#![deny(trivial_numeric_casts)] #![allow( clippy::derive_partial_eq_without_eq, clippy::enum_variant_names, clippy::redundant_field_names, clippy::too_many_lines )] mod bytes; use serde_derive::{Deserialize, Serialize}; use serde_test::{ assert_de_tokens, assert_de_tokens_error, assert_ser_tokens, assert_tokens, Token, }; use std::collections::BTreeMap; use std::marker::PhantomData; // That tests that the derived Serialize implementation doesn't trigger // any warning about `serializer` not being used, in case of empty enums. #[derive(Serialize)] #[allow(dead_code)] #[deny(unused_variables)] enum Void {} #[derive(Debug, PartialEq, Serialize, Deserialize)] struct NamedUnit; #[derive(Debug, PartialEq, Serialize)] struct SerNamedTuple<'a, 'b, A: 'a, B: 'b, C>(&'a A, &'b mut B, C); #[derive(Debug, PartialEq, Deserialize)] struct DeNamedTuple(A, B, C); #[derive(Debug, PartialEq, Serialize)] struct SerNamedMap<'a, 'b, A: 'a, B: 'b, C> { a: &'a A, b: &'b mut B, c: C, } #[derive(Debug, PartialEq, Deserialize)] struct DeNamedMap { a: A, b: B, c: C, } #[derive(Debug, PartialEq, Serialize)] enum SerEnum<'a, B: 'a, C: 'a, D> where D: 'a, { Unit, Seq(i8, B, &'a C, &'a mut D), Map { a: i8, b: B, c: &'a C, d: &'a mut D }, // Make sure we can support more than one variant. _Unit2, _Seq2(i8, B, &'a C, &'a mut D), _Map2 { a: i8, b: B, c: &'a C, d: &'a mut D }, } #[derive(Debug, PartialEq, Serialize, Deserialize)] enum DeEnum { Unit, Seq(i8, B, C, D), Map { a: i8, b: B, c: C, d: D }, // Make sure we can support more than one variant. _Unit2, _Seq2(i8, B, C, D), _Map2 { a: i8, b: B, c: C, d: D }, } #[derive(Serialize)] enum Lifetimes<'a> { LifetimeSeq(&'a i32), NoLifetimeSeq(i32), LifetimeMap { a: &'a i32 }, NoLifetimeMap { a: i32 }, } #[derive(Debug, PartialEq, Serialize, Deserialize)] pub struct GenericStruct { x: T, } #[derive(Debug, PartialEq, Serialize, Deserialize)] pub struct GenericNewTypeStruct(T); #[derive(Debug, PartialEq, Serialize, Deserialize)] pub struct GenericTupleStruct(T, U); #[derive(Debug, PartialEq, Serialize, Deserialize)] pub enum GenericEnum { Unit, NewType(T), Seq(T, U), Map { x: T, y: U }, } trait AssociatedType { type X; } impl AssociatedType for i32 { type X = i32; } #[derive(Debug, PartialEq, Serialize, Deserialize)] struct DefaultTyParam = i32> { phantom: PhantomData, } #[test] fn test_named_unit() { assert_tokens(&NamedUnit, &[Token::UnitStruct { name: "NamedUnit" }]); } #[test] fn test_ser_named_tuple() { let a = 5; let mut b = 6; let c = 7; assert_ser_tokens( &SerNamedTuple(&a, &mut b, c), &[ Token::TupleStruct { name: "SerNamedTuple", len: 3, }, Token::I32(5), Token::I32(6), Token::I32(7), Token::TupleStructEnd, ], ); } #[test] fn test_de_named_tuple() { assert_de_tokens( &DeNamedTuple(5, 6, 7), &[ Token::Seq { len: Some(3) }, Token::I32(5), Token::I32(6), Token::I32(7), Token::SeqEnd, ], ); assert_de_tokens( &DeNamedTuple(5, 6, 7), &[ Token::TupleStruct { name: "DeNamedTuple", len: 3, }, Token::I32(5), Token::I32(6), Token::I32(7), Token::TupleStructEnd, ], ); } #[test] fn test_ser_named_map() { let a = 5; let mut b = 6; let c = 7; assert_ser_tokens( &SerNamedMap { a: &a, b: &mut b, c: c, }, &[ Token::Struct { name: "SerNamedMap", len: 3, }, Token::Str("a"), Token::I32(5), Token::Str("b"), Token::I32(6), Token::Str("c"), Token::I32(7), Token::StructEnd, ], ); } #[test] fn test_de_named_map() { assert_de_tokens( &DeNamedMap { a: 5, b: 6, c: 7 }, &[ Token::Struct { name: "DeNamedMap", len: 3, }, Token::Str("a"), Token::I32(5), Token::Str("b"), Token::I32(6), Token::Str("c"), Token::I32(7), Token::StructEnd, ], ); } #[test] fn test_ser_enum_unit() { assert_ser_tokens( &SerEnum::Unit::, &[Token::UnitVariant { name: "SerEnum", variant: "Unit", }], ); } #[test] fn test_ser_enum_seq() { let a = 1; let b = 2; let c = 3; let mut d = 4; assert_ser_tokens( &SerEnum::Seq(a, b, &c, &mut d), &[ Token::TupleVariant { name: "SerEnum", variant: "Seq", len: 4, }, Token::I8(1), Token::I32(2), Token::I32(3), Token::I32(4), Token::TupleVariantEnd, ], ); } #[test] fn test_ser_enum_map() { let a = 1; let b = 2; let c = 3; let mut d = 4; assert_ser_tokens( &SerEnum::Map { a: a, b: b, c: &c, d: &mut d, }, &[ Token::StructVariant { name: "SerEnum", variant: "Map", len: 4, }, Token::Str("a"), Token::I8(1), Token::Str("b"), Token::I32(2), Token::Str("c"), Token::I32(3), Token::Str("d"), Token::I32(4), Token::StructVariantEnd, ], ); } #[test] fn test_de_enum_unit() { assert_tokens( &DeEnum::Unit::, &[Token::UnitVariant { name: "DeEnum", variant: "Unit", }], ); } #[test] fn test_de_enum_seq() { let a = 1; let b = 2; let c = 3; let d = 4; assert_tokens( &DeEnum::Seq(a, b, c, d), &[ Token::TupleVariant { name: "DeEnum", variant: "Seq", len: 4, }, Token::I8(1), Token::I32(2), Token::I32(3), Token::I32(4), Token::TupleVariantEnd, ], ); } #[test] fn test_de_enum_map() { let a = 1; let b = 2; let c = 3; let d = 4; assert_tokens( &DeEnum::Map { a: a, b: b, c: c, d: d, }, &[ Token::StructVariant { name: "DeEnum", variant: "Map", len: 4, }, Token::Str("a"), Token::I8(1), Token::Str("b"), Token::I32(2), Token::Str("c"), Token::I32(3), Token::Str("d"), Token::I32(4), Token::StructVariantEnd, ], ); } #[test] fn test_lifetimes() { let value = 5; assert_ser_tokens( &Lifetimes::LifetimeSeq(&value), &[ Token::NewtypeVariant { name: "Lifetimes", variant: "LifetimeSeq", }, Token::I32(5), ], ); assert_ser_tokens( &Lifetimes::NoLifetimeSeq(5), &[ Token::NewtypeVariant { name: "Lifetimes", variant: "NoLifetimeSeq", }, Token::I32(5), ], ); assert_ser_tokens( &Lifetimes::LifetimeMap { a: &value }, &[ Token::StructVariant { name: "Lifetimes", variant: "LifetimeMap", len: 1, }, Token::Str("a"), Token::I32(5), Token::StructVariantEnd, ], ); assert_ser_tokens( &Lifetimes::NoLifetimeMap { a: 5 }, &[ Token::StructVariant { name: "Lifetimes", variant: "NoLifetimeMap", len: 1, }, Token::Str("a"), Token::I32(5), Token::StructVariantEnd, ], ); } #[test] fn test_generic_struct() { assert_tokens( &GenericStruct { x: 5u32 }, &[ Token::Struct { name: "GenericStruct", len: 1, }, Token::Str("x"), Token::U32(5), Token::StructEnd, ], ); } #[test] fn test_generic_newtype_struct() { assert_tokens( &GenericNewTypeStruct(5u32), &[ Token::NewtypeStruct { name: "GenericNewTypeStruct", }, Token::U32(5), ], ); } #[test] fn test_untagged_newtype_struct() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(untagged)] enum E { Newtype(GenericNewTypeStruct), Null, } assert_tokens( &E::Newtype(GenericNewTypeStruct(5u32)), &[ Token::NewtypeStruct { name: "GenericNewTypeStruct", }, Token::U32(5), ], ); } #[test] fn test_generic_tuple_struct() { assert_tokens( &GenericTupleStruct(5u32, 6u32), &[ Token::TupleStruct { name: "GenericTupleStruct", len: 2, }, Token::U32(5), Token::U32(6), Token::TupleStructEnd, ], ); } #[test] fn test_generic_enum_unit() { assert_tokens( &GenericEnum::Unit::, &[Token::UnitVariant { name: "GenericEnum", variant: "Unit", }], ); } #[test] fn test_generic_enum_newtype() { assert_tokens( &GenericEnum::NewType::(5), &[ Token::NewtypeVariant { name: "GenericEnum", variant: "NewType", }, Token::U32(5), ], ); } #[test] fn test_generic_enum_seq() { assert_tokens( &GenericEnum::Seq::(5, 6), &[ Token::TupleVariant { name: "GenericEnum", variant: "Seq", len: 2, }, Token::U32(5), Token::U32(6), Token::TupleVariantEnd, ], ); } #[test] fn test_generic_enum_map() { assert_tokens( &GenericEnum::Map:: { x: 5, y: 6 }, &[ Token::StructVariant { name: "GenericEnum", variant: "Map", len: 2, }, Token::Str("x"), Token::U32(5), Token::Str("y"), Token::U32(6), Token::StructVariantEnd, ], ); } #[test] fn test_default_ty_param() { assert_tokens( &DefaultTyParam:: { phantom: PhantomData, }, &[ Token::Struct { name: "DefaultTyParam", len: 1, }, Token::Str("phantom"), Token::UnitStruct { name: "PhantomData", }, Token::StructEnd, ], ); } #[test] fn test_enum_state_field() { #[derive(Debug, PartialEq, Serialize, Deserialize)] enum SomeEnum { Key { key: char, state: bool }, } assert_tokens( &SomeEnum::Key { key: 'a', state: true, }, &[ Token::StructVariant { name: "SomeEnum", variant: "Key", len: 2, }, Token::Str("key"), Token::Char('a'), Token::Str("state"), Token::Bool(true), Token::StructVariantEnd, ], ); } #[test] fn test_untagged_enum() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(untagged)] enum Untagged { A { a: u8 }, B { b: u8 }, C, D(u8), E(String), F(u8, u8), } assert_tokens( &Untagged::A { a: 1 }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("a"), Token::U8(1), Token::StructEnd, ], ); assert_tokens( &Untagged::B { b: 2 }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("b"), Token::U8(2), Token::StructEnd, ], ); // Serializes to unit, deserializes from either depending on format's // preference. assert_tokens(&Untagged::C, &[Token::Unit]); assert_de_tokens(&Untagged::C, &[Token::None]); assert_tokens(&Untagged::D(4), &[Token::U8(4)]); assert_tokens(&Untagged::E("e".to_owned()), &[Token::Str("e")]); assert_tokens( &Untagged::F(1, 2), &[ Token::Tuple { len: 2 }, Token::U8(1), Token::U8(2), Token::TupleEnd, ], ); assert_de_tokens_error::( &[Token::Tuple { len: 1 }, Token::U8(1), Token::TupleEnd], "data did not match any variant of untagged enum Untagged", ); assert_de_tokens_error::( &[ Token::Tuple { len: 3 }, Token::U8(1), Token::U8(2), Token::U8(3), Token::TupleEnd, ], "data did not match any variant of untagged enum Untagged", ); } #[test] fn test_internally_tagged_struct() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(tag = "type")] pub struct Struct { a: u8, } assert_tokens( &Struct { a: 1 }, &[ Token::Struct { name: "Struct", len: 2, }, Token::Str("type"), Token::Str("Struct"), Token::Str("a"), Token::U8(1), Token::StructEnd, ], ); assert_de_tokens( &Struct { a: 1 }, &[ Token::Struct { name: "Struct", len: 1, }, Token::Str("a"), Token::U8(1), Token::StructEnd, ], ); } #[test] fn test_internally_tagged_braced_struct_with_zero_fields() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(tag = "type")] struct S {} assert_tokens( &S {}, &[ Token::Struct { name: "S", len: 1 }, Token::Str("type"), Token::Str("S"), Token::StructEnd, ], ); } #[test] fn test_internally_tagged_struct_with_flattened_field() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(tag = "tag_struct")] pub struct Struct { #[serde(flatten)] pub flat: Enum, } #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(tag = "tag_enum", content = "content")] pub enum Enum { A(u64), } assert_tokens( &Struct { flat: Enum::A(0) }, &[ Token::Map { len: None }, Token::Str("tag_struct"), Token::Str("Struct"), Token::Str("tag_enum"), Token::UnitVariant { name: "Enum", variant: "A", }, Token::Str("content"), Token::U64(0), Token::MapEnd, ], ); assert_de_tokens( &Struct { flat: Enum::A(0) }, &[ Token::Map { len: None }, Token::Str("tag_enum"), Token::Str("A"), Token::Str("content"), Token::U64(0), Token::MapEnd, ], ); } #[test] fn test_untagged_enum_with_flattened_integer_key() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(untagged)] pub enum Untagged { Variant { #[serde(flatten)] map: BTreeMap, }, } assert_tokens( &Untagged::Variant { map: { let mut map = BTreeMap::new(); map.insert(100, "BTreeMap".to_owned()); map }, }, &[ Token::Map { len: None }, Token::U64(100), Token::Str("BTreeMap"), Token::MapEnd, ], ); } #[test] fn test_enum_in_untagged_enum() { #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(untagged)] enum Outer { Inner(Inner), } #[derive(Debug, PartialEq, Serialize, Deserialize)] enum Inner { Unit, Newtype(u8), Tuple(u8, u8), Struct { f: u8 }, } assert_tokens( &Outer::Inner(Inner::Unit), &[Token::UnitVariant { name: "Inner", variant: "Unit", }], ); assert_tokens( &Outer::Inner(Inner::Newtype(1)), &[ Token::NewtypeVariant { name: "Inner", variant: "Newtype", }, Token::U8(1), ], ); assert_tokens( &Outer::Inner(Inner::Tuple(1, 1)), &[ Token::TupleVariant { name: "Inner", variant: "Tuple", len: 2, }, Token::U8(1), Token::U8(1), Token::TupleVariantEnd, ], ); assert_tokens( &Outer::Inner(Inner::Struct { f: 1 }), &[ Token::StructVariant { name: "Inner", variant: "Struct", len: 1, }, Token::Str("f"), Token::U8(1), Token::StructVariantEnd, ], ); } #[test] fn test_untagged_bytes() { #[derive(Debug, PartialEq, Deserialize)] #[serde(untagged)] enum Untagged { String { string: String, }, Bytes { #[serde(with = "bytes")] bytes: Vec, }, } assert_de_tokens( &Untagged::String { string: "\0".to_owned(), }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("string"), Token::Str("\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::String { string: "\0".to_owned(), }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("string"), Token::String("\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::String { string: "\0".to_owned(), }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("string"), Token::Bytes(b"\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::String { string: "\0".to_owned(), }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("string"), Token::ByteBuf(b"\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::Bytes { bytes: vec![0] }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("bytes"), Token::Str("\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::Bytes { bytes: vec![0] }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("bytes"), Token::String("\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::Bytes { bytes: vec![0] }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("bytes"), Token::Bytes(b"\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::Bytes { bytes: vec![0] }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("bytes"), Token::ByteBuf(b"\0"), Token::StructEnd, ], ); assert_de_tokens( &Untagged::Bytes { bytes: vec![0] }, &[ Token::Struct { name: "Untagged", len: 1, }, Token::Str("bytes"), Token::Seq { len: Some(1) }, Token::U8(0), Token::SeqEnd, Token::StructEnd, ], ); } #[test] fn test_rename_all() { #[derive(Serialize, Deserialize, Debug, PartialEq)] #[serde(rename_all = "snake_case")] enum E { #[serde(rename_all = "camelCase")] Serialize { serialize: bool, serialize_seq: bool, }, #[serde(rename_all = "kebab-case")] SerializeSeq { serialize: bool, serialize_seq: bool, }, #[serde(rename_all = "SCREAMING_SNAKE_CASE")] SerializeMap { serialize: bool, serialize_seq: bool, }, } #[derive(Serialize, Deserialize, Debug, PartialEq)] #[serde(rename_all = "PascalCase")] struct S { serialize: bool, serialize_seq: bool, } #[derive(Serialize, Deserialize, Debug, PartialEq)] #[serde(rename_all = "SCREAMING-KEBAB-CASE")] struct ScreamingKebab { serialize: bool, serialize_seq: bool, } assert_tokens( &E::Serialize { serialize: true, serialize_seq: true, }, &[ Token::StructVariant { name: "E", variant: "serialize", len: 2, }, Token::Str("serialize"), Token::Bool(true), Token::Str("serializeSeq"), Token::Bool(true), Token::StructVariantEnd, ], ); assert_tokens( &E::SerializeSeq { serialize: true, serialize_seq: true, }, &[ Token::StructVariant { name: "E", variant: "serialize_seq", len: 2, }, Token::Str("serialize"), Token::Bool(true), Token::Str("serialize-seq"), Token::Bool(true), Token::StructVariantEnd, ], ); assert_tokens( &E::SerializeMap { serialize: true, serialize_seq: true, }, &[ Token::StructVariant { name: "E", variant: "serialize_map", len: 2, }, Token::Str("SERIALIZE"), Token::Bool(true), Token::Str("SERIALIZE_SEQ"), Token::Bool(true), Token::StructVariantEnd, ], ); assert_tokens( &S { serialize: true, serialize_seq: true, }, &[ Token::Struct { name: "S", len: 2 }, Token::Str("Serialize"), Token::Bool(true), Token::Str("SerializeSeq"), Token::Bool(true), Token::StructEnd, ], ); assert_tokens( &ScreamingKebab { serialize: true, serialize_seq: true, }, &[ Token::Struct { name: "ScreamingKebab", len: 2, }, Token::Str("SERIALIZE"), Token::Bool(true), Token::Str("SERIALIZE-SEQ"), Token::Bool(true), Token::StructEnd, ], ); } #[test] fn test_rename_all_fields() { #[derive(Serialize, Deserialize, Debug, PartialEq)] #[serde(rename_all_fields = "kebab-case")] enum E { V1, V2(bool), V3 { a_field: bool, another_field: bool, #[serde(rename = "last-field")] yet_another_field: bool, }, #[serde(rename_all = "snake_case")] V4 { a_field: bool, }, } assert_tokens( &E::V3 { a_field: true, another_field: true, yet_another_field: true, }, &[ Token::StructVariant { name: "E", variant: "V3", len: 3, }, Token::Str("a-field"), Token::Bool(true), Token::Str("another-field"), Token::Bool(true), Token::Str("last-field"), Token::Bool(true), Token::StructVariantEnd, ], ); assert_tokens( &E::V4 { a_field: true }, &[ Token::StructVariant { name: "E", variant: "V4", len: 1, }, Token::Str("a_field"), Token::Bool(true), Token::StructVariantEnd, ], ); } #[test] fn test_untagged_newtype_variant_containing_unit_struct_not_map() { #[derive(Debug, PartialEq, Serialize, Deserialize)] struct Unit; #[derive(Debug, PartialEq, Serialize, Deserialize)] #[serde(untagged)] enum Message { Unit(Unit), Map(BTreeMap), } assert_tokens( &Message::Map(BTreeMap::new()), &[Token::Map { len: Some(0) }, Token::MapEnd], ); } #[test] fn test_packed_struct_can_derive_serialize() { #[derive(Copy, Clone, Serialize)] #[repr(packed, C)] #[allow(dead_code)] struct PackedC { t: f32, } #[derive(Copy, Clone, Serialize)] #[repr(C, packed)] #[allow(dead_code)] struct CPacked { t: f32, } #[derive(Copy, Clone, Serialize)] #[repr(C, packed(2))] #[allow(dead_code)] struct CPacked2 { t: f32, } #[derive(Copy, Clone, Serialize)] #[repr(packed(2), C)] #[allow(dead_code)] struct Packed2C { t: f32, } }