This wheel has already been invented, and exists in the standard library.
std::cout << "Enter a word: ";
std::cin >> word;
std::cout << "Reverse: " << word << std::endl;
To understand exactly what's going on here, there are a few things that you must cover first:
- data structures (classes)
I hope you already know what a class is. In case you're still in introductory stuff, a class is basically a user defined collection of state and behavior. The author can choose to restrict access to the state or behavior of a class for a variety of reasons. In the case of
std::string, the standard library string class, all of the state is hidden and only behavior is accessible.
The string class is a container that contains characters. There are numerous other container classes, each of which with different strengths and weaknesses. The string class contains a sequence of characters with a strict order. Other containers exist, such as
std::list, and others.
std::string bears a passing resemblance to
std::vector, and is a distant cousin of
std::list. Each collection behaves differently and is suited for different things.
You might think you need to understand how the string class stores its data in order to reverse it, but you don't. This is where iterators come in.
std::string owns a typedef,
std::string::iterator, which is a special object which stores the location of a single element in a string.
std::reverse is a library function which takes 2 iterators and repeatedly swaps their contents and moves them towards each other. This looks like this as it's happening:
v v <-- positions of iterators (start at the start, end at the end)
ABC <-- initial state
v v <-- the end iterator moved back
CBA <-- the iterators swapped their values
vv <-- the begin iterator moved forward
V <-- the end iterator moved back; both iterators are in the same place
CBA <-- therefore, we're done, the string is reversed
One thing about iterators is they're kind of like pointers. In fact, you can pass pointers to some functions that expect iterators because they behave syntactically the same. Therefore, you should be able to write your own reverse function that uses pointers that basically does the same thing this did, except with
Here's some pseudocode that you should be able to write the function with (I won't write it out completely because it's homework):
void reverse(char *begin, char *end)
if (end equals begin):
move end backwards;
if (end equals begin):
swap end's and begin's characters;
move begin forwards;
Keep in mind that
BaidNation::reverse (as well as
std::reverse) expects for end the iterator that references the element AFTER the end of the collection, not the one that references the last element. How does it then make sense to use this?
LengthOfString function returns the number of non-null characters in a string. Since arrays are zero-indexed, we know that, like any other array, if we check
string1 + LengthOfString(string1), we'll get a pointer to the character after the end which is, for once, exactly what we want.
Thus, we can use this to reverse the string:
BaidNation::reverse(string1, string1 + LengthOfString(string1));
If you have to use exactly the signature earlier, you can adapt this design into the other one:
int reverse(const char str)
char *start = str, *end = str + LengthOfString(str);