, err: PhantomData, } impl<'de, E> MapDeserializer<'de, E> where E: de::Error, { fn new(map: Vec<(Content<'de>, Content<'de>)>) -> Self { MapDeserializer { iter: map.into_iter(), value: None, err: PhantomData, } } } impl<'de, E> de::MapAccess<'de> for MapDeserializer<'de, E> where E: de::Error, { type Error = E; fn next_key_seed(&mut self, seed: T) -> Result, Self::Error> where T: de::DeserializeSeed<'de>, { match self.iter.next() { Some((key, value)) => { self.value = Some(value); seed.deserialize(ContentDeserializer::new(key)).map(Some) } None => Ok(None), } } fn next_value_seed(&mut self, seed: T) -> Result where T: de::DeserializeSeed<'de>, { match self.value.take() { Some(value) => seed.deserialize(ContentDeserializer::new(value)), None => Err(de::Error::custom("value is missing")), } } fn size_hint(&self) -> Option { size_hint::from_bounds(&self.iter) } } impl<'de, E> de::Deserializer<'de> for MapDeserializer<'de, E> where E: de::Error, { type Error = E; #[inline] fn deserialize_any(self, visitor: V) -> Result where V: de::Visitor<'de>, { visitor.visit_map(self) } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } /// Not public API. pub struct ContentRefDeserializer<'a, 'de: 'a, E> { content: &'a Content<'de>, err: PhantomData, } impl<'a, 'de, E> ContentRefDeserializer<'a, 'de, E> where E: de::Error, { #[cold] fn invalid_type(self, exp: &Expected) -> E { de::Error::invalid_type(self.content.unexpected(), exp) } fn deserialize_integer(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_float(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::F32(v) => visitor.visit_f32(v), Content::F64(v) => visitor.visit_f64(v), Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), _ => Err(self.invalid_type(&visitor)), } } } fn visit_content_seq_ref<'a, 'de, V, E>( content: &'a [Content<'de>], visitor: V, ) -> Result where V: Visitor<'de>, E: de::Error, { let seq = content.iter().map(ContentRefDeserializer::new); let mut seq_visitor = de::value::SeqDeserializer::new(seq); let value = try!(visitor.visit_seq(&mut seq_visitor)); try!(seq_visitor.end()); Ok(value) } fn visit_content_map_ref<'a, 'de, V, E>( content: &'a [(Content<'de>, Content<'de>)], visitor: V, ) -> Result where V: Visitor<'de>, E: de::Error, { let map = content.iter().map(|&(ref k, ref v)| { ( ContentRefDeserializer::new(k), ContentRefDeserializer::new(v), ) }); let mut map_visitor = de::value::MapDeserializer::new(map); let value = try!(visitor.visit_map(&mut map_visitor)); try!(map_visitor.end()); Ok(value) } /// Used when deserializing an untagged enum because the content may need /// to be used more than once. impl<'de, 'a, E> Deserializer<'de> for ContentRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; fn deserialize_any(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Bool(v) => visitor.visit_bool(v), Content::U8(v) => visitor.visit_u8(v), Content::U16(v) => visitor.visit_u16(v), Content::U32(v) => visitor.visit_u32(v), Content::U64(v) => visitor.visit_u64(v), Content::I8(v) => visitor.visit_i8(v), Content::I16(v) => visitor.visit_i16(v), Content::I32(v) => visitor.visit_i32(v), Content::I64(v) => visitor.visit_i64(v), Content::F32(v) => visitor.visit_f32(v), Content::F64(v) => visitor.visit_f64(v), Content::Char(v) => visitor.visit_char(v), Content::String(ref v) => visitor.visit_str(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(ref v) => visitor.visit_bytes(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::Unit => visitor.visit_unit(), Content::None => visitor.visit_none(), Content::Some(ref v) => visitor.visit_some(ContentRefDeserializer::new(v)), Content::Newtype(ref v) => { visitor.visit_newtype_struct(ContentRefDeserializer::new(v)) } Content::Seq(ref v) => visit_content_seq_ref(v, visitor), Content::Map(ref v) => visit_content_map_ref(v, visitor), } } fn deserialize_bool(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Bool(v) => visitor.visit_bool(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_i8(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i16(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_i64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u8(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u16(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_u64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_integer(visitor) } fn deserialize_f32(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_float(visitor) } fn deserialize_f64(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_float(visitor) } fn deserialize_char(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Char(v) => visitor.visit_char(v), Content::String(ref v) => visitor.visit_str(v), Content::Str(v) => visitor.visit_borrowed_str(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_str(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::String(ref v) => visitor.visit_str(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(ref v) => visitor.visit_bytes(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_string(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_str(visitor) } fn deserialize_bytes(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::String(ref v) => visitor.visit_str(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(ref v) => visitor.visit_bytes(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::Seq(ref v) => visit_content_seq_ref(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_byte_buf(self, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_bytes(visitor) } fn deserialize_option(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::None => visitor.visit_none(), Content::Some(ref v) => visitor.visit_some(ContentRefDeserializer::new(v)), Content::Unit => visitor.visit_unit(), _ => visitor.visit_some(self), } } fn deserialize_unit(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Unit => visitor.visit_unit(), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_unit_struct( self, _name: &'static str, visitor: V, ) -> Result where V: Visitor<'de>, { self.deserialize_unit(visitor) } fn deserialize_newtype_struct(self, _name: &str, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Newtype(ref v) => { visitor.visit_newtype_struct(ContentRefDeserializer::new(v)) } _ => visitor.visit_newtype_struct(self), } } fn deserialize_seq(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Seq(ref v) => visit_content_seq_ref(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_tuple(self, _len: usize, visitor: V) -> Result where V: Visitor<'de>, { self.deserialize_seq(visitor) } fn deserialize_tuple_struct( self, _name: &'static str, _len: usize, visitor: V, ) -> Result where V: Visitor<'de>, { self.deserialize_seq(visitor) } fn deserialize_map(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::Map(ref v) => visit_content_map_ref(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_struct( self, _name: &'static str, _fields: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { match *self.content { Content::Seq(ref v) => visit_content_seq_ref(v, visitor), Content::Map(ref v) => visit_content_map_ref(v, visitor), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_enum( self, _name: &str, _variants: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { let (variant, value) = match *self.content { Content::Map(ref value) => { let mut iter = value.iter(); let &(ref variant, ref value) = match iter.next() { Some(v) => v, None => { return Err(de::Error::invalid_value( de::Unexpected::Map, &"map with a single key", )); } }; // enums are encoded in json as maps with a single key:value pair if iter.next().is_some() { return Err(de::Error::invalid_value( de::Unexpected::Map, &"map with a single key", )); } (variant, Some(value)) } ref s @ Content::String(_) | ref s @ Content::Str(_) => (s, None), ref other => { return Err(de::Error::invalid_type( other.unexpected(), &"string or map", )); } }; visitor.visit_enum(EnumRefDeserializer { variant: variant, value: value, err: PhantomData, }) } fn deserialize_identifier(self, visitor: V) -> Result where V: Visitor<'de>, { match *self.content { Content::String(ref v) => visitor.visit_str(v), Content::Str(v) => visitor.visit_borrowed_str(v), Content::ByteBuf(ref v) => visitor.visit_bytes(v), Content::Bytes(v) => visitor.visit_borrowed_bytes(v), Content::U8(v) => visitor.visit_u8(v), Content::U64(v) => visitor.visit_u64(v), _ => Err(self.invalid_type(&visitor)), } } fn deserialize_ignored_any(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_unit() } fn __deserialize_content( self, _: actually_private::T, visitor: V, ) -> Result, Self::Error> where V: Visitor<'de, Value = Content<'de>>, { let _ = visitor; Ok(self.content.clone()) } } impl<'a, 'de, E> ContentRefDeserializer<'a, 'de, E> { /// private API, don't use pub fn new(content: &'a Content<'de>) -> Self { ContentRefDeserializer { content: content, err: PhantomData, } } } struct EnumRefDeserializer<'a, 'de: 'a, E> where E: de::Error, { variant: &'a Content<'de>, value: Option<&'a Content<'de>>, err: PhantomData, } impl<'de, 'a, E> de::EnumAccess<'de> for EnumRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; type Variant = VariantRefDeserializer<'a, 'de, Self::Error>; fn variant_seed(self, seed: V) -> Result<(V::Value, Self::Variant), Self::Error> where V: de::DeserializeSeed<'de>, { let visitor = VariantRefDeserializer { value: self.value, err: PhantomData, }; seed.deserialize(ContentRefDeserializer::new(self.variant)) .map(|v| (v, visitor)) } } struct VariantRefDeserializer<'a, 'de: 'a, E> where E: de::Error, { value: Option<&'a Content<'de>>, err: PhantomData, } impl<'de, 'a, E> de::VariantAccess<'de> for VariantRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; fn unit_variant(self) -> Result<(), E> { match self.value { Some(value) => de::Deserialize::deserialize(ContentRefDeserializer::new(value)), None => Ok(()), } } fn newtype_variant_seed(self, seed: T) -> Result where T: de::DeserializeSeed<'de>, { match self.value { Some(value) => seed.deserialize(ContentRefDeserializer::new(value)), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"newtype variant", )), } } fn tuple_variant(self, _len: usize, visitor: V) -> Result where V: de::Visitor<'de>, { match self.value { Some(&Content::Seq(ref v)) => { de::Deserializer::deserialize_any(SeqRefDeserializer::new(v), visitor) } Some(other) => Err(de::Error::invalid_type( other.unexpected(), &"tuple variant", )), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"tuple variant", )), } } fn struct_variant( self, _fields: &'static [&'static str], visitor: V, ) -> Result where V: de::Visitor<'de>, { match self.value { Some(&Content::Map(ref v)) => { de::Deserializer::deserialize_any(MapRefDeserializer::new(v), visitor) } Some(&Content::Seq(ref v)) => { de::Deserializer::deserialize_any(SeqRefDeserializer::new(v), visitor) } Some(other) => Err(de::Error::invalid_type( other.unexpected(), &"struct variant", )), None => Err(de::Error::invalid_type( de::Unexpected::UnitVariant, &"struct variant", )), } } } struct SeqRefDeserializer<'a, 'de: 'a, E> where E: de::Error, { iter: <&'a [Content<'de>] as IntoIterator>::IntoIter, err: PhantomData, } impl<'a, 'de, E> SeqRefDeserializer<'a, 'de, E> where E: de::Error, { fn new(slice: &'a [Content<'de>]) -> Self { SeqRefDeserializer { iter: slice.iter(), err: PhantomData, } } } impl<'de, 'a, E> de::Deserializer<'de> for SeqRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; #[inline] fn deserialize_any(mut self, visitor: V) -> Result where V: de::Visitor<'de>, { let len = self.iter.len(); if len == 0 { visitor.visit_unit() } else { let ret = try!(visitor.visit_seq(&mut self)); let remaining = self.iter.len(); if remaining == 0 { Ok(ret) } else { Err(de::Error::invalid_length(len, &"fewer elements in array")) } } } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } impl<'de, 'a, E> de::SeqAccess<'de> for SeqRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; fn next_element_seed(&mut self, seed: T) -> Result, Self::Error> where T: de::DeserializeSeed<'de>, { match self.iter.next() { Some(value) => seed .deserialize(ContentRefDeserializer::new(value)) .map(Some), None => Ok(None), } } fn size_hint(&self) -> Option { size_hint::from_bounds(&self.iter) } } struct MapRefDeserializer<'a, 'de: 'a, E> where E: de::Error, { iter: <&'a [(Content<'de>, Content<'de>)] as IntoIterator>::IntoIter, value: Option<&'a Content<'de>>, err: PhantomData, } impl<'a, 'de, E> MapRefDeserializer<'a, 'de, E> where E: de::Error, { fn new(map: &'a [(Content<'de>, Content<'de>)]) -> Self { MapRefDeserializer { iter: map.iter(), value: None, err: PhantomData, } } } impl<'de, 'a, E> de::MapAccess<'de> for MapRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; fn next_key_seed(&mut self, seed: T) -> Result, Self::Error> where T: de::DeserializeSeed<'de>, { match self.iter.next() { Some(&(ref key, ref value)) => { self.value = Some(value); seed.deserialize(ContentRefDeserializer::new(key)).map(Some) } None => Ok(None), } } fn next_value_seed(&mut self, seed: T) -> Result where T: de::DeserializeSeed<'de>, { match self.value.take() { Some(value) => seed.deserialize(ContentRefDeserializer::new(value)), None => Err(de::Error::custom("value is missing")), } } fn size_hint(&self) -> Option { size_hint::from_bounds(&self.iter) } } impl<'de, 'a, E> de::Deserializer<'de> for MapRefDeserializer<'a, 'de, E> where E: de::Error, { type Error = E; #[inline] fn deserialize_any(self, visitor: V) -> Result where V: de::Visitor<'de>, { visitor.visit_map(self) } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } impl<'de, E> de::IntoDeserializer<'de, E> for ContentDeserializer<'de, E> where E: de::Error, { type Deserializer = Self; fn into_deserializer(self) -> Self { self } } impl<'de, 'a, E> de::IntoDeserializer<'de, E> for ContentRefDeserializer<'a, 'de, E> where E: de::Error, { type Deserializer = Self; fn into_deserializer(self) -> Self { self } } /// Visitor for deserializing an internally tagged unit variant. /// /// Not public API. pub struct InternallyTaggedUnitVisitor<'a> { type_name: &'a str, variant_name: &'a str, } impl<'a> InternallyTaggedUnitVisitor<'a> { /// Not public API. pub fn new(type_name: &'a str, variant_name: &'a str) -> Self { InternallyTaggedUnitVisitor { type_name: type_name, variant_name: variant_name, } } } impl<'de, 'a> Visitor<'de> for InternallyTaggedUnitVisitor<'a> { type Value = (); fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { write!( formatter, "unit variant {}::{}", self.type_name, self.variant_name ) } fn visit_seq(self, _: S) -> Result<(), S::Error> where S: SeqAccess<'de>, { Ok(()) } fn visit_map(self, mut access: M) -> Result<(), M::Error> where M: MapAccess<'de>, { while try!(access.next_entry::()).is_some() {} Ok(()) } } /// Visitor for deserializing an untagged unit variant. /// /// Not public API. pub struct UntaggedUnitVisitor<'a> { type_name: &'a str, variant_name: &'a str, } impl<'a> UntaggedUnitVisitor<'a> { /// Not public API. pub fn new(type_name: &'a str, variant_name: &'a str) -> Self { UntaggedUnitVisitor { type_name: type_name, variant_name: variant_name, } } } impl<'de, 'a> Visitor<'de> for UntaggedUnitVisitor<'a> { type Value = (); fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { write!( formatter, "unit variant {}::{}", self.type_name, self.variant_name ) } fn visit_unit(self) -> Result<(), E> where E: de::Error, { Ok(()) } fn visit_none(self) -> Result<(), E> where E: de::Error, { Ok(()) } } } //////////////////////////////////////////////////////////////////////////////// // Like `IntoDeserializer` but also implemented for `&[u8]`. This is used for // the newtype fallthrough case of `field_identifier`. // // #[derive(Deserialize)] // #[serde(field_identifier)] // enum F { // A, // B, // Other(String), // deserialized using IdentifierDeserializer // } pub trait IdentifierDeserializer<'de, E: Error> { type Deserializer: Deserializer<'de, Error = E>; fn from(self) -> Self::Deserializer; } pub struct Borrowed<'de, T: 'de + ?Sized>(pub &'de T); impl<'de, E> IdentifierDeserializer<'de, E> for u64 where E: Error, { type Deserializer = >::Deserializer; fn from(self) -> Self::Deserializer { self.into_deserializer() } } pub struct StrDeserializer<'a, E> { value: &'a str, marker: PhantomData, } impl<'de, 'a, E> Deserializer<'de> for StrDeserializer<'a, E> where E: Error, { type Error = E; fn deserialize_any(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_str(self.value) } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } pub struct BorrowedStrDeserializer<'de, E> { value: &'de str, marker: PhantomData, } impl<'de, E> Deserializer<'de> for BorrowedStrDeserializer<'de, E> where E: Error, { type Error = E; fn deserialize_any(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_borrowed_str(self.value) } forward_to_deserialize_any! { bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string bytes byte_buf option unit unit_struct newtype_struct seq tuple tuple_struct map struct enum identifier ignored_any } } impl<'a, E> IdentifierDeserializer<'a, E> for &'a str where E: Error, { type Deserializer = StrDeserializer<'a, E>; fn from(self) -> Self::Deserializer { StrDeserializer { value: self, marker: PhantomData, } } } impl<'de, E> IdentifierDeserializer<'de, E> for Borrowed<'de, str> where E: Error, { type Deserializer = BorrowedStrDeserializer<'de, E>; fn from(self) -> Self::Deserializer { BorrowedStrDeserializer { value: self.0, marker: PhantomData, } } } impl<'a, E> IdentifierDeserializer<'a, E> for &'a [u8] where E: Error, { type Deserializer = BytesDeserializer<'a, E>; fn from(self) -> Self::Deserializer { BytesDeserializer::new(self) } } impl<'de, E> IdentifierDeserializer<'de, E> for Borrowed<'de, [u8]> where E: Error, { type Deserializer = BorrowedBytesDeserializer<'de, E>; fn from(self) -> Self::Deserializer { BorrowedBytesDeserializer::new(self.0) } } #[cfg(any(feature = "std", feature = "alloc"))] pub struct FlatMapDeserializer<'a, 'de: 'a, E>( pub &'a mut Vec, Content<'de>)>>, pub PhantomData, ); #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> FlatMapDeserializer<'a, 'de, E> where E: Error, { fn deserialize_other() -> Result { Err(Error::custom("can only flatten structs and maps")) } } #[cfg(any(feature = "std", feature = "alloc"))] macro_rules! forward_to_deserialize_other { ($($func:ident ( $($arg:ty),* ))*) => { $( fn $func(self, $(_: $arg,)* _visitor: V) -> Result where V: Visitor<'de>, { Self::deserialize_other() } )* } } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> Deserializer<'de> for FlatMapDeserializer<'a, 'de, E> where E: Error, { type Error = E; fn deserialize_any(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_map(FlatInternallyTaggedAccess { iter: self.0.iter_mut(), pending: None, _marker: PhantomData, }) } fn deserialize_enum( self, name: &'static str, variants: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { for item in self.0.iter_mut() { // items in the vector are nulled out when used. So we can only use // an item if it's still filled in and if the field is one we care // about. let use_item = match *item { None => false, Some((ref c, _)) => c.as_str().map_or(false, |x| variants.contains(&x)), }; if use_item { let (key, value) = item.take().unwrap(); return visitor.visit_enum(EnumDeserializer::new(key, Some(value))); } } Err(Error::custom(format_args!( "no variant of enum {} found in flattened data", name ))) } fn deserialize_map(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_map(FlatMapAccess::new(self.0.iter())) } fn deserialize_struct( self, _: &'static str, fields: &'static [&'static str], visitor: V, ) -> Result where V: Visitor<'de>, { visitor.visit_map(FlatStructAccess::new(self.0.iter_mut(), fields)) } fn deserialize_newtype_struct(self, _name: &str, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_newtype_struct(self) } fn deserialize_option(self, visitor: V) -> Result where V: Visitor<'de>, { match visitor.__private_visit_untagged_option(self) { Ok(value) => Ok(value), Err(()) => Self::deserialize_other(), } } fn deserialize_unit(self, visitor: V) -> Result where V: Visitor<'de>, { visitor.visit_unit() } forward_to_deserialize_other! { deserialize_bool() deserialize_i8() deserialize_i16() deserialize_i32() deserialize_i64() deserialize_u8() deserialize_u16() deserialize_u32() deserialize_u64() deserialize_f32() deserialize_f64() deserialize_char() deserialize_str() deserialize_string() deserialize_bytes() deserialize_byte_buf() deserialize_unit_struct(&'static str) deserialize_seq() deserialize_tuple(usize) deserialize_tuple_struct(&'static str, usize) deserialize_identifier() deserialize_ignored_any() } } #[cfg(any(feature = "std", feature = "alloc"))] pub struct FlatMapAccess<'a, 'de: 'a, E> { iter: slice::Iter<'a, Option<(Content<'de>, Content<'de>)>>, pending_content: Option<&'a Content<'de>>, _marker: PhantomData, } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> FlatMapAccess<'a, 'de, E> { fn new( iter: slice::Iter<'a, Option<(Content<'de>, Content<'de>)>>, ) -> FlatMapAccess<'a, 'de, E> { FlatMapAccess { iter: iter, pending_content: None, _marker: PhantomData, } } } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> MapAccess<'de> for FlatMapAccess<'a, 'de, E> where E: Error, { type Error = E; fn next_key_seed(&mut self, seed: T) -> Result, Self::Error> where T: DeserializeSeed<'de>, { for item in &mut self.iter { // Items in the vector are nulled out when used by a struct. if let Some((ref key, ref content)) = *item { self.pending_content = Some(content); return seed.deserialize(ContentRefDeserializer::new(key)).map(Some); } } Ok(None) } fn next_value_seed(&mut self, seed: T) -> Result where T: DeserializeSeed<'de>, { match self.pending_content.take() { Some(value) => seed.deserialize(ContentRefDeserializer::new(value)), None => Err(Error::custom("value is missing")), } } } #[cfg(any(feature = "std", feature = "alloc"))] pub struct FlatStructAccess<'a, 'de: 'a, E> { iter: slice::IterMut<'a, Option<(Content<'de>, Content<'de>)>>, pending_content: Option>, fields: &'static [&'static str], _marker: PhantomData, } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> FlatStructAccess<'a, 'de, E> { fn new( iter: slice::IterMut<'a, Option<(Content<'de>, Content<'de>)>>, fields: &'static [&'static str], ) -> FlatStructAccess<'a, 'de, E> { FlatStructAccess { iter: iter, pending_content: None, fields: fields, _marker: PhantomData, } } } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> MapAccess<'de> for FlatStructAccess<'a, 'de, E> where E: Error, { type Error = E; fn next_key_seed(&mut self, seed: T) -> Result, Self::Error> where T: DeserializeSeed<'de>, { while let Some(item) = self.iter.next() { // items in the vector are nulled out when used. So we can only use // an item if it's still filled in and if the field is one we care // about. In case we do not know which fields we want, we take them all. let use_item = match *item { None => false, Some((ref c, _)) => c.as_str().map_or(false, |key| self.fields.contains(&key)), }; if use_item { let (key, content) = item.take().unwrap(); self.pending_content = Some(content); return seed.deserialize(ContentDeserializer::new(key)).map(Some); } } Ok(None) } fn next_value_seed(&mut self, seed: T) -> Result where T: DeserializeSeed<'de>, { match self.pending_content.take() { Some(value) => seed.deserialize(ContentDeserializer::new(value)), None => Err(Error::custom("value is missing")), } } } #[cfg(any(feature = "std", feature = "alloc"))] pub struct FlatInternallyTaggedAccess<'a, 'de: 'a, E> { iter: slice::IterMut<'a, Option<(Content<'de>, Content<'de>)>>, pending: Option<&'a Content<'de>>, _marker: PhantomData, } #[cfg(any(feature = "std", feature = "alloc"))] impl<'a, 'de, E> MapAccess<'de> for FlatInternallyTaggedAccess<'a, 'de, E> where E: Error, { type Error = E; fn next_key_seed(&mut self, seed: T) -> Result, Self::Error> where T: DeserializeSeed<'de>, { for item in &mut self.iter { if let Some((ref key, ref content)) = *item { // Do not take(), instead borrow this entry. The internally tagged // enum does its own buffering so we can't tell whether this entry // is going to be consumed. Borrowing here leaves the entry // available for later flattened fields. self.pending = Some(content); return seed.deserialize(ContentRefDeserializer::new(key)).map(Some); } } Ok(None) } fn next_value_seed(&mut self, seed: T) -> Result where T: DeserializeSeed<'de>, { match self.pending.take() { Some(value) => seed.deserialize(ContentRefDeserializer::new(value)), None => panic!("value is missing"), } } }