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denoland-deno/serde_v8/tests/de.rs
Jakub Łabor 7a7767262a
chore(serde_v8): Use SeqAccess in MapObjectAccess to avoid intermediate allocation (#16137)
Existing implementation builds an intermediate vector of object keys
when deserializing using `MapObjectAccess`.

This logic is already handled by `SeqAccess` which can be used directly
by `MapObjectAccess`.
2022-10-03 12:37:18 +02:00

565 lines
14 KiB
Rust

// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use serde::{Deserialize, Deserializer};
use serde_v8::utils::{js_exec, v8_do};
use serde_v8::ByteString;
use serde_v8::Error;
use serde_v8::{U16String, ZeroCopyBuf};
#[derive(Debug, Deserialize, PartialEq)]
struct MathOp {
pub a: u64,
pub b: u64,
pub operator: Option<String>,
}
#[derive(Debug, PartialEq, Deserialize)]
enum EnumUnit {
A,
B,
C,
}
#[derive(Debug, PartialEq, Deserialize)]
enum EnumPayloads {
UInt(u64),
Int(i64),
Float(f64),
Point { x: i64, y: i64 },
Tuple(bool, i64, ()),
}
fn dedo(
code: &str,
f: impl FnOnce(&mut v8::HandleScope, v8::Local<v8::Value>),
) {
v8_do(|| {
let isolate = &mut v8::Isolate::new(v8::CreateParams::default());
let handle_scope = &mut v8::HandleScope::new(isolate);
let context = v8::Context::new(handle_scope);
let scope = &mut v8::ContextScope::new(handle_scope, context);
let v = js_exec(scope, code);
f(scope, v);
})
}
macro_rules! decheck {
($fn_name:ident, $t:ty, $src:expr, $x:ident, $check:expr) => {
#[test]
fn $fn_name() {
#[allow(clippy::bool_assert_comparison)]
dedo($src, |scope, v| {
let rt = serde_v8::from_v8(scope, v);
assert!(rt.is_ok(), "from_v8(\"{}\"): {:?}", $src, rt.err());
let $x: $t = rt.unwrap();
$check
});
}
};
}
macro_rules! detest {
($fn_name:ident, $t:ty, $src:expr, $rust:expr) => {
decheck!($fn_name, $t, $src, t, assert_eq!(t, $rust));
};
}
macro_rules! defail {
($fn_name:ident, $t:ty, $src:expr, $failcase:expr) => {
#[test]
fn $fn_name() {
#[allow(clippy::bool_assert_comparison)]
dedo($src, |scope, v| {
let rt: serde_v8::Result<$t> = serde_v8::from_v8(scope, v);
let rtstr = format!("{:?}", rt);
let failed_as_expected = $failcase(rt);
assert!(
failed_as_expected,
"expected failure on deserialize(\"{}\"), got: {}",
$src, rtstr
);
});
}
};
}
detest!(de_option_some, Option<bool>, "true", Some(true));
detest!(de_option_null, Option<bool>, "null", None);
detest!(de_option_undefined, Option<bool>, "undefined", None);
detest!(de_unit_null, (), "null", ());
detest!(de_unit_undefined, (), "undefined", ());
detest!(de_bool, bool, "true", true);
detest!(de_char, char, "'é'", 'é');
detest!(de_u64, u64, "32", 32);
detest!(de_string, String, "'Hello'", "Hello".to_owned());
detest!(de_vec_empty, Vec<u64>, "[]", vec![0; 0]);
detest!(de_vec_u64, Vec<u64>, "[1,2,3,4,5]", vec![1, 2, 3, 4, 5]);
detest!(
de_vec_str,
Vec<String>,
"['hello', 'world']",
vec!["hello".to_owned(), "world".to_owned()]
);
detest!(
de_tuple,
(u64, bool, ()),
"[123, true, null]",
(123, true, ())
);
defail!(
de_tuple_wrong_len_short,
(u64, bool, ()),
"[123, true]",
|e| e == Err(Error::LengthMismatch)
);
defail!(
de_tuple_wrong_len_long,
(u64, bool, ()),
"[123, true, null, 'extra']",
|e| e == Err(Error::LengthMismatch)
);
detest!(
de_mathop,
MathOp,
"({a: 1, b: 3, c: 'ignored'})",
MathOp {
a: 1,
b: 3,
operator: None
}
);
// Unit enums
detest!(de_enum_unit_a, EnumUnit, "'A'", EnumUnit::A);
detest!(de_enum_unit_so_a, EnumUnit, "new String('A')", EnumUnit::A);
detest!(de_enum_unit_b, EnumUnit, "'B'", EnumUnit::B);
detest!(de_enum_unit_so_b, EnumUnit, "new String('B')", EnumUnit::B);
detest!(de_enum_unit_c, EnumUnit, "'C'", EnumUnit::C);
detest!(de_enum_unit_so_c, EnumUnit, "new String('C')", EnumUnit::C);
// Enums with payloads (tuples & struct)
detest!(
de_enum_payload_int,
EnumPayloads,
"({ Int: -123 })",
EnumPayloads::Int(-123)
);
detest!(
de_enum_payload_uint,
EnumPayloads,
"({ UInt: 123 })",
EnumPayloads::UInt(123)
);
detest!(
de_enum_payload_float,
EnumPayloads,
"({ Float: 1.23 })",
EnumPayloads::Float(1.23)
);
detest!(
de_enum_payload_point,
EnumPayloads,
"({ Point: { x: 1, y: 2 } })",
EnumPayloads::Point { x: 1, y: 2 }
);
detest!(
de_enum_payload_tuple,
EnumPayloads,
"({ Tuple: [true, 123, null ] })",
EnumPayloads::Tuple(true, 123, ())
);
#[test]
fn de_f64() {
dedo("12345.0", |scope, v| {
let x: f64 = serde_v8::from_v8(scope, v).unwrap();
assert!((x - 12345.0).abs() < f64::EPSILON);
});
}
#[test]
fn de_map() {
use std::collections::HashMap;
dedo("({a: 1, b: 2, c: 3})", |scope, v| {
let map: HashMap<String, u64> = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(map.get("a").cloned(), Some(1));
assert_eq!(map.get("b").cloned(), Some(2));
assert_eq!(map.get("c").cloned(), Some(3));
assert_eq!(map.get("nada"), None);
})
}
#[test]
fn de_obj_with_numeric_keys() {
dedo(
r#"({
lines: {
100: {
unit: "m"
},
200: {
unit: "cm"
}
}
})"#,
|scope, v| {
let json: serde_json::Value = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(
json.to_string(),
r#"{"lines":{"100":{"unit":"m"},"200":{"unit":"cm"}}}"#
);
},
)
}
#[test]
fn de_string_or_buffer() {
dedo("'hello'", |scope, v| {
let sob: serde_v8::StringOrBuffer = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(sob.as_ref(), &[0x68, 0x65, 0x6C, 0x6C, 0x6F]);
});
dedo("new Uint8Array([97])", |scope, v| {
let sob: serde_v8::StringOrBuffer = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(sob.as_ref(), &[97]);
});
dedo("new Uint8Array([128])", |scope, v| {
let sob: serde_v8::StringOrBuffer = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(sob.as_ref(), &[128]);
});
dedo(
"(Uint8Array.from([0x68, 0x65, 0x6C, 0x6C, 0x6F]))",
|scope, v| {
let sob: serde_v8::StringOrBuffer = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(sob.as_ref(), &[0x68, 0x65, 0x6C, 0x6C, 0x6F]);
},
);
}
#[test]
fn de_buffers() {
// ArrayBufferView
dedo("new Uint8Array([97])", |scope, v| {
let buf: ZeroCopyBuf = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(&*buf, &[97]);
});
// ArrayBuffer
dedo("(new Uint8Array([97])).buffer", |scope, v| {
let buf: ZeroCopyBuf = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(&*buf, &[97]);
});
dedo(
"(Uint8Array.from([0x68, 0x65, 0x6C, 0x6C, 0x6F]))",
|scope, v| {
let buf: ZeroCopyBuf = serde_v8::from_v8(scope, v).unwrap();
assert_eq!(&*buf, &[0x68, 0x65, 0x6C, 0x6C, 0x6F]);
},
);
}
// Structs
#[derive(Debug, PartialEq, Deserialize)]
struct StructUnit;
#[derive(Debug, PartialEq)]
struct StructPayload {
a: u64,
b: u64,
}
struct StructVisitor;
impl<'de> serde::de::Visitor<'de> for StructVisitor {
type Value = StructPayload;
fn expecting(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result {
formatter.write_str("struct StructPayload")
}
fn visit_map<A>(self, mut map: A) -> Result<Self::Value, A::Error>
where
A: serde::de::MapAccess<'de>,
{
let mut payload = StructPayload { a: 0, b: 0 };
while let Some(key) = map.next_key::<String>()? {
match key.as_ref() {
"a" => payload.a = map.next_value()?,
"b" => payload.b = map.next_value()?,
f => panic!("Unknown field {}", f),
}
}
Ok(payload)
}
}
detest!(de_unit_struct, StructUnit, "'StructUnit'", StructUnit);
#[test]
fn de_struct() {
dedo("({ a: 1, b: 2 })", |scope, v| {
let mut de = serde_v8::Deserializer::new(scope, v, None);
let payload = de
.deserialize_struct("StructPayload", &[], StructVisitor)
.unwrap();
assert_eq!(payload, StructPayload { a: 1, b: 2 })
})
}
#[test]
fn de_struct_hint() {
dedo("({ a: 1, b: 2 })", |scope, v| {
let mut de = serde_v8::Deserializer::new(scope, v, None);
let payload = de
.deserialize_struct("StructPayload", &["a", "b"], StructVisitor)
.unwrap();
assert_eq!(payload, StructPayload { a: 1, b: 2 })
})
}
////
// JSON tests: serde_json::Value compatibility
////
detest!(
de_json_null,
serde_json::Value,
"null",
serde_json::Value::Null
);
detest!(
de_json_bool,
serde_json::Value,
"true",
serde_json::Value::Bool(true)
);
detest!(
de_json_int,
serde_json::Value,
"123",
serde_json::Value::Number(serde_json::Number::from(123))
);
detest!(
de_json_float,
serde_json::Value,
"123.45",
serde_json::Value::Number(serde_json::Number::from_f64(123.45).unwrap())
);
detest!(
de_json_string,
serde_json::Value,
"'Hello'",
serde_json::Value::String("Hello".to_string())
);
detest!(
de_json_vec_string,
serde_json::Value,
"['Hello', 'World']",
serde_json::Value::Array(vec![
serde_json::Value::String("Hello".to_string()),
serde_json::Value::String("World".to_string())
])
);
detest!(
de_json_tuple,
serde_json::Value,
"[true, 'World', 123.45, null]",
serde_json::Value::Array(vec![
serde_json::Value::Bool(true),
serde_json::Value::String("World".to_string()),
serde_json::Value::Number(serde_json::Number::from_f64(123.45).unwrap()),
serde_json::Value::Null,
])
);
detest!(
de_json_object,
serde_json::Value,
"({a: 1, b: 'hello', c: true})",
serde_json::json!({
"a": 1,
"b": "hello",
"c": true,
})
);
detest!(
de_json_object_from_map,
serde_json::Value,
"(new Map([['a', 1], ['b', 'hello'], ['c', true]]))",
serde_json::json!({
"a": 1,
"b": "hello",
"c": true,
})
);
// TODO: this is not optimal, ideally we'd get an array of [1,2,3] instead.
// Fixing that will require exposing Set::AsArray in the v8 bindings.
detest!(
de_json_object_from_set,
serde_json::Value,
"(new Set([1, 2, 3]))",
serde_json::json!({})
);
defail!(defail_struct, MathOp, "123", |e| e
== Err(Error::ExpectedObject));
#[derive(Eq, PartialEq, Debug, Deserialize)]
pub struct SomeThing {
pub a: String,
#[serde(default)]
pub b: String,
}
detest!(
de_struct_defaults,
SomeThing,
"({ a: 'hello' })",
SomeThing {
a: "hello".into(),
b: "".into()
}
);
detest!(de_bstr, ByteString, "'hello'", "hello".into());
defail!(defail_bstr, ByteString, "'👋bye'", |e| e
== Err(Error::ExpectedLatin1));
#[derive(Eq, PartialEq, Debug, Deserialize)]
pub struct StructWithBytes {
#[serde(with = "serde_bytes")]
a: Vec<u8>,
#[serde(with = "serde_bytes")]
b: Vec<u8>,
#[serde(with = "serde_bytes")]
c: Vec<u8>,
}
detest!(
de_struct_with_bytes,
StructWithBytes,
"({ a: new Uint8Array([1, 2]), b: (new Uint8Array([3 , 4])).buffer, c: (new Uint32Array([0])).buffer})",
StructWithBytes {
a: vec![1, 2],
b: vec![3, 4],
c: vec![0, 0, 0, 0],
}
);
detest!(
de_u16str,
U16String,
"'hello'",
"hello".encode_utf16().collect::<Vec<_>>().into()
);
detest!(
de_u16str_non_latin1,
U16String,
"'👋bye'",
"👋bye".encode_utf16().collect::<Vec<_>>().into()
);
// NaN
detest!(de_nan_u8, u8, "NaN", 0);
detest!(de_nan_u16, u16, "NaN", 0);
detest!(de_nan_u32, u32, "NaN", 0);
detest!(de_nan_u64, u64, "NaN", 0);
detest!(de_nan_i8, i8, "NaN", 0);
detest!(de_nan_i16, i16, "NaN", 0);
detest!(de_nan_i32, i32, "NaN", 0);
detest!(de_nan_i64, i64, "NaN", 0);
decheck!(de_nan_f32, f32, "NaN", t, assert!(t.is_nan()));
decheck!(de_nan_f64, f64, "NaN", t, assert!(t.is_nan()));
// Infinity
detest!(de_inf_u8, u8, "Infinity", u8::MAX);
detest!(de_inf_u16, u16, "Infinity", u16::MAX);
detest!(de_inf_u32, u32, "Infinity", u32::MAX);
detest!(de_inf_u64, u64, "Infinity", u64::MAX);
detest!(de_inf_i8, i8, "Infinity", i8::MAX);
detest!(de_inf_i16, i16, "Infinity", i16::MAX);
detest!(de_inf_i32, i32, "Infinity", i32::MAX);
detest!(de_inf_i64, i64, "Infinity", i64::MAX);
detest!(de_inf_f32, f32, "Infinity", f32::INFINITY);
detest!(de_inf_f64, f64, "Infinity", f64::INFINITY);
// -Infinity
detest!(de_neg_inf_u8, u8, "-Infinity", u8::MIN);
detest!(de_neg_inf_u16, u16, "-Infinity", u16::MIN);
detest!(de_neg_inf_u32, u32, "-Infinity", u32::MIN);
detest!(de_neg_inf_u64, u64, "-Infinity", u64::MIN);
detest!(de_neg_inf_i8, i8, "-Infinity", i8::MIN);
detest!(de_neg_inf_i16, i16, "-Infinity", i16::MIN);
detest!(de_neg_inf_i32, i32, "-Infinity", i32::MIN);
detest!(de_neg_inf_i64, i64, "-Infinity", i64::MIN);
detest!(de_neg_inf_f32, f32, "-Infinity", f32::NEG_INFINITY);
detest!(de_neg_inf_f64, f64, "-Infinity", f64::NEG_INFINITY);
// valueOf Number
detest!(de_valof_u8, u8, "({ valueOf: () => 123 })", 123);
detest!(de_valof_u16, u16, "({ valueOf: () => 123 })", 123);
detest!(de_valof_u32, u32, "({ valueOf: () => 123 })", 123);
detest!(de_valof_u64, u64, "({ valueOf: () => 123 })", 123);
detest!(de_valof_i8, i8, "({ valueOf: () => 123 })", 123);
detest!(de_valof_i16, i16, "({ valueOf: () => 123 })", 123);
detest!(de_valof_i32, i32, "({ valueOf: () => 123 })", 123);
detest!(de_valof_i64, i64, "({ valueOf: () => 123 })", 123);
detest!(de_valof_f32, f32, "({ valueOf: () => 123 })", 123.0);
detest!(de_valof_f64, f64, "({ valueOf: () => 123 })", 123.0);
// valueOf BigInt
detest!(de_valof_bigint_u8, u8, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_u16, u16, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_u32, u32, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_u64, u64, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_i8, i8, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_i16, i16, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_i32, i32, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_i64, i64, "({ valueOf: () => 123n })", 123);
detest!(de_valof_bigint_f32, f32, "({ valueOf: () => 123n })", 123.0);
detest!(de_valof_bigint_f64, f64, "({ valueOf: () => 123n })", 123.0);
// bool
detest!(de_num_true, u8, "true", 1);
detest!(de_num_false, u8, "false", 0);
// BigInt to f32/f64 max/min
detest!(
de_bigint_f64_max,
f64,
"BigInt(1.7976931348623157e+308)",
f64::MAX
);
detest!(
de_bigint_f64_min,
f64,
"BigInt(-1.7976931348623157e+308)",
f64::MIN
);
detest!(de_bigint_f32_max, f32, "BigInt(3.40282347e38)", f32::MAX);
detest!(de_bigint_f32_min, f32, "BigInt(-3.40282347e38)", f32::MIN);
// BigInt to f32/f64 saturating to inf
detest!(
de_bigint_f64_inf,
f64,
"(BigInt(1.7976931348623157e+308)*BigInt(100))",
f64::INFINITY
);
detest!(
de_bigint_f64_neg_inf,
f64,
"(BigInt(-1.7976931348623157e+308)*BigInt(100))",
f64::NEG_INFINITY
);
detest!(
de_bigint_f32_inf,
f32,
"BigInt(1.7976931348623157e+308)",
f32::INFINITY
);
detest!(
de_bigint_f32_neg_inf,
f32,
"BigInt(-1.7976931348623157e+308)",
f32::NEG_INFINITY
);