public class Throwable extends Object implements Serializable
Throwable
class is the superclass of all errors and
exceptions in the Java language. Only objects that are instances of this
class (or one of its subclasses) are thrown by the Java Virtual Machine or
can be thrown by the Java throw
statement. Similarly, only
this class or one of its subclasses can be the argument type in a
catch
clause.
For the purposes of compile-time checking of exceptions, Throwable
and any subclass of Throwable
that is not also a
subclass of either RuntimeException
or Error
are
regarded as checked exceptions.
Instances of two subclasses, Error
and
Exception
, are conventionally used to indicate
that exceptional situations have occurred. Typically, these instances
are freshly created in the context of the exceptional situation so
as to include relevant information (such as stack trace data).
A throwable contains a snapshot of the execution stack of its thread at the time it was created. It can also contain a message string that gives more information about the error. Over time, a throwable can suppress other throwables from being propagated. Finally, the throwable can also contain a cause: another throwable that caused this throwable to be constructed. The recording of this causal information is referred to as the chained exception facility, as the cause can, itself, have a cause, and so on, leading to a "chain" of exceptions, each caused by another.
One reason that a throwable may have a cause is that the class that throws it is built atop a lower layered abstraction, and an operation on the upper layer fails due to a failure in the lower layer. It would be bad design to let the throwable thrown by the lower layer propagate outward, as it is generally unrelated to the abstraction provided by the upper layer. Further, doing so would tie the API of the upper layer to the details of its implementation, assuming the lower layer's exception was a checked exception. Throwing a "wrapped exception" (i.e., an exception containing a cause) allows the upper layer to communicate the details of the failure to its caller without incurring either of these shortcomings. It preserves the flexibility to change the implementation of the upper layer without changing its API (in particular, the set of exceptions thrown by its methods).
A second reason that a throwable may have a cause is that the method
that throws it must conform to a general-purpose interface that does not
permit the method to throw the cause directly. For example, suppose
a persistent collection conforms to the Collection
interface, and that its persistence is implemented atop
java.io
. Suppose the internals of the add
method
can throw an IOException
. The implementation
can communicate the details of the IOException
to its caller
while conforming to the Collection
interface by wrapping the
IOException
in an appropriate unchecked exception. (The
specification for the persistent collection should indicate that it is
capable of throwing such exceptions.)
A cause can be associated with a throwable in two ways: via a
constructor that takes the cause as an argument, or via the
initCause(Throwable)
method. New throwable classes that
wish to allow causes to be associated with them should provide constructors
that take a cause and delegate (perhaps indirectly) to one of the
Throwable
constructors that takes a cause.
Because the initCause
method is public, it allows a cause to be
associated with any throwable, even a "legacy throwable" whose
implementation predates the addition of the exception chaining mechanism to
Throwable
.
By convention, class Throwable
and its subclasses have two
constructors, one that takes no arguments and one that takes a
String
argument that can be used to produce a detail message.
Further, those subclasses that might likely have a cause associated with
them should have two more constructors, one that takes a
Throwable
(the cause), and one that takes a
String
(the detail message) and a Throwable
(the
cause).
Modifier | Constructor and Description |
---|---|
|
Throwable()
Constructs a new throwable with
null as its detail message. |
|
Throwable(String message)
Constructs a new throwable with the specified detail message.
|
|
Throwable(String message,
Throwable cause)
Constructs a new throwable with the specified detail message and
cause.
|
protected |
Throwable(String message,
Throwable cause,
boolean enableSuppression,
boolean writableStackTrace)
Constructs a new throwable with the specified detail message,
cause, suppression enabled or
disabled, and writable stack trace enabled or disabled.
|
|
Throwable(Throwable cause)
Constructs a new throwable with the specified cause and a detail
message of
(cause==null ? null : cause.toString()) (which
typically contains the class and detail message of cause ). |
Modifier and Type | Method and Description |
---|---|
void |
addSuppressed(Throwable exception)
Appends the specified exception to the exceptions that were
suppressed in order to deliver this exception.
|
Throwable |
fillInStackTrace()
Fills in the execution stack trace.
|
Throwable |
getCause()
Returns the cause of this throwable or
null if the
cause is nonexistent or unknown. |
String |
getLocalizedMessage()
Creates a localized description of this throwable.
|
String |
getMessage()
Returns the detail message string of this throwable.
|
StackTraceElement[] |
getStackTrace()
Provides programmatic access to the stack trace information printed by
printStackTrace() . |
Throwable[] |
getSuppressed()
Returns an array containing all of the exceptions that were
suppressed, typically by the
try -with-resources
statement, in order to deliver this exception. |
Throwable |
initCause(Throwable cause)
Initializes the cause of this throwable to the specified value.
|
void |
printStackTrace()
Prints this throwable and its backtrace to the
standard error stream.
|
void |
printStackTrace(PrintStream s)
Prints this throwable and its backtrace to the specified print stream.
|
void |
printStackTrace(PrintWriter s)
Prints this throwable and its backtrace to the specified
print writer.
|
void |
setStackTrace(StackTraceElement[] stackTrace)
Sets the stack trace elements that will be returned by
getStackTrace() and printed by printStackTrace()
and related methods. |
String |
toString()
Returns a short description of this throwable.
|
public Throwable()
null
as its detail message.
The cause is not initialized, and may subsequently be initialized by a
call to initCause(java.lang.Throwable)
.
The fillInStackTrace()
method is called to initialize
the stack trace data in the newly created throwable.
public Throwable(String message)
initCause(java.lang.Throwable)
.
The fillInStackTrace()
method is called to initialize
the stack trace data in the newly created throwable.
message
- the detail message. The detail message is saved for
later retrieval by the getMessage()
method.public Throwable(String message, Throwable cause)
Note that the detail message associated with
cause
is not automatically incorporated in
this throwable's detail message.
The fillInStackTrace()
method is called to initialize
the stack trace data in the newly created throwable.
message
- the detail message (which is saved for later retrieval
by the getMessage()
method).cause
- the cause (which is saved for later retrieval by the
getCause()
method). (A null
value is
permitted, and indicates that the cause is nonexistent or
unknown.)public Throwable(Throwable cause)
(cause==null ? null : cause.toString())
(which
typically contains the class and detail message of cause
).
This constructor is useful for throwables that are little more than
wrappers for other throwables (for example, PrivilegedActionException
).
The fillInStackTrace()
method is called to initialize
the stack trace data in the newly created throwable.
cause
- the cause (which is saved for later retrieval by the
getCause()
method). (A null
value is
permitted, and indicates that the cause is nonexistent or
unknown.)protected Throwable(String message, Throwable cause, boolean enableSuppression, boolean writableStackTrace)
getSuppressed()
for this object
will return a zero-length array and calls to addSuppressed(java.lang.Throwable)
that would otherwise append an exception to the
suppressed list will have no effect. If the writable stack
trace is false, this constructor will not call fillInStackTrace()
, a null
will be written to the
stackTrace
field, and subsequent calls to fillInStackTrace
and setStackTrace(StackTraceElement[])
will not set the stack
trace. If the writable stack trace is false, getStackTrace()
will return a zero length array.
Note that the other constructors of Throwable
treat
suppression as being enabled and the stack trace as being
writable. Subclasses of Throwable
should document any
conditions under which suppression is disabled and document
conditions under which the stack trace is not writable.
Disabling of suppression should only occur in exceptional
circumstances where special requirements exist, such as a
virtual machine reusing exception objects under low-memory
situations. Circumstances where a given exception object is
repeatedly caught and rethrown, such as to implement control
flow between two sub-systems, is another situation where
immutable throwable objects would be appropriate.
message
- the detail message.cause
- the cause. (A null
value is permitted,
and indicates that the cause is nonexistent or unknown.)enableSuppression
- whether or not suppression is enabled or disabledwritableStackTrace
- whether or not the stack trace should be
writableOutOfMemoryError
,
NullPointerException
,
ArithmeticException
public String getMessage()
Throwable
instance
(which may be null
).public String getLocalizedMessage()
getMessage()
.public Throwable getCause()
null
if the
cause is nonexistent or unknown. (The cause is the throwable that
caused this throwable to get thrown.)
This implementation returns the cause that was supplied via one of
the constructors requiring a Throwable
, or that was set after
creation with the initCause(Throwable)
method. While it is
typically unnecessary to override this method, a subclass can override
it to return a cause set by some other means. This is appropriate for
a "legacy chained throwable" that predates the addition of chained
exceptions to Throwable
. Note that it is not
necessary to override any of the PrintStackTrace
methods,
all of which invoke the getCause
method to determine the
cause of a throwable.
null
if the
cause is nonexistent or unknown.public Throwable initCause(Throwable cause)
This method can be called at most once. It is generally called from
within the constructor, or immediately after creating the
throwable. If this throwable was created
with Throwable(Throwable)
or
Throwable(String,Throwable)
, this method cannot be called
even once.
An example of using this method on a legacy throwable type without other support for setting the cause is:
try { lowLevelOp(); } catch (LowLevelException le) { throw (HighLevelException) new HighLevelException().initCause(le); // Legacy constructor }
cause
- the cause (which is saved for later retrieval by the
getCause()
method). (A null
value is
permitted, and indicates that the cause is nonexistent or
unknown.)Throwable
instance.IllegalArgumentException
- if cause
is this
throwable. (A throwable cannot be its own cause.)IllegalStateException
- if this throwable was
created with Throwable(Throwable)
or
Throwable(String,Throwable)
, or this method has already
been called on this throwable.public String toString()
getLocalizedMessage()
method
getLocalizedMessage
returns null
, then just
the class name is returned.public void printStackTrace()
Throwable
object on the error output stream that is
the value of the field System.err
. The first line of
output contains the result of the toString()
method for
this object. Remaining lines represent data previously recorded by
the method fillInStackTrace()
. The format of this
information depends on the implementation, but the following
example may be regarded as typical:
This example was produced by running the program:java.lang.NullPointerException at MyClass.mash(MyClass.java:9) at MyClass.crunch(MyClass.java:6) at MyClass.main(MyClass.java:3)
class MyClass { public static void main(String[] args) { crunch(null); } static void crunch(int[] a) { mash(a); } static void mash(int[] b) { System.out.println(b[0]); } }The backtrace for a throwable with an initialized, non-null cause should generally include the backtrace for the cause. The format of this information depends on the implementation, but the following example may be regarded as typical:
HighLevelException: MidLevelException: LowLevelException at Junk.a(Junk.java:13) at Junk.main(Junk.java:4) Caused by: MidLevelException: LowLevelException at Junk.c(Junk.java:23) at Junk.b(Junk.java:17) at Junk.a(Junk.java:11) ... 1 more Caused by: LowLevelException at Junk.e(Junk.java:30) at Junk.d(Junk.java:27) at Junk.c(Junk.java:21) ... 3 moreNote the presence of lines containing the characters
"..."
.
These lines indicate that the remainder of the stack trace for this
exception matches the indicated number of frames from the bottom of the
stack trace of the exception that was caused by this exception (the
"enclosing" exception). This shorthand can greatly reduce the length
of the output in the common case where a wrapped exception is thrown
from same method as the "causative exception" is caught. The above
example was produced by running the program:
public class Junk { public static void main(String args[]) { try { a(); } catch(HighLevelException e) { e.printStackTrace(); } } static void a() throws HighLevelException { try { b(); } catch(MidLevelException e) { throw new HighLevelException(e); } } static void b() throws MidLevelException { c(); } static void c() throws MidLevelException { try { d(); } catch(LowLevelException e) { throw new MidLevelException(e); } } static void d() throws LowLevelException { e(); } static void e() throws LowLevelException { throw new LowLevelException(); } } class HighLevelException extends Exception { HighLevelException(Throwable cause) { super(cause); } } class MidLevelException extends Exception { MidLevelException(Throwable cause) { super(cause); } } class LowLevelException extends Exception { }As of release 7, the platform supports the notion of suppressed exceptions (in conjunction with the
try
-with-resources statement). Any exceptions that were
suppressed in order to deliver an exception are printed out
beneath the stack trace. The format of this information
depends on the implementation, but the following example may be
regarded as typical:
Exception in thread "main" java.lang.Exception: Something happened at Foo.bar(Foo.java:10) at Foo.main(Foo.java:5) Suppressed: Resource$CloseFailException: Resource ID = 0 at Resource.close(Resource.java:26) at Foo.bar(Foo.java:9) ... 1 moreNote that the "... n more" notation is used on suppressed exceptions just at it is used on causes. Unlike causes, suppressed exceptions are indented beyond their "containing exceptions."
An exception can have both a cause and one or more suppressed exceptions:
Exception in thread "main" java.lang.Exception: Main block at Foo3.main(Foo3.java:7) Suppressed: Resource$CloseFailException: Resource ID = 2 at Resource.close(Resource.java:26) at Foo3.main(Foo3.java:5) Suppressed: Resource$CloseFailException: Resource ID = 1 at Resource.close(Resource.java:26) at Foo3.main(Foo3.java:5) Caused by: java.lang.Exception: I did it at Foo3.main(Foo3.java:8)Likewise, a suppressed exception can have a cause:
Exception in thread "main" java.lang.Exception: Main block at Foo4.main(Foo4.java:6) Suppressed: Resource2$CloseFailException: Resource ID = 1 at Resource2.close(Resource2.java:20) at Foo4.main(Foo4.java:5) Caused by: java.lang.Exception: Rats, you caught me at Resource2$CloseFailException.<init>(Resource2.java:45) ... 2 more
public void printStackTrace(PrintStream s)
s
- PrintStream
to use for outputpublic void printStackTrace(PrintWriter s)
s
- PrintWriter
to use for outputpublic Throwable fillInStackTrace()
Throwable
object information about the current state of
the stack frames for the current thread.
If the stack trace of this Throwable
is not
writable, calling this method has no effect.
Throwable
instance.printStackTrace()
public StackTraceElement[] getStackTrace()
printStackTrace()
. Returns an array of stack trace elements,
each representing one stack frame. The zeroth element of the array
(assuming the array's length is non-zero) represents the top of the
stack, which is the last method invocation in the sequence. Typically,
this is the point at which this throwable was created and thrown.
The last element of the array (assuming the array's length is non-zero)
represents the bottom of the stack, which is the first method invocation
in the sequence.
Some virtual machines may, under some circumstances, omit one
or more stack frames from the stack trace. In the extreme case,
a virtual machine that has no stack trace information concerning
this throwable is permitted to return a zero-length array from this
method. Generally speaking, the array returned by this method will
contain one element for every frame that would be printed by
printStackTrace
. Writes to the returned array do not
affect future calls to this method.
public void setStackTrace(StackTraceElement[] stackTrace)
getStackTrace()
and printed by printStackTrace()
and related methods.
This method, which is designed for use by RPC frameworks and other
advanced systems, allows the client to override the default
stack trace that is either generated by fillInStackTrace()
when a throwable is constructed or deserialized when a throwable is
read from a serialization stream.
If the stack trace of this Throwable
is not
writable, calling this method has no effect other than
validating its argument.
stackTrace
- the stack trace elements to be associated with
this Throwable
. The specified array is copied by this
call; changes in the specified array after the method invocation
returns will have no affect on this Throwable
's stack
trace.NullPointerException
- if stackTrace
is
null
or if any of the elements of
stackTrace
are null
public final void addSuppressed(Throwable exception)
try
-with-resources statement.
The suppression behavior is enabled unless disabled via a constructor. When suppression is disabled, this method does nothing other than to validate its argument.
Note that when one exception causes another exception, the first
exception is usually caught and then the second exception is
thrown in response. In other words, there is a causal
connection between the two exceptions.
In contrast, there are situations where two independent
exceptions can be thrown in sibling code blocks, in particular
in the try
block of a try
-with-resources
statement and the compiler-generated finally
block
which closes the resource.
In these situations, only one of the thrown exceptions can be
propagated. In the try
-with-resources statement, when
there are two such exceptions, the exception originating from
the try
block is propagated and the exception from the
finally
block is added to the list of exceptions
suppressed by the exception from the try
block. As an
exception unwinds the stack, it can accumulate multiple
suppressed exceptions.
An exception may have suppressed exceptions while also being caused by another exception. Whether or not an exception has a cause is semantically known at the time of its creation, unlike whether or not an exception will suppress other exceptions which is typically only determined after an exception is thrown.
Note that programmer written code is also able to take advantage of calling this method in situations where there are multiple sibling exceptions and only one can be propagated.
exception
- the exception to be added to the list of
suppressed exceptionsIllegalArgumentException
- if exception
is this
throwable; a throwable cannot suppress itself.NullPointerException
- if exception
is null
public final Throwable[] getSuppressed()
try
-with-resources
statement, in order to deliver this exception.
If no exceptions were suppressed or suppression is
disabled, an empty array is returned. This method is
thread-safe. Writes to the returned array do not affect future
calls to this method. Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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