Entire Assignment due 2019-09-16 23:59
Graded files:
  • vector.c
  • sstring.c

Learning Objectives#

The learning objectives for Vector are:

  • Implementing a C++ style Vector in C
  • Using Dynamic/Heap Memory
  • Using malloc(), free(), calloc(), realloc()
  • Function Pointers
  • OOP in C
  • String manipulation in C

Groundwork For Shell#

You are an intern at Macrohard, where you’ll be writing a shell for everyone on your team.

These projects will take you several weeks, and your mentor has decided on the following timetable:

  • Week A: Vector and Sstream
  • Week B+C: Shell

The Shell is a terminal. Like all good terminals, your shell will need to remember what processes are running.

However, after hearing tales of your talent, and with vectors being all the rage, other team leads have asked for vectors that they can use in their own projects. One option would be to write a vector for each team. However, being a good programmer, you know that code duplication is bad. Also, you’re a lazy programmer, so you want to write as little code as possible to accomplish everything. You decide to implement a generic vector, something that every team can use with minimal changes.

Vector#

A vector is an array that grows as a user adds and removes items from it. (Since CS 225 was a prerequisite, you probably knew all of that already.) However, your vector will need to be feature-rich enough for someone to easily create a document from it, or anything else the other sneaky teams want for their projects.

Your implementation should go in vector.c, which is the only file that will be sent to your team lead for review. As an intern looking to become a full-time employee, you should create test cases in vector_test.c to show you are a responsible programmer. Your mentor has left notes in vector.h guiding your implementation.

In case a fellow employee asks what you learned in CS 225, here’s some review:

Since this vector is generic, it will have to call custom constructor, destructor, and default constructor functions when objects are added or removed. (How is this better than a single function which handles all possible types?) Thus, your vector structure will contain pointers to your constructor or destructor routines, and you can initialize the vector by passing pointers to these functions as parameters.

What you’ll end up with is a useful general-purpose vector, capable of dynamically expanding. (No more fixed-sized buffers!). If you get confused about the callback typedefs (i.e. what a copy constructor is) take a look at callbacks.h.

Note: Remember that vector size (the number of actual objects held in the vector) and capacity (size of the storage space currently allocated for the vector) are two different things. Refer to documentation in vector.h and vector.c for more information.

sstring#

sstring is a wrapper around C-strings which makes dealing with strings easier with higher-level functions. We have not specified the definition of the sstring struct, and left that up to you! You can find the specification for the sstring functions in the sstring.h header file.

Managing memory#

Remember, man is man’s best friend. Since you’re working with dynamic memory, there are quite a few functions you should be familiar with before you proceed. malloc(), free(), realloc(), calloc(), memmove() are your friends; don’t shy away!

  • man 3 malloc
  • man 3 free
  • …there’s a pattern here

Undefined behavior#

Undefined behavior is a scenario or edge case for which there is no documentation describing how the code should react. For example, man pages do not describe what happens when you feed NULL into strcmp(). Your mentor will not answer questions like “What if my user wants an element past the end of the vector?”, because that is undefined behavior.

So, for the entirety of this MP, you should use assert() statements to check that your user is passing valid input to your function before operating on the input. For example, if you were implementing strcmp(const char *s1, const char *s2), then your code might look like this:

#include <assert.h>

strcmp(const char *s1, const char *s2) {
    assert(s1 != NULL && s2 != NULL);
    // Compare the two strings
    .
    .
    .
    return rv;
}

Writing test cases#

Just to emphasize how important test cases are, this lab spec will repeat itself and remind you that as good programmers, you are expected to write your own test cases for sstring and vector.