use std::f64::{INFINITY, NAN}; use js_sys::*; use wasm_bindgen::prelude::*; use wasm_bindgen_test::*; #[wasm_bindgen(module = "tests/wasm/Number.js")] extern "C" { fn const_epsilon() -> f64; fn const_max_safe_integer() -> f64; fn const_max_value() -> f64; fn const_min_safe_integer() -> f64; fn const_min_value() -> f64; fn const_negative_infinity() -> f64; fn const_positive_infinity() -> f64; } #[wasm_bindgen_test] fn is_finite() { assert!(Number::is_finite(&42.into())); assert!(Number::is_finite(&42.1.into())); assert!(!Number::is_finite(&"42".into())); assert!(!Number::is_finite(&NAN.into())); assert!(!Number::is_finite(&INFINITY.into())); } #[wasm_bindgen_test] fn is_integer() { assert!(Number::is_integer(&42.into())); assert!(!Number::is_integer(&42.1.into())); } #[wasm_bindgen_test] fn is_nan() { assert!(Number::is_nan(&NAN.into())); assert!(!Number::is_nan(&JsValue::TRUE)); assert!(!Number::is_nan(&JsValue::NULL)); assert!(!Number::is_nan(&37.into())); assert!(!Number::is_nan(&"37".into())); assert!(!Number::is_nan(&"37.37".into())); assert!(!Number::is_nan(&"".into())); assert!(!Number::is_nan(&" ".into())); // These would all return true with the global isNaN() assert!(!Number::is_nan(&"NaN".into())); assert!(!Number::is_nan(&JsValue::UNDEFINED)); assert!(!Number::is_nan(&"blabla".into())); } #[wasm_bindgen_test] fn is_safe_integer() { assert_eq!(Number::is_safe_integer(&42.into()), true); assert_eq!( Number::is_safe_integer(&(Math::pow(2., 53.) - 1.).into()), true ); assert_eq!(Number::is_safe_integer(&Math::pow(2., 53.).into()), false); assert_eq!(Number::is_safe_integer(&"42".into()), false); assert_eq!(Number::is_safe_integer(&42.1.into()), false); assert_eq!(Number::is_safe_integer(&NAN.into()), false); assert_eq!(Number::is_safe_integer(&INFINITY.into()), false); } #[allow(deprecated)] #[wasm_bindgen_test] fn new() { let n = Number::new(&JsValue::from(42)); let v = JsValue::from(n); assert!(v.is_object()); assert_eq!(Number::from(v).value_of(), 42.); } #[wasm_bindgen_test] fn parse_int_float() { assert_eq!(Number::parse_int("42", 10), 42.); assert_eq!(Number::parse_int("42", 16), 66.); // 0x42 == 66 assert!(Number::parse_int("invalid int", 10).is_nan()); assert_eq!(Number::parse_float("123456.789"), 123456.789); assert!(Number::parse_float("invalid float").is_nan()); } #[wasm_bindgen_test] fn to_locale_string() { let number = Number::from(1234.45); assert_eq!(number.to_locale_string("en-US"), "1,234.45"); // TODO: these tests seems to be system dependent, disable for now // assert_eq!(wasm.to_locale_string(number, "de-DE"), "1,234.45"); // assert_eq!(wasm.to_locale_string(number, "zh-Hans-CN-u-nu-hanidec"), "1,234.45"); } #[wasm_bindgen_test] fn to_precision() { assert_eq!(Number::from(0.1).to_precision(3).unwrap(), "0.100"); assert!(Number::from(10).to_precision(101).is_err()); } #[wasm_bindgen_test] fn to_string() { assert_eq!(Number::from(42).to_string(10).unwrap(), "42"); assert_eq!(Number::from(233).to_string(16).unwrap(), "e9"); assert!(Number::from(100).to_string(100).is_err()); } #[wasm_bindgen_test] fn value_of() { assert_eq!(Number::from(42).value_of(), 42.); } #[wasm_bindgen_test] fn to_fixed() { assert_eq!(Number::from(123.456).to_fixed(2).unwrap(), "123.46"); assert!(Number::from(10).to_fixed(101).is_err()); } #[wasm_bindgen_test] fn to_exponential() { assert_eq!(Number::from(123456).to_exponential(2).unwrap(), "1.23e+5"); assert!(Number::from(10).to_exponential(101).is_err()); } #[allow(deprecated)] #[wasm_bindgen_test] fn number_inheritance() { let n = Number::new(&JsValue::from(42)); assert!(n.is_instance_of::()); assert!(n.is_instance_of::()); let _: &Object = n.as_ref(); } #[wasm_bindgen_test] fn consts() { assert_eq!(const_epsilon(), Number::EPSILON, "EPSILON"); assert_eq!( const_max_safe_integer(), Number::MAX_SAFE_INTEGER, "MAX_SAFE_INTEGER" ); assert_eq!(const_max_value(), Number::MAX_VALUE, "MAX_VALUE"); assert_eq!( const_min_safe_integer(), Number::MIN_SAFE_INTEGER, "MIN_SAFE_INTEGER" ); assert_eq!(const_min_value(), Number::MIN_VALUE, "MIN_VALUE"); assert_eq!( const_negative_infinity(), Number::NEGATIVE_INFINITY, "NEGATIVE_INFINITY" ); assert_eq!( const_positive_infinity(), Number::POSITIVE_INFINITY, "POSITIVE_INFINITY" ); }