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I have a function with the following signature:

float* Interpolate(float t, UINT iOrder, UINT iDimension, float** ppPointsArray);

When trying to call it as follows:

float ppfValues[2][1];
ppfValues[0][0] = 0.0f;
ppfValues[1][0] = 10.0f;

float* pfResult = MyMathFuncs::Interpolate(0.5f,2,1,ppfValues);

I get the following error:

Error: argument of type float(*)[1] is incompatible with parameter of type "float**"

If I want to call it properly, I should do it like this:

float** ppfValues = new float*[2];
ppfValues[0] = new float(0.0f);
ppfValues[1] = new float(10.0f);

float* pfResult = MyMathFuncs::Interpolate(0.5f,2,1,ppfValues);

Now the question is: I thought float[x][y] was actually the same as a float** Why are they not? What are the technical reasons? And what are they exactly, then?

share|improve this question
First you need to explain why you though that float[x][y] was the same as a float **. Once we understand the source of your confusion, we can address it directly. So, what made you think that float[x][y] is the same as float ** in the first place? – AnT Nov 3 '11 at 18:01
@AndreyT I always assumed so, because in school we've been taught that char a[] is actually the same as char* a; And until now (two dim arr) it was always possible to pass char[] a; as argument for a function that required char* a – xcrypt Nov 3 '11 at 18:07
Well, you'll have to forget what you've been taught in school, since it is completely incorrect. In general case char a[N] is not even remotely the same as char *. The former is convertible to the latter, but not the same. Once you understand the difference for a 1D array (see the C FAQ links in the accepted answer), the situation with 2D arrays (3D, etc.) should become clear to you as well. – AnT Nov 3 '11 at 20:23

1 Answer 1

up vote 7 down vote accepted

I thought float[x][y] was actually the same as a float**

It all boils down to the fact that arrays and pointers aren't equivalent. Below is a list of C FAQs (even if this is a C++ question) which stress this fact in various ways.

share|improve this answer
What about dynamic arrays then? We can treat those as pointers right? – xcrypt Nov 3 '11 at 18:14
@xcrypt If by dynamic arrays you understand things you obtain via new / malloc, then yes, those are pointers. – cnicutar Nov 3 '11 at 18:19
I meant things you would obtain via "new[]", not "new". For example: int* a = new int[50]; – xcrypt Nov 3 '11 at 19:12
@xcrypt Yeah. That's a pointer to an integer, not an array. – cnicutar Nov 3 '11 at 19:13
@xcrypt: You don't "treat dynamic arrays as pointers". With dynamic arrays a pointer is the only thing that you get from the very beginning. It is already a pointer, no need to "treat" anything as anything :) – AnT Nov 3 '11 at 20:26

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