using monomial_t = packed_monomial<unsigned long>;
monomial_t m{1, 2, 3};
k_unpacker<unsigned long> ku(m.get_value(), 3);
unsigned long tmp;
ku >> tmp;
std::cout << "The first exponent is: " << tmp << '\n';
ku >> tmp;
std::cout << "The second exponent is: " << tmp << '\n';
ku >> tmp;
std::cout << "The third exponent is: " << tmp << '\n';
p.get_symbol_set()
? Does the unpacker report exponents in the same order as p.get_symbol_set()
?
In terms of builds, one thing wasn't clear to me: I see that you have a very nice modern CMake build infrastructure for Obake, mp++ and other dependencies. In my projects, I try to include all dependencies in one parent project, and then build them all hierarchically via add_subdirectory. I've been modifying your CMake file as follows:
# mp++.
# NOTE: put the minimum version in a variable
# so that we can re-use it in the config-file package
# machinery below.
#set (_OBAKE_MIN_MPPP_VERSION 0.17)
#find_package(mp++ REQUIRED)
#if(${mp++_VERSION} VERSION_LESS ${_OBAKE_MIN_MPPP_VERSION})
# message(FATAL_ERROR "The minimum mp++ version required by obake is ${_OBAKE_MIN_MPPP_VERSION}, but version ${mp++_VERSION} was found instead.")
#endif()
add_subdirectory("${CMAKE_CURRENT_SOURCE_DIR}/mppp")
Is there a way I could have a parent project that includes both Obake and mp++ via add_subdirectory
, where I instead leave your Obake CMakeLists.txt unmodified and find_package(mp++ REQUIRED)
detects that mp++
is being configured/built as part of the same project?
find_package()
ultimately does is to create an mp++::mp++
imported target. Perhaps you can try to write:if(NOT TARGET mp++::mp++)
set (_OBAKE_MIN_MPPP_VERSION 0.17)
find_package(mp++ REQUIRED)
if(${mp++_VERSION} VERSION_LESS ${_OBAKE_MIN_MPPP_VERSION})
message(FATAL_ERROR "The minimum mp++ version required by obake is ${_OBAKE_MIN_MPPP_VERSION}, but version ${mp++_VERSION} was found instead.")
endif()
endif()
# 2 | :0 | decltype(series_default_in_place_addsub_algorithm<true, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&&&, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&&>.second)::type obake::detail::series_default_in_place_addsub_impl<true, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void> >(obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&&&, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&&)
# 1 | :0 | void obake::detail::series_sym_extender<obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&>(obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&, obake::series<obake::polynomials::packed_monomial<unsigned long long, void>, mppp::rational<1ul>, obake::polynomials::tag, void>&&&, boost::container::flat_map<unsigned long, boost::container::flat_set<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >, std::__1::less<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > >, void>, std::__1::less<unsigned long>, void> const&)
# 0 | :0 | obake::polynomials::packed_monomial<unsigned long long, std::__1::enable_if<is_k_packable_v<unsigned long long>, void>::type> obake::polynomials::key_merge_symbols<unsigned long long>(obake::polynomials::packed_monomial<unsigned long long, std::__1::enable_if<is_k_packable_v<unsigned long long>, void>::type> const&, boost::container::flat_map<unsigned long, boost::container::flat_set<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >, std::__1::less<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > >, void>, std::__1::less<unsigned long>, void> const&, boost::container::flat_set<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> >, std::__1::less<std::__1::basic_string<char, std::__1::char_traits<char>, std::__1::allocator<char> > >, void> const&)
Exception type : std::overflow_error
Exception message: Invalid size specified in the constructor of a Kronecker packer for the type 'unsigned long long': the maximum possible size is 21, but a size of 22 was specified instead
d_packed_monomial
does not have limits in the number of variables it can represent. The first template parameter, T
, is the same as in packed_monomial
. The second template parameter is the (approximate) number of bits you want to devote to each exponent. So for instance if you use NBits==8
and T
an unsigned integral type, then each exponent will have a range of circa [0, 256]
(it will be less than that in reality, but same order of magnitude).
d_packed_monomial
is kind of like a vector of packed_monomial
s
d_packed_monomial
, you can access the underlying vector of T
s via the _container()
function. You can then proceed to unpack each T
value as if it was the value in a packed_monomial
. For instance:using d_type = d_packed_monomial<unsigned long, 8>;
// This is the number of exponents packed in each unsigned long stored in a d_type.
// This is a compile-time constant.
constexpr auto psize = d_type::psize;
// Create a monomial.
d_type d{....};
// Print out all exponents.
for (const auto &n : d._container()) {
k_unpacker<unsigned long> ku(n, psize);
unsigned long tmp;
for (auto j = 0u; j < psize; ++j) {
ku >> tmp;
std::cout << tmp << '\n';
}
}
psize
. That is, if psize
is 8, then the code above will print either 8, 16, 24, 32, etc... exponents.
d_packed_monomial
: