include/swift/Basic/MultiMapCache.h - third_party/swift - Git at Google

 //===--- MultiMapCache.h --------------------------------------------------===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2020 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_BASIC_MULTIMAPCACHE_H
 #define SWIFT_BASIC_MULTIMAPCACHE_H

 #include "swift/Basic/LLVM.h"
 #include "llvm/ADT/DenseMap.h"

 namespace swift {

 /// A write-once multi-map cache that can be small. It uses a DenseMap
 /// internally, so it can be used as a cache without needing to be frozen like
 /// FrozenMultiMap (which uses only a vector internally). The cached value is
 /// computed by a passed in std::function. The std::function is able to map
 /// multiple values to a specific key via the out array.
 ///
 /// NOTE: We store the (size, length) of each ArrayRef<ValueTy> instead of
 /// storing the ArrayRef to avoid data invalidation issues caused by SmallVector
 /// switching from small to large representations.
 ///
 /// For an example of a subclass implementation see:
 /// unittests/Basic/MultiMapCacheTest.cpp.
 template <typename KeyTy, typename ValueTy,
           typename MapTy =
               llvm::DenseMap<KeyTy, Optional<std::tuple<unsigned, unsigned>>>,
           typename VectorTy = std::vector<ValueTy>,
           typename VectorTyImpl = VectorTy>
 class MultiMapCache {
   std::function<bool(const KeyTy &, VectorTyImpl &)> function;
   MapTy valueToDataOffsetIndexMap;
   VectorTy data;

   constexpr static unsigned ArrayStartOffset = 0;
   constexpr static unsigned ArrayLengthOffset = 1;

 public:
   MultiMapCache(std::function<bool(const KeyTy &, VectorTyImpl &)> function)
       : function(function) {}

   void clear() {
     valueToDataOffsetIndexMap.clear();
     data.clear();
   }

   bool empty() const { return valueToDataOffsetIndexMap.empty(); }
   unsigned size() const { return valueToDataOffsetIndexMap.size(); }

   Optional<ArrayRef<ValueTy>> get(const KeyTy &key) {
     auto iter = valueToDataOffsetIndexMap.try_emplace(key, None);

     // If we already have a cached value, just return the cached value.
     if (!iter.second) {
       return iter.first->second.map(
           [&](std::tuple<unsigned, unsigned> startLengthRange) {
             return llvm::makeArrayRef(data).slice(
                 std::get<ArrayStartOffset>(startLengthRange),
                 std::get<ArrayLengthOffset>(startLengthRange));
           });
     }

     // Otherwise, try to compute the value. If we failed conservatively, return
     // None. The iter value already had None by default set to it, this just
     // makes it so that we do not need to have a memory dependency and can just
     // exit.
     unsigned initialOffset = data.size();

     // We assume that constructValuesForKey /only/ inserts to the end of data
     // and does not inspect any other values in the data array.
     if (!function(key, data)) {
       return None;
     }

     // Otherwise, compute our our length, compute our initial ArrayRef<ValueTy>,
     // update the map with the start, length, and return the resulting ArrayRef.
     unsigned length = data.size() - initialOffset;
     iter.first->second = std::make_tuple(initialOffset, length);
     auto result = llvm::makeArrayRef(data).slice(initialOffset, length);
     return result;
   }
 };

 template <typename KeyTy, typename ValueTy>
 using SmallMultiMapCache = MultiMapCache<
     KeyTy, ValueTy,
     llvm::SmallDenseMap<KeyTy, Optional<std::tuple<unsigned, unsigned>>, 8>,
     SmallVector<ValueTy, 32>, SmallVectorImpl<ValueTy>>;

 } // namespace swift

 #endif
	//===--- MultiMapCache.h --------------------------------------------------===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2020 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_BASIC_MULTIMAPCACHE_H
	#define SWIFT_BASIC_MULTIMAPCACHE_H

	#include "swift/Basic/LLVM.h"
	#include "llvm/ADT/DenseMap.h"

	namespace swift {

	/// A write-once multi-map cache that can be small. It uses a DenseMap
	/// internally, so it can be used as a cache without needing to be frozen like
	/// FrozenMultiMap (which uses only a vector internally). The cached value is
	/// computed by a passed in std::function. The std::function is able to map
	/// multiple values to a specific key via the out array.
	///
	/// NOTE: We store the (size, length) of each ArrayRef<ValueTy> instead of
	/// storing the ArrayRef to avoid data invalidation issues caused by SmallVector
	/// switching from small to large representations.
	///
	/// For an example of a subclass implementation see:
	/// unittests/Basic/MultiMapCacheTest.cpp.
	template <typename KeyTy, typename ValueTy,
	typename MapTy =
	llvm::DenseMap<KeyTy, Optional<std::tuple<unsigned, unsigned>>>,
	typename VectorTy = std::vector<ValueTy>,
	typename VectorTyImpl = VectorTy>
	class MultiMapCache {
	std::function<bool(const KeyTy &, VectorTyImpl &)> function;
	MapTy valueToDataOffsetIndexMap;
	VectorTy data;

	constexpr static unsigned ArrayStartOffset = 0;
	constexpr static unsigned ArrayLengthOffset = 1;

	public:
	MultiMapCache(std::function<bool(const KeyTy &, VectorTyImpl &)> function)
	: function(function) {}

	void clear() {
	valueToDataOffsetIndexMap.clear();
	data.clear();
	}

	bool empty() const { return valueToDataOffsetIndexMap.empty(); }
	unsigned size() const { return valueToDataOffsetIndexMap.size(); }

	Optional<ArrayRef<ValueTy>> get(const KeyTy &key) {
	auto iter = valueToDataOffsetIndexMap.try_emplace(key, None);

	// If we already have a cached value, just return the cached value.
	if (!iter.second) {
	return iter.first->second.map(
	[&](std::tuple<unsigned, unsigned> startLengthRange) {
	return llvm::makeArrayRef(data).slice(
	std::get<ArrayStartOffset>(startLengthRange),
	std::get<ArrayLengthOffset>(startLengthRange));
	});
	}

	// Otherwise, try to compute the value. If we failed conservatively, return
	// None. The iter value already had None by default set to it, this just
	// makes it so that we do not need to have a memory dependency and can just
	// exit.
	unsigned initialOffset = data.size();

	// We assume that constructValuesForKey /only/ inserts to the end of data
	// and does not inspect any other values in the data array.
	if (!function(key, data)) {
	return None;
	}

	// Otherwise, compute our our length, compute our initial ArrayRef<ValueTy>,
	// update the map with the start, length, and return the resulting ArrayRef.
	unsigned length = data.size() - initialOffset;
	iter.first->second = std::make_tuple(initialOffset, length);
	auto result = llvm::makeArrayRef(data).slice(initialOffset, length);
	return result;
	}
	};

	template <typename KeyTy, typename ValueTy>
	using SmallMultiMapCache = MultiMapCache<
	KeyTy, ValueTy,
	llvm::SmallDenseMap<KeyTy, Optional<std::tuple<unsigned, unsigned>>, 8>,
	SmallVector<ValueTy, 32>, SmallVectorImpl<ValueTy>>;

	} // namespace swift

	#endif