Valores, variáveis e literais

Esse capítulo trata sobre os valores reconhecidos pelo JavaScript e descreve os componentens principais de expressões em JavaScript: variáveis, constantes e literais.

Valores

O JavaScript reconhece os seguintes tipos de valores:

  • Numbers, números como 42 ou 3.14159
  • Valores Boolean (booleanos), como true ou false
  • Strings, como "Olá!"
  • null, uma keyword especial que representa valores nulos; null também é um valor primitivo. Como JavaScript diferencia letras minúsculas de maiúsculas, null é diferente de Null, NULL, ou qualquer outra variação.
  • undefined, uma propriedade de alto nível cujo valor é indefinido; undefined também é um valor primitivo.

Esse conjunto de tipos de valores, ou tipos de dados, apesar de ser relativamente pequeno, possibilita diversas funções dentro de suas aplicações. Não existe diferenciação entre números inteiros (integers) ou reais. Além disso, não existe um tipo próprio para datas em JavaScript. No entanto, você pode usar o objeto Date e seus métodos para lidar com datas.

Objects e functions (objetos e funções) são os outros elementos fundamentais na linguagem. Objetos contém valores, e funções sãos os procedimentos que sua aplicação pode executar.

Conversão de tipos

JavaScript é uma linguagem dinamicamente tipada, ou seja, você não precisa especificar o tipo de uma variável ao declará-la, e tipos são automaticamente convertidos conforme necessário durante a execução do script. Por exemplo, podemos definir uma variável da seguinte forma:

var answer = 42;

Depois disso, você pode atribuir um valor do tipo string a essa mesma variável. Por exemplo:

answer = "Thanks for all the fish...";

Como JavaScript é uma linguagem dinamicamente tipada, essa atribuição não causa um erro.

Se uma expressão envolve números e strings usando o operador +, JavaScript converte valores numéricos em strings. Por exemplo, considere o código abaixo:

x = "The answer is " + 42 // retorna "The answer is 42"
y = 42 + " is the answer" // retorna "42 is the answer"

Em declarações usando outros operadores, JavaScript não converte valores numéricos em strings. Por exemplo:

"37" - 7 // retorna 30
"37" + 7 // retorna "377"

Convertendo strings em números

Quando um valor representando um número estiver em memória como uma string, existem alguns métodos para fazer a conversão.

parseInt() e parseFloat()

Veja as páginas referentes a parseInt() e parseFloat().

parseInt retorna somente números inteiros, não sendo tão útil ao lidar com decimais. Além disso, uma boa prática para usar parseInt é sempre incluir o parâmetro radix (base).

Operador de adição

Um método alternativo para se obter um número a partir de uma string é através do operador +.

"1.1" + "1.1" = "1.11.1"
(+"1.1") + (+"1.1") = 2.2   // Nota: os parênteses foram adicionados para tornar o código mais claro e não são necessários.

Variáveis

Você pode usar variáveis como nomes para simbolizar valores em sua aplicação. Nomes de variáveis, chamados de identifiers, devem seguir algumas regras.

Em JavaScript, um identifier deve começar com uma letra, um underscore (_) ou um cifrão ($); caracteres seguintes podem ser dígitos (0-9). Como JavaScript é uma linguagem que diferencia letras maiúsculas e minúsculas, as letras incluem os caracteres de "A" a "Z" (letras maíusculas) bem como os caracteres de "a" a "z" (letras minúsculas).

A partir do JavaScript 1.5, você pode usar letras ISO 8859-1 ou letras Unicode como å e ü em identifiers. Você também pode usar \uXXXX Unicode escape sequences como caracteres em identifiers.

Alguns exemplos de nomes permitidos são Number_hits, temp99, e _name.

Declarando variáveis

Existem duas maneiras de declarar variáveis:

  • Usando a keyword var. Por exemplo: var x = 42. Essa mesma sintaxe pode ser usada para definir variáveis locais e globais.
  • Simplesmente atribuindo um valor a ela. Por exemplo: x = 42. Isso define uma variável global e gera um aviso se você estiver utilizando o strict mode. Não declare variáveis desta maneira.

Interpretando variáveis

Uma variável declarada usando var sem receber um valor inicial tem o valor undefined.

Uma tentativa de acessar uma variável não declarada resultará em um ReferenceError:

var a;
console.log("The value of a is " + a); // exibe "The value of a is undefined"
console.log("The value of b is " + b); // resulta em um ReferenceError

Você pode usar undefined para determinar se uma variável possui um valor ou não. No código abaixo, a variável input não recebe um valor, e a declaração if tem valor true.

var input;
if(input === undefined){
  doThis();
} else {
  doThat();
}

O valor undefined comporta-se como false quando usado de forma booleana. Por exemplo, o código abaixo executa a função myFunction porque o elemento de myArray não foi definido:

var myArray = new Array();
if (!myArray[0]) myFunction(); 

O valor undefined é convertido em NaN quando usado em um contexto numérico.

var a;
a + 2 = NaN

Quando você interpreta uma variável nula, o valor nulo tem comportamento de 0 em um contexto numérico e de falso em um contexto booleano. Por exemplo:

var n = null;
console.log(n * 32); // exibe 0

Escopo de variáveis

When you declare a variable outside of any function, it is called a global variable, because it is available to any other code in the current document. When you declare a variable within a function, it is called a local variable, because it is available only within that function.

JavaScript does not have block statement scope; rather, it will be local to the code that the block resides within. For example the following code will log 5, because the scope of x is the function (or global context) within which x is declared, not the block, which in this case is an if statement.

if (true) {
  var x = 5;
}
console.log(x);

Another unusual thing about variables in JavaScript is that you can refer to a variable declared later, without getting an exception. This concept is known as hoisting; variables in JavaScript are in a sense "hoisted" or lifted to the top of the function or statement. However, variables that aren't initialized yet will return a value of undefined.

/**
 * Example 1
 */
console.log(x === undefined); // logs "true"
var x = 3;


/**
 * Example 2
 */
// will return a value of undefined
var myvar = "my value";

(function() {
  console.log(myvar); // undefined
  var myvar = "local value";
})();

Example 2, above, will be interpreted the same as:

var myvar = "my value";

(function() {
  var myvar;
  console.log(myvar); // undefined
  myvar = "local value";
})();

Because of hoisting, all var statements in a function should be placed as near to the top of the function as possible. This best practice increases the clarity of the code.

Global variables

Global variables are in fact properties of the global object. In web pages the global object is window, so you can set and access global variables using the window.variable syntax.

Consequently, you can access global variables declared in one window or frame from another window or frame by specifying the window or frame name. For example, if a variable called phoneNumber is declared in a FRAMESET document, you can refer to this variable from a child frame as parent.phoneNumber.

Constants

You can create a read-only, named constant with the const keyword. The syntax of a constant identifier is the same as for a variable identifier: it must start with a letter or underscore and can contain alphabetic, numeric, or underscore characters.

const prefix = '212';

A constant cannot change value through assignment or be re-declared while the script is running.

The scope rules for constants are the same as those for variables, except that the const keyword is always required, even for global constants. If the keyword is omitted, the identifier is assumed to represent a variable.

You cannot declare a constant with the same name as a function or variable in the same scope. For example:

// THIS WILL CAUSE AN ERROR
function f() {};
const f = 5;

// THIS WILL CAUSE AN ERROR ALSO
function f() {
  const g = 5;
  var g;

  //statements
}

Literals

You use literals to represent values in JavaScript. These are fixed values, not variables, that you literally provide in your script. This section describes the following types of literals:

Array literals

An array literal is a list of zero or more expressions, each of which represents an array element, enclosed in square brackets ([]). When you create an array using an array literal, it is initialized with the specified values as its elements, and its length is set to the number of arguments specified.

The following example creates the coffees array with three elements and a length of three:

var coffees = ["French Roast", "Colombian", "Kona"];

Note An array literal is a type of object initializer. See Using Object Initializers.

If an array is created using a literal in a top-level script, JavaScript interprets the array each time it evaluates the expression containing the array literal. In addition, a literal used in a function is created each time the function is called.

Array literals are also Array objects. See Array Object for details on Array objects.

Extra commas in array literals

You do not have to specify all elements in an array literal. If you put two commas in a row, the array is created with undefined for the unspecified elements. The following example creates the fish array:

var fish = ["Lion", , "Angel"];

This array has two elements with values and one empty element (fish[0] is "Lion", fish[1] is undefined, and fish[2] is "Angel").

If you include a trailing comma at the end of the list of elements, the comma is ignored. In the following example, the length of the array is three. There is no myList[3]. All other commas in the list indicate a new element. (Note trailing commas can create errors in older browser versions and it is a best practice to remove them)

var myList = ['home', , 'school', ];

In the following example, the length of the array is four, and myList[0] and myList[2] are missing.

var myList = [ , 'home', , 'school'];

In the following example, the length of the array is four, and myList[1] and myList[3] are missing. Only the last comma is ignored.

var myList = ['home', , 'school', , ];

Understanding the behavior of extra commas is important to understanding JavaScript as a language, however when writing your own code: explicitly declaring the missing elements as undefined will increase your code's clarity and maintainability.

Boolean literals

The Boolean type has two literal values: true and false.

Do not confuse the primitive Boolean values true and false with the true and false values of the Boolean object. The Boolean object is a wrapper around the primitive Boolean data type. See Boolean Object for more information.

Integers

Integers can be expressed in decimal (base 10), hexadecimal (base 16), and octal (base 8).

  • Decimal integer literal consists of a sequence of digits without a leading 0 (zero).
  • Leading 0 (zero) on an integer literal indicates it is in octal. Octal integers can include only the digits 0-7.
  • Leading 0x (or 0X) indicates hexadecimal. Hexadecimal integers can include digits (0-9) and the letters a-f and A-F.

Octal integer literals are deprecated and have been removed from the ECMA-262, Edition 3 standard (in strict mode). JavaScript 1.5 still supports them for backward compatibility.

Some examples of integer literals are:

0, 117 and -345 (decimal, base 10)
015, 0001 and -077 (octal, base 8) 
0x1123, 0x00111 and -0xF1A7 (hexadecimal, "hex" or base 16)

Floating-point literals

A floating-point literal can have the following parts:

  • A decimal integer which can be signed (preceded by "+" or "-"),
  • A decimal point ("."),
  • A fraction (another decimal number),
  • An exponent.

The exponent part is an "e" or "E" followed by an integer, which can be signed (preceded by "+" or "-"). A floating-point literal must have at least one digit and either a decimal point or "e" (or "E").

Some examples of floating-point literals are 3.1415, -3.1E12, .1e12, and 2E-12.

More succinctly, the syntax is:

[digits][.digits][(E|e)[(+|-)]digits]

For example:

3.14
2345.789
.3333333333333333333

Object literals

An object literal is a list of zero or more pairs of property names and associated values of an object, enclosed in curly braces ({}). You should not use an object literal at the beginning of a statement. This will lead to an error or not behave as you expect, because the { will be interpreted as the beginning of a block.

The following is an example of an object literal. The first element of the car object defines a property, myCar; the second element, the getCar property, invokes a function (CarTypes("Honda")); the third element, the special property, uses an existing variable (Sales).

var Sales = "Toyota";

function CarTypes(name) {
  return (name == "Honda") ?
    name :
    "Sorry, we don't sell " + name + "." ;
}

var car = { myCar: "Saturn", getCar: CarTypes("Honda"), special: Sales };

console.log(car.myCar);   // Saturn
console.log(car.getCar);  // Honda
console.log(car.special); // Toyota 

Additionally, you can use a numeric or string literal for the name of a property or nest an object inside another. The following example uses these options.

var car = { manyCars: {a: "Saab", "b": "Jeep"}, 7: "Mazda" };

console.log(car.manyCars.b); // Jeep
console.log(car[7]); // Mazda

Please note:

var foo = {a: "alpha", 2: "two"};
console.log(foo.a);    // alpha
console.log(foo[2]);   // two
//console.log(foo.2);  // Error: missing ) after argument list
//console.log(foo[a]); // Error: a is not defined
console.log(foo["a"]); // alpha
console.log(foo["2"]); // two

String literals

A string literal is zero or more characters enclosed in double (") or single (') quotation marks. A string must be delimited by quotation marks of the same type; that is, either both single quotation marks or both double quotation marks. The following are examples of string literals:

  • "foo"
  • 'bar'
  • "1234"
  • "one line \n another line"
  • "John's cat"

You can call any of the methods of the String object on a string literal value—JavaScript automatically converts the string literal to a temporary String object, calls the method, then discards the temporary String object. You can also use the String.length property with a string literal:

"John's cat".length

You should use string literals unless you specifically need to use a String object. See String Object for details on String objects.

Using special characters in strings

In addition to ordinary characters, you can also include special characters in strings, as shown in the following example.

"one line \n another line"

The following table lists the special characters that you can use in JavaScript strings.

Table 2.1 JavaScript special characters
Character Meaning
\b Backspace
\f Form feed
\n New line
\r Carriage return
\t Tab
\v Vertical tab
\' Apostrophe or single quote
\" Double quote
\\ Backslash character (\).
\XXX The character with the Latin-1 encoding specified by up to three octal digits XXX between 0 and 377. For example, \251 is the octal sequence for the copyright symbol.
\xXX The character with the Latin-1 encoding specified by the two hexadecimal digits XX between 00 and FF. For example, \xA9 is the hexadecimal sequence for the copyright symbol.
\uXXXX The Unicode character specified by the four hexadecimal digits XXXX. For example, \u00A9 is the Unicode sequence for the copyright symbol. See Unicode escape sequences.

Escaping characters

For characters not listed in Table 2.1, a preceding backslash is ignored, but this usage is deprecated and should be avoided.

You can insert a quotation mark inside a string by preceding it with a backslash. This is known as escaping the quotation mark. For example:

var quote = "He read \"The Cremation of Sam McGee\" by R.W. Service.";
console.log(quote);

The result of this would be:

He read "The Cremation of Sam McGee" by R.W. Service.

To include a literal backslash inside a string, you must escape the backslash character. For example, to assign the file path c:\temp to a string, use the following:

var home = "c:\\temp";

You can also escape line breaks by preceding them with backslash. The backslash and line break are both removed from the value of the string.

var str = "this string \
is broken \
across multiple\
lines."
console.log(str);   // this string is broken across multiplelines.

Although JavaScript does not have "heredoc" syntax, you can get close by adding a linebreak escape and an escaped linebreak at the end of each line:

var poem = 
"Roses are red,\n\
Violets are blue.\n\
I'm schizophrenic,\n\
And so am I."

Unicode

Unicode is a universal character-coding standard for the interchange and display of principal written languages. It covers the languages of the Americas, Europe, Middle East, Africa, India, Asia, and Pacifica, as well as historic scripts and technical symbols. Unicode allows for the exchange, processing, and display of multilingual texts, as well as the use of common technical and mathematical symbols. It hopes to resolve internationalization problems of multilingual computing, such as different national character standards. Not all modern or archaic scripts, however, are currently supported.

The Unicode character set can be used for all known encoding. Unicode is modeled after the ASCII (American Standard Code for Information Interchange) character set. It uses a numerical value and name for each character. The character encoding specifies the identity of the character and its numeric value (code position), as well as the representation of this value in bits. The 16-bit numeric value (code value) is defined by a hexadecimal number and a prefix U, for example, U+0041 represents A. The unique name for this value is LATIN CAPITAL LETTER A.

Unicode is not supported in versions of JavaScript prior to 1.3.

Unicode compatibility with ASCII and ISO

Unicode is fully compatible with the International Standard ISO/IEC 10646-1; 1993, which is a subset of ISO 10646.

Several encoding standards (including UTF-8, UTF-16 and ISO UCS-2) are used to physically represent Unicode as actual bits.

The UTF-8 encoding of Unicode is compatible with ASCII characters and is supported by many programs. The first 128 Unicode characters correspond to the ASCII characters and have the same byte value. The Unicode characters U+0020 through U+007E are equivalent to the ASCII characters 0x20 through 0x7E. Unlike ASCII, which supports the Latin alphabet and uses a 7-bit character set, UTF-8 uses between one and four octets for each character ("octet" meaning a byte, or 8 bits.) This allows for several million characters. An alternative encoding standard, UTF-16, uses two octets to represent Unicode characters. An escape sequence allows UTF-16 to represent the whole Unicode range by using four octets. The ISO UCS-2 (Universal Character Set) uses two octets.

JavaScript and Navigator support for UTF-8/Unicode means you can use non-Latin, international, and localized characters, plus special technical symbols in JavaScript programs. Unicode provides a standard way to encode multilingual text. Since the UTF-8 encoding of Unicode is compatible with ASCII, programs can use ASCII characters. You can use non-ASCII Unicode characters in the comments, string literals, identifiers, and regular expressions of JavaScript.

Unicode escape sequences

You can use the Unicode escape sequence in string literals, regular expressions, and identifiers. The escape sequence consists of six ASCII characters: \u and a four-digit hexadecimal number. For example, \u00A9 represents the copyright symbol. Every Unicode escape sequence in JavaScript is interpreted as one character.

The following code returns the copyright symbol and the string "Netscape Communications".

var x = "\u00A9 Netscape Communications";

The following table lists frequently used special characters and their Unicode value.

Table 2.2 Unicode values for special characters
Category Unicode value Name Format name
White space values \u0009 Tab <TAB>
\u000B Vertical Tab <VT>
\u000C Form Feed <FF>
\u0020 Space <SP>
Line terminator values \u000A Line Feed <LF>
\u000D Carriage Return <CR>
Additional Unicode escape sequence values \u0008 Backspace <BS>
\u0009 Horizontal Tab <HT>
\u0022 Double Quote "
\u0027 Single Quote '
\u005C Backslash \

The JavaScript use of the Unicode escape sequence is different from Java. In JavaScript, the escape sequence is never interpreted as a special character first. For example, a line terminator escape sequence inside a string does not terminate the string before it is interpreted by the function. JavaScript ignores any escape sequence if it is used in comments. In Java, if an escape sequence is used in a single comment line, it is interpreted as an Unicode character. For a string literal, the Java compiler interprets the escape sequences first. For example, if a line terminator escape character (e.g., \u000A) is used in Java, it terminates the string literal. In Java, this leads to an error, because line terminators are not allowed in string literals. You must use \n for a line feed in a string literal. In JavaScript, the escape sequence works the same way as \n.

Unicode characters in JavaScript files

Earlier versions of Gecko assumed the Latin-1 character encoding for JavaScript files loaded from XUL. Starting with Gecko 1.8, the character encoding is inferred from the XUL file's encoding. Please see International characters in XUL JavaScript for more information.

Displaying characters with Unicode

You can use Unicode to display the characters in different languages or technical symbols. For characters to be displayed properly, a client such as Mozilla Firefox or Netscape needs to support Unicode. Moreover, an appropriate Unicode font must be available to the client, and the client platform must support Unicode. Often, Unicode fonts do not display all the Unicode characters. Some platforms, such as Windows 95, provide partial support for Unicode.

To receive non-ASCII character input, the client needs to send the input as Unicode. Using a standard enhanced keyboard, the client cannot easily input the additional characters supported by Unicode. Sometimes, the only way to input Unicode characters is by using Unicode escape sequences.

For more information on Unicode, see the Unicode Home Page and The Unicode Standard, Version 2.0, published by Addison-Wesley, 1996.

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