include/llvm/ADT/TypeSwitch.h - llvm-project/llvm - Git at Google

 //===- TypeSwitch.h - Switch functionality for RTTI casting -*- C++ -*-----===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file implements the TypeSwitch template, which mimics a switch()
 //  statement whose cases are type names.
 //
 //===-----------------------------------------------------------------------===/

 #ifndef LLVM_ADT_TYPESWITCH_H
 #define LLVM_ADT_TYPESWITCH_H

 #include "llvm/ADT/Optional.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/Support/Casting.h"

 namespace llvm {
 namespace detail {

 template <typename DerivedT, typename T> class TypeSwitchBase {
 public:
   TypeSwitchBase(const T &value) : value(value) {}
   TypeSwitchBase(TypeSwitchBase &&other) : value(other.value) {}
   ~TypeSwitchBase() = default;

   /// TypeSwitchBase is not copyable.
   TypeSwitchBase(const TypeSwitchBase &) = delete;
   void operator=(const TypeSwitchBase &) = delete;
   void operator=(TypeSwitchBase &&other) = delete;

   /// Invoke a case on the derived class with multiple case types.
   template <typename CaseT, typename CaseT2, typename... CaseTs,
             typename CallableT>
   DerivedT &Case(CallableT &&caseFn) {
     DerivedT &derived = static_cast<DerivedT &>(*this);
     return derived.template Case<CaseT>(caseFn)
         .template Case<CaseT2, CaseTs...>(caseFn);
   }

   /// Invoke a case on the derived class, inferring the type of the Case from
   /// the first input of the given callable.
   /// Note: This inference rules for this overload are very simple: strip
   ///       pointers and references.
   template <typename CallableT> DerivedT &Case(CallableT &&caseFn) {
     using Traits = function_traits<std::decay_t<CallableT>>;
     using CaseT = std::remove_cv_t<std::remove_pointer_t<
         std::remove_reference_t<typename Traits::template arg_t<0>>>>;

     DerivedT &derived = static_cast<DerivedT &>(*this);
     return derived.template Case<CaseT>(std::forward<CallableT>(caseFn));
   }

 protected:
   /// Trait to check whether `ValueT` provides a 'dyn_cast' method with type
   /// `CastT`.
   template <typename ValueT, typename CastT>
   using has_dyn_cast_t =
       decltype(std::declval<ValueT &>().template dyn_cast<CastT>());

   /// Attempt to dyn_cast the given `value` to `CastT`. This overload is
   /// selected if `value` already has a suitable dyn_cast method.
   template <typename CastT, typename ValueT>
   static auto castValue(
       ValueT value,
       typename std::enable_if_t<
           is_detected<has_dyn_cast_t, ValueT, CastT>::value> * = nullptr) {
     return value.template dyn_cast<CastT>();
   }

   /// Attempt to dyn_cast the given `value` to `CastT`. This overload is
   /// selected if llvm::dyn_cast should be used.
   template <typename CastT, typename ValueT>
   static auto castValue(
       ValueT value,
       typename std::enable_if_t<
           !is_detected<has_dyn_cast_t, ValueT, CastT>::value> * = nullptr) {
     return dyn_cast<CastT>(value);
   }

   /// The root value we are switching on.
   const T value;
 };
 } // end namespace detail

 /// This class implements a switch-like dispatch statement for a value of 'T'
 /// using dyn_cast functionality. Each `Case<T>` takes a callable to be invoked
 /// if the root value isa<T>, the callable is invoked with the result of
 /// dyn_cast<T>() as a parameter.
 ///
 /// Example:
 ///  Operation *op = ...;
 ///  LogicalResult result = TypeSwitch<Operation *, LogicalResult>(op)
 ///    .Case<ConstantOp>([](ConstantOp op) { ... })
 ///    .Default([](Operation *op) { ... });
 ///
 template <typename T, typename ResultT = void>
 class TypeSwitch : public detail::TypeSwitchBase<TypeSwitch<T, ResultT>, T> {
 public:
   using BaseT = detail::TypeSwitchBase<TypeSwitch<T, ResultT>, T>;
   using BaseT::BaseT;
   using BaseT::Case;
   TypeSwitch(TypeSwitch &&other) = default;

   /// Add a case on the given type.
   template <typename CaseT, typename CallableT>
   TypeSwitch<T, ResultT> &Case(CallableT &&caseFn) {
     if (result)
       return *this;

     // Check to see if CaseT applies to 'value'.
     if (auto caseValue = BaseT::template castValue<CaseT>(this->value))
       result = caseFn(caseValue);
     return *this;
   }

   /// As a default, invoke the given callable within the root value.
   template <typename CallableT>
   LLVM_NODISCARD ResultT Default(CallableT &&defaultFn) {
     if (result)
       return std::move(*result);
     return defaultFn(this->value);
   }
   /// As a default, return the given value.
   LLVM_NODISCARD ResultT Default(ResultT defaultResult) {
     if (result)
       return std::move(*result);
     return defaultResult;
   }

   LLVM_NODISCARD
   operator ResultT() {
     assert(result && "Fell off the end of a type-switch");
     return std::move(*result);
   }

 private:
   /// The pointer to the result of this switch statement, once known,
   /// null before that.
   Optional<ResultT> result;
 };

 /// Specialization of TypeSwitch for void returning callables.
 template <typename T>
 class TypeSwitch<T, void>
     : public detail::TypeSwitchBase<TypeSwitch<T, void>, T> {
 public:
   using BaseT = detail::TypeSwitchBase<TypeSwitch<T, void>, T>;
   using BaseT::BaseT;
   using BaseT::Case;
   TypeSwitch(TypeSwitch &&other) = default;

   /// Add a case on the given type.
   template <typename CaseT, typename CallableT>
   TypeSwitch<T, void> &Case(CallableT &&caseFn) {
     if (foundMatch)
       return *this;

     // Check to see if any of the types apply to 'value'.
     if (auto caseValue = BaseT::template castValue<CaseT>(this->value)) {
       caseFn(caseValue);
       foundMatch = true;
     }
     return *this;
   }

   /// As a default, invoke the given callable within the root value.
   template <typename CallableT> void Default(CallableT &&defaultFn) {
     if (!foundMatch)
       defaultFn(this->value);
   }

 private:
   /// A flag detailing if we have already found a match.
   bool foundMatch = false;
 };
 } // end namespace llvm

 #endif // LLVM_ADT_TYPESWITCH_H
	//===- TypeSwitch.h - Switch functionality for RTTI casting -- C++ ------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the TypeSwitch template, which mimics a switch()
	// statement whose cases are type names.
	//
	//===-----------------------------------------------------------------------===/

	#ifndef LLVM_ADT_TYPESWITCH_H
	#define LLVM_ADT_TYPESWITCH_H

	#include "llvm/ADT/Optional.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/Support/Casting.h"

	namespace llvm {
	namespace detail {

	template <typename DerivedT, typename T> class TypeSwitchBase {
	public:
	TypeSwitchBase(const T &value) : value(value) {}
	TypeSwitchBase(TypeSwitchBase &&other) : value(other.value) {}
	~TypeSwitchBase() = default;

	/// TypeSwitchBase is not copyable.
	TypeSwitchBase(const TypeSwitchBase &) = delete;
	void operator=(const TypeSwitchBase &) = delete;
	void operator=(TypeSwitchBase &&other) = delete;

	/// Invoke a case on the derived class with multiple case types.
	template <typename CaseT, typename CaseT2, typename... CaseTs,
	typename CallableT>
	DerivedT &Case(CallableT &&caseFn) {
	DerivedT &derived = static_cast<DerivedT &>(*this);
	return derived.template Case<CaseT>(caseFn)
	.template Case<CaseT2, CaseTs...>(caseFn);
	}

	/// Invoke a case on the derived class, inferring the type of the Case from
	/// the first input of the given callable.
	/// Note: This inference rules for this overload are very simple: strip
	/// pointers and references.
	template <typename CallableT> DerivedT &Case(CallableT &&caseFn) {
	using Traits = function_traits<std::decay_t<CallableT>>;
	using CaseT = std::remove_cv_t<std::remove_pointer_t<
	std::remove_reference_t<typename Traits::template arg_t<0>>>>;

	DerivedT &derived = static_cast<DerivedT &>(*this);
	return derived.template Case<CaseT>(std::forward<CallableT>(caseFn));
	}

	protected:
	/// Trait to check whether `ValueT` provides a 'dyn_cast' method with type
	/// `CastT`.
	template <typename ValueT, typename CastT>
	using has_dyn_cast_t =
	decltype(std::declval<ValueT &>().template dyn_cast<CastT>());

	/// Attempt to dyn_cast the given `value` to `CastT`. This overload is
	/// selected if `value` already has a suitable dyn_cast method.
	template <typename CastT, typename ValueT>
	static auto castValue(
	ValueT value,
	typename std::enable_if_t<
	is_detected<has_dyn_cast_t, ValueT, CastT>::value> * = nullptr) {
	return value.template dyn_cast<CastT>();
	}

	/// Attempt to dyn_cast the given `value` to `CastT`. This overload is
	/// selected if llvm::dyn_cast should be used.
	template <typename CastT, typename ValueT>
	static auto castValue(
	ValueT value,
	typename std::enable_if_t<
	!is_detected<has_dyn_cast_t, ValueT, CastT>::value> * = nullptr) {
	return dyn_cast<CastT>(value);
	}

	/// The root value we are switching on.
	const T value;
	};
	} // end namespace detail

	/// This class implements a switch-like dispatch statement for a value of 'T'
	/// using dyn_cast functionality. Each `Case<T>` takes a callable to be invoked
	/// if the root value isa<T>, the callable is invoked with the result of
	/// dyn_cast<T>() as a parameter.
	///
	/// Example:
	/// Operation *op = ...;
	/// LogicalResult result = TypeSwitch<Operation *, LogicalResult>(op)
	/// .Case<ConstantOp>([](ConstantOp op) { ... })
	/// .Default([](Operation *op) { ... });
	///
	template <typename T, typename ResultT = void>
	class TypeSwitch : public detail::TypeSwitchBase<TypeSwitch<T, ResultT>, T> {
	public:
	using BaseT = detail::TypeSwitchBase<TypeSwitch<T, ResultT>, T>;
	using BaseT::BaseT;
	using BaseT::Case;
	TypeSwitch(TypeSwitch &&other) = default;

	/// Add a case on the given type.
	template <typename CaseT, typename CallableT>
	TypeSwitch<T, ResultT> &Case(CallableT &&caseFn) {
	if (result)
	return *this;

	// Check to see if CaseT applies to 'value'.
	if (auto caseValue = BaseT::template castValue<CaseT>(this->value))
	result = caseFn(caseValue);
	return *this;
	}

	/// As a default, invoke the given callable within the root value.
	template <typename CallableT>
	LLVM_NODISCARD ResultT Default(CallableT &&defaultFn) {
	if (result)
	return std::move(*result);
	return defaultFn(this->value);
	}
	/// As a default, return the given value.
	LLVM_NODISCARD ResultT Default(ResultT defaultResult) {
	if (result)
	return std::move(*result);
	return defaultResult;
	}

	LLVM_NODISCARD
	operator ResultT() {
	assert(result && "Fell off the end of a type-switch");
	return std::move(*result);
	}

	private:
	/// The pointer to the result of this switch statement, once known,
	/// null before that.
	Optional<ResultT> result;
	};

	/// Specialization of TypeSwitch for void returning callables.
	template <typename T>
	class TypeSwitch<T, void>
	: public detail::TypeSwitchBase<TypeSwitch<T, void>, T> {
	public:
	using BaseT = detail::TypeSwitchBase<TypeSwitch<T, void>, T>;
	using BaseT::BaseT;
	using BaseT::Case;
	TypeSwitch(TypeSwitch &&other) = default;

	/// Add a case on the given type.
	template <typename CaseT, typename CallableT>
	TypeSwitch<T, void> &Case(CallableT &&caseFn) {
	if (foundMatch)
	return *this;

	// Check to see if any of the types apply to 'value'.
	if (auto caseValue = BaseT::template castValue<CaseT>(this->value)) {
	caseFn(caseValue);
	foundMatch = true;
	}
	return *this;
	}

	/// As a default, invoke the given callable within the root value.
	template <typename CallableT> void Default(CallableT &&defaultFn) {
	if (!foundMatch)
	defaultFn(this->value);
	}

	private:
	/// A flag detailing if we have already found a match.
	bool foundMatch = false;
	};
	} // end namespace llvm

	#endif // LLVM_ADT_TYPESWITCH_H