# Meetup Calculate the date of meetups. Typically meetups happen on the same day of the week. In this exercise, you will take a description of a meetup date, and return the actual meetup date. Examples of general descriptions are: - The first Monday of January 2017 - The third Tuesday of January 2017 - The wednesteenth of January 2017 - The last Thursday of January 2017 The descriptors you are expected to parse are: first, second, third, fourth, fifth, last, monteenth, tuesteenth, wednesteenth, thursteenth, friteenth, saturteenth, sunteenth Note that "monteenth", "tuesteenth", etc are all made up words. There was a meetup whose members realized that there are exactly 7 numbered days in a month that end in '-teenth'. Therefore, one is guaranteed that each day of the week (Monday, Tuesday, ...) will have exactly one date that is named with '-teenth' in every month. Given examples of a meetup dates, each containing a month, day, year, and descriptor calculate the date of the actual meetup. For example, if given "The first Monday of January 2017", the correct meetup date is 2017/1/2. ## Exercises without stub implementations Like the majority of C programs you will write, this exercise comes without any header file (`*.h`) or source file (`*.c`). ### Add the required files You will need to create these yourself as part of the exercise. This is so that you get to practice deciding on and creating the program's interface yourself, which is an important part of programming in C. It does mean that when you first try to run the tests, they won't compile. They will give you an error similar to: ```bash make: *** No rule to make target 'src/exercise_name.c', needed by 'tests.out'. Stop. ``` This error occurs because the `makefile` attempts to use a file that hasn't been created yet (`exercise_name.c`). To resolve this error you will need to add a matching file to the `src` directory. For example, for the error above you would add a file called `exercise_name.c`. When you try to run the tests again you will get a slightly different error. ```bash make: *** No rule to make target 'src/exercise_name.h', needed by 'tests.out'. Stop. ``` Again the `makefile` still needs another file that has yet to be created (`exercise_name.h`). The solution to this error is similar to the last, add the matching file to the `src` directory. For example, for the above error you would add a file called `exercise_name.h` ### Add the required declarations Running the tests a third time you see you will get new errors, similar to: ```bash Compiling tests.out src/exercise_name.c:1:0: error: ISO C forbids an empty translation unit [-Werror=pedantic] cc1: all warnings being treated as errors test/test_exercise_name.c:13:1: error: unknown type name ‘bar_t’; did you mean ‘__bar_t’? bar_t b = foo(a, 2.5); ^~~~~~ __bar_t test/test_exercise_name.c:15:14: error: storage size of fizz isn’t known struct baz fizz; ^~~~ test/test_exercise_name.c:29:20: error: implicit declaration of function ‘foo’ [-Werror=implicit-function-declaration] bar_t b = foo_function(fizz, 2.5); ``` This error means that you need to add function, type and variable decarations to the header file to match those the test file is attempting to use. In doing this you will need to look at the build errors and the test code to determine what needs to be declared in the header file. For example, for the error above you should declare a type named `bar_t`, a `struct` called `baz` and a function named `foo()`. Additionally we can tell from looking at the above errors that function `foo()` has two parameters. The first parameter is passed an argument of `fizz` and thus should have a type of `struct baz`. The second parameter is passed `2.5` and so could have one of two types, either `float` or `double`. You will need to look at the test code to determine which. The _names_ of the parameters are not determined by the test code and so are left up to you to decide, though in keeping with C programming practices they should be descriptive but not overly long. Further, we can see that the the return type expected by the test code is of the type `bar_t`. Putting this all together we end up with a function declaration that looks like the following: ```c // The parameter names are not very good here they should be more descriptive in a real exercise. // We have decide on a double for the second parameter in this hypothetical example. bar_t foo(struct baz b, double d); ``` You should continue to do this for any further similar errors. To check that you have correctly determined the required declaration, just run the tests again and analyse any errors similarly. Additionally, remember to add any includes to the header file any headers that it itself requires. ### Include guards Before you are finished with the header file, you should add include guards. Include guards are used to help prevent the file from being included multiple times by accident. If the file _was_ included multiple times then the functions and other items would be declared twice; In C this is an error because the compiler thinks you are trying to declare another _different_ function that has the same name. To add include guards, add something similar to the following as the first two lines of the header: ```c #ifndef EXERCISE_NAME_H #define EXERCISE_NAME_H ``` And on the very last line: ```c #endif ``` ### Add the required definitions Once the header file is complete you may still have build errors similar to the following: ```bash Compiling tests.out src/exercise_name.c:1:0: error: ISO C forbids an empty translation unit [-Werror=pedantic] cc1: all warnings being treated as errors makefile:24: recipe for target 'tests.out' failed make: *** [tests.out] Error 1 ``` This is because although you have _declared_ all the items you need to, they have not yet been _defined_. To define the needed items you need to add their implementation to the `exercise_name.c` file. For the function `foo()` from the previous example, this would look similar to: ```c #include "exercise_name.h" bar_t foo(struct baz b, double d) { // Your exercise code here } ``` After having resolved these errors you should be ready to start making the tests pass! ## Getting Started Make sure you have read the [C page](http://exercism.io/languages/c) on the Exercism site. This covers the basic information on setting up the development environment expected by the exercises. ## Passing the Tests Get the first test compiling, linking and passing by following the [three rules of test-driven development][3-tdd-rules]. The included makefile can be used to create and run the tests using the `test` task. make test Create just the functions you need to satisfy any compiler errors and get the test to fail. Then write just enough code to get the test to pass. Once you've done that, move onto the next test. [3-tdd-rules]: http://butunclebob.com/ArticleS.UncleBob.TheThreeRulesOfTdd As you progress through the tests, take the time to refactor your implementation for readability and expressiveness and then go on to the next test. Try to use standard C99 facilities in preference to writing your own low-level algorithms or facilities by hand. ## Source Jeremy Hinegardner mentioned a Boulder meetup that happens on the Wednesteenth of every month [https://twitter.com/copiousfreetime](https://twitter.com/copiousfreetime) ## Submitting Incomplete Solutions It's possible to submit an incomplete solution so you can see how others have completed the exercise.