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Test::Deep(3)                        User Contributed Perl Documentation                       Test::Deep(3)



NAME
       Test::Deep - Extremely flexible deep comparison

SYNOPSIS
         use Test::More tests => $Num_Tests;
         use Test::Deep;

         cmp_deeply(
           $actual_horrible_nested_data_structure,
           $expected_horrible_nested_data_structure,
           "got the right horrible nested data structure"
         );

         cmp_deeply(
           $object,
           methods(name => "John", phone => "55378008"),
           "object methods ok"
         );

         cmp_deeply(
           \@array,
           [$hash1, $hash2, ignore()],
           "first 2 elements are as expected, ignoring 3"
         );

         cmp_deeply(
           $object,
           noclass({value => 5}),
           "object looks ok, not checking it's class"
         );

         cmp_deeply(
           \@result,
           bag('a', 'b', {key => [1, 2]}),
           "array has the 3 things we wanted in some order"
         );

DESCRIPTION
       If you don't know anything about automated testing in Perl then you should probably read about
       Test::Simple and Test::More before preceding.  Test::Deep uses the Test::Builder framework.

       Test::Deep gives you very flexible ways to check that the result you got is the result you were
       expecting. At it's simplest it compares two structures by going through each level, ensuring that the
       values match, that arrays and hashes have the same elements and that references are blessed into the
       correct class. It also handles circular data structures without getting caught in an infinite loop.

       Where it becomes more interesting is in allowing you to do something besides simple exact
       comparisons. With strings, the "eq" operator checks that 2 strings are exactly equal but sometimes
       that's not what you want. When you don't know exactly what the string should be but you do know some
       things about how it should look, "eq" is no good and you must use pattern matching instead.
       Test::Deep provides pattern matching for complex data structures

EXAMPLES
       How Test::Deep works is much easier to understand by seeing some examples.

   Without Test::Deep
       Say you want to test a function which returns a string. You know that your string should be a 7 digit
       number beginning with 0, "eq" is no good in this situation, you need a regular expression. So you
       could use Test::More's "like()" function:

         like($string, '/^0d{6}$/', "number looks good");

       Similarly, to check that a string looks like a name, you could do:

         like($string, '/^(Mr|Mrs|Miss) \w+ \w+$/',
           "got title, first and last name");

       Now imagine your function produces a hash with some personal details in it.  You want to make sure
       that there are 2 keys, Name and Phone and that the name looks like a name and the phone number looks
       like a phone number. You could do:

         $hash = make_person();
         like($hash->{Name}, '/^(Mr|Mrs|Miss) \w+ \w+$/', "name ok");
         like($hash->{Phone}, '/^0d{6}$/', "phone ok");
         is(scalar keys %$hash, 2, "correct number of keys");

       But that's not quite right, what if make_person has a serious problem and didn't even return a hash?
       We really need to write

         if (ref($hash) eq "HASH")
         {
           like($hash->{Name}, '/^(Mr|Mrs|Miss) \w+ \w+$/', "name ok");
           like($hash->{Phone}, '/^0d{6}$/', "phone ok");
           is(scalar keys %$hash, 2, "correct number of keys");
         }
         else
         {
           fail("person not a hash");
           fail("person not a hash");
           fail("person not a hash"); # need 3 to keep the plan correct
         }

       Already this is getting messy, now imagine another entry in the hash, an array of children's names.
       This would require

         if (ref($hash) eq "HASH")
         {
           like($hash->{Name}, $name_pat, "name ok");
           like($hash->{Phone}, '/^0d{6}$/', "phone ok");
           my $cn = $hash->{ChildNames};
           if (ref($cn) eq "ARRAY")
           {
             foreach my $child (@$cn)
             {
               like($child, $name_pat);
             }
           }
           else
           {
               fail("child names not an array")
           }
         }
         else
         {
           fail("person not a hash");
         }

       This is a horrible mess and because we don't know in advance how many children's names there will be,
       we can't make a plan for our test anymore (actually, we could but it would make things even more
       complicated).

       Test::Deep to the rescue.

   With Test::Deep
         my $name_re = re('^(Mr|Mrs|Miss) \w+ \w+$');
         cmp_deeply(
           $person,
           {
             Name => $name_re,
             Phone => re('^0d{6}$'),
             ChildNames => array_each($name_re)
           },
           "person ok"
         );

       This will do everything that the messy code above does and it will give a sensible message telling
       you exactly what went wrong if it finds a part of $person that doesn't match the pattern. "re()" and
       "array_each()" are special function imported from Test::Deep. They create a marker that tells
       Test::Deep that something different is happening here. Instead of just doing a simple comparison and
       checking are two things exactly equal, it should do something else.

       If a person was asked to check that 2 structures are equal, they could print them both out and
       compare them line by line. The markers above are similar to writing a note in red pen on one of the
       printouts telling the person that for this piece of the structure, they should stop doing simple line
       by line comparison and do something else.

       "re($regex)" means that Test::Deep should check that the current piece of data matches the regex in
       $regex. "array_each($struct)" means that Test::Deep should expect the current piece of data to be an
       array and it should check that every element of that array matches $struct.  In this case, every
       element of "$person->{ChildNames}" should look like a name. If say the 3rd one didn't you would get
       an error message something like

         Using Regexp on $data->{ChildNames}[3]
            got    : 'Queen John Paul Sartre'
            expect : /^(Mr|Mrs|Miss) \w+ \w+$/

       There are lots of other special comparisons available, see "SPECIAL COMPARISONS PROVIDED" below for
       the full list.

   Reusing structures
       Test::Deep is good for reusing test structures so you can do this

         my $name_re = re('^(Mr|Mrs|Miss) \w+ \w+$');
         my $person_cmp = {
           Name => $name_re,
           Phone => re('^0d{6}$'),
           ChildNames => array_each($name_re)
         };

         cmp_deeply($person1, $person_cmp, "person ok");
         cmp_deeply($person2, $person_cmp, "person ok");
         cmp_deeply($person3, $person_cmp, "person ok");

       You can even put $person_cmp in a module and let other people use it when they are writing test
       scripts for modules that use your modules.

       To make things a little more difficult, lets change the person data structure so that instead of a
       list of ChildNames, it contains a list of hashes, one for each child. So in fact our person structure
       will contain other person structures which may contain other person structures and so on.  This is
       easy to handle with Test::Deep because Test::Deep structures can include themselves. Simply do

         my $name_re = re('^(Mr|Mrs|Miss) \w+ \w+$');
         my $person_cmp = {
           Name => $name_re,
           Phone => re('^0d{6}$'),
           # note no mention of Children here
         };

         $person_cmp->{Children} = each_array($person_cmp);

         cmp_deeply($person, $person_cmp, "person ok");

       This will now check that $person->{Children} is an array and that every element of that array also
       matches $person_cmp, this includes checking that it's children also match the same pattern and so on.

   Circular data structures
       A circular data structure is one which loops back on itself, you can make one easily by doing

         my @b;
         my @a = (1, 2, 3, \@b);
         push(@b, \@a);

       now @a contains a reference to be @b and @b contains a reference to @a. This causes problems if you
       have a program that wants to look inside @a and keep looking deeper and deeper at every level, it
       could get caught in an infinite loop looking into @a then @b then @a then @b and so on.

       Test::Deep avoids this problem so we can extend our example further by saying that a person should
       also list their parents.

         my $name_re = re('^(Mr|Mrs|Miss) \w+ \w+$');
         my $person_cmp = {
           Name => $name_re,
           Phone => re('^0d{6}$'),
           # note no mention of Children here
         };

         $person_cmp->{Children} = each_array($person_cmp);
         $person_cmp->{Parents} = each_array($person_cmp);

         cmp_deeply($person, $person_cmp, "person ok");

       So this will check that for each child $child in "$person->{Children}" that the "$child->{Parents}"
       matches $person_cmp however it is smart enough not to get caught in an infinite loop where it keeps
       bouncing between the same Parent and Child.

TERMINOLOGY
       "cmp_deeply($got, $expected, $name)" takes 3 arguments. $got is the structure that you are checking,
       you must not include any special comparisons in this structure or you will get a fatal error.
       $expected describes what Test::Deep will be looking for in $got. You can put special comparisons in
       $expected if you want to.

       As Test::Deep descends through the 2 structures, it compares them one piece at a time, so at any
       point in the process, Test::Deep is thinking about 2 things - the current value from $got and the
       current value from $expected. In the documentation, I call them $got_v and "exp_v" respectively.

COMPARISON FUNCTIONS
       $ok = cmp_deeply($got, $expected, $name)

       $got is the result to be checked. $expected is the structure against which $got will be check. $name
       is the test name.

       This is the main comparison function, the others are just wrappers around this. Without any special
       comparisons, it will descend into $expected, following every reference and comparing $expected_v to
       $got_v (using "eq") at the same position. If at any stage $expected_v is a special comparison then
       Test::Deep may do something else besides a simple string comparison, exactly what it does depends on
       which special comparison it is.

       $ok = cmp_bag(\@got, \@bag, $name)

       Is shorthand for cmp_deeply(\@got, bag(@bag), $name)

       N.B. Both arguments must be array refs. If they aren't an error will be raised via die.

       $ok = cmp_set(\@got, \@set, $name)

       Is shorthand for cmp_deeply(\@got, set(@set), $name)

       $ok = cmp_methods(\@got, \@methods, $name)

       Is shorthand for cmp_deeply(\@got, methods(@methods), $name)

       $ok = eq_deeply($got, $expected)

       This is the same as cmp_deeply() except it just returns true or false. It does not create diagnostics
       or talk to Test::Builder, but if you want to use it in a non-testing environment then you should
       import it through Test::Deep::NoTest. For example

         use Test::Deep::NoTest;
         print "a equals b" unless eq_deeply($a, $b);

       otherwise the Test::Builder framework will be loaded and testing messages will be output when your
       program ends.

       ($ok, $stack) = cmp_details($got, $expected)

       This behaves much like eq_deeply, but it additionally allows you to produce diagnostics in case of
       failure by passing the value in $stack to "deep_diag".

       Do not make assumptions about the structure or content of $stack and do not use it if $ok contains a
       true value.

       See "USING TEST::DEEP WITH TEST::BUILDER" for example uses.

SPECIAL COMPARISONS PROVIDED
       ignore()

       This makes Test::Deep skip tests on $got_v. No matter what value $got_v has, Test::Deep will think
       it's correct. This is useful if some part of the structure you are testing is very complicated and
       already tested elsewhere, or is unpredictable.

         cmp_deeply($got, { name => 'John', random => ignore(), address => ['5 A
           street', 'a town', 'a country'],
         })

       is the equivalent of checking

         $got->{name} eq 'John';
         exists $got->{random};
         cmp_deeply($got->{address};
         ['5 A street', 'a town', 'a country']);

       methods(%hash)

       %hash is a hash of method call => expected value pairs.

       This lets you call methods on an object and check the result of each call.  The methods will be
       called in the order supplied. If you want to pass arguments to the method you should wrap the method
       name and arguments in an array reference.

         cmp_deeply(
           $obj,
           methods(name => "John", ["favourite", "food"] => "taco")
         );

       is roughly the equivalent of checking that

         $obj->name eq "John"
         $obj->favourite("food") eq "taco"

       The methods will be called in the order you supply them and will be called in scalar context. If you
       need to test methods called in list context then you should use listmethods().

       NOTE Just as in a normal test script, you need to be careful if the methods you call have side
       effects like changing the object or other objects in the structure. Although the order of the methods
       is fixed, the order of some other tests is not so if $expected is

         {
           manager => methods(@manager_methods),
           coder => methods(@coder_methods)
         }

       there is no way to know which if manager and coder will be tested first. If the methods you are
       testing depend on and alter global variables or if manager and coder are the same object then you may
       run into problems.

       listmethods(%hash)

       %hash is a hash of method call => expected value pairs.

       This is almost identical to methods() except the methods are called in list context instead of scalar
       context. This means that the expected values supplied must be an array reference.

         cmp_deeply(
           $obj,
           listmethods(
             name => "John",
             ["favourites", "food"] => ["Mapo tofu", "Gongbao chicken"]
           )
         );

       is the equivalent of checking that

         $obj->name eq "John"
         cmp_deeply([$obj->favourites("food")], ["Mapo tofu", "Gongbao chicken"]);

       The methods will be called in the order you supply them.

       NOTE The same caveats apply as for methods().

       shallow($thing)

       $thing is a ref.

       This prevents Test::Deep from looking inside $thing. It allows you to check that $got_v and $thing
       are references to the same variable. So

         my @a = @b = (1, 2, 3);
         cmp_deeply(\@a, \@b);

       will pass because @a and @b have the same elements however

         cmp_deeply(\@a, shallow(\@b))

       will fail because although \@a and \@b both contain "1, 2, 3" they are references to different
       arrays.

       noclass($thing)

       $thing is a structure to be compared against.

       This makes Test::Deep ignore the class of objects, so it just looks at the data they contain. Class
       checking will be turned off until Test::Deep is finished comparing $got_v against $thing. Once
       Test::Deep comes out of $thing it will go back to it's previous setting for checking class.

       This can be useful when you want to check that objects have been constructed correctly but you don't
       want to write lots of "bless"es. If \@people is an array of Person objects then

         cmp_deeply(\@people, noclass([
           bless {name => 'John', phone => '555-5555'}, "Person",
           bless {name => 'Anne', phone => '444-4444'}, "Person",
         ]));

       can be replaced with

         cmp_deeply(\@people, noclass([
           {name => 'John', phone => '555-5555'},
           {name => 'Anne', phone => '444-4444'}
         ]));

       However, this is testing so you should also check that the objects are blessed correctly. You could
       use a map to bless all those hashes or you could do a second test like

         cmp_deeply($people, array_each(isa("Person"));

       useclass($thing)

       This turns back on the class comparison while inside a noclass().

         cmp_deeply(
           $got,
           noclass(
             [
               useclass( $object )
             ]
           )
         )

       In this example the class of the array reference in $got is ignored but the class of $object is
       checked, as is the class of everything inside $object.

       re($regexp, $capture_data, $flags)

       $regexp is either a regular expression reference produced with "qr/.../" or a string which will be
       used to construct a regular expression.

       $capture_data is optional and is used to check the strings captured by an regex. This should can be
       an array ref or a Test::Deep comparator that works on array refs.

       $flags is an optional string which controls whether the regex runs as a global match. If $flags is
       "g" then the regex will run as m/$regexp/g.

       Without $capture_data, this simply compares $got_v with the regular expression provided. So

         cmp_deeply($got, [ re("ferg") ])

       is the equivalent of

         $got->[0] =~ /ferg/

       With $capture_data

         cmp_deeply($got, [re($regex, $capture_data])

       is the equivalent of

         my @data = $got->[0] =~ /$regex/;
         cmp_deeply(\@data, $capture_data);

       So you can do something simple like

         cmp_deeply($got, re(qr/(\d\d)(\w\w)/, [25, "ab" ])

       to check that (\d\d) was 25 and (\w\w) was "ab" but you can also use Test::Deep objects to do more
       complex testing of the captured values

         cmp_deeply("cat=2,dog=67,sheep=3,goat=2,dog=5",
           re(qr/(\D+)=\d+,?/, set(qw( cat sheep dog )), "g"))

       here, the regex will match the string and will capture the animal names and check that they match the
       specified set, in this case it will fail, complaining that "goat" is not in the set.

       superhashof(\%hash)

       This will check that the hash %$got is a "super-hash" of %hash. That is that all the key and value
       pairs in %hash appear in %$got but %$got can have extra ones also.

       For example

         cmp_deeply({a => 1, b => 2}, superhashof({a => 1}))

       will pass but

         cmp_deeply({a => 1, b => 2}, superhashof({a => 1, c => 3}))

       will fail.

       subhashof(\%hash)

       This will check that the hash %$got is a "sub-hash" of %hash. That is that all the key and value
       pairs in %$got also appear in %hash.

       For example

         cmp_deeply({a => 1}, subhashof({a => 1, b => 2}))

       will pass but

         cmp_deeply({a => 1, c => 3}, subhashof({a => 1, b => 2}))

       will fail.

       bag(@elements)

       @elements is an array of elements.

       This does a bag comparison, that is, it compares two arrays but ignores the order of the elements so

         cmp_deeply([1, 2, 2], bag(2, 2, 1))

       will be a pass.

       The object returned by bag() has an add() method.

         my $bag = bag(1, 2, 3);
         $bag->add(2, 3, 4);

       will result in a bag containing 1, 2, 2, 3, 3, 4.

       "NOTE" If you use certain special comparisons within a bag or set comparison there is a danger that a
       test will fail when it should have passed. It can only happen if two or more special comparisons in
       the bag are competing to match elements. Consider this comparison

         cmp_deeply(['furry', 'furball'], bag(re("^fur"), re("furb")))

       There are two things that could happen, hopefully "re("^fur")" is paired with "furry" and
       "re("^furb")" is paired with "furb" and everything is fine but it could happen that "re("^fur")" is
       paired with "furball" and then "re("^furb")" cannot find a match and so the test fails. Examples of
       other competing comparisons are "bag(1, 2, 2)" vs "set(1, 2)" and "methods(m1 => "v1", m2 => "v2")"
       vs "methods(m1 => "v1")"

       This problem is could be solved by using a slower and more complicated algorithm for set and bag
       matching. Something for the future...

       set(@elements)

       @elements is an array of elements.

       This does a set comparison, that is, it compares two arrays but ignores the order of the elements and
       it ignores duplicate elements, so

         cmp_deeply([1, 2, 2, 3], set(3, 2, 1, 1))

       will be a pass.

       The object returned by set() has an add() method.

         my $set = set(1, 2, 3);
         $set->add(4, 5, 6);

       will result in a set containing 1, 2, 3, 4, 5, 5.

       "NOTE" See the NOTE on the bag() comparison for some dangers in using special comparisons inside
       set()

       superbagof(@elements), subbagof(@elements), supersetof(@elements) and subsetof(@elements)

       @elements is an array of elements.

       These do exactly what you'd expect them to do, so for example

         cmp_deeply($data, subbagof(1, 1, 3, 4));

       checks that @$data contains at most 2 "1"s, 1 "3" and 1 "4" and

         cmp_deeply($data, supsersetof(1, 4));

       check that @$data contains at least 1 "1" and 1 "4".

       These are just special cases of the Set and Bag comparisons so they also give you an add() method and
       they also have the same limitations when using special comparisons inside them (see the NOTE in the
       bag() section).

       all(@expecteds)

       @expecteds is an array of expected structures.

       This allows you to compare data against multiple expected results and make sure each of them matches.

         cmp_deeply($got, all(isa("Person"), methods(name => 'John')))

       is equivalent to

         $got->isa("Person")
         $got->name eq 'John'

       If either test fails then the whole thing is considered a fail. This is a short-circuit test, the
       testing is stopped after the first failure, although in the future it may complete all tests so that
       diagnostics can be output for all failures. When reporting failure, the parts are counted from 1.

       Thanks to the magic of overloading, you can write

         all(isa("Person"), methods(name => 'John'), re("^wi"))

       as

         isa("Person") & methods(name => 'John') | re("^wi")

       Note single | not double as || cannot be overloaded. This will only work when there is a special
       comparison involved. If you write

         "john" | "anne" | "robert"

       Perl will turn this into

         "{onort"

       which is presumably not what you wanted. This is because Perl |s them together as strings before
       Test::Deep gets a chance to do any overload tricks.

       any(@expecteds)

       @expecteds is an array of expected structures.

       This can be used to compare data against multiple expected results and make sure that at least one of
       them matches. This is a short-circuit test so if a test passes then none of the tests after that will
       be attempted.

       You can also use overloading with | similarly to all().

       isa($class), Isa($class)

       $class is a class name.

       This uses UNIVERSAL::isa() to check that $got_v is blessed into the class $class.

       NOTE: Isa() does exactly as documented here, isa() is slightly different. If isa() is called with 1
       argument it falls through to Isa(). If isa() called with 2 arguments, it falls through to
       UNIVERAL::isa. This is to prevent breakage when you import isa() into a package that is used as a
       class. Without this, anyone calling "Class->isa($other_class)" would get the wrong answer. This is a
       hack to patch over the fact that isa is exported by default.

       array_each($thing)

       $thing is a structure to be compared against.

       <$got_v> must be an array reference. Each element of it will be compared to $thing. This is useful
       when you have an array of similar things, for example objects of a known type and you don't want to
       have to repeat the same test for each one.

         my $common_tests = all(
            isa("MyFile"),
            methods(
              handle => isa("IO::Handle")
              filename => re("^/home/ted/tmp"),
           )
         );

         cmp_deeply($got, array_each($common_tests));

       is similar to

         foreach my $got_v (@$got) {
           cmp_deeply($got_v, $common_tests)
         }

       Except it will not explode is $got is not an array reference. It will check that each of the objects
       in @$got is a MyFile and that each one gives the correct results for it's methods.

       You could go further, if for example there were 3 files and you knew the size of each one you could
       do this

         cmp_deeply(
           $got,
           all(
             array_each($common_tests),
             [
               methods(size => 1000),
               methods(size => 200),
               methods(size => 20)
             ]
           )
         )
         cmp_deeply($got, array_each($structure));

       str($string)

       $string is a string.

       This will stringify $got_v and compare it to $string using "eq", even if $got_v is a ref. It is
       useful for checking the stringified value of an overloaded reference.

       num($number, $tolerance)

       $number is a number.  $tolerance is an optional number.

       This will add 0 to $got_v and check if it's numerically equal to $number, even if $got_v is a ref. It
       is useful for checking the numerical value of an overloaded reference. If $tolerance is supplied then
       this will check that $got_v and $exp_v are less than $tolerance apart. This is useful when comparing
       floating point numbers as rounding errors can make it hard or impossible for $got_v to be exactly
       equal to $exp_v. When $tolerance is supplied, the test passes if "abs($got_v - $exp_v) <=
       $tolerance".

       Note in Perl, ""12blah" == 12" because Perl will be smart and convert "12blah" into 12. You may not
       want this. There was a strict mode but that is now gone. A "lookslike s number" test will replace it
       soon. Until then you can usually just use the string() comparison to be more strict. This will work
       fine for almost all situations, however it will not work when <$got_v> is an overloaded value who's
       string and numerical values differ.

       bool($value)

       $value is anything you like but it's probably best to use 0 or 1

       This will check that $got_v and $value have the same truth value, that is they will give the same
       result when used in boolean context, like in an if() statement.

       code(\&subref)

       \&subref is a reference to a subroutine which will be passed a single argument, it then should return
       a true or false and possibly a string

       This will pass $got_v to the subroutine which returns true or false to indicate a pass or fail. Fails
       can be accompanied by a diagnostic string which gives an explanation of why it's a fail.

         sub check_name
         {
           my $name = shift;
           if ($boss->likes($name))
           {
             return 1;
           }
           else
           {
             return (0, "the boss doesn't like your name");
           }
         }

         cmp_deeply("Brian", \&check_name);

DIAGNOSTIC FUNCTIONS
       my $reason = deep_diag($stack)

       $stack is a value returned by cmp_details.  Do not call this function if cmp_details returned a true
       value for $ok.

       deep_diag() returns a human readable string describing how the comparison failed.

ANOTHER EXAMPLE
       You've written a module to handle people and their film interests. Say you have a function that
       returns an array of people from a query, each person is a hash with 2 keys: Name and Age and the
       array is sorted by Name. You can do

         cmp_deeply(
           $result,
           [
             {Name => 'Anne', Age => 26},
             {Name => "Bill", Age => 47}
             {Name => 'John', Age => 25},
           ]
         );

       Soon after, your query function changes and all the results now have an ID field. Now your test is
       failing again because you left out ID from each of the hashes. The problem is that the IDs are
       generated by the database and you have no way of knowing what each person's ID is. With Test::Deep
       you can change your query to

         cmp_deeply(
           $result,
           [
             {Name => 'John', Age => 25, ID => ignore()},
             {Name => 'Anne', Age => 26, ID => ignore()},
             {Name => "Bill", Age => 47, ID => ignore()}
           ]
         );

       But your test still fails. Now, because you're using a database, you no longer know what order the
       people will appear in. You could add a sort into the database query but that could slow down your
       application. Instead you can get Test::Deep to ignore the order of the array by doing a bag
       comparison instead.

         cmp_deeply(
           $result,
           bag(
             {Name => 'John', Age => 25, ID => ignore()},
             {Name => 'Anne', Age => 26, ID => ignore()},
             {Name => "Bill", Age => 47, ID => ignore()}
           )
         );

       Finally person gets even more complicated and includes a new field called Movies, this is a list of
       movies that the person has seen recently, again these movies could also come back in any order so we
       need a bag inside our other bag comparison, giving us something like

         cmp_deeply(
         $result,
           bag(
             {Name => 'John', Age => 25, ID => ignore(), Movies => bag(...)},
             {Name => 'Anne', Age => 26, ID => ignore(), Movies => bag(...)},
             {Name => "Bill", Age => 47, ID => ignore(), Movies => bag(...)}
           )
         );

USING TEST::DEEP WITH TEST::BUILDER
       Combining "cmp_details" and "test_diag" makes it possible to use Test::Deep in your own test classes.

       In a Test::Builder subclass, create a test method in the following form:

         sub behaves_ok {
           my $self = shift;
           my $expected = shift;
           my $test_name = shift;

           my $got = do_the_important_work_here();

           my ($ok, $stack) = cmp_details($got, $expected);
           unless ($Test->ok($ok, $test_name)) {
             my $diag = deep_diag($stack);
             $Test->diag($diag);
           }
         }

       As the subclass defines a test class, not tests themselves, make sure it uses Test::Deep::NoTest, not
       "Test::Deep" itself.

LIMITATIONS
       Currently any CODE, GLOB or IO refs will be compared using shallow(), which means only their memory
       addresses are compared.

BUGS
       There is a bug in set and bag compare to do with competing SCs. It only occurs when you put certain
       special comparisons inside bag or set comparisons you don't need to worry about it. The full details
       are in the bag() docs. It will be fixed in an upcoming version.

WHAT ARE SPECIAL COMPARISONS?
       A special comparison (SC) is simply an object that inherits from Test::Deep::Cmp. Whenever
       $expected_v is an SC then instead of checking "$got_v eq $expected_v", we pass control over to the SC
       and let it do it's thing.

       Test::Deep exports lots of SC constructors, to make it easy for you to use them in your test scripts.
       For example is "re("hello")" is just a handy way of creating a Test::Deep::Regexp object that will
       match any string containing "hello". So

         cmp_deeply([ 'a', 'b', 'hello world'], ['a', 'b', re("^hello")]);

       will check 'a' eq 'a', 'b' eq 'b' but when it comes to comparing 'hello world' and "re("^hello")" it
       will see that $expected_v is an SC and so will pass control to the Test::Deep::Regexp class by do
       something like "$expected_v->descend($got_v)". The "descend()" method should just return true or
       false.

       This gives you enough to write your own SCs but I haven't documented how diagnostics works because
       it's about to get an overhaul.

SEE ALSO
       Test::More

MAINTAINER
         Ricardo Signes <rjbs@cpan.org>

AUTHOR
       Fergal Daly <fergal@esatclear.ie>, with thanks to Michael G Schwern for Test::More's is_deeply
       function which inspired this.

       Please do not bother Fergal Daly with bug reports.  Send them to the maintainer (above) or submit
       them at the request tracker <https://rt.cpan.org/Dist/Display.html?Queue=Test-Deep>.

COPYRIGHT
       Copyright 2003, 2004 by Fergal Daly <fergal@esatclear.ie>.

       This program is free software; you can redistribute it and/or modify it under the same terms as Perl
       itself.

       See http://www.perl.com/perl/misc/Artistic.html



perl v5.12.5                                     2010-09-29                                    Test::Deep(3)

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