Esempio n. 1
0
 types::ndarray<
 typename std::remove_cv<
 typename std::remove_reference<
 decltype(
         std::declval<T>()
         +
         std::declval<typename utils::nested_container_value_type<F>::type>())
 >::type
 >::type,
 1> append(types::ndarray<T,N> const& nto, F const& data) {
     typename types::numpy_expr_to_ndarray<F>::type ndata(data);
     long nsize = nto.size() + ndata.size();
     types::ndarray<
         typename std::remove_cv<
         typename std::remove_reference<
         decltype(
                 std::declval<T>()
                 +
                 std::declval<typename utils::nested_container_value_type<F>::type>())
         >::type
         >::type,
         1> out(types::make_tuple(nsize), __builtin__::None);
     size_t i=0;
     auto out_back = std::copy(nto.fbegin(), nto.fend(), out.fbegin());
     std::copy(ndata.fbegin(), ndata.fend(), out_back);
     return out;
 }
Esempio n. 2
0
            types::ndarray<T,N> _transpose(types::ndarray<T,N> const & a, long const l[N])
            {
                auto shape = a.shape;
                types::array<long, N> shp;
                for(unsigned long i=0; i<N; ++i)
                    shp[i] = shape[l[i]];

                types::ndarray<T,N> new_array(shp, __builtin__::None);

                types::array<long, N> new_strides;
                new_strides[N-1] = 1;
                std::transform(new_strides.rbegin(), new_strides.rend() -1, shp.rbegin(), new_strides.rbegin() + 1, std::multiplies<long>());

                types::array<long, N> old_strides;
                old_strides[N-1] = 1;
                std::transform(old_strides.rbegin(), old_strides.rend() -1, shape.rbegin(), old_strides.rbegin() + 1, std::multiplies<long>());

                auto iter = a.buffer,
                     iter_end = a.buffer + a.size();
                for(long i=0; iter!=iter_end; ++iter, ++i) {
                    long offset = 0;
                    for(unsigned long s=0; s<N; s++)
                        offset += ((i/old_strides[l[s]]) % shape[l[s]])*new_strides[s];
                    new_array.buffer[offset] = *iter;
                }

                return new_array;
            }
Esempio n. 3
0
 types::ndarray<T, 1>
 flatten(types::ndarray<T,N> const& a) {
     long n = a.size();
     T *buffer = new T[n];
     std::copy(a.buffer, a.buffer + n, buffer);
     long shape[1] = {n};
     return types::ndarray<T, 1>(buffer, shape);
 }
Esempio n. 4
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 types::ndarray<T,2> diag(types::ndarray<T,1> const &a, long k=0) {
     long n = a.size() + std::abs(k);
     types::ndarray<T,2> out(types::make_tuple(n,n), 0);
     if(k>=0)
         for(long i=0,j =k ; i< n and j<n ;++i,++j)
             out[i][j] = a[i];
     else
         for(long i=-k,j =0 ; i< n and j<n ;++i,++j)
             out[i][j] = a[j];
     return out;
 }
Esempio n. 5
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types::ndarray<T,M> resize(types::ndarray<T,N> const& expr, types::array<long, M> const& new_shape)
{
    auto where = std::find(new_shape.begin(), new_shape.end(), -1);
    if(where != new_shape.end()) {
        types::array<long, M> auto_shape(new_shape);
        auto_shape[where - new_shape.begin()] = expr.size() / std::accumulate(new_shape.begin(), new_shape.end(), -1L, std::multiplies<long>());
        return resize(expr, auto_shape);
    }
    types::ndarray<T,M> out(new_shape, __builtin__::None);
    auto nshape = out.size();
    auto n = expr.size();
    if(n < nshape) {
        auto iter = std::copy(expr.fbegin(), expr.fend(), out.fbegin());
        for(size_t i = 1; i < nshape / n; ++i) {
            iter = std::copy(out.fbegin(), out.fbegin() + n, iter);
        }
        std::copy(out.fbegin(), out.fbegin() + nshape % n, iter);
    }
    else
        std::copy(expr.fbegin(), expr.fbegin() + nshape, out.fbegin());
    return out;
}
Esempio n. 6
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types::ndarray<T,1> resize(types::ndarray<T,N> const& expr, int new_shape)
{
    types::ndarray<T,1> out(types::array<long, N> {{new_shape}}, __builtin__::None);
    auto n = expr.size();
    if(n < new_shape) {
        auto iter = std::copy(expr.fbegin(), expr.fend(), out.fbegin());
        for(size_t i = 1; i < new_shape / n; ++i)
            iter = std::copy(out.fbegin(), out.fbegin() + n, iter);
        std::copy(out.fbegin(), out.fbegin() + new_shape % n, iter);
    }
    else
        std::copy(expr.fbegin(), expr.fbegin() + new_shape, out.fbegin());
    return out;
}
Esempio n. 7
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 T item(types::ndarray<T, N> const& expr, long i)
 {
     if(i<0) i += expr.size();
     return *(expr.fbegin() + i);
 }
Esempio n. 8
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 types::ndarray<typename types::numpy_type<dtype>::type,1> cumprod(types::ndarray<T,N> const& expr, dtype d = dtype()) {
     long count = expr.size();
     types::ndarray<typename types::numpy_type<dtype>::type,1> cumprody(types::make_tuple(count), __builtin__::None);
     std::partial_sum(expr.buffer, expr.buffer + count, cumprody.buffer, std::multiplies<T>());
     return cumprody;
 }