So far we compared single scalar values to some expected value. What if your function returns an array, a hash, or a multi-dimensional data structure consisting of lots of arrays and hashes? How can you compare that to some expected data structure? Test::More provides the is_deeply function for this.

We have a file called MyTools.pm (In order to let you try the example, the source code of this module is at the end of the article.). and that module has two public functions given a number $N fibo($N) will return the N-the number in the Fibonacci series, and the function fibonacci($N) will return an array reference of the first N element in the series.

As the series is expect to be 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144 we can test the fib function easily:

We have the following code in fib.t in the same directory where MyTools.pm is found:

examples/is_deeply/fib.t



use strict; use warnings; use Test::More tests => 5; use MyTools; is fibo(1), 1, 'fib 1'; is fibo(2), 1, 'fib 2'; is fibo(3), 2, 'fib 3'; is fibo(4), 3, 'fib 4'; is fibo(5), 5, 'fib 5';

Then running prove fib.t will print:

fib.t .. 1/5 # Failed test 'fib 5' # at fib.t line 12. # got: '7' # expected: '5' # Looks like you failed 1 test of 5. fib.t .. Dubious, test returned 1 (wstat 256, 0x100) Failed 1/5 subtests Test Summary Report ------------------- fib.t (Wstat: 256 Tests: 5 Failed: 1) Failed test: 5 Non-zero exit status: 1 Files=1, Tests=5, 0 wallclock secs ( 0.04 usr 0.00 sys + 0.12 cusr 0.01 csys = 0.17 CPU) Result: FAIL

I added a bug to the function on purpose so we can see how failures are reported.

This was the easy case as we had to compare only scalar values.

is_deeply

Testing the fibonacci() function is the more interesting part. It return an ARRAY-reference. That's the actual-value. The expected value is also an array reference (in square brackets!) and we use the is_deeply function to compare them.

examples/is_deeply/fibonacci.t



use strict; use warnings; use Test::More tests => 5; use MyTools; is_deeply fibonacci(1), [1], 'fibonacci 1'; is_deeply fibonacci(2), [1, 1], 'fibonacci 2'; is_deeply fibonacci(3), [1, 1, 2], 'fibonacci 3'; is_deeply fibonacci(4), [1, 1, 2, 3], 'fibonacci 4'; is_deeply fibonacci(5), [1, 1, 2, 3, 5], 'fibonacci 5';

Running prove fibonacci.t will give the following result:

fibonacci.t .. 1/5 # Failed test 'fibonacci 5' # at fibonacci.t line 12. # Structures begin differing at: # $got->[2] = '4' # $expected->[2] = '2' # Looks like you failed 1 test of 5. fibonacci.t .. Dubious, test returned 1 (wstat 256, 0x100) Failed 1/5 subtests Test Summary Report ------------------- fibonacci.t (Wstat: 256 Tests: 5 Failed: 1) Failed test: 5 Non-zero exit status: 1 Files=1, Tests=5, 0 wallclock secs ( 0.03 usr 0.00 sys + 0.12 cusr 0.01 csys = 0.16 CPU) Result: FAIL

Here we can see that the test in line 12 called 'fibonacci 5' ha failed. The 3rd element (index 2) of the received array reference was the first value that differed from the corresponding value in the expected array reference. is_deeply does not tell you if the rest of the array looked the same or not, but that's usually not that important and failures, after the first one might be the cascading effect of failures. Usually better to focus on the first error and then run the test again.

is_deeply on a hash

In the previous example we saw how to test array references using is_deeply. Another interesting example would be to see how it works when we expect a hash, or a hash reference. MyTools has an additional function called fetch_data_from_bug_tracking_system that will return a hash reference based on the number we pass to it. We have a variable called %expected with, well the expected data structure and we use is_deeply to compare the results.

bugs.t looks like this:

examples/is_deeply/bugs.t



#!/usr/bin/perl use strict; use warnings; use Test::More tests => 3; use MyTools; my %expected = ( bugs => 3, errors => 6, failures => 8, warnings => 1, ); my %a = fetch_data_from_bug_tracking_system(0); is_deeply( \%a, \%expected, "Query 0" ); my %b = fetch_data_from_bug_tracking_system(1); is_deeply( \%b, \%expected, "Query 1" ); my %c = fetch_data_from_bug_tracking_system(2); is_deeply( \%c, \%expected, "Query 2" );

Running prove bugs.t prints this result:

bugs.t .. 1/3 # Failed test 'Query 1' # at bugs.t line 20. # Structures begin differing at: # $got->{errors} = '9' # $expected->{errors} = '6' # Failed test 'Query 2' # at bugs.t line 23. # Structures begin differing at: # $got->{bugs} = Does not exist # $expected->{bugs} = '3' # Looks like you failed 2 tests of 3. bugs.t .. Dubious, test returned 2 (wstat 512, 0x200) Failed 2/3 subtests Test Summary Report ------------------- bugs.t (Wstat: 512 Tests: 3 Failed: 2) Failed tests: 2-3 Non-zero exit status: 2 Files=1, Tests=3, 1 wallclock secs ( 0.03 usr 0.00 sys + 0.12 cusr 0.01 csys = 0.16 CPU) Result: FAIL

The first case passed. In the second case the value of key errors was incorrect. (We expected 6 but we got 9). In the third case the actual result was missing one of the keys. We expected to have a key called bugs but we did not have it in the actual result.

Limitations of is_deeply

While it is a very good tool, is_deeply has a number of limitations. It requires the whole data structure to match exactly. There is no place for any flexibility. For example what if one of the values is a time-stamp that we would like to disregard or what if we would like to match it with a regular expression? What if there is an array references where all we case is that each element matches some regular expression, but we don't even care how many elements are there. For example in the case of the fetch_data_from_bug_tracking_system function, instead of expecting exact numbers, we might want to expect only the specific keys and "any numerical value". There is another module called Test::Deep that provides the solution.

MyTools.pm

In order to make it easier for you to test see the above code running, I have included the content of MyTools.pm:

examples/is_deeply/MyTools.pm



package MyTools; use strict; use warnings; use DateTime; our $VERSION = '0.01'; use base 'Exporter'; our @EXPORT = qw(fibonacci fibo fetch_data_from_bug_tracking_system); sub fibo { my @f = _fibonacci(@_); return $f[-1]; } sub fibonacci { return [ _fibonacci(@_) ]; } sub _fibonacci { my ($n) = @_; die "Need to get a number

" if not defined $n; if ($n <= 0) { warn "Given number must be > 0"; return 0; } return 1 if $n == 1; if ($n ==2 ) { return (1, 1); } # add bug :-) if ($n == 5) { return (1, 1, 4, 3, 7); } my @fib = (1, 1); for (3..$n) { push @fib, $fib[-1]+$fib[-2]; } return @fib; } sub fetch_data_from_bug_tracking_system { my @sets = ( { bugs => 3, errors => 6, failures => 8, warnings => 1, }, { bugs => 3, errors => 9, failures => 8, warnings => 1, }, { bogs => 3, erors => 9, failures => 8, warnings => 1, }, { bugs => 'many', errors => 6, failures => 8, warnings => 1, }, { bugs => [ { ts => time, name => "System bug", severity => 3, }, { ts => time - int rand(100), name => "Incorrect severity bug", severity => "extreme", }, { ts => time - int rand(200), name => "Missing severity bug", }, ], }, ); my $h = $sets[shift]; return %$h; } 1;