clang/test/SemaTemplate/temp-param-subst-linear.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -std=c++17 %s -verify
 // expected-no-diagnostics

 // This test attempts to ensure that the below template parameter pack
 // splitting technique executes in linear time in the number of template
 // parameters. The size of the list below is selected so as to execute
 // relatively quickly on a "good" compiler and to time out otherwise.

 template<typename...> struct TypeList;

 namespace detail {
 template<unsigned> using Unsigned = unsigned;
 template<typename T, T ...N> using ListOfNUnsignedsImpl = TypeList<Unsigned<N>...>;
 template<unsigned N> using ListOfNUnsigneds =
   __make_integer_seq<ListOfNUnsignedsImpl, unsigned, N>;

 template<typename T> struct TypeWrapper {
   template<unsigned> using AsTemplate = T;
 };

 template<typename ...N> struct Splitter {
   template<template<N> class ...L,
            template<unsigned> class ...R> struct Split {
     using Left = TypeList<L<0>...>;
     using Right = TypeList<R<0>...>;
   };
 };
 }

 template<typename TypeList, unsigned N, typename = detail::ListOfNUnsigneds<N>>
 struct SplitAtIndex;

 template<typename ...T, unsigned N, typename ...NUnsigneds>
 struct SplitAtIndex<TypeList<T...>, N, TypeList<NUnsigneds...>> :
   detail::Splitter<NUnsigneds...>::
     template Split<detail::TypeWrapper<T>::template AsTemplate...> {};

 template<typename T, int N> struct Rep : Rep<typename Rep<T, N-1>::type, 1> {};
 template<typename ...T> struct Rep<TypeList<T...>, 1> { typedef TypeList<T..., T...> type; };

 using Ints = Rep<TypeList<int>, 14>::type;

 template<typename T> extern int Size;
 template<typename ...T> constexpr int Size<TypeList<T...>> = sizeof...(T);

 using Left = SplitAtIndex<Ints, Size<Ints> / 2>::Left;
 using Right = SplitAtIndex<Ints, Size<Ints> / 2>::Right;
 static_assert(Size<Left> == 8192);
 static_assert(Size<Right> == 8192);

 template<typename L, typename R> struct Concat;
 template<typename ...L, typename ...R> struct Concat<TypeList<L...>, TypeList<R...>> {
   using type = TypeList<L..., R...>;
 };

 using Ints = Concat<Left, Right>::type;
	// RUN: %clang_cc1 -std=c++17 %s -verify
	// expected-no-diagnostics

	// This test attempts to ensure that the below template parameter pack
	// splitting technique executes in linear time in the number of template
	// parameters. The size of the list below is selected so as to execute
	// relatively quickly on a "good" compiler and to time out otherwise.

	template<typename...> struct TypeList;

	namespace detail {
	template<unsigned> using Unsigned = unsigned;
	template<typename T, T ...N> using ListOfNUnsignedsImpl = TypeList<Unsigned<N>...>;
	template<unsigned N> using ListOfNUnsigneds =
	__make_integer_seq<ListOfNUnsignedsImpl, unsigned, N>;

	template<typename T> struct TypeWrapper {
	template<unsigned> using AsTemplate = T;
	};

	template<typename ...N> struct Splitter {
	template<template<N> class ...L,
	template<unsigned> class ...R> struct Split {
	using Left = TypeList<L<0>...>;
	using Right = TypeList<R<0>...>;
	};
	};
	}

	template<typename TypeList, unsigned N, typename = detail::ListOfNUnsigneds<N>>
	struct SplitAtIndex;

	template<typename ...T, unsigned N, typename ...NUnsigneds>
	struct SplitAtIndex<TypeList<T...>, N, TypeList<NUnsigneds...>> :
	detail::Splitter<NUnsigneds...>::
	template Split<detail::TypeWrapper<T>::template AsTemplate...> {};

	template<typename T, int N> struct Rep : Rep<typename Rep<T, N-1>::type, 1> {};
	template<typename ...T> struct Rep<TypeList<T...>, 1> { typedef TypeList<T..., T...> type; };

	using Ints = Rep<TypeList<int>, 14>::type;

	template<typename T> extern int Size;
	template<typename ...T> constexpr int Size<TypeList<T...>> = sizeof...(T);

	using Left = SplitAtIndex<Ints, Size<Ints> / 2>::Left;
	using Right = SplitAtIndex<Ints, Size<Ints> / 2>::Right;
	static_assert(Size<Left> == 8192);
	static_assert(Size<Right> == 8192);

	template<typename L, typename R> struct Concat;
	template<typename ...L, typename ...R> struct Concat<TypeList<L...>, TypeList<R...>> {
	using type = TypeList<L..., R...>;
	};

	using Ints = Concat<Left, Right>::type;