#![allow( clippy::decimal_literal_representation, clippy::empty_enum, clippy::manual_assert, clippy::needless_pass_by_value, clippy::unreadable_literal )] #![cfg_attr(feature = "unstable", feature(never_type))] use std::collections::{BTreeMap, BTreeSet, HashMap, HashSet}; use std::default::Default; use std::ffi::{CStr, CString, OsString}; use std::fmt::Debug; use std::net; use std::num::Wrapping; use std::ops::Bound; use std::path::{Path, PathBuf}; use std::rc::{Rc, Weak as RcWeak}; use std::sync::atomic::{ AtomicBool, AtomicI16, AtomicI32, AtomicI8, AtomicIsize, AtomicU16, AtomicU32, AtomicU8, AtomicUsize, Ordering, }; use std::sync::{Arc, Weak as ArcWeak}; use std::time::{Duration, SystemTime, UNIX_EPOCH}; #[cfg(target_arch = "x86_64")] use std::sync::atomic::{AtomicI64, AtomicU64}; use fnv::FnvHasher; use serde::de::DeserializeOwned; use serde::{Deserialize, Deserializer}; use serde_test::{assert_de_tokens, assert_de_tokens_error, Configure, Token}; #[macro_use] mod macros; ////////////////////////////////////////////////////////////////////////// #[derive(Copy, Clone, PartialEq, Debug, Deserialize)] struct UnitStruct; #[derive(PartialEq, Debug, Deserialize)] struct NewtypeStruct(i32); #[derive(PartialEq, Debug, Deserialize)] struct TupleStruct(i32, i32, i32); #[derive(PartialEq, Debug, Deserialize)] struct Struct { a: i32, b: i32, #[serde(skip_deserializing)] c: i32, } #[derive(PartialEq, Debug, Deserialize)] #[serde(deny_unknown_fields)] struct StructDenyUnknown { a: i32, #[serde(skip_deserializing)] b: i32, } #[derive(PartialEq, Debug, Deserialize)] #[serde(default)] struct StructDefault { a: i32, b: T, } impl Default for StructDefault { fn default() -> Self { StructDefault { a: 100, b: "default".to_string(), } } } #[derive(PartialEq, Debug, Deserialize)] struct StructSkipAll { #[serde(skip_deserializing)] a: i32, } #[derive(PartialEq, Debug, Deserialize)] #[serde(default)] struct StructSkipDefault { #[serde(skip_deserializing)] a: i32, } #[derive(PartialEq, Debug, Deserialize)] #[serde(default)] struct StructSkipDefaultGeneric { #[serde(skip_deserializing)] t: T, } impl Default for StructSkipDefault { fn default() -> Self { StructSkipDefault { a: 16 } } } #[derive(PartialEq, Debug, Deserialize)] #[serde(deny_unknown_fields)] struct StructSkipAllDenyUnknown { #[serde(skip_deserializing)] a: i32, } #[derive(Default, PartialEq, Debug)] struct NotDeserializable; #[derive(PartialEq, Debug, Deserialize)] enum Enum { #[allow(dead_code)] #[serde(skip_deserializing)] Skipped, Unit, Simple(i32), Seq(i32, i32, i32), Map { a: i32, b: i32, c: i32, }, SimpleWithSkipped(#[serde(skip_deserializing)] NotDeserializable), } #[derive(PartialEq, Debug, Deserialize)] enum EnumSkipAll { #[allow(dead_code)] #[serde(skip_deserializing)] Skipped, } #[derive(PartialEq, Debug, Deserialize)] enum EnumOther { Unit, #[serde(other)] Other, } #[derive(PartialEq, Debug)] struct IgnoredAny; impl<'de> Deserialize<'de> for IgnoredAny { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { serde::de::IgnoredAny::deserialize(deserializer)?; Ok(IgnoredAny) } } ////////////////////////////////////////////////////////////////////////// #[track_caller] fn test<'de>(value: impl Deserialize<'de> + PartialEq + Debug, tokens: &'de [Token]) { // Test ser/de roundtripping assert_de_tokens(&value, tokens); // Test that the tokens are ignorable assert_de_tokens_ignore(tokens); } macro_rules! declare_error_tests { ($( $(#[$cfg:meta])* $name:ident<$target:ty> { $tokens:expr, $expected:expr, } )+) => { $( $(#[$cfg])* #[test] fn $name() { assert_de_tokens_error::<$target>($tokens, $expected); } )+ } } #[derive(Debug)] struct SkipPartialEq(T); impl<'de, T> Deserialize<'de> for SkipPartialEq where T: Deserialize<'de>, { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { T::deserialize(deserializer).map(SkipPartialEq) } } impl PartialEq for SkipPartialEq { fn eq(&self, _other: &Self) -> bool { true } } #[track_caller] fn assert_de_tokens_ignore(ignorable_tokens: &[Token]) { #[derive(PartialEq, Debug, Deserialize)] struct IgnoreBase { a: i32, } // Embed the tokens to be ignored in the normal token // stream for an IgnoreBase type let concated_tokens: Vec = vec![ Token::Map { len: Some(2) }, Token::Str("a"), Token::I32(1), Token::Str("ignored"), ] .into_iter() .chain(ignorable_tokens.iter().copied()) .chain(vec![Token::MapEnd].into_iter()) .collect(); let mut de = serde_test::Deserializer::new(&concated_tokens); let base = IgnoreBase::deserialize(&mut de).unwrap(); assert_eq!(base, IgnoreBase { a: 1 }); } ////////////////////////////////////////////////////////////////////////// #[test] fn test_bool() { test(true, &[Token::Bool(true)]); test(false, &[Token::Bool(false)]); } #[test] fn test_isize() { test(0isize, &[Token::I8(0)]); test(0isize, &[Token::I16(0)]); test(0isize, &[Token::I32(0)]); test(0isize, &[Token::I64(0)]); test(0isize, &[Token::U8(0)]); test(0isize, &[Token::U16(0)]); test(0isize, &[Token::U32(0)]); test(0isize, &[Token::U64(0)]); } #[test] fn test_ints() { test(0i8, &[Token::I8(0)]); test(0i16, &[Token::I16(0)]); test(0i32, &[Token::I32(0)]); test(0i64, &[Token::I64(0)]); } #[test] fn test_uints() { test(0u8, &[Token::U8(0)]); test(0u16, &[Token::U16(0)]); test(0u32, &[Token::U32(0)]); test(0u64, &[Token::U64(0)]); } #[test] fn test_floats() { test(0f32, &[Token::F32(0.)]); test(0f64, &[Token::F64(0.)]); } #[test] fn test_small_int_to_128() { test(1i128, &[Token::I8(1)]); test(1i128, &[Token::I16(1)]); test(1i128, &[Token::I32(1)]); test(1i128, &[Token::I64(1)]); test(1i128, &[Token::U8(1)]); test(1i128, &[Token::U16(1)]); test(1i128, &[Token::U32(1)]); test(1i128, &[Token::U64(1)]); test(1u128, &[Token::I8(1)]); test(1u128, &[Token::I16(1)]); test(1u128, &[Token::I32(1)]); test(1u128, &[Token::I64(1)]); test(1u128, &[Token::U8(1)]); test(1u128, &[Token::U16(1)]); test(1u128, &[Token::U32(1)]); test(1u128, &[Token::U64(1)]); } #[test] fn test_char() { test('a', &[Token::Char('a')]); test('a', &[Token::Str("a")]); test('a', &[Token::String("a")]); } #[test] fn test_string() { test("abc".to_owned(), &[Token::Str("abc")]); test("abc".to_owned(), &[Token::String("abc")]); test("a".to_owned(), &[Token::Char('a')]); } #[test] fn test_option() { test(None::, &[Token::Unit]); test(None::, &[Token::None]); test(Some(1), &[Token::Some, Token::I32(1)]); } #[test] fn test_result() { test( Ok::(0), &[ Token::Enum { name: "Result" }, Token::Str("Ok"), Token::I32(0), ], ); test( Err::(1), &[ Token::Enum { name: "Result" }, Token::Str("Err"), Token::I32(1), ], ); } #[test] fn test_unit() { test((), &[Token::Unit]); } #[test] fn test_unit_struct() { test(UnitStruct, &[Token::Unit]); test(UnitStruct, &[Token::UnitStruct { name: "UnitStruct" }]); } #[test] fn test_newtype_struct() { test( NewtypeStruct(1), &[ Token::NewtypeStruct { name: "NewtypeStruct", }, Token::I32(1), ], ); } #[test] fn test_tuple_struct() { test( TupleStruct(1, 2, 3), &[ Token::Seq { len: Some(3) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::SeqEnd, ], ); test( TupleStruct(1, 2, 3), &[ Token::Seq { len: None }, Token::I32(1), Token::I32(2), Token::I32(3), Token::SeqEnd, ], ); test( TupleStruct(1, 2, 3), &[ Token::TupleStruct { name: "TupleStruct", len: 3, }, Token::I32(1), Token::I32(2), Token::I32(3), Token::TupleStructEnd, ], ); test( TupleStruct(1, 2, 3), &[ Token::TupleStruct { name: "TupleStruct", len: 3, }, Token::I32(1), Token::I32(2), Token::I32(3), Token::TupleStructEnd, ], ); } #[test] fn test_btreeset() { test( BTreeSet::::new(), &[Token::Seq { len: Some(0) }, Token::SeqEnd], ); test( btreeset![btreeset![], btreeset![1], btreeset![2, 3]], &[ Token::Seq { len: Some(3) }, Token::Seq { len: Some(0) }, Token::SeqEnd, Token::Seq { len: Some(1) }, Token::I32(1), Token::SeqEnd, Token::Seq { len: Some(2) }, Token::I32(2), Token::I32(3), Token::SeqEnd, Token::SeqEnd, ], ); test( BTreeSet::::new(), &[ Token::TupleStruct { name: "Anything", len: 0, }, Token::TupleStructEnd, ], ); } #[test] fn test_hashset() { test( HashSet::::new(), &[Token::Seq { len: Some(0) }, Token::SeqEnd], ); test( hashset![1, 2, 3], &[ Token::Seq { len: Some(3) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::SeqEnd, ], ); test( HashSet::::new(), &[ Token::TupleStruct { name: "Anything", len: 0, }, Token::TupleStructEnd, ], ); test( hashset![FnvHasher @ 1, 2, 3], &[ Token::Seq { len: Some(3) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::SeqEnd, ], ); } #[test] fn test_vec() { test( Vec::::new(), &[Token::Seq { len: Some(0) }, Token::SeqEnd], ); test( vec![vec![], vec![1], vec![2, 3]], &[ Token::Seq { len: Some(3) }, Token::Seq { len: Some(0) }, Token::SeqEnd, Token::Seq { len: Some(1) }, Token::I32(1), Token::SeqEnd, Token::Seq { len: Some(2) }, Token::I32(2), Token::I32(3), Token::SeqEnd, Token::SeqEnd, ], ); test( Vec::::new(), &[ Token::TupleStruct { name: "Anything", len: 0, }, Token::TupleStructEnd, ], ); } #[test] fn test_array() { test([0; 0], &[Token::Seq { len: Some(0) }, Token::SeqEnd]); test([0; 0], &[Token::Tuple { len: 0 }, Token::TupleEnd]); test( ([0; 0], [1], [2, 3]), &[ Token::Seq { len: Some(3) }, Token::Seq { len: Some(0) }, Token::SeqEnd, Token::Seq { len: Some(1) }, Token::I32(1), Token::SeqEnd, Token::Seq { len: Some(2) }, Token::I32(2), Token::I32(3), Token::SeqEnd, Token::SeqEnd, ], ); test( ([0; 0], [1], [2, 3]), &[ Token::Tuple { len: 3 }, Token::Tuple { len: 0 }, Token::TupleEnd, Token::Tuple { len: 1 }, Token::I32(1), Token::TupleEnd, Token::Tuple { len: 2 }, Token::I32(2), Token::I32(3), Token::TupleEnd, Token::TupleEnd, ], ); test( [0; 0], &[ Token::TupleStruct { name: "Anything", len: 0, }, Token::TupleStructEnd, ], ); } #[test] fn test_tuple() { test( (1,), &[Token::Seq { len: Some(1) }, Token::I32(1), Token::SeqEnd], ); test( (1, 2, 3), &[ Token::Seq { len: Some(3) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::SeqEnd, ], ); test( (1,), &[Token::Tuple { len: 1 }, Token::I32(1), Token::TupleEnd], ); test( (1, 2, 3), &[ Token::Tuple { len: 3 }, Token::I32(1), Token::I32(2), Token::I32(3), Token::TupleEnd, ], ); } #[test] fn test_btreemap() { test( BTreeMap::::new(), &[Token::Map { len: Some(0) }, Token::MapEnd], ); test( btreemap![1 => 2], &[ Token::Map { len: Some(1) }, Token::I32(1), Token::I32(2), Token::MapEnd, ], ); test( btreemap![1 => 2, 3 => 4], &[ Token::Map { len: Some(2) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::I32(4), Token::MapEnd, ], ); test( btreemap![1 => btreemap![], 2 => btreemap![3 => 4, 5 => 6]], &[ Token::Map { len: Some(2) }, Token::I32(1), Token::Map { len: Some(0) }, Token::MapEnd, Token::I32(2), Token::Map { len: Some(2) }, Token::I32(3), Token::I32(4), Token::I32(5), Token::I32(6), Token::MapEnd, Token::MapEnd, ], ); test( BTreeMap::::new(), &[ Token::Struct { name: "Anything", len: 0, }, Token::StructEnd, ], ); } #[test] fn test_hashmap() { test( HashMap::::new(), &[Token::Map { len: Some(0) }, Token::MapEnd], ); test( hashmap![1 => 2], &[ Token::Map { len: Some(1) }, Token::I32(1), Token::I32(2), Token::MapEnd, ], ); test( hashmap![1 => 2, 3 => 4], &[ Token::Map { len: Some(2) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::I32(4), Token::MapEnd, ], ); test( hashmap![1 => hashmap![], 2 => hashmap![3 => 4, 5 => 6]], &[ Token::Map { len: Some(2) }, Token::I32(1), Token::Map { len: Some(0) }, Token::MapEnd, Token::I32(2), Token::Map { len: Some(2) }, Token::I32(3), Token::I32(4), Token::I32(5), Token::I32(6), Token::MapEnd, Token::MapEnd, ], ); test( HashMap::::new(), &[ Token::Struct { name: "Anything", len: 0, }, Token::StructEnd, ], ); test( hashmap![FnvHasher @ 1 => 2, 3 => 4], &[ Token::Map { len: Some(2) }, Token::I32(1), Token::I32(2), Token::I32(3), Token::I32(4), Token::MapEnd, ], ); } #[test] fn test_struct() { test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U8(0), Token::I32(1), Token::U8(1), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U16(0), Token::I32(1), Token::U16(1), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U32(0), Token::I32(1), Token::U32(1), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U64(0), Token::I32(1), Token::U64(1), Token::I32(2), Token::MapEnd, ], ); // Mixed key types test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U8(0), Token::I32(1), Token::U64(1), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U8(0), Token::I32(1), Token::Str("b"), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Struct { name: "Struct", len: 2, }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::StructEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Seq { len: Some(3) }, Token::I32(1), Token::I32(2), Token::SeqEnd, ], ); } #[test] fn test_struct_borrowed_keys() { test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::BorrowedStr("a"), Token::I32(1), Token::BorrowedStr("b"), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Struct { name: "Struct", len: 2, }, Token::BorrowedStr("a"), Token::I32(1), Token::BorrowedStr("b"), Token::I32(2), Token::StructEnd, ], ); } #[test] fn test_struct_owned_keys() { test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::String("a"), Token::I32(1), Token::String("b"), Token::I32(2), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Struct { name: "Struct", len: 2, }, Token::String("a"), Token::I32(1), Token::String("b"), Token::I32(2), Token::StructEnd, ], ); } #[test] fn test_struct_with_skip() { test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::Str("c"), Token::I32(3), Token::Str("d"), Token::I32(4), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Map { len: Some(3) }, Token::U8(0), Token::I32(1), Token::U16(1), Token::I32(2), Token::U32(2), Token::I32(3), Token::U64(3), Token::I32(4), Token::MapEnd, ], ); test( Struct { a: 1, b: 2, c: 0 }, &[ Token::Struct { name: "Struct", len: 2, }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::Str("c"), Token::I32(3), Token::Str("d"), Token::I32(4), Token::StructEnd, ], ); } #[test] fn test_struct_skip_all() { test( StructSkipAll { a: 0 }, &[ Token::Struct { name: "StructSkipAll", len: 0, }, Token::StructEnd, ], ); test( StructSkipAll { a: 0 }, &[ Token::Struct { name: "StructSkipAll", len: 0, }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::StructEnd, ], ); } #[test] fn test_struct_skip_default() { test( StructSkipDefault { a: 16 }, &[ Token::Struct { name: "StructSkipDefault", len: 0, }, Token::StructEnd, ], ); } #[test] fn test_struct_skip_all_deny_unknown() { test( StructSkipAllDenyUnknown { a: 0 }, &[ Token::Struct { name: "StructSkipAllDenyUnknown", len: 0, }, Token::StructEnd, ], ); } #[test] fn test_struct_default() { test( StructDefault { a: 50, b: "overwritten".to_string(), }, &[ Token::Struct { name: "StructDefault", len: 2, }, Token::Str("a"), Token::I32(50), Token::Str("b"), Token::String("overwritten"), Token::StructEnd, ], ); test( StructDefault { a: 100, b: "default".to_string(), }, &[ Token::Struct { name: "StructDefault", len: 2, }, Token::StructEnd, ], ); } #[test] fn test_enum_unit() { test( Enum::Unit, &[Token::UnitVariant { name: "Enum", variant: "Unit", }], ); } #[test] fn test_enum_simple() { test( Enum::Simple(1), &[ Token::NewtypeVariant { name: "Enum", variant: "Simple", }, Token::I32(1), ], ); } #[test] fn test_enum_simple_with_skipped() { test( Enum::SimpleWithSkipped(NotDeserializable), &[Token::UnitVariant { name: "Enum", variant: "SimpleWithSkipped", }], ); } #[test] fn test_enum_seq() { test( Enum::Seq(1, 2, 3), &[ Token::TupleVariant { name: "Enum", variant: "Seq", len: 3, }, Token::I32(1), Token::I32(2), Token::I32(3), Token::TupleVariantEnd, ], ); } #[test] fn test_enum_map() { test( Enum::Map { a: 1, b: 2, c: 3 }, &[ Token::StructVariant { name: "Enum", variant: "Map", len: 3, }, Token::Str("a"), Token::I32(1), Token::Str("b"), Token::I32(2), Token::Str("c"), Token::I32(3), Token::StructVariantEnd, ], ); } #[test] fn test_enum_unit_usize() { test( Enum::Unit, &[Token::Enum { name: "Enum" }, Token::U32(0), Token::Unit], ); } #[test] fn test_enum_unit_bytes() { test( Enum::Unit, &[ Token::Enum { name: "Enum" }, Token::Bytes(b"Unit"), Token::Unit, ], ); } #[test] fn test_enum_other_unit() { test( EnumOther::Unit, &[ Token::Enum { name: "EnumOther" }, Token::Str("Unit"), Token::Unit, ], ); test( EnumOther::Unit, &[Token::Enum { name: "EnumOther" }, Token::U8(0), Token::Unit], ); test( EnumOther::Unit, &[ Token::Enum { name: "EnumOther" }, Token::U16(0), Token::Unit, ], ); test( EnumOther::Unit, &[ Token::Enum { name: "EnumOther" }, Token::U32(0), Token::Unit, ], ); test( EnumOther::Unit, &[ Token::Enum { name: "EnumOther" }, Token::U64(0), Token::Unit, ], ); } #[test] fn test_enum_other() { test( EnumOther::Other, &[ Token::Enum { name: "EnumOther" }, Token::Str("Foo"), Token::Unit, ], ); test( EnumOther::Other, &[ Token::Enum { name: "EnumOther" }, Token::U8(42), Token::Unit, ], ); test( EnumOther::Other, &[ Token::Enum { name: "EnumOther" }, Token::U16(42), Token::Unit, ], ); test( EnumOther::Other, &[ Token::Enum { name: "EnumOther" }, Token::U32(42), Token::Unit, ], ); test( EnumOther::Other, &[ Token::Enum { name: "EnumOther" }, Token::U64(42), Token::Unit, ], ); } #[test] fn test_box() { test(Box::new(0i32), &[Token::I32(0)]); } #[test] fn test_boxed_slice() { test( Box::new([0, 1, 2]), &[ Token::Seq { len: Some(3) }, Token::I32(0), Token::I32(1), Token::I32(2), Token::SeqEnd, ], ); } #[test] fn test_duration() { test( Duration::new(1, 2), &[ Token::Struct { name: "Duration", len: 2, }, Token::Str("secs"), Token::U64(1), Token::Str("nanos"), Token::U32(2), Token::StructEnd, ], ); test( Duration::new(1, 2), &[ Token::Seq { len: Some(2) }, Token::I64(1), Token::I64(2), Token::SeqEnd, ], ); } #[test] fn test_system_time() { test( UNIX_EPOCH + Duration::new(1, 2), &[ Token::Struct { name: "SystemTime", len: 2, }, Token::Str("secs_since_epoch"), Token::U64(1), Token::Str("nanos_since_epoch"), Token::U32(2), Token::StructEnd, ], ); test( UNIX_EPOCH + Duration::new(1, 2), &[ Token::Seq { len: Some(2) }, Token::I64(1), Token::I64(2), Token::SeqEnd, ], ); } #[test] fn test_range() { test( 1u32..2u32, &[ Token::Struct { name: "Range", len: 2, }, Token::Str("start"), Token::U32(1), Token::Str("end"), Token::U32(2), Token::StructEnd, ], ); test( 1u32..2u32, &[ Token::Seq { len: Some(2) }, Token::U64(1), Token::U64(2), Token::SeqEnd, ], ); } #[test] fn test_range_inclusive() { test( 1u32..=2u32, &[ Token::Struct { name: "RangeInclusive", len: 2, }, Token::Str("start"), Token::U32(1), Token::Str("end"), Token::U32(2), Token::StructEnd, ], ); test( 1u32..=2u32, &[ Token::Seq { len: Some(2) }, Token::U64(1), Token::U64(2), Token::SeqEnd, ], ); } #[test] fn test_bound() { test( Bound::Unbounded::<()>, &[ Token::Enum { name: "Bound" }, Token::Str("Unbounded"), Token::Unit, ], ); test( Bound::Included(0), &[ Token::Enum { name: "Bound" }, Token::Str("Included"), Token::U8(0), ], ); test( Bound::Excluded(0), &[ Token::Enum { name: "Bound" }, Token::Str("Excluded"), Token::U8(0), ], ); } #[test] fn test_path() { test( Path::new("/usr/local/lib"), &[Token::BorrowedStr("/usr/local/lib")], ); test( Path::new("/usr/local/lib"), &[Token::BorrowedBytes(b"/usr/local/lib")], ); } #[test] fn test_path_buf() { test( PathBuf::from("/usr/local/lib"), &[Token::Str("/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib"), &[Token::String("/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib"), &[Token::Bytes(b"/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib"), &[Token::ByteBuf(b"/usr/local/lib")], ); } #[test] fn test_boxed_path() { test( PathBuf::from("/usr/local/lib").into_boxed_path(), &[Token::Str("/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib").into_boxed_path(), &[Token::String("/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib").into_boxed_path(), &[Token::Bytes(b"/usr/local/lib")], ); test( PathBuf::from("/usr/local/lib").into_boxed_path(), &[Token::ByteBuf(b"/usr/local/lib")], ); } #[test] fn test_cstring() { test(CString::new("abc").unwrap(), &[Token::Bytes(b"abc")]); } #[test] fn test_rc() { test(Rc::new(true), &[Token::Bool(true)]); } #[test] fn test_rc_weak_some() { test( SkipPartialEq(RcWeak::::new()), &[Token::Some, Token::Bool(true)], ); } #[test] fn test_rc_weak_none() { test(SkipPartialEq(RcWeak::::new()), &[Token::None]); } #[test] fn test_arc() { test(Arc::new(true), &[Token::Bool(true)]); } #[test] fn test_arc_weak_some() { test( SkipPartialEq(ArcWeak::::new()), &[Token::Some, Token::Bool(true)], ); } #[test] fn test_arc_weak_none() { test(SkipPartialEq(ArcWeak::::new()), &[Token::None]); } #[test] fn test_wrapping() { test(Wrapping(1usize), &[Token::U32(1)]); test(Wrapping(1usize), &[Token::U64(1)]); } #[test] fn test_rc_dst() { test(Rc::::from("s"), &[Token::Str("s")]); test( Rc::<[bool]>::from(&[true][..]), &[ Token::Seq { len: Some(1) }, Token::Bool(true), Token::SeqEnd, ], ); } #[test] fn test_arc_dst() { test(Arc::::from("s"), &[Token::Str("s")]); test( Arc::<[bool]>::from(&[true][..]), &[ Token::Seq { len: Some(1) }, Token::Bool(true), Token::SeqEnd, ], ); } #[test] fn test_ignored_any() { test(IgnoredAny, &[Token::Str("s")]); test( IgnoredAny, &[ Token::Seq { len: Some(1) }, Token::Bool(true), Token::SeqEnd, ], ); test( IgnoredAny, &[Token::Enum { name: "E" }, Token::Str("Rust"), Token::Unit], ); } #[test] fn test_net_ipv4addr_readable() { test( "1.2.3.4".parse::().unwrap().readable(), &[Token::Str("1.2.3.4")], ); } #[test] fn test_net_ipv6addr_readable() { test( "::1".parse::().unwrap().readable(), &[Token::Str("::1")], ); } #[test] fn test_net_ipaddr_readable() { test( "1.2.3.4".parse::().unwrap().readable(), &[Token::Str("1.2.3.4")], ); } #[test] fn test_net_socketaddr_readable() { test( "1.2.3.4:1234" .parse::() .unwrap() .readable(), &[Token::Str("1.2.3.4:1234")], ); test( "1.2.3.4:1234" .parse::() .unwrap() .readable(), &[Token::Str("1.2.3.4:1234")], ); test( "[::1]:1234" .parse::() .unwrap() .readable(), &[Token::Str("[::1]:1234")], ); } #[test] fn test_net_ipv4addr_compact() { test( net::Ipv4Addr::from(*b"1234").compact(), &seq![ Token::Tuple { len: 4 }, b"1234".iter().copied().map(Token::U8), Token::TupleEnd ], ); } #[test] fn test_net_ipv6addr_compact() { test( net::Ipv6Addr::from(*b"1234567890123456").compact(), &seq![ Token::Tuple { len: 4 }, b"1234567890123456".iter().copied().map(Token::U8), Token::TupleEnd ], ); } #[test] fn test_net_ipaddr_compact() { test( net::IpAddr::from(*b"1234").compact(), &seq![ Token::NewtypeVariant { name: "IpAddr", variant: "V4" }, Token::Tuple { len: 4 }, b"1234".iter().copied().map(Token::U8), Token::TupleEnd ], ); } #[test] fn test_net_socketaddr_compact() { test( net::SocketAddr::from((*b"1234567890123456", 1234)).compact(), &seq![ Token::NewtypeVariant { name: "SocketAddr", variant: "V6" }, Token::Tuple { len: 2 }, Token::Tuple { len: 16 }, b"1234567890123456".iter().copied().map(Token::U8), Token::TupleEnd, Token::U16(1234), Token::TupleEnd ], ); test( net::SocketAddr::from((*b"1234", 1234)).compact(), &seq![ Token::NewtypeVariant { name: "SocketAddr", variant: "V4" }, Token::Tuple { len: 2 }, Token::Tuple { len: 4 }, b"1234".iter().copied().map(Token::U8), Token::TupleEnd, Token::U16(1234), Token::TupleEnd ], ); test( net::SocketAddrV4::new(net::Ipv4Addr::from(*b"1234"), 1234).compact(), &seq![ Token::Tuple { len: 2 }, Token::Tuple { len: 4 }, b"1234".iter().copied().map(Token::U8), Token::TupleEnd, Token::U16(1234), Token::TupleEnd ], ); test( net::SocketAddrV6::new(net::Ipv6Addr::from(*b"1234567890123456"), 1234, 0, 0).compact(), &seq![ Token::Tuple { len: 2 }, Token::Tuple { len: 16 }, b"1234567890123456".iter().copied().map(Token::U8), Token::TupleEnd, Token::U16(1234), Token::TupleEnd ], ); } #[cfg(feature = "unstable")] #[test] fn test_never_result() { test( Ok::(0), &[ Token::NewtypeVariant { name: "Result", variant: "Ok", }, Token::U8(0), ], ); } #[cfg(unix)] #[test] fn test_osstring() { use std::os::unix::ffi::OsStringExt; let value = OsString::from_vec(vec![1, 2, 3]); let tokens = [ Token::Enum { name: "OsString" }, Token::Str("Unix"), Token::Seq { len: Some(2) }, Token::U8(1), Token::U8(2), Token::U8(3), Token::SeqEnd, ]; assert_de_tokens(&value, &tokens); assert_de_tokens_ignore(&tokens); } #[cfg(windows)] #[test] fn test_osstring() { use std::os::windows::ffi::OsStringExt; let value = OsString::from_wide(&[1, 2, 3]); let tokens = [ Token::Enum { name: "OsString" }, Token::Str("Windows"), Token::Seq { len: Some(2) }, Token::U16(1), Token::U16(2), Token::U16(3), Token::SeqEnd, ]; assert_de_tokens(&value, &tokens); assert_de_tokens_ignore(&tokens); } #[test] fn test_cstr() { assert_de_tokens::>( &CString::new("abc").unwrap().into_boxed_c_str(), &[Token::Bytes(b"abc")], ); } #[test] fn test_cstr_internal_null() { assert_de_tokens_error::>( &[Token::Bytes(b"a\0c")], "nul byte found in provided data at position: 1", ); } #[test] fn test_cstr_internal_null_end() { assert_de_tokens_error::>( &[Token::Bytes(b"ac\0")], "nul byte found in provided data at position: 2", ); } #[cfg(feature = "unstable")] #[test] fn test_never_type() { assert_de_tokens_error::(&[], "cannot deserialize `!`"); assert_de_tokens_error::>( &[Token::NewtypeVariant { name: "Result", variant: "Err", }], "cannot deserialize `!`", ); } #[test] fn test_atomics() { fn test(load: L, val: T, token: Token) where L: Fn(&A, Ordering) -> T, A: DeserializeOwned, T: PartialEq + Debug, { let tokens = &[token]; let mut de = serde_test::Deserializer::new(tokens); match A::deserialize(&mut de) { Ok(v) => { let loaded = load(&v, Ordering::Relaxed); assert_eq!(val, loaded); } Err(e) => panic!("tokens failed to deserialize: {}", e), }; if de.remaining() > 0 { panic!("{} remaining tokens", de.remaining()); } } test(AtomicBool::load, true, Token::Bool(true)); test(AtomicI8::load, -127, Token::I8(-127i8)); test(AtomicI16::load, -510, Token::I16(-510i16)); test(AtomicI32::load, -131072, Token::I32(-131072i32)); test(AtomicIsize::load, -131072isize, Token::I32(-131072)); test(AtomicU8::load, 127, Token::U8(127u8)); test(AtomicU16::load, 510u16, Token::U16(510u16)); test(AtomicU32::load, 131072u32, Token::U32(131072u32)); test(AtomicUsize::load, 131072usize, Token::U32(131072)); #[cfg(target_arch = "x86_64")] { test(AtomicI64::load, -8589934592, Token::I64(-8589934592)); test(AtomicU64::load, 8589934592u64, Token::U64(8589934592)); } } declare_error_tests! { test_unknown_field { &[ Token::Struct { name: "StructDenyUnknown", len: 1 }, Token::Str("a"), Token::I32(0), Token::Str("d"), ], "unknown field `d`, expected `a`", } test_skipped_field_is_unknown { &[ Token::Struct { name: "StructDenyUnknown", len: 1 }, Token::Str("b"), ], "unknown field `b`, expected `a`", } test_skip_all_deny_unknown { &[ Token::Struct { name: "StructSkipAllDenyUnknown", len: 0 }, Token::Str("a"), ], "unknown field `a`, there are no fields", } test_unknown_variant { &[ Token::UnitVariant { name: "Enum", variant: "Foo" }, ], "unknown variant `Foo`, expected one of `Unit`, `Simple`, `Seq`, `Map`, `SimpleWithSkipped`", } test_enum_skipped_variant { &[ Token::UnitVariant { name: "Enum", variant: "Skipped" }, ], "unknown variant `Skipped`, expected one of `Unit`, `Simple`, `Seq`, `Map`, `SimpleWithSkipped`", } test_enum_skip_all { &[ Token::UnitVariant { name: "EnumSkipAll", variant: "Skipped" }, ], "unknown variant `Skipped`, there are no variants", } test_duplicate_field_struct { &[ Token::Map { len: Some(3) }, Token::Str("a"), Token::I32(1), Token::Str("a"), ], "duplicate field `a`", } test_duplicate_field_enum { &[ Token::StructVariant { name: "Enum", variant: "Map", len: 3 }, Token::Str("a"), Token::I32(1), Token::Str("a"), ], "duplicate field `a`", } test_enum_out_of_range { &[ Token::Enum { name: "Enum" }, Token::U32(5), Token::Unit, ], "invalid value: integer `5`, expected variant index 0 <= i < 5", } test_short_tuple<(u8, u8, u8)> { &[ Token::Tuple { len: 1 }, Token::U8(1), Token::TupleEnd, ], "invalid length 1, expected a tuple of size 3", } test_short_array<[u8; 3]> { &[ Token::Seq { len: Some(1) }, Token::U8(1), Token::SeqEnd, ], "invalid length 1, expected an array of length 3", } test_cstring_internal_null { &[ Token::Bytes(b"a\0c"), ], "nul byte found in provided data at position: 1", } test_cstring_internal_null_end { &[ Token::Bytes(b"ac\0"), ], "nul byte found in provided data at position: 2", } test_unit_from_empty_seq<()> { &[ Token::Seq { len: Some(0) }, Token::SeqEnd, ], "invalid type: sequence, expected unit", } test_unit_from_empty_seq_without_len<()> { &[ Token::Seq { len: None }, Token::SeqEnd, ], "invalid type: sequence, expected unit", } test_unit_from_tuple_struct<()> { &[ Token::TupleStruct { name: "Anything", len: 0 }, Token::TupleStructEnd, ], "invalid type: sequence, expected unit", } test_string_from_unit { &[ Token::Unit, ], "invalid type: unit value, expected a string", } test_btreeset_from_unit> { &[ Token::Unit, ], "invalid type: unit value, expected a sequence", } test_btreeset_from_unit_struct> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected a sequence", } test_hashset_from_unit> { &[ Token::Unit, ], "invalid type: unit value, expected a sequence", } test_hashset_from_unit_struct> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected a sequence", } test_vec_from_unit> { &[ Token::Unit, ], "invalid type: unit value, expected a sequence", } test_vec_from_unit_struct> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected a sequence", } test_zero_array_from_unit<[isize; 0]> { &[ Token::Unit, ], "invalid type: unit value, expected an empty array", } test_zero_array_from_unit_struct<[isize; 0]> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected an empty array", } test_btreemap_from_unit> { &[ Token::Unit, ], "invalid type: unit value, expected a map", } test_btreemap_from_unit_struct> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected a map", } test_hashmap_from_unit> { &[ Token::Unit, ], "invalid type: unit value, expected a map", } test_hashmap_from_unit_struct> { &[ Token::UnitStruct { name: "Anything" }, ], "invalid type: unit value, expected a map", } test_bool_from_string { &[ Token::Str("false"), ], "invalid type: string \"false\", expected a boolean", } test_number_from_string { &[ Token::Str("1"), ], "invalid type: string \"1\", expected isize", } test_integer_from_float { &[ Token::F32(0.0), ], "invalid type: floating point `0`, expected isize", } test_unit_struct_from_seq { &[ Token::Seq { len: Some(0) }, Token::SeqEnd, ], "invalid type: sequence, expected unit struct UnitStruct", } test_wrapping_overflow> { &[ Token::U32(65_536), ], "invalid value: integer `65536`, expected u16", } test_duration_overflow_seq { &[ Token::Seq { len: Some(2) }, Token::U64(u64::max_value()), Token::U32(1_000_000_000), Token::SeqEnd, ], "overflow deserializing Duration", } test_duration_overflow_struct { &[ Token::Struct { name: "Duration", len: 2 }, Token::Str("secs"), Token::U64(u64::max_value()), Token::Str("nanos"), Token::U32(1_000_000_000), Token::StructEnd, ], "overflow deserializing Duration", } test_systemtime_overflow_seq { &[ Token::Seq { len: Some(2) }, Token::U64(u64::max_value()), Token::U32(1_000_000_000), Token::SeqEnd, ], "overflow deserializing SystemTime epoch offset", } test_systemtime_overflow_struct { &[ Token::Struct { name: "SystemTime", len: 2 }, Token::Str("secs_since_epoch"), Token::U64(u64::max_value()), Token::Str("nanos_since_epoch"), Token::U32(1_000_000_000), Token::StructEnd, ], "overflow deserializing SystemTime epoch offset", } #[cfg(systemtime_checked_add)] test_systemtime_overflow { &[ Token::Seq { len: Some(2) }, Token::U64(u64::max_value()), Token::U32(0), Token::SeqEnd, ], "overflow deserializing SystemTime", } }