Exceptional Exception Handling in JavaScript MDN资料
Anything that can go wrong, will go wrong. Murphy’s law is even applicable to software development. For non-trivial programs, it’s not a matter of if, but when something will go wrong. Standards non-compliance, unsupported features, and browser quirks are just a few sources of potential problems facing web developers. Given all of the things that can go wrong, JavaScript has a surprisingly simple way of dealing with errors(js处理错误的方式很简单,仅仅是程序停下来) ― it just gives up and fails silently. At least, that’s the behavior seen by the user. In reality, there is a lot going on under the hood.
When a JavaScript statement generates an error, it is said to throw an exception.(在js中,程序产生错误,叫做抛出异常) Instead of proceeding to the next statement, the JavaScript interpreter checks for exception handling code. If there is no exception handler, then the program returns from whatever function threw the exception. This is repeated for each function on the call stack until an exception handler is found or until the top level function is reached, causing the program to terminate.
Error Objects
When an exception occurs, an object representing the error is created and thrown(当异常发生时,一个表示错误的对象就会被创建和抛出). The JavaScript language defines seven types of built-in error objects. These error types are the foundation for exception handling. Each of the error types is described in detail below.
The Error constructor creates an error object. Instances of Error objects are thrown when runtime errors occur. The Error object can also be used as a base object for user-defined exceptions.
Syntax
new Error([message[, fileName[, lineNumber]]])
message- Optional. Human-readable description of the error(对错误的描述).
fileName- Optional. The value for the
fileNameproperty on the createdErrorobject. Defaults to the name of the file containing the code that called theError()constructor.(发生错误的文件名) lineNumber- Optional. The value for the
lineNumberproperty on the createdErrorobject. Defaults to the line number(发生错误的代码行数) containing theError()constructor invocation.
standard built-in error types(七种标准的内置错误)
Error
The “Error” type is used to represent generic exceptions(一般错误). This type of exception is most often used for implementing user defined exceptions. The topic of creating user defined exceptions will be revisited later in this article. “Error” objects are instantiated by calling their constructor as shown in the following example.
var error = new Error("error message");
“Error” objects contain two properties, “name” and “message”. The “name” property specifies the type of exception (in this case “Error”). The “message” property provides a more detailed description of the exception. The “message” gets its value from the string passed to the exception’s constructor. The remaining exception types represent more specific types of errors, but they are all used in the same fashion as the generic “Error” type.
RangeError
Creates an instance representing an error that occurs when a numeric variable or parameter(数值变量或数值参数不在有效范围内) is outside of its valid range.
“RangeError” exceptions are generated by numbers that fall outside of a specified range. For example, JavaScript numbers have a toFixed() method which takes a “digits” argument representing the number of digits to appear after a decimal point. This argument is expected to be between 0 and 20 (although some browsers support a wider range). If the value of “digits” is outside of this range, then a “RangeError” is thrown. This scenario is shown in the following example.
ReferenceError
A “ReferenceError” exception is thrown when a non-existent variable(当要获取一个“不存在”的变量时) is accessed. These exceptions commonly occur when an existing variable name is misspelled. In the example below, a “ReferenceError” occurs when “bar” is accessed. Note that this example assumes that “bar” does not exist in any active scope when the increment operation is attempted.
SyntaxError
A “SyntaxError” is thrown when the rules(js规则错了,即语法错误) of the JavaScript language are broken. Developers who are familiar with languages such as C and Java are used to encountering syntax errors during the compilation process. However, because JavaScript is an interpreted language, syntax errors are not identified until the code is executed. Syntax errors are unique as they are the only type of exception that cannot be recovered from. The following example generates a syntax error because the “if” statement is missing a closing curly brace.
TypeError
Creates an instance representing an error that occurs when a variable or parameter is not of a valid type(参数或变量不是有效的类型).
A “TypeError” exception occurs when a value is not of the expected type. Attempting to call a non-existent object method is a common cause of this type of exception. The following example creates an empty object named “foo” and then attempts to invoke its bar() method. Since bar() is not defined, a “TypeError” is thrown upon the attempted invocation.
URIError
A “URIError” exception is thrown by methods such as encodeURI() and decodeURI() when they encounter a malformed URI(即这两个函数碰到了无效的参数). The following example generates a “URIError” while attempting to decode the string “%”. The “%” character represents the beginning of a URI escape sequence. Since nothing follows the “%” in this example, the string is an invalid escape sequence, and therefore a malformed URI component.
EvalError
“EvalError” exceptions are thrown when the eval() function is used improperly. These exceptions are not used in the most recent version of the EcmaScript standard. However, they are still supported in order to maintain backwards compatibility with older versions of the standard.
Handling Exceptions(处理错误的过程)
Now that we know what exceptions are, it’s time to learn how to stop them from crashing our programs(js是通过try...catch...finally..处理错误,来以免错误把程序给搞崩溃). JavaScript handles exceptions via the “try…catch…finally” statement. A generic example statement is shown below.
try {
// attempt to execute this code
} catch (exception) {
// this code handles exceptions
} finally {
// this code always gets executed
}
The first part of a “try…catch…finally” statement is the “try” clause. The “try” clause is mandatory(try是必须的,把可能出错的代码块放在try里面), and is used to delimit a block of code that the programmer suspects could generate an exception. The “try” clause must be followed by one or both of the “catch” and “finally” clauses.
The “catch” Clause
The second part of “try…catch…finally” is the “catch” clause. The “catch” clause is a block of code that is only executed(只有try部分抛出了异常,catch部分的代码才会执行) if an exception occurs in the “try” clause. Although the “catch” clause is optional, it isn’t possible to truly handle an exception without one. This is because the “catch” clause stops the exception from propagating through the call stack, allowing the program to recover. If an exception occurs within the “try” block, then control is immediately passed to the “catch” clause. The exception that occurred(控制权和异常对象都会被传递给catch部分) is also passed to the “catch” block for processing. The following example shows how a “catch” clause is used to handle a “ReferenceError”. Note that the “ReferenceError” object is available in the “catch” clause via the “exception” variable.
try {
foo++; // ReferenceError
} catch (exception) {
var message = exception.message;
// handle the exception
}
Complex applications can generate a variety of exceptions. In such cases, the “instanceof” operator can be used to differentiate between the various types of exceptions. In the following example, assume that the “try” clause can generate several types of exceptions. The corresponding “catch” clause uses “instanceof” to handle “TypeError” and “ReferenceError” exceptions separately from all other types of errors.
try {
// assume an exception occurs
} catch (exception) {
if (exception instanceof TypeError) {
// Handle TypeError exceptions
} else if (exception instanceof ReferenceError) {
// Handle ReferenceError exceptions
} else {
// Handle all other types of exceptions
}
}
The “finally” Clause
The last component of the “try…catch…finally” statement is the optional “finally” clause. The “finally” clause is a block of code that is executed after the “try” and “catch” clauses, regardless of any errors(不管是否抛出异常). The “finally” clause is useful for including clean up code (closing files, etc.) that needs to be executed no matter what. Note that the “finally” clause is even executed if an exception occurs that is not caught. In such a scenario, the “finally” clause is executed and then(如果没有catch,在这种情况下抛出的异常会在finally部分执行完之后才抛出) the thrown exception proceeds normally.
One interesting note about the “finally” clause is that it will be executed even if the “try” or “catch” clause executes a “return” statement. For example, the following function returns false because the “finally” clause is the last thing to execute.
function foo() {
try {
return true;
} finally {
return false;
}
}
Throwing Exceptions
JavaScript allows programmers to throw their own exceptions via the appropriately named “throw” statement. This concept can be somewhat confusing to inexperienced developers. After all, developers strive to write code that is free of errors, yet the “throw” statement intentionally introduces them. However, intentionally throwing exceptions can actually lead to code that is easier to debug and maintain(抛出异常相对js直接停下,会更容易调试和维护). For example, by creating meaningful error messages it becomes easier to identify and resolve problems.
Several examples of the “throw” statement are shown below. There is no restriction on the type of data that can be thrown as an exception. There is also no limit on the number of times that the same data can be caught and thrown. In other words, an exception can be thrown, caught, and then thrown again.
throw true;
throw 5;
throw "error message";
throw null;
throw undefined;
throw {};
throw new SyntaxError("useful error message");
While the “throw” statement can be used with any data type, there are certain benefits to using the built-in exception types. Firefox, for example, gives special treatment to those objects by adding debugging information such as the filename and line number where the exception occurred.
As an example scenario, assume that a division operation occurs somewhere in your application. Division can be a nuisance because of the possibility of division by zero. In JavaScript, such an operation results in “NaN”. This can lead to confusing results that are tricky to debug. Things would be much simpler if the application complained loudly about the division by zero. The following “if” statement accomplishes this for us by throwing an exception.
if (denominator === 0)
throw new Error("Attempted division by zero!");
Of course, it might be more appropriate to use a “RangeError” as shown below.
if (denominator === 0)
throw new RangeError("Attempted division by zero!");