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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * 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.
// * Neither the name of Google Inc. 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
// OWNER 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.
// Author: jschorr@google.com (Joseph Schorr)
// Based on original Protocol Buffers design by
// Sanjay Ghemawat, Jeff Dean, and others.
//
// This file defines static methods and classes for comparing Protocol
// Messages.
//
// Aug. 2008: Added Unknown Fields Comparison for messages.
// Aug. 2009: Added different options to compare repeated fields.
// Apr. 2010: Moved field comparison to FieldComparator.
#ifndef GOOGLE_PROTOBUF_UTIL_MESSAGE_DIFFERENCER_H__
#define GOOGLE_PROTOBUF_UTIL_MESSAGE_DIFFERENCER_H__
#include <map>
#include <set>
#include <string>
#include <vector>
#include <google/protobuf/descriptor.h> // FieldDescriptor
#include <google/protobuf/message.h> // Message
#include <google/protobuf/unknown_field_set.h>
#include <google/protobuf/util/field_comparator.h>
namespace google {
namespace protobuf {
class DynamicMessageFactory;
class FieldDescriptor;
namespace io {
class ZeroCopyOutputStream;
class Printer;
}
namespace util {
class DefaultFieldComparator;
class FieldContext; // declared below MessageDifferencer
// A basic differencer that can be used to determine
// the differences between two specified Protocol Messages. If any differences
// are found, the Compare method will return false, and any differencer reporter
// specified via ReportDifferencesTo will have its reporting methods called (see
// below for implementation of the report). Based off of the original
// ProtocolDifferencer implementation in //net/proto/protocol-differencer.h
// (Thanks Todd!).
//
// MessageDifferencer REQUIRES that compared messages be the same type, defined
// as messages that share the same descriptor. If not, the behavior of this
// class is undefined.
//
// People disagree on what MessageDifferencer should do when asked to compare
// messages with different descriptors. Some people think it should always
// return false. Others expect it to try to look for similar fields and
// compare them anyway -- especially if the descriptors happen to be identical.
// If we chose either of these behaviors, some set of people would find it
// surprising, and could end up writing code expecting the other behavior
// without realizing their error. Therefore, we forbid that usage.
//
// This class is implemented based on the proto2 reflection. The performance
// should be good enough for normal usages. However, for places where the
// performance is extremely sensitive, there are several alternatives:
// - Comparing serialized string
// Downside: false negatives (there are messages that are the same but their
// serialized strings are different).
// - Equals code generator by compiler plugin (net/proto2/contrib/equals_plugin)
// Downside: more generated code; maintenance overhead for the additional rule
// (must be in sync with the original proto_library).
//
// Note on handling of google.protobuf.Any: MessageDifferencer automatically
// unpacks Any::value into a Message and compares its individual fields.
// Messages encoded in a repeated Any cannot be compared using TreatAsMap.
//
//
// Note on thread-safety: MessageDifferencer is *not* thread-safe. You need to
// guard it with a lock to use the same MessageDifferencer instance from
// multiple threads. Note that it's fine to call static comparison methods
// (like MessageDifferencer::Equals) concurrently.
class LIBPROTOBUF_EXPORT MessageDifferencer {
public:
// Determines whether the supplied messages are equal. Equality is defined as
// all fields within the two messages being set to the same value. Primitive
// fields and strings are compared by value while embedded messages/groups
// are compared as if via a recursive call. Use IgnoreField() and Compare()
// if some fields should be ignored in the comparison.
//
// This method REQUIRES that the two messages have the same
// Descriptor (message1.GetDescriptor() == message2.GetDescriptor()).
static bool Equals(const Message& message1, const Message& message2);
// Determines whether the supplied messages are equivalent. Equivalency is
// defined as all fields within the two messages having the same value. This
// differs from the Equals method above in that fields with default values
// are considered set to said value automatically. For details on how default
// values are defined for each field type, see http://shortn/_x2Gv6XFrWt.
// Also, Equivalent() ignores unknown fields. Use IgnoreField() and Compare()
// if some fields should be ignored in the comparison.
//
// This method REQUIRES that the two messages have the same
// Descriptor (message1.GetDescriptor() == message2.GetDescriptor()).
static bool Equivalent(const Message& message1, const Message& message2);
// Determines whether the supplied messages are approximately equal.
// Approximate equality is defined as all fields within the two messages
// being approximately equal. Primitive (non-float) fields and strings are
// compared by value, floats are compared using MathUtil::AlmostEquals() and
// embedded messages/groups are compared as if via a recursive call. Use
// IgnoreField() and Compare() if some fields should be ignored in the
// comparison.
//
// This method REQUIRES that the two messages have the same
// Descriptor (message1.GetDescriptor() == message2.GetDescriptor()).
static bool ApproximatelyEquals(const Message& message1,
const Message& message2);
// Determines whether the supplied messages are approximately equivalent.
// Approximate equivalency is defined as all fields within the two messages
// being approximately equivalent. As in
// MessageDifferencer::ApproximatelyEquals, primitive (non-float) fields and
// strings are compared by value, floats are compared using
// MathUtil::AlmostEquals() and embedded messages/groups are compared as if
// via a recursive call. However, fields with default values are considered
// set to said value, as per MessageDiffencer::Equivalent. Use IgnoreField()
// and Compare() if some fields should be ignored in the comparison.
//
// This method REQUIRES that the two messages have the same
// Descriptor (message1.GetDescriptor() == message2.GetDescriptor()).
static bool ApproximatelyEquivalent(const Message& message1,
const Message& message2);
// Identifies an individual field in a message instance. Used for field_path,
// below.
struct SpecificField {
// For known fields, "field" is filled in and "unknown_field_number" is -1.
// For unknown fields, "field" is NULL, "unknown_field_number" is the field
// number, and "unknown_field_type" is its type.
const FieldDescriptor* field;
int unknown_field_number;
UnknownField::Type unknown_field_type;
// If this a repeated field, "index" is the index within it. For unknown
// fields, this is the index of the field among all unknown fields of the
// same field number and type.
int index;
// If "field" is a repeated field which is being treated as a map or
// a set (see TreatAsMap() and TreatAsSet(), below), new_index indicates
// the index the position to which the element has moved. If the element
// has not moved, "new_index" will have the same value as "index".
int new_index;
// For unknown fields, these are the pointers to the UnknownFieldSet
// containing the unknown fields. In certain cases (e.g. proto1's
// MessageSet, or nested groups of unknown fields), these may differ from
// the messages' internal UnknownFieldSets.
const UnknownFieldSet* unknown_field_set1;
const UnknownFieldSet* unknown_field_set2;
// For unknown fields, these are the index of the field within the
// UnknownFieldSets. One or the other will be -1 when
// reporting an addition or deletion.
int unknown_field_index1;
int unknown_field_index2;
SpecificField()
: field(NULL),
unknown_field_number(-1),
index(-1),
new_index(-1),
unknown_field_set1(NULL),
unknown_field_set2(NULL),
unknown_field_index1(-1),
unknown_field_index2(-1) {}
};
// Abstract base class from which all MessageDifferencer
// reporters derive. The five Report* methods below will be called when
// a field has been added, deleted, modified, moved, or matched. The third
// argument is a vector of FieldDescriptor pointers which describes the chain
// of fields that was taken to find the current field. For example, for a
// field found in an embedded message, the vector will contain two
// FieldDescriptors. The first will be the field of the embedded message
// itself and the second will be the actual field in the embedded message
// that was added/deleted/modified.
class LIBPROTOBUF_EXPORT Reporter {
public:
Reporter();
virtual ~Reporter();
// Reports that a field has been added into Message2.
virtual void ReportAdded(
const Message& message1, const Message& message2,
const std::vector<SpecificField>& field_path) = 0;
// Reports that a field has been deleted from Message1.
virtual void ReportDeleted(
const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path) = 0;
// Reports that the value of a field has been modified.
virtual void ReportModified(
const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path) = 0;
// Reports that a repeated field has been moved to another location. This
// only applies when using TreatAsSet or TreatAsMap() -- see below. Also
// note that for any given field, ReportModified and ReportMoved are
// mutually exclusive. If a field has been both moved and modified, then
// only ReportModified will be called.
virtual void ReportMoved(
const Message& /* message1 */,
const Message& /* message2 */,
const std::vector<SpecificField>& /* field_path */) { }
// Reports that two fields match. Useful for doing side-by-side diffs.
// This function is mutually exclusive with ReportModified and ReportMoved.
// Note that you must call set_report_matches(true) before calling Compare
// to make use of this function.
virtual void ReportMatched(
const Message& /* message1 */,
const Message& /* message2 */,
const std::vector<SpecificField>& /* field_path */) { }
// Reports that two fields would have been compared, but the
// comparison has been skipped because the field was marked as
// 'ignored' using IgnoreField(). This function is mutually
// exclusive with all the other Report() functions.
//
// The contract of ReportIgnored is slightly different than the
// other Report() functions, in that |field_path.back().index| is
// always equal to -1, even if the last field is repeated. This is
// because while the other Report() functions indicate where in a
// repeated field the action (Addition, Deletion, etc...)
// happened, when a repeated field is 'ignored', the differencer
// simply calls ReportIgnored on the repeated field as a whole and
// moves on without looking at its individual elements.
//
// Furthermore, ReportIgnored() does not indicate whether the
// fields were in fact equal or not, as Compare() does not inspect
// these fields at all. It is up to the Reporter to decide whether
// the fields are equal or not (perhaps with a second call to
// Compare()), if it cares.
virtual void ReportIgnored(
const Message& /* message1 */,
const Message& /* message2 */,
const std::vector<SpecificField>& /* field_path */) { }
// Report that an unknown field is ignored. (see comment above).
// Note this is a different function since the last SpecificField in field
// path has a null field. This could break existing Reporter.
virtual void ReportUnknownFieldIgnored(
const Message& /* message1 */, const Message& /* message2 */,
const std::vector<SpecificField>& /* field_path */) {}
private:
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(Reporter);
};
// MapKeyComparator is used to determine if two elements have the same key
// when comparing elements of a repeated field as a map.
class LIBPROTOBUF_EXPORT MapKeyComparator {
public:
MapKeyComparator();
virtual ~MapKeyComparator();
virtual bool IsMatch(
const Message& /* message1 */,
const Message& /* message2 */,
const std::vector<SpecificField>& /* parent_fields */) const {
GOOGLE_CHECK(false) << "IsMatch() is not implemented.";
return false;
}
private:
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MapKeyComparator);
};
// Abstract base class from which all IgnoreCriteria derive.
// By adding IgnoreCriteria more complex ignore logic can be implemented.
// IgnoreCriteria are registed with AddIgnoreCriteria. For each compared
// field IsIgnored is called on each added IgnoreCriteria until one returns
// true or all return false.
// IsIgnored is called for fields where at least one side has a value.
class LIBPROTOBUF_EXPORT IgnoreCriteria {
public:
IgnoreCriteria();
virtual ~IgnoreCriteria();
// Returns true if the field should be ignored.
virtual bool IsIgnored(
const Message& /* message1 */,
const Message& /* message2 */,
const FieldDescriptor* /* field */,
const std::vector<SpecificField>& /* parent_fields */) = 0;
// Returns true if the unknown field should be ignored.
// Note: This will be called for unknown fields as well in which case
// field.field will be null.
virtual bool IsUnknownFieldIgnored(
const Message& /* message1 */, const Message& /* message2 */,
const SpecificField& /* field */,
const std::vector<SpecificField>& /* parent_fields */) {
return false;
}
};
// To add a Reporter, construct default here, then use ReportDifferencesTo or
// ReportDifferencesToString.
explicit MessageDifferencer();
~MessageDifferencer();
enum MessageFieldComparison {
EQUAL, // Fields must be present in both messages
// for the messages to be considered the same.
EQUIVALENT, // Fields with default values are considered set
// for comparison purposes even if not explicitly
// set in the messages themselves. Unknown fields
// are ignored.
};
enum Scope {
FULL, // All fields of both messages are considered in the comparison.
PARTIAL // Only fields present in the first message are considered; fields
// set only in the second message will be skipped during
// comparison.
};
// DEPRECATED. Use FieldComparator::FloatComparison instead.
enum FloatComparison {
EXACT, // Floats and doubles are compared exactly.
APPROXIMATE // Floats and doubles are compared using the
// MathUtil::AlmostEquals method.
};
enum RepeatedFieldComparison {
AS_LIST, // Repeated fields are compared in order. Differing values at
// the same index are reported using ReportModified(). If the
// repeated fields have different numbers of elements, the
// unpaired elements are reported using ReportAdded() or
// ReportDeleted().
AS_SET, // Treat all the repeated fields as sets.
// See TreatAsSet(), as below.
};
// The elements of the given repeated field will be treated as a set for
// diffing purposes, so different orderings of the same elements will be
// considered equal. Elements which are present on both sides of the
// comparison but which have changed position will be reported with
// ReportMoved(). Elements which only exist on one side or the other are
// reported with ReportAdded() and ReportDeleted() regardless of their
// positions. ReportModified() is never used for this repeated field. If
// the only differences between the compared messages is that some fields
// have been moved, then the comparison returns true.
//
// Note that despite the name of this method, this is really
// comparison as multisets: if one side of the comparison has a duplicate
// in the repeated field but the other side doesn't, this will count as
// a mismatch.
//
// If the scope of comparison is set to PARTIAL, then in addition to what's
// above, extra values added to repeated fields of the second message will
// not cause the comparison to fail.
//
// Note that set comparison is currently O(k * n^2) (where n is the total
// number of elements, and k is the average size of each element). In theory
// it could be made O(n * k) with a more complex hashing implementation. Feel
// free to contribute one if the current implementation is too slow for you.
// If partial matching is also enabled, the time complexity will be O(k * n^2
// + n^3) in which n^3 is the time complexity of the maximum matching
// algorithm.
//
// REQUIRES: field->is_repeated() and field not registered with TreatAsList
void TreatAsSet(const FieldDescriptor* field);
// The elements of the given repeated field will be treated as a list for
// diffing purposes, so different orderings of the same elements will NOT be
// considered equal.
//
// REQUIRED: field->is_repeated() and field not registered with TreatAsSet
void TreatAsList(const FieldDescriptor* field);
// The elements of the given repeated field will be treated as a map for
// diffing purposes, with |key| being the map key. Thus, elements with the
// same key will be compared even if they do not appear at the same index.
// Differences are reported similarly to TreatAsSet(), except that
// ReportModified() is used to report elements with the same key but
// different values. Note that if an element is both moved and modified,
// only ReportModified() will be called. As with TreatAsSet, if the only
// differences between the compared messages is that some fields have been
// moved, then the comparison returns true. See TreatAsSet for notes on
// performance.
//
// REQUIRES: field->is_repeated()
// REQUIRES: field->cpp_type() == FieldDescriptor::CPPTYPE_MESSAGE
// REQUIRES: key->containing_type() == field->message_type()
void TreatAsMap(const FieldDescriptor* field, const FieldDescriptor* key);
// Same as TreatAsMap except that this method will use multiple fields as
// the key in comparison. All specified fields in 'key_fields' should be
// present in the compared elements. Two elements will be treated as having
// the same key iff they have the same value for every specified field. There
// are two steps in the comparison process. The first one is key matching.
// Every element from one message will be compared to every element from
// the other message. Only fields in 'key_fields' are compared in this step
// to decide if two elements have the same key. The second step is value
// comparison. Those pairs of elements with the same key (with equal value
// for every field in 'key_fields') will be compared in this step.
// Time complexity of the first step is O(s * m * n ^ 2) where s is the
// average size of the fields specified in 'key_fields', m is the number of
// fields in 'key_fields' and n is the number of elements. If partial
// matching is enabled, an extra O(n^3) will be incured by the maximum
// matching algorithm. The second step is O(k * n) where k is the average
// size of each element.
void TreatAsMapWithMultipleFieldsAsKey(
const FieldDescriptor* field,
const std::vector<const FieldDescriptor*>& key_fields);
// Same as TreatAsMapWithMultipleFieldsAsKey, except that each of the field
// do not necessarily need to be a direct subfield. Each element in
// key_field_paths indicate a path from the message being compared, listing
// successive subfield to reach the key field.
//
// REQUIRES:
// for key_field_path in key_field_paths:
// key_field_path[0]->containing_type() == field->message_type()
// for i in [0, key_field_path.size() - 1):
// key_field_path[i+1]->containing_type() ==
// key_field_path[i]->message_type()
// key_field_path[i]->cpp_type() == FieldDescriptor::CPPTYPE_MESSAGE
// !key_field_path[i]->is_repeated()
void TreatAsMapWithMultipleFieldPathsAsKey(
const FieldDescriptor* field,
const std::vector<std::vector<const FieldDescriptor*> >& key_field_paths);
// Uses a custom MapKeyComparator to determine if two elements have the same
// key when comparing a repeated field as a map.
// The caller is responsible to delete the key_comparator.
// This method varies from TreatAsMapWithMultipleFieldsAsKey only in the
// first key matching step. Rather than comparing some specified fields, it
// will invoke the IsMatch method of the given 'key_comparator' to decide if
// two elements have the same key.
void TreatAsMapUsingKeyComparator(
const FieldDescriptor* field,
const MapKeyComparator* key_comparator);
// Initiates and returns a new instance of MultipleFieldsMapKeyComparator.
MapKeyComparator* CreateMultipleFieldsMapKeyComparator(
const std::vector<std::vector<const FieldDescriptor*> >& key_field_paths);
// Add a custom ignore criteria that is evaluated in addition to the
// ignored fields added with IgnoreField.
// Takes ownership of ignore_criteria.
void AddIgnoreCriteria(IgnoreCriteria* ignore_criteria);
// Indicates that any field with the given descriptor should be
// ignored for the purposes of comparing two messages. This applies
// to fields nested in the message structure as well as top level
// ones. When the MessageDifferencer encounters an ignored field,
// ReportIgnored is called on the reporter, if one is specified.
//
// The only place where the field's 'ignored' status is not applied is when
// it is being used as a key in a field passed to TreatAsMap or is one of
// the fields passed to TreatAsMapWithMultipleFieldsAsKey.
// In this case it is compared in key matching but after that it's ignored
// in value comparison.
void IgnoreField(const FieldDescriptor* field);
// Sets the field comparator used to determine differences between protocol
// buffer fields. By default it's set to a DefaultFieldComparator instance.
// MessageDifferencer doesn't take ownership over the passed object.
// Note that this method must be called before Compare for the comparator to
// be used.
void set_field_comparator(FieldComparator* comparator);
// DEPRECATED. Pass a DefaultFieldComparator instance instead.
// Sets the fraction and margin for the float comparison of a given field.
// Uses MathUtil::WithinFractionOrMargin to compare the values.
// NOTE: this method does nothing if differencer's field comparator has been
// set to a custom object.
//
// REQUIRES: field->cpp_type == FieldDescriptor::CPPTYPE_DOUBLE or
// field->cpp_type == FieldDescriptor::CPPTYPE_FLOAT
// REQUIRES: float_comparison_ == APPROXIMATE
void SetFractionAndMargin(const FieldDescriptor* field, double fraction,
double margin);
// Sets the type of comparison (as defined in the MessageFieldComparison
// enumeration above) that is used by this differencer when determining how
// to compare fields in messages.
void set_message_field_comparison(MessageFieldComparison comparison);
// Tells the differencer whether or not to report matches. This method must
// be called before Compare. The default for a new differencer is false.
void set_report_matches(bool report_matches) {
report_matches_ = report_matches;
}
// Tells the differencer whether or not to report moves (in a set or map
// repeated field). This method must be called before Compare. The default for
// a new differencer is true.
void set_report_moves(bool report_moves) {
report_moves_ = report_moves;
}
// Sets the scope of the comparison (as defined in the Scope enumeration
// above) that is used by this differencer when determining which fields to
// compare between the messages.
void set_scope(Scope scope);
// Returns the current scope used by this differencer.
Scope scope();
// DEPRECATED. Pass a DefaultFieldComparator instance instead.
// Sets the type of comparison (as defined in the FloatComparison enumeration
// above) that is used by this differencer when comparing float (and double)
// fields in messages.
// NOTE: this method does nothing if differencer's field comparator has been
// set to a custom object.
void set_float_comparison(FloatComparison comparison);
// Sets the type of comparison for repeated field (as defined in the
// RepeatedFieldComparison enumeration above) that is used by this
// differencer when compare repeated fields in messages.
void set_repeated_field_comparison(RepeatedFieldComparison comparison);
// Compares the two specified messages, returning true if they are the same,
// false otherwise. If this method returns false, any changes between the
// two messages will be reported if a Reporter was specified via
// ReportDifferencesTo (see also ReportDifferencesToString).
//
// This method REQUIRES that the two messages have the same
// Descriptor (message1.GetDescriptor() == message2.GetDescriptor()).
bool Compare(const Message& message1, const Message& message2);
// Same as above, except comparing only the list of fields specified by the
// two vectors of FieldDescriptors.
bool CompareWithFields(
const Message& message1, const Message& message2,
const std::vector<const FieldDescriptor*>& message1_fields,
const std::vector<const FieldDescriptor*>& message2_fields);
// Automatically creates a reporter that will output the differences
// found (if any) to the specified output string pointer. Note that this
// method must be called before Compare.
void ReportDifferencesToString(string* output);
// Tells the MessageDifferencer to report differences via the specified
// reporter. Note that this method must be called before Compare for
// the reporter to be used. It is the responsibility of the caller to delete
// this object.
// If the provided pointer equals NULL, the MessageDifferencer stops reporting
// differences to any previously set reporters or output strings.
void ReportDifferencesTo(Reporter* reporter);
// An implementation of the MessageDifferencer Reporter that outputs
// any differences found in human-readable form to the supplied
// ZeroCopyOutputStream or Printer. If a printer is used, the delimiter
// *must* be '$'.
//
// WARNING: this reporter does not necessarily flush its output until it is
// destroyed. As a result, it is not safe to assume the output is valid or
// complete until after you destroy the reporter. For example, if you use a
// StreamReporter to write to a StringOutputStream, the target string may
// contain uninitialized data until the reporter is destroyed.
class LIBPROTOBUF_EXPORT StreamReporter : public Reporter {
public:
explicit StreamReporter(io::ZeroCopyOutputStream* output);
explicit StreamReporter(io::Printer* printer); // delimiter '$'
virtual ~StreamReporter();
// When set to true, the stream reporter will also output aggregates nodes
// (i.e. messages and groups) whose subfields have been modified. When
// false, will only report the individual subfields. Defaults to false.
void set_report_modified_aggregates(bool report) {
report_modified_aggregates_ = report;
}
// The following are implementations of the methods described above.
virtual void ReportAdded(const Message& message1, const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportDeleted(const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportModified(const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportMoved(const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportMatched(const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportIgnored(const Message& message1,
const Message& message2,
const std::vector<SpecificField>& field_path);
virtual void ReportUnknownFieldIgnored(
const Message& message1, const Message& message2,
const std::vector<SpecificField>& field_path);
protected:
// Prints the specified path of fields to the buffer. message is used to
// print map keys.
virtual void PrintPath(const std::vector<SpecificField>& field_path,
bool left_side, const Message& message);
// Prints the specified path of fields to the buffer.
virtual void PrintPath(const std::vector<SpecificField>& field_path,
bool left_side);
// Prints the value of fields to the buffer. left_side is true if the
// given message is from the left side of the comparison, false if it
// was the right. This is relevant only to decide whether to follow
// unknown_field_index1 or unknown_field_index2 when an unknown field
// is encountered in field_path.
virtual void PrintValue(const Message& message,
const std::vector<SpecificField>& field_path,
bool left_side);
// Prints the specified path of unknown fields to the buffer.
virtual void PrintUnknownFieldValue(const UnknownField* unknown_field);
// Just print a string
void Print(const string& str);
private:
io::Printer* printer_;
bool delete_printer_;
bool report_modified_aggregates_;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(StreamReporter);
};
private:
friend class DefaultFieldComparator;
// A MapKeyComparator to be used in TreatAsMapUsingKeyComparator.
// Implementation of this class needs to do field value comparison which
// relies on some private methods of MessageDifferencer. That's why this
// class is declared as a nested class of MessageDifferencer.
class MultipleFieldsMapKeyComparator;
// A MapKeyComparator for use with map_entries.
class LIBPROTOBUF_EXPORT MapEntryKeyComparator : public MapKeyComparator {
public:
explicit MapEntryKeyComparator(MessageDifferencer* message_differencer);
virtual bool IsMatch(const Message& message1, const Message& message2,
const std::vector<SpecificField>& parent_fields) const;
private:
MessageDifferencer* message_differencer_;
};
// Returns true if field1's number() is less than field2's.
static bool FieldBefore(const FieldDescriptor* field1,
const FieldDescriptor* field2);
// Combine the two lists of fields into the combined_fields output vector.
// All fields present in both lists will always be included in the combined
// list. Fields only present in one of the lists will only appear in the
// combined list if the corresponding fields_scope option is set to FULL.
void CombineFields(const std::vector<const FieldDescriptor*>& fields1,
Scope fields1_scope,
const std::vector<const FieldDescriptor*>& fields2,
Scope fields2_scope,
std::vector<const FieldDescriptor*>* combined_fields);
// Internal version of the Compare method which performs the actual
// comparison. The parent_fields vector is a vector containing field
// descriptors of all fields accessed to get to this comparison operation
// (i.e. if the current message is an embedded message, the parent_fields
// vector will contain the field that has this embedded message).
bool Compare(const Message& message1, const Message& message2,
std::vector<SpecificField>* parent_fields);
// Compares all the unknown fields in two messages.
bool CompareUnknownFields(const Message& message1, const Message& message2,
const google::protobuf::UnknownFieldSet&,
const google::protobuf::UnknownFieldSet&,
std::vector<SpecificField>* parent_fields);
// Compares the specified messages for the requested field lists. The field
// lists are modified depending on comparison settings, and then passed to
// CompareWithFieldsInternal.
bool CompareRequestedFieldsUsingSettings(
const Message& message1, const Message& message2,
const std::vector<const FieldDescriptor*>& message1_fields,
const std::vector<const FieldDescriptor*>& message2_fields,
std::vector<SpecificField>* parent_fields);
// Compares the specified messages with the specified field lists.
bool CompareWithFieldsInternal(
const Message& message1, const Message& message2,
const std::vector<const FieldDescriptor*>& message1_fields,
const std::vector<const FieldDescriptor*>& message2_fields,
std::vector<SpecificField>* parent_fields);
// Compares the repeated fields, and report the error.
bool CompareRepeatedField(const Message& message1, const Message& message2,
const FieldDescriptor* field,
std::vector<SpecificField>* parent_fields);
// Shorthand for CompareFieldValueUsingParentFields with NULL parent_fields.
bool CompareFieldValue(const Message& message1,
const Message& message2,
const FieldDescriptor* field,
int index1,
int index2);
// Compares the specified field on the two messages, returning
// true if they are the same, false otherwise. For repeated fields,
// this method only compares the value in the specified index. This method
// uses Compare functions to recurse into submessages.
// The parent_fields vector is used in calls to a Reporter instance calls.
// It can be NULL, in which case the MessageDifferencer will create new
// list of parent messages if it needs to recursively compare the given field.
// To avoid confusing users you should not set it to NULL unless you modified
// Reporter to handle the change of parent_fields correctly.
bool CompareFieldValueUsingParentFields(
const Message& message1,
const Message& message2,
const FieldDescriptor* field,
int index1,
int index2,
std::vector<SpecificField>* parent_fields);
// Compares the specified field on the two messages, returning comparison
// result, as returned by appropriate FieldComparator.
FieldComparator::ComparisonResult GetFieldComparisonResult(
const Message& message1, const Message& message2,
const FieldDescriptor* field, int index1, int index2,
const FieldContext* field_context);
// Check if the two elements in the repeated field are match to each other.
// if the key_comprator is NULL, this function returns true when the two
// elements are equal.
bool IsMatch(const FieldDescriptor* repeated_field,
const MapKeyComparator* key_comparator,
const Message* message1, const Message* message2,
const std::vector<SpecificField>& parent_fields,
int index1, int index2);
// Returns true when this repeated field has been configured to be treated
// as a set.
bool IsTreatedAsSet(const FieldDescriptor* field);
// Returns true when this repeated field is to be compared as a subset, ie.
// has been configured to be treated as a set or map and scope is set to
// PARTIAL.
bool IsTreatedAsSubset(const FieldDescriptor* field);
// Returns true if this field is to be ignored when this
// MessageDifferencer compares messages.
bool IsIgnored(
const Message& message1,
const Message& message2,
const FieldDescriptor* field,
const std::vector<SpecificField>& parent_fields);
// Returns true if this unknown field is to be ignored when this
// MessageDifferencer compares messages.
bool IsUnknownFieldIgnored(const Message& message1, const Message& message2,
const SpecificField& field,
const std::vector<SpecificField>& parent_fields);
// Returns MapKeyComparator* when this field has been configured to be treated
// as a map or its is_map() return true. If not, returns NULL.
const MapKeyComparator* GetMapKeyComparator(
const FieldDescriptor* field) const;
// Attempts to match indices of a repeated field, so that the contained values
// match. Clears output vectors and sets their values to indices of paired
// messages, ie. if message1[0] matches message2[1], then match_list1[0] == 1
// and match_list2[1] == 0. The unmatched indices are indicated by -1.
// This method returns false if the match failed. However, it doesn't mean
// that the comparison succeeds when this method returns true (you need to
// double-check in this case).
bool MatchRepeatedFieldIndices(
const Message& message1,
const Message& message2,
const FieldDescriptor* repeated_field,
const std::vector<SpecificField>& parent_fields,
std::vector<int>* match_list1,
std::vector<int>* match_list2);
// If "any" is of type google.protobuf.Any, extract its payload using
// DynamicMessageFactory and store in "data".
bool UnpackAny(const Message& any, std::unique_ptr<Message>* data);
// Checks if index is equal to new_index in all the specific fields.
static bool CheckPathChanged(const std::vector<SpecificField>& parent_fields);
// Defines a map between field descriptors and their MapKeyComparators.
// Used for repeated fields when they are configured as TreatAsMap.
typedef std::map<const FieldDescriptor*,
const MapKeyComparator*> FieldKeyComparatorMap;
// Defines a set to store field descriptors. Used for repeated fields when
// they are configured as TreatAsSet.
typedef std::set<const FieldDescriptor*> FieldSet;
Reporter* reporter_;
DefaultFieldComparator default_field_comparator_;
FieldComparator* field_comparator_;
MessageFieldComparison message_field_comparison_;
Scope scope_;
RepeatedFieldComparison repeated_field_comparison_;
FieldSet set_fields_;
FieldSet list_fields_;
// Keeps track of MapKeyComparators that are created within
// MessageDifferencer. These MapKeyComparators should be deleted
// before MessageDifferencer is destroyed.
// When TreatAsMap or TreatAsMapWithMultipleFieldsAsKey is called, we don't
// store the supplied FieldDescriptors directly. Instead, a new
// MapKeyComparator is created for comparison purpose.
std::vector<MapKeyComparator*> owned_key_comparators_;
FieldKeyComparatorMap map_field_key_comparator_;
MapEntryKeyComparator map_entry_key_comparator_;
std::vector<IgnoreCriteria*> ignore_criteria_;
FieldSet ignored_fields_;
bool report_matches_;
bool report_moves_;
string* output_string_;
std::unique_ptr<DynamicMessageFactory> dynamic_message_factory_;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MessageDifferencer);
};
// This class provides extra information to the FieldComparator::Compare
// function.
class LIBPROTOBUF_EXPORT FieldContext {
public:
explicit FieldContext(
std::vector<MessageDifferencer::SpecificField>* parent_fields)
: parent_fields_(parent_fields) {}
std::vector<MessageDifferencer::SpecificField>* parent_fields() const {
return parent_fields_;
}
private:
std::vector<MessageDifferencer::SpecificField>* parent_fields_;
};
}
}
} // namespace google
#endif // GOOGLE_PROTOBUF_UTIL_MESSAGE_DIFFERENCER_H__