components/sync/base/unique_position.h - chromium/src.git - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_
 #define COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <string>

 namespace sync_pb {
 class UniquePosition;
 }

 namespace syncer {

 // A class to represent positions.
 //
 // Valid UniquePosition objects have the following properties:
 //
 //  - a < b and b < c implies a < c (transitivity);
 //  - exactly one of a < b, b < a and a = b holds (trichotomy);
 //  - if a < b, there is a UniquePosition such that a < x < b (density);
 //  - there are UniquePositions x and y such that x < a < y (unboundedness);
 //  - if a and b were constructed with different unique suffixes, then a != b.
 //
 // As long as all UniquePositions used to sort a list were created with unique
 // suffixes, then if any item changes its position in the list, only its
 // UniquePosition value has to change to represent the new order, and all other
 // values can stay the same.
 //
 // Note that the unique suffixes must be exactly |kSuffixLength| bytes long.
 //
 // The cost for all these features is potentially unbounded space usage.  In
 // practice, however, most ordinals should be not much longer than the suffix.
 //
 // This class currently has several bookmarks-related assumptions built in,
 // though it could be adapted to be more generally useful.
 class UniquePosition {
  public:
   static constexpr size_t kSuffixLength = 28;
   static constexpr size_t kCompressBytesThreshold = 128;

   static bool IsValidSuffix(const std::string& suffix);
   static bool IsValidBytes(const std::string& bytes);

   // Returns a valid, but mostly random suffix.
   // Avoid using this; it can lead to inconsistent sort orderings if misused.
   static std::string RandomSuffix();

   // Returns an invalid position.
   static UniquePosition CreateInvalid();

   // Converts from a 'sync_pb::UniquePosition' protobuf to a UniquePosition.
   // This may return an invalid position if the parsing fails.
   static UniquePosition FromProto(const sync_pb::UniquePosition& proto);

   // Creates a position with the given suffix.  Ordering among positions created
   // from this function is the same as that of the integer parameters that were
   // passed in.
   static UniquePosition FromInt64(int64_t i, const std::string& suffix);

   // Returns a valid position.  Its ordering is not defined.
   static UniquePosition InitialPosition(const std::string& suffix);

   // Returns positions compare smaller than, greater than, or between the input
   // positions.
   static UniquePosition Before(const UniquePosition& x,
                                const std::string& suffix);
   static UniquePosition After(const UniquePosition& x,
                               const std::string& suffix);
   static UniquePosition Between(const UniquePosition& before,
                                 const UniquePosition& after,
                                 const std::string& suffix);

   // This constructor creates an invalid value.
   UniquePosition();

   bool LessThan(const UniquePosition& other) const;
   bool Equals(const UniquePosition& other) const;

   // Serializes the position's internal state to a protobuf.
   sync_pb::UniquePosition ToProto() const;

   // Serializes the protobuf representation of this object as a string.
   void SerializeToString(std::string* blob) const;

   // Returns a human-readable representation of this item's internal state.
   std::string ToDebugString() const;

   // Returns the suffix.
   std::string GetSuffixForTest() const;

   // Performs a lossy conversion to an int64_t position.  Positions converted to
   // and from int64_ts using this and the FromInt64 function should maintain
   // their
   // relative orderings unless the int64_t values conflict.
   int64_t ToInt64() const;

   bool IsValid() const;

   // Returns memory usage estimate.
   size_t EstimateMemoryUsage() const;

  private:
   friend class UniquePositionTest;

   // Returns a string X such that (X ++ |suffix|) < |str|.
   // |str| must be a trailing substring of a valid ordinal.
   // |suffix| must be a valid unique suffix.
   static std::string FindSmallerWithSuffix(const std::string& str,
                                            const std::string& suffix);
   // Returns a string X such that (X ++ |suffix|) > |str|.
   // |str| must be a trailing substring of a valid ordinal.
   // |suffix| must be a valid unique suffix.
   static std::string FindGreaterWithSuffix(const std::string& str,
                                            const std::string& suffix);
   // Returns a string X such that |before| < (X ++ |suffix|) < |after|.
   // |before| and after must be a trailing substrings of valid ordinals.
   // |suffix| must be a valid unique suffix.
   static std::string FindBetweenWithSuffix(const std::string& before,
                                            const std::string& after,
                                            const std::string& suffix);

   // Expects a run-length compressed string as input.  For internal use only.
   explicit UniquePosition(const std::string& internal_rep);

   // Expects an uncompressed prefix and suffix as input.  The |suffix| parameter
   // must be a suffix of |uncompressed|.  For internal use only.
   UniquePosition(const std::string& uncompressed, const std::string& suffix);

   // Implementation of an order-preserving run-length compression scheme.
   static std::string Compress(const std::string& input);
   static std::string CompressImpl(const std::string& input);
   static std::string Uncompress(const std::string& compressed);
   static bool IsValidCompressed(const std::string& str);

   // The position value after it has been run through the custom compression
   // algorithm.  See Compress() and Uncompress() functions above.
   std::string compressed_;
   bool is_valid_;
 };

 }  // namespace syncer

 #endif  // COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_
	#define COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <string>

	namespace sync_pb {
	class UniquePosition;
	}

	namespace syncer {

	// A class to represent positions.
	//
	// Valid UniquePosition objects have the following properties:
	//
	// - a < b and b < c implies a < c (transitivity);
	// - exactly one of a < b, b < a and a = b holds (trichotomy);
	// - if a < b, there is a UniquePosition such that a < x < b (density);
	// - there are UniquePositions x and y such that x < a < y (unboundedness);
	// - if a and b were constructed with different unique suffixes, then a != b.
	//
	// As long as all UniquePositions used to sort a list were created with unique
	// suffixes, then if any item changes its position in the list, only its
	// UniquePosition value has to change to represent the new order, and all other
	// values can stay the same.
	//
	// Note that the unique suffixes must be exactly \|kSuffixLength\| bytes long.
	//
	// The cost for all these features is potentially unbounded space usage. In
	// practice, however, most ordinals should be not much longer than the suffix.
	//
	// This class currently has several bookmarks-related assumptions built in,
	// though it could be adapted to be more generally useful.
	class UniquePosition {
	public:
	static constexpr size_t kSuffixLength = 28;
	static constexpr size_t kCompressBytesThreshold = 128;

	static bool IsValidSuffix(const std::string& suffix);
	static bool IsValidBytes(const std::string& bytes);

	// Returns a valid, but mostly random suffix.
	// Avoid using this; it can lead to inconsistent sort orderings if misused.
	static std::string RandomSuffix();

	// Returns an invalid position.
	static UniquePosition CreateInvalid();

	// Converts from a 'sync_pb::UniquePosition' protobuf to a UniquePosition.
	// This may return an invalid position if the parsing fails.
	static UniquePosition FromProto(const sync_pb::UniquePosition& proto);

	// Creates a position with the given suffix. Ordering among positions created
	// from this function is the same as that of the integer parameters that were
	// passed in.
	static UniquePosition FromInt64(int64_t i, const std::string& suffix);

	// Returns a valid position. Its ordering is not defined.
	static UniquePosition InitialPosition(const std::string& suffix);

	// Returns positions compare smaller than, greater than, or between the input
	// positions.
	static UniquePosition Before(const UniquePosition& x,
	const std::string& suffix);
	static UniquePosition After(const UniquePosition& x,
	const std::string& suffix);
	static UniquePosition Between(const UniquePosition& before,
	const UniquePosition& after,
	const std::string& suffix);

	// This constructor creates an invalid value.
	UniquePosition();

	bool LessThan(const UniquePosition& other) const;
	bool Equals(const UniquePosition& other) const;

	// Serializes the position's internal state to a protobuf.
	sync_pb::UniquePosition ToProto() const;

	// Serializes the protobuf representation of this object as a string.
	void SerializeToString(std::string* blob) const;

	// Returns a human-readable representation of this item's internal state.
	std::string ToDebugString() const;

	// Returns the suffix.
	std::string GetSuffixForTest() const;

	// Performs a lossy conversion to an int64_t position. Positions converted to
	// and from int64_ts using this and the FromInt64 function should maintain
	// their
	// relative orderings unless the int64_t values conflict.
	int64_t ToInt64() const;

	bool IsValid() const;

	// Returns memory usage estimate.
	size_t EstimateMemoryUsage() const;

	private:
	friend class UniquePositionTest;

	// Returns a string X such that (X ++ \|suffix\|) < \|str\|.
	// \|str\| must be a trailing substring of a valid ordinal.
	// \|suffix\| must be a valid unique suffix.
	static std::string FindSmallerWithSuffix(const std::string& str,
	const std::string& suffix);
	// Returns a string X such that (X ++ \|suffix\|) > \|str\|.
	// \|str\| must be a trailing substring of a valid ordinal.
	// \|suffix\| must be a valid unique suffix.
	static std::string FindGreaterWithSuffix(const std::string& str,
	const std::string& suffix);
	// Returns a string X such that \|before\| < (X ++ \|suffix\|) < \|after\|.
	// \|before\| and after must be a trailing substrings of valid ordinals.
	// \|suffix\| must be a valid unique suffix.
	static std::string FindBetweenWithSuffix(const std::string& before,
	const std::string& after,
	const std::string& suffix);

	// Expects a run-length compressed string as input. For internal use only.
	explicit UniquePosition(const std::string& internal_rep);

	// Expects an uncompressed prefix and suffix as input. The \|suffix\| parameter
	// must be a suffix of \|uncompressed\|. For internal use only.
	UniquePosition(const std::string& uncompressed, const std::string& suffix);

	// Implementation of an order-preserving run-length compression scheme.
	static std::string Compress(const std::string& input);
	static std::string CompressImpl(const std::string& input);
	static std::string Uncompress(const std::string& compressed);
	static bool IsValidCompressed(const std::string& str);

	// The position value after it has been run through the custom compression
	// algorithm. See Compress() and Uncompress() functions above.
	std::string compressed_;
	bool is_valid_;
	};

	} // namespace syncer

	#endif // COMPONENTS_SYNC_BASE_UNIQUE_POSITION_H_