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1999-02-15 Andreas Jaeger <aj@arthur.rhein-neckar.de> * manual/llio.texi (Waiting for I/O): Correct meaning. Patch by Jochen Voss <voss@mathematik.uni-kl.de> [PR libc/969]. * manual/setjmp.texi (Non-Local Exits and Signals): Fix typo. Patch by Jochen Voss <voss@mathematik.uni-kl.de> [PR libc/970].
214 lines
8.8 KiB
Plaintext
214 lines
8.8 KiB
Plaintext
@node Non-Local Exits, Signal Handling, Date and Time, Top
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@c %MENU% Jumping out of nested function calls
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@chapter Non-Local Exits
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@cindex non-local exits
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@cindex long jumps
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Sometimes when your program detects an unusual situation inside a deeply
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nested set of function calls, you would like to be able to immediately
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return to an outer level of control. This section describes how you can
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do such @dfn{non-local exits} using the @code{setjmp} and @code{longjmp}
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functions.
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@menu
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* Intro: Non-Local Intro. When and how to use these facilities.
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* Details: Non-Local Details. Functions for nonlocal exits.
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* Non-Local Exits and Signals:: Portability issues.
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@end menu
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@node Non-Local Intro, Non-Local Details, , Non-Local Exits
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@section Introduction to Non-Local Exits
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As an example of a situation where a non-local exit can be useful,
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suppose you have an interactive program that has a ``main loop'' that
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prompts for and executes commands. Suppose the ``read'' command reads
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input from a file, doing some lexical analysis and parsing of the input
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while processing it. If a low-level input error is detected, it would
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be useful to be able to return immediately to the ``main loop'' instead
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of having to make each of the lexical analysis, parsing, and processing
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phases all have to explicitly deal with error situations initially
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detected by nested calls.
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(On the other hand, if each of these phases has to do a substantial
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amount of cleanup when it exits---such as closing files, deallocating
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buffers or other data structures, and the like---then it can be more
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appropriate to do a normal return and have each phase do its own
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cleanup, because a non-local exit would bypass the intervening phases and
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their associated cleanup code entirely. Alternatively, you could use a
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non-local exit but do the cleanup explicitly either before or after
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returning to the ``main loop''.)
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In some ways, a non-local exit is similar to using the @samp{return}
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statement to return from a function. But while @samp{return} abandons
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only a single function call, transferring control back to the point at
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which it was called, a non-local exit can potentially abandon many
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levels of nested function calls.
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You identify return points for non-local exits calling the function
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@code{setjmp}. This function saves information about the execution
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environment in which the call to @code{setjmp} appears in an object of
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type @code{jmp_buf}. Execution of the program continues normally after
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the call to @code{setjmp}, but if a exit is later made to this return
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point by calling @code{longjmp} with the corresponding @w{@code{jmp_buf}}
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object, control is transferred back to the point where @code{setjmp} was
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called. The return value from @code{setjmp} is used to distinguish
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between an ordinary return and a return made by a call to
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@code{longjmp}, so calls to @code{setjmp} usually appear in an @samp{if}
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statement.
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Here is how the example program described above might be set up:
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@smallexample
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@include setjmp.c.texi
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@end smallexample
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The function @code{abort_to_main_loop} causes an immediate transfer of
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control back to the main loop of the program, no matter where it is
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called from.
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The flow of control inside the @code{main} function may appear a little
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mysterious at first, but it is actually a common idiom with
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@code{setjmp}. A normal call to @code{setjmp} returns zero, so the
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``else'' clause of the conditional is executed. If
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@code{abort_to_main_loop} is called somewhere within the execution of
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@code{do_command}, then it actually appears as if the @emph{same} call
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to @code{setjmp} in @code{main} were returning a second time with a value
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of @code{-1}.
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@need 250
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So, the general pattern for using @code{setjmp} looks something like:
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@smallexample
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if (setjmp (@var{buffer}))
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/* @r{Code to clean up after premature return.} */
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@dots{}
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else
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/* @r{Code to be executed normally after setting up the return point.} */
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@dots{}
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@end smallexample
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@node Non-Local Details, Non-Local Exits and Signals, Non-Local Intro, Non-Local Exits
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@section Details of Non-Local Exits
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Here are the details on the functions and data structures used for
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performing non-local exits. These facilities are declared in
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@file{setjmp.h}.
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@pindex setjmp.h
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@comment setjmp.h
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@comment ISO
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@deftp {Data Type} jmp_buf
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Objects of type @code{jmp_buf} hold the state information to
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be restored by a non-local exit. The contents of a @code{jmp_buf}
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identify a specific place to return to.
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@end deftp
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@comment setjmp.h
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@comment ISO
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@deftypefn Macro int setjmp (jmp_buf @var{state})
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When called normally, @code{setjmp} stores information about the
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execution state of the program in @var{state} and returns zero. If
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@code{longjmp} is later used to perform a non-local exit to this
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@var{state}, @code{setjmp} returns a nonzero value.
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@end deftypefn
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@comment setjmp.h
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@comment ISO
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@deftypefun void longjmp (jmp_buf @var{state}, int @var{value})
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This function restores current execution to the state saved in
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@var{state}, and continues execution from the call to @code{setjmp} that
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established that return point. Returning from @code{setjmp} by means of
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@code{longjmp} returns the @var{value} argument that was passed to
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@code{longjmp}, rather than @code{0}. (But if @var{value} is given as
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@code{0}, @code{setjmp} returns @code{1}).@refill
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@end deftypefun
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There are a lot of obscure but important restrictions on the use of
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@code{setjmp} and @code{longjmp}. Most of these restrictions are
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present because non-local exits require a fair amount of magic on the
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part of the C compiler and can interact with other parts of the language
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in strange ways.
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The @code{setjmp} function is actually a macro without an actual
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function definition, so you shouldn't try to @samp{#undef} it or take
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its address. In addition, calls to @code{setjmp} are safe in only the
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following contexts:
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@itemize @bullet
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@item
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As the test expression of a selection or iteration
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statement (such as @samp{if}, @samp{switch}, or @samp{while}).
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@item
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As one operand of a equality or comparison operator that appears as the
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test expression of a selection or iteration statement. The other
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operand must be an integer constant expression.
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@item
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As the operand of a unary @samp{!} operator, that appears as the
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test expression of a selection or iteration statement.
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@item
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By itself as an expression statement.
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@end itemize
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Return points are valid only during the dynamic extent of the function
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that called @code{setjmp} to establish them. If you @code{longjmp} to
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a return point that was established in a function that has already
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returned, unpredictable and disastrous things are likely to happen.
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You should use a nonzero @var{value} argument to @code{longjmp}. While
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@code{longjmp} refuses to pass back a zero argument as the return value
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from @code{setjmp}, this is intended as a safety net against accidental
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misuse and is not really good programming style.
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When you perform a non-local exit, accessible objects generally retain
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whatever values they had at the time @code{longjmp} was called. The
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exception is that the values of automatic variables local to the
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function containing the @code{setjmp} call that have been changed since
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the call to @code{setjmp} are indeterminate, unless you have declared
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them @code{volatile}.
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@node Non-Local Exits and Signals,, Non-Local Details, Non-Local Exits
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@section Non-Local Exits and Signals
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In BSD Unix systems, @code{setjmp} and @code{longjmp} also save and
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restore the set of blocked signals; see @ref{Blocking Signals}. However,
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the POSIX.1 standard requires @code{setjmp} and @code{longjmp} not to
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change the set of blocked signals, and provides an additional pair of
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functions (@code{sigsetjmp} and @code{siglongjmp}) to get the BSD
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behavior.
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The behavior of @code{setjmp} and @code{longjmp} in the GNU library is
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controlled by feature test macros; see @ref{Feature Test Macros}. The
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default in the GNU system is the POSIX.1 behavior rather than the BSD
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behavior.
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The facilities in this section are declared in the header file
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@file{setjmp.h}.
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@pindex setjmp.h
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@comment setjmp.h
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@comment POSIX.1
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@deftp {Data Type} sigjmp_buf
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This is similar to @code{jmp_buf}, except that it can also store state
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information about the set of blocked signals.
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@end deftp
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@comment setjmp.h
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@comment POSIX.1
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@deftypefun int sigsetjmp (sigjmp_buf @var{state}, int @var{savesigs})
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This is similar to @code{setjmp}. If @var{savesigs} is nonzero, the set
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of blocked signals is saved in @var{state} and will be restored if a
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@code{siglongjmp} is later performed with this @var{state}.
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@end deftypefun
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@comment setjmp.h
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@comment POSIX.1
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@deftypefun void siglongjmp (sigjmp_buf @var{state}, int @var{value})
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This is similar to @code{longjmp} except for the type of its @var{state}
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argument. If the @code{sigsetjmp} call that set this @var{state} used a
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nonzero @var{savesigs} flag, @code{siglongjmp} also restores the set of
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blocked signals.
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@end deftypefun
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