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Are the 2 following functions essentially the same function?

ie, is an int* exactly the same as a int[]?

int myFunction(int* xVals, int* yVals, int nVertices);
int myFunction(int xVals[], int yVals[], int nVertices);

How can I use the 1st function? Ie, how can I pass arrays in the parameters? Is the following valid/correct?

int xVals[5], yVals[5], zVals[5];
myFunction(xVals, yVals, zVals, 5);

// or should it be..
myFunction(&xVals[0], &yVals[0], &zVals[0], 5);
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4  
Are you sure you didn't mean int xVals[] ? –  cnicutar Sep 24 '12 at 4:15
    
@cnicutar yes sry it should be that –  Jake M Sep 24 '12 at 4:18
    
No problem, now I can refer you to But I heard that char a[] was identical to char *a –  cnicutar Sep 24 '12 at 4:19

5 Answers 5

up vote 8 down vote accepted

In a function parameter list, then the function declarations are equivalent:

int myFunction(int* xVals, int* yVals, int nVertices);
int myFunction(int xVals[], int yVals[], int nVertices);

However, this does not readily generalize. Inside a function, there is a big difference between:

int AnotherFunction(void)
{
    int array[] = { 0, 1, 2, 3 };
    int *iptr = &array[0];
    ...
}

And in a function interface, there's a big difference between the two parameter types:

int arrays_vs_pointers(int **iptrptr, int array[][12]);

You also ask about (corrected):

int xVals[5], yVals[5];
myFunction(xVals, yVals, 5);

// or should it be..
myFunction(&xVals[0], &yVals[0], 5);

These calls are both valid and are equivalent to each other.


The answer to your original headline question 'Is an int * exactly the same as an int []?' is No.

There are a very limited number of circumstances under which they are equivalent, but there are many more circumstances where they are very different.

The answer to your revised headline question 'Is an int * parameter exactly the same as an int [] parameter?' is Yes!

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The question in the title is different from the question in the actual post body...

In general, it is not true that pointers are the same as arrays, so in a lot of cases, int [] is not the same as int *.

However, in a function declaration (or definition), when a one-dimension array is passed as the argument, it decays into a pointer, that's why, in contrast with the first case,

int myFunction(int *xVals, int *yVals, int nVertices);

and

int myFunction(int xVals[], int yVals[], int nVertices);

are equivalent.

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The previous answers are correct. This is just to add that you have a mismatched parameter count between your declaration and your call:

int myFunction(int* xVals, int* yVals, int nVertices);

myFunction(xVals, yVals, zVals, 5);

myFunction is expecting 3 parameters but you're passing 4 in your call.

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Yes. They are semantically the same if you are using them as function parameters.
But when you would like to use an array as parameter, write it as [] instead of *. This gives mental information to user's side that we are accepting an array here but not any pointer. It is more readable and make the usage less error-prone.

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Some interesting (useful?) points around such parameter specifications:

  • if you specify a dimension for a 1-dimensional array parameter, it is not checked in any way against the caller-provided argument, for example: f(int x[5]) can be called ala int x[] = { 1, 2}; f(x); or even int x; f(&x);

  • if you accept a reference to a parameter, then the dimensions are checked and must match, for example: f(int (&x)[5]) can only be called with an argument that's an integer array with exactly 5 elements (or something cast to that type)

  • templates can be used to capture compiler-known dimensions of parameters, as in: template <size_t N> void f(int (&x)[N]) { ...can use N in here... }

  • for these last two by-reference parameters, you can not pass in any old pointer-to-int... if the pointer really is to a suitable array you must typecast it first

  • that the by-reference parameters are checked at compile-time suggests they should be prefered when the number of arguments is known at compile time... in practice it can be a smidge more complicated than that, for example a library providing a header declaring void f(int[]); could still vary the implementation and ship a new library object supporting processing of a differently sized array (which it would need to detect based on some other argument or sentinel convension) without a header change necessitating or triggering client recompilation (in most build systems)

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