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7255e192d8
serde/test_suite/tests/test_de_error.rs
David Tolnay 2ef1cd4b35
Import macros exclusively through serde_derive in test suite 
This makes it easier to execute tests against the precompiled serde_derive.
2023-07-19 09:08:05 -07:00

1562 lines
37 KiB
Rust
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#![allow(
clippy::derive_partial_eq_without_eq,
clippy::empty_enum,
clippy::unreadable_literal
)]
#![cfg_attr(feature = "unstable", feature(never_type))]
use serde::de::{Deserialize, IntoDeserializer};
use serde_derive::Deserialize;
use serde_test::{assert_de_tokens_error, Token};
use std::collections::{BTreeMap, BTreeSet, HashMap, HashSet};
use std::ffi::{CStr, CString};
use std::num::{
NonZeroI128, NonZeroI16, NonZeroI32, NonZeroI64, NonZeroI8, NonZeroIsize, NonZeroU128,
NonZeroU16, NonZeroU32, NonZeroU64, NonZeroU8, NonZeroUsize, Wrapping,
};
use std::time::{Duration, SystemTime};
#[derive(Copy, Clone, PartialEq, Debug, Deserialize)]
struct UnitStruct;
#[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(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,
}
#[test]
fn test_i8() {
let test = assert_de_tokens_error::<i8>;
// from signed
test(
&[Token::I16(-129)],
"invalid value: integer `-129`, expected i8",
);
test(
&[Token::I32(-129)],
"invalid value: integer `-129`, expected i8",
);
test(
&[Token::I64(-129)],
"invalid value: integer `-129`, expected i8",
);
test(
&[Token::I16(128)],
"invalid value: integer `128`, expected i8",
);
test(
&[Token::I32(128)],
"invalid value: integer `128`, expected i8",
);
test(
&[Token::I64(128)],
"invalid value: integer `128`, expected i8",
);
// from unsigned
test(
&[Token::U8(128)],
"invalid value: integer `128`, expected i8",
);
test(
&[Token::U16(128)],
"invalid value: integer `128`, expected i8",
);
test(
&[Token::U32(128)],
"invalid value: integer `128`, expected i8",
);
test(
&[Token::U64(128)],
"invalid value: integer `128`, expected i8",
);
}
#[test]
fn test_i16() {
let test = assert_de_tokens_error::<i16>;
// from signed
test(
&[Token::I32(-32769)],
"invalid value: integer `-32769`, expected i16",
);
test(
&[Token::I64(-32769)],
"invalid value: integer `-32769`, expected i16",
);
test(
&[Token::I32(32768)],
"invalid value: integer `32768`, expected i16",
);
test(
&[Token::I64(32768)],
"invalid value: integer `32768`, expected i16",
);
// from unsigned
test(
&[Token::U16(32768)],
"invalid value: integer `32768`, expected i16",
);
test(
&[Token::U32(32768)],
"invalid value: integer `32768`, expected i16",
);
test(
&[Token::U64(32768)],
"invalid value: integer `32768`, expected i16",
);
}
#[test]
fn test_i32() {
let test = assert_de_tokens_error::<i32>;
// from signed
test(
&[Token::I64(-2147483649)],
"invalid value: integer `-2147483649`, expected i32",
);
test(
&[Token::I64(2147483648)],
"invalid value: integer `2147483648`, expected i32",
);
// from unsigned
test(
&[Token::U32(2147483648)],
"invalid value: integer `2147483648`, expected i32",
);
test(
&[Token::U64(2147483648)],
"invalid value: integer `2147483648`, expected i32",
);
}
#[test]
fn test_i64() {
let test = assert_de_tokens_error::<i64>;
// from unsigned
test(
&[Token::U64(9223372036854775808)],
"invalid value: integer `9223372036854775808`, expected i64",
);
}
#[test]
fn test_i128() {
let deserializer = <i128 as IntoDeserializer>::into_deserializer(1);
let error = <&str>::deserialize(deserializer).unwrap_err();
assert_eq!(
error.to_string(),
"invalid type: integer `1` as i128, expected a borrowed string",
);
}
#[test]
fn test_u8() {
let test = assert_de_tokens_error::<u8>;
// from signed
test(&[Token::I8(-1)], "invalid value: integer `-1`, expected u8");
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected u8",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected u8",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected u8",
);
test(
&[Token::I16(256)],
"invalid value: integer `256`, expected u8",
);
test(
&[Token::I32(256)],
"invalid value: integer `256`, expected u8",
);
test(
&[Token::I64(256)],
"invalid value: integer `256`, expected u8",
);
// from unsigned
test(
&[Token::U16(256)],
"invalid value: integer `256`, expected u8",
);
test(
&[Token::U32(256)],
"invalid value: integer `256`, expected u8",
);
test(
&[Token::U64(256)],
"invalid value: integer `256`, expected u8",
);
}
#[test]
fn test_u16() {
let test = assert_de_tokens_error::<u16>;
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected u16",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected u16",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected u16",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected u16",
);
test(
&[Token::I32(65536)],
"invalid value: integer `65536`, expected u16",
);
test(
&[Token::I64(65536)],
"invalid value: integer `65536`, expected u16",
);
// from unsigned
test(
&[Token::U32(65536)],
"invalid value: integer `65536`, expected u16",
);
test(
&[Token::U64(65536)],
"invalid value: integer `65536`, expected u16",
);
}
#[test]
fn test_u32() {
let test = assert_de_tokens_error::<u32>;
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected u32",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected u32",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected u32",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected u32",
);
test(
&[Token::I64(4294967296)],
"invalid value: integer `4294967296`, expected u32",
);
// from unsigned
test(
&[Token::U64(4294967296)],
"invalid value: integer `4294967296`, expected u32",
);
}
#[test]
fn test_u64() {
let test = assert_de_tokens_error::<u64>;
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected u64",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected u64",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected u64",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected u64",
);
let deserializer = <u64 as IntoDeserializer>::into_deserializer(1);
let error = <&str>::deserialize(deserializer).unwrap_err();
assert_eq!(
error.to_string(),
"invalid type: integer `1`, expected a borrowed string",
);
}
#[test]
fn test_u128() {
let test = assert_de_tokens_error::<u128>;
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected u128",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected u128",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected u128",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected u128",
);
let deserializer = <u128 as IntoDeserializer>::into_deserializer(1);
let error = <&str>::deserialize(deserializer).unwrap_err();
assert_eq!(
error.to_string(),
"invalid type: integer `1` as u128, expected a borrowed string",
);
}
#[test]
fn test_usize() {
let test = assert_de_tokens_error::<usize>;
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected usize",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected usize",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected usize",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected usize",
);
}
#[test]
fn test_nonzero_i8() {
let test = assert_de_tokens_error::<NonZeroI8>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero i8",
);
// from signed
test(
&[Token::I16(-129)],
"invalid value: integer `-129`, expected a nonzero i8",
);
test(
&[Token::I32(-129)],
"invalid value: integer `-129`, expected a nonzero i8",
);
test(
&[Token::I64(-129)],
"invalid value: integer `-129`, expected a nonzero i8",
);
test(
&[Token::I16(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
test(
&[Token::I32(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
test(
&[Token::I64(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
// from unsigned
test(
&[Token::U8(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
test(
&[Token::U16(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
test(
&[Token::U32(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
test(
&[Token::U64(128)],
"invalid value: integer `128`, expected a nonzero i8",
);
}
#[test]
fn test_nonzero_i16() {
let test = assert_de_tokens_error::<NonZeroI16>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero i16",
);
// from signed
test(
&[Token::I32(-32769)],
"invalid value: integer `-32769`, expected a nonzero i16",
);
test(
&[Token::I64(-32769)],
"invalid value: integer `-32769`, expected a nonzero i16",
);
test(
&[Token::I32(32768)],
"invalid value: integer `32768`, expected a nonzero i16",
);
test(
&[Token::I64(32768)],
"invalid value: integer `32768`, expected a nonzero i16",
);
// from unsigned
test(
&[Token::U16(32768)],
"invalid value: integer `32768`, expected a nonzero i16",
);
test(
&[Token::U32(32768)],
"invalid value: integer `32768`, expected a nonzero i16",
);
test(
&[Token::U64(32768)],
"invalid value: integer `32768`, expected a nonzero i16",
);
}
#[test]
fn test_nonzero_i32() {
let test = assert_de_tokens_error::<NonZeroI32>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero i32",
);
// from signed
test(
&[Token::I64(-2147483649)],
"invalid value: integer `-2147483649`, expected a nonzero i32",
);
test(
&[Token::I64(2147483648)],
"invalid value: integer `2147483648`, expected a nonzero i32",
);
// from unsigned
test(
&[Token::U32(2147483648)],
"invalid value: integer `2147483648`, expected a nonzero i32",
);
test(
&[Token::U64(2147483648)],
"invalid value: integer `2147483648`, expected a nonzero i32",
);
}
#[test]
fn test_nonzero_i64() {
let test = assert_de_tokens_error::<NonZeroI64>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero i64",
);
// from unsigned
test(
&[Token::U64(9223372036854775808)],
"invalid value: integer `9223372036854775808`, expected a nonzero i64",
);
}
#[test]
fn test_nonzero_i128() {
let test = assert_de_tokens_error::<NonZeroI128>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero i128",
);
}
#[test]
fn test_nonzero_isize() {
let test = assert_de_tokens_error::<NonZeroIsize>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero isize",
);
}
#[test]
fn test_nonzero_u8() {
let test = assert_de_tokens_error::<NonZeroU8>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero u8",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero u8",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero u8",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero u8",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero u8",
);
test(
&[Token::I16(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
test(
&[Token::I32(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
test(
&[Token::I64(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
// from unsigned
test(
&[Token::U16(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
test(
&[Token::U32(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
test(
&[Token::U64(256)],
"invalid value: integer `256`, expected a nonzero u8",
);
}
#[test]
fn test_nonzero_u16() {
let test = assert_de_tokens_error::<NonZeroU16>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero u16",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero u16",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero u16",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero u16",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero u16",
);
test(
&[Token::I32(65536)],
"invalid value: integer `65536`, expected a nonzero u16",
);
test(
&[Token::I64(65536)],
"invalid value: integer `65536`, expected a nonzero u16",
);
// from unsigned
test(
&[Token::U32(65536)],
"invalid value: integer `65536`, expected a nonzero u16",
);
test(
&[Token::U64(65536)],
"invalid value: integer `65536`, expected a nonzero u16",
);
}
#[test]
fn test_nonzero_u32() {
let test = assert_de_tokens_error::<NonZeroU32>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero u32",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero u32",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero u32",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero u32",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero u32",
);
test(
&[Token::I64(4294967296)],
"invalid value: integer `4294967296`, expected a nonzero u32",
);
// from unsigned
test(
&[Token::U64(4294967296)],
"invalid value: integer `4294967296`, expected a nonzero u32",
);
}
#[test]
fn test_nonzero_u64() {
let test = assert_de_tokens_error::<NonZeroU64>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero u64",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero u64",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero u64",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero u64",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero u64",
);
}
#[test]
fn test_nonzero_u128() {
let test = assert_de_tokens_error::<NonZeroU128>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero u128",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero u128",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero u128",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero u128",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero u128",
);
}
#[test]
fn test_nonzero_usize() {
let test = assert_de_tokens_error::<NonZeroUsize>;
// from zero
test(
&[Token::I8(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::I16(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::I32(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::I64(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::U8(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::U16(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::U32(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
test(
&[Token::U64(0)],
"invalid value: integer `0`, expected a nonzero usize",
);
// from signed
test(
&[Token::I8(-1)],
"invalid value: integer `-1`, expected a nonzero usize",
);
test(
&[Token::I16(-1)],
"invalid value: integer `-1`, expected a nonzero usize",
);
test(
&[Token::I32(-1)],
"invalid value: integer `-1`, expected a nonzero usize",
);
test(
&[Token::I64(-1)],
"invalid value: integer `-1`, expected a nonzero usize",
);
}
#[test]
fn test_unknown_field() {
assert_de_tokens_error::<StructDenyUnknown>(
&[
Token::Struct {
name: "StructDenyUnknown",
len: 1,
},
Token::Str("a"),
Token::I32(0),
Token::Str("d"),
],
"unknown field `d`, expected `a`",
);
}
#[test]
fn test_skipped_field_is_unknown() {
assert_de_tokens_error::<StructDenyUnknown>(
&[
Token::Struct {
name: "StructDenyUnknown",
len: 1,
},
Token::Str("b"),
],
"unknown field `b`, expected `a`",
);
}
#[test]
fn test_skip_all_deny_unknown() {
assert_de_tokens_error::<StructSkipAllDenyUnknown>(
&[
Token::Struct {
name: "StructSkipAllDenyUnknown",
len: 0,
},
Token::Str("a"),
],
"unknown field `a`, there are no fields",
);
}
#[test]
fn test_unknown_variant() {
assert_de_tokens_error::<Enum>(
&[
Token::UnitVariant { name: "Enum", variant: "Foo" },
],
"unknown variant `Foo`, expected one of `Unit`, `Simple`, `Seq`, `Map`, `SimpleWithSkipped`",
);
}
#[test]
fn test_enum_skipped_variant() {
assert_de_tokens_error::<Enum>(
&[
Token::UnitVariant { name: "Enum", variant: "Skipped" },
],
"unknown variant `Skipped`, expected one of `Unit`, `Simple`, `Seq`, `Map`, `SimpleWithSkipped`",
);
}
#[test]
fn test_enum_skip_all() {
assert_de_tokens_error::<EnumSkipAll>(
&[Token::UnitVariant {
name: "EnumSkipAll",
variant: "Skipped",
}],
"unknown variant `Skipped`, there are no variants",
);
}
#[test]
fn test_duplicate_field_struct() {
assert_de_tokens_error::<Struct>(
&[
Token::Map { len: Some(3) },
Token::Str("a"),
Token::I32(1),
Token::Str("a"),
],
"duplicate field `a`",
);
}
#[test]
fn test_duplicate_field_enum() {
assert_de_tokens_error::<Enum>(
&[
Token::StructVariant {
name: "Enum",
variant: "Map",
len: 3,
},
Token::Str("a"),
Token::I32(1),
Token::Str("a"),
],
"duplicate field `a`",
);
}
#[test]
fn test_enum_out_of_range() {
assert_de_tokens_error::<Enum>(
&[Token::Enum { name: "Enum" }, Token::U32(5), Token::Unit],
"invalid value: integer `5`, expected variant index 0 <= i < 5",
);
}
#[test]
fn test_short_tuple() {
assert_de_tokens_error::<(u8, u8, u8)>(
&[Token::Tuple { len: 1 }, Token::U8(1), Token::TupleEnd],
"invalid length 1, expected a tuple of size 3",
);
}
#[test]
fn test_short_array() {
assert_de_tokens_error::<[u8; 3]>(
&[Token::Seq { len: Some(1) }, Token::U8(1), Token::SeqEnd],
"invalid length 1, expected an array of length 3",
);
}
#[test]
fn test_cstring_internal_null() {
assert_de_tokens_error::<CString>(
&[Token::Bytes(b"a\0c")],
"nul byte found in provided data at position: 1",
);
}
#[test]
fn test_cstring_internal_null_end() {
assert_de_tokens_error::<CString>(
&[Token::Bytes(b"ac\0")],
"nul byte found in provided data at position: 2",
);
}
#[test]
fn test_unit_from_empty_seq() {
assert_de_tokens_error::<()>(
&[Token::Seq { len: Some(0) }, Token::SeqEnd],
"invalid type: sequence, expected unit",
);
}
#[test]
fn test_unit_from_empty_seq_without_len() {
assert_de_tokens_error::<()>(
&[Token::Seq { len: None }, Token::SeqEnd],
"invalid type: sequence, expected unit",
);
}
#[test]
fn test_unit_from_tuple_struct() {
assert_de_tokens_error::<()>(
&[
Token::TupleStruct {
name: "Anything",
len: 0,
},
Token::TupleStructEnd,
],
"invalid type: sequence, expected unit",
);
}
#[test]
fn test_string_from_unit() {
assert_de_tokens_error::<String>(
&[Token::Unit],
"invalid type: unit value, expected a string",
);
}
#[test]
fn test_btreeset_from_unit() {
assert_de_tokens_error::<BTreeSet<isize>>(
&[Token::Unit],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_btreeset_from_unit_struct() {
assert_de_tokens_error::<BTreeSet<isize>>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_hashset_from_unit() {
assert_de_tokens_error::<HashSet<isize>>(
&[Token::Unit],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_hashset_from_unit_struct() {
assert_de_tokens_error::<HashSet<isize>>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_vec_from_unit() {
assert_de_tokens_error::<Vec<isize>>(
&[Token::Unit],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_vec_from_unit_struct() {
assert_de_tokens_error::<Vec<isize>>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected a sequence",
);
}
#[test]
fn test_zero_array_from_unit() {
assert_de_tokens_error::<[isize; 0]>(
&[Token::Unit],
"invalid type: unit value, expected an empty array",
);
}
#[test]
fn test_zero_array_from_unit_struct() {
assert_de_tokens_error::<[isize; 0]>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected an empty array",
);
}
#[test]
fn test_btreemap_from_unit() {
assert_de_tokens_error::<BTreeMap<isize, isize>>(
&[Token::Unit],
"invalid type: unit value, expected a map",
);
}
#[test]
fn test_btreemap_from_unit_struct() {
assert_de_tokens_error::<BTreeMap<isize, isize>>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected a map",
);
}
#[test]
fn test_hashmap_from_unit() {
assert_de_tokens_error::<HashMap<isize, isize>>(
&[Token::Unit],
"invalid type: unit value, expected a map",
);
}
#[test]
fn test_hashmap_from_unit_struct() {
assert_de_tokens_error::<HashMap<isize, isize>>(
&[Token::UnitStruct { name: "Anything" }],
"invalid type: unit value, expected a map",
);
}
#[test]
fn test_bool_from_string() {
assert_de_tokens_error::<bool>(
&[Token::Str("false")],
"invalid type: string \"false\", expected a boolean",
);
}
#[test]
fn test_number_from_string() {
assert_de_tokens_error::<isize>(
&[Token::Str("1")],
"invalid type: string \"1\", expected isize",
);
}
#[test]
fn test_integer_from_float() {
assert_de_tokens_error::<isize>(
&[Token::F32(0.0)],
"invalid type: floating point `0`, expected isize",
);
}
#[test]
fn test_unit_struct_from_seq() {
assert_de_tokens_error::<UnitStruct>(
&[Token::Seq { len: Some(0) }, Token::SeqEnd],
"invalid type: sequence, expected unit struct UnitStruct",
);
}
#[test]
fn test_wrapping_overflow() {
assert_de_tokens_error::<Wrapping<u16>>(
&[Token::U32(65_536)],
"invalid value: integer `65536`, expected u16",
);
}
#[test]
fn test_duration_overflow_seq() {
assert_de_tokens_error::<Duration>(
&[
Token::Seq { len: Some(2) },
Token::U64(u64::max_value()),
Token::U32(1_000_000_000),
Token::SeqEnd,
],
"overflow deserializing Duration",
);
}
#[test]
fn test_duration_overflow_struct() {
assert_de_tokens_error::<Duration>(
&[
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]
fn test_systemtime_overflow_seq() {
assert_de_tokens_error::<SystemTime>(
&[
Token::Seq { len: Some(2) },
Token::U64(u64::max_value()),
Token::U32(1_000_000_000),
Token::SeqEnd,
],
"overflow deserializing SystemTime epoch offset",
);
}
#[test]
fn test_systemtime_overflow_struct() {
assert_de_tokens_error::<SystemTime>(
&[
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]
fn test_systemtime_overflow() {
assert_de_tokens_error::<SystemTime>(
&[
Token::Seq { len: Some(2) },
Token::U64(u64::max_value()),
Token::U32(0),
Token::SeqEnd,
],
"overflow deserializing SystemTime",
);
}
#[test]
fn test_cstr_internal_null() {
assert_de_tokens_error::<Box<CStr>>(
&[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::<Box<CStr>>(
&[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::<Result<u8, !>>(
&[Token::NewtypeVariant {
name: "Result",
variant: "Err",
}],
"cannot deserialize `!`",
);
}
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