Compile [2024-11-21 02:08:57 UTC]: fail
call "C:\teeks99-09\run\results\boost\bin.v2\standalone\msvc\msvc-14.2\msvc-setup.bat" >nul
cl /Zm800 -nologo "..\libs\hana\test\foldable\unpack_mcd\monad.cpp" -c -Fo"C:\teeks99-09\run\results\boost\bin.v2\libs\hana\test\test~foldable~unpack_mcd~monad.test\msvc-14.2\dbg\x86_6\dbg-symbl-off\thrd-mlt\foldable\unpack_mcd\monad.obj" -TP /wd4675 /EHs /GR /Zc:throwingNew /Od /Ob0 /W3 /MDd /Zc:forScope /Zc:wchar_t /Zc:inline /favor:blend -DBOOST_ALL_NO_LIB=1 -DBOOST_COBALT_USE_STD_PMR=1 "-I.." "-I..\libs\hana\test\_include" "-IC:\teeks99-09\run\boost_root\libs\assert\include" "-IC:\teeks99-09\run\boost_root\libs\core\include" "-IC:\teeks99-09\run\boost_root\libs\hana\include" "-IC:\teeks99-09\run\boost_root\libs\throw_exception\include" "-IC:\teeks99-09\run\boost_root\libs\tuple\include"
monad.cpp
..\boost/hana/detail/algorithm.hpp(163): warning C4267: '=': conversion from 'size_t' to 'T', possible loss of data
with
[
T=int
]
..\boost/hana/detail/algorithm.hpp(169): note: see reference to function template instantiation 'T boost::hana::detail::accumulate<InputIt,T,boost::hana::placeholder_detail::plus>(InputIt,InputIt,T,F)' being compiled
with
[
T=int,
InputIt=const size_t *,
F=boost::hana::placeholder_detail::plus
]
..\boost/hana/detail/unpack_flatten.hpp(30): note: see reference to function template instantiation 'T boost::hana::detail::accumulate<const size_t*,int>(InputIt,InputIt,T)' being compiled
with
[
T=int,
InputIt=const size_t *
]
..\boost/hana/tuple.hpp(226): note: see reference to class template instantiation 'boost::hana::detail::flatten_indices<>' being compiled
..\boost/hana/unpack.hpp(47): note: see reference to function template instantiation 'decltype(auto) boost::hana::unpack_impl<boost::hana::tuple_tag,void>::apply<F&>(boost::hana::tuple<> &,boost::hana::detail::make_flatten_indices&)' being compiled
with
[
F=boost::hana::detail::make_flatten_indices
]
..\libs\hana\test\_include\support/seq.hpp(74): note: see reference to function template instantiation 'decltype(auto) boost::hana::unpack_t::operator ()<Storage&,F&>(Xs,boost::hana::detail::make_flatten_indices&) const' being compiled
with
[
Storage=boost::hana::tuple<>,
F=boost::hana::detail::make_flatten_indices,
Xs=boost::hana::tuple<> &
]
..\boost/hana/unpack.hpp(47): note: see reference to function template instantiation 'auto boost::hana::unpack_impl<Seq,void>::apply<Xs,F>(Xs,F)' being compiled
with
[
Xs=seq_type<boost::hana::tuple<>>,
F=boost::hana::detail::make_flatten_indices
]
..\boost/hana/detail/unpack_flatten.hpp(64): note: see reference to function template instantiation 'decltype(auto) boost::hana::unpack_t::operator ()<Xs&,boost::hana::detail::make_flatten_indices>(seq_type<boost::hana::tuple<>>&,F &&) const' being compiled
with
[
Xs=seq_type<boost::hana::tuple<>>,
F=boost::hana::detail::make_flatten_indices
]
..\boost/hana/flatten.hpp(57): note: see reference to function template instantiation 'decltype(auto) boost::hana::detail::unpack_flatten<Xs,const boost::hana::make_t<S>&>(Xs &&,F)' being compiled
with
[
Xs=seq_type<boost::hana::tuple<>>,
S=Seq,
F=const boost::hana::make_t<Seq> &
]
..\boost/hana/flatten.hpp(42): note: see reference to function template instantiation 'auto boost::hana::flatten_impl<M,boost::hana::when<true>>::apply<Xs>(Xs &&)' being compiled
with
[
M=Seq,
Xs=seq_type<boost::hana::tuple<>>
]
..\boost/hana/chain.hpp(45): note: see reference to function template instantiation 'auto boost::hana::flatten_t::operator ()<seq_type<boost::hana::tuple<>>>(Xs &&) const' being compiled
with
[
Xs=seq_type<boost::hana::tuple<>>
]
..\boost/hana/chain.hpp(36): note: see reference to function template instantiation 'auto boost::hana::chain_impl<M,boost::hana::when<true>>::apply<Xs,F>(Xs &&,F &&)' being compiled
with
[
M=Seq,
Xs=seq_type<boost::hana::tuple<>>,
F=boost::hana::partial_t<std::integer_sequence<size_t,0>,boost::hana::transform_t,seq_type<boost::hana::tuple<>>>
]
..\boost/hana/ap.hpp(73): note: see reference to function template instantiation 'decltype(auto) boost::hana::chain_t::operator ()<F,boost::hana::partial_t<std::integer_sequence<size_t,0>,boost::hana::transform_t,seq_type<boost::hana::tuple<>>>>(Xs &&,boost::hana::partial_t<std::integer_sequence<size_t,0>,boost::hana::transform_t,seq_type<boost::hana::tuple<>>> &&) const' being compiled
with
[
F=seq_type<boost::hana::tuple<>>,
Xs=seq_type<boost::hana::tuple<>>
]
..\boost/hana/ap.hpp(50): note: see reference to function template instantiation 'decltype(auto) boost::hana::ap_impl<A,boost::hana::when<true>>::apply<F,X>(F &&,X &&)' being compiled
with
[
A=Seq,
F=seq_type<boost::hana::tuple<>>,
X=seq_type<boost::hana::tuple<>>
]
..\libs\hana\test\_include\laws/applicative.hpp(129): note: see reference to function template instantiation 'decltype(auto) boost::hana::ap_t::operator ()<seq_type<boost::hana::tuple<>>,seq_type<boost::hana::tuple<>>>(F &&,X &&) const' being compiled
with
[
F=seq_type<boost::hana::tuple<>>,
X=seq_type<boost::hana::tuple<>>
]
..\libs\hana\test\_include\laws/templates/seq.hpp(115): note: see reference to function template instantiation 'boost::hana::test::TestApplicative<Seq,boost::hana::when<true>>::TestApplicative<boost::hana::tuple<seq_type<boost::hana::tuple<>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>,boost::hana::test::ct_eq<3>>>>>(Applicatives)' being compiled
with
[
Applicatives=boost::hana::tuple<seq_type<boost::hana::tuple<>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>,boost::hana::test::ct_eq<3>>>>
]
..\libs\hana\test\_include\laws/templates/seq.hpp(115): note: see reference to function template instantiation 'boost::hana::test::TestApplicative<Seq,boost::hana::when<true>>::TestApplicative<boost::hana::tuple<seq_type<boost::hana::tuple<>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>,boost::hana::test::ct_eq<3>>>>>(Applicatives)' being compiled
with
[
Applicatives=boost::hana::tuple<seq_type<boost::hana::tuple<>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>>>,seq_type<boost::hana::tuple<boost::hana::test::ct_eq<0>,boost::hana::test::ct_eq<1>,boost::hana::test::ct_eq<2>,boost::hana::test::ct_eq<3>>>>
]
..\boost/hana/detail/unpack_flatten.hpp(30): note: while evaluating constexpr function 'boost::hana::detail::accumulate'
C:\teeks99-09\run\boost_root\libs\hana\test\foldable\unpack_mcd\monad.cpp : fatal error C1128: number of sections exceeded object file format limit: compile with /bigobj