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I'm trying to figure out the best C++ library/package for array manipulations in a manner of python. Basically I need a simplicity like this:

values  = numpy.array(inp.data)
idx1    = numpy.where(values > -2.14)
idx2    = numpy.where(values < 2.0)

res1 = (values[idx1] - diff1)/1000
res2 = (values[idx2] - diff2)*1000

In python it's just 5 lines, but the simplest way in C++ i can think of is quite a number of nested loops. Pls advise..

Basically my question is concerning the array/vector operations like array multiplications, operations on indexs, etc.. In the example above, res1 is an array, containing a set of elements filtered out of values array and some arithmetics applied afterward (subtraction, multiplication for all selected elements). In this python example I'm not copying elements of values array as it could be big enough in terms of memory, i'm keeping only the indexes and want to be able to run arithmetic operations on a selected set of elements of the original array.

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4  
Please explain what the Python code does, for those of us not familiar with numpy. –  Joe Gauterin Mar 24 '10 at 12:33
    
It looks similar to R. –  Josh Lee Mar 24 '10 at 12:54
    
just extended my question with a more detailed explanation –  Linai Mar 24 '10 at 13:39
    
Just to be clear, you are not looking for a solution from the C++ standard library (because there is none, just as numpy isn't part of the Python standard library), you are looking for a good 3rd party math library capable of manipulating arrays like numpy? (I don't know of one, but I doubt it is going to be quite as concise with all the declarations etc.) –  UncleBens Mar 24 '10 at 23:16

5 Answers 5

You should not be using arrays at all. Please sit down and learn about the std::vector class and about iterators and Standard Library algorithms. I strongly suggest reading the book The C++ Standard Library.

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+1 for mentioning such an excellent book –  D.Shawley Mar 24 '10 at 12:46
2  
What the poster calls "arrays" is not necessarily C arrays, it's the general concept. –  static_rtti Mar 24 '10 at 13:43
    
@ static_rtti The term array in C++ has a specific technical meaning. –  anon Mar 24 '10 at 13:45

You can achieve something similar in C++ but you shouldn't use plain C arrays for it.

The easiest way I can see this work would be using a std::set of floats (your code looks like it assumes that the data is sorted in ascending order). You could also use a std::vector of float but you'll have to sort that yourself, probably by using std::sort.

In that case, your example code could look like this - the set assumes the values are unique, if they aren't, you could use a std::multiset instead;

std::set<float> values(inp.data.begin(), inp.data.end());
std::set<float>::iterator idx1 = values.lower_bound(-2.14);
std::set<float>::iterator idx2 = values.upper_bound(2.0);

float res1 = (*idx1 - diff1) / 1000.0;
float res2 = (*idx2 - diff2) / 1000.0;

Please note that the above code sample is not a 100% conversion of your original code - lower_boundgives you the first element that's equal or larger than -2.14. I also didn't put any checking code in for failures - if lower_bound or upper_bound can't find matching elements, they would return values.end(), for example.

Using vector, the example would look very similar, just one line more to pre-sort the vector:

std::vector<float> values(inp.data.begin(), inp.data.end());
std::sort(values.begin(), values.end();
std::vector<float>::iterator idx1 = std::lower_bound(values.begin(), values.end(), -2.14);
std::vector<float>::iterator idx2 = std::upper_bound(values.begin(), values.end(), 2.0);

float res1 = (*idx1 - diff1) / 1000.0;
float res2 = (*idx2 - diff2) / 1000.0;
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1  
This is really a good example, but not quite what i'm looking for. Basically in my python example res1 is also an array and the expression is a vector operation. This means that in C++ I have to put this whole thing in 2 loops like while(idx1 != values.end) { res1.push_back((*idx1 - diff1)/1000); }; while(idx2 != values.end) { res2.push_back((*idx2 - diff2)/1000); }; –  Linai Mar 24 '10 at 13:22
    
Ah, OK. I guess it would've helped if I spoke Python :). You could hide the loops using something like std::copy and copy them through a functor with a back inserter, but that's hiding the loop more than anything else. –  Timo Geusch Mar 24 '10 at 15:45

I suggest you to check the algorithm header. Also don't work with arrays, you have std::vector or boost(soon to be std)::array.

wikipedia article

Reference for all algorithms

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If I'm not mistaken, numpy is written mostly in C (with a Python wrapper), so you could be able to use it directly from C++ without much effort.

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If you combine std::vector and boost::lambda, you can come really close to your example:

#include <algorithm>
#include <iostream>
#include <vector>
#include <boost/lambda/lambda.hpp>

using boost::lambda::_1;

int main() {
    float ary[10] = { -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 };
    std::vector<float> v(&ary[0], &ary[10]);
    std::vector<float>::iterator iter1, iter2;

    iter1 = std::find_if(v.begin(), v.end(), (_1 > -2.14));
    iter2 = std::find_if(v.begin(), v.end(), (_1 < 2.0));

    // output:
    //     iter1 = -2.000
    //     iter2 = 1.000
    std::cout
        << "iter1 = " << *iter1 << "\n"
        << "iter2 = " << *iter2 << "\n"
        << std::endl;
    return 0;
}
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Same as above. This first part works fine, but what about vector operations like res_vector = (v[iter1] - fixed_value)*1000 ? –  Linai Mar 24 '10 at 13:25
    
Only if by "really close" you mean "ten times more verbose" :) –  static_rtti Mar 24 '10 at 13:44
    
@static_rtti: most of the verbosity is in the setup and printing. The python example omitted the import numpy and didn't include the printing. But yes, it is more verbose to include explicit typing and other static information. The core processing inside of main is pretty much the same though. –  D.Shawley Mar 29 '10 at 16:59

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