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# Using unordered_map on array of doubles

My main data object is a array of doubles of a length that depends on a specific instantiation of my class. I would like to construct a very simple hash table to store/retrieve these objects, and we can assume that the numbers are generated in a way that is free of numerical error.

``````int main() {
std::tr1::unordered_map<double*, double*> cache;

double x1[] = { 1.0, 3.14 };
double x2[] = { 1.0, 3.14 };

cache[x1] = x1;

std::cout << "x1: " << cache.count(x1) << std::endl;
std::cout << "x2: " << cache.count(x2) << std::endl;

return 0;
}
``````

The above obviously only compares the pointers, giving the output:

``````> ./tmp
x1: 1
x2: 0
``````

When I really want to see:

``````> ./tmp
x1: 1
x2: 1
``````

It's pretty clear how to create custom hashing and equality functions when the size of the arrays are fixed at compile time but I do not know how to make custom functions that depend on a specific instantiation... I created a class below, but I'm not sure if it's useful, or how it could be used.

``````class Hash_double_vec {

public:
int dim;
Hash_double_vec(int d) { dim = d; }

size_t operator()(const double *x) const{
std::tr1::hash<double> hash_fn;
size_t r = hash_fn(x[0]);
for(int i=1;i<dim;i++) r ^= hash_fn(x[i]);
return r;
}

bool operator()(const double *x, const double *y) const{
for(int i=1;i<dim;i++) if (fabs(x[i]-y[i]) > 1e-10) return false;
return true;
}
};
``````
-

One way would be to create struct to hold the pointer to the sequence of doubles:

``````struct DoubleRegion
{
double* p;
size_t size;
};

bool operator==(DoubleRegion a, DoubleRegion b)
{
return a.size == b.size && memcmp(a.p, b.p, a.size) == 0;
}

size_t hash(DoubleRegion dr)
{
size_t h = 0;
for (double* p = dr.p; p != dr.p + dr.size; ++p)
h ^= hash(*p);
return h;
}
``````

And then use it:

``````unordered_map<DoubleRegion, DoubleRegion> cache;
``````

Of course it is your problem to make sure the lifetime of the backing memory is a superset of the lifetime of the DoubleRegion.

If you don't know until runtime how big the key and value is going to be, use a std::vector:

``````unordered_map<vector<double>, vector<double>> cache;
``````

If you know at compile-time how big you can use an std::array:

``````unordered_map<array<double, N>, array<double, N>> cache;
``````

In both cases the default hashing function will work by value as you want, and you do not need to define a custom one.

-
I'm using double arrays because it's a scientific application with a lot of manipulations on these objects, double[] has significantly less memory and computational overhead than stl::vector. I could implement the hash by constantly converting between them but that is obviously expensive. – justaname Mar 24 '12 at 3:28
Apart from two size_t counts (one for capacity, one for size) there is virtually no overhead - but why can't you use std::array? What are the possible values of N? Can you make N a template parameter of your class? If so you can pass that through to std::array. – Andrew Tomazos Mar 24 '12 at 3:33
N is somewhere between 1 and 100, the overhead involved is related to manipulating long strings of doubles. that is, I have a double[] array 10 million long and I grab out pieces of the array in sizes between 1 and 100 randomly and I need to compute various statistics. I could perhaps have done this with a <vector> instead but it's much easier to pass around a &array[k] opposed to constructing an iterator, looping over said iterator to construct a new <vector>, then passing along that vector – justaname Mar 24 '12 at 3:39
Ok so you want to avoid copying the memory from the big array. I've updated my answer to sketch how to do it by reffering to regions. – Andrew Tomazos Mar 24 '12 at 3:56
Ah, yes, this works. In the mean time I did something similar, the point is you have to define the key of the data structure to carry the size as well. i.e. it cannot be a global, at least not easily. – justaname Mar 24 '12 at 4:38