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How can I let a pointer assigned with a two dimensional array?

The following code won't work.

float a1[2][2] = { {0,1},{2,3}};
float a2[3][2] = { {0,1},{2,3},{4,5}};
float a3[4][2] = { {0,1},{2,3},{4,5},{6,7}};

float** b = (float**)a1;

//float** b = (float**)a2;
//float** b = (float**)a3;

cout << b[0][0] << b[0][1] <<  b[1][0] <<  b[1][1] << endl;
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6 Answers 6

up vote 4 down vote accepted

a1 is not convertible to float**. So what you're doing is illegal, and wouldn't produce the desired result.

Try this:

float (*b)[2] = a1;
cout << b[0][0] << b[0][1] <<  b[1][0] <<  b[1][1] << endl;

This will work because two dimensional array of type float[M][2] can convert to float (*)[2]. They're compatible for any value of M.

As a general rule, Type[M][N] can convert to Type (*)[N] for any non-negative integral value of M and N.

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If all your arrays will have final dimension 2 (as in your examples), then you can do

float (*b)[2] = a1; // Or a2 or a3
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The way you do this is not legit in c++. You need to have an array of pointers.

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The problem here is that the dimensions of b are not known to the compiler. The information gets lost when you cast a1 to a float**. The conversion itself is still valid, but you cannot reference the array with b[][].

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+1 I believe this is the reason that you can't use array indices on the float**. –  Lou Aug 10 '11 at 13:21

You can do it explicitly:

float a1[2][2] = { {0,1},{2,3}};
float* fp[2] = { a1[0], a1[1] };
// Or
float (*fp)[2] = a1;
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Try assigning b to be directly equals to a1, that's mean that the pointer b is pointing to the same memory location that pointer a1 is pointing at, they carry the same memory reference now, and you should be able to walk through the array.

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