Fix device/host call issues in CUDA (when not using relaxed constexpr…

… workaround) (#360)

* initial workarounds to get mdspan copmiling without constexpr device code enabled

* make device-compatible tuple standin constexpr

* Make sure StaticExtentFromRange recognizes device-compatible integral_constant

* avoid using arraay.data() since in C++14 it's not constexpr

* merge device_support.hpp into utility.hpp

* make layout_stride std::array ctors host-only

* make submdspan_mapping create strided mapping without std::array so as to work on device

* remove type access from our tuple standin for device code and comment about what it's used for

* Add missing includes in utility

* Fix C++14 build

* Fix comments

* More review comment fixes

* Use | operator instead of +

---------

Co-authored-by: Christian Trott <crtrott@sandia.gov>

include/experimental/__p0009_bits/layout_left.hpp

@@ -237,10 +237,12 @@ class layout_left::mapping {
 
     // Not really public, but currently needed to implement fully constexpr useable submdspan:
     template<size_t N, class SizeType, size_t ... E, size_t ... Idx>
+    MDSPAN_INLINE_FUNCTION
     constexpr index_type __get_stride(MDSPAN_IMPL_STANDARD_NAMESPACE::extents<SizeType, E...>,std::integer_sequence<size_t, Idx...>) const {
       return _MDSPAN_FOLD_TIMES_RIGHT((Idx<N? __extents.template __extent<Idx>():1),1);
     }
     template<size_t N>
+    MDSPAN_INLINE_FUNCTION
     constexpr index_type __stride() const noexcept {
       return __get_stride<N>(__extents, std::make_index_sequence<extents_type::rank()>());
     }
@@ -255,6 +257,7 @@ class layout_left::mapping {
        SliceSpecifiers... slices) const;
 
    template<class... SliceSpecifiers>
+     MDSPAN_INLINE_FUNCTION
      friend constexpr auto submdspan_mapping(
        const mapping& src, SliceSpecifiers... slices) {
          return src.submdspan_mapping_impl(slices...);

include/experimental/__p0009_bits/layout_right.hpp

@@ -234,10 +234,12 @@ class layout_right::mapping {
 
     // Not really public, but currently needed to implement fully constexpr useable submdspan:
     template<size_t N, class SizeType, size_t ... E, size_t ... Idx>
+    MDSPAN_INLINE_FUNCTION
     constexpr index_type __get_stride(MDSPAN_IMPL_STANDARD_NAMESPACE::extents<SizeType, E...>,std::integer_sequence<size_t, Idx...>) const {
       return _MDSPAN_FOLD_TIMES_RIGHT((Idx>N? __extents.template __extent<Idx>():1),1);
     }
     template<size_t N>
+    MDSPAN_INLINE_FUNCTION
     constexpr index_type __stride() const noexcept {
       return __get_stride<N>(__extents, std::make_index_sequence<extents_type::rank()>());
     }
@@ -252,6 +254,7 @@ class layout_right::mapping {
        SliceSpecifiers... slices) const;
 
    template<class... SliceSpecifiers>
+     MDSPAN_INLINE_FUNCTION
      friend constexpr auto submdspan_mapping(
        const mapping& src, SliceSpecifiers... slices) {
          return src.submdspan_mapping_impl(slices...);

include/experimental/__p0009_bits/layout_stride.hpp

@@ -197,28 +197,22 @@ struct layout_stride {
       }
 
       template<class IntegralType>
-      MDSPAN_INLINE_FUNCTION
       static constexpr const __strides_storage_t fill_strides(const std::array<IntegralType,extents_type::rank()>& s) {
         return __strides_storage_t{static_cast<index_type>(s[Idxs])...};
       }
 
       MDSPAN_TEMPLATE_REQUIRES(
         class IntegralType,
-        // The is_convertible condition is added to make sfinae valid
-        // the extents_type::rank() > 0 is added to avoid use of non-standard zero length c-array
-        (std::is_convertible<IntegralType, typename extents_type::index_type>::value && (extents_type::rank() > 0))
+        (std::is_convertible<IntegralType, typename extents_type::index_type>::value)
       )
       MDSPAN_INLINE_FUNCTION
-      // despite the requirement some compilers still complain about zero length array during parsing
-      // making it length 1 now, but since the thing can't be instantiated due to requirement the actual
-      // instantiation of strides_storage will not fail despite mismatching length
+      // Need to avoid zero length c-array
       static constexpr const __strides_storage_t fill_strides(mdspan_non_standard_tag, const IntegralType (&s)[extents_type::rank()>0?extents_type::rank():1]) {
         return __strides_storage_t{static_cast<index_type>(s[Idxs])...};
       }
 
 #ifdef __cpp_lib_span
       template<class IntegralType>
-      MDSPAN_INLINE_FUNCTION
       static constexpr const __strides_storage_t fill_strides(const std::span<IntegralType,extents_type::rank()>& s) {
         return __strides_storage_t{static_cast<index_type>(s[Idxs])...};
       }
@@ -242,10 +236,13 @@ struct layout_stride {
     // Can't use defaulted parameter in the __deduction_workaround template because of a bug in MSVC warning C4348.
     using __impl = __deduction_workaround<std::make_index_sequence<Extents::rank()>>;
 
+    MDSPAN_FUNCTION
     static constexpr __strides_storage_t strides_storage(detail::with_rank<0>) {
       return {};
     }
+
     template <std::size_t N>
+    MDSPAN_FUNCTION
     static constexpr __strides_storage_t strides_storage(detail::with_rank<N>) {
       __strides_storage_t s{};
 
@@ -273,7 +270,7 @@ struct layout_stride {
 
     //--------------------------------------------------------------------------------
 
-    MDSPAN_INLINE_FUNCTION_DEFAULTED constexpr mapping() noexcept
+    MDSPAN_INLINE_FUNCTION constexpr mapping() noexcept
 #if defined(_MDSPAN_USE_ATTRIBUTE_NO_UNIQUE_ADDRESS)
       : __members{
 #else
@@ -299,7 +296,6 @@ struct layout_stride {
         _MDSPAN_TRAIT(std::is_nothrow_constructible, typename Extents::index_type, const std::remove_const_t<IntegralTypes>&)
       )
     )
-    MDSPAN_INLINE_FUNCTION
     constexpr
     mapping(
       extents_type const& e,
@@ -333,19 +329,16 @@ struct layout_stride {
         // MSVC 19.32 does not like using index_type here, requires the typename Extents::index_type
         // error C2641: cannot deduce template arguments for 'MDSPAN_IMPL_STANDARD_NAMESPACE::layout_stride::mapping'
         _MDSPAN_TRAIT(std::is_convertible, const std::remove_const_t<IntegralTypes>&, typename Extents::index_type) &&
-        _MDSPAN_TRAIT(std::is_nothrow_constructible, typename Extents::index_type, const std::remove_const_t<IntegralTypes>&) &&
-        (Extents::rank() > 0)
+        _MDSPAN_TRAIT(std::is_nothrow_constructible, typename Extents::index_type, const std::remove_const_t<IntegralTypes>&)
       )
     )
     MDSPAN_INLINE_FUNCTION
     constexpr
     mapping(
       mdspan_non_standard_tag,
       extents_type const& e,
-      // despite the requirement some compilers still complain about zero length array during parsing
-      // making it length 1 now, but since the thing can't be instantiated due to requirement the actual
-      // instantiation of strides_storage will not fail despite mismatching length
-      IntegralTypes (&s)[extents_type::rank()>0?extents_type::rank():1]
+      // Need to avoid zero-length c-array
+      const IntegralTypes (&s)[extents_type::rank()>0?extents_type::rank():1]
     ) noexcept
 #if defined(_MDSPAN_USE_ATTRIBUTE_NO_UNIQUE_ADDRESS)
       : __members{
@@ -379,7 +372,6 @@ struct layout_stride {
         _MDSPAN_TRAIT(std::is_nothrow_constructible, typename Extents::index_type, const std::remove_const_t<IntegralTypes>&)
       )
     )
-    MDSPAN_INLINE_FUNCTION
     constexpr
     mapping(
       extents_type const& e,
@@ -476,7 +468,8 @@ struct layout_stride {
     MDSPAN_INLINE_FUNCTION
     constexpr index_type required_span_size() const noexcept {
       index_type span_size = 1;
-      for(unsigned r = 0; r < extents_type::rank(); r++) {
+      // using int here to avoid warning about pointless comparison to 0
+      for(int r = 0; r < static_cast<int>(extents_type::rank()); r++) {
         // Return early if any of the extents are zero
         if(extents().extent(r)==0) return 0;
         span_size += ( static_cast<index_type>(extents().extent(r) - 1 ) * __strides_storage()[r]);
@@ -509,15 +502,18 @@ struct layout_stride {
     MDSPAN_INLINE_FUNCTION static constexpr bool is_unique() noexcept { return true; }
 
   private:
+    MDSPAN_INLINE_FUNCTION
     constexpr bool exhaustive_for_nonzero_span_size() const
     {
       return required_span_size() == __get_size(extents(), std::make_index_sequence<extents_type::rank()>());
     }
 
+    MDSPAN_INLINE_FUNCTION
     constexpr bool is_exhaustive_impl(detail::with_rank<0>) const
     {
       return true;
     }
+    MDSPAN_INLINE_FUNCTION
     constexpr bool is_exhaustive_impl(detail::with_rank<1>) const
     {
       if (required_span_size() != static_cast<index_type>(0)) {
@@ -526,6 +522,7 @@ struct layout_stride {
       return stride(0) == 1;
     }
     template <std::size_t N>
+    MDSPAN_INLINE_FUNCTION
     constexpr bool is_exhaustive_impl(detail::with_rank<N>) const
     {
       if (required_span_size() != static_cast<index_type>(0)) {
@@ -627,6 +624,7 @@ struct layout_stride {
        SliceSpecifiers... slices) const;
 
    template<class... SliceSpecifiers>
+    MDSPAN_INLINE_FUNCTION
      friend constexpr auto submdspan_mapping(
        const mapping& src, SliceSpecifiers... slices) {
       return src.submdspan_mapping_impl(slices...);
@@ -637,10 +635,12 @@ struct layout_stride {
 namespace detail {
 
 template <class Layout, class Extents, class Mapping>
+MDSPAN_INLINE_FUNCTION
 constexpr void validate_strides(with_rank<0>, Layout, const Extents&, const Mapping&)
 {}
 
 template <std::size_t N, class Layout, class Extents, class Mapping>
+MDSPAN_INLINE_FUNCTION
 constexpr void validate_strides(with_rank<N>, Layout, const Extents& ext, const Mapping& other)
 {
   static_assert(std::is_same<typename Mapping::layout_type, layout_stride>::value &&

include/experimental/__p0009_bits/utility.hpp

@@ -2,6 +2,8 @@
 
 #include <cstddef>
 #include <type_traits>
+#include <array>
+#include <utility>
 
 namespace MDSPAN_IMPL_STANDARD_NAMESPACE {
 namespace detail {
@@ -64,6 +66,104 @@ constexpr struct
   }
 } stride;
 
+// same as std::integral_constant but with __host__ __device__ annotations on
+// the implicit conversion function and the call operator
+template <class T, T v>
+struct integral_constant {
+  using value_type         = T;
+  using type               = integral_constant<T, v>;
+
+  static constexpr T value = v;
+
+  MDSPAN_INLINE_FUNCTION_DEFAULTED
+  constexpr integral_constant() = default;
+
+  // These interop functions work, because other than the value_type operator
+  // everything of std::integral_constant works on device (defaulted functions)  
+  MDSPAN_FUNCTION
+  constexpr integral_constant(std::integral_constant<T,v>) {};
+
+  MDSPAN_FUNCTION constexpr operator std::integral_constant<T,v>() const noexcept {
+    return std::integral_constant<T,v>{};
+  }
+
+  MDSPAN_FUNCTION constexpr operator value_type() const noexcept {
+    return value;
+  }
+
+  MDSPAN_FUNCTION constexpr value_type operator()() const noexcept {
+    return value;
+  }
+};
+
+// The tuple implementation only comes in play when using capabilities
+// such as submdspan which require C++17 anyway
+#if MDSPAN_HAS_CXX_17
+template<class T, size_t Idx>
+struct tuple_member {
+  using type = T;
+  static constexpr size_t idx = Idx;
+  T val;
+  MDSPAN_FUNCTION constexpr T& get() { return val; }
+  MDSPAN_FUNCTION constexpr const T& get() const { return val; }
+};
+
+// A helper class which will be used via a fold expression to
+// select the type with the correct Idx in a pack of tuple_member
+template<size_t SearchIdx, size_t Idx, class T>
+struct tuple_idx_matcher {
+  using type = tuple_member<T, Idx>;
+  template<class Other>
+  MDSPAN_FUNCTION
+  constexpr auto operator | (Other v) const {
+    if constexpr (Idx == SearchIdx) { return *this; }
+    else { return v; }
+  }
+};
+
+template<class IdxSeq, class ... Elements>
+struct tuple_impl;
+
+template<size_t ... Idx, class ... Elements>
+struct tuple_impl<std::index_sequence<Idx...>, Elements...>: public tuple_member<Elements, Idx> ... {
+
+  MDSPAN_FUNCTION
+  constexpr tuple_impl(Elements ... vals):tuple_member<Elements, Idx>{vals}... {}
+
+  template<size_t N>
+  MDSPAN_FUNCTION
+  constexpr auto& get() {
+    using base_t = decltype((tuple_idx_matcher<N, Idx, Elements>() | ...) );
+    return base_t::type::get();
+  }
+  template<size_t N>
+  MDSPAN_FUNCTION
+  constexpr const auto& get() const {
+    using base_t = decltype((tuple_idx_matcher<N, Idx, Elements>() | ...) );
+    return base_t::type::get();
+  }
+};
+
+// A simple tuple-like class for representing slices internally and is compatible with device code
+// This doesn't support type access since we don't need it
+// This is not meant as an external API
+template<class ... Elements>
+struct tuple: public tuple_impl<decltype(std::make_index_sequence<sizeof...(Elements)>()), Elements...> {
+  MDSPAN_FUNCTION
+  constexpr tuple(Elements ... vals):tuple_impl<decltype(std::make_index_sequence<sizeof...(Elements)>()), Elements ...>(vals ...) {}
+};
+
+template<size_t Idx, class ... Args>
+MDSPAN_FUNCTION
+constexpr auto& get(tuple<Args...>& vals) { return vals.template get<Idx>(); }
+
+template<size_t Idx, class ... Args>
+MDSPAN_FUNCTION
+constexpr const auto& get(const tuple<Args...>& vals) { return vals.template get<Idx>(); }
+
+template<class ... Elements>
+tuple(Elements ...) -> tuple<Elements...>;
+#endif
 } // namespace detail
 
 constexpr struct mdspan_non_standard_tag {