carp::assert(3)

NAME

Carp::Assert - executable comments

SYNOPSIS

# Assertions are on.
use Carp::Assert;
$next_sunrise_time = sunrise();
# Assert that the sun must rise in the next 24  hours.
assert(($next_sunrise_time  - time) < 24*60*60) if DEBUG;
# Assert that your customer's primary credit  card  is
active
affirm {
    my @cards = @{$customer->credit_cards};
    $cards[0]->is_active;
};
# Assertions are off.
no Carp::Assert;
$next_pres = divine_next_president();
#  Assert  that  if you predict Dan Quayle will be the
next president
# your crystal ball might need some polishing.  However, since
# assertions are off, IT COULD HAPPEN!
shouldnt($next_pres, 'Dan Quayle') if DEBUG;

DESCRIPTION

"We are ready for any unforseen event that may or may

not
occur."

- Dan Quayle

Carp::Assert is intended for a purpose like the ANSI C
library assert.h. If you're already familiar with
assert.h, then you can probably skip this and go straight
to the FUNCTIONS section.

Assertions are the explict expressions of your assumptions
about the reality your program is expected to deal with,
and a declaration of those which it is not. They are used
to prevent your program from blissfully processing garbage
inputs (garbage in, garbage out becomes garbage in, error
out) and to tell you when you've produced garbage output.
(If I was going to be a cynic about Perl and the user
nature, I'd say there are no user inputs but garbage, and
Perl produces nothing but...)

An assertion is used to prevent the impossible from being
asked of your code, or at least tell you when it does.
For example:

# Take the square root of a number.
sub my_sqrt {

my($num) = shift;

# the square root of a negative number is imagi

nary.
assert($num >= 0);

return sqrt $num;

}

The assertion will warn you if a negative number was
handed to your subroutine, a reality the routine has no
intention of dealing with.

An assertion should also be used a something of a reality
check, to make sure what your code just did really did
happen:

open(FILE, $filename) || die $!;
@stuff = <FILE>;
@stuff = do_something(@stuff);

# I should have some stuff.
assert(@stuff > 0);

The assertion makes sure you have some @stuff at the end.
Maybe the file was empty, maybe do_something() returned an empty list... either way, the assert() will give you a clue as to where the problem lies, rather than 50 lines
down at when you wonder why your program isn't printing
anything.

Since assertions are designed for debugging and will
remove themelves from production code, your assertions
should be carefully crafted so as to not have any
side-effects, change any variables or otherwise have any
effect on your program. Here is an example of a bad
assertation:

assert($error = 1 if $king ne 'Henry'); # Bad!

It sets an error flag which may then be used somewhere
else in your program. When you shut off your assertions
with the $DEBUG flag, $error will no longer be set.

Here's another example of bad use:

assert($next_pres ne 'Dan Quayle' or goto Canada); #

Bad!

This assertion has the side effect of moving to Canada
should it fail. This is a very bad assertion since error
handling should not be placed in an assertion, nor should
it have side-effects.

In short, an assertion is an executable comment. For
instance, instead of writing this

# $life ends with a '!'
$life = begin_life();

you'd replace the comment with an assertion which enforces the comment.

$life = begin_life();
assert( $life =~ /!$/ );

FUNCTIONS

assert

assert(EXPR) if DEBUG;
assert(EXPR, $name) if DEBUG;

assert's functionality is effected by compile time
value of the DEBUG constant, controlled by saying "use
Carp::Assert" or "no Carp::Assert". In the former
case, assert will function as below. Otherwise, the
assert function will compile itself out of the
program. See "Debugging vs Production" for details.

Give assert an expression, assert will Carp::confess() if that expression is false, otherwise it does noth
ing. (DO NOT use the return value of assert for any
thing, I mean it... really!).

The error from assert will look something like this:

Assertion failed!

Carp::Assert::assert(0) called at prog

line 23
main::foo called at prog line 50

Indicating that in the file "prog" an assert failed
inside the function main::foo() on line 23 and that foo() was in turn called from line 50 in the same
file.

If given a $name, assert() will incorporate this into your error message, giving users something of a better
idea what's going on.

assert( Dogs->isa('People'), 'Dogs are people,

too!' ) if DEBUG;
# Result - "Assertion (Dogs are people, too!)

failed!"

affirm

affirm BLOCK if DEBUG;
affirm BLOCK $name if DEBUG;

Very similar to assert(), but instead of taking just a simple expression it takes an entire block of code and
evaluates it to make sure its true. This can allow
more complicated assertions than assert() can without letting the debugging code leak out into production
and without having to smash together several state
ments into one.

affirm {

my $customer = Customer->new($customerid);
my @cards = $customer->credit_cards;
grep { $_->is_active } @cards;

} "Our customer has an active credit card";

affirm() also has the nice side effect that if you forgot the "if DEBUG" suffix its arguments will not be
evaluated at all. This can be nice if you stick
affirm()s with expensive checks into hot loops and other time-sensitive parts of your program.

should
shouldnt

should ($this, $shouldbe) if DEBUG;
shouldnt($this, $shouldntbe) if DEBUG;

Similar to assert(), it is specially for simple "this should be that" or "this should be anything but that"
style of assertions.

Due to Perl's lack of a good macro system, assert() can only report where something failed, but it can't
report what failed or how. should() and shouldnt() can produce more informative error messages:

Assertion ('this' should be 'that'!) failed!

Carp::Assert::should('this', 'that')

called at moof line 29
main::foo() called at moof line 58

So this:

should($this, $that) if DEBUG;

is similar to this:

assert($this eq $that) if DEBUG;

except for the better error message.

Currently, should() and shouldnt() can only do simple eq and ne tests (respectively). Future versions may
allow regexes.

Debugging vs Production

Because assertions are extra code and because it is some
times necessary to place them in 'hot' portions of your
code where speed is paramount, Carp::Assert provides the
option to remove its assert() calls from your program.

So, we provide a way to force Perl to inline the switched
off assert() routine, thereby removing almost all perfor mance impact on your production code.

no Carp::Assert; # assertions are off.
assert(1==1) if DEBUG;

DEBUG is a constant set to 0. Adding the 'if DEBUG' con
dition on your assert() call gives perl the cue to go
ahead and remove assert() call from your program entirely, since the if conditional will always be false.

# With C<no Carp::Assert> the assert() has no impact.
for (1..100) {

assert( do_some_really_time_consuming_check ) if

DEBUG;

}

If "if DEBUG" gets too annoying, you can always use
affirm().

# Once again, affirm() has (almost) no impact with

C<no Carp::Assert>
for (1..100) {

affirm { do_some_really_time_consuming_check };

}

Another way to switch off all asserts, system wide, is to
define the NDEBUG or the PERL_NDEBUG environment variable.

You can safely leave out the "if DEBUG" part, but then
your assert() function will always execute (and its argu ments evaluated and time spent). To get around this, use
affirm(). You still have the overhead of calling a func tion but at least its arguments will not be evaluated.

Differences from ANSI C

assert() is intended to act like the function from ANSI C fame. Unfortunately, due to perl's lack of macros or
strong inlining, it's not nearly as unobtrusive.

Well, the obvious one is the "if DEBUG" part. This is
cleanest way I could think of to cause each assert() call and its arguments to be removed from the program at com
pile-time, like the ANSI C macro does.

Also, this version of assert does not report the statement
which failed, just the line number and call frame via
Carp::confess. You can't do "assert('$a == $b')" because
$a and $b will probably be lexical, and thus unavailable
to assert(). But with Perl, unlike C, you always have the source to look through, so the need isn't as great.

EFFICIENCY

With "no Carp::Assert" (or NDEBUG) and using the "if
DEBUG" suffixes on all your assertions, Carp::Assert has
almost no impact on your production code. I say almost
because it does still add some load-time to your code
(I've tried to reduce this as much as possible).

If you forget the "if DEBUG" on an "assert()", "should()"
or "shouldnt()", its arguments are still evaluated and
thus will impact your code. You'll also have the extra
overhead of calling a subroutine (even if that subroutine
does nothing).

Forgetting the "if DEBUG" on an "affirm()" is not so bad.
While you still have the overhead of calling a subroutine
(one that does nothing) it will not evaluate its code
block and that can save alot.

Try to remember the if DEBUG.

ENVIRONMENT

NDEBUG

Defining NDEBUG switches off all assertions. It
has the same effect as changing "use Carp::Assert"
to "no Carp::Assert" but it effects all code.

PERL_NDEBUG

Same as NDEBUG and will override it. Its provided
to give you something which won't conflict with
any C programs you might be working on at the same
time.

BUGS, CAVETS and other MUSINGS

Someday, Perl will have an inline pragma, and the "if
DEBUG" bletcherousness will go away.

affirm() mucks with the expression's caller and it is run in an eval so anything that checks $^S will be wrong.

Yes, there is a "shouldn't" routine. It mostly works, but
you must put the "if DEBUG" after it.

It would be nice if we could warn about missing "if
DEBUG".

AUTHOR

Michael G Schwern <schwern@pobox.com>

perl v5.8.0 2001-10-01 Carp::Assert(3)