android/vendor/js-sys-0.3.60/tests/wasm/JsString.rs - toolchain/sccache - Git at Google

 use js_sys::*;
 use wasm_bindgen::prelude::*;
 use wasm_bindgen::JsCast;
 use wasm_bindgen::JsValue;
 use wasm_bindgen_test::*;

 #[wasm_bindgen(module = "tests/wasm/JsString.js")]
 extern "C" {
     fn new_string_object() -> JsValue;
     fn get_replacer_function() -> Function;
 }

 #[wasm_bindgen_test]
 fn js_string_inheritance() {
     let string = new_string_object();
     assert!(string.is_instance_of::<JsString>());
     assert!(string.is_instance_of::<Object>());
 }

 #[wasm_bindgen_test]
 fn length() {
     fn test(s: &str) {
         assert_eq!(JsString::from(s).length(), s.len() as u32);
     }
     test("Mozilla");
     test("");
 }

 #[wasm_bindgen_test]
 fn char_at() {
     let s = JsString::from("Brave new world");
     assert_eq!(JsValue::from(s.char_at(0)), "B");
     assert_eq!(JsValue::from(s.char_at(999)), "");
 }

 #[wasm_bindgen_test]
 fn char_code_at() {
     let s = "Brave new world";
     let js = JsString::from(s);
     for (i, b) in s.char_indices() {
         assert_eq!(js.char_code_at(i as u32), b as u32 as f64);
     }
     assert!(js.char_code_at(s.len() as u32).is_nan());
 }

 #[wasm_bindgen_test]
 fn code_point_at() {
     assert_eq!(JsString::from("ABC").code_point_at(1), b'B');
     assert!(JsString::from("ABC").code_point_at(42).is_undefined());
 }

 #[wasm_bindgen_test]
 fn concat() {
     // TODO: Implement ability to receive multiple optional arguments
     let s = JsString::from("Hello ").concat(&"World".into());
     assert_eq!(JsValue::from(s), "Hello World");
     let foo = JsString::from("foo");
     assert_eq!(
         JsValue::from(foo.concat(&Object::new().into())),
         "foo[object Object]"
     );
     assert_eq!(JsValue::from(foo.concat(&Array::new().into())), "foo");
     assert_eq!(JsValue::from(foo.concat(&JsValue::null())), "foonull");
     assert_eq!(JsValue::from(foo.concat(&true.into())), "footrue");
     assert_eq!(JsValue::from(foo.concat(&1234.into())), "foo1234");
 }

 #[wasm_bindgen_test]
 fn ends_with() {
     let s = "To be, or not to be, that is the question.";
     let js = JsString::from(s);

     // TODO: remove third parameter once we have optional parameters
     assert_eq!(js.ends_with("question.", s.len() as i32), true);
     assert_eq!(js.ends_with("to be", s.len() as i32), false);
     assert_eq!(js.ends_with("to be", 19), true);
 }

 #[wasm_bindgen_test]
 fn from_char_code() {
     let s = "½+¾=";
     let codes: Vec<u32> = s.chars().map(|char| char as u32).collect();

     assert_eq!(JsString::from_char_code1(codes[0]), "½");
     assert_eq!(JsString::from_char_code2(codes[0], codes[1]), "½+");
     assert_eq!(
         JsString::from_char_code3(codes[0], codes[1], codes[2]),
         "½+¾"
     );
     assert_eq!(
         JsString::from_char_code4(codes[0], codes[1], codes[2], codes[3]),
         "½+¾="
     );

     let codes_u16: Vec<u16> = codes
         .into_iter()
         .map(|code| {
             assert!(code <= u32::from(u16::max_value()));
             code as u16
         })
         .collect();

     assert_eq!(JsString::from_char_code(&codes_u16), "½+¾=");
 }

 #[wasm_bindgen_test]
 fn from_code_point() {
     let s = "☃★♲你";
     let codes: Vec<u32> = s.chars().map(|char| char as u32).collect();

     assert_eq!(JsString::from_code_point1(codes[0]).unwrap(), "☃");
     assert_eq!(
         JsString::from_code_point2(codes[0], codes[1]).unwrap(),
         "☃★"
     );
     assert_eq!(
         JsString::from_code_point3(codes[0], codes[1], codes[2]).unwrap(),
         "☃★♲"
     );
     assert_eq!(
         JsString::from_code_point4(codes[0], codes[1], codes[2], codes[3]).unwrap(),
         "☃★♲你"
     );
     assert_eq!(JsString::from_code_point(&codes).unwrap(), "☃★♲你");

     assert!(!JsString::from_code_point1(0x10FFFF).is_err());
     assert!(JsString::from_code_point1(0x110000).is_err());
     assert!(JsString::from_code_point1(u32::max_value()).is_err());
 }

 #[wasm_bindgen_test]
 fn includes() {
     let str = JsString::from("Blue Whale");

     // TODO: remove second parameter once we have optional parameters
     assert_eq!(str.includes("Blue", 0), true);
     assert_eq!(str.includes("Blute", 0), false);
     assert_eq!(str.includes("Whale", 0), true);
     assert_eq!(str.includes("Whale", 5), true);
     assert_eq!(str.includes("Whale", 7), false);
     assert_eq!(str.includes("", 0), true);
     assert_eq!(str.includes("", 16), true);
 }

 #[wasm_bindgen_test]
 fn index_of() {
     let str = JsString::from("Blue Whale");

     // TODO: remove second parameter once we have optional parameters
     assert_eq!(str.index_of("Blue", 0), 0);
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(str.index_of("Blute", 0), -1);
     assert_eq!(str.index_of("Whale", 0), 5);
     assert_eq!(str.index_of("Whale", 5), 5);
     assert_eq!(str.index_of("Whale", 7), -1);
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(str.index_of("", 0), 0);
     assert_eq!(str.index_of("", 9), 9);
     assert_eq!(str.index_of("", 10), 10);
     assert_eq!(str.index_of("", 11), 10);
 }

 #[wasm_bindgen_test]
 fn last_index_of() {
     let js = JsString::from("canal");
     let len = js.length() as i32;

     // TODO: remove second parameter once we have optional parameters
     assert_eq!(js.last_index_of("a", len), 3);
     assert_eq!(js.last_index_of("a", 2), 1);
     assert_eq!(js.last_index_of("a", 0), -1);
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(js.last_index_of("x", len), -1);
     assert_eq!(js.last_index_of("c", -5), 0);
     assert_eq!(js.last_index_of("c", 0), 0);
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(js.last_index_of("", len), 5);
     assert_eq!(js.last_index_of("", 2), 2);
 }

 #[wasm_bindgen_test]
 fn match_() {
     let s = "The quick brown fox jumped over the lazy dog. It barked.";
     let re = RegExp::new("[A-Z]", "g");
     let result = JsString::from(s).match_(&re);
     let obj = result.unwrap();

     assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "T");
     assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "I");

     let re = RegExp::new("[A-Z]([a-z]*)", "g");
     let result = JsString::from(s).match_(&re);
     let obj = result.unwrap();

     assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "The");
     assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "It");

     let result = JsString::from("foo").match_(&re);
     assert!(result.is_none());

     let s = "For more information, see Chapter 3.4.5.1";
     let re = RegExp::new("see (chapter \\d+(\\.\\d)*)", "i");
     let result = JsString::from(s).match_(&re);
     let obj = result.unwrap();

     assert_eq!(
         Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
         "see Chapter 3.4.5.1"
     );
     assert_eq!(
         Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
         "Chapter 3.4.5.1"
     );
     assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".1");
     assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 22);
     assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);
 }

 #[wasm_bindgen_test]
 fn match_all() {
     let s = "The quick brown fox jumped over the lazy dog. It barked.";
     let re = RegExp::new("[A-Z]([a-z]*)", "g");
     let result: Vec<_> = JsString::from(s)
         .match_all(&re)
         .into_iter()
         .collect::<Result<_, _>>()
         .unwrap();

     let obj = &result[0];
     assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "The");
     assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "he");

     let obj = &result[1];
     assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "It");
     assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "t");

     let result: Vec<_> = JsString::from("foo")
         .match_all(&re)
         .into_iter()
         .collect::<Result<_, _>>()
         .unwrap();
     assert_eq!(result.len(), 0);

     let s = "For more information, see Chapter 3.4.5.1. Also see Chapter 3.1.4";
     let re = RegExp::new("see (chapter \\d+(\\.\\d)*)", "gi");
     let result: Vec<_> = JsString::from(s)
         .match_all(&re)
         .into_iter()
         .collect::<Result<_, _>>()
         .unwrap();

     let obj = &result[0];
     assert_eq!(
         Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
         "see Chapter 3.4.5.1"
     );
     assert_eq!(
         Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
         "Chapter 3.4.5.1"
     );
     assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".1");
     assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 22);
     assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);

     let obj = &result[1];
     assert_eq!(
         Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
         "see Chapter 3.1.4"
     );
     assert_eq!(
         Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
         "Chapter 3.1.4"
     );
     assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".4");
     assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 48);
     assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);
 }

 #[wasm_bindgen_test]
 fn normalize() {
     let js = JsString::from("\u{1E9B}\u{0323}");

     // TODO: Handle undefined
     assert_eq!(JsValue::from(js.normalize("NFC")), "\u{1E9B}\u{0323}");
     assert_eq!(
         JsValue::from(js.normalize("NFD")),
         "\u{017F}\u{0323}\u{0307}"
     );
     assert_eq!(JsValue::from(js.normalize("NFKC")), "\u{1E69}");
     assert_eq!(
         JsValue::from(js.normalize("NFKD")),
         "\u{0073}\u{0323}\u{0307}"
     );
 }

 #[wasm_bindgen_test]
 fn pad_end() {
     let js = JsString::from("abc");

     // TODO: remove second parameter once we have optional parameters
     assert_eq!(JsValue::from(js.pad_end(10, " ")), "abc       ");
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(JsValue::from(js.pad_end(10, " ")), "abc       ");
     assert_eq!(JsValue::from(js.pad_end(10, "foo")), "abcfoofoof");
     assert_eq!(JsValue::from(js.pad_end(6, "123456")), "abc123");
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(JsValue::from(js.pad_end(1, " ")), "abc");
 }

 #[wasm_bindgen_test]
 fn pad_start() {
     let js = JsString::from("abc");

     // TODO: remove second parameter once we have optional parameters
     assert_eq!(js.pad_start(10, " "), "       abc");
     assert_eq!(js.pad_start(10, "foo"), "foofoofabc");
     assert_eq!(js.pad_start(6, "123465"), "123abc");
     assert_eq!(js.pad_start(8, "0"), "00000abc");
     // TODO: remove second parameter once we have optional parameters
     assert_eq!(js.pad_start(1, " "), "abc");
 }

 #[wasm_bindgen_test]
 fn repeat() {
     assert_eq!(JsString::from("test").repeat(3), "testtesttest");
 }

 #[wasm_bindgen_test]
 fn replace() {
     let js = JsString::from(
         "The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
     );
     let result = js.replace("dog", "ferret");

     assert_eq!(
         result,
         "The quick brown fox jumped over the lazy ferret. If the dog reacted, was it really lazy?"
     );

     let js = JsString::from("borderTop");
     let result = js.replace_with_function("T", &get_replacer_function());

     assert_eq!(result, "border-top");

     let js = JsString::from(
         "The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
     );
     let re = RegExp::new("dog", "g");
     let result = js.replace_by_pattern(&re, "ferret");

     assert_eq!(result, "The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?");

     let js = JsString::from("borderTop");
     let re = RegExp::new("[A-Z]", "g");
     let result = js.replace_by_pattern_with_function(&re, &get_replacer_function());

     assert_eq!(result, "border-top");
 }

 #[wasm_bindgen_test]
 fn replace_all() {
     let js = JsString::from(
         "The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
     );
     let result = js.replace_all("dog", "ferret");

     assert_eq!(
         result,
         "The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?"
     );

     let js = JsString::from("borderTopTest");
     let result = js.replace_all_with_function("T", &get_replacer_function());

     assert_eq!(result, "border-top-test");

     let js = JsString::from(
         "The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
     );
     let re = RegExp::new("dog", "g");
     let result = js.replace_all_by_pattern(&re, "ferret");

     assert_eq!(result, "The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?");

     let js = JsString::from("borderTopTest");
     let re = RegExp::new("[A-Z]", "g");
     let result = js.replace_all_by_pattern_with_function(&re, &get_replacer_function());

     assert_eq!(result, "border-top-test");
 }

 #[wasm_bindgen_test]
 fn search() {
     let js = JsString::from(
         "The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
     );
     let re = RegExp::new("[^\\w\\s]", "g");

     assert_eq!(js.search(&re), 44);

     let js = JsString::from("hey JudE");
     let re1 = RegExp::new("[A-Z]", "g");
     let re2 = RegExp::new("[.]", "g");

     assert_eq!(js.search(&re1), 4);
     assert_eq!(js.search(&re2), -1);
 }

 #[wasm_bindgen_test]
 fn slice() {
     let characters = JsString::from("acxn18");
     assert_eq!(characters.slice(1, 3), "cx");
 }

 #[wasm_bindgen_test]
 fn split() {
     let js = JsString::from("Oh brave new world");
     let result = js.split(" ");

     let mut v = Vec::with_capacity(result.length() as usize);
     result.for_each(&mut |x, _, _| v.push(x));

     assert_eq!(v[0], "Oh");
     assert_eq!(v[1], "brave");
     assert_eq!(v[2], "new");
     assert_eq!(v[3], "world");

     let js = JsString::from("Oct,Nov,Dec");
     let result = js.split(",");

     let mut v = Vec::with_capacity(result.length() as usize);
     result.for_each(&mut |x, _, _| v.push(x));

     assert_eq!(v[0], "Oct");
     assert_eq!(v[1], "Nov");
     assert_eq!(v[2], "Dec");

     let result = js.split_limit(",", 2);

     let mut v = Vec::with_capacity(result.length() as usize);
     result.for_each(&mut |x, _, _| v.push(x));

     assert_eq!(result.length(), 2);
     assert_eq!(v[0], "Oct");
     assert_eq!(v[1], "Nov");

     let js = JsString::from("Oh brave new world");
     let re = RegExp::new("\\s", "g");
     let result = js.split_by_pattern(&re);

     let mut v = Vec::with_capacity(result.length() as usize);
     result.for_each(&mut |x, _, _| v.push(x));

     assert_eq!(v[0], "Oh");
     assert_eq!(v[1], "brave");
     assert_eq!(v[2], "new");
     assert_eq!(v[3], "world");

     let result = js.split_by_pattern_limit(&re, 2);

     let mut v = Vec::with_capacity(result.length() as usize);
     result.for_each(&mut |x, _, _| v.push(x));

     assert_eq!(result.length(), 2);
     assert_eq!(v[0], "Oh");
     assert_eq!(v[1], "brave");
 }

 #[wasm_bindgen_test]
 fn starts_with() {
     let js = JsString::from("To be, or not to be, that is the question.");

     // TODO: remove second parameter for both assertions once we have optional parameters
     assert!(js.starts_with("To be", 0));
     assert!(!js.starts_with("not to be", 0));
     assert!(js.starts_with("not to be", 10));
 }

 #[wasm_bindgen_test]
 fn substring() {
     let js = JsString::from("Mozilla");

     assert_eq!(js.substring(0, 1), "M");
     assert_eq!(js.substring(1, 0), "M");

     assert_eq!(js.substring(0, 6), "Mozill");

     // TODO: Add test once we have optional parameters
     // assert_eq!(js.substring(4), "lla");
     assert_eq!(js.substring(4, 7), "lla");
     assert_eq!(js.substring(7, 4), "lla");

     assert_eq!(js.substring(0, 7), "Mozilla");
     assert_eq!(js.substring(0, 10), "Mozilla");
 }

 #[wasm_bindgen_test]
 fn substr() {
     let js = JsString::from("Mozilla");

     assert_eq!(js.substr(0, 1), "M");
     assert_eq!(js.substr(1, 0), "");
     assert_eq!(js.substr(-1, 1), "a");
     assert_eq!(js.substr(1, -1), "");
     // TODO: Uncomment and test these assertions, once we have support for optional parameters
     // assert_eq!(js.substr(-3), "lla");
     // assert_eq!(js.substr(1), "ozilla");
     assert_eq!(js.substr(-20, 2), "Mo");
     assert_eq!(js.substr(20, 2), "");
 }

 #[wasm_bindgen_test]
 fn to_locale_lower_case() {
     let js = JsString::from("Mozilla");
     assert_eq!(js.to_locale_lower_case(None), "mozilla");
     let s = JsString::from("\u{0130}");
     assert_eq!(s.to_locale_lower_case(Some("tr".into())), "i");
     assert_ne!(s.to_locale_lower_case(Some("en-US".into())), "i");
 }

 #[wasm_bindgen_test]
 fn to_locale_upper_case() {
     let js = JsString::from("mozilla");
     assert_eq!(js.to_locale_upper_case(None), "MOZILLA");
     let s = JsString::from("i\u{0307}");
     assert_eq!(s.to_locale_upper_case(Some("lt".into())), "I");
     assert_ne!(s.to_locale_upper_case(Some("en-US".into())), "I");
 }

 #[wasm_bindgen_test]
 fn to_lower_case() {
     assert_eq!(JsString::from("Mozilla").to_lower_case(), "mozilla");
 }

 #[wasm_bindgen_test]
 fn to_string() {
     assert_eq!(JsString::from("foo").to_string(), "foo");
 }

 #[wasm_bindgen_test]
 fn to_upper_case() {
     assert_eq!(JsString::from("Mozilla").to_upper_case(), "MOZILLA");
 }

 #[wasm_bindgen_test]
 fn trim() {
     assert_eq!(JsString::from("   foo  ").trim(), "foo");
     // Another example of .trim() removing whitespace from just one side.
     assert_eq!(JsString::from("foo   ").trim(), "foo");
 }

 #[wasm_bindgen_test]
 fn trim_end_and_trim_right() {
     let greeting = JsString::from("   Hello world!   ");
     let trimmed = "   Hello world!";
     assert_eq!(greeting.trim_end(), trimmed);
     assert_eq!(greeting.trim_right(), trimmed);
 }

 #[wasm_bindgen_test]
 fn trim_start_and_trim_left() {
     let greeting = JsString::from("   Hello world!   ");
     let trimmed = "Hello world!   ";
     assert_eq!(greeting.trim_start(), trimmed);
     assert_eq!(greeting.trim_left(), trimmed);
 }

 #[wasm_bindgen_test]
 fn value_of() {
     let greeting = JsString::from("Hello world!");
     assert_eq!(greeting.value_of(), "Hello world!");
 }

 #[wasm_bindgen_test]
 fn raw() {
     let call_site = Object::new();
     let raw = Array::of3(&"foo".into(), &"bar".into(), &"123".into());
     Reflect::set(&call_site.as_ref(), &"raw".into(), &raw.into()).unwrap();
     assert_eq!(
         JsString::raw_2(&call_site, "5", "JavaScript").unwrap(),
         "foo5barJavaScript123"
     );
     let substitutions = Array::of2(&"5".into(), &"JavaScript".into());
     assert_eq!(
         JsString::raw(&call_site, &substitutions).unwrap(),
         "foo5barJavaScript123"
     );
     assert!(JsString::raw_0(&JsValue::null().unchecked_into()).is_err());
 }

 #[wasm_bindgen_test]
 fn is_valid_utf16() {
     assert!(JsString::from("a").is_valid_utf16());
     assert!(JsString::from("").is_valid_utf16());
     assert!(JsString::from("🥑").is_valid_utf16());
     assert!(JsString::from("Why hello there this, 🥑, is 🥑 and is 🥑").is_valid_utf16());

     assert!(JsString::from_char_code1(0x00).is_valid_utf16());
     assert!(!JsString::from_char_code1(0xd800).is_valid_utf16());
     assert!(!JsString::from_char_code1(0xdc00).is_valid_utf16());
 }

 #[wasm_bindgen_test]
 fn as_char() {
     assert_eq!(JsString::from('a').as_char(), Some('a'));
     assert_eq!(JsString::from('🥑').as_char(), Some('🥑'));
     assert_eq!(JsString::from("").as_char(), None);
     assert_eq!(JsString::from("ab").as_char(), None);
     assert_eq!(JsString::from_char_code1(0xd800).as_char(), None);
     assert_eq!(JsString::from_char_code1(0xdc00).as_char(), None);
     assert_eq!(JsString::from_char_code1(0xdfff).as_char(), None);
 }
	use js_sys::*;
	use wasm_bindgen::prelude::*;
	use wasm_bindgen::JsCast;
	use wasm_bindgen::JsValue;
	use wasm_bindgen_test::*;

	#[wasm_bindgen(module = "tests/wasm/JsString.js")]
	extern "C" {
	fn new_string_object() -> JsValue;
	fn get_replacer_function() -> Function;
	}

	#[wasm_bindgen_test]
	fn js_string_inheritance() {
	let string = new_string_object();
	assert!(string.is_instance_of::<JsString>());
	assert!(string.is_instance_of::<Object>());
	}

	#[wasm_bindgen_test]
	fn length() {
	fn test(s: &str) {
	assert_eq!(JsString::from(s).length(), s.len() as u32);
	}
	test("Mozilla");
	test("");
	}

	#[wasm_bindgen_test]
	fn char_at() {
	let s = JsString::from("Brave new world");
	assert_eq!(JsValue::from(s.char_at(0)), "B");
	assert_eq!(JsValue::from(s.char_at(999)), "");
	}

	#[wasm_bindgen_test]
	fn char_code_at() {
	let s = "Brave new world";
	let js = JsString::from(s);
	for (i, b) in s.char_indices() {
	assert_eq!(js.char_code_at(i as u32), b as u32 as f64);
	}
	assert!(js.char_code_at(s.len() as u32).is_nan());
	}

	#[wasm_bindgen_test]
	fn code_point_at() {
	assert_eq!(JsString::from("ABC").code_point_at(1), b'B');
	assert!(JsString::from("ABC").code_point_at(42).is_undefined());
	}

	#[wasm_bindgen_test]
	fn concat() {
	// TODO: Implement ability to receive multiple optional arguments
	let s = JsString::from("Hello ").concat(&"World".into());
	assert_eq!(JsValue::from(s), "Hello World");
	let foo = JsString::from("foo");
	assert_eq!(
	JsValue::from(foo.concat(&Object::new().into())),
	"foo[object Object]"
	);
	assert_eq!(JsValue::from(foo.concat(&Array::new().into())), "foo");
	assert_eq!(JsValue::from(foo.concat(&JsValue::null())), "foonull");
	assert_eq!(JsValue::from(foo.concat(&true.into())), "footrue");
	assert_eq!(JsValue::from(foo.concat(&1234.into())), "foo1234");
	}

	#[wasm_bindgen_test]
	fn ends_with() {
	let s = "To be, or not to be, that is the question.";
	let js = JsString::from(s);

	// TODO: remove third parameter once we have optional parameters
	assert_eq!(js.ends_with("question.", s.len() as i32), true);
	assert_eq!(js.ends_with("to be", s.len() as i32), false);
	assert_eq!(js.ends_with("to be", 19), true);
	}

	#[wasm_bindgen_test]
	fn from_char_code() {
	let s = "½+¾=";
	let codes: Vec<u32> = s.chars().map(\|char\| char as u32).collect();

	assert_eq!(JsString::from_char_code1(codes[0]), "½");
	assert_eq!(JsString::from_char_code2(codes[0], codes[1]), "½+");
	assert_eq!(
	JsString::from_char_code3(codes[0], codes[1], codes[2]),
	"½+¾"
	);
	assert_eq!(
	JsString::from_char_code4(codes[0], codes[1], codes[2], codes[3]),
	"½+¾="
	);

	let codes_u16: Vec<u16> = codes
	.into_iter()
	.map(\|code\| {
	assert!(code <= u32::from(u16::max_value()));
	code as u16
	})
	.collect();

	assert_eq!(JsString::from_char_code(&codes_u16), "½+¾=");
	}

	#[wasm_bindgen_test]
	fn from_code_point() {
	let s = "☃★♲你";
	let codes: Vec<u32> = s.chars().map(\|char\| char as u32).collect();

	assert_eq!(JsString::from_code_point1(codes[0]).unwrap(), "☃");
	assert_eq!(
	JsString::from_code_point2(codes[0], codes[1]).unwrap(),
	"☃★"
	);
	assert_eq!(
	JsString::from_code_point3(codes[0], codes[1], codes[2]).unwrap(),
	"☃★♲"
	);
	assert_eq!(
	JsString::from_code_point4(codes[0], codes[1], codes[2], codes[3]).unwrap(),
	"☃★♲你"
	);
	assert_eq!(JsString::from_code_point(&codes).unwrap(), "☃★♲你");

	assert!(!JsString::from_code_point1(0x10FFFF).is_err());
	assert!(JsString::from_code_point1(0x110000).is_err());
	assert!(JsString::from_code_point1(u32::max_value()).is_err());
	}

	#[wasm_bindgen_test]
	fn includes() {
	let str = JsString::from("Blue Whale");

	// TODO: remove second parameter once we have optional parameters
	assert_eq!(str.includes("Blue", 0), true);
	assert_eq!(str.includes("Blute", 0), false);
	assert_eq!(str.includes("Whale", 0), true);
	assert_eq!(str.includes("Whale", 5), true);
	assert_eq!(str.includes("Whale", 7), false);
	assert_eq!(str.includes("", 0), true);
	assert_eq!(str.includes("", 16), true);
	}

	#[wasm_bindgen_test]
	fn index_of() {
	let str = JsString::from("Blue Whale");

	// TODO: remove second parameter once we have optional parameters
	assert_eq!(str.index_of("Blue", 0), 0);
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(str.index_of("Blute", 0), -1);
	assert_eq!(str.index_of("Whale", 0), 5);
	assert_eq!(str.index_of("Whale", 5), 5);
	assert_eq!(str.index_of("Whale", 7), -1);
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(str.index_of("", 0), 0);
	assert_eq!(str.index_of("", 9), 9);
	assert_eq!(str.index_of("", 10), 10);
	assert_eq!(str.index_of("", 11), 10);
	}

	#[wasm_bindgen_test]
	fn last_index_of() {
	let js = JsString::from("canal");
	let len = js.length() as i32;

	// TODO: remove second parameter once we have optional parameters
	assert_eq!(js.last_index_of("a", len), 3);
	assert_eq!(js.last_index_of("a", 2), 1);
	assert_eq!(js.last_index_of("a", 0), -1);
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(js.last_index_of("x", len), -1);
	assert_eq!(js.last_index_of("c", -5), 0);
	assert_eq!(js.last_index_of("c", 0), 0);
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(js.last_index_of("", len), 5);
	assert_eq!(js.last_index_of("", 2), 2);
	}

	#[wasm_bindgen_test]
	fn match_() {
	let s = "The quick brown fox jumped over the lazy dog. It barked.";
	let re = RegExp::new("[A-Z]", "g");
	let result = JsString::from(s).match_(&re);
	let obj = result.unwrap();

	assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "T");
	assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "I");

	let re = RegExp::new("[A-Z]([a-z]*)", "g");
	let result = JsString::from(s).match_(&re);
	let obj = result.unwrap();

	assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "The");
	assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "It");

	let result = JsString::from("foo").match_(&re);
	assert!(result.is_none());

	let s = "For more information, see Chapter 3.4.5.1";
	let re = RegExp::new("see (chapter \\d+(\\.\\d)*)", "i");
	let result = JsString::from(s).match_(&re);
	let obj = result.unwrap();

	assert_eq!(
	Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
	"see Chapter 3.4.5.1"
	);
	assert_eq!(
	Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
	"Chapter 3.4.5.1"
	);
	assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".1");
	assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 22);
	assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);
	}

	#[wasm_bindgen_test]
	fn match_all() {
	let s = "The quick brown fox jumped over the lazy dog. It barked.";
	let re = RegExp::new("[A-Z]([a-z]*)", "g");
	let result: Vec<_> = JsString::from(s)
	.match_all(&re)
	.into_iter()
	.collect::<Result<_, _>>()
	.unwrap();

	let obj = &result[0];
	assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "The");
	assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "he");

	let obj = &result[1];
	assert_eq!(Reflect::get(obj.as_ref(), &"0".into()).unwrap(), "It");
	assert_eq!(Reflect::get(obj.as_ref(), &"1".into()).unwrap(), "t");

	let result: Vec<_> = JsString::from("foo")
	.match_all(&re)
	.into_iter()
	.collect::<Result<_, _>>()
	.unwrap();
	assert_eq!(result.len(), 0);

	let s = "For more information, see Chapter 3.4.5.1. Also see Chapter 3.1.4";
	let re = RegExp::new("see (chapter \\d+(\\.\\d)*)", "gi");
	let result: Vec<_> = JsString::from(s)
	.match_all(&re)
	.into_iter()
	.collect::<Result<_, _>>()
	.unwrap();

	let obj = &result[0];
	assert_eq!(
	Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
	"see Chapter 3.4.5.1"
	);
	assert_eq!(
	Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
	"Chapter 3.4.5.1"
	);
	assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".1");
	assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 22);
	assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);

	let obj = &result[1];
	assert_eq!(
	Reflect::get(obj.as_ref(), &"0".into()).unwrap(),
	"see Chapter 3.1.4"
	);
	assert_eq!(
	Reflect::get(obj.as_ref(), &"1".into()).unwrap(),
	"Chapter 3.1.4"
	);
	assert_eq!(Reflect::get(obj.as_ref(), &"2".into()).unwrap(), ".4");
	assert_eq!(Reflect::get(obj.as_ref(), &"index".into()).unwrap(), 48);
	assert_eq!(Reflect::get(obj.as_ref(), &"input".into()).unwrap(), s);
	}

	#[wasm_bindgen_test]
	fn normalize() {
	let js = JsString::from("\u{1E9B}\u{0323}");

	// TODO: Handle undefined
	assert_eq!(JsValue::from(js.normalize("NFC")), "\u{1E9B}\u{0323}");
	assert_eq!(
	JsValue::from(js.normalize("NFD")),
	"\u{017F}\u{0323}\u{0307}"
	);
	assert_eq!(JsValue::from(js.normalize("NFKC")), "\u{1E69}");
	assert_eq!(
	JsValue::from(js.normalize("NFKD")),
	"\u{0073}\u{0323}\u{0307}"
	);
	}

	#[wasm_bindgen_test]
	fn pad_end() {
	let js = JsString::from("abc");

	// TODO: remove second parameter once we have optional parameters
	assert_eq!(JsValue::from(js.pad_end(10, " ")), "abc ");
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(JsValue::from(js.pad_end(10, " ")), "abc ");
	assert_eq!(JsValue::from(js.pad_end(10, "foo")), "abcfoofoof");
	assert_eq!(JsValue::from(js.pad_end(6, "123456")), "abc123");
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(JsValue::from(js.pad_end(1, " ")), "abc");
	}

	#[wasm_bindgen_test]
	fn pad_start() {
	let js = JsString::from("abc");

	// TODO: remove second parameter once we have optional parameters
	assert_eq!(js.pad_start(10, " "), " abc");
	assert_eq!(js.pad_start(10, "foo"), "foofoofabc");
	assert_eq!(js.pad_start(6, "123465"), "123abc");
	assert_eq!(js.pad_start(8, "0"), "00000abc");
	// TODO: remove second parameter once we have optional parameters
	assert_eq!(js.pad_start(1, " "), "abc");
	}

	#[wasm_bindgen_test]
	fn repeat() {
	assert_eq!(JsString::from("test").repeat(3), "testtesttest");
	}

	#[wasm_bindgen_test]
	fn replace() {
	let js = JsString::from(
	"The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
	);
	let result = js.replace("dog", "ferret");

	assert_eq!(
	result,
	"The quick brown fox jumped over the lazy ferret. If the dog reacted, was it really lazy?"
	);

	let js = JsString::from("borderTop");
	let result = js.replace_with_function("T", &get_replacer_function());

	assert_eq!(result, "border-top");

	let js = JsString::from(
	"The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
	);
	let re = RegExp::new("dog", "g");
	let result = js.replace_by_pattern(&re, "ferret");

	assert_eq!(result, "The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?");

	let js = JsString::from("borderTop");
	let re = RegExp::new("[A-Z]", "g");
	let result = js.replace_by_pattern_with_function(&re, &get_replacer_function());

	assert_eq!(result, "border-top");
	}

	#[wasm_bindgen_test]
	fn replace_all() {
	let js = JsString::from(
	"The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
	);
	let result = js.replace_all("dog", "ferret");

	assert_eq!(
	result,
	"The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?"
	);

	let js = JsString::from("borderTopTest");
	let result = js.replace_all_with_function("T", &get_replacer_function());

	assert_eq!(result, "border-top-test");

	let js = JsString::from(
	"The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
	);
	let re = RegExp::new("dog", "g");
	let result = js.replace_all_by_pattern(&re, "ferret");

	assert_eq!(result, "The quick brown fox jumped over the lazy ferret. If the ferret reacted, was it really lazy?");

	let js = JsString::from("borderTopTest");
	let re = RegExp::new("[A-Z]", "g");
	let result = js.replace_all_by_pattern_with_function(&re, &get_replacer_function());

	assert_eq!(result, "border-top-test");
	}

	#[wasm_bindgen_test]
	fn search() {
	let js = JsString::from(
	"The quick brown fox jumped over the lazy dog. If the dog reacted, was it really lazy?",
	);
	let re = RegExp::new("[^\\w\\s]", "g");

	assert_eq!(js.search(&re), 44);

	let js = JsString::from("hey JudE");
	let re1 = RegExp::new("[A-Z]", "g");
	let re2 = RegExp::new("[.]", "g");

	assert_eq!(js.search(&re1), 4);
	assert_eq!(js.search(&re2), -1);
	}

	#[wasm_bindgen_test]
	fn slice() {
	let characters = JsString::from("acxn18");
	assert_eq!(characters.slice(1, 3), "cx");
	}

	#[wasm_bindgen_test]
	fn split() {
	let js = JsString::from("Oh brave new world");
	let result = js.split(" ");

	let mut v = Vec::with_capacity(result.length() as usize);
	result.for_each(&mut \|x, _, _\| v.push(x));

	assert_eq!(v[0], "Oh");
	assert_eq!(v[1], "brave");
	assert_eq!(v[2], "new");
	assert_eq!(v[3], "world");

	let js = JsString::from("Oct,Nov,Dec");
	let result = js.split(",");

	let mut v = Vec::with_capacity(result.length() as usize);
	result.for_each(&mut \|x, _, _\| v.push(x));

	assert_eq!(v[0], "Oct");
	assert_eq!(v[1], "Nov");
	assert_eq!(v[2], "Dec");

	let result = js.split_limit(",", 2);

	let mut v = Vec::with_capacity(result.length() as usize);
	result.for_each(&mut \|x, _, _\| v.push(x));

	assert_eq!(result.length(), 2);
	assert_eq!(v[0], "Oct");
	assert_eq!(v[1], "Nov");

	let js = JsString::from("Oh brave new world");
	let re = RegExp::new("\\s", "g");
	let result = js.split_by_pattern(&re);

	let mut v = Vec::with_capacity(result.length() as usize);
	result.for_each(&mut \|x, _, _\| v.push(x));

	assert_eq!(v[0], "Oh");
	assert_eq!(v[1], "brave");
	assert_eq!(v[2], "new");
	assert_eq!(v[3], "world");

	let result = js.split_by_pattern_limit(&re, 2);

	let mut v = Vec::with_capacity(result.length() as usize);
	result.for_each(&mut \|x, _, _\| v.push(x));

	assert_eq!(result.length(), 2);
	assert_eq!(v[0], "Oh");
	assert_eq!(v[1], "brave");
	}

	#[wasm_bindgen_test]
	fn starts_with() {
	let js = JsString::from("To be, or not to be, that is the question.");

	// TODO: remove second parameter for both assertions once we have optional parameters
	assert!(js.starts_with("To be", 0));
	assert!(!js.starts_with("not to be", 0));
	assert!(js.starts_with("not to be", 10));
	}

	#[wasm_bindgen_test]
	fn substring() {
	let js = JsString::from("Mozilla");

	assert_eq!(js.substring(0, 1), "M");
	assert_eq!(js.substring(1, 0), "M");

	assert_eq!(js.substring(0, 6), "Mozill");

	// TODO: Add test once we have optional parameters
	// assert_eq!(js.substring(4), "lla");
	assert_eq!(js.substring(4, 7), "lla");
	assert_eq!(js.substring(7, 4), "lla");

	assert_eq!(js.substring(0, 7), "Mozilla");
	assert_eq!(js.substring(0, 10), "Mozilla");
	}

	#[wasm_bindgen_test]
	fn substr() {
	let js = JsString::from("Mozilla");

	assert_eq!(js.substr(0, 1), "M");
	assert_eq!(js.substr(1, 0), "");
	assert_eq!(js.substr(-1, 1), "a");
	assert_eq!(js.substr(1, -1), "");
	// TODO: Uncomment and test these assertions, once we have support for optional parameters
	// assert_eq!(js.substr(-3), "lla");
	// assert_eq!(js.substr(1), "ozilla");
	assert_eq!(js.substr(-20, 2), "Mo");
	assert_eq!(js.substr(20, 2), "");
	}

	#[wasm_bindgen_test]
	fn to_locale_lower_case() {
	let js = JsString::from("Mozilla");
	assert_eq!(js.to_locale_lower_case(None), "mozilla");
	let s = JsString::from("\u{0130}");
	assert_eq!(s.to_locale_lower_case(Some("tr".into())), "i");
	assert_ne!(s.to_locale_lower_case(Some("en-US".into())), "i");
	}

	#[wasm_bindgen_test]
	fn to_locale_upper_case() {
	let js = JsString::from("mozilla");
	assert_eq!(js.to_locale_upper_case(None), "MOZILLA");
	let s = JsString::from("i\u{0307}");
	assert_eq!(s.to_locale_upper_case(Some("lt".into())), "I");
	assert_ne!(s.to_locale_upper_case(Some("en-US".into())), "I");
	}

	#[wasm_bindgen_test]
	fn to_lower_case() {
	assert_eq!(JsString::from("Mozilla").to_lower_case(), "mozilla");
	}

	#[wasm_bindgen_test]
	fn to_string() {
	assert_eq!(JsString::from("foo").to_string(), "foo");
	}

	#[wasm_bindgen_test]
	fn to_upper_case() {
	assert_eq!(JsString::from("Mozilla").to_upper_case(), "MOZILLA");
	}

	#[wasm_bindgen_test]
	fn trim() {
	assert_eq!(JsString::from(" foo ").trim(), "foo");
	// Another example of .trim() removing whitespace from just one side.
	assert_eq!(JsString::from("foo ").trim(), "foo");
	}

	#[wasm_bindgen_test]
	fn trim_end_and_trim_right() {
	let greeting = JsString::from(" Hello world! ");
	let trimmed = " Hello world!";
	assert_eq!(greeting.trim_end(), trimmed);
	assert_eq!(greeting.trim_right(), trimmed);
	}

	#[wasm_bindgen_test]
	fn trim_start_and_trim_left() {
	let greeting = JsString::from(" Hello world! ");
	let trimmed = "Hello world! ";
	assert_eq!(greeting.trim_start(), trimmed);
	assert_eq!(greeting.trim_left(), trimmed);
	}

	#[wasm_bindgen_test]
	fn value_of() {
	let greeting = JsString::from("Hello world!");
	assert_eq!(greeting.value_of(), "Hello world!");
	}

	#[wasm_bindgen_test]
	fn raw() {
	let call_site = Object::new();
	let raw = Array::of3(&"foo".into(), &"bar".into(), &"123".into());
	Reflect::set(&call_site.as_ref(), &"raw".into(), &raw.into()).unwrap();
	assert_eq!(
	JsString::raw_2(&call_site, "5", "JavaScript").unwrap(),
	"foo5barJavaScript123"
	);
	let substitutions = Array::of2(&"5".into(), &"JavaScript".into());
	assert_eq!(
	JsString::raw(&call_site, &substitutions).unwrap(),
	"foo5barJavaScript123"
	);
	assert!(JsString::raw_0(&JsValue::null().unchecked_into()).is_err());
	}

	#[wasm_bindgen_test]
	fn is_valid_utf16() {
	assert!(JsString::from("a").is_valid_utf16());
	assert!(JsString::from("").is_valid_utf16());
	assert!(JsString::from("🥑").is_valid_utf16());
	assert!(JsString::from("Why hello there this, 🥑, is 🥑 and is 🥑").is_valid_utf16());

	assert!(JsString::from_char_code1(0x00).is_valid_utf16());
	assert!(!JsString::from_char_code1(0xd800).is_valid_utf16());
	assert!(!JsString::from_char_code1(0xdc00).is_valid_utf16());
	}

	#[wasm_bindgen_test]
	fn as_char() {
	assert_eq!(JsString::from('a').as_char(), Some('a'));
	assert_eq!(JsString::from('🥑').as_char(), Some('🥑'));
	assert_eq!(JsString::from("").as_char(), None);
	assert_eq!(JsString::from("ab").as_char(), None);
	assert_eq!(JsString::from_char_code1(0xd800).as_char(), None);
	assert_eq!(JsString::from_char_code1(0xdc00).as_char(), None);
	assert_eq!(JsString::from_char_code1(0xdfff).as_char(), None);
	}