include/swift/AST/SimpleRequest.h - third_party/swift - Git at Google

 //===--- SimpleRequest.h - Simple Request Instances -------------*- C++ -*-===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file defines the SimpleRequest class template, which makes it easier
 //  to define new request kinds.
 //
 //===----------------------------------------------------------------------===//
 #ifndef SWIFT_AST_SIMPLEREQUEST_H
 #define SWIFT_AST_SIMPLEREQUEST_H

 #include "swift/AST/DiagnosticEngine.h"
 #include "swift/AST/DiagnosticsCommon.h"
 #include "swift/Basic/SimpleDisplay.h"
 #include "swift/Basic/Statistic.h"
 #include "swift/Basic/TypeID.h"
 #include "llvm/ADT/Hashing.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/Support/Error.h"
 #include <tuple>
 #include <type_traits>

 namespace swift {

 class Evaluator;

 /// Describes how the result for a particular request will be cached.
 enum class RequestFlags {
   /// The result for a particular request should never be cached.
   Uncached = 1 << 0,
   /// The result for a particular request should be cached within the
   /// evaluator itself.
   Cached = 1 << 1,
   /// The result of a particular request will be cached via some separate
   /// mechanism, such as a mutable data structure.
   SeparatelyCached = 1 << 2,
   /// This request introduces the source component of a source-sink
   /// incremental dependency pair and defines a new dependency scope.
   ///
   /// This bit is optional.  High-level requests
   /// (e.g. \c TypeCheckSourceFileRequest) will require it.
   ///
   /// For further discussion on incremental dependencies
   /// see DependencyAnalysis.md.
   DependencySource = 1 << 3,
   /// This request introduces the sink component of a source-sink
   /// incremental dependency pair and is a consumer of the current
   /// dependency scope.
   ///
   /// This bit is optional. Name lookup requests
   /// (e.g. \c DirectLookupRequest) will require it.
   ///
   /// For further discussion on incremental dependencies
   /// see DependencyAnalysis.md.
   DependencySink = 1 << 4,
 };

 static constexpr inline RequestFlags operator|(RequestFlags lhs, RequestFlags rhs) {
   return RequestFlags(static_cast<std::underlying_type<RequestFlags>::type>(lhs) |
                    static_cast<std::underlying_type<RequestFlags>::type>(rhs));
 }

 /// -------------------------------------------------------------------------
 /// Extracting the source location "nearest" a request.
 /// -------------------------------------------------------------------------

 namespace detail {
   /// Dummy extract function used to detect when we can call
   /// extractNearestSourceLoc() safely.
   inline void extractNearestSourceLoc(...) { }

   /// Metaprogram to determine whether any input is true.
   constexpr bool anyTrue() { return false; }

   template<typename ...Rest>
   constexpr bool anyTrue(bool current, Rest... rest) {
     return current || anyTrue(rest...);
   }
 }

 /// Determine whether we can extract a nearest source location from a value of
 /// the given type.
 template<typename T>
 constexpr bool canExtractNearestSourceLoc() {
   using detail::extractNearestSourceLoc;
   return !std::is_void<decltype(extractNearestSourceLoc(*(T*)nullptr))>::value;
 }

 /// Extract source locations when possible, or return an invalid source
 /// location if not possible.
 template<typename T,
          typename = typename std::enable_if<
              canExtractNearestSourceLoc<T>()>::type>
 SourceLoc maybeExtractNearestSourceLoc(const T& value) {
   return extractNearestSourceLoc(value);
 }

 template<typename T,
          typename = void,
          typename = typename std::enable_if<
              !canExtractNearestSourceLoc<T>()>::type>
 SourceLoc maybeExtractNearestSourceLoc(const T& value) {
   return SourceLoc();
 }

 /// Extract the nearest source location from a pointer union.
 template<typename T, typename U,
           typename = typename std::enable_if<
             canExtractNearestSourceLoc<T>() &&
             canExtractNearestSourceLoc<U>()>::type>
 SourceLoc extractNearestSourceLoc(const llvm::PointerUnion<T, U> &value) {
   if (auto first = value.template dyn_cast<T>()) {
     return extractNearestSourceLoc(first);
   }
   if (auto second = value.template dyn_cast<U>()) {
     return extractNearestSourceLoc(second);
   }
   return SourceLoc();
 }

 namespace detail {
   /// Basis case for extracting the nearest source location from a tuple.
   template<unsigned Index, typename ...Types,
            typename = void,
            typename = typename std::enable_if<
                (Index >= sizeof...(Types))>::type>
   SourceLoc extractNearestSourceLocTuple(const std::tuple<Types...> &) {
     return SourceLoc();
   }

   /// Extract the first, nearest source location from a tuple.
   template<unsigned Index, typename ...Types,
            typename = typename std::enable_if<(Index < sizeof...(Types))>::type>
   SourceLoc extractNearestSourceLocTuple(const std::tuple<Types...> &value) {
     SourceLoc loc = maybeExtractNearestSourceLoc(std::get<Index>(value));
     if (loc.isValid())
       return loc;

     return extractNearestSourceLocTuple<Index + 1>(value);
   }
 }

 namespace detail {
 constexpr bool cacheContains(RequestFlags kind, RequestFlags needle) {
   using cache_t = std::underlying_type<RequestFlags>::type;
   return (static_cast<cache_t>(kind) & static_cast<cache_t>(needle))
       == static_cast<cache_t>(needle);
 }
 constexpr bool isEverCached(RequestFlags kind) {
   return !cacheContains(kind, RequestFlags::Uncached);
 }

 constexpr bool hasExternalCache(RequestFlags kind) {
   return cacheContains(kind, RequestFlags::SeparatelyCached);
 }

 constexpr bool isDependencySource(RequestFlags kind) {
   return cacheContains(kind, RequestFlags::DependencySource);
 }

 constexpr bool isDependencySink(RequestFlags kind) {
   return cacheContains(kind, RequestFlags::DependencySink);
 }
 } // end namespace detail

 /// Extract the first, nearest source location from a tuple.
 template<typename First, typename ...Rest,
          typename = typename std::enable_if<
              detail::anyTrue(canExtractNearestSourceLoc<First>(),
                              canExtractNearestSourceLoc<Rest>()...)>::type>
 SourceLoc extractNearestSourceLoc(const std::tuple<First, Rest...> &value) {
   return detail::extractNearestSourceLocTuple<0>(value);
 }

 /// -------------------------------------------------------------------------
 /// Simple Requests
 /// -------------------------------------------------------------------------

 /// CRTP base class that describes a request operation that takes values
 /// with the given input types (\c Inputs...) and produces an output of
 /// the given type.
 ///
 /// \tparam Derived The final, derived class type for the request.
 /// \tparam Signature The signature of the request, described as a
 /// function type whose inputs (\c Inputs) are the parameter types and
 /// whose output (\c Output) is the result of evaluating this request.
 /// \tparam Caching Describes how the output value is cached, if at all.
 ///
 /// The \c Derived class needs to implement several operations. The most
 /// important one takes an evaluator and the input values, then computes the
 /// final result:
 /// \code
 ///   Output evaluate(Evaluator &evaluator, Inputs...) const;
 /// \endcode
 ///
 /// Cycle diagnostics can be handled in one of two ways. Either the \c Derived
 /// class can implement the two cycle-diagnosing operations directly:
 /// \code
 ///   void diagnoseCycle(DiagnosticEngine &diags) const;
 ///   void noteCycleStep(DiagnosticEngine &diags) const;
 /// \endcode
 ///
 /// Or the implementation will use the default "circular reference" diagnostics
 /// based on the "nearest" source location, which can be provided explicitly by
 /// implementing the following in the subclass:
 /// \code
 ///   SourceLoc getNearestLoc() const;
 /// \endcode
 /// If not provided, a default implementation for \c getNearestLoc() will pick
 /// the source location from the first input that provides one.
 ///
 /// Value caching is determined by the \c Caching parameter. When
 /// \c Caching == RequestFlags::SeparatelyCached, the \c Derived class is
 /// responsible for implementing the two operations responsible to managing
 /// the cache:
 /// \code
 ///   Optional<Output> getCachedResult() const;
 ///   void cacheResult(Output value) const;
 /// \endcode
 ///
 /// Incremental dependency tracking occurs automatically during
 /// request evaluation. To support that system, high-level requests that define
 /// dependency sources should override \c readDependencySource()
 /// and specify \c RequestFlags::DependencySource in addition to one of
 /// the 3 caching kinds defined above.
 /// \code
 ///   evaluator::DependencySource
 ///   readDependencySource(const evaluator::DependencyRecorder &) const;
 /// \endcode
 ///
 /// Requests that define dependency sinks should instead override
 /// \c writeDependencySink() and use the given evaluator and request
 /// result to write an edge into the dependency tracker. In addition,
 /// \c RequestFlags::DependencySource should be specified along with
 /// one of the 3 caching kinds defined above.
 /// \code
 ///   void writeDependencySink(evaluator::DependencyCollector &, Output) const;
 /// \endcode
 template<typename Derived, typename Signature, RequestFlags Caching>
 class SimpleRequest;

 template<typename Derived, RequestFlags Caching, typename Output,
          typename ...Inputs>
 class SimpleRequest<Derived, Output(Inputs...), Caching> {
   std::tuple<Inputs...> storage;

   Derived &asDerived() {
     return *static_cast<Derived *>(this);
   }

   const Derived &asDerived() const {
     return *static_cast<const Derived *>(this);
   }

   template<size_t ...Indices>
   Output
   callDerived(Evaluator &evaluator, std::index_sequence<Indices...>) const {
     static_assert(sizeof...(Indices) > 0, "Subclass must define evaluate()");
     return asDerived().evaluate(evaluator, std::get<Indices>(storage)...);
   }

 protected:
   /// Retrieve the storage value directly.
   const std::tuple<Inputs...> &getStorage() const { return storage; }

 public:
   constexpr static bool isEverCached = detail::isEverCached(Caching);
   constexpr static bool hasExternalCache = detail::hasExternalCache(Caching);

 public:
   constexpr static bool isDependencySource = detail::isDependencySource(Caching);
   constexpr static bool isDependencySink = detail::isDependencySink(Caching);

   using OutputType = Output;

   explicit SimpleRequest(const Inputs& ...inputs)
     : storage(inputs...) { }

   /// Request evaluation function that will be registered with the evaluator.
   static OutputType
   evaluateRequest(const Derived &request, Evaluator &evaluator) {
     return request.callDerived(evaluator,
                                std::index_sequence_for<Inputs...>());
   }

   /// Retrieve the nearest source location to which this request applies.
   SourceLoc getNearestLoc() const {
     return extractNearestSourceLoc(storage);
   }

   void diagnoseCycle(DiagnosticEngine &diags) const {
     diags.diagnose(asDerived().getNearestLoc(), diag::circular_reference);
   }

   void noteCycleStep(DiagnosticEngine &diags) const {
     diags.diagnose(asDerived().getNearestLoc(),
                    diag::circular_reference_through);
   }

   friend bool operator==(const SimpleRequest &lhs, const SimpleRequest &rhs) {
     return lhs.storage == rhs.storage;
   }

   friend bool operator!=(const SimpleRequest &lhs, const SimpleRequest &rhs) {
     return !(lhs == rhs);
   }

   friend llvm::hash_code hash_value(const SimpleRequest &request) {
     using llvm::hash_combine;

     return hash_combine(TypeID<Derived>::value, request.storage);
   }

   friend void simple_display(llvm::raw_ostream &out,
                              const Derived &request) {
     out << TypeID<Derived>::getName();
     simple_display(out, request.storage);
   }

   friend FrontendStatsTracer
   make_tracer(UnifiedStatsReporter *Reporter, const Derived &request) {
     return make_tracer(Reporter, TypeID<Derived>::getName(), request.storage);
   }
 };
 }

 namespace llvm {
   template <typename T, unsigned N>
   llvm::hash_code hash_value(const SmallVector<T, N> &vec) {
     return hash_combine_range(vec.begin(), vec.end());
   }
 }

 #endif // SWIFT_BASIC_SIMPLEREQUEST_H
	//===--- SimpleRequest.h - Simple Request Instances -------------- C++ --===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the SimpleRequest class template, which makes it easier
	// to define new request kinds.
	//
	//===----------------------------------------------------------------------===//
	#ifndef SWIFT_AST_SIMPLEREQUEST_H
	#define SWIFT_AST_SIMPLEREQUEST_H

	#include "swift/AST/DiagnosticEngine.h"
	#include "swift/AST/DiagnosticsCommon.h"
	#include "swift/Basic/SimpleDisplay.h"
	#include "swift/Basic/Statistic.h"
	#include "swift/Basic/TypeID.h"
	#include "llvm/ADT/Hashing.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/Support/Error.h"
	#include <tuple>
	#include <type_traits>

	namespace swift {

	class Evaluator;

	/// Describes how the result for a particular request will be cached.
	enum class RequestFlags {
	/// The result for a particular request should never be cached.
	Uncached = 1 << 0,
	/// The result for a particular request should be cached within the
	/// evaluator itself.
	Cached = 1 << 1,
	/// The result of a particular request will be cached via some separate
	/// mechanism, such as a mutable data structure.
	SeparatelyCached = 1 << 2,
	/// This request introduces the source component of a source-sink
	/// incremental dependency pair and defines a new dependency scope.
	///
	/// This bit is optional. High-level requests
	/// (e.g. \c TypeCheckSourceFileRequest) will require it.
	///
	/// For further discussion on incremental dependencies
	/// see DependencyAnalysis.md.
	DependencySource = 1 << 3,
	/// This request introduces the sink component of a source-sink
	/// incremental dependency pair and is a consumer of the current
	/// dependency scope.
	///
	/// This bit is optional. Name lookup requests
	/// (e.g. \c DirectLookupRequest) will require it.
	///
	/// For further discussion on incremental dependencies
	/// see DependencyAnalysis.md.
	DependencySink = 1 << 4,
	};

	static constexpr inline RequestFlags operator\|(RequestFlags lhs, RequestFlags rhs) {
	return RequestFlags(static_cast<std::underlying_type<RequestFlags>::type>(lhs) \|
	static_cast<std::underlying_type<RequestFlags>::type>(rhs));
	}

	/// -------------------------------------------------------------------------
	/// Extracting the source location "nearest" a request.
	/// -------------------------------------------------------------------------

	namespace detail {
	/// Dummy extract function used to detect when we can call
	/// extractNearestSourceLoc() safely.
	inline void extractNearestSourceLoc(...) { }

	/// Metaprogram to determine whether any input is true.
	constexpr bool anyTrue() { return false; }

	template<typename ...Rest>
	constexpr bool anyTrue(bool current, Rest... rest) {
	return current \|\| anyTrue(rest...);
	}
	}

	/// Determine whether we can extract a nearest source location from a value of
	/// the given type.
	template<typename T>
	constexpr bool canExtractNearestSourceLoc() {
	using detail::extractNearestSourceLoc;
	return !std::is_void<decltype(extractNearestSourceLoc((T)nullptr))>::value;
	}

	/// Extract source locations when possible, or return an invalid source
	/// location if not possible.
	template<typename T,
	typename = typename std::enable_if<
	canExtractNearestSourceLoc<T>()>::type>
	SourceLoc maybeExtractNearestSourceLoc(const T& value) {
	return extractNearestSourceLoc(value);
	}

	template<typename T,
	typename = void,
	typename = typename std::enable_if<
	!canExtractNearestSourceLoc<T>()>::type>
	SourceLoc maybeExtractNearestSourceLoc(const T& value) {
	return SourceLoc();
	}

	/// Extract the nearest source location from a pointer union.
	template<typename T, typename U,
	typename = typename std::enable_if<
	canExtractNearestSourceLoc<T>() &&
	canExtractNearestSourceLoc<U>()>::type>
	SourceLoc extractNearestSourceLoc(const llvm::PointerUnion<T, U> &value) {
	if (auto first = value.template dyn_cast<T>()) {
	return extractNearestSourceLoc(first);
	}
	if (auto second = value.template dyn_cast<U>()) {
	return extractNearestSourceLoc(second);
	}
	return SourceLoc();
	}

	namespace detail {
	/// Basis case for extracting the nearest source location from a tuple.
	template<unsigned Index, typename ...Types,
	typename = void,
	typename = typename std::enable_if<
	(Index >= sizeof...(Types))>::type>
	SourceLoc extractNearestSourceLocTuple(const std::tuple<Types...> &) {
	return SourceLoc();
	}

	/// Extract the first, nearest source location from a tuple.
	template<unsigned Index, typename ...Types,
	typename = typename std::enable_if<(Index < sizeof...(Types))>::type>
	SourceLoc extractNearestSourceLocTuple(const std::tuple<Types...> &value) {
	SourceLoc loc = maybeExtractNearestSourceLoc(std::get<Index>(value));
	if (loc.isValid())
	return loc;

	return extractNearestSourceLocTuple<Index + 1>(value);
	}
	}

	namespace detail {
	constexpr bool cacheContains(RequestFlags kind, RequestFlags needle) {
	using cache_t = std::underlying_type<RequestFlags>::type;
	return (static_cast<cache_t>(kind) & static_cast<cache_t>(needle))
	== static_cast<cache_t>(needle);
	}
	constexpr bool isEverCached(RequestFlags kind) {
	return !cacheContains(kind, RequestFlags::Uncached);
	}

	constexpr bool hasExternalCache(RequestFlags kind) {
	return cacheContains(kind, RequestFlags::SeparatelyCached);
	}

	constexpr bool isDependencySource(RequestFlags kind) {
	return cacheContains(kind, RequestFlags::DependencySource);
	}

	constexpr bool isDependencySink(RequestFlags kind) {
	return cacheContains(kind, RequestFlags::DependencySink);
	}
	} // end namespace detail

	/// Extract the first, nearest source location from a tuple.
	template<typename First, typename ...Rest,
	typename = typename std::enable_if<
	detail::anyTrue(canExtractNearestSourceLoc<First>(),
	canExtractNearestSourceLoc<Rest>()...)>::type>
	SourceLoc extractNearestSourceLoc(const std::tuple<First, Rest...> &value) {
	return detail::extractNearestSourceLocTuple<0>(value);
	}

	/// -------------------------------------------------------------------------
	/// Simple Requests
	/// -------------------------------------------------------------------------

	/// CRTP base class that describes a request operation that takes values
	/// with the given input types (\c Inputs...) and produces an output of
	/// the given type.
	///
	/// \tparam Derived The final, derived class type for the request.
	/// \tparam Signature The signature of the request, described as a
	/// function type whose inputs (\c Inputs) are the parameter types and
	/// whose output (\c Output) is the result of evaluating this request.
	/// \tparam Caching Describes how the output value is cached, if at all.
	///
	/// The \c Derived class needs to implement several operations. The most
	/// important one takes an evaluator and the input values, then computes the
	/// final result:
	/// \code
	/// Output evaluate(Evaluator &evaluator, Inputs...) const;
	/// \endcode
	///
	/// Cycle diagnostics can be handled in one of two ways. Either the \c Derived
	/// class can implement the two cycle-diagnosing operations directly:
	/// \code
	/// void diagnoseCycle(DiagnosticEngine &diags) const;
	/// void noteCycleStep(DiagnosticEngine &diags) const;
	/// \endcode
	///
	/// Or the implementation will use the default "circular reference" diagnostics
	/// based on the "nearest" source location, which can be provided explicitly by
	/// implementing the following in the subclass:
	/// \code
	/// SourceLoc getNearestLoc() const;
	/// \endcode
	/// If not provided, a default implementation for \c getNearestLoc() will pick
	/// the source location from the first input that provides one.
	///
	/// Value caching is determined by the \c Caching parameter. When
	/// \c Caching == RequestFlags::SeparatelyCached, the \c Derived class is
	/// responsible for implementing the two operations responsible to managing
	/// the cache:
	/// \code
	/// Optional<Output> getCachedResult() const;
	/// void cacheResult(Output value) const;
	/// \endcode
	///
	/// Incremental dependency tracking occurs automatically during
	/// request evaluation. To support that system, high-level requests that define
	/// dependency sources should override \c readDependencySource()
	/// and specify \c RequestFlags::DependencySource in addition to one of
	/// the 3 caching kinds defined above.
	/// \code
	/// evaluator::DependencySource
	/// readDependencySource(const evaluator::DependencyRecorder &) const;
	/// \endcode
	///
	/// Requests that define dependency sinks should instead override
	/// \c writeDependencySink() and use the given evaluator and request
	/// result to write an edge into the dependency tracker. In addition,
	/// \c RequestFlags::DependencySource should be specified along with
	/// one of the 3 caching kinds defined above.
	/// \code
	/// void writeDependencySink(evaluator::DependencyCollector &, Output) const;
	/// \endcode
	template<typename Derived, typename Signature, RequestFlags Caching>
	class SimpleRequest;

	template<typename Derived, RequestFlags Caching, typename Output,
	typename ...Inputs>
	class SimpleRequest<Derived, Output(Inputs...), Caching> {
	std::tuple<Inputs...> storage;

	Derived &asDerived() {
	return static_cast<Derived >(this);
	}

	const Derived &asDerived() const {
	return static_cast<const Derived >(this);
	}

	template<size_t ...Indices>
	Output
	callDerived(Evaluator &evaluator, std::index_sequence<Indices...>) const {
	static_assert(sizeof...(Indices) > 0, "Subclass must define evaluate()");
	return asDerived().evaluate(evaluator, std::get<Indices>(storage)...);
	}

	protected:
	/// Retrieve the storage value directly.
	const std::tuple<Inputs...> &getStorage() const { return storage; }

	public:
	constexpr static bool isEverCached = detail::isEverCached(Caching);
	constexpr static bool hasExternalCache = detail::hasExternalCache(Caching);

	public:
	constexpr static bool isDependencySource = detail::isDependencySource(Caching);
	constexpr static bool isDependencySink = detail::isDependencySink(Caching);

	using OutputType = Output;

	explicit SimpleRequest(const Inputs& ...inputs)
	: storage(inputs...) { }

	/// Request evaluation function that will be registered with the evaluator.
	static OutputType
	evaluateRequest(const Derived &request, Evaluator &evaluator) {
	return request.callDerived(evaluator,
	std::index_sequence_for<Inputs...>());
	}

	/// Retrieve the nearest source location to which this request applies.
	SourceLoc getNearestLoc() const {
	return extractNearestSourceLoc(storage);
	}

	void diagnoseCycle(DiagnosticEngine &diags) const {
	diags.diagnose(asDerived().getNearestLoc(), diag::circular_reference);
	}

	void noteCycleStep(DiagnosticEngine &diags) const {
	diags.diagnose(asDerived().getNearestLoc(),
	diag::circular_reference_through);
	}

	friend bool operator==(const SimpleRequest &lhs, const SimpleRequest &rhs) {
	return lhs.storage == rhs.storage;
	}

	friend bool operator!=(const SimpleRequest &lhs, const SimpleRequest &rhs) {
	return !(lhs == rhs);
	}

	friend llvm::hash_code hash_value(const SimpleRequest &request) {
	using llvm::hash_combine;

	return hash_combine(TypeID<Derived>::value, request.storage);
	}

	friend void simple_display(llvm::raw_ostream &out,
	const Derived &request) {
	out << TypeID<Derived>::getName();
	simple_display(out, request.storage);
	}

	friend FrontendStatsTracer
	make_tracer(UnifiedStatsReporter *Reporter, const Derived &request) {
	return make_tracer(Reporter, TypeID<Derived>::getName(), request.storage);
	}
	};
	}

	namespace llvm {
	template <typename T, unsigned N>
	llvm::hash_code hash_value(const SmallVector<T, N> &vec) {
	return hash_combine_range(vec.begin(), vec.end());
	}
	}

	#endif // SWIFT_BASIC_SIMPLEREQUEST_H