src/tint/utils/rtti/switch.h - tint - Git at Google

 // Copyright 2023 The Dawn & Tint Authors
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are met:
 //
 // 1. Redistributions of source code must retain the above copyright notice, this
 //    list of conditions and the following disclaimer.
 //
 // 2. Redistributions in binary form must reproduce the above copyright notice,
 //    this list of conditions and the following disclaimer in the documentation
 //    and/or other materials provided with the distribution.
 //
 // 3. Neither the name of the copyright holder nor the names of its
 //    contributors may be used to endorse or promote products derived from
 //    this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
 // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #ifndef SRC_TINT_UTILS_RTTI_SWITCH_H_
 #define SRC_TINT_UTILS_RTTI_SWITCH_H_

 #include <tuple>
 #include <utility>

 #include "src/tint/utils/macros/defer.h"
 #include "src/tint/utils/memory/aligned_storage.h"
 #include "src/tint/utils/rtti/castable.h"
 #include "src/tint/utils/rtti/ignore.h"

 namespace tint {

 /// Default can be used as the default case for a Switch(), when all previous cases failed to match.
 ///
 /// Example:
 /// ```
 /// Switch(object,
 ///     [&](TypeA*) { /* ... */ },
 ///     [&](TypeB*) { /* ... */ },
 ///     [&](Default) { /* If not TypeA or TypeB */ });
 /// ```
 struct Default {};

 /// SwitchMustMatchCase is a flag that can be passed as the last argument to Switch() which will
 /// trigger an ICE if none of the cases matched. Cannot be used with Default.
 /// See TINT_ICE_ON_NO_MATCH
 struct SwitchMustMatchCase {
     /// The source file that holds the TINT_ICE_ON_NO_MATCH
     const char* file = "<unknown>";
     /// The source line that holds the TINT_ICE_ON_NO_MATCH
     unsigned int line = 0;
 };

 /// SwitchMustMatchCase is a flag that can be passed as the last argument to Switch() which will
 /// trigger an ICE if none of the cases matched. Cannot be used with Default.
 ///
 /// Example:
 /// ```
 /// Switch(object,
 ///     [&](TypeA*) { /* ... */ },
 ///     [&](TypeB*) { /* ... */ },
 ///     TINT_ICE_ON_NO_MATCH);
 /// ```
 #define TINT_ICE_ON_NO_MATCH      \
     ::tint::SwitchMustMatchCase { \
         __FILE__, __LINE__        \
     }

 }  // namespace tint

 namespace tint::detail {

 /// Evaluates to the Switch case type being matched by the switch case function `FN`.
 /// @note does not handle the Default case
 /// @see Switch().
 template <typename FN>
 using SwitchCaseType =
     std::remove_pointer_t<tint::traits::ParameterType<std::remove_reference_t<FN>, 0>>;

 /// Searches the list of Switch cases for a Default case, returning the index of the Default case.
 /// If the a Default case is not found in the tuple, then -1 is returned.
 template <typename TUPLE, std::size_t START_IDX = 0>
 constexpr int IndexOfDefaultCase() {
     if constexpr (START_IDX < std::tuple_size_v<TUPLE>) {
         using T = std::decay_t<std::tuple_element_t<START_IDX, TUPLE>>;
         if constexpr (std::is_same_v<T, SwitchMustMatchCase>) {
             return -1;
         } else if constexpr (std::is_same_v<tint::traits::ParameterType<T, 0>, Default>) {
             return static_cast<int>(START_IDX);
         } else {
             return IndexOfDefaultCase<TUPLE, START_IDX + 1>();
         }
     } else {
         return -1;
     }
 }

 /// Searches the list of Switch cases for a SwitchMustMatchCase flag, returning the index of the
 /// SwitchMustMatchCase case. If the a SwitchMustMatchCase case is not found in the tuple, then -1
 /// is returned.
 template <typename TUPLE, std::size_t START_IDX = 0>
 constexpr int IndexOfSwitchMustMatchCase() {
     if constexpr (START_IDX < std::tuple_size_v<TUPLE>) {
         using T = std::decay_t<std::tuple_element_t<START_IDX, TUPLE>>;
         return std::is_same_v<T, SwitchMustMatchCase>
                    ? static_cast<int>(START_IDX)
                    : IndexOfSwitchMustMatchCase<TUPLE, START_IDX + 1>();
     } else {
         return -1;
     }
 }
 /// Resolves to T if T is not nullptr_t, otherwise resolves to Ignore.
 template <typename T>
 using NullptrToIgnore = std::conditional_t<std::is_same_v<T, std::nullptr_t>, ::tint::Ignore, T>;

 /// Resolves to `const TYPE` if any of `CASE_RETURN_TYPES` are const or pointer-to-const, otherwise
 /// resolves to TYPE.
 template <typename TYPE, typename... CASE_RETURN_TYPES>
 using PropagateReturnConst = std::conditional_t<
     // Are any of the pointer-stripped types const?
     (std::is_const_v<std::remove_pointer_t<CASE_RETURN_TYPES>> || ...),
     const TYPE,  // Yes: Apply const to TYPE
     TYPE>;       // No:  Passthrough

 /// SwitchReturnTypeImpl is the implementation of SwitchReturnType
 template <bool IS_CASTABLE, typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
 struct SwitchReturnTypeImpl;

 /// SwitchReturnTypeImpl specialization for non-castable case types and an explicitly specified
 /// return type.
 template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
 struct SwitchReturnTypeImpl</*IS_CASTABLE*/ false, REQUESTED_TYPE, CASE_RETURN_TYPES...> {
     /// Resolves to `REQUESTED_TYPE`
     using type = REQUESTED_TYPE;
 };

 /// SwitchReturnTypeImpl specialization for non-castable case types and an inferred return type.
 template <typename... CASE_RETURN_TYPES>
 struct SwitchReturnTypeImpl</*IS_CASTABLE*/ false, ::tint::detail::Infer, CASE_RETURN_TYPES...> {
     /// Resolves to the common type for all the cases return types.
     using type = std::common_type_t<CASE_RETURN_TYPES...>;
 };

 /// SwitchReturnTypeImpl specialization for castable case types and an explicitly specified return
 /// type.
 template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
 struct SwitchReturnTypeImpl</*IS_CASTABLE*/ true, REQUESTED_TYPE, CASE_RETURN_TYPES...> {
   public:
     /// Resolves to `const REQUESTED_TYPE*` or `REQUESTED_TYPE*`
     using type = PropagateReturnConst<std::remove_pointer_t<REQUESTED_TYPE>, CASE_RETURN_TYPES...>*;
 };

 /// SwitchReturnTypeImpl specialization for castable case types and an inferred return type.
 template <typename... CASE_RETURN_TYPES>
 struct SwitchReturnTypeImpl</*IS_CASTABLE*/ true, ::tint::detail::Infer, CASE_RETURN_TYPES...> {
   private:
     using InferredType =
         CastableCommonBase<NullptrToIgnore<std::remove_pointer_t<CASE_RETURN_TYPES>>...>;

   public:
     /// `const T*` or `T*`, where T is the common base type for all the castable case types.
     using type = PropagateReturnConst<InferredType, CASE_RETURN_TYPES...>*;
 };

 /// Resolves to the return type for a Switch() with the requested return type `REQUESTED_TYPE` and
 /// case statement return types. If `REQUESTED_TYPE` is Infer then the return type will be inferred
 /// from the case return types.
 template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
 using SwitchReturnType = typename SwitchReturnTypeImpl<
     ::tint::IsCastable<NullptrToIgnore<std::remove_pointer_t<CASE_RETURN_TYPES>>...>,
     REQUESTED_TYPE,
     CASE_RETURN_TYPES...>::type;

 /// SwitchCaseReturnTypeImpl is the implementation of SwitchCaseReturnType
 template <typename CASE, bool is_flag>
 struct SwitchCaseReturnTypeImpl;

 /// SwitchCaseReturnTypeImpl specialization for non-flags.
 template <typename CASE>
 struct SwitchCaseReturnTypeImpl<CASE, /* is_flag */ false> {
     /// The case function's return type.
     using type = ::tint::traits::ReturnType<CASE>;
 };

 /// SwitchCaseReturnTypeImpl specialization for flags.
 template <typename CASE>
 struct SwitchCaseReturnTypeImpl<CASE, /* is_flag */ true> {
     /// These are not functions, they have no return type.
     using type = ::tint::Ignore;
 };

 /// Resolves to the return type for a Switch() case.
 /// If CASE is a flag like SwitchMustMatchCase, then resolves to ::tint::Ignore
 template <typename CASE>
 using SwitchCaseReturnType = typename SwitchCaseReturnTypeImpl<
     CASE,
     std::is_same_v<std::decay_t<CASE>, SwitchMustMatchCase>>::type;

 /// Raises an ICE error that a Switch() was passed a nullptr object and there was no default case
 [[noreturn]] void ICENoSwitchPassedNullptr(const char* file, unsigned int line);

 /// Raises an ICE error that a Switch() with a TINT_ICE_ON_NO_MATCH matched no cases.
 /// @param file the file holding the Switch()
 /// @param line the line of the TINT_ICE_ON_NO_MATCH
 /// @type_name the type name of the object passed to Switch()
 [[noreturn]] void ICENoSwitchCasesMatched(const char* file,
                                           unsigned int line,
                                           const char* type_name);

 }  // namespace tint::detail

 namespace tint {

 /// Switch is used to dispatch one of the provided callback case handler functions based on the type
 /// of `object` and the parameter type of the case handlers. Switch will sequentially check the type
 /// of `object` against each of the switch case handler functions, and will invoke the first case
 /// handler function which has a parameter type that matches the object type. When a case handler is
 /// matched, it will be called with the single argument of `object` cast to the case handler's
 /// parameter type. Switch will invoke at most one case handler. Each of the case functions must
 /// have the signature `R(T*)` or `R(const T*)`, where `T` is the type matched by that case and `R`
 /// is the return type, consistent across all case handlers.
 ///
 /// An optional default case function with the signature `R(Default)` can be used as the last case.
 /// This default case will be called if all previous cases failed to match.
 ///
 /// The last argument may be SwitchMustMatchCase, in which case the Switch will trigger an ICE if
 /// none of the cases matched. SwitchMustMatchCase cannot be used with a default case.
 ///
 /// If `object` is nullptr and a default case is provided, then the default case will be called. If
 /// `object` is nullptr and no default case is provided, then no cases will be called.
 ///
 /// Example:
 /// ```
 /// Switch(object,
 ///     [&](TypeA*) { /* ... */ },
 ///     [&](TypeB*) { /* ... */ });
 ///
 /// Switch(object,
 ///     [&](TypeA*) { /* ... */ },
 ///     [&](TypeB*) { /* ... */ },
 ///     [&](Default) { /* Called if object is not TypeA or TypeB */ });
 ///
 /// Switch(object,
 ///     [&](TypeA*) { /* ... */ },
 ///     [&](TypeB*) { /* ... */ },
 ///     SwitchMustMatchCase); /* ICE if object is not TypeA or TypeB */
 /// ```
 ///
 /// @param object the object who's type is used to
 /// @param args the switch cases followed by an optional TINT_ICE_ON_NO_MATCH
 /// @return the value returned by the called case. If no cases matched, then the zero value for the
 /// consistent case type.
 template <typename RETURN_TYPE = ::tint::detail::Infer, typename T = CastableBase, typename... ARGS>
 inline auto Switch(T* object, ARGS&&... args) {
     TINT_BEGIN_DISABLE_WARNING(UNUSED_VALUE);

     using ArgsTuple = std::tuple<ARGS...>;
     static constexpr int kMustMatchCaseIndex =
         ::tint::detail::IndexOfSwitchMustMatchCase<ArgsTuple>();
     static constexpr bool kHasMustMatchCase = kMustMatchCaseIndex >= 0;
     static constexpr int kDefaultIndex = ::tint::detail::IndexOfDefaultCase<ArgsTuple>();
     static constexpr bool kHasDefaultCase = kDefaultIndex >= 0;
     using ReturnType =
         ::tint::detail::SwitchReturnType<RETURN_TYPE,
                                          ::tint::detail::SwitchCaseReturnType<ARGS>...>;
     static constexpr bool kHasReturnType = !std::is_same_v<ReturnType, void>;

     // Static assertions
     static constexpr bool kDefaultIsOK =
         kDefaultIndex == -1 || kDefaultIndex == static_cast<int>(sizeof...(ARGS) - 1);
     static constexpr bool kMustMatchCaseIsOK =
         kMustMatchCaseIndex == -1 || kMustMatchCaseIndex == static_cast<int>(sizeof...(ARGS) - 1);
     static constexpr bool kReturnIsOK =
         kHasDefaultCase || !kHasReturnType || std::is_constructible_v<ReturnType>;
     static_assert(kDefaultIsOK, "Default case must be last in Switch()");
     static_assert(kMustMatchCaseIsOK, "SwitchMustMatchCase must be last argument in Switch()");
     static_assert(!kHasDefaultCase || !kHasMustMatchCase,
                   "SwitchMustMatchCase cannot be used with a Default case");
     static_assert(kReturnIsOK,
                   "Switch() requires either a Default case or a return type that is either void or "
                   "default-constructable");

     if (!object) {  // Object is nullptr, so no cases can match
         if constexpr (kHasMustMatchCase) {
             const SwitchMustMatchCase& info = (args, ...);
             ::tint::detail::ICENoSwitchPassedNullptr(info.file, info.line);
             if constexpr (kHasReturnType) {
                 return ReturnType{};
             } else {
                 return;
             }
         } else if constexpr (kHasDefaultCase) {
             // Evaluate default case.
             const auto& default_case = (args, ...);
             return static_cast<ReturnType>(default_case(Default{}));
         } else {
             // No default case, no case can match.
             if constexpr (kHasReturnType) {
                 return ReturnType{};
             } else {
                 return;
             }
         }
     }

     AlignedStorage<std::conditional_t<kHasReturnType, ReturnType, uint8_t>> return_storage;
     auto* result = &return_storage.Get();

     const ::tint::TypeInfo& type_info = object->TypeInfo();

     // Examines the parameter type of the case function.
     // If the parameter is a pointer type that `object` is of, or derives from, then that case
     // function is called with `object` cast to that type, and `try_case` returns true.
     // If the parameter is of type `Default`, then that case function is called and `try_case`
     // returns true.
     // Otherwise `try_case` returns false.
     // If the case function is called and it returns a value, then this is copy constructed to the
     // `result` pointer.
     auto try_case = [&](auto&& case_fn) {
         using CaseFunc = std::decay_t<decltype(case_fn)>;
         bool success = false;
         if constexpr (std::is_same_v<CaseFunc, SwitchMustMatchCase>) {
             ::tint::detail::ICENoSwitchCasesMatched(case_fn.file, case_fn.line, type_info.name);
         } else {
             using CaseType = ::tint::detail::SwitchCaseType<CaseFunc>;
             if constexpr (std::is_same_v<CaseType, Default>) {
                 if constexpr (kHasReturnType) {
                     new (result) ReturnType(static_cast<ReturnType>(case_fn(Default{})));
                 } else {
                     case_fn(Default{});
                 }
                 success = true;
             } else {
                 if (type_info.Is<CaseType>()) {
                     auto* v = static_cast<CaseType*>(object);
                     if constexpr (kHasReturnType) {
                         new (result) ReturnType(static_cast<ReturnType>(case_fn(v)));
                     } else {
                         case_fn(v);
                     }
                     success = true;
                 }
             }
         }
         return success;
     };

     // Use a logical-or fold expression to try each of the cases in turn, until one matches the
     // object type or a Default is reached. `handled` is true if a case function was called.
     bool handled = ((try_case(std::forward<ARGS>(args)) || ...));

     if constexpr (kHasReturnType) {
         if constexpr (kHasDefaultCase) {
             // Default case means there must be a returned value.
             // No need to check handled, no requirement for a zero-initializer of ReturnType.
             TINT_DEFER(result->~ReturnType());
             return *result;
         } else {
             if (handled) {
                 TINT_DEFER(result->~ReturnType());
                 return *result;
             }
             return ReturnType{};
         }
     }

     TINT_END_DISABLE_WARNING(UNUSED_VALUE);
 }

 }  // namespace tint

 #endif  // SRC_TINT_UTILS_RTTI_SWITCH_H_
	// Copyright 2023 The Dawn & Tint Authors
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are met:
	//
	// 1. Redistributions of source code must retain the above copyright notice, this
	// list of conditions and the following disclaimer.
	//
	// 2. Redistributions in binary form must reproduce the above copyright notice,
	// this list of conditions and the following disclaimer in the documentation
	// and/or other materials provided with the distribution.
	//
	// 3. Neither the name of the copyright holder nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
	// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#ifndef SRC_TINT_UTILS_RTTI_SWITCH_H_
	#define SRC_TINT_UTILS_RTTI_SWITCH_H_

	#include <tuple>
	#include <utility>

	#include "src/tint/utils/macros/defer.h"
	#include "src/tint/utils/memory/aligned_storage.h"
	#include "src/tint/utils/rtti/castable.h"
	#include "src/tint/utils/rtti/ignore.h"

	namespace tint {

	/// Default can be used as the default case for a Switch(), when all previous cases failed to match.
	///
	/// Example:
	/// ```
	/// Switch(object,
	/// [&](TypeA) { / ... */ },
	/// [&](TypeB) { / ... */ },
	/// [&](Default) { /* If not TypeA or TypeB */ });
	/// ```
	struct Default {};

	/// SwitchMustMatchCase is a flag that can be passed as the last argument to Switch() which will
	/// trigger an ICE if none of the cases matched. Cannot be used with Default.
	/// See TINT_ICE_ON_NO_MATCH
	struct SwitchMustMatchCase {
	/// The source file that holds the TINT_ICE_ON_NO_MATCH
	const char* file = "<unknown>";
	/// The source line that holds the TINT_ICE_ON_NO_MATCH
	unsigned int line = 0;
	};

	/// SwitchMustMatchCase is a flag that can be passed as the last argument to Switch() which will
	/// trigger an ICE if none of the cases matched. Cannot be used with Default.
	///
	/// Example:
	/// ```
	/// Switch(object,
	/// [&](TypeA) { / ... */ },
	/// [&](TypeB) { / ... */ },
	/// TINT_ICE_ON_NO_MATCH);
	/// ```
	#define TINT_ICE_ON_NO_MATCH \
	::tint::SwitchMustMatchCase { \
	__FILE__, __LINE__ \
	}

	} // namespace tint

	namespace tint::detail {

	/// Evaluates to the Switch case type being matched by the switch case function `FN`.
	/// @note does not handle the Default case
	/// @see Switch().
	template <typename FN>
	using SwitchCaseType =
	std::remove_pointer_t<tint::traits::ParameterType<std::remove_reference_t<FN>, 0>>;

	/// Searches the list of Switch cases for a Default case, returning the index of the Default case.
	/// If the a Default case is not found in the tuple, then -1 is returned.
	template <typename TUPLE, std::size_t START_IDX = 0>
	constexpr int IndexOfDefaultCase() {
	if constexpr (START_IDX < std::tuple_size_v<TUPLE>) {
	using T = std::decay_t<std::tuple_element_t<START_IDX, TUPLE>>;
	if constexpr (std::is_same_v<T, SwitchMustMatchCase>) {
	return -1;
	} else if constexpr (std::is_same_v<tint::traits::ParameterType<T, 0>, Default>) {
	return static_cast<int>(START_IDX);
	} else {
	return IndexOfDefaultCase<TUPLE, START_IDX + 1>();
	}
	} else {
	return -1;
	}
	}

	/// Searches the list of Switch cases for a SwitchMustMatchCase flag, returning the index of the
	/// SwitchMustMatchCase case. If the a SwitchMustMatchCase case is not found in the tuple, then -1
	/// is returned.
	template <typename TUPLE, std::size_t START_IDX = 0>
	constexpr int IndexOfSwitchMustMatchCase() {
	if constexpr (START_IDX < std::tuple_size_v<TUPLE>) {
	using T = std::decay_t<std::tuple_element_t<START_IDX, TUPLE>>;
	return std::is_same_v<T, SwitchMustMatchCase>
	? static_cast<int>(START_IDX)
	: IndexOfSwitchMustMatchCase<TUPLE, START_IDX + 1>();
	} else {
	return -1;
	}
	}
	/// Resolves to T if T is not nullptr_t, otherwise resolves to Ignore.
	template <typename T>
	using NullptrToIgnore = std::conditional_t<std::is_same_v<T, std::nullptr_t>, ::tint::Ignore, T>;

	/// Resolves to `const TYPE` if any of `CASE_RETURN_TYPES` are const or pointer-to-const, otherwise
	/// resolves to TYPE.
	template <typename TYPE, typename... CASE_RETURN_TYPES>
	using PropagateReturnConst = std::conditional_t<
	// Are any of the pointer-stripped types const?
	(std::is_const_v<std::remove_pointer_t<CASE_RETURN_TYPES>> \|\| ...),
	const TYPE, // Yes: Apply const to TYPE
	TYPE>; // No: Passthrough

	/// SwitchReturnTypeImpl is the implementation of SwitchReturnType
	template <bool IS_CASTABLE, typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
	struct SwitchReturnTypeImpl;

	/// SwitchReturnTypeImpl specialization for non-castable case types and an explicitly specified
	/// return type.
	template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
	struct SwitchReturnTypeImpl</IS_CASTABLE/ false, REQUESTED_TYPE, CASE_RETURN_TYPES...> {
	/// Resolves to `REQUESTED_TYPE`
	using type = REQUESTED_TYPE;
	};

	/// SwitchReturnTypeImpl specialization for non-castable case types and an inferred return type.
	template <typename... CASE_RETURN_TYPES>
	struct SwitchReturnTypeImpl</IS_CASTABLE/ false, ::tint::detail::Infer, CASE_RETURN_TYPES...> {
	/// Resolves to the common type for all the cases return types.
	using type = std::common_type_t<CASE_RETURN_TYPES...>;
	};

	/// SwitchReturnTypeImpl specialization for castable case types and an explicitly specified return
	/// type.
	template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
	struct SwitchReturnTypeImpl</IS_CASTABLE/ true, REQUESTED_TYPE, CASE_RETURN_TYPES...> {
	public:
	/// Resolves to `const REQUESTED_TYPE` or `REQUESTED_TYPE`
	using type = PropagateReturnConst<std::remove_pointer_t<REQUESTED_TYPE>, CASE_RETURN_TYPES...>*;
	};

	/// SwitchReturnTypeImpl specialization for castable case types and an inferred return type.
	template <typename... CASE_RETURN_TYPES>
	struct SwitchReturnTypeImpl</IS_CASTABLE/ true, ::tint::detail::Infer, CASE_RETURN_TYPES...> {
	private:
	using InferredType =
	CastableCommonBase<NullptrToIgnore<std::remove_pointer_t<CASE_RETURN_TYPES>>...>;

	public:
	/// `const T` or `T`, where T is the common base type for all the castable case types.
	using type = PropagateReturnConst<InferredType, CASE_RETURN_TYPES...>*;
	};

	/// Resolves to the return type for a Switch() with the requested return type `REQUESTED_TYPE` and
	/// case statement return types. If `REQUESTED_TYPE` is Infer then the return type will be inferred
	/// from the case return types.
	template <typename REQUESTED_TYPE, typename... CASE_RETURN_TYPES>
	using SwitchReturnType = typename SwitchReturnTypeImpl<
	::tint::IsCastable<NullptrToIgnore<std::remove_pointer_t<CASE_RETURN_TYPES>>...>,
	REQUESTED_TYPE,
	CASE_RETURN_TYPES...>::type;

	/// SwitchCaseReturnTypeImpl is the implementation of SwitchCaseReturnType
	template <typename CASE, bool is_flag>
	struct SwitchCaseReturnTypeImpl;

	/// SwitchCaseReturnTypeImpl specialization for non-flags.
	template <typename CASE>
	struct SwitchCaseReturnTypeImpl<CASE, /* is_flag */ false> {
	/// The case function's return type.
	using type = ::tint::traits::ReturnType<CASE>;
	};

	/// SwitchCaseReturnTypeImpl specialization for flags.
	template <typename CASE>
	struct SwitchCaseReturnTypeImpl<CASE, /* is_flag */ true> {
	/// These are not functions, they have no return type.
	using type = ::tint::Ignore;
	};

	/// Resolves to the return type for a Switch() case.
	/// If CASE is a flag like SwitchMustMatchCase, then resolves to ::tint::Ignore
	template <typename CASE>
	using SwitchCaseReturnType = typename SwitchCaseReturnTypeImpl<
	CASE,
	std::is_same_v<std::decay_t<CASE>, SwitchMustMatchCase>>::type;

	/// Raises an ICE error that a Switch() was passed a nullptr object and there was no default case
	[[noreturn]] void ICENoSwitchPassedNullptr(const char* file, unsigned int line);

	/// Raises an ICE error that a Switch() with a TINT_ICE_ON_NO_MATCH matched no cases.
	/// @param file the file holding the Switch()
	/// @param line the line of the TINT_ICE_ON_NO_MATCH
	/// @type_name the type name of the object passed to Switch()
	[[noreturn]] void ICENoSwitchCasesMatched(const char* file,
	unsigned int line,
	const char* type_name);

	} // namespace tint::detail

	namespace tint {

	/// Switch is used to dispatch one of the provided callback case handler functions based on the type
	/// of `object` and the parameter type of the case handlers. Switch will sequentially check the type
	/// of `object` against each of the switch case handler functions, and will invoke the first case
	/// handler function which has a parameter type that matches the object type. When a case handler is
	/// matched, it will be called with the single argument of `object` cast to the case handler's
	/// parameter type. Switch will invoke at most one case handler. Each of the case functions must
	/// have the signature `R(T)` or `R(const T)`, where `T` is the type matched by that case and `R`
	/// is the return type, consistent across all case handlers.
	///
	/// An optional default case function with the signature `R(Default)` can be used as the last case.
	/// This default case will be called if all previous cases failed to match.
	///
	/// The last argument may be SwitchMustMatchCase, in which case the Switch will trigger an ICE if
	/// none of the cases matched. SwitchMustMatchCase cannot be used with a default case.
	///
	/// If `object` is nullptr and a default case is provided, then the default case will be called. If
	/// `object` is nullptr and no default case is provided, then no cases will be called.
	///
	/// Example:
	/// ```
	/// Switch(object,
	/// [&](TypeA) { / ... */ },
	/// [&](TypeB) { / ... */ });
	///
	/// Switch(object,
	/// [&](TypeA) { / ... */ },
	/// [&](TypeB) { / ... */ },
	/// [&](Default) { /* Called if object is not TypeA or TypeB */ });
	///
	/// Switch(object,
	/// [&](TypeA) { / ... */ },
	/// [&](TypeB) { / ... */ },
	/// SwitchMustMatchCase); /* ICE if object is not TypeA or TypeB */
	/// ```
	///
	/// @param object the object who's type is used to
	/// @param args the switch cases followed by an optional TINT_ICE_ON_NO_MATCH
	/// @return the value returned by the called case. If no cases matched, then the zero value for the
	/// consistent case type.
	template <typename RETURN_TYPE = ::tint::detail::Infer, typename T = CastableBase, typename... ARGS>
	inline auto Switch(T* object, ARGS&&... args) {
	TINT_BEGIN_DISABLE_WARNING(UNUSED_VALUE);

	using ArgsTuple = std::tuple<ARGS...>;
	static constexpr int kMustMatchCaseIndex =
	::tint::detail::IndexOfSwitchMustMatchCase<ArgsTuple>();
	static constexpr bool kHasMustMatchCase = kMustMatchCaseIndex >= 0;
	static constexpr int kDefaultIndex = ::tint::detail::IndexOfDefaultCase<ArgsTuple>();
	static constexpr bool kHasDefaultCase = kDefaultIndex >= 0;
	using ReturnType =
	::tint::detail::SwitchReturnType<RETURN_TYPE,
	::tint::detail::SwitchCaseReturnType<ARGS>...>;
	static constexpr bool kHasReturnType = !std::is_same_v<ReturnType, void>;

	// Static assertions
	static constexpr bool kDefaultIsOK =
	kDefaultIndex == -1 \|\| kDefaultIndex == static_cast<int>(sizeof...(ARGS) - 1);
	static constexpr bool kMustMatchCaseIsOK =
	kMustMatchCaseIndex == -1 \|\| kMustMatchCaseIndex == static_cast<int>(sizeof...(ARGS) - 1);
	static constexpr bool kReturnIsOK =
	kHasDefaultCase \|\| !kHasReturnType \|\| std::is_constructible_v<ReturnType>;
	static_assert(kDefaultIsOK, "Default case must be last in Switch()");
	static_assert(kMustMatchCaseIsOK, "SwitchMustMatchCase must be last argument in Switch()");
	static_assert(!kHasDefaultCase \|\| !kHasMustMatchCase,
	"SwitchMustMatchCase cannot be used with a Default case");
	static_assert(kReturnIsOK,
	"Switch() requires either a Default case or a return type that is either void or "
	"default-constructable");

	if (!object) { // Object is nullptr, so no cases can match
	if constexpr (kHasMustMatchCase) {
	const SwitchMustMatchCase& info = (args, ...);
	::tint::detail::ICENoSwitchPassedNullptr(info.file, info.line);
	if constexpr (kHasReturnType) {
	return ReturnType{};
	} else {
	return;
	}
	} else if constexpr (kHasDefaultCase) {
	// Evaluate default case.
	const auto& default_case = (args, ...);
	return static_cast<ReturnType>(default_case(Default{}));
	} else {
	// No default case, no case can match.
	if constexpr (kHasReturnType) {
	return ReturnType{};
	} else {
	return;
	}
	}
	}

	AlignedStorage<std::conditional_t<kHasReturnType, ReturnType, uint8_t>> return_storage;
	auto* result = &return_storage.Get();

	const ::tint::TypeInfo& type_info = object->TypeInfo();

	// Examines the parameter type of the case function.
	// If the parameter is a pointer type that `object` is of, or derives from, then that case
	// function is called with `object` cast to that type, and `try_case` returns true.
	// If the parameter is of type `Default`, then that case function is called and `try_case`
	// returns true.
	// Otherwise `try_case` returns false.
	// If the case function is called and it returns a value, then this is copy constructed to the
	// `result` pointer.
	auto try_case = [&](auto&& case_fn) {
	using CaseFunc = std::decay_t<decltype(case_fn)>;
	bool success = false;
	if constexpr (std::is_same_v<CaseFunc, SwitchMustMatchCase>) {
	::tint::detail::ICENoSwitchCasesMatched(case_fn.file, case_fn.line, type_info.name);
	} else {
	using CaseType = ::tint::detail::SwitchCaseType<CaseFunc>;
	if constexpr (std::is_same_v<CaseType, Default>) {
	if constexpr (kHasReturnType) {
	new (result) ReturnType(static_cast<ReturnType>(case_fn(Default{})));
	} else {
	case_fn(Default{});
	}
	success = true;
	} else {
	if (type_info.Is<CaseType>()) {
	auto* v = static_cast<CaseType*>(object);
	if constexpr (kHasReturnType) {
	new (result) ReturnType(static_cast<ReturnType>(case_fn(v)));
	} else {
	case_fn(v);
	}
	success = true;
	}
	}
	}
	return success;
	};

	// Use a logical-or fold expression to try each of the cases in turn, until one matches the
	// object type or a Default is reached. `handled` is true if a case function was called.
	bool handled = ((try_case(std::forward<ARGS>(args)) \|\| ...));

	if constexpr (kHasReturnType) {
	if constexpr (kHasDefaultCase) {
	// Default case means there must be a returned value.
	// No need to check handled, no requirement for a zero-initializer of ReturnType.
	TINT_DEFER(result->~ReturnType());
	return *result;
	} else {
	if (handled) {
	TINT_DEFER(result->~ReturnType());
	return *result;
	}
	return ReturnType{};
	}
	}

	TINT_END_DISABLE_WARNING(UNUSED_VALUE);
	}

	} // namespace tint

	#endif // SRC_TINT_UTILS_RTTI_SWITCH_H_