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Diffstat (limited to 'vendor/serde_json/tests/test.rs')
-rw-r--r-- | vendor/serde_json/tests/test.rs | 2505 |
1 files changed, 2505 insertions, 0 deletions
diff --git a/vendor/serde_json/tests/test.rs b/vendor/serde_json/tests/test.rs new file mode 100644 index 0000000..05b7f86 --- /dev/null +++ b/vendor/serde_json/tests/test.rs @@ -0,0 +1,2505 @@ +#![cfg(not(feature = "preserve_order"))] +#![allow( + clippy::assertions_on_result_states, + clippy::cast_precision_loss, + clippy::derive_partial_eq_without_eq, + clippy::excessive_precision, + clippy::float_cmp, + clippy::items_after_statements, + clippy::let_underscore_untyped, + clippy::shadow_unrelated, + clippy::too_many_lines, + clippy::unreadable_literal, + clippy::unseparated_literal_suffix, + clippy::vec_init_then_push, + clippy::zero_sized_map_values +)] + +#[macro_use] +mod macros; + +#[cfg(feature = "raw_value")] +use ref_cast::RefCast; +use serde::de::{self, IgnoredAny, IntoDeserializer}; +use serde::ser::{self, SerializeMap, SerializeSeq, Serializer}; +use serde::{Deserialize, Serialize}; +use serde_bytes::{ByteBuf, Bytes}; +#[cfg(feature = "raw_value")] +use serde_json::value::RawValue; +use serde_json::{ + from_reader, from_slice, from_str, from_value, json, to_string, to_string_pretty, to_value, + to_vec, Deserializer, Number, Value, +}; +use std::collections::BTreeMap; +#[cfg(feature = "raw_value")] +use std::collections::HashMap; +use std::fmt::{self, Debug}; +use std::hash::BuildHasher; +#[cfg(feature = "raw_value")] +use std::hash::{Hash, Hasher}; +use std::io; +use std::iter; +use std::marker::PhantomData; +use std::mem; +use std::str::FromStr; +use std::string::ToString; +use std::{f32, f64}; +use std::{i16, i32, i64, i8}; +use std::{u16, u32, u64, u8}; + +macro_rules! treemap { + () => { + BTreeMap::new() + }; + ($($k:expr => $v:expr),+ $(,)?) => { + { + let mut m = BTreeMap::new(); + $( + m.insert($k, $v); + )+ + m + } + }; +} + +#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)] +#[serde(deny_unknown_fields)] +enum Animal { + Dog, + Frog(String, Vec<isize>), + Cat { age: usize, name: String }, + AntHive(Vec<String>), +} + +#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)] +struct Inner { + a: (), + b: usize, + c: Vec<String>, +} + +#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)] +struct Outer { + inner: Vec<Inner>, +} + +fn test_encode_ok<T>(errors: &[(T, &str)]) +where + T: PartialEq + Debug + ser::Serialize, +{ + for &(ref value, out) in errors { + let out = out.to_string(); + + let s = to_string(value).unwrap(); + assert_eq!(s, out); + + let v = to_value(value).unwrap(); + let s = to_string(&v).unwrap(); + assert_eq!(s, out); + } +} + +fn test_pretty_encode_ok<T>(errors: &[(T, &str)]) +where + T: PartialEq + Debug + ser::Serialize, +{ + for &(ref value, out) in errors { + let out = out.to_string(); + + let s = to_string_pretty(value).unwrap(); + assert_eq!(s, out); + + let v = to_value(value).unwrap(); + let s = to_string_pretty(&v).unwrap(); + assert_eq!(s, out); + } +} + +#[test] +fn test_write_null() { + let tests = &[((), "null")]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_u64() { + let tests = &[(3u64, "3"), (u64::MAX, &u64::MAX.to_string())]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_i64() { + let tests = &[ + (3i64, "3"), + (-2i64, "-2"), + (-1234i64, "-1234"), + (i64::MIN, &i64::MIN.to_string()), + ]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_f64() { + let tests = &[ + (3.0, "3.0"), + (3.1, "3.1"), + (-1.5, "-1.5"), + (0.5, "0.5"), + (f64::MIN, "-1.7976931348623157e308"), + (f64::MAX, "1.7976931348623157e308"), + (f64::EPSILON, "2.220446049250313e-16"), + ]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_encode_nonfinite_float_yields_null() { + let v = to_value(::std::f64::NAN.copysign(1.0)).unwrap(); + assert!(v.is_null()); + + let v = to_value(::std::f64::NAN.copysign(-1.0)).unwrap(); + assert!(v.is_null()); + + let v = to_value(::std::f64::INFINITY).unwrap(); + assert!(v.is_null()); + + let v = to_value(-::std::f64::INFINITY).unwrap(); + assert!(v.is_null()); + + let v = to_value(::std::f32::NAN.copysign(1.0)).unwrap(); + assert!(v.is_null()); + + let v = to_value(::std::f32::NAN.copysign(-1.0)).unwrap(); + assert!(v.is_null()); + + let v = to_value(::std::f32::INFINITY).unwrap(); + assert!(v.is_null()); + + let v = to_value(-::std::f32::INFINITY).unwrap(); + assert!(v.is_null()); +} + +#[test] +fn test_write_str() { + let tests = &[("", "\"\""), ("foo", "\"foo\"")]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_bool() { + let tests = &[(true, "true"), (false, "false")]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_char() { + let tests = &[ + ('n', "\"n\""), + ('"', "\"\\\"\""), + ('\\', "\"\\\\\""), + ('/', "\"/\""), + ('\x08', "\"\\b\""), + ('\x0C', "\"\\f\""), + ('\n', "\"\\n\""), + ('\r', "\"\\r\""), + ('\t', "\"\\t\""), + ('\x0B', "\"\\u000b\""), + ('\u{3A3}', "\"\u{3A3}\""), + ]; + test_encode_ok(tests); + test_pretty_encode_ok(tests); +} + +#[test] +fn test_write_list() { + test_encode_ok(&[ + (vec![], "[]"), + (vec![true], "[true]"), + (vec![true, false], "[true,false]"), + ]); + + test_encode_ok(&[ + (vec![vec![], vec![], vec![]], "[[],[],[]]"), + (vec![vec![1, 2, 3], vec![], vec![]], "[[1,2,3],[],[]]"), + (vec![vec![], vec![1, 2, 3], vec![]], "[[],[1,2,3],[]]"), + (vec![vec![], vec![], vec![1, 2, 3]], "[[],[],[1,2,3]]"), + ]); + + test_pretty_encode_ok(&[ + (vec![vec![], vec![], vec![]], pretty_str!([[], [], []])), + ( + vec![vec![1, 2, 3], vec![], vec![]], + pretty_str!([[1, 2, 3], [], []]), + ), + ( + vec![vec![], vec![1, 2, 3], vec![]], + pretty_str!([[], [1, 2, 3], []]), + ), + ( + vec![vec![], vec![], vec![1, 2, 3]], + pretty_str!([[], [], [1, 2, 3]]), + ), + ]); + + test_pretty_encode_ok(&[ + (vec![], "[]"), + (vec![true], pretty_str!([true])), + (vec![true, false], pretty_str!([true, false])), + ]); + + let long_test_list = json!([false, null, ["foo\nbar", 3.5]]); + + test_encode_ok(&[( + long_test_list.clone(), + json_str!([false, null, ["foo\nbar", 3.5]]), + )]); + + test_pretty_encode_ok(&[( + long_test_list, + pretty_str!([false, null, ["foo\nbar", 3.5]]), + )]); +} + +#[test] +fn test_write_object() { + test_encode_ok(&[ + (treemap!(), "{}"), + (treemap!("a".to_string() => true), "{\"a\":true}"), + ( + treemap!( + "a".to_string() => true, + "b".to_string() => false, + ), + "{\"a\":true,\"b\":false}", + ), + ]); + + test_encode_ok(&[ + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "{\"a\":{},\"b\":{},\"c\":{}}", + ), + ( + treemap![ + "a".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "{\"a\":{\"a\":{\"a\":[1,2,3]},\"b\":{},\"c\":{}},\"b\":{},\"c\":{}}", + ), + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "c".to_string() => treemap![], + ], + "{\"a\":{},\"b\":{\"a\":{\"a\":[1,2,3]},\"b\":{},\"c\":{}},\"c\":{}}", + ), + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![], + "c".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + ], + "{\"a\":{},\"b\":{},\"c\":{\"a\":{\"a\":[1,2,3]},\"b\":{},\"c\":{}}}", + ), + ]); + + test_encode_ok(&[(treemap!['c' => ()], "{\"c\":null}")]); + + test_pretty_encode_ok(&[ + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + pretty_str!({ + "a": {}, + "b": {}, + "c": {} + }), + ), + ( + treemap![ + "a".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + pretty_str!({ + "a": { + "a": { + "a": [ + 1, + 2, + 3 + ] + }, + "b": {}, + "c": {} + }, + "b": {}, + "c": {} + }), + ), + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + "c".to_string() => treemap![], + ], + pretty_str!({ + "a": {}, + "b": { + "a": { + "a": [ + 1, + 2, + 3 + ] + }, + "b": {}, + "c": {} + }, + "c": {} + }), + ), + ( + treemap![ + "a".to_string() => treemap![], + "b".to_string() => treemap![], + "c".to_string() => treemap![ + "a".to_string() => treemap!["a" => vec![1,2,3]], + "b".to_string() => treemap![], + "c".to_string() => treemap![], + ], + ], + pretty_str!({ + "a": {}, + "b": {}, + "c": { + "a": { + "a": [ + 1, + 2, + 3 + ] + }, + "b": {}, + "c": {} + } + }), + ), + ]); + + test_pretty_encode_ok(&[ + (treemap!(), "{}"), + ( + treemap!("a".to_string() => true), + pretty_str!({ + "a": true + }), + ), + ( + treemap!( + "a".to_string() => true, + "b".to_string() => false, + ), + pretty_str!( { + "a": true, + "b": false + }), + ), + ]); + + let complex_obj = json!({ + "b": [ + {"c": "\x0c\x1f\r"}, + {"d": ""} + ] + }); + + test_encode_ok(&[( + complex_obj.clone(), + json_str!({ + "b": [ + { + "c": (r#""\f\u001f\r""#) + }, + { + "d": "" + } + ] + }), + )]); + + test_pretty_encode_ok(&[( + complex_obj, + pretty_str!({ + "b": [ + { + "c": (r#""\f\u001f\r""#) + }, + { + "d": "" + } + ] + }), + )]); +} + +#[test] +fn test_write_tuple() { + test_encode_ok(&[((5,), "[5]")]); + + test_pretty_encode_ok(&[((5,), pretty_str!([5]))]); + + test_encode_ok(&[((5, (6, "abc")), "[5,[6,\"abc\"]]")]); + + test_pretty_encode_ok(&[((5, (6, "abc")), pretty_str!([5, [6, "abc"]]))]); +} + +#[test] +fn test_write_enum() { + test_encode_ok(&[ + (Animal::Dog, "\"Dog\""), + ( + Animal::Frog("Henry".to_string(), vec![]), + "{\"Frog\":[\"Henry\",[]]}", + ), + ( + Animal::Frog("Henry".to_string(), vec![349]), + "{\"Frog\":[\"Henry\",[349]]}", + ), + ( + Animal::Frog("Henry".to_string(), vec![349, 102]), + "{\"Frog\":[\"Henry\",[349,102]]}", + ), + ( + Animal::Cat { + age: 5, + name: "Kate".to_string(), + }, + "{\"Cat\":{\"age\":5,\"name\":\"Kate\"}}", + ), + ( + Animal::AntHive(vec!["Bob".to_string(), "Stuart".to_string()]), + "{\"AntHive\":[\"Bob\",\"Stuart\"]}", + ), + ]); + + test_pretty_encode_ok(&[ + (Animal::Dog, "\"Dog\""), + ( + Animal::Frog("Henry".to_string(), vec![]), + pretty_str!({ + "Frog": [ + "Henry", + [] + ] + }), + ), + ( + Animal::Frog("Henry".to_string(), vec![349]), + pretty_str!({ + "Frog": [ + "Henry", + [ + 349 + ] + ] + }), + ), + ( + Animal::Frog("Henry".to_string(), vec![349, 102]), + pretty_str!({ + "Frog": [ + "Henry", + [ + 349, + 102 + ] + ] + }), + ), + ]); +} + +#[test] +fn test_write_option() { + test_encode_ok(&[(None, "null"), (Some("jodhpurs"), "\"jodhpurs\"")]); + + test_encode_ok(&[ + (None, "null"), + (Some(vec!["foo", "bar"]), "[\"foo\",\"bar\"]"), + ]); + + test_pretty_encode_ok(&[(None, "null"), (Some("jodhpurs"), "\"jodhpurs\"")]); + + test_pretty_encode_ok(&[ + (None, "null"), + (Some(vec!["foo", "bar"]), pretty_str!(["foo", "bar"])), + ]); +} + +#[test] +fn test_write_newtype_struct() { + #[derive(Serialize, PartialEq, Debug)] + struct Newtype(BTreeMap<String, i32>); + + let inner = Newtype(treemap!(String::from("inner") => 123)); + let outer = treemap!(String::from("outer") => to_value(&inner).unwrap()); + + test_encode_ok(&[(inner, r#"{"inner":123}"#)]); + + test_encode_ok(&[(outer, r#"{"outer":{"inner":123}}"#)]); +} + +#[test] +fn test_deserialize_number_to_untagged_enum() { + #[derive(Eq, PartialEq, Deserialize, Debug)] + #[serde(untagged)] + enum E { + N(i64), + } + + assert_eq!(E::N(0), E::deserialize(Number::from(0)).unwrap()); +} + +fn test_parse_ok<T>(tests: Vec<(&str, T)>) +where + T: Clone + Debug + PartialEq + ser::Serialize + de::DeserializeOwned, +{ + for (s, value) in tests { + let v: T = from_str(s).unwrap(); + assert_eq!(v, value.clone()); + + let v: T = from_slice(s.as_bytes()).unwrap(); + assert_eq!(v, value.clone()); + + // Make sure we can deserialize into a `Value`. + let json_value: Value = from_str(s).unwrap(); + assert_eq!(json_value, to_value(&value).unwrap()); + + // Make sure we can deserialize from a `&Value`. + let v = T::deserialize(&json_value).unwrap(); + assert_eq!(v, value); + + // Make sure we can deserialize from a `Value`. + let v: T = from_value(json_value.clone()).unwrap(); + assert_eq!(v, value); + + // Make sure we can round trip back to `Value`. + let json_value2: Value = from_value(json_value.clone()).unwrap(); + assert_eq!(json_value2, json_value); + + // Make sure we can fully ignore. + let twoline = s.to_owned() + "\n3735928559"; + let mut de = Deserializer::from_str(&twoline); + IgnoredAny::deserialize(&mut de).unwrap(); + assert_eq!(0xDEAD_BEEF, u64::deserialize(&mut de).unwrap()); + + // Make sure every prefix is an EOF error, except that a prefix of a + // number may be a valid number. + if !json_value.is_number() { + for (i, _) in s.trim_end().char_indices() { + assert!(from_str::<Value>(&s[..i]).unwrap_err().is_eof()); + assert!(from_str::<IgnoredAny>(&s[..i]).unwrap_err().is_eof()); + } + } + } +} + +// For testing representations that the deserializer accepts but the serializer +// never generates. These do not survive a round-trip through Value. +fn test_parse_unusual_ok<T>(tests: Vec<(&str, T)>) +where + T: Clone + Debug + PartialEq + ser::Serialize + de::DeserializeOwned, +{ + for (s, value) in tests { + let v: T = from_str(s).unwrap(); + assert_eq!(v, value.clone()); + + let v: T = from_slice(s.as_bytes()).unwrap(); + assert_eq!(v, value.clone()); + } +} + +macro_rules! test_parse_err { + ($name:ident::<$($ty:ty),*>($arg:expr) => $expected:expr) => { + let actual = $name::<$($ty),*>($arg).unwrap_err().to_string(); + assert_eq!(actual, $expected, "unexpected {} error", stringify!($name)); + }; +} + +fn test_parse_err<T>(errors: &[(&str, &'static str)]) +where + T: Debug + PartialEq + de::DeserializeOwned, +{ + for &(s, err) in errors { + test_parse_err!(from_str::<T>(s) => err); + test_parse_err!(from_slice::<T>(s.as_bytes()) => err); + } +} + +fn test_parse_slice_err<T>(errors: &[(&[u8], &'static str)]) +where + T: Debug + PartialEq + de::DeserializeOwned, +{ + for &(s, err) in errors { + test_parse_err!(from_slice::<T>(s) => err); + } +} + +fn test_fromstr_parse_err<T>(errors: &[(&str, &'static str)]) +where + T: Debug + PartialEq + FromStr, + <T as FromStr>::Err: ToString, +{ + for &(s, err) in errors { + let actual = s.parse::<T>().unwrap_err().to_string(); + assert_eq!(actual, err, "unexpected parsing error"); + } +} + +#[test] +fn test_parse_null() { + test_parse_err::<()>(&[ + ("n", "EOF while parsing a value at line 1 column 1"), + ("nul", "EOF while parsing a value at line 1 column 3"), + ("nulla", "trailing characters at line 1 column 5"), + ]); + + test_parse_ok(vec![("null", ())]); +} + +#[test] +fn test_parse_bool() { + test_parse_err::<bool>(&[ + ("t", "EOF while parsing a value at line 1 column 1"), + ("truz", "expected ident at line 1 column 4"), + ("f", "EOF while parsing a value at line 1 column 1"), + ("faz", "expected ident at line 1 column 3"), + ("truea", "trailing characters at line 1 column 5"), + ("falsea", "trailing characters at line 1 column 6"), + ]); + + test_parse_ok(vec![ + ("true", true), + (" true ", true), + ("false", false), + (" false ", false), + ]); +} + +#[test] +fn test_parse_char() { + test_parse_err::<char>(&[ + ( + "\"ab\"", + "invalid value: string \"ab\", expected a character at line 1 column 4", + ), + ( + "10", + "invalid type: integer `10`, expected a character at line 1 column 2", + ), + ]); + + test_parse_ok(vec![ + ("\"n\"", 'n'), + ("\"\\\"\"", '"'), + ("\"\\\\\"", '\\'), + ("\"/\"", '/'), + ("\"\\b\"", '\x08'), + ("\"\\f\"", '\x0C'), + ("\"\\n\"", '\n'), + ("\"\\r\"", '\r'), + ("\"\\t\"", '\t'), + ("\"\\u000b\"", '\x0B'), + ("\"\\u000B\"", '\x0B'), + ("\"\u{3A3}\"", '\u{3A3}'), + ]); +} + +#[test] +fn test_parse_number_errors() { + test_parse_err::<f64>(&[ + ("+", "expected value at line 1 column 1"), + (".", "expected value at line 1 column 1"), + ("-", "EOF while parsing a value at line 1 column 1"), + ("00", "invalid number at line 1 column 2"), + ("0x80", "trailing characters at line 1 column 2"), + ("\\0", "expected value at line 1 column 1"), + (".0", "expected value at line 1 column 1"), + ("0.", "EOF while parsing a value at line 1 column 2"), + ("1.", "EOF while parsing a value at line 1 column 2"), + ("1.a", "invalid number at line 1 column 3"), + ("1.e1", "invalid number at line 1 column 3"), + ("1e", "EOF while parsing a value at line 1 column 2"), + ("1e+", "EOF while parsing a value at line 1 column 3"), + ("1a", "trailing characters at line 1 column 2"), + ( + "100e777777777777777777777777777", + "number out of range at line 1 column 14", + ), + ( + "-100e777777777777777777777777777", + "number out of range at line 1 column 15", + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000", // 1e309 + "number out of range at line 1 column 310", + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + .0e9", // 1e309 + "number out of range at line 1 column 305", + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + e9", // 1e309 + "number out of range at line 1 column 303", + ), + ]); +} + +#[test] +fn test_parse_i64() { + test_parse_ok(vec![ + ("-2", -2), + ("-1234", -1234), + (" -1234 ", -1234), + (&i64::MIN.to_string(), i64::MIN), + (&i64::MAX.to_string(), i64::MAX), + ]); +} + +#[test] +fn test_parse_u64() { + test_parse_ok(vec![ + ("0", 0u64), + ("3", 3u64), + ("1234", 1234), + (&u64::MAX.to_string(), u64::MAX), + ]); +} + +#[test] +fn test_parse_negative_zero() { + for negative_zero in &[ + "-0", + "-0.0", + "-0e2", + "-0.0e2", + "-1e-400", + "-1e-4000000000000000000000000000000000000000000000000", + ] { + assert!( + from_str::<f32>(negative_zero).unwrap().is_sign_negative(), + "should have been negative: {:?}", + negative_zero, + ); + assert!( + from_str::<f64>(negative_zero).unwrap().is_sign_negative(), + "should have been negative: {:?}", + negative_zero, + ); + } +} + +#[test] +fn test_parse_f64() { + test_parse_ok(vec![ + ("0.0", 0.0f64), + ("3.0", 3.0f64), + ("3.1", 3.1), + ("-1.2", -1.2), + ("0.4", 0.4), + // Edge case from: + // https://github.com/serde-rs/json/issues/536#issuecomment-583714900 + ("2.638344616030823e-256", 2.638344616030823e-256), + ]); + + #[cfg(not(feature = "arbitrary_precision"))] + test_parse_ok(vec![ + // With arbitrary-precision enabled, this parses as Number{"3.00"} + // but the float is Number{"3.0"} + ("3.00", 3.0f64), + ("0.4e5", 0.4e5), + ("0.4e+5", 0.4e5), + ("0.4e15", 0.4e15), + ("0.4e+15", 0.4e15), + ("0.4e-01", 0.4e-1), + (" 0.4e-01 ", 0.4e-1), + ("0.4e-001", 0.4e-1), + ("0.4e-0", 0.4e0), + ("0.00e00", 0.0), + ("0.00e+00", 0.0), + ("0.00e-00", 0.0), + ("3.5E-2147483647", 0.0), + ("0.0100000000000000000001", 0.01), + ( + &format!("{}", (i64::MIN as f64) - 1.0), + (i64::MIN as f64) - 1.0, + ), + ( + &format!("{}", (u64::MAX as f64) + 1.0), + (u64::MAX as f64) + 1.0, + ), + (&format!("{}", f64::EPSILON), f64::EPSILON), + ( + "0.0000000000000000000000000000000000000000000000000123e50", + 1.23, + ), + ("100e-777777777777777777777777777", 0.0), + ( + "1010101010101010101010101010101010101010", + 10101010101010101010e20, + ), + ( + "0.1010101010101010101010101010101010101010", + 0.1010101010101010101, + ), + ("0e1000000000000000000000000000000000000000000000", 0.0), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 00000000", + 1e308, + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + .0e8", + 1e308, + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + e8", + 1e308, + ), + ( + "1000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000000000000000000000000000000000000000000000\ + 000000000000000000e-10", + 1e308, + ), + ]); +} + +#[test] +fn test_value_as_f64() { + let v = serde_json::from_str::<Value>("1e1000"); + + #[cfg(not(feature = "arbitrary_precision"))] + assert!(v.is_err()); + + #[cfg(feature = "arbitrary_precision")] + assert_eq!(v.unwrap().as_f64(), None); +} + +// Test roundtrip with some values that were not perfectly roundtripped by the +// old f64 deserializer. +#[cfg(feature = "float_roundtrip")] +#[test] +fn test_roundtrip_f64() { + for &float in &[ + // Samples from quickcheck-ing roundtrip with `input: f64`. Comments + // indicate the value returned by the old deserializer. + 51.24817837550540_4, // 51.2481783755054_1 + -93.3113703768803_3, // -93.3113703768803_2 + -36.5739948427534_36, // -36.5739948427534_4 + 52.31400820410624_4, // 52.31400820410624_ + 97.4536532003468_5, // 97.4536532003468_4 + // Samples from `rng.next_u64` + `f64::from_bits` + `is_finite` filter. + 2.0030397744267762e-253, + 7.101215824554616e260, + 1.769268377902049e74, + -1.6727517818542075e58, + 3.9287532173373315e299, + ] { + let json = serde_json::to_string(&float).unwrap(); + let output: f64 = serde_json::from_str(&json).unwrap(); + assert_eq!(float, output); + } +} + +#[test] +fn test_roundtrip_f32() { + // This number has 1 ULP error if parsed via f64 and converted to f32. + // https://github.com/serde-rs/json/pull/671#issuecomment-628534468 + let float = 7.038531e-26; + let json = serde_json::to_string(&float).unwrap(); + let output: f32 = serde_json::from_str(&json).unwrap(); + assert_eq!(float, output); +} + +#[test] +fn test_serialize_char() { + let value = json!( + ({ + let mut map = BTreeMap::new(); + map.insert('c', ()); + map + }) + ); + assert_eq!(&Value::Null, value.get("c").unwrap()); +} + +#[cfg(feature = "arbitrary_precision")] +#[test] +fn test_malicious_number() { + #[derive(Serialize)] + #[serde(rename = "$serde_json::private::Number")] + struct S { + #[serde(rename = "$serde_json::private::Number")] + f: &'static str, + } + + let actual = serde_json::to_value(&S { f: "not a number" }) + .unwrap_err() + .to_string(); + assert_eq!(actual, "invalid number at line 1 column 1"); +} + +#[test] +fn test_parse_number() { + test_parse_ok(vec![ + ("0.0", Number::from_f64(0.0f64).unwrap()), + ("3.0", Number::from_f64(3.0f64).unwrap()), + ("3.1", Number::from_f64(3.1).unwrap()), + ("-1.2", Number::from_f64(-1.2).unwrap()), + ("0.4", Number::from_f64(0.4).unwrap()), + ]); + + test_fromstr_parse_err::<Number>(&[ + (" 1.0", "invalid number at line 1 column 1"), + ("1.0 ", "invalid number at line 1 column 4"), + ("\t1.0", "invalid number at line 1 column 1"), + ("1.0\t", "invalid number at line 1 column 4"), + ]); + + #[cfg(feature = "arbitrary_precision")] + test_parse_ok(vec![ + ("1e999", Number::from_string_unchecked("1e999".to_owned())), + ("1e+999", Number::from_string_unchecked("1e+999".to_owned())), + ("-1e999", Number::from_string_unchecked("-1e999".to_owned())), + ("1e-999", Number::from_string_unchecked("1e-999".to_owned())), + ("1E999", Number::from_string_unchecked("1E999".to_owned())), + ("1E+999", Number::from_string_unchecked("1E+999".to_owned())), + ("-1E999", Number::from_string_unchecked("-1E999".to_owned())), + ("1E-999", Number::from_string_unchecked("1E-999".to_owned())), + ("1E+000", Number::from_string_unchecked("1E+000".to_owned())), + ( + "2.3e999", + Number::from_string_unchecked("2.3e999".to_owned()), + ), + ( + "-2.3e999", + Number::from_string_unchecked("-2.3e999".to_owned()), + ), + ]); +} + +#[test] +fn test_parse_string() { + test_parse_err::<String>(&[ + ("\"", "EOF while parsing a string at line 1 column 1"), + ("\"lol", "EOF while parsing a string at line 1 column 4"), + ("\"lol\"a", "trailing characters at line 1 column 6"), + ( + "\"\\uD83C\\uFFFF\"", + "lone leading surrogate in hex escape at line 1 column 13", + ), + ( + "\"\n\"", + "control character (\\u0000-\\u001F) found while parsing a string at line 2 column 0", + ), + ( + "\"\x1F\"", + "control character (\\u0000-\\u001F) found while parsing a string at line 1 column 2", + ), + ]); + + test_parse_slice_err::<String>(&[ + ( + &[b'"', 159, 146, 150, b'"'], + "invalid unicode code point at line 1 column 5", + ), + ( + &[b'"', b'\\', b'n', 159, 146, 150, b'"'], + "invalid unicode code point at line 1 column 7", + ), + ( + &[b'"', b'\\', b'u', 48, 48, 51], + "EOF while parsing a string at line 1 column 6", + ), + ( + &[b'"', b'\\', b'u', 250, 48, 51, 48, b'"'], + "invalid escape at line 1 column 4", + ), + ( + &[b'"', b'\\', b'u', 48, 250, 51, 48, b'"'], + "invalid escape at line 1 column 5", + ), + ( + &[b'"', b'\\', b'u', 48, 48, 250, 48, b'"'], + "invalid escape at line 1 column 6", + ), + ( + &[b'"', b'\\', b'u', 48, 48, 51, 250, b'"'], + "invalid escape at line 1 column 7", + ), + ( + &[b'"', b'\n', b'"'], + "control character (\\u0000-\\u001F) found while parsing a string at line 2 column 0", + ), + ( + &[b'"', b'\x1F', b'"'], + "control character (\\u0000-\\u001F) found while parsing a string at line 1 column 2", + ), + ]); + + test_parse_ok(vec![ + ("\"\"", String::new()), + ("\"foo\"", "foo".to_string()), + (" \"foo\" ", "foo".to_string()), + ("\"\\\"\"", "\"".to_string()), + ("\"\\b\"", "\x08".to_string()), + ("\"\\n\"", "\n".to_string()), + ("\"\\r\"", "\r".to_string()), + ("\"\\t\"", "\t".to_string()), + ("\"\\u12ab\"", "\u{12ab}".to_string()), + ("\"\\uAB12\"", "\u{AB12}".to_string()), + ("\"\\uD83C\\uDF95\"", "\u{1F395}".to_string()), + ]); +} + +#[test] +fn test_parse_list() { + test_parse_err::<Vec<f64>>(&[ + ("[", "EOF while parsing a list at line 1 column 1"), + ("[ ", "EOF while parsing a list at line 1 column 2"), + ("[1", "EOF while parsing a list at line 1 column 2"), + ("[1,", "EOF while parsing a value at line 1 column 3"), + ("[1,]", "trailing comma at line 1 column 4"), + ("[1 2]", "expected `,` or `]` at line 1 column 4"), + ("[]a", "trailing characters at line 1 column 3"), + ]); + + test_parse_ok(vec![ + ("[]", vec![]), + ("[ ]", vec![]), + ("[null]", vec![()]), + (" [ null ] ", vec![()]), + ]); + + test_parse_ok(vec![("[true]", vec![true])]); + + test_parse_ok(vec![("[3,1]", vec![3u64, 1]), (" [ 3 , 1 ] ", vec![3, 1])]); + + test_parse_ok(vec![("[[3], [1, 2]]", vec![vec![3u64], vec![1, 2]])]); + + test_parse_ok(vec![("[1]", (1u64,))]); + + test_parse_ok(vec![("[1, 2]", (1u64, 2u64))]); + + test_parse_ok(vec![("[1, 2, 3]", (1u64, 2u64, 3u64))]); + + test_parse_ok(vec![("[1, [2, 3]]", (1u64, (2u64, 3u64)))]); +} + +#[test] +fn test_parse_object() { + test_parse_err::<BTreeMap<String, u32>>(&[ + ("{", "EOF while parsing an object at line 1 column 1"), + ("{ ", "EOF while parsing an object at line 1 column 2"), + ("{1", "key must be a string at line 1 column 2"), + ("{ \"a\"", "EOF while parsing an object at line 1 column 5"), + ("{\"a\"", "EOF while parsing an object at line 1 column 4"), + ("{\"a\" ", "EOF while parsing an object at line 1 column 5"), + ("{\"a\" 1", "expected `:` at line 1 column 6"), + ("{\"a\":", "EOF while parsing a value at line 1 column 5"), + ("{\"a\":1", "EOF while parsing an object at line 1 column 6"), + ("{\"a\":1 1", "expected `,` or `}` at line 1 column 8"), + ("{\"a\":1,", "EOF while parsing a value at line 1 column 7"), + ("{}a", "trailing characters at line 1 column 3"), + ]); + + test_parse_ok(vec![ + ("{}", treemap!()), + ("{ }", treemap!()), + ("{\"a\":3}", treemap!("a".to_string() => 3u64)), + ("{ \"a\" : 3 }", treemap!("a".to_string() => 3)), + ( + "{\"a\":3,\"b\":4}", + treemap!("a".to_string() => 3, "b".to_string() => 4), + ), + ( + " { \"a\" : 3 , \"b\" : 4 } ", + treemap!("a".to_string() => 3, "b".to_string() => 4), + ), + ]); + + test_parse_ok(vec![( + "{\"a\": {\"b\": 3, \"c\": 4}}", + treemap!( + "a".to_string() => treemap!( + "b".to_string() => 3u64, + "c".to_string() => 4, + ), + ), + )]); + + test_parse_ok(vec![("{\"c\":null}", treemap!('c' => ()))]); +} + +#[test] +fn test_parse_struct() { + test_parse_err::<Outer>(&[ + ( + "5", + "invalid type: integer `5`, expected struct Outer at line 1 column 1", + ), + ( + "\"hello\"", + "invalid type: string \"hello\", expected struct Outer at line 1 column 7", + ), + ( + "{\"inner\": true}", + "invalid type: boolean `true`, expected a sequence at line 1 column 14", + ), + ("{}", "missing field `inner` at line 1 column 2"), + ( + r#"{"inner": [{"b": 42, "c": []}]}"#, + "missing field `a` at line 1 column 29", + ), + ]); + + test_parse_ok(vec![ + ( + "{ + \"inner\": [] + }", + Outer { inner: vec![] }, + ), + ( + "{ + \"inner\": [ + { \"a\": null, \"b\": 2, \"c\": [\"abc\", \"xyz\"] } + ] + }", + Outer { + inner: vec![Inner { + a: (), + b: 2, + c: vec!["abc".to_string(), "xyz".to_string()], + }], + }, + ), + ]); + + let v: Outer = from_str( + "[ + [ + [ null, 2, [\"abc\", \"xyz\"] ] + ] + ]", + ) + .unwrap(); + + assert_eq!( + v, + Outer { + inner: vec![Inner { + a: (), + b: 2, + c: vec!["abc".to_string(), "xyz".to_string()], + }], + } + ); + + let j = json!([null, 2, []]); + Inner::deserialize(&j).unwrap(); + Inner::deserialize(j).unwrap(); +} + +#[test] +fn test_parse_option() { + test_parse_ok(vec![ + ("null", None::<String>), + ("\"jodhpurs\"", Some("jodhpurs".to_string())), + ]); + + #[derive(Clone, Debug, PartialEq, Serialize, Deserialize)] + struct Foo { + x: Option<isize>, + } + + let value: Foo = from_str("{}").unwrap(); + assert_eq!(value, Foo { x: None }); + + test_parse_ok(vec![ + ("{\"x\": null}", Foo { x: None }), + ("{\"x\": 5}", Foo { x: Some(5) }), + ]); +} + +#[test] +fn test_parse_enum_errors() { + test_parse_err::<Animal>( + &[ + ("{}", "expected value at line 1 column 2"), + ("[]", "expected value at line 1 column 1"), + ("\"unknown\"", + "unknown variant `unknown`, expected one of `Dog`, `Frog`, `Cat`, `AntHive` at line 1 column 9"), + ("{\"unknown\":null}", + "unknown variant `unknown`, expected one of `Dog`, `Frog`, `Cat`, `AntHive` at line 1 column 10"), + ("{\"Dog\":", "EOF while parsing a value at line 1 column 7"), + ("{\"Dog\":}", "expected value at line 1 column 8"), + ("{\"Dog\":{}}", "invalid type: map, expected unit at line 1 column 7"), + ("\"Frog\"", "invalid type: unit variant, expected tuple variant"), + ("\"Frog\" 0 ", "invalid type: unit variant, expected tuple variant"), + ("{\"Frog\":{}}", + "invalid type: map, expected tuple variant Animal::Frog at line 1 column 8"), + ("{\"Cat\":[]}", "invalid length 0, expected struct variant Animal::Cat with 2 elements at line 1 column 9"), + ("{\"Cat\":[0]}", "invalid length 1, expected struct variant Animal::Cat with 2 elements at line 1 column 10"), + ("{\"Cat\":[0, \"\", 2]}", "trailing characters at line 1 column 16"), + ("{\"Cat\":{\"age\": 5, \"name\": \"Kate\", \"foo\":\"bar\"}", + "unknown field `foo`, expected `age` or `name` at line 1 column 39"), + + // JSON does not allow trailing commas in data structures + ("{\"Cat\":[0, \"Kate\",]}", "trailing comma at line 1 column 19"), + ("{\"Cat\":{\"age\": 2, \"name\": \"Kate\",}}", + "trailing comma at line 1 column 34"), + ], + ); +} + +#[test] +fn test_parse_enum() { + test_parse_ok(vec![ + ("\"Dog\"", Animal::Dog), + (" \"Dog\" ", Animal::Dog), + ( + "{\"Frog\":[\"Henry\",[]]}", + Animal::Frog("Henry".to_string(), vec![]), + ), + ( + " { \"Frog\": [ \"Henry\" , [ 349, 102 ] ] } ", + Animal::Frog("Henry".to_string(), vec![349, 102]), + ), + ( + "{\"Cat\": {\"age\": 5, \"name\": \"Kate\"}}", + Animal::Cat { + age: 5, + name: "Kate".to_string(), + }, + ), + ( + " { \"Cat\" : { \"age\" : 5 , \"name\" : \"Kate\" } } ", + Animal::Cat { + age: 5, + name: "Kate".to_string(), + }, + ), + ( + " { \"AntHive\" : [\"Bob\", \"Stuart\"] } ", + Animal::AntHive(vec!["Bob".to_string(), "Stuart".to_string()]), + ), + ]); + + test_parse_unusual_ok(vec![ + ("{\"Dog\":null}", Animal::Dog), + (" { \"Dog\" : null } ", Animal::Dog), + ]); + + test_parse_ok(vec![( + concat!( + "{", + " \"a\": \"Dog\",", + " \"b\": {\"Frog\":[\"Henry\", []]}", + "}" + ), + treemap!( + "a".to_string() => Animal::Dog, + "b".to_string() => Animal::Frog("Henry".to_string(), vec![]), + ), + )]); +} + +#[test] +fn test_parse_trailing_whitespace() { + test_parse_ok(vec![ + ("[1, 2] ", vec![1u64, 2]), + ("[1, 2]\n", vec![1, 2]), + ("[1, 2]\t", vec![1, 2]), + ("[1, 2]\t \n", vec![1, 2]), + ]); +} + +#[test] +fn test_multiline_errors() { + test_parse_err::<BTreeMap<String, String>>(&[( + "{\n \"foo\":\n \"bar\"", + "EOF while parsing an object at line 3 column 6", + )]); +} + +#[test] +fn test_missing_option_field() { + #[derive(Debug, PartialEq, Deserialize)] + struct Foo { + x: Option<u32>, + } + + let value: Foo = from_str("{}").unwrap(); + assert_eq!(value, Foo { x: None }); + + let value: Foo = from_str("{\"x\": 5}").unwrap(); + assert_eq!(value, Foo { x: Some(5) }); + + let value: Foo = from_value(json!({})).unwrap(); + assert_eq!(value, Foo { x: None }); + + let value: Foo = from_value(json!({"x": 5})).unwrap(); + assert_eq!(value, Foo { x: Some(5) }); +} + +#[test] +fn test_missing_nonoption_field() { + #[derive(Debug, PartialEq, Deserialize)] + struct Foo { + x: u32, + } + + test_parse_err::<Foo>(&[("{}", "missing field `x` at line 1 column 2")]); +} + +#[test] +fn test_missing_renamed_field() { + #[derive(Debug, PartialEq, Deserialize)] + struct Foo { + #[serde(rename = "y")] + x: Option<u32>, + } + + let value: Foo = from_str("{}").unwrap(); + assert_eq!(value, Foo { x: None }); + + let value: Foo = from_str("{\"y\": 5}").unwrap(); + assert_eq!(value, Foo { x: Some(5) }); + + let value: Foo = from_value(json!({})).unwrap(); + assert_eq!(value, Foo { x: None }); + + let value: Foo = from_value(json!({"y": 5})).unwrap(); + assert_eq!(value, Foo { x: Some(5) }); +} + +#[test] +fn test_serialize_seq_with_no_len() { + #[derive(Clone, Debug, PartialEq)] + struct MyVec<T>(Vec<T>); + + impl<T> ser::Serialize for MyVec<T> + where + T: ser::Serialize, + { + fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> + where + S: ser::Serializer, + { + let mut seq = serializer.serialize_seq(None)?; + for elem in &self.0 { + seq.serialize_element(elem)?; + } + seq.end() + } + } + + struct Visitor<T> { + marker: PhantomData<MyVec<T>>, + } + + impl<'de, T> de::Visitor<'de> for Visitor<T> + where + T: de::Deserialize<'de>, + { + type Value = MyVec<T>; + + fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { + formatter.write_str("array") + } + + fn visit_unit<E>(self) -> Result<MyVec<T>, E> + where + E: de::Error, + { + Ok(MyVec(Vec::new())) + } + + fn visit_seq<V>(self, mut visitor: V) -> Result<MyVec<T>, V::Error> + where + V: de::SeqAccess<'de>, + { + let mut values = Vec::new(); + + while let Some(value) = visitor.next_element()? { + values.push(value); + } + + Ok(MyVec(values)) + } + } + + impl<'de, T> de::Deserialize<'de> for MyVec<T> + where + T: de::Deserialize<'de>, + { + fn deserialize<D>(deserializer: D) -> Result<MyVec<T>, D::Error> + where + D: de::Deserializer<'de>, + { + deserializer.deserialize_map(Visitor { + marker: PhantomData, + }) + } + } + + let mut vec = Vec::new(); + vec.push(MyVec(Vec::new())); + vec.push(MyVec(Vec::new())); + let vec: MyVec<MyVec<u32>> = MyVec(vec); + + test_encode_ok(&[(vec.clone(), "[[],[]]")]); + + let s = to_string_pretty(&vec).unwrap(); + let expected = pretty_str!([[], []]); + assert_eq!(s, expected); +} + +#[test] +fn test_serialize_map_with_no_len() { + #[derive(Clone, Debug, PartialEq)] + struct MyMap<K, V>(BTreeMap<K, V>); + + impl<K, V> ser::Serialize for MyMap<K, V> + where + K: ser::Serialize + Ord, + V: ser::Serialize, + { + fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> + where + S: ser::Serializer, + { + let mut map = serializer.serialize_map(None)?; + for (k, v) in &self.0 { + map.serialize_entry(k, v)?; + } + map.end() + } + } + + struct Visitor<K, V> { + marker: PhantomData<MyMap<K, V>>, + } + + impl<'de, K, V> de::Visitor<'de> for Visitor<K, V> + where + K: de::Deserialize<'de> + Eq + Ord, + V: de::Deserialize<'de>, + { + type Value = MyMap<K, V>; + + fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { + formatter.write_str("map") + } + + fn visit_unit<E>(self) -> Result<MyMap<K, V>, E> + where + E: de::Error, + { + Ok(MyMap(BTreeMap::new())) + } + + fn visit_map<Visitor>(self, mut visitor: Visitor) -> Result<MyMap<K, V>, Visitor::Error> + where + Visitor: de::MapAccess<'de>, + { + let mut values = BTreeMap::new(); + + while let Some((key, value)) = visitor.next_entry()? { + values.insert(key, value); + } + + Ok(MyMap(values)) + } + } + + impl<'de, K, V> de::Deserialize<'de> for MyMap<K, V> + where + K: de::Deserialize<'de> + Eq + Ord, + V: de::Deserialize<'de>, + { + fn deserialize<D>(deserializer: D) -> Result<MyMap<K, V>, D::Error> + where + D: de::Deserializer<'de>, + { + deserializer.deserialize_map(Visitor { + marker: PhantomData, + }) + } + } + + let mut map = BTreeMap::new(); + map.insert("a", MyMap(BTreeMap::new())); + map.insert("b", MyMap(BTreeMap::new())); + let map: MyMap<_, MyMap<u32, u32>> = MyMap(map); + + test_encode_ok(&[(map.clone(), "{\"a\":{},\"b\":{}}")]); + + let s = to_string_pretty(&map).unwrap(); + let expected = pretty_str!({ + "a": {}, + "b": {} + }); + assert_eq!(s, expected); +} + +#[cfg(not(miri))] +#[test] +fn test_deserialize_from_stream() { + use serde_json::to_writer; + use std::net::{TcpListener, TcpStream}; + use std::thread; + + #[derive(Debug, PartialEq, Serialize, Deserialize)] + struct Message { + message: String, + } + + let l = TcpListener::bind("localhost:20000").unwrap(); + + thread::spawn(|| { + let l = l; + for stream in l.incoming() { + let mut stream = stream.unwrap(); + let read_stream = stream.try_clone().unwrap(); + + let mut de = Deserializer::from_reader(read_stream); + let request = Message::deserialize(&mut de).unwrap(); + let response = Message { + message: request.message, + }; + to_writer(&mut stream, &response).unwrap(); + } + }); + + let mut stream = TcpStream::connect("localhost:20000").unwrap(); + let request = Message { + message: "hi there".to_string(), + }; + to_writer(&mut stream, &request).unwrap(); + + let mut de = Deserializer::from_reader(stream); + let response = Message::deserialize(&mut de).unwrap(); + + assert_eq!(request, response); +} + +#[test] +fn test_serialize_rejects_adt_keys() { + let map = treemap!( + Some("a") => 2, + Some("b") => 4, + None => 6, + ); + + let err = to_vec(&map).unwrap_err(); + assert_eq!(err.to_string(), "key must be a string"); +} + +#[test] +fn test_bytes_ser() { + let buf = vec![]; + let bytes = Bytes::new(&buf); + assert_eq!(to_string(&bytes).unwrap(), "[]".to_string()); + + let buf = vec![1, 2, 3]; + let bytes = Bytes::new(&buf); + assert_eq!(to_string(&bytes).unwrap(), "[1,2,3]".to_string()); +} + +#[test] +fn test_byte_buf_ser() { + let bytes = ByteBuf::new(); + assert_eq!(to_string(&bytes).unwrap(), "[]".to_string()); + + let bytes = ByteBuf::from(vec![1, 2, 3]); + assert_eq!(to_string(&bytes).unwrap(), "[1,2,3]".to_string()); +} + +#[test] +fn test_byte_buf_de() { + let bytes = ByteBuf::new(); + let v: ByteBuf = from_str("[]").unwrap(); + assert_eq!(v, bytes); + + let bytes = ByteBuf::from(vec![1, 2, 3]); + let v: ByteBuf = from_str("[1, 2, 3]").unwrap(); + assert_eq!(v, bytes); +} + +#[test] +fn test_byte_buf_de_lone_surrogate() { + let bytes = ByteBuf::from(vec![237, 160, 188]); + let v: ByteBuf = from_str(r#""\ud83c""#).unwrap(); + assert_eq!(v, bytes); + + let bytes = ByteBuf::from(vec![237, 160, 188, 10]); + let v: ByteBuf = from_str(r#""\ud83c\n""#).unwrap(); + assert_eq!(v, bytes); + + let bytes = ByteBuf::from(vec![237, 160, 188, 32]); + let v: ByteBuf = from_str(r#""\ud83c ""#).unwrap(); + assert_eq!(v, bytes); + + let bytes = ByteBuf::from(vec![237, 176, 129]); + let v: ByteBuf = from_str(r#""\udc01""#).unwrap(); + assert_eq!(v, bytes); + + let res = from_str::<ByteBuf>(r#""\ud83c\!""#); + assert!(res.is_err()); + + let res = from_str::<ByteBuf>(r#""\ud83c\u""#); + assert!(res.is_err()); + + let res = from_str::<ByteBuf>(r#""\ud83c\ud83c""#); + assert!(res.is_err()); +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_raw_de_lone_surrogate() { + use serde_json::value::RawValue; + + assert!(from_str::<Box<RawValue>>(r#""\ud83c""#).is_ok()); + assert!(from_str::<Box<RawValue>>(r#""\ud83c\n""#).is_ok()); + assert!(from_str::<Box<RawValue>>(r#""\ud83c ""#).is_ok()); + assert!(from_str::<Box<RawValue>>(r#""\udc01 ""#).is_ok()); + assert!(from_str::<Box<RawValue>>(r#""\udc01\!""#).is_err()); + assert!(from_str::<Box<RawValue>>(r#""\udc01\u""#).is_err()); + assert!(from_str::<Box<RawValue>>(r#""\ud83c\ud83c""#).is_ok()); +} + +#[test] +fn test_byte_buf_de_multiple() { + let s: Vec<ByteBuf> = from_str(r#"["ab\nc", "cd\ne"]"#).unwrap(); + let a = ByteBuf::from(b"ab\nc".to_vec()); + let b = ByteBuf::from(b"cd\ne".to_vec()); + assert_eq!(vec![a, b], s); +} + +#[test] +fn test_json_pointer() { + // Test case taken from https://tools.ietf.org/html/rfc6901#page-5 + let data: Value = from_str( + r#"{ + "foo": ["bar", "baz"], + "": 0, + "a/b": 1, + "c%d": 2, + "e^f": 3, + "g|h": 4, + "i\\j": 5, + "k\"l": 6, + " ": 7, + "m~n": 8 + }"#, + ) + .unwrap(); + assert_eq!(data.pointer("").unwrap(), &data); + assert_eq!(data.pointer("/foo").unwrap(), &json!(["bar", "baz"])); + assert_eq!(data.pointer("/foo/0").unwrap(), &json!("bar")); + assert_eq!(data.pointer("/").unwrap(), &json!(0)); + assert_eq!(data.pointer("/a~1b").unwrap(), &json!(1)); + assert_eq!(data.pointer("/c%d").unwrap(), &json!(2)); + assert_eq!(data.pointer("/e^f").unwrap(), &json!(3)); + assert_eq!(data.pointer("/g|h").unwrap(), &json!(4)); + assert_eq!(data.pointer("/i\\j").unwrap(), &json!(5)); + assert_eq!(data.pointer("/k\"l").unwrap(), &json!(6)); + assert_eq!(data.pointer("/ ").unwrap(), &json!(7)); + assert_eq!(data.pointer("/m~0n").unwrap(), &json!(8)); + // Invalid pointers + assert!(data.pointer("/unknown").is_none()); + assert!(data.pointer("/e^f/ertz").is_none()); + assert!(data.pointer("/foo/00").is_none()); + assert!(data.pointer("/foo/01").is_none()); +} + +#[test] +fn test_json_pointer_mut() { + // Test case taken from https://tools.ietf.org/html/rfc6901#page-5 + let mut data: Value = from_str( + r#"{ + "foo": ["bar", "baz"], + "": 0, + "a/b": 1, + "c%d": 2, + "e^f": 3, + "g|h": 4, + "i\\j": 5, + "k\"l": 6, + " ": 7, + "m~n": 8 + }"#, + ) + .unwrap(); + + // Basic pointer checks + assert_eq!(data.pointer_mut("/foo").unwrap(), &json!(["bar", "baz"])); + assert_eq!(data.pointer_mut("/foo/0").unwrap(), &json!("bar")); + assert_eq!(data.pointer_mut("/").unwrap(), 0); + assert_eq!(data.pointer_mut("/a~1b").unwrap(), 1); + assert_eq!(data.pointer_mut("/c%d").unwrap(), 2); + assert_eq!(data.pointer_mut("/e^f").unwrap(), 3); + assert_eq!(data.pointer_mut("/g|h").unwrap(), 4); + assert_eq!(data.pointer_mut("/i\\j").unwrap(), 5); + assert_eq!(data.pointer_mut("/k\"l").unwrap(), 6); + assert_eq!(data.pointer_mut("/ ").unwrap(), 7); + assert_eq!(data.pointer_mut("/m~0n").unwrap(), 8); + + // Invalid pointers + assert!(data.pointer_mut("/unknown").is_none()); + assert!(data.pointer_mut("/e^f/ertz").is_none()); + assert!(data.pointer_mut("/foo/00").is_none()); + assert!(data.pointer_mut("/foo/01").is_none()); + + // Mutable pointer checks + *data.pointer_mut("/").unwrap() = 100.into(); + assert_eq!(data.pointer("/").unwrap(), 100); + *data.pointer_mut("/foo/0").unwrap() = json!("buzz"); + assert_eq!(data.pointer("/foo/0").unwrap(), &json!("buzz")); + + // Example of ownership stealing + assert_eq!( + data.pointer_mut("/a~1b") + .map(|m| mem::replace(m, json!(null))) + .unwrap(), + 1 + ); + assert_eq!(data.pointer("/a~1b").unwrap(), &json!(null)); + + // Need to compare against a clone so we don't anger the borrow checker + // by taking out two references to a mutable value + let mut d2 = data.clone(); + assert_eq!(data.pointer_mut("").unwrap(), &mut d2); +} + +#[test] +fn test_stack_overflow() { + let brackets: String = iter::repeat('[') + .take(127) + .chain(iter::repeat(']').take(127)) + .collect(); + let _: Value = from_str(&brackets).unwrap(); + + let brackets = "[".repeat(129); + test_parse_err::<Value>(&[(&brackets, "recursion limit exceeded at line 1 column 128")]); +} + +#[test] +#[cfg(feature = "unbounded_depth")] +fn test_disable_recursion_limit() { + let brackets: String = iter::repeat('[') + .take(140) + .chain(iter::repeat(']').take(140)) + .collect(); + + let mut deserializer = Deserializer::from_str(&brackets); + deserializer.disable_recursion_limit(); + Value::deserialize(&mut deserializer).unwrap(); +} + +#[test] +fn test_integer_key() { + // map with integer keys + let map = treemap!( + 1 => 2, + -1 => 6, + ); + let j = r#"{"-1":6,"1":2}"#; + test_encode_ok(&[(&map, j)]); + test_parse_ok(vec![(j, map)]); + + test_parse_err::<BTreeMap<i32, ()>>(&[ + ( + r#"{"x":null}"#, + "invalid value: expected key to be a number in quotes at line 1 column 2", + ), + ( + r#"{" 123":null}"#, + "invalid value: expected key to be a number in quotes at line 1 column 2", + ), + (r#"{"123 ":null}"#, "expected `\"` at line 1 column 6"), + ]); + + let err = from_value::<BTreeMap<i32, ()>>(json!({" 123":null})).unwrap_err(); + assert_eq!( + err.to_string(), + "invalid value: expected key to be a number in quotes", + ); + + let err = from_value::<BTreeMap<i32, ()>>(json!({"123 ":null})).unwrap_err(); + assert_eq!( + err.to_string(), + "invalid value: expected key to be a number in quotes", + ); +} + +#[test] +fn test_integer128_key() { + let map = treemap! { + 100000000000000000000000000000000000000u128 => (), + }; + let j = r#"{"100000000000000000000000000000000000000":null}"#; + assert_eq!(to_string(&map).unwrap(), j); + assert_eq!(from_str::<BTreeMap<u128, ()>>(j).unwrap(), map); +} + +#[test] +fn test_float_key() { + #[derive(Eq, PartialEq, Ord, PartialOrd, Debug, Clone)] + struct Float; + impl Serialize for Float { + fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> + where + S: Serializer, + { + serializer.serialize_f32(1.23) + } + } + impl<'de> Deserialize<'de> for Float { + fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> + where + D: de::Deserializer<'de>, + { + f32::deserialize(deserializer).map(|_| Float) + } + } + + // map with float key + let map = treemap!(Float => "x".to_owned()); + let j = r#"{"1.23":"x"}"#; + + test_encode_ok(&[(&map, j)]); + test_parse_ok(vec![(j, map)]); + + let j = r#"{"x": null}"#; + test_parse_err::<BTreeMap<Float, ()>>(&[( + j, + "invalid value: expected key to be a number in quotes at line 1 column 2", + )]); +} + +#[test] +fn test_deny_non_finite_f32_key() { + // We store float bits so that we can derive Ord, and other traits. In a + // real context the code might involve a crate like ordered-float. + + #[derive(Eq, PartialEq, Ord, PartialOrd, Debug, Clone)] + struct F32Bits(u32); + impl Serialize for F32Bits { + fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> + where + S: Serializer, + { + serializer.serialize_f32(f32::from_bits(self.0)) + } + } + + let map = treemap!(F32Bits(f32::INFINITY.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); + + let map = treemap!(F32Bits(f32::NEG_INFINITY.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); + + let map = treemap!(F32Bits(f32::NAN.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); +} + +#[test] +fn test_deny_non_finite_f64_key() { + // We store float bits so that we can derive Ord, and other traits. In a + // real context the code might involve a crate like ordered-float. + + #[derive(Eq, PartialEq, Ord, PartialOrd, Debug, Clone)] + struct F64Bits(u64); + impl Serialize for F64Bits { + fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> + where + S: Serializer, + { + serializer.serialize_f64(f64::from_bits(self.0)) + } + } + + let map = treemap!(F64Bits(f64::INFINITY.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); + + let map = treemap!(F64Bits(f64::NEG_INFINITY.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); + + let map = treemap!(F64Bits(f64::NAN.to_bits()) => "x".to_owned()); + assert!(serde_json::to_string(&map).is_err()); + assert!(serde_json::to_value(map).is_err()); +} + +#[test] +fn test_boolean_key() { + let map = treemap!(false => 0, true => 1); + let j = r#"{"false":0,"true":1}"#; + test_encode_ok(&[(&map, j)]); + test_parse_ok(vec![(j, map)]); +} + +#[test] +fn test_borrowed_key() { + let map: BTreeMap<&str, ()> = from_str("{\"borrowed\":null}").unwrap(); + let expected = treemap! { "borrowed" => () }; + assert_eq!(map, expected); + + #[derive(Deserialize, Debug, Ord, PartialOrd, Eq, PartialEq)] + struct NewtypeStr<'a>(&'a str); + + let map: BTreeMap<NewtypeStr, ()> = from_str("{\"borrowed\":null}").unwrap(); + let expected = treemap! { NewtypeStr("borrowed") => () }; + assert_eq!(map, expected); +} + +#[test] +fn test_effectively_string_keys() { + #[derive(Eq, PartialEq, Ord, PartialOrd, Debug, Clone, Serialize, Deserialize)] + enum Enum { + One, + Two, + } + let map = treemap! { + Enum::One => 1, + Enum::Two => 2, + }; + let expected = r#"{"One":1,"Two":2}"#; + test_encode_ok(&[(&map, expected)]); + test_parse_ok(vec![(expected, map)]); + + #[derive(Eq, PartialEq, Ord, PartialOrd, Debug, Clone, Serialize, Deserialize)] + struct Wrapper(String); + let map = treemap! { + Wrapper("zero".to_owned()) => 0, + Wrapper("one".to_owned()) => 1, + }; + let expected = r#"{"one":1,"zero":0}"#; + test_encode_ok(&[(&map, expected)]); + test_parse_ok(vec![(expected, map)]); +} + +#[test] +fn test_json_macro() { + // This is tricky because the <...> is not a single TT and the comma inside + // looks like an array element separator. + let _ = json!([ + <Result<(), ()> as Clone>::clone(&Ok(())), + <Result<(), ()> as Clone>::clone(&Err(())) + ]); + + // Same thing but in the map values. + let _ = json!({ + "ok": <Result<(), ()> as Clone>::clone(&Ok(())), + "err": <Result<(), ()> as Clone>::clone(&Err(())) + }); + + // It works in map keys but only if they are parenthesized. + let _ = json!({ + (<Result<&str, ()> as Clone>::clone(&Ok("")).unwrap()): "ok", + (<Result<(), &str> as Clone>::clone(&Err("")).unwrap_err()): "err" + }); + + #[deny(unused_results)] + let _ = json!({ "architecture": [true, null] }); +} + +#[test] +fn issue_220() { + #[derive(Debug, PartialEq, Eq, Deserialize)] + enum E { + V(u8), + } + + assert!(from_str::<E>(r#" "V"0 "#).is_err()); + + assert_eq!(from_str::<E>(r#"{"V": 0}"#).unwrap(), E::V(0)); +} + +macro_rules! number_partialeq_ok { + ($($n:expr)*) => { + $( + let value = to_value($n).unwrap(); + let s = $n.to_string(); + assert_eq!(value, $n); + assert_eq!($n, value); + assert_ne!(value, s); + )* + } +} + +#[test] +fn test_partialeq_number() { + number_partialeq_ok!(0 1 100 + i8::MIN i8::MAX i16::MIN i16::MAX i32::MIN i32::MAX i64::MIN i64::MAX + u8::MIN u8::MAX u16::MIN u16::MAX u32::MIN u32::MAX u64::MIN u64::MAX + f32::MIN f32::MAX f32::MIN_EXP f32::MAX_EXP f32::MIN_POSITIVE + f64::MIN f64::MAX f64::MIN_EXP f64::MAX_EXP f64::MIN_POSITIVE + f32::consts::E f32::consts::PI f32::consts::LN_2 f32::consts::LOG2_E + f64::consts::E f64::consts::PI f64::consts::LN_2 f64::consts::LOG2_E + ); +} + +#[test] +#[cfg(integer128)] +#[cfg(feature = "arbitrary_precision")] +fn test_partialeq_integer128() { + number_partialeq_ok!(i128::MIN i128::MAX u128::MIN u128::MAX) +} + +#[test] +fn test_partialeq_string() { + let v = to_value("42").unwrap(); + assert_eq!(v, "42"); + assert_eq!("42", v); + assert_ne!(v, 42); + assert_eq!(v, String::from("42")); + assert_eq!(String::from("42"), v); +} + +#[test] +fn test_partialeq_bool() { + let v = to_value(true).unwrap(); + assert_eq!(v, true); + assert_eq!(true, v); + assert_ne!(v, false); + assert_ne!(v, "true"); + assert_ne!(v, 1); + assert_ne!(v, 0); +} + +struct FailReader(io::ErrorKind); + +impl io::Read for FailReader { + fn read(&mut self, _: &mut [u8]) -> io::Result<usize> { + Err(io::Error::new(self.0, "oh no!")) + } +} + +#[test] +fn test_category() { + assert!(from_str::<String>("123").unwrap_err().is_data()); + + assert!(from_str::<String>("]").unwrap_err().is_syntax()); + + assert!(from_str::<String>("").unwrap_err().is_eof()); + assert!(from_str::<String>("\"").unwrap_err().is_eof()); + assert!(from_str::<String>("\"\\").unwrap_err().is_eof()); + assert!(from_str::<String>("\"\\u").unwrap_err().is_eof()); + assert!(from_str::<String>("\"\\u0").unwrap_err().is_eof()); + assert!(from_str::<String>("\"\\u00").unwrap_err().is_eof()); + assert!(from_str::<String>("\"\\u000").unwrap_err().is_eof()); + + assert!(from_str::<Vec<usize>>("[").unwrap_err().is_eof()); + assert!(from_str::<Vec<usize>>("[0").unwrap_err().is_eof()); + assert!(from_str::<Vec<usize>>("[0,").unwrap_err().is_eof()); + + assert!(from_str::<BTreeMap<String, usize>>("{") + .unwrap_err() + .is_eof()); + assert!(from_str::<BTreeMap<String, usize>>("{\"k\"") + .unwrap_err() + .is_eof()); + assert!(from_str::<BTreeMap<String, usize>>("{\"k\":") + .unwrap_err() + .is_eof()); + assert!(from_str::<BTreeMap<String, usize>>("{\"k\":0") + .unwrap_err() + .is_eof()); + assert!(from_str::<BTreeMap<String, usize>>("{\"k\":0,") + .unwrap_err() + .is_eof()); + + let fail = FailReader(io::ErrorKind::NotConnected); + assert!(from_reader::<_, String>(fail).unwrap_err().is_io()); +} + +#[test] +// Clippy false positive: https://github.com/Manishearth/rust-clippy/issues/292 +#[allow(clippy::needless_lifetimes)] +fn test_into_io_error() { + fn io_error<'de, T: Deserialize<'de> + Debug>(j: &'static str) -> io::Error { + from_str::<T>(j).unwrap_err().into() + } + + assert_eq!( + io_error::<String>("\"\\u").kind(), + io::ErrorKind::UnexpectedEof + ); + assert_eq!(io_error::<String>("0").kind(), io::ErrorKind::InvalidData); + assert_eq!(io_error::<String>("]").kind(), io::ErrorKind::InvalidData); + + let fail = FailReader(io::ErrorKind::NotConnected); + let io_err: io::Error = from_reader::<_, u8>(fail).unwrap_err().into(); + assert_eq!(io_err.kind(), io::ErrorKind::NotConnected); +} + +#[test] +fn test_borrow() { + let s: &str = from_str("\"borrowed\"").unwrap(); + assert_eq!("borrowed", s); + + let s: &str = from_slice(b"\"borrowed\"").unwrap(); + assert_eq!("borrowed", s); +} + +#[test] +fn null_invalid_type() { + let err = serde_json::from_str::<String>("null").unwrap_err(); + assert_eq!( + format!("{}", err), + String::from("invalid type: null, expected a string at line 1 column 4") + ); +} + +#[test] +fn test_integer128() { + let signed = &[i128::min_value(), -1, 0, 1, i128::max_value()]; + let unsigned = &[0, 1, u128::max_value()]; + + for integer128 in signed { + let expected = integer128.to_string(); + assert_eq!(to_string(integer128).unwrap(), expected); + assert_eq!(from_str::<i128>(&expected).unwrap(), *integer128); + } + + for integer128 in unsigned { + let expected = integer128.to_string(); + assert_eq!(to_string(integer128).unwrap(), expected); + assert_eq!(from_str::<u128>(&expected).unwrap(), *integer128); + } + + test_parse_err::<i128>(&[ + ( + "-170141183460469231731687303715884105729", + "number out of range at line 1 column 40", + ), + ( + "170141183460469231731687303715884105728", + "number out of range at line 1 column 39", + ), + ]); + + test_parse_err::<u128>(&[ + ("-1", "number out of range at line 1 column 1"), + ( + "340282366920938463463374607431768211456", + "number out of range at line 1 column 39", + ), + ]); +} + +#[test] +fn test_integer128_to_value() { + let signed = &[i128::from(i64::min_value()), i128::from(u64::max_value())]; + let unsigned = &[0, u128::from(u64::max_value())]; + + for integer128 in signed { + let expected = integer128.to_string(); + assert_eq!(to_value(integer128).unwrap().to_string(), expected); + } + + for integer128 in unsigned { + let expected = integer128.to_string(); + assert_eq!(to_value(integer128).unwrap().to_string(), expected); + } + + if !cfg!(feature = "arbitrary_precision") { + let err = to_value(u128::from(u64::max_value()) + 1).unwrap_err(); + assert_eq!(err.to_string(), "number out of range"); + } +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_borrowed_raw_value() { + #[derive(Serialize, Deserialize)] + struct Wrapper<'a> { + a: i8, + #[serde(borrow)] + b: &'a RawValue, + c: i8, + } + + let wrapper_from_str: Wrapper = + serde_json::from_str(r#"{"a": 1, "b": {"foo": 2}, "c": 3}"#).unwrap(); + assert_eq!(r#"{"foo": 2}"#, wrapper_from_str.b.get()); + + let wrapper_to_string = serde_json::to_string(&wrapper_from_str).unwrap(); + assert_eq!(r#"{"a":1,"b":{"foo": 2},"c":3}"#, wrapper_to_string); + + let wrapper_to_value = serde_json::to_value(&wrapper_from_str).unwrap(); + assert_eq!(json!({"a": 1, "b": {"foo": 2}, "c": 3}), wrapper_to_value); + + let array_from_str: Vec<&RawValue> = + serde_json::from_str(r#"["a", 42, {"foo": "bar"}, null]"#).unwrap(); + assert_eq!(r#""a""#, array_from_str[0].get()); + assert_eq!(r#"42"#, array_from_str[1].get()); + assert_eq!(r#"{"foo": "bar"}"#, array_from_str[2].get()); + assert_eq!(r#"null"#, array_from_str[3].get()); + + let array_to_string = serde_json::to_string(&array_from_str).unwrap(); + assert_eq!(r#"["a",42,{"foo": "bar"},null]"#, array_to_string); +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_raw_value_in_map_key() { + #[derive(RefCast)] + #[repr(transparent)] + struct RawMapKey(RawValue); + + impl<'de> Deserialize<'de> for &'de RawMapKey { + fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> + where + D: serde::Deserializer<'de>, + { + let raw_value = <&RawValue>::deserialize(deserializer)?; + Ok(RawMapKey::ref_cast(raw_value)) + } + } + + impl PartialEq for RawMapKey { + fn eq(&self, other: &Self) -> bool { + self.0.get() == other.0.get() + } + } + + impl Eq for RawMapKey {} + + impl Hash for RawMapKey { + fn hash<H: Hasher>(&self, hasher: &mut H) { + self.0.get().hash(hasher); + } + } + + let map_from_str: HashMap<&RawMapKey, &RawValue> = + serde_json::from_str(r#" {"\\k":"\\v"} "#).unwrap(); + let (map_k, map_v) = map_from_str.into_iter().next().unwrap(); + assert_eq!("\"\\\\k\"", map_k.0.get()); + assert_eq!("\"\\\\v\"", map_v.get()); +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_boxed_raw_value() { + #[derive(Serialize, Deserialize)] + struct Wrapper { + a: i8, + b: Box<RawValue>, + c: i8, + } + + let wrapper_from_str: Wrapper = + serde_json::from_str(r#"{"a": 1, "b": {"foo": 2}, "c": 3}"#).unwrap(); + assert_eq!(r#"{"foo": 2}"#, wrapper_from_str.b.get()); + + let wrapper_from_reader: Wrapper = + serde_json::from_reader(br#"{"a": 1, "b": {"foo": 2}, "c": 3}"#.as_ref()).unwrap(); + assert_eq!(r#"{"foo": 2}"#, wrapper_from_reader.b.get()); + + let wrapper_from_value: Wrapper = + serde_json::from_value(json!({"a": 1, "b": {"foo": 2}, "c": 3})).unwrap(); + assert_eq!(r#"{"foo":2}"#, wrapper_from_value.b.get()); + + let wrapper_to_string = serde_json::to_string(&wrapper_from_str).unwrap(); + assert_eq!(r#"{"a":1,"b":{"foo": 2},"c":3}"#, wrapper_to_string); + + let wrapper_to_value = serde_json::to_value(&wrapper_from_str).unwrap(); + assert_eq!(json!({"a": 1, "b": {"foo": 2}, "c": 3}), wrapper_to_value); + + let array_from_str: Vec<Box<RawValue>> = + serde_json::from_str(r#"["a", 42, {"foo": "bar"}, null]"#).unwrap(); + assert_eq!(r#""a""#, array_from_str[0].get()); + assert_eq!(r#"42"#, array_from_str[1].get()); + assert_eq!(r#"{"foo": "bar"}"#, array_from_str[2].get()); + assert_eq!(r#"null"#, array_from_str[3].get()); + + let array_from_reader: Vec<Box<RawValue>> = + serde_json::from_reader(br#"["a", 42, {"foo": "bar"}, null]"#.as_ref()).unwrap(); + assert_eq!(r#""a""#, array_from_reader[0].get()); + assert_eq!(r#"42"#, array_from_reader[1].get()); + assert_eq!(r#"{"foo": "bar"}"#, array_from_reader[2].get()); + assert_eq!(r#"null"#, array_from_reader[3].get()); + + let array_to_string = serde_json::to_string(&array_from_str).unwrap(); + assert_eq!(r#"["a",42,{"foo": "bar"},null]"#, array_to_string); +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_raw_invalid_utf8() { + let j = &[b'"', b'\xCE', b'\xF8', b'"']; + let value_err = serde_json::from_slice::<Value>(j).unwrap_err(); + let raw_value_err = serde_json::from_slice::<Box<RawValue>>(j).unwrap_err(); + + assert_eq!( + value_err.to_string(), + "invalid unicode code point at line 1 column 4", + ); + assert_eq!( + raw_value_err.to_string(), + "invalid unicode code point at line 1 column 4", + ); +} + +#[cfg(feature = "raw_value")] +#[test] +fn test_serialize_unsized_value_to_raw_value() { + assert_eq!( + serde_json::value::to_raw_value("foobar").unwrap().get(), + r#""foobar""#, + ); +} + +#[test] +fn test_borrow_in_map_key() { + #[derive(Deserialize, Debug)] + struct Outer { + #[allow(dead_code)] + map: BTreeMap<MyMapKey, ()>, + } + + #[derive(Ord, PartialOrd, Eq, PartialEq, Debug)] + struct MyMapKey(usize); + + impl<'de> Deserialize<'de> for MyMapKey { + fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> + where + D: de::Deserializer<'de>, + { + let s = <&str>::deserialize(deserializer)?; + let n = s.parse().map_err(de::Error::custom)?; + Ok(MyMapKey(n)) + } + } + + let value = json!({ "map": { "1": null } }); + Outer::deserialize(&value).unwrap(); +} + +#[test] +fn test_value_into_deserializer() { + #[derive(Deserialize)] + struct Outer { + inner: Inner, + } + + #[derive(Deserialize)] + struct Inner { + string: String, + } + + let mut map = BTreeMap::new(); + map.insert("inner", json!({ "string": "Hello World" })); + + let outer = Outer::deserialize(serde::de::value::MapDeserializer::new( + map.iter().map(|(k, v)| (*k, v)), + )) + .unwrap(); + assert_eq!(outer.inner.string, "Hello World"); + + let outer = Outer::deserialize(map.into_deserializer()).unwrap(); + assert_eq!(outer.inner.string, "Hello World"); +} + +#[test] +fn hash_positive_and_negative_zero() { + let rand = std::hash::RandomState::new(); + + let k1 = serde_json::from_str::<Number>("0.0").unwrap(); + let k2 = serde_json::from_str::<Number>("-0.0").unwrap(); + if cfg!(feature = "arbitrary_precision") { + assert_ne!(k1, k2); + assert_ne!(rand.hash_one(k1), rand.hash_one(k2)); + } else { + assert_eq!(k1, k2); + assert_eq!(rand.hash_one(k1), rand.hash_one(k2)); + } +} |