Catch exception type java

Catch exception type java

When a program violates the semantic constraints of the Java programming language, the Java Virtual Machine signals this error to the program as an exception .

An example of such a violation is an attempt to index outside the bounds of an array. Some programming languages and their implementations react to such errors by peremptorily terminating the program; other programming languages allow an implementation to react in an arbitrary or unpredictable way. Neither of these approaches is compatible with the design goals of the Java SE platform: to provide portability and robustness.

Instead, the Java programming language specifies that an exception will be thrown when semantic constraints are violated and will cause a non-local transfer of control from the point where the exception occurred to a point that can be specified by the programmer.

An exception is said to be thrown from the point where it occurred and is said to be caught at the point to which control is transferred.

Programs can also throw exceptions explicitly, using throw statements (§14.18).

Explicit use of throw statements provides an alternative to the old-fashioned style of handling error conditions by returning funny values, such as the integer value -1 where a negative value would not normally be expected. Experience shows that too often such funny values are ignored or not checked for by callers, leading to programs that are not robust, exhibit undesirable behavior, or both.

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Every exception is represented by an instance of the class Throwable or one of its subclasses (§11.1). Such an object can be used to carry information from the point at which an exception occurs to the handler that catches it. Handlers are established by catch clauses of try statements (§14.20).

During the process of throwing an exception, the Java Virtual Machine abruptly completes, one by one, any expressions, statements, method and constructor invocations, initializers, and field initialization expressions that have begun but not completed execution in the current thread. This process continues until a handler is found that indicates that it handles that particular exception by naming the class of the exception or a superclass of the class of the exception (§11.2). If no such handler is found, then the exception may be handled by one of a hierarchy of uncaught exception handlers (§11.3) — thus every effort is made to avoid letting an exception go unhandled.

The exception mechanism of the Java SE platform is integrated with its synchronization model (§17.1), so that monitors are unlocked as synchronized statements (§14.19) and invocations of synchronized methods (§8.4.3.6, §15.12) complete abruptly.

11.1. The Kinds and Causes of Exceptions

11.1.1. The Kinds of Exceptions

An exception is represented by an instance of the class Throwable (a direct subclass of Object ) or one of its subclasses.

Throwable and all its subclasses are, collectively, the exception classes .

The classes Exception and Error are direct subclasses of Throwable :

  • Exception is the superclass of all the exceptions from which ordinary programs may wish to recover. The class RuntimeException is a direct subclass of Exception . RuntimeException is the superclass of all the exceptions which may be thrown for many reasons during expression evaluation, but from which recovery may still be possible. RuntimeException and all its subclasses are, collectively, the run-time exception classes .
  • Error is the superclass of all the exceptions from which ordinary programs are not ordinarily expected to recover. Error and all its subclasses are, collectively, the error classes .

The unchecked exception classes are the run-time exception classes and the error classes.

The checked exception classes are all exception classes other than the unchecked exception classes. That is, the checked exception classes are Throwable and all its subclasses other than RuntimeException and its subclasses and Error and its subclasses.

Programs can use the pre-existing exception classes of the Java SE platform API in throw statements, or define additional exception classes as subclasses of Throwable or of any of its subclasses, as appropriate. To take advantage of compile-time checking for exception handlers (§11.2), it is typical to define most new exception classes as checked exception classes, that is, as subclasses of Exception that are not subclasses of RuntimeException .

The class Error is a separate subclass of Throwable , distinct from Exception in the class hierarchy, to allow programs to use the idiom » > catch (Exception e) < " (§11.2.3) to catch all exceptions from which recovery may be possible without catching errors from which recovery is typically not possible.

Note that a subclass of Throwable cannot be generic (§8.1.2).

11.1.2. The Causes of Exceptions

An exception is thrown for one of three reasons:

  • A throw statement (§14.18) was executed.
  • An abnormal execution condition was synchronously detected by the Java Virtual Machine, namely:
  • evaluation of an expression violates the normal semantics of the Java programming language (§15.6), such as an integer divide by zero.
  • an error occurs while loading, linking, or initializing part of the program (§12.2, §12.3, §12.4); in this case, an instance of a subclass of LinkageError is thrown.
  • an internal error or resource limitation prevents the Java Virtual Machine from implementing the semantics of the Java programming language; in this case, an instance of a subclass of VirtualMachineError is thrown.

These exceptions are not thrown at an arbitrary point in the program, but rather at a point where they are specified as a possible result of an expression evaluation or statement execution.

11.1.3. Asynchronous Exceptions

Most exceptions occur synchronously as a result of an action by the thread in which they occur, and at a point in the program that is specified to possibly result in such an exception. An asynchronous exception is, by contrast, an exception that can potentially occur at any point in the execution of a program.

Asynchronous exceptions occur only as a result of:

  • An invocation of the (deprecated) stop method of class Thread or ThreadGroup . The (deprecated) stop methods may be invoked by one thread to affect another thread or all the threads in a specified thread group. They are asynchronous because they may occur at any point in the execution of the other thread or threads.
  • An internal error or resource limitation in the Java Virtual Machine that prevents it from implementing the semantics of the Java programming language. In this case, the asynchronous exception that is thrown is an instance of a subclass of VirtualMachineError . Note that StackOverflowError , a subclass of VirtualMachineError , may be thrown synchronously by method invocation (§15.12.4.5) as well as asynchronously due to native method execution or Java Virtual Machine resource limitations. Similarly, OutOfMemoryError , another subclass of VirtualMachineError , may be thrown synchronously during class instance creation (§15.9.4, §12.5), array creation (§15.10.2, §10.6), class initialization (§12.4.2), and boxing conversion (§5.1.7), as well as asynchronously.

The Java SE platform permits a small but bounded amount of execution to occur before an asynchronous exception is thrown.

Asynchronous exceptions are rare, but proper understanding of their semantics is necessary if high-quality machine code is to be generated.

The delay noted above is permitted to allow optimized code to detect and throw these exceptions at points where it is practical to handle them while obeying the semantics of the Java programming language. A simple implementation might poll for asynchronous exceptions at the point of each control transfer instruction. Since a program has a finite size, this provides a bound on the total delay in detecting an asynchronous exception. Since no asynchronous exception will occur between control transfers, the code generator has some flexibility to reorder computation between control transfers for greater performance. The paper Polling Efficiently on Stock Hardware by Marc Feeley, Proc. 1993 Conference on Functional Programming and Computer Architecture, Copenhagen, Denmark, pp. 179-187, is recommended as further reading.

11.2. Compile-Time Checking of Exceptions

The Java programming language requires that a program contains handlers for checked exceptions which can result from execution of a method or constructor (§8.4.6, §8.8.5). This compile-time checking for the presence of exception handlers is designed to reduce the number of exceptions which are not properly handled. For each checked exception which is a possible result, the throws clause for the method or constructor must mention the class of that exception or one of the superclasses of the class of that exception (§11.2.3).

The checked exception classes (§11.1.1) named in the throws clause are part of the contract between the implementor and user of the method or constructor. The throws clause of an overriding method may not specify that this method will result in throwing any checked exception which the overridden method is not permitted, by its throws clause, to throw (§8.4.8.3). When interfaces are involved, more than one method declaration may be overridden by a single overriding declaration. In this case, the overriding declaration must have a throws clause that is compatible with all the overridden declarations (§9.4.1).

The unchecked exception classes (§11.1.1) are exempted from compile-time checking.

Error classes are exempted because they can occur at many points in the program and recovery from them is difficult or impossible. A program declaring such exceptions would be cluttered, pointlessly. Sophisticated programs may yet wish to catch and attempt to recover from some of these conditions.

Run-time exception classes are exempted because, in the judgment of the designers of the Java programming language, having to declare such exceptions would not aid significantly in establishing the correctness of programs. Many of the operations and constructs of the Java programming language can result in exceptions at run time. The information available to a Java compiler, and the level of analysis a compiler performs, are usually not sufficient to establish that such run-time exceptions cannot occur, even though this may be obvious to the programmer. Requiring such exception classes to be declared would simply be an irritation to programmers.

For example, certain code might implement a circular data structure that, by construction, can never involve null references; the programmer can then be certain that a NullPointerException cannot occur, but it would be difficult for a Java compiler to prove it. The theorem-proving technology that is needed to establish such global properties of data structures is beyond the scope of this specification.

We say that a statement or expression can throw an exception class E if, according to the rules in §11.2.1 and §11.2.2, the execution of the statement or expression can result in an exception of class E being thrown.

We say that a catch clause can catch its catchable exception class(es):

  • The catchable exception class of a uni- catch clause is the declared type of its exception parameter (§14.20).
  • The catchable exception classes of a multi- catch clause are the alternatives in the union that denotes the type of its exception parameter.

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Catch exception type java

правильно ли понимаю, что когда я работаю с проектом, в котором есть несколько потоков исполнения, может быть вот такая ситуация. Один из этих потоков запускается и завершается успешно, а затем выбрасывает исключение внутри блока try-catch. Оставшиеся потоки исполнения продолжают свою работу, но никакой код в блоке finally не выполняется. Тогда блок finally при обработке исключений не будет выполнен?

я читаю про исключения на 1м и в принципе понимаю, но не очень. ps: зачем только я начал с java core. pss: если вы это читаете, и я до сих пор на первом, то либо я прохожу другой курс, либо читаю книгу по джаве, параллельно проходя этот курс, либо решил взять перерыв на неопределенный срок времени. никогда не сдамся)

Есть подозрение, что так будет правильнее.

обращу внимание на некоторую неточность. цитата «Создание исключения При исполнении программы исключение генерируется JVM или вручную, с помощью оператора throw» в java исключения это тоже объекты поэтому создается исключение так же как объект new Exception. а бросается в программе с помощью оператора throw. обычно эти операции объединяют в одну throw new Exception(«aaa»);

если что я пишу это с 3 уровня. Под конец лекций я читал статью про бафридер, после нашел там ссылку на потоки вводов, а потом чтобы понять что там говориться ввел гугл про исключение и нашел эту статью, спасибо автору, это статья очень помогла. PS если ты читаешь этот комментарий и видишь что у меня нет прогресса(то есть если я все еще на 3 уровне или чуточку больше), то скажи мне, что я нуб и не дошел до 40 лвла

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