Provided by: libtest-inter-perl_1.09-1_all bug


       Test::Inter - framework for more readable interactive test scripts


       This is another framework for writing test scripts. Much of the syntax is loosely inspired
       by Test::More, and Test::Inter has most of it's functionality, but it is not a drop-in

       Test::More (and other existing test frameworks) suffer from two weaknesses, both of which
       have prevented me from ever using them:

          None offer the ability to access specific tests in
          a reasonably interactive fashion, primarily for
          debugging purposes

          None offer the ability to write the tests in
          whatever format would make the tests the most

       The way I write and use test scripts, existing Test::* modules are not nearly as useful as
       they could be.

       Test scripts written using Test::More work fine when running as part of the test suite,
       but debugging an individual test requires extra steps, and the tests themselves are not as
       readable as they should be.


       One requirement that I have of a test framework is the ability to interact with it.

       I do most of my debugging using test scripts. When I find a bug, I write a test case for
       it (typically by adding it to an existing test script) and then debug it using the test
       script.  Then I leave the test there to ensure that the bug won't come back (hopefully).

       Since I use test scripts in a very interactive way (often in the debugger), I want to be
       able to do the following trivially:

       Easy access to a specific test or tests
           I'd like to be able to run only a single test, or a subset of tests.

       Easily set breakpoints in the debugger
           Setting a breakpoint in the debugger to run up to the start of the Nth test is one of
           the most common tasks I want to do when I'm debugging a failed test.

       To illustrate the first point, in Test::More, a series of tests might be specified in a
       test script as shown in the following example (line numbers added for convenience):


          100:  # test 1
          101:  $result = func("apples","bushels");
          102:  is($result, "enough");
          104:  # test 2
          105:  $result = func("grapefruit","tons");
          106:  is($result, "enough");
          108:  # test 3
          109:  $result = func("oranges","boatloads");
          110:  is($result, "insufficient");
          112:  # tests 4-6
          113:  foreach my $arg (qw(pears plums pineapple)) {
          114:    $result = func($arg,"boxes");
          115:    is($result, "enough");
          116:  }


       Say you ran the test suite, and test 3 failed.  To debug it you have to open up the test
       script, find the 3rd test, and set the appropriate breakpoint.  In this case, you'll want
       to break at line 109.

       None of these steps are impossible of course, but it will take some time to get it right.
       It becomes harder when there are lots of tests (imagine that you want to test the 117th
       test instead of the 3rd test) or when tests are wrapped up in loops, embedded in
       subroutines, or other similar situations.

       As an example, what if it's the 5th test that fails in the example above.  Now the break
       point will be a conditional one, so you have to figure out not only the line, but the
       condition the appropriate state during that test.  In this case, you need to stop at line
       114 when $arg is 'plums'.

       Wouldn't it be far better to set a break point in func when the Nth test is reached?  With
       Test::Inter, you can.

       So for the above script, the debugger commands that you would use to debug the 3rd test

          Test::More :   b 109
          Test::Inter:   b func ($::TI_NUM==3)

       and the 5th test are:

          Test::More :   b 114  ($arg eq 'plums')
          Test::Inter:   b func ($::TI_NUM==5)

       It would also be nice to be able to skip the first two tests... perhaps they take a long
       time to run, and I want to get right to work on test 3.  You can do this easily too by
       setting the $::TI_START variable.

       There are some other variables that can be used to specify which test or tests to run
       described in the "TEST::INTER VARIABLES" section below.

       The other thing I want to do when I run the test scripts interactively is to see more
       information which will assist in debugging a failed test.

       This can be controlled with variables such as TI_QUIET, TI_MODE, and TI_WIDTH described
       below in the "TEST::INTER VARIABLES" section.


       The other feature that I wanted in a test suite is the ability to define the tests in a
       format that is natural and readable FOR THE TESTS.  In almost every case, it is best to
       think of a test script as consisting of two separate parts: a script part, and a test

       The script part of a test script is the least important part! It's usually fairly trivial,
       rarely needs to be changed, and is not the focus of the test script.

       The tests part of the script IS the important part, and these should be expressed in a
       form that is natural to them, easy to maintain, easy to read, and easy to modify, and none
       of these should involve modifying the script portion of the test script in general.
       Because the content of the tests is the important part of the script, the emphasis should
       be in making them more readable, even at the expense of the script portion.  As a general
       rule, if the script portion of the test script obscures the tests in any way, it's not
       written correctly!

       The solution to this is well understood, and is common to many other systems where you are
       mixing two "languages".  The task of correctly specifying both the tests and the test
       script is virtually identical to the task of creating a PHP script which consists of a
       mixture of PHP and HTML, or the task of creating a template file using some templating
       system where the file consists of a mixture of text to be displayed and templating
       commands.  It is well understood in each of these cases that the more the two "languages"
       are interwoven, the less readable both are, and the harder it is to maintain.  The more
       you are able to separate the two, the easier both are to read and maintain.

       As often as possible, I want the tests to be written in some sort of text format which can
       be easily viewed and modified (usually as a simple table) with no perl commands
       interspersed. I want to the freedom to define the tests in one section (a long string, the
       DATA section, or even in a separate file) which is easily readable. This may introduce the
       necessity of parsing it, but it makes it significantly easier to maintain the tests.

       This flexibility makes it much easier to read the tests (as opposed to the script) which
       is the fundamental content of a test script.

       Looking again at the example test script, you can see that there is far too much perl
       interspersed with the tests.

       It's difficult to read the tests individually in this script because there is too much
       perl code among them, and virtually impossible to look at them as a whole.

       It is true that looking at this particular example, it is very simple... but the script
       ISN'T the content you're interested in (and bear in mind that many test scripts are
       nowhere near this simple). The REAL content of this script are the tests, which consist of
       the function arguments and the expected result. Although it's not impossible to see each
       of these in the script above, it's not in a format that is conducive to studying the
       tests, and especially not for examining the list of tests as a whole.

       Now, look at an alternate way of specifying the tests using this module:

          $tests = "

            apples     bushels   => enough

            grapefruit tons      => enough

            oranges    boatloads => insufficient

            pears      boxes     => enough

            plums      boxes     => enough

            pineapple  boxes     => enough


          $o->tests(tests => $tests,
                    func  => \&func);

       Here, it's easy to see the list of tests, and adding additional tests is a breeze.


       This module supports a number of methods for defining tests, so you can use whichever one
       is most convenient (including methods that are identical to Test::More if that really is
       the best method).

       Every test may have several pieces of information:

       A name
           Every test is automatically assigned a number, but it may be useful to specify a name
           of a test (which is actually a short description of the test). Whenever a test result
           is reported, the name will be given (if one was specified).

           The name may not have a '#' in it.

           The name is completely optional, but makes the results more readable.

       An expected result
           In order to test something, you need to know what result was expected (or in some
           cases, what result was NOT expected).

       A function and arguments OR a result
           You also need to know the results that you're comparing to the expected results.

           This can be obtained by simply working with a set of results, or a function name and a
           set of arguments to pass to it.

           It is useful to be able to specify state information at the start of the test suite
           (for example, to see if certain features are available), and some tests may only run
           if those conditions are met.

           If no conditions are set for a test, it will always run.

       Todo tests
           Some tests may be marked as 'todo' tests. These are test which are allowed to fail
           (meaning that they have been put in place for an as-yet unimplemented feature). Since
           it is expected that the test will fail, the test suite will still pass, even if these
           tests fail.

           The tests will still run and if they pass, a message is issued saying that the feature
           is now implemented, and the tests should be graduated to non-todo state.


              $o = new Test::Inter [$name] [%options];

           This creates a new test framework. There are several options which may be used to
           specify which tests are run, how they are run, and what output is given.

           The entire test script can be named by passing in $name.

           All options can be set in four different ways.

           First, you can pass in a hash of OPT = VAL> pairs in the new method.  So, to set the
           start option, the %options) hash would contain:

              start => VALUE

           Second, you can set an environment variable.  This will override any value passed in
           the first way.  The environment variable is named TI_XXX where XXX is the fully
           capitalized option.  So:

              $ENV{TI_START} = VALUE

           The third method, which overrides the previous two, is to set a global variable.  It
           is also named TI_XXX in the main namespace, so to set it this way, set:

              $::TI_START = VALUE

           The final method is to call one of the methods below and these override all other

           Each of the allowed options are described below in the following base methods:



           Returns the version of the module.


           $encoding is any value that can be passed as an encoding to perl's Encode::decode

           Use this if your test strings contain characters in other encodings.

              $o = new Test::Inter 'start' => $N;

           To define which test you want to start with, set the start option as described in the
           new method above.

           When the start test is defined, most tests numbered less than N are completely
           ignored. If the tests are being run quietly (see the quiet method below), nothing is
           printed out for these tests. Otherwise, a skip message is printed out.

           One class of tests IS still executed. Tests run using the require_ok or use_ok methods
           (to test the loading of modules) are still run.

           If no value (or a value of 0) is used, tests run from the first test.

              $o = new Test::Inter 'end' => $M;

           To define which test you want to end with, set the end option as described in the new
           method above.

           When the end test is defined, all tests numbered more than M are completely ignored.
           If the tests are being run quietly (see the quiet method below), nothing is printed
           out for these tests. Otherwise, a skip message is printed out.

           If no value is given, it defaults to 0 (which means that all remaining tests are run).

              $o = new Test::Inter 'testnum' => $N;

           To run only a single test, set the testnum option as described in the new method

           It is equivalent to setting both the start and end tests to $N.

              $o = new Test::Inter 'plan' => $N;


           The TAP API (the 'language' used to run a sequence of tests and see which ones failed
           and which ones passed) requires a statement of the number of tests that are expected
           to run.

           This statement can appear at the start of the test suite, or at the end.

           If you know in advance how many tests should run in the test script, you can set the
           plan option as described in the new method above to the number of tests.

           If you know how many tests should run at the end of the test script, you can pass in a
           non-zero integer to the done_testing method.

           Frequently, you don't really care how many tests are in the script (especially if new
           tests are added on a regular basis). In this case, you still need to include a
           statement that says that the number of tests expected is however many were run. To do
           this, call the done_testing method with no argument.

           NOTE: if the plan method is used, it MUST be used before any tests are run (including
           those that test the loading of modules). If the done_testing method is used, it MUST
           be called after all tests are run. You must specify a plan or use a done_testing
           statement, but you cannot do both.

           It is NOT strictly required to set a plan if the script is only run interactively, so
           if for some reason this module is used for test scripts which are not part of a
           standard perl test suite, the plan and done_testing statements are optional. As a
           matter of fact, the script will run just fine without them... but a perl installer
           will report a failure in the test suite.

              $o = new Test::Inter 'abort' => 0/1/2;

           To define how you want a failure to be treated, set the abort option as described in
           the new method above.  The abort option can take a value of 0, 1, or 2.

           If this is set to 1, the test script will run unmodified until a test fails. At that
           point, all remaining tests will be skipped.  If it is set to 2, the test script will
           run until a test fails at which point it will exit with an error code of 1.  With a
           value of 0, failed tests will be reported, but the script will continue.

           In both cases, todo tests will NOT trigger the abort behavior.

              $o = new Test::Inter 'quiet' => 0/1/2;

           To define how you want failures to be reported, set the quiet option as described in
           the new method above.  The quiet option can take a value of 0, 1, or 2.

           If this is set to 0 (the default), all information will be printed out. If it is set
           to 1, some optional information will not be printed.  If it is set to 2, all optional
           information will not be printed.

              $o = new Test::Inter 'mode' => MODE;

           Test::Inter scripts can be run in either an interactive mode, or as part of a test
           suite with different behaviors.  To select the mode, set the mode option as described
           in the new method above.  The mode option can take a value of 'inter' or 'test'.

           When run in test mode, it prints out the results using the TAP grammar (i.e. 'ok 1',
           'not ok 3', etc.).

           When run in interactive mode, it prints out results in a more human readable format.

              $o = new Test::Inter 'width' => WIDTH;

           The width option can be set as described in the new method above.

           WIDTH is the width of the terminal (for printing out failed test information). It
           defaults to 80, but it can be set to any width (and lines longer then this are
           truncated). If WIDTH is set to 0, no truncation is done.

              $o = new Test::Inter 'use_lib' => VALUE;

           By default, the library included in the module distribution will be added to the
           search path for modules, so a 'use MODULE' line should find the version stored in this
           module distribution.

           If VALUE is set to 'off', the search path will not be modified automatically.

           You may add the library path at a later time by calling:


           Note: both calls must be used. The first sets the option, the second actually modifies
           the search path.

              $o = new Test::Inter 'skip_all' => REASON;

           The skip_all option can be set as described in the new method above.

           If this is set, the entire test script will be skipped for the reason given. This must
           be done before any test is run, and before any plan number is set.

           The skip_all can also be called at any point during the script (i.e.  after tests have
           been run). In this case, all remaining scripts will be skipped.


           This will skip all tests (or all remaining tests) unless all <FEATURE>s are available.
           REASON can be entered as an empty string and the reason the tests are skipped will be
           a message about the missing feature.


           This defines a feature. If $val is non-zero, the feature is available.  Otherwise it
           is not.


           Both of these print an optional message. Messages printed with the "note" method are
           always optional and will be omitted if the quiet option is set to 1 or 2. Messages
           printed with the "diag" method are optional and will not be printed if the quiet
           option is set to 2, but they will be printed if the quiet method is set to 1.


           Occasionally, it may be necessary to know the directory where Test::Inter gets some of
           it's information.  By default, the directory containing the tests will be returned,
           but if the optional argument 'mod' is included, it will return the path to the module
           distribution (which should include both a lib and t subdirerctory).  If the argument
           'lib' is included, it will return the directory where the libraries are stored.


       Test scripts can load other modules (using either the perl "use" or "require" commands).
       There are three different modes for doing this which determine how this is done.

           By default, this is used to test for a module that is required for all tests in the
           test script.

           Loading the module is treated as an actual test in the test suite. The test is to
           determine whether the module is available and can be loaded. If it can be loaded, it
           is, and it is reported as a successful test. If it cannot be loaded, it is reported as
           a failed test.

           In the result of a failed test, all remaining tests will be skipped automatically
           (except for other tests which load modules).

           In feature mode, loading the module is not treated as a test (i.e. it will not print
           out an 'ok' or 'not ok' line. Instead, it will set a feature (named the same as the
           module) which can be used to determine whether other tests should run or not.

           In a few very rare cases, we may want to test for a module but expect that it not be
           present. This is the exact opposite of the required mode.

           Successfully loading the module is treated as a test failure. In the event of a
           failure, all remaining tests will be skipped.

       The methods available are:

              $o->require_ok($module [,$mode]);

           This is used to load a module using the perl "require" function. If $mode is not
           passed in, the default mode (required) is used to test the existence of the module.

           If $mode is passed in, it must be either the string 'forbid' or 'feature'.

           If $mode is 'feature', a feature named $module is set if the module was able to be

              $o->use_ok(@args [,$mode]);

           This is used to load a module with "use", or check a perl version.

              BEGIN { $o->use_ok('5.010'); }
              BEGIN { $o->use_ok('Some::Module'); }
              BEGIN { $o->use_ok('Some::Module',2.05); }
              BEGIN { $o->use_ok('Some::Module','foo','bar'); }
              BEGIN { $o->use_ok('Some::Module',2.05,'foo','bar'); }

           are the same as:

              use 5.010;
              use Some::Module;
              use Some::Module 2.05;
              use Some::Module qw(foo bar);
              use Some::Module 2.05 qw(foo bar);

           Putting the use_ok call in a BEGIN block allows the functions to be imported at
           compile-time and prototypes are properly honored.  You'll also need to load the
           Test::Inter module, and create the object in a BEGIN block.

           $mode acts the same as in the require_ok method.


       There are several methods for running tests. The ok, is, and isnt methods are included for
       those already comfortable with Test::More and wishing to stick with the same format of
       test script. The tests method is the suggested method though since it makes use of the
       full power of this module.


           A test run with ok looks at a result, and if it evaluates to 0 (or false), it fails.
           If it evaluates to non-zero (or true), it passes.

           These tests do not require you to specify the expected results.  If expected results
           are given, they will be compared against the result received, and if they differ, a
           diagnostic message will be printed, but the test will still succeed or fail based only
           on the actual result produced.

           These tests require a single result and either zero or one expected results.

           To run a single test, use any of the following:

              $o->ok();          # always succeeds




           If $result is a scalar, the test passes if $result is true. If $result is a list
           reference, the test succeeds if the list contains any defined values. If $result is a
           hash reference, the test succeeds if the hash contains any key with a value that is
           not "undef".

           If "\&func" and "\@args" are passed in, then $result is generated by passing @args to
           &func and behaves identically to the calls where $result is passed in.  If "\&func" is
           passed in but no arguments, the function takes no arguments, but still produces a

           If an expected value is passed in and the result does not match it, a diagnostic
           warning will be printed, even if the test passes.


           A test run with is looks at a result and tests to see if it is identical to an
           expected result. If it is, the test passes. Otherwise it fails. In the case of a
           failure, a diagnostic message will show what result was actually obtained and what was

           A test run with isnt looks at a result and tests to see if the result obtained is
           different than an expected result. If it is different, the test passes.  Otherwise it

           The is method can be called in any of the following ways:




           The isnt method can be called in exactly the same way.

           As with the ok method, the result can be a scalar, hashref, or listref. If it is a
           hashref or listref, the entire structure must match the expected value.

              $o->tests($opt=>$val, $opt=>$val, ...)

           The options available are described in the following section.

              $o->file($func,$input,$outputdir,$expected,$name [,@args]);

           Sometimes it may be easiest to store the input, output, and expected output from a
           test in a text file. In this case, each line of output will be treated as a single
           test, so the output and expected output must match up exactly.

           $func is a reference to a function which will produce a temporary output file.

           If $input is specified, it is the name of the input file.  If it is empty, no input
           file will be used.  The input file can be fully specified, or it can be relative to
           the test directory.

           If $outputdir is passed in, it is the directory where the output file will be written.
           It can be fully specified, or relative to the test directory.  If $outputdir is left
           blank, the temporary file will be written to the test directory.

           $expected is the name of a file which contains the expected output.  It can be fully
           specified, or it will be checked for in the test directory.

           $name is the name of this series of tests.

           @args are extra arguments to pass to the test function.

           The function will be called with the arguments:

              &$func( [$input,] $output,@args);

           $input is only passed in if it was passed in to this method.  If no input file is
           specified, nothing will be passed to the function.

           $output is the name of a temporary file where the output will be written to.


       It is expected that most tests (except for those that load a module) will be run using the
       tests method called as:


       The following options are available:

              name => NAME

           This sets the name of this set of tests. All tests will be given the same name.

           In order to specify a series of tests, you have to specify either a function and a
           list of arguments, or a list of results.

           Specifying the function and list of arguments can be done using the pair:

              func  => \&FUNCTION
              tests => TESTS

           If the func option is not set, tests contains a list of results.

           A list of expected results may also be given. They can be included in the

              tests => TESTS

           option or included separately as:

              expected => RESULTS

           The way to specify these are covered in the next section SPECIFYING THE TESTS.

              feature => [FEATURE1, FEATURE2, ...]

              disable => [FEATURE1, FEATURE2, ...]

           The default set of tests to run is determined using the start, end, and skip_all
           methods discussed above. Using those methods, a list of tests is obtained, and it is
           expected that these will run.

           The feature and disable options modify the list.

           If the feature option is included, the tests given in this call will only run if ALL
           of the features listed are available.

           If the disable option is included, the tests will be run unless ANY of the features
           listed are available.

              skip => REASON

           Skip these tests for the reason given.

              todo => 0/1

           Setting this to 1 says that these tests are allowed to fail. They represent a feature
           that is not yet implemented.

           If the tests succeed, a message will be printed notifying the developer that the tests
           are now ready to promote to actual use.


       A series of tests can be specified in two different ways. The tests can be written in a
       very simple string format, or stored as a list.

       Demonstrating how this can be done is best done by example, so let's say that there is a
       function (func) which takes two arguments, and returns a single value.  Let's say that the
       expected output (and the actual output) from 3 different sets of arguments is:

          Input   Expected Output  Actual Output
          -----   ---------------  -------------
          1,2     a                a
          3,4     b                x
          5,6     c                c

       (so in this case, the first and third tests pass, but the 2nd one will fail).

       Specifying these tests as lists could be done as:

             func     => &func,
             tests    => [ [1,2], [3,4], [5,6] ],
             expected => [ [a],   [b],   [c] ],

       Here, the tests are stored as a list, and each element in the list is a listref containing
       the set of arguments.

       If the func option is not passed in, the tests option is set to a list of results to
       compare with the expected results, so the following is equivalent to the above:

             tests    => [ [a],   [x],   [c] ],
             expected => [ [a],   [b],   [c] ],

       If an argument (or actual result) or an expected result is only a single value, it can be
       entered as a scalar instead of a list ref, so the following is also equivalent:

             func     => &func,
             tests    => [ [1,2], [3,4], [5,6] ],
             expected => [ a,     b,     [c] ],

       The only exception to this is if the single value is itself a list reference.  In this
       case it MUST be included as a reference. In other words, if you have a single test, and
       the expected value for this test is a list reference, it must be passed in as:

          expected => [ [ \@r ] ]

       NOT as:

          expected => [ \@r ]

       Passing in a set of expected results is optional. If none are passed in, the tests are
       treated as if they had been passed to the ok method (i.e. if they return something true,
       they pass, otherwise they fail).

       The second way to specify tests is as a string. The string is a multi-line string with
       each tests being separate from the next test by a blank line.  Comments (lines which begin
       with '#') are allowed, and are ignored. Whitespace at the start and end of the line is

       The string may contain the results directly, or results may be passed in separately. For
       example, the following all give the same sets of tests as the example above:

             func     => &func,
             tests    => "
                          # Test 1
                          1 2 => a

                          # Test 2
                          3 4 => b

                          5 6 => c

             func     => &func,
             tests    => "
                          1 2

                          3 4

                          5 6
              expected => [ [a], [b], [c] ]

             func     => &func,
             tests    => [ [1,2], [3,4], [5,6] ],
             expected => "



             func     => &func,
             tests    => "
                          1 2

                          3 4

                          5 6
             expected => "



       The expected results may also consist of only a single set of results (in this case, it
       must be passed in as a listref). In this case, all of the tests are expected to have the
       same results.

       So, the following are equivalent:

             func     => &func,
             tests    => "
                          1 2 => a b

                          3 4 => a b

                          5 6 => a b

             func     => &func,
             tests    => "
                          1 2

                          3 4

                          5 6
             expected  => [ [a, b] ],

             func     => &func,
             tests    => "
                          1 2

                          3 4

                          5 6
             expected  => "a b",

       The number of expected values must either be 1 (i.e. all of the tests are expected to
       produce the same value) or exactly the same number as the number of tests.

       The parser is actually quite powerful, and can handle multi-line tests, quoted strings,
       and nested data structures.

       The test may be split across any number of lines, provided there is not a completely blank
       line (which signals the end of the test), so the following are equivalent:

          tests => "a b c",
          tests => "a b

       Arguments (or expected results) may include data structures. For example, the following
       are equivalent:

          tests => "[ a b ] { a 1 b 2 }"
          tests => [ [ [a,b], { a=>1, b=>2 } ] ]

       Whitespace is mostly optional, but there is one exception. An item must end with some kind
       of delimiter, so the following will fail:

          tests => "[a b][c d]"

       The first element (the list ref [a b]) must be separated from the second element by the
       delimiter (which is whitespace in this case), so it must be written as:

          tests => "[a b] [c d]"

       As already demonstrated, hashrefs and listrefs may be included and nested. Elements may
       also be included inside parens, but this is optional since all arguments and expected
       results are already treated as lists, so the following are equivalent:

          tests => "a b c"
          tests => "(a b) c"

       Although parens are optional, they may make things more readable, and allow you to use
       something other than whitespace as the delimiter.  Since parens are actually ignored, a
       string '()' is also ignored, so do not use empty parentheses.

       If the character immediately following the opening paren, brace, or bracket is a
       punctuation mark, then it is used as the delimiter instead of whitespace. For example, the
       following are all equivalent:

          [ a b c ]
          [a b c]
          [, a,b,c ]
          [, a, b, c ]

       A delimiter is a single character, and the following may not be used as a delimiter:

          any opening/closing characters () [] {}
          single or double quotes
          alphanumeric characters

       Whitespace (including newlines) around the delimiter is ignored, so the following is

          [, a,
             c ]

       Two delimiters next to each other or a trailing delimiter produce an empty string.

          "(,a,b,)" => (a, b, '')
          "(,a,,b)" => (a, '', b)

       Hashrefs may be specified by braces and the following are equivalent:

          { a 1 b 2 }
          {, a,1,b,2 }
          {, a,1,b,2, }

       Note that a trailing delimiter is ignored if there are already an even number of elements,
       or an empty string otherwise.

       Nested structures are allowed:

          "[ [1 2] [3 4] ]"

       For example,

             func     => &func,
             tests    => "a [ b c ] { d 1 e 2 } => x y"

       is equivalent to:

             func     => &func,
             tests    => [ [a, [b,c], {d=>1,e=>2}] ],
             results  => [ [x,y] ],

       Any single value can be surrounded by single or double quotes in order to include the
       delimiter. So:

          "(, a,'b,c',e )"

       is equivalent to:

          "( a b,c e )"

       Any single value can be the string '__undef__' which will be turned into an actual undef.
       If the value is '__blank__' it is turned into an empty string (''), though it can also be
       specified as '' directly. Any value can have an embedded newline by including a __nl__ in
       the value, but the value must be written on a single line.

       Expected results are separated from arguments by ' => '.


       To summarize the information above, the following variables are used by Test::Inter.  Each
       variable can be set in two different ways: as an environment variable and as a perl
       variable in the main namespace.

       For example, the TI_END variable can be set as:


       The following variables can be used to define which tests are run:

           Set this to define the test you want to start with.

           Example: If you have a perl test script and you want to start running it at test 12,
           run the following shell commands:


           Set this to define the test you want to end with.

           Set this to run only a single test

       There is also a variable TI_NUM (available only as $::TI_NUM) which is set automatically
       by Test::Inter to be the test currently being run.

       The following variables control what is output from the tests, and how it is formatted:

           How verbose the test script is.  Values are 0 (most verbose) to 2 (least verbose).

           How the output is formatted.  Values are 'inter' (interactive mode) or 'test' (test
           suite mode).  Interactive mode is easier to read.  Test mode is for running as part of
           a test suite.

           The width of the terminal.

       The following variables control how some tests are run:

           When running a file test, the temporary output file will not be removed if this is


       The history of this module dates back to 1996 when I needed to write a test suite for my
       Date::Manip module. At that time, none of the Test::* modules currently available in CPAN
       existed (the earliest ones didn't come along until 1998), so I was left completely on my
       own writing my test scripts.

       I wrote a very basic version of my test framework which allowed me to write all of the
       tests as a string, it would parse the string, count the tests, and then run them.

       Over the years, the functionality I wanted grew, and periodically, I'd go back and
       reexamine other Test frameworks (primarily Test::More) to see if I could replace my
       framework with an existing module... and I've always found them wanting, and chosen to
       extend my existing framework instead.

       As I've written other modules, I've wanted to use the framework in them too, so I've
       always just copied it in, but this is obviously tedious and error prone. I'm not sure why
       it took me so long... but in 2010, I finally decided it was time to rework the framework
       in a module form.

       I loosely based my module on Test::More. I like the functionality of that module, and
       wanted most of it (and I plan on adding more in future versions).  So this module uses
       some similar syntax to Test::More (though it allows a great deal more flexibility in how
       the tests are specified).

       One thing to note is that I may have been able to write this module as an extension to
       Test::More, but after looking into that possibility, I decided that it would be faster to
       not do that. I did "borrow" a couple of routines from it (though they've been modified
       quite heavily) as a starting point for a few of the functions in this module, and I thank
       the authors of Test::More for their work.


       None known.


       Test::More - the 'industry standard' of perl test frameworks


       If you find a bug in Test::Inter, there are three ways to send it to me.  Any of them are
       fine, so use the method that is easiest for you.

       Direct email
           You are welcome to send it directly to me by email.  The email address to use is:

       CPAN Bug Tracking
           You can submit it using the CPAN tracking too.  This can be done at the following URL:


           You can submit it as an issue on GitHub.  This can be done at the following URL:


       Please do not use other means to report bugs (such as forums for a specific OS or Linux
       distribution) as it is impossible for me to keep up with all of them.

       When filing a bug report, please include the following information:

       Test::Inter version
           Please include the version of Test::Inter you are using.  You can get this by using
           the script:

              use Test::Inter;
              print $Test::Inter::VERSION,"\n";

       If you want to report missing or incorrect codes, you must be running the most recent
       version of Test::Inter.

       If you find any problems with the documentation (errors, typos, or items that are not
       clear), please send them to me. I welcome any suggestions that will allow me to improve
       the documentation.


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


       Sullivan Beck (