NAME
Syntax::Keyword::Try
- a try/catch/finally
syntax for perl
SYNOPSIS
use Syntax::Keyword::Try;
sub foo
{
try {
attempt_a_thing();
return "success";
}
catch {
warn "It failed - $@";
return "failure";
}
}
DESCRIPTION
This module provides a syntax plugin that implements exception-handling semantics in a form familiar to users of other languages, being built on a block labeled with the try
keyword, followed by at least one of a catch
or finally
block.
As well as providing a handy syntax for this useful behaviour, this module also serves to contain a number of code examples for how to implement parser plugins and manipulate optrees to provide new syntax and behaviours for perl code.
KEYWORDS
try
try {
STATEMENTS...
}
...
A try
statement provides the main body of code that will be invoked, and must be followed by either a catch
statement, a finally
statement, or both.
Execution of the try
statement itself begins from the block given to the statement and continues until either it throws an exception, or completes successfully by reaching the end of the block. What will happen next depends on the presence of a catch
or finally
statement immediately following it.
The body of a try {}
block may contain a return
expression. If executed, such an expression will cause the entire containing function to return with the value provided. This is different from a plain eval {}
block, in which circumstance only the eval
itself would return, not the entire function.
The body of a try {}
block may contain loop control expressions (redo
, next
, last
) which will have their usual effect on any loops that the try {}
block is contained by.
The parsing rules for the set of statements (the try
block and its associated catch
and finally
) are such that they are parsed as a self- contained statement. Because of this, there is no need to end with a terminating semicolon.
Note (especially to users of Try::Tiny and similar) that the try {}
block itself does not necessarily stop exceptions thrown inside it from propagating outside. It is the presence of a later catch {}
block which causes this to happen. A try
with only a finally
and no catch
will still propagate exceptions up to callers as normal.
catch
...
catch {
STATEMENTS...
}
A catch
statement provides a block of code to the preceeding try
statement that will be invoked in the case that the main block of code throws an exception. The catch
block can inspect the raised exception by looking in $@
in the usual way.
Presence of this catch
statement causes any exception thrown by the preceeding try
block to be non-fatal to the surrounding code. If the catch
block wishes to optionally handle some exceptions but not others, it can re-raise it (or another exception) by calling die
in the usual manner.
As with try
, the body of a catch {}
block may also contain a return
expression, which as before, has its usual meaning, causing the entire containing function to return with the given value. The body may also contain loop control expressions (redo
, next
or last
) which also have their usual effect.
If a catch
statement is not given, then any exceptions raised by the try
block are raised to the caller in the usual way.
finally
...
finally {
STATEMENTS...
}
A finally
statement provides a block of code to the preceeding try
statement (or try/catch
pair) which is executed afterwards, both in the case of a normal execution or a thrown exception. This code block may be used to provide whatever clean-up operations might be required by preceeding code.
Because it is executed during a stack cleanup operation, a finally {}
block may not cause the containing function to return, or to alter the return value of it. It also cannot see the containing function's @_
arguments array (though as it is block scoped within the function, it will continue to share any normal lexical variables declared up until that point). It is protected from disturbing the value of $@
. If the finally {}
block code throws an exception, this will be printed as a warning and discarded, leaving $@
containing the original exception, if one existed.
TODO
Value semantics. It would be nice if a
do {}
-wrappedtry
set could yield a value, in the way other similar constructs can. For examplemy $x = do { try { attempt(); "success" } catch { "failure" } };
A workaround for this current lack is to wrap the
try{} catch{}
pair in an anonymous function which is then immediately executed:my $x = sub { try { attempt(); return "success" } catch { return "failure" } }->();
OTHER MODULES
There are already quite a number of modules on CPAN that provide a try/catch
-like syntax for Perl.
They are compared here, by feature:
True syntax plugin
Like Try and Syntax::Feature::Try, this module is implemented as a true syntax plugin, allowing it to provide new parsing rules not available to simple functions. Most notably here it means that the resulting combination does not need to end in a semicolon.
In comparison, Try::Tiny is plain perl and provides its functionality using regular perl functions; as such its syntax requires the trailing semicolon.
TryCatch is a hybrid that uses Devel::Declare to parse the syntax tree.
@_
in a try or catch block
Because the try
and catch
block code is contained in a true block rather than an entire anonymous subroutine, invoking it does not interfere with the @_
arguments array. Code inside these blocks can interact with the containing function's array as before.
This feature is unique among these modules; none of the others listed have this ability.
return
in a try or catch block
Like TryCatch and Syntax::Feature::Try, the return
statement has its usual effect within a subroutine containing syntax provided by this module. Namely, it causes the containing sub
itself to return.
In comparison, using Try or Try::Tiny mean that a return
statement will only exit from the try
block.
next
/last
/redo
in a try or catch block
The loop control keywords of next
, last
and redo
have their usual effect on dynamically contained loops.
Syntax::Feature::Try documents that these do not work there. The other modules make no statement either way.
Value Semantics
Like Try and Syntax::Feature::Try, the syntax provided by this module only works as a syntax-level statement and not an expression; you cannot assign from the result of a try
block. Additionally, final-expression value semantics do not work, so it cannot be contained by a do
block to yield this value. See above for a workaround involving an anonymous sub however.
In comparison, the behaviour implemented by Try::Tiny can be used as a valued expression, such as assigned to a variable or returned to the caller of its containing function.
try
without catch
Like Syntax::Feature::Try, the syntax provided by this module allows a try
block to be followed by only a finally
block, with no catch
. In this case, exceptions thrown by code contained by the try
are not suppressed, instead they propagate as normal to callers. This matches the behaviour familiar to Java or C++ programmers.
In comparison, the code provided by Try and Try::Tiny always suppress exception propagation even without an actual catch
block.
The TryCatch module does not allow a try
block not followed by catch
.
Typed catch
Like Try and Try::Tiny, this module makes no attempt to perform any kind of typed dispatch to distinguish kinds of exception caught by catch
blocks.
TryCatch and Syntax::Feature::Try both attempt to provide a kind of typed dispatch where different classes of exception are caught by different blocks of code, or propagated up entirely to callers.
The author considers the lack of such ability in this module to be a feature. That kind of dispatch on type matching of a controlling expression is too useful a behaviour to be constrained to exception catching. If the language is to provide such a facility, it should be more universally applicable as a stand-alone independent ability.
ACKNOWLEDGEMENTS
With thanks to Zefram
, ilmari
and others from irc.perl.org/#p5p
for assisting with trickier bits of XS logic.
AUTHOR
Paul Evans <leonerd@leonerd.org.uk>