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[libtap] / README

NAME
====

libtap - Write tests in C

SYNOPSIS
========

    #include <tap.h>
    
    int foo () {return 3;}
    
    int main () {
        plan(4);
        ok(foo() == 3);
        ok(foo() == 55);
        ok(foo() > 2, "foo returns a number greater than 2");
        ok(foo() <= 8732, "foo is less than or equal to %d", 8732);
        return exit_status();
    }

results in:

    1..4
    ok 1
    not ok 2
    #   Failed test at synopsis.c line 8.
    ok 3 - foo returns a number greater than 2
    ok 4 - foo is less than or equal to 8732
    # Looks like you failed 1 test of 4 run.


DESCRIPTION
===========

tap is an easy to read and easy to write way of creating tests for your
software. This library creates functions that can be used to generate it for
your C programs. It is mostly based on the Test::More Perl module.

FUNCTIONS
=========

-   plan(tests)
-   plan(NO_PLAN)
    
    Use this to start a series of tests. When you know how many tests there 
    will be, you can put a number as a number of tests you expect to run. If 
    you do not know how many tests there will be, you can use plan(NO_PLAN)
    or not call this function. When you pass it a number of tests to run, a
    message similar to the following will appear in the output:
    
        1..5

-   ok(test)
-   ok(test, fmt, ...)

    Specify a test. the test can be any statement returning a true or false
    value. You may optionally pass a format string describing the test.
    
        ok(r = reader_new("Of Mice and Men"), "create a new reader");
        ok(reader_go_to_page(r, 55), "can turn the page");
        ok(r->page == 55, "page turned to the right one");
    
    Should print out:
    
        ok 1 - create a new reader
        ok 2 - can turn the page
        ok 3 - page turned to the right one
    
    On failure, a diagnostic message will be printed out.

        not ok 3 - page turned to the right one
        #   Failed test 'page turned to the right one'
        #   at reader.c line 13.

-   pass()
-   pass(fmt, ...)
-   fail()
-   fail(fmt, ...)

    Speciy that a test succeeded or failed. Use these when the statement is
    longer than you can fit into the argument given to an ok() test.

-   dies_ok(code)
-   dies_ok(code, fmt, ...)
-   lives_ok(code)
-   lives_ok(code, fmt, ...)

    tests whether the given code causes your program to exit. The code gets
    passed to a macro that will test it in a forked process. If the code
    succeeds it will be executed in the parent process. You can test things 
    like passing a function a null pointer and make sure it doesnt 
    dereference it and crash.
    
        dies_ok({abort();}, "abort does close your program");
        dies_ok({int x = 0/0;}, "divide by zero crash");
        double d = 0;
        lives ok({d = pow(3.0, 5.0)}, "nothing wrong with taking 3**5");
        ok(d > pow(3.0, 4.0), "3**5 is greater than 3**4");

-   exit_status()

    Summarizes the tests that occurred. If there was no plan, it will print
    out the number of tests as.
    
        1..5
    
    it will also exit with EXIT_SUCCESS or EXIT_FAILURE depending on whether
    there were any failures. If there was a plan and the number of tests are 
    not equal to the expected number, it will exit with a failure and print a
    message about it. It will also print a diagnostic message about how many
    failures there were.
    
        # Looks like you failed 2 tests of 3 run.

-   note(fmt, ...)
-   diag(fmt, ...)

    print out a message to the tap output. note prints to stdout and diag
    prints to stderr. Each line is preceeded by a "# " so that you know its a 
    diagnostic message.
    
        note("This is\na note\nto describe\nsomething.");
    
    prints:
    
        # This is
        # a note
        # to describe
        # something
    
    ok() and these functions return ints so you can use them like:
    
        ok(1) && note("yo!");
        ok(0) || diag("I have no idea what just happened");