#ifndef PYTHONIC_NUMPY_UNWRAP_HPP #define PYTHONIC_NUMPY_UNWRAP_HPP #include "pythonic/include/numpy/unwrap.hpp" #include "pythonic/utils/functor.hpp" #include "pythonic/utils/int_.hpp" #include "pythonic/types/ndarray.hpp" #include "pythonic/numpy/pi.hpp" #include #include #include PYTHONIC_NS_BEGIN namespace numpy { namespace { template void _unwrap(I0 ibegin, I0 iend, I1 obegin, double discont, utils::int_<1>) { *obegin = *ibegin; ++ibegin; for (; ibegin != iend; ++ibegin, ++obegin) { if (functor::abs{}(*obegin - *ibegin) > discont) *(obegin + 1) = *ibegin + 2 * pi * functor::round{}((*obegin - *ibegin) / (2 * pi)); else *(obegin + 1) = *ibegin; } } template void _unwrap(I0 ibegin, I0 iend, I1 obegin, double discont, utils::int_) { for (; ibegin != iend; ++ibegin, ++obegin) _unwrap((*ibegin).begin(), (*ibegin).end(), (*obegin).begin(), discont, utils::int_()); } } template types::ndarray unwrap(E const &expr, double discont) { discont = functor::maximum{}(discont, pi); types::ndarray out(sutils::getshape(expr), builtins::None); _unwrap(expr.begin(), expr.end(), out.begin(), discont, utils::int_()); return out; } } PYTHONIC_NS_END #endif