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I have something like this:

typedef int customType[10];

And I want a function like this

std::vector<customType*>& myFunc();

But there are some problems.

1) I need to allocate memory for every pointer to customType in the vector (do I?) and doing

std::vector<customType*> A;
//some code to get length
for (i = 0; i < length; i++)
{
  A[i]  = new customType;
}

is wrong because of an error:

IntelliSense: a value of type "int *" cannot be assigned to an entity of type "customType*"

2) In common, is it a good way to store such data? Maybe I should make an array of 1 dimension with everything stored in one line and use something like

A[i*innerLength+j]

to access elements?

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Why do you need the typedef? Why can't you just use int[10]? –  Linuxios Jun 30 '12 at 19:09
    
For syntactic sugar. Custom type has meaningful in the code (not the customType) and it makes code more readable. Also, is it ok to use std::vector<int[10]>? –  Pavel Oganesyan Jun 30 '12 at 19:14
    
Yes. int[10] is really just const int* in the end. –  Linuxios Jul 1 '12 at 2:06

2 Answers 2

up vote 1 down vote accepted

I would generally recommend using something like the below and doing the array indexing yourself.

std::vector<int> vals(row_size*col_size, 0);

At really large sizes it may be better to break it up. It's just a lot of contiguous memory to allocate in a block. "Really large" is pretty subjective, and you probably can get away with a lot larger sizes than most people would expect. Let the profiler tell you when it's a problem.

If you have access to C++11, then this would be another option.

TEST(array)
{
    typedef std::array<int,10> Foo;
    typedef std::vector<Foo> Foos;
    Foos foos(10, Foo());
}
share|improve this answer

Your code won't work because A[i] is of type int (*)[10] and the new expression is of type int*, either change A to std::vector<int*> or wrap your array in a class or struct:

struct customType {
    int data[10];
};

Then you can use either std::vector<customType> (preferably) or std::vector<customType*>.

std::vector<int[10]> wont work because arrays in C and C++ are not assignable which is a requirement for std::vector.

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