rust/compiler/rustc_serialize/tests/json.rs

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#![allow(rustc::internal)]
use json::DecoderError::*;
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use json::ErrorCode::*;
use json::Json::*;
use json::JsonEvent::*;
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use json::ParserError::*;
use json::{
from_str, DecodeResult, Decoder, DecoderError, Encoder, EncoderError, Json, JsonEvent, Parser,
StackElement,
};
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use rustc_macros::{Decodable, Encodable};
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use rustc_serialize::json;
use rustc_serialize::{Decodable, Encodable};
use std::collections::BTreeMap;
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use std::io::prelude::*;
use std::string;
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use Animal::*;
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#[derive(Decodable, Eq, PartialEq, Debug)]
struct OptionData {
opt: Option<usize>,
}
#[test]
fn test_decode_option_none() {
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let s = "{}";
let obj: OptionData = json::decode(s).unwrap();
assert_eq!(obj, OptionData { opt: None });
}
#[test]
fn test_decode_option_some() {
let s = "{ \"opt\": 10 }";
let obj: OptionData = json::decode(s).unwrap();
assert_eq!(obj, OptionData { opt: Some(10) });
}
#[test]
fn test_decode_option_malformed() {
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check_err::<OptionData>(
"{ \"opt\": [] }",
ExpectedError("Number".to_string(), "[]".to_string()),
);
check_err::<OptionData>(
"{ \"opt\": false }",
ExpectedError("Number".to_string(), "false".to_string()),
);
}
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#[derive(PartialEq, Encodable, Decodable, Debug)]
enum Animal {
Dog,
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Frog(string::String, isize),
}
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#[derive(PartialEq, Encodable, Decodable, Debug)]
struct Inner {
a: (),
b: usize,
c: Vec<string::String>,
}
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#[derive(PartialEq, Encodable, Decodable, Debug)]
struct Outer {
inner: Vec<Inner>,
}
fn mk_object(items: &[(string::String, Json)]) -> Json {
let mut d = BTreeMap::new();
for item in items {
match *item {
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(ref key, ref value) => {
d.insert((*key).clone(), (*value).clone());
}
}
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}
Object(d)
}
#[test]
fn test_from_str_trait() {
let s = "null";
assert!(s.parse::<Json>().unwrap() == s.parse().unwrap());
}
#[test]
fn test_write_null() {
assert_eq!(Null.to_string(), "null");
assert_eq!(Null.pretty().to_string(), "null");
}
#[test]
fn test_write_i64() {
assert_eq!(U64(0).to_string(), "0");
assert_eq!(U64(0).pretty().to_string(), "0");
assert_eq!(U64(1234).to_string(), "1234");
assert_eq!(U64(1234).pretty().to_string(), "1234");
assert_eq!(I64(-5678).to_string(), "-5678");
assert_eq!(I64(-5678).pretty().to_string(), "-5678");
assert_eq!(U64(7650007200025252000).to_string(), "7650007200025252000");
assert_eq!(U64(7650007200025252000).pretty().to_string(), "7650007200025252000");
}
#[test]
fn test_write_f64() {
assert_eq!(F64(3.0).to_string(), "3.0");
assert_eq!(F64(3.0).pretty().to_string(), "3.0");
assert_eq!(F64(3.1).to_string(), "3.1");
assert_eq!(F64(3.1).pretty().to_string(), "3.1");
assert_eq!(F64(-1.5).to_string(), "-1.5");
assert_eq!(F64(-1.5).pretty().to_string(), "-1.5");
assert_eq!(F64(0.5).to_string(), "0.5");
assert_eq!(F64(0.5).pretty().to_string(), "0.5");
assert_eq!(F64(f64::NAN).to_string(), "null");
assert_eq!(F64(f64::NAN).pretty().to_string(), "null");
assert_eq!(F64(f64::INFINITY).to_string(), "null");
assert_eq!(F64(f64::INFINITY).pretty().to_string(), "null");
assert_eq!(F64(f64::NEG_INFINITY).to_string(), "null");
assert_eq!(F64(f64::NEG_INFINITY).pretty().to_string(), "null");
}
#[test]
fn test_write_str() {
assert_eq!(String("".to_string()).to_string(), "\"\"");
assert_eq!(String("".to_string()).pretty().to_string(), "\"\"");
assert_eq!(String("homura".to_string()).to_string(), "\"homura\"");
assert_eq!(String("madoka".to_string()).pretty().to_string(), "\"madoka\"");
}
#[test]
fn test_write_bool() {
assert_eq!(Boolean(true).to_string(), "true");
assert_eq!(Boolean(true).pretty().to_string(), "true");
assert_eq!(Boolean(false).to_string(), "false");
assert_eq!(Boolean(false).pretty().to_string(), "false");
}
#[test]
fn test_write_array() {
assert_eq!(Array(vec![]).to_string(), "[]");
assert_eq!(Array(vec![]).pretty().to_string(), "[]");
assert_eq!(Array(vec![Boolean(true)]).to_string(), "[true]");
assert_eq!(
Array(vec![Boolean(true)]).pretty().to_string(),
"\
[\n \
true\n\
]"
);
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let long_test_array =
Array(vec![Boolean(false), Null, Array(vec![String("foo\nbar".to_string()), F64(3.5)])]);
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assert_eq!(long_test_array.to_string(), "[false,null,[\"foo\\nbar\",3.5]]");
assert_eq!(
long_test_array.pretty().to_string(),
"\
[\n \
false,\n \
null,\n \
[\n \
\"foo\\nbar\",\n \
3.5\n \
]\n\
]"
);
}
#[test]
fn test_write_object() {
assert_eq!(mk_object(&[]).to_string(), "{}");
assert_eq!(mk_object(&[]).pretty().to_string(), "{}");
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assert_eq!(mk_object(&[("a".to_string(), Boolean(true))]).to_string(), "{\"a\":true}");
assert_eq!(
mk_object(&[("a".to_string(), Boolean(true))]).pretty().to_string(),
"\
{\n \
\"a\": true\n\
}"
);
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let complex_obj = mk_object(&[(
"b".to_string(),
Array(vec![
mk_object(&[("c".to_string(), String("\x0c\r".to_string()))]),
mk_object(&[("d".to_string(), String("".to_string()))]),
]),
)]);
assert_eq!(
complex_obj.to_string(),
"{\
\"b\":[\
{\"c\":\"\\f\\r\"},\
{\"d\":\"\"}\
]\
}"
);
assert_eq!(
complex_obj.pretty().to_string(),
"\
{\n \
\"b\": [\n \
{\n \
\"c\": \"\\f\\r\"\n \
},\n \
{\n \
\"d\": \"\"\n \
}\n \
]\n\
}"
);
let a = mk_object(&[
("a".to_string(), Boolean(true)),
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(
"b".to_string(),
Array(vec![
mk_object(&[("c".to_string(), String("\x0c\r".to_string()))]),
mk_object(&[("d".to_string(), String("".to_string()))]),
]),
),
]);
// We can't compare the strings directly because the object fields be
// printed in a different order.
assert_eq!(a.clone(), a.to_string().parse().unwrap());
assert_eq!(a.clone(), a.pretty().to_string().parse().unwrap());
}
#[test]
fn test_write_enum() {
let animal = Dog;
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assert_eq!(json::as_json(&animal).to_string(), "\"Dog\"");
assert_eq!(json::as_pretty_json(&animal).to_string(), "\"Dog\"");
let animal = Frog("Henry".to_string(), 349);
assert_eq!(
json::as_json(&animal).to_string(),
"{\"variant\":\"Frog\",\"fields\":[\"Henry\",349]}"
);
assert_eq!(
json::as_pretty_json(&animal).to_string(),
"{\n \
\"variant\": \"Frog\",\n \
\"fields\": [\n \
\"Henry\",\n \
349\n \
]\n\
}"
);
}
macro_rules! check_encoder_for_simple {
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($value:expr, $expected:expr) => {{
let s = json::as_json(&$value).to_string();
assert_eq!(s, $expected);
let s = json::as_pretty_json(&$value).to_string();
assert_eq!(s, $expected);
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}};
}
#[test]
fn test_write_some() {
check_encoder_for_simple!(Some("jodhpurs".to_string()), "\"jodhpurs\"");
}
#[test]
fn test_write_none() {
check_encoder_for_simple!(None::<string::String>, "null");
}
#[test]
fn test_write_char() {
check_encoder_for_simple!('a', "\"a\"");
check_encoder_for_simple!('\t', "\"\\t\"");
check_encoder_for_simple!('\u{0000}', "\"\\u0000\"");
check_encoder_for_simple!('\u{001b}', "\"\\u001b\"");
check_encoder_for_simple!('\u{007f}', "\"\\u007f\"");
check_encoder_for_simple!('\u{00a0}', "\"\u{00a0}\"");
check_encoder_for_simple!('\u{abcd}', "\"\u{abcd}\"");
check_encoder_for_simple!('\u{10ffff}', "\"\u{10ffff}\"");
}
#[test]
fn test_trailing_characters() {
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assert_eq!(from_str("nulla"), Err(SyntaxError(TrailingCharacters, 1, 5)));
assert_eq!(from_str("truea"), Err(SyntaxError(TrailingCharacters, 1, 5)));
assert_eq!(from_str("falsea"), Err(SyntaxError(TrailingCharacters, 1, 6)));
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assert_eq!(from_str("1a"), Err(SyntaxError(TrailingCharacters, 1, 2)));
assert_eq!(from_str("[]a"), Err(SyntaxError(TrailingCharacters, 1, 3)));
assert_eq!(from_str("{}a"), Err(SyntaxError(TrailingCharacters, 1, 3)));
}
#[test]
fn test_read_identifiers() {
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assert_eq!(from_str("n"), Err(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(from_str("nul"), Err(SyntaxError(InvalidSyntax, 1, 4)));
assert_eq!(from_str("t"), Err(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(from_str("truz"), Err(SyntaxError(InvalidSyntax, 1, 4)));
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assert_eq!(from_str("f"), Err(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(from_str("faz"), Err(SyntaxError(InvalidSyntax, 1, 3)));
assert_eq!(from_str("null"), Ok(Null));
assert_eq!(from_str("true"), Ok(Boolean(true)));
assert_eq!(from_str("false"), Ok(Boolean(false)));
assert_eq!(from_str(" null "), Ok(Null));
assert_eq!(from_str(" true "), Ok(Boolean(true)));
assert_eq!(from_str(" false "), Ok(Boolean(false)));
}
#[test]
fn test_decode_identifiers() {
let v: () = json::decode("null").unwrap();
assert_eq!(v, ());
let v: bool = json::decode("true").unwrap();
assert_eq!(v, true);
let v: bool = json::decode("false").unwrap();
assert_eq!(v, false);
}
#[test]
fn test_read_number() {
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assert_eq!(from_str("+"), Err(SyntaxError(InvalidSyntax, 1, 1)));
assert_eq!(from_str("."), Err(SyntaxError(InvalidSyntax, 1, 1)));
assert_eq!(from_str("NaN"), Err(SyntaxError(InvalidSyntax, 1, 1)));
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assert_eq!(from_str("-"), Err(SyntaxError(InvalidNumber, 1, 2)));
assert_eq!(from_str("00"), Err(SyntaxError(InvalidNumber, 1, 2)));
assert_eq!(from_str("1."), Err(SyntaxError(InvalidNumber, 1, 3)));
assert_eq!(from_str("1e"), Err(SyntaxError(InvalidNumber, 1, 3)));
assert_eq!(from_str("1e+"), Err(SyntaxError(InvalidNumber, 1, 4)));
assert_eq!(from_str("18446744073709551616"), Err(SyntaxError(InvalidNumber, 1, 20)));
assert_eq!(from_str("-9223372036854775809"), Err(SyntaxError(InvalidNumber, 1, 21)));
assert_eq!(from_str("3"), Ok(U64(3)));
assert_eq!(from_str("3.1"), Ok(F64(3.1)));
assert_eq!(from_str("-1.2"), Ok(F64(-1.2)));
assert_eq!(from_str("0.4"), Ok(F64(0.4)));
assert_eq!(from_str("0.4e5"), Ok(F64(0.4e5)));
assert_eq!(from_str("0.4e+15"), Ok(F64(0.4e15)));
assert_eq!(from_str("0.4e-01"), Ok(F64(0.4e-01)));
assert_eq!(from_str(" 3 "), Ok(U64(3)));
assert_eq!(from_str("-9223372036854775808"), Ok(I64(i64::MIN)));
assert_eq!(from_str("9223372036854775807"), Ok(U64(i64::MAX as u64)));
assert_eq!(from_str("18446744073709551615"), Ok(U64(u64::MAX)));
}
#[test]
fn test_decode_numbers() {
let v: f64 = json::decode("3").unwrap();
assert_eq!(v, 3.0);
let v: f64 = json::decode("3.1").unwrap();
assert_eq!(v, 3.1);
let v: f64 = json::decode("-1.2").unwrap();
assert_eq!(v, -1.2);
let v: f64 = json::decode("0.4").unwrap();
assert_eq!(v, 0.4);
let v: f64 = json::decode("0.4e5").unwrap();
assert_eq!(v, 0.4e5);
let v: f64 = json::decode("0.4e15").unwrap();
assert_eq!(v, 0.4e15);
let v: f64 = json::decode("0.4e-01").unwrap();
assert_eq!(v, 0.4e-01);
let v: u64 = json::decode("0").unwrap();
assert_eq!(v, 0);
let v: u64 = json::decode("18446744073709551615").unwrap();
assert_eq!(v, u64::MAX);
let v: i64 = json::decode("-9223372036854775808").unwrap();
assert_eq!(v, i64::MIN);
let v: i64 = json::decode("9223372036854775807").unwrap();
assert_eq!(v, i64::MAX);
let res: DecodeResult<i64> = json::decode("765.25");
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assert_eq!(res, Err(ExpectedError("Integer".to_string(), "765.25".to_string())));
}
#[test]
fn test_read_str() {
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assert_eq!(from_str("\""), Err(SyntaxError(EOFWhileParsingString, 1, 2)));
assert_eq!(from_str("\"lol"), Err(SyntaxError(EOFWhileParsingString, 1, 5)));
assert_eq!(from_str("\"\""), Ok(String("".to_string())));
assert_eq!(from_str("\"foo\""), Ok(String("foo".to_string())));
assert_eq!(from_str("\"\\\"\""), Ok(String("\"".to_string())));
assert_eq!(from_str("\"\\b\""), Ok(String("\x08".to_string())));
assert_eq!(from_str("\"\\n\""), Ok(String("\n".to_string())));
assert_eq!(from_str("\"\\r\""), Ok(String("\r".to_string())));
assert_eq!(from_str("\"\\t\""), Ok(String("\t".to_string())));
assert_eq!(from_str(" \"foo\" "), Ok(String("foo".to_string())));
assert_eq!(from_str("\"\\u12ab\""), Ok(String("\u{12ab}".to_string())));
assert_eq!(from_str("\"\\uAB12\""), Ok(String("\u{AB12}".to_string())));
}
#[test]
fn test_decode_str() {
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let s = [
("\"\"", ""),
("\"foo\"", "foo"),
("\"\\\"\"", "\""),
("\"\\b\"", "\x08"),
("\"\\n\"", "\n"),
("\"\\r\"", "\r"),
("\"\\t\"", "\t"),
("\"\\u12ab\"", "\u{12ab}"),
("\"\\uAB12\"", "\u{AB12}"),
];
for &(i, o) in &s {
let v: string::String = json::decode(i).unwrap();
assert_eq!(v, o);
}
}
#[test]
fn test_read_array() {
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assert_eq!(from_str("["), Err(SyntaxError(EOFWhileParsingValue, 1, 2)));
assert_eq!(from_str("[1"), Err(SyntaxError(EOFWhileParsingArray, 1, 3)));
assert_eq!(from_str("[1,"), Err(SyntaxError(EOFWhileParsingValue, 1, 4)));
assert_eq!(from_str("[1,]"), Err(SyntaxError(InvalidSyntax, 1, 4)));
assert_eq!(from_str("[6 7]"), Err(SyntaxError(InvalidSyntax, 1, 4)));
assert_eq!(from_str("[]"), Ok(Array(vec![])));
assert_eq!(from_str("[ ]"), Ok(Array(vec![])));
assert_eq!(from_str("[true]"), Ok(Array(vec![Boolean(true)])));
assert_eq!(from_str("[ false ]"), Ok(Array(vec![Boolean(false)])));
assert_eq!(from_str("[null]"), Ok(Array(vec![Null])));
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assert_eq!(from_str("[3, 1]"), Ok(Array(vec![U64(3), U64(1)])));
assert_eq!(from_str("\n[3, 2]\n"), Ok(Array(vec![U64(3), U64(2)])));
assert_eq!(from_str("[2, [4, 1]]"), Ok(Array(vec![U64(2), Array(vec![U64(4), U64(1)])])));
}
#[test]
fn test_decode_array() {
let v: Vec<()> = json::decode("[]").unwrap();
assert_eq!(v, []);
let v: Vec<()> = json::decode("[null]").unwrap();
assert_eq!(v, [()]);
let v: Vec<bool> = json::decode("[true]").unwrap();
assert_eq!(v, [true]);
let v: Vec<isize> = json::decode("[3, 1]").unwrap();
assert_eq!(v, [3, 1]);
let v: Vec<Vec<usize>> = json::decode("[[3], [1, 2]]").unwrap();
assert_eq!(v, [vec![3], vec![1, 2]]);
}
#[test]
fn test_decode_tuple() {
let t: (usize, usize, usize) = json::decode("[1, 2, 3]").unwrap();
assert_eq!(t, (1, 2, 3));
let t: (usize, string::String) = json::decode("[1, \"two\"]").unwrap();
assert_eq!(t, (1, "two".to_string()));
}
#[test]
fn test_decode_tuple_malformed_types() {
assert!(json::decode::<(usize, string::String)>("[1, 2]").is_err());
}
#[test]
fn test_decode_tuple_malformed_length() {
assert!(json::decode::<(usize, usize)>("[1, 2, 3]").is_err());
}
#[test]
fn test_read_object() {
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assert_eq!(from_str("{"), Err(SyntaxError(EOFWhileParsingObject, 1, 2)));
assert_eq!(from_str("{ "), Err(SyntaxError(EOFWhileParsingObject, 1, 3)));
assert_eq!(from_str("{1"), Err(SyntaxError(KeyMustBeAString, 1, 2)));
assert_eq!(from_str("{ \"a\""), Err(SyntaxError(EOFWhileParsingObject, 1, 6)));
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assert_eq!(from_str("{\"a\""), Err(SyntaxError(EOFWhileParsingObject, 1, 5)));
assert_eq!(from_str("{\"a\" "), Err(SyntaxError(EOFWhileParsingObject, 1, 6)));
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assert_eq!(from_str("{\"a\" 1"), Err(SyntaxError(ExpectedColon, 1, 6)));
assert_eq!(from_str("{\"a\":"), Err(SyntaxError(EOFWhileParsingValue, 1, 6)));
assert_eq!(from_str("{\"a\":1"), Err(SyntaxError(EOFWhileParsingObject, 1, 7)));
assert_eq!(from_str("{\"a\":1 1"), Err(SyntaxError(InvalidSyntax, 1, 8)));
assert_eq!(from_str("{\"a\":1,"), Err(SyntaxError(EOFWhileParsingObject, 1, 8)));
assert_eq!(from_str("{}").unwrap(), mk_object(&[]));
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assert_eq!(from_str("{\"a\": 3}").unwrap(), mk_object(&[("a".to_string(), U64(3))]));
assert_eq!(
from_str("{ \"a\": null, \"b\" : true }").unwrap(),
mk_object(&[("a".to_string(), Null), ("b".to_string(), Boolean(true))])
);
assert_eq!(
from_str("\n{ \"a\": null, \"b\" : true }\n").unwrap(),
mk_object(&[("a".to_string(), Null), ("b".to_string(), Boolean(true))])
);
assert_eq!(
from_str("{\"a\" : 1.0 ,\"b\": [ true ]}").unwrap(),
mk_object(&[("a".to_string(), F64(1.0)), ("b".to_string(), Array(vec![Boolean(true)]))])
);
assert_eq!(
from_str(
"{\
\"a\": 1.0, \
\"b\": [\
true,\
\"foo\\nbar\", \
{ \"c\": {\"d\": null} } \
]\
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}"
)
.unwrap(),
mk_object(&[
("a".to_string(), F64(1.0)),
(
"b".to_string(),
Array(vec![
Boolean(true),
String("foo\nbar".to_string()),
mk_object(&[("c".to_string(), mk_object(&[("d".to_string(), Null)]))])
])
)
])
);
}
#[test]
fn test_decode_struct() {
let s = "{
\"inner\": [
{ \"a\": null, \"b\": 2, \"c\": [\"abc\", \"xyz\"] }
]
}";
let v: Outer = json::decode(s).unwrap();
assert_eq!(
v,
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Outer { inner: vec![Inner { a: (), b: 2, c: vec!["abc".to_string(), "xyz".to_string()] }] }
);
}
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#[derive(Decodable)]
struct FloatStruct {
f: f64,
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a: Vec<f64>,
}
#[test]
fn test_decode_struct_with_nan() {
let s = "{\"f\":null,\"a\":[null,123]}";
let obj: FloatStruct = json::decode(s).unwrap();
assert!(obj.f.is_nan());
assert!(obj.a[0].is_nan());
assert_eq!(obj.a[1], 123f64);
}
#[test]
fn test_decode_option() {
let value: Option<string::String> = json::decode("null").unwrap();
assert_eq!(value, None);
let value: Option<string::String> = json::decode("\"jodhpurs\"").unwrap();
assert_eq!(value, Some("jodhpurs".to_string()));
}
#[test]
fn test_decode_enum() {
let value: Animal = json::decode("\"Dog\"").unwrap();
assert_eq!(value, Dog);
let s = "{\"variant\":\"Frog\",\"fields\":[\"Henry\",349]}";
let value: Animal = json::decode(s).unwrap();
assert_eq!(value, Frog("Henry".to_string(), 349));
}
#[test]
fn test_decode_map() {
let s = "{\"a\": \"Dog\", \"b\": {\"variant\":\"Frog\",\
\"fields\":[\"Henry\", 349]}}";
let mut map: BTreeMap<string::String, Animal> = json::decode(s).unwrap();
assert_eq!(map.remove(&"a".to_string()), Some(Dog));
assert_eq!(map.remove(&"b".to_string()), Some(Frog("Henry".to_string(), 349)));
}
#[test]
fn test_multiline_errors() {
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assert_eq!(from_str("{\n \"foo\":\n \"bar\""), Err(SyntaxError(EOFWhileParsingObject, 3, 8)));
}
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#[derive(Decodable)]
#[allow(dead_code)]
struct DecodeStruct {
x: f64,
y: bool,
z: string::String,
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w: Vec<DecodeStruct>,
}
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#[derive(Decodable)]
enum DecodeEnum {
A(f64),
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B(string::String),
}
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fn check_err<T: Decodable<Decoder>>(to_parse: &'static str, expected: DecoderError) {
let res: DecodeResult<T> = match from_str(to_parse) {
Err(e) => Err(ParseError(e)),
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Ok(json) => Decodable::decode(&mut Decoder::new(json)),
};
match res {
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Ok(_) => panic!("`{:?}` parsed & decoded ok, expecting error `{:?}`", to_parse, expected),
Err(ParseError(e)) => panic!("`{:?}` is not valid json: {:?}", to_parse, e),
Err(e) => {
assert_eq!(e, expected);
}
}
}
#[test]
fn test_decode_errors_struct() {
check_err::<DecodeStruct>("[]", ExpectedError("Object".to_string(), "[]".to_string()));
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check_err::<DecodeStruct>(
"{\"x\": true, \"y\": true, \"z\": \"\", \"w\": []}",
ExpectedError("Number".to_string(), "true".to_string()),
);
check_err::<DecodeStruct>(
"{\"x\": 1, \"y\": [], \"z\": \"\", \"w\": []}",
ExpectedError("Boolean".to_string(), "[]".to_string()),
);
check_err::<DecodeStruct>(
"{\"x\": 1, \"y\": true, \"z\": {}, \"w\": []}",
ExpectedError("String".to_string(), "{}".to_string()),
);
check_err::<DecodeStruct>(
"{\"x\": 1, \"y\": true, \"z\": \"\", \"w\": null}",
ExpectedError("Array".to_string(), "null".to_string()),
);
check_err::<DecodeStruct>(
"{\"x\": 1, \"y\": true, \"z\": \"\"}",
MissingFieldError("w".to_string()),
);
}
#[test]
fn test_decode_errors_enum() {
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check_err::<DecodeEnum>("{}", MissingFieldError("variant".to_string()));
check_err::<DecodeEnum>(
"{\"variant\": 1}",
ExpectedError("String".to_string(), "1".to_string()),
);
check_err::<DecodeEnum>("{\"variant\": \"A\"}", MissingFieldError("fields".to_string()));
check_err::<DecodeEnum>(
"{\"variant\": \"A\", \"fields\": null}",
ExpectedError("Array".to_string(), "null".to_string()),
);
check_err::<DecodeEnum>(
"{\"variant\": \"C\", \"fields\": []}",
UnknownVariantError("C".to_string()),
);
}
#[test]
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fn test_find() {
let json_value = from_str("{\"dog\" : \"cat\"}").unwrap();
let found_str = json_value.find("dog");
assert!(found_str.unwrap().as_string().unwrap() == "cat");
}
#[test]
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fn test_find_path() {
let json_value = from_str("{\"dog\":{\"cat\": {\"mouse\" : \"cheese\"}}}").unwrap();
let found_str = json_value.find_path(&["dog", "cat", "mouse"]);
assert!(found_str.unwrap().as_string().unwrap() == "cheese");
}
#[test]
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fn test_search() {
let json_value = from_str("{\"dog\":{\"cat\": {\"mouse\" : \"cheese\"}}}").unwrap();
let found_str = json_value.search("mouse").and_then(|j| j.as_string());
assert!(found_str.unwrap() == "cheese");
}
#[test]
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fn test_index() {
let json_value = from_str("{\"animals\":[\"dog\",\"cat\",\"mouse\"]}").unwrap();
let ref array = json_value["animals"];
assert_eq!(array[0].as_string().unwrap(), "dog");
assert_eq!(array[1].as_string().unwrap(), "cat");
assert_eq!(array[2].as_string().unwrap(), "mouse");
}
#[test]
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fn test_is_object() {
let json_value = from_str("{}").unwrap();
assert!(json_value.is_object());
}
#[test]
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fn test_as_object() {
let json_value = from_str("{}").unwrap();
let json_object = json_value.as_object();
assert!(json_object.is_some());
}
#[test]
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fn test_is_array() {
let json_value = from_str("[1, 2, 3]").unwrap();
assert!(json_value.is_array());
}
#[test]
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fn test_as_array() {
let json_value = from_str("[1, 2, 3]").unwrap();
let json_array = json_value.as_array();
let expected_length = 3;
assert!(json_array.is_some() && json_array.unwrap().len() == expected_length);
}
#[test]
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fn test_is_string() {
let json_value = from_str("\"dog\"").unwrap();
assert!(json_value.is_string());
}
#[test]
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fn test_as_string() {
let json_value = from_str("\"dog\"").unwrap();
let json_str = json_value.as_string();
let expected_str = "dog";
assert_eq!(json_str, Some(expected_str));
}
#[test]
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fn test_is_number() {
let json_value = from_str("12").unwrap();
assert!(json_value.is_number());
}
#[test]
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fn test_is_i64() {
let json_value = from_str("-12").unwrap();
assert!(json_value.is_i64());
let json_value = from_str("12").unwrap();
assert!(!json_value.is_i64());
let json_value = from_str("12.0").unwrap();
assert!(!json_value.is_i64());
}
#[test]
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fn test_is_u64() {
let json_value = from_str("12").unwrap();
assert!(json_value.is_u64());
let json_value = from_str("-12").unwrap();
assert!(!json_value.is_u64());
let json_value = from_str("12.0").unwrap();
assert!(!json_value.is_u64());
}
#[test]
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fn test_is_f64() {
let json_value = from_str("12").unwrap();
assert!(!json_value.is_f64());
let json_value = from_str("-12").unwrap();
assert!(!json_value.is_f64());
let json_value = from_str("12.0").unwrap();
assert!(json_value.is_f64());
let json_value = from_str("-12.0").unwrap();
assert!(json_value.is_f64());
}
#[test]
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fn test_as_i64() {
let json_value = from_str("-12").unwrap();
let json_num = json_value.as_i64();
assert_eq!(json_num, Some(-12));
}
#[test]
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fn test_as_u64() {
let json_value = from_str("12").unwrap();
let json_num = json_value.as_u64();
assert_eq!(json_num, Some(12));
}
#[test]
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fn test_as_f64() {
let json_value = from_str("12.0").unwrap();
let json_num = json_value.as_f64();
assert_eq!(json_num, Some(12f64));
}
#[test]
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fn test_is_boolean() {
let json_value = from_str("false").unwrap();
assert!(json_value.is_boolean());
}
#[test]
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fn test_as_boolean() {
let json_value = from_str("false").unwrap();
let json_bool = json_value.as_boolean();
let expected_bool = false;
assert!(json_bool.is_some() && json_bool.unwrap() == expected_bool);
}
#[test]
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fn test_is_null() {
let json_value = from_str("null").unwrap();
assert!(json_value.is_null());
}
#[test]
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fn test_as_null() {
let json_value = from_str("null").unwrap();
let json_null = json_value.as_null();
let expected_null = ();
assert!(json_null.is_some() && json_null.unwrap() == expected_null);
}
#[test]
fn test_encode_hashmap_with_numeric_key() {
use std::collections::HashMap;
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use std::str::from_utf8;
let mut hm: HashMap<usize, bool> = HashMap::new();
hm.insert(1, true);
let mut mem_buf = Vec::new();
write!(&mut mem_buf, "{}", json::as_pretty_json(&hm)).unwrap();
let json_str = from_utf8(&mem_buf[..]).unwrap();
match from_str(json_str) {
Err(_) => panic!("Unable to parse json_str: {:?}", json_str),
_ => {} // it parsed and we are good to go
}
}
#[test]
fn test_prettyencode_hashmap_with_numeric_key() {
use std::collections::HashMap;
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use std::str::from_utf8;
let mut hm: HashMap<usize, bool> = HashMap::new();
hm.insert(1, true);
let mut mem_buf = Vec::new();
write!(&mut mem_buf, "{}", json::as_pretty_json(&hm)).unwrap();
let json_str = from_utf8(&mem_buf[..]).unwrap();
match from_str(json_str) {
Err(_) => panic!("Unable to parse json_str: {:?}", json_str),
_ => {} // it parsed and we are good to go
}
}
#[test]
fn test_prettyencoder_indent_level_param() {
use std::collections::BTreeMap;
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use std::str::from_utf8;
let mut tree = BTreeMap::new();
tree.insert("hello".to_string(), String("guten tag".to_string()));
tree.insert("goodbye".to_string(), String("sayonara".to_string()));
let json = Array(
// The following layout below should look a lot like
// the pretty-printed JSON (indent * x)
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vec![
// 0x
String("greetings".to_string()), // 1x
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Object(tree), // 1x + 2x + 2x + 1x
], // 0x
// End JSON array (7 lines)
);
// Helper function for counting indents
fn indents(source: &str) -> usize {
let trimmed = source.trim_start_matches(' ');
source.len() - trimmed.len()
}
// Test up to 4 spaces of indents (more?)
for i in 0..4 {
let mut writer = Vec::new();
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write!(&mut writer, "{}", json::as_pretty_json(&json).indent(i)).unwrap();
let printed = from_utf8(&writer[..]).unwrap();
// Check for indents at each line
let lines: Vec<&str> = printed.lines().collect();
assert_eq!(lines.len(), 7); // JSON should be 7 lines
assert_eq!(indents(lines[0]), 0 * i); // [
assert_eq!(indents(lines[1]), 1 * i); // "greetings",
assert_eq!(indents(lines[2]), 1 * i); // {
assert_eq!(indents(lines[3]), 2 * i); // "hello": "guten tag",
assert_eq!(indents(lines[4]), 2 * i); // "goodbye": "sayonara"
assert_eq!(indents(lines[5]), 1 * i); // },
assert_eq!(indents(lines[6]), 0 * i); // ]
// Finally, test that the pretty-printed JSON is valid
from_str(printed).ok().expect("Pretty-printed JSON is invalid!");
}
}
#[test]
fn test_hashmap_with_enum_key() {
use std::collections::HashMap;
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#[derive(Encodable, Eq, Hash, PartialEq, Decodable, Debug)]
enum Enum {
Foo,
#[allow(dead_code)]
Bar,
}
let mut map = HashMap::new();
map.insert(Enum::Foo, 0);
let result = json::encode(&map).unwrap();
assert_eq!(&result[..], r#"{"Foo":0}"#);
let decoded: HashMap<Enum, _> = json::decode(&result).unwrap();
assert_eq!(map, decoded);
}
#[test]
fn test_hashmap_with_numeric_key_can_handle_double_quote_delimited_key() {
use std::collections::HashMap;
let json_str = "{\"1\":true}";
let json_obj = match from_str(json_str) {
Err(_) => panic!("Unable to parse json_str: {:?}", json_str),
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Ok(o) => o,
};
let mut decoder = Decoder::new(json_obj);
let _hm: HashMap<usize, bool> = Decodable::decode(&mut decoder).unwrap();
}
#[test]
fn test_hashmap_with_numeric_key_will_error_with_string_keys() {
use std::collections::HashMap;
let json_str = "{\"a\":true}";
let json_obj = match from_str(json_str) {
Err(_) => panic!("Unable to parse json_str: {:?}", json_str),
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Ok(o) => o,
};
let mut decoder = Decoder::new(json_obj);
let result: Result<HashMap<usize, bool>, DecoderError> = Decodable::decode(&mut decoder);
assert_eq!(result, Err(ExpectedError("Number".to_string(), "a".to_string())));
}
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fn assert_stream_equal(src: &str, expected: Vec<(JsonEvent, Vec<StackElement<'_>>)>) {
let mut parser = Parser::new(src.chars());
let mut i = 0;
loop {
let evt = match parser.next() {
Some(e) => e,
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None => {
break;
}
};
let (ref expected_evt, ref expected_stack) = expected[i];
if !parser.stack().is_equal_to(expected_stack) {
panic!("Parser stack is not equal to {:?}", expected_stack);
}
assert_eq!(&evt, expected_evt);
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i += 1;
}
}
#[test]
fn test_streaming_parser() {
assert_stream_equal(
r#"{ "foo":"bar", "array" : [0, 1, 2, 3, 4, 5], "idents":[null,true,false]}"#,
vec![
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(ObjectStart, vec![]),
(StringValue("bar".to_string()), vec![StackElement::Key("foo")]),
(ArrayStart, vec![StackElement::Key("array")]),
(U64Value(0), vec![StackElement::Key("array"), StackElement::Index(0)]),
(U64Value(1), vec![StackElement::Key("array"), StackElement::Index(1)]),
(U64Value(2), vec![StackElement::Key("array"), StackElement::Index(2)]),
(U64Value(3), vec![StackElement::Key("array"), StackElement::Index(3)]),
(U64Value(4), vec![StackElement::Key("array"), StackElement::Index(4)]),
(U64Value(5), vec![StackElement::Key("array"), StackElement::Index(5)]),
(ArrayEnd, vec![StackElement::Key("array")]),
(ArrayStart, vec![StackElement::Key("idents")]),
(NullValue, vec![StackElement::Key("idents"), StackElement::Index(0)]),
(BooleanValue(true), vec![StackElement::Key("idents"), StackElement::Index(1)]),
(BooleanValue(false), vec![StackElement::Key("idents"), StackElement::Index(2)]),
(ArrayEnd, vec![StackElement::Key("idents")]),
(ObjectEnd, vec![]),
],
);
}
fn last_event(src: &str) -> JsonEvent {
let mut parser = Parser::new(src.chars());
let mut evt = NullValue;
loop {
evt = match parser.next() {
Some(e) => e,
None => return evt,
}
}
}
#[test]
fn test_read_object_streaming() {
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assert_eq!(last_event("{ "), Error(SyntaxError(EOFWhileParsingObject, 1, 3)));
assert_eq!(last_event("{1"), Error(SyntaxError(KeyMustBeAString, 1, 2)));
assert_eq!(last_event("{ \"a\""), Error(SyntaxError(EOFWhileParsingObject, 1, 6)));
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assert_eq!(last_event("{\"a\""), Error(SyntaxError(EOFWhileParsingObject, 1, 5)));
assert_eq!(last_event("{\"a\" "), Error(SyntaxError(EOFWhileParsingObject, 1, 6)));
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assert_eq!(last_event("{\"a\" 1"), Error(SyntaxError(ExpectedColon, 1, 6)));
assert_eq!(last_event("{\"a\":"), Error(SyntaxError(EOFWhileParsingValue, 1, 6)));
assert_eq!(last_event("{\"a\":1"), Error(SyntaxError(EOFWhileParsingObject, 1, 7)));
assert_eq!(last_event("{\"a\":1 1"), Error(SyntaxError(InvalidSyntax, 1, 8)));
assert_eq!(last_event("{\"a\":1,"), Error(SyntaxError(EOFWhileParsingObject, 1, 8)));
assert_eq!(last_event("{\"a\":1,}"), Error(SyntaxError(TrailingComma, 1, 8)));
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assert_stream_equal("{}", vec![(ObjectStart, vec![]), (ObjectEnd, vec![])]);
assert_stream_equal(
"{\"a\": 3}",
vec![
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(ObjectStart, vec![]),
(U64Value(3), vec![StackElement::Key("a")]),
(ObjectEnd, vec![]),
],
);
assert_stream_equal(
"{ \"a\": null, \"b\" : true }",
vec![
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(ObjectStart, vec![]),
(NullValue, vec![StackElement::Key("a")]),
(BooleanValue(true), vec![StackElement::Key("b")]),
(ObjectEnd, vec![]),
],
);
assert_stream_equal(
"{\"a\" : 1.0 ,\"b\": [ true ]}",
vec![
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(ObjectStart, vec![]),
(F64Value(1.0), vec![StackElement::Key("a")]),
(ArrayStart, vec![StackElement::Key("b")]),
(BooleanValue(true), vec![StackElement::Key("b"), StackElement::Index(0)]),
(ArrayEnd, vec![StackElement::Key("b")]),
(ObjectEnd, vec![]),
],
);
assert_stream_equal(
r#"{
"a": 1.0,
"b": [
true,
"foo\nbar",
{ "c": {"d": null} }
]
}"#,
vec![
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(ObjectStart, vec![]),
(F64Value(1.0), vec![StackElement::Key("a")]),
(ArrayStart, vec![StackElement::Key("b")]),
(BooleanValue(true), vec![StackElement::Key("b"), StackElement::Index(0)]),
(
StringValue("foo\nbar".to_string()),
vec![StackElement::Key("b"), StackElement::Index(1)],
),
(ObjectStart, vec![StackElement::Key("b"), StackElement::Index(2)]),
(
ObjectStart,
vec![StackElement::Key("b"), StackElement::Index(2), StackElement::Key("c")],
),
(
NullValue,
vec![
StackElement::Key("b"),
StackElement::Index(2),
StackElement::Key("c"),
StackElement::Key("d"),
],
),
(
ObjectEnd,
vec![StackElement::Key("b"), StackElement::Index(2), StackElement::Key("c")],
),
(ObjectEnd, vec![StackElement::Key("b"), StackElement::Index(2)]),
(ArrayEnd, vec![StackElement::Key("b")]),
(ObjectEnd, vec![]),
],
);
}
#[test]
fn test_read_array_streaming() {
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assert_stream_equal("[]", vec![(ArrayStart, vec![]), (ArrayEnd, vec![])]);
assert_stream_equal("[ ]", vec![(ArrayStart, vec![]), (ArrayEnd, vec![])]);
assert_stream_equal(
"[true]",
vec![
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(ArrayStart, vec![]),
(BooleanValue(true), vec![StackElement::Index(0)]),
(ArrayEnd, vec![]),
],
);
assert_stream_equal(
"[ false ]",
vec![
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(ArrayStart, vec![]),
(BooleanValue(false), vec![StackElement::Index(0)]),
(ArrayEnd, vec![]),
],
);
assert_stream_equal(
"[null]",
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vec![(ArrayStart, vec![]), (NullValue, vec![StackElement::Index(0)]), (ArrayEnd, vec![])],
);
assert_stream_equal(
"[3, 1]",
vec![
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(ArrayStart, vec![]),
(U64Value(3), vec![StackElement::Index(0)]),
(U64Value(1), vec![StackElement::Index(1)]),
(ArrayEnd, vec![]),
],
);
assert_stream_equal(
"\n[3, 2]\n",
vec![
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(ArrayStart, vec![]),
(U64Value(3), vec![StackElement::Index(0)]),
(U64Value(2), vec![StackElement::Index(1)]),
(ArrayEnd, vec![]),
],
);
assert_stream_equal(
"[2, [4, 1]]",
vec![
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(ArrayStart, vec![]),
(U64Value(2), vec![StackElement::Index(0)]),
(ArrayStart, vec![StackElement::Index(1)]),
(U64Value(4), vec![StackElement::Index(1), StackElement::Index(0)]),
(U64Value(1), vec![StackElement::Index(1), StackElement::Index(1)]),
(ArrayEnd, vec![StackElement::Index(1)]),
(ArrayEnd, vec![]),
],
);
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assert_eq!(last_event("["), Error(SyntaxError(EOFWhileParsingValue, 1, 2)));
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assert_eq!(from_str("["), Err(SyntaxError(EOFWhileParsingValue, 1, 2)));
assert_eq!(from_str("[1"), Err(SyntaxError(EOFWhileParsingArray, 1, 3)));
assert_eq!(from_str("[1,"), Err(SyntaxError(EOFWhileParsingValue, 1, 4)));
assert_eq!(from_str("[1,]"), Err(SyntaxError(InvalidSyntax, 1, 4)));
assert_eq!(from_str("[6 7]"), Err(SyntaxError(InvalidSyntax, 1, 4)));
}
#[test]
fn test_trailing_characters_streaming() {
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assert_eq!(last_event("nulla"), Error(SyntaxError(TrailingCharacters, 1, 5)));
assert_eq!(last_event("truea"), Error(SyntaxError(TrailingCharacters, 1, 5)));
assert_eq!(last_event("falsea"), Error(SyntaxError(TrailingCharacters, 1, 6)));
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assert_eq!(last_event("1a"), Error(SyntaxError(TrailingCharacters, 1, 2)));
assert_eq!(last_event("[]a"), Error(SyntaxError(TrailingCharacters, 1, 3)));
assert_eq!(last_event("{}a"), Error(SyntaxError(TrailingCharacters, 1, 3)));
}
#[test]
fn test_read_identifiers_streaming() {
assert_eq!(Parser::new("null".chars()).next(), Some(NullValue));
assert_eq!(Parser::new("true".chars()).next(), Some(BooleanValue(true)));
assert_eq!(Parser::new("false".chars()).next(), Some(BooleanValue(false)));
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assert_eq!(last_event("n"), Error(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(last_event("nul"), Error(SyntaxError(InvalidSyntax, 1, 4)));
assert_eq!(last_event("t"), Error(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(last_event("truz"), Error(SyntaxError(InvalidSyntax, 1, 4)));
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assert_eq!(last_event("f"), Error(SyntaxError(InvalidSyntax, 1, 2)));
assert_eq!(last_event("faz"), Error(SyntaxError(InvalidSyntax, 1, 3)));
}
#[test]
fn test_to_json() {
use json::ToJson;
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use std::collections::{BTreeMap, HashMap};
let array2 = Array(vec![U64(1), U64(2)]);
let array3 = Array(vec![U64(1), U64(2), U64(3)]);
let object = {
let mut tree_map = BTreeMap::new();
tree_map.insert("a".to_string(), U64(1));
tree_map.insert("b".to_string(), U64(2));
Object(tree_map)
};
assert_eq!(array2.to_json(), array2);
assert_eq!(object.to_json(), object);
assert_eq!(3_isize.to_json(), I64(3));
assert_eq!(4_i8.to_json(), I64(4));
assert_eq!(5_i16.to_json(), I64(5));
assert_eq!(6_i32.to_json(), I64(6));
assert_eq!(7_i64.to_json(), I64(7));
assert_eq!(8_usize.to_json(), U64(8));
assert_eq!(9_u8.to_json(), U64(9));
assert_eq!(10_u16.to_json(), U64(10));
assert_eq!(11_u32.to_json(), U64(11));
assert_eq!(12_u64.to_json(), U64(12));
assert_eq!(13.0_f32.to_json(), F64(13.0_f64));
assert_eq!(14.0_f64.to_json(), F64(14.0_f64));
assert_eq!(().to_json(), Null);
assert_eq!(f32::INFINITY.to_json(), Null);
assert_eq!(f64::NAN.to_json(), Null);
assert_eq!(true.to_json(), Boolean(true));
assert_eq!(false.to_json(), Boolean(false));
assert_eq!("abc".to_json(), String("abc".to_string()));
assert_eq!("abc".to_string().to_json(), String("abc".to_string()));
assert_eq!((1_usize, 2_usize).to_json(), array2);
assert_eq!((1_usize, 2_usize, 3_usize).to_json(), array3);
assert_eq!([1_usize, 2_usize].to_json(), array2);
assert_eq!((&[1_usize, 2_usize, 3_usize]).to_json(), array3);
assert_eq!((vec![1_usize, 2_usize]).to_json(), array2);
assert_eq!(vec![1_usize, 2_usize, 3_usize].to_json(), array3);
let mut tree_map = BTreeMap::new();
tree_map.insert("a".to_string(), 1 as usize);
tree_map.insert("b".to_string(), 2);
assert_eq!(tree_map.to_json(), object);
let mut hash_map = HashMap::new();
hash_map.insert("a".to_string(), 1 as usize);
hash_map.insert("b".to_string(), 2);
assert_eq!(hash_map.to_json(), object);
assert_eq!(Some(15).to_json(), I64(15));
assert_eq!(Some(15 as usize).to_json(), U64(15));
assert_eq!(None::<isize>.to_json(), Null);
}
#[test]
fn test_encode_hashmap_with_arbitrary_key() {
use std::collections::HashMap;
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#[derive(PartialEq, Eq, Hash, Encodable)]
struct ArbitraryType(usize);
let mut hm: HashMap<ArbitraryType, bool> = HashMap::new();
hm.insert(ArbitraryType(1), true);
let mut mem_buf = string::String::new();
let mut encoder = Encoder::new(&mut mem_buf);
let result = hm.encode(&mut encoder);
match result.unwrap_err() {
EncoderError::BadHashmapKey => (),
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_ => panic!("expected bad hash map key"),
}
}