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I was looking at one of the answers to: filling a boost vector or matrix but I think I'm new to boost(and xcode, for that matter) and am trying to wrap my head around the boost zero_vector.

I tried a simple program that I thought was about the same as one of the answers:

#include <boost/numeric/ublas/vector.hpp>
#include <boost/numeric/ublas/io.hpp>

int main (int argc, char * const argv[]) {
    // insert code here...
    using namespace boost::numeric::ublas;

    int gameSize = 9;

    typedef vector<int> possiblesVector;
    possiblesVector foo;
    foo = zero_vector<int>(gameSize);
    std::cout << foo << std::endl;

    return 0;

which compiles, but when it runs, I get a runtime error (substituting "/PATH/TO" for the real path).

Check failed in file /PATH/TO/boost_1_48_0/boost/numeric/ublas/detail/vector_assign.hpp at line 370:
detail::expression_type_check (v, cv)
terminate called after throwing an instance of 'boost::numeric::ublas::external_logic'
  what():  external logic or bad condition of inputs
Program received signal:  “SIGABRT”.
sharedlibrary apply-load-rules all

Here, I'm just using a single main.cpp as a test area. In my real program, I have the declarations split into a .h file and my initializations in a .cpp file of my object. But the above code fails in the same way as my real program. (i.e. why I'm splitting declare and initialization into 2 steps)

Also, I know the resize already initializes to zero. Maybe I'll do a scalar_vector instead, or maybe I'll need to reset the array later on or something. I was just trying to isolate the code that is breaking.

share|improve this question
using namespace boost::numeric::ublas; bad practice ... using namespace are usually included in the top of the file, after the #include –  philippe Jul 19 '12 at 1:38
@philippe: Uh, you've got that backwards. Keep using's as local as possible. –  GManNickG Jul 19 '12 at 1:42
@GManNickG But Why? If in the namespace there's a class you don't like, why don't you just include those classes you're going to use? –  philippe Jul 19 '12 at 1:43
Why are you trying to do this: foo.resize(gameSize); foo = zero_vector<int>(gameSize); std::cout << foo << std::endl; –  philippe Jul 19 '12 at 1:45
So, vector<double> works fine, c_vector<int> will fails. –  ForEveR Jul 19 '12 at 2:40

1 Answer 1

    template<template <class T1, class T2> class F, class V, class E>
    // BOOST_UBLAS_INLINE This function seems to be big. So we do not let the compiler inline it.
    void vector_assign (V &v, const vector_expression<E> &e, sparse_tag) {
        BOOST_UBLAS_CHECK (v.size () == e ().size (), bad_size ());
        typedef F<typename V::iterator::reference, typename E::value_type> functor_type;
        BOOST_STATIC_ASSERT ((!functor_type::computed));
        typedef typename V::value_type value_type;
        vector<value_type> cv (v.size ());
        indexing_vector_assign<scalar_assign> (cv, v);
        indexing_vector_assign<F> (cv, e);
        v.clear ();
        typename E::const_iterator ite (e ().begin ());
        typename E::const_iterator ite_end (e ().end ());
        while (ite != ite_end) {
            value_type t (*ite);
            if (t != value_type/*zero*/())
                v.insert_element (ite.index (), t);
            ++ ite;
        if (! disable_type_check<bool>::value) 
            BOOST_UBLAS_CHECK (detail::expression_type_check (v, cv), 
                               external_logic ("external logic or bad condition of inputs"));

where v is your vector<int> possiblesVector and e is temporary zero_vector<int>

// Weak equality check - useful to compare equality two arbitary vector expression results.
// Since the actual expressions are unknown, we check for and arbitary error bound
// on the relative error.
// For a linear expression the infinity norm makes sense as we do not know how the elements will be
// combined in the expression. False positive results are inevitable for arbirary expressions!
template<class E1, class E2, class S>
bool equals (const vector_expression<E1> &e1, const vector_expression<E2> &e2, S epsilon, S min_norm) {
    return norm_inf (e1 - e2) < epsilon *
           std::max<S> (std::max<S> (norm_inf (e1), norm_inf (e2)), min_norm);

template<class E1, class E2>
bool expression_type_check (const vector_expression<E1> &e1, const vector_expression<E2> &e2) {
    typedef typename type_traits<typename promote_traits<typename E1::value_type,
                                 typename E2::value_type>::promote_type>::real_type real_type;

check functions.

All elements of zero_vector is 0, so after

    v.clear ();
    typename E::const_iterator ite (e ().begin ());
    typename E::const_iterator ite_end (e ().end ());
    while (ite != ite_end) {
        value_type t (*ite);
        if (t != value_type/*zero*/())
            v.insert_element (ite.index (), t);
        ++ ite;

vector v rest empty and check failed. Try to use double or float instead int.

share|improve this answer
I didn't follow that last chunk. What do you mean "vector v rest empty"? I don't understand what int is doing. –  Steve Hwan Jul 19 '12 at 16:09
@SteveHwan if (t != int /*zero*/()) { v.insert_element(ite.index(), t); } ++ite; Element will be inserted in vector if and only if current element not equal to int(), int() is zero. So... –  ForEveR Jul 19 '12 at 16:54

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