third_party/protobuf/csharp/src/Google.Protobuf/Collections/MapField.cs - Issue 1291903002: Pull new version of protobuf sources.

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Issue 1291903002: Pull new version of protobuf sources. (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: Created 5 years, 4 months ago

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	1 #region Copyright notice and license

	2 // Protocol Buffers - Google's data interchange format

	3 // Copyright 2015 Google Inc. All rights reserved.

	4 // https://developers.google.com/protocol-buffers/

	5 //

	6 // Redistribution and use in source and binary forms, with or without

	7 // modification, are permitted provided that the following conditions are

	8 // met:

	9 //

	10 // * Redistributions of source code must retain the above copyright

	11 // notice, this list of conditions and the following disclaimer.

	12 // * Redistributions in binary form must reproduce the above

	13 // copyright notice, this list of conditions and the following disclaimer

	14 // in the documentation and/or other materials provided with the

	15 // distribution.

	16 // * Neither the name of Google Inc. nor the names of its

	17 // contributors may be used to endorse or promote products derived from

	18 // this software without specific prior written permission.

	19 //

	20 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

	21 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

	22 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

	23 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT

	24 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

	25 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT

	26 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

	27 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

	28 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

	29 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE

	30 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	31 #endregion

	32

	33 using Google.Protobuf.Reflection;

	34 using System;

	35 using System.Collections;

	36 using System.Collections.Generic;

	37 using System.Linq;

	38 using Google.Protobuf.Compatibility;

	39

	40 namespace Google.Protobuf.Collections

	41 {

	42 /// <summary>

	43 /// Representation of a map field in a Protocol Buffer message.

	44 /// </summary>

	45 /// <typeparam name="TKey">Key type in the map. Must be a type supported by Protocol Buffer map keys.</typeparam>

	46 /// <typeparam name="TValue">Value type in the map. Must be a type supported by Protocol Buffers.</typeparam>

	47 /// <remarks>

	48 /// This implementation preserves insertion order for simplicity of testing

	49 /// code using maps fields. Overwriting an existing entry does not change th e

	50 /// position of that entry within the map. Equality is not order-sensitive.

	51 /// For string keys, the equality comparison is provided by <see cref="Strin gComparer.Ordinal" />.

	52 /// </remarks>

	53 public sealed class MapField<TKey, TValue> : IDeepCloneable<MapField<TKey, T Value>>, IDictionary<TKey, TValue>, IEquatable<MapField<TKey, TValue>>, IDiction ary

	54 {

	55 // TODO: Don't create the map/list until we have an entry. (Assume many maps will be empty.)

	56 private readonly bool allowNullValues;

	57 private readonly Dictionary<TKey, LinkedListNode<KeyValuePair<TKey, TVal ue>>> map =

	58 new Dictionary<TKey, LinkedListNode<KeyValuePair<TKey, TValue>>>();

	59 private readonly LinkedList<KeyValuePair<TKey, TValue>> list = new Linke dList<KeyValuePair<TKey, TValue>>();

	60

	61 /// <summary>

	62 /// Constructs a new map field, defaulting the value nullability to only allow null values for message types

	63 /// and non-nullable value types.

	64 /// </summary>

	65 public MapField() : this(typeof(IMessage).IsAssignableFrom(typeof(TValue )) \|\| Nullable.GetUnderlyingType(typeof(TValue)) != null)

	66 {

	67 }

	68

	69 /// <summary>

	70 /// Constructs a new map field, overriding the choice of whether null va lues are permitted in the map.

	71 /// This is used by wrapper types, where maps with string and bytes wrap pers as the value types

	72 /// support null values.

	73 /// </summary>

	74 /// <param name="allowNullValues">Whether null values are permitted in t he map or not.</param>

	75 public MapField(bool allowNullValues)

	76 {

	77 if (allowNullValues && typeof(TValue).IsValueType() && Nullable.GetU nderlyingType(typeof(TValue)) == null)

	78 {

	79 throw new ArgumentException("allowNullValues", "Non-nullable val ue types do not support null values");

	80 }

	81 this.allowNullValues = allowNullValues;

	82 }

	83

	84 /// <summary>

	85 /// Creates a deep clone of this object.

	86 /// </summary>

	87 /// <returns>

	88 /// A deep clone of this object.

	89 /// </returns>

	90 public MapField<TKey, TValue> Clone()

	91 {

	92 var clone = new MapField<TKey, TValue>(allowNullValues);

	93 // Keys are never cloneable. Values might be.

	94 if (typeof(IDeepCloneable<TValue>).IsAssignableFrom(typeof(TValue)))

	95 {

	96 foreach (var pair in list)

	97 {

	98 clone.Add(pair.Key, pair.Value == null ? pair.Value : ((IDee pCloneable<TValue>)pair.Value).Clone());

	99 }

	100 }

	101 else

	102 {

	103 // Nothing is cloneable, so we don't need to worry.

	104 clone.Add(this);

	105 }

	106 return clone;

	107 }

	108

	109 /// <summary>

	110 /// Adds the specified key/value pair to the map.

	111 /// </summary>

	112 /// <remarks>

	113 /// This operation fails if the key already exists in the map. To replac e an existing entry, use the indexer.

	114 /// </remarks>

	115 /// <param name="key">The key to add</param>

	116 /// <param name="value">The value to add.</param>

	117 /// <exception cref="System.ArgumentException">The given key already exi sts in map.</exception>

	118 public void Add(TKey key, TValue value)

	119 {

	120 // Validation of arguments happens in ContainsKey and the indexer

	121 if (ContainsKey(key))

	122 {

	123 throw new ArgumentException("Key already exists in map", "key");

	124 }

	125 this[key] = value;

	126 }

	127

	128 /// <summary>

	129 /// Determines whether the specified key is present in the map.

	130 /// </summary>

	131 /// <param name="key">The key to check.</param>

	132 /// <returns><c>true</c> if the map contains the given key; <c>false</c> otherwise.</returns>

	133 public bool ContainsKey(TKey key)

	134 {

	135 Preconditions.CheckNotNullUnconstrained(key, "key");

	136 return map.ContainsKey(key);

	137 }

	138

	139 private bool ContainsValue(TValue value)

	140 {

	141 var comparer = EqualityComparer<TValue>.Default;

	142 return list.Any(pair => comparer.Equals(pair.Value, value));

	143 }

	144

	145 /// <summary>

	146 /// Removes the entry identified by the given key from the map.

	147 /// </summary>

	148 /// <param name="key">The key indicating the entry to remove from the ma p.</param>

	149 /// <returns><c>true</c> if the map contained the given key before the e ntry was removed; <c>false</c> otherwise.</returns>

	150 public bool Remove(TKey key)

	151 {

	152 Preconditions.CheckNotNullUnconstrained(key, "key");

	153 LinkedListNode<KeyValuePair<TKey, TValue>> node;

	154 if (map.TryGetValue(key, out node))

	155 {

	156 map.Remove(key);

	157 node.List.Remove(node);

	158 return true;

	159 }

	160 else

	161 {

	162 return false;

	163 }

	164 }

	165

	166 /// <summary>

	167 /// Gets the value associated with the specified key.

	168 /// </summary>

	169 /// <param name="key">The key whose value to get.</param>

	170 /// <param name="value">When this method returns, the value associated w ith the specified key, if the key is found;

	171 /// otherwise, the default value for the type of the <paramref name="val ue"/> parameter.

	172 /// This parameter is passed uninitialized.</param>

	173 /// <returns><c>true</c> if the map contains an element with the specifi ed key; otherwise, <c>false</c>.</returns>

	174 public bool TryGetValue(TKey key, out TValue value)

	175 {

	176 LinkedListNode<KeyValuePair<TKey, TValue>> node;

	177 if (map.TryGetValue(key, out node))

	178 {

	179 value = node.Value.Value;

	180 return true;

	181 }

	182 else

	183 {

	184 value = default(TValue);

	185 return false;

	186 }

	187 }

	188

	189 /// <summary>

	190 /// Gets or sets the value associated with the specified key.

	191 /// </summary>

	192 /// <param name="key">The key of the value to get or set.</param>

	193 /// <exception cref="KeyNotFoundException">The property is retrieved and key does not exist in the collection.</exception>

	194 /// <returns>The value associated with the specified key. If the specifi ed key is not found,

	195 /// a get operation throws a <see cref="KeyNotFoundException"/>, and a s et operation creates a new element with the specified key.</returns>

	196 public TValue this[TKey key]

	197 {

	198 get

	199 {

	200 Preconditions.CheckNotNullUnconstrained(key, "key");

	201 TValue value;

	202 if (TryGetValue(key, out value))

	203 {

	204 return value;

	205 }

	206 throw new KeyNotFoundException();

	207 }

	208 set

	209 {

	210 Preconditions.CheckNotNullUnconstrained(key, "key");

	211 // value == null check here is redundant, but avoids boxing.

	212 if (value == null && !allowNullValues)

	213 {

	214 Preconditions.CheckNotNullUnconstrained(value, "value");

	215 }

	216 LinkedListNode<KeyValuePair<TKey, TValue>> node;

	217 var pair = new KeyValuePair<TKey, TValue>(key, value);

	218 if (map.TryGetValue(key, out node))

	219 {

	220 node.Value = pair;

	221 }

	222 else

	223 {

	224 node = list.AddLast(pair);

	225 map[key] = node;

	226 }

	227 }

	228 }

	229

	230 /// <summary>

	231 /// Gets a collection containing the keys in the map.

	232 /// </summary>

	233 public ICollection<TKey> Keys { get { return new MapView<TKey>(this, pai r => pair.Key, ContainsKey); } }

	234

	235 /// <summary>

	236 /// Gets a collection containing the values in the map.

	237 /// </summary>

	238 public ICollection<TValue> Values { get { return new MapView<TValue>(thi s, pair => pair.Value, ContainsValue); } }

	239

	240 /// <summary>

	241 /// Adds the specified entries to the map.

	242 /// </summary>

	243 /// <param name="entries">The entries to add to the map.</param>

	244 public void Add(IDictionary<TKey, TValue> entries)

	245 {

	246 Preconditions.CheckNotNull(entries, "entries");

	247 foreach (var pair in entries)

	248 {

	249 Add(pair.Key, pair.Value);

	250 }

	251 }

	252

	253 /// <summary>

	254 /// Returns an enumerator that iterates through the collection.

	255 /// </summary>

	256 /// <returns>

	257 /// An enumerator that can be used to iterate through the collection.

	258 /// </returns>

	259 public IEnumerator<KeyValuePair<TKey, TValue>> GetEnumerator()

	260 {

	261 return list.GetEnumerator();

	262 }

	263

	264 /// <summary>

	265 /// Returns an enumerator that iterates through a collection.

	266 /// </summary>

	267 /// <returns>

	268 /// An <see cref="T:System.Collections.IEnumerator" /> object that can b e used to iterate through the collection.

	269 /// </returns>

	270 IEnumerator IEnumerable.GetEnumerator()

	271 {

	272 return GetEnumerator();

	273 }

	274

	275 /// <summary>

	276 /// Adds the specified item to the map.

	277 /// </summary>

	278 /// <param name="item">The item to add to the map.</param>

	279 void ICollection<KeyValuePair<TKey, TValue>>.Add(KeyValuePair<TKey, TVal ue> item)

	280 {

	281 Add(item.Key, item.Value);

	282 }

	283

	284 /// <summary>

	285 /// Removes all items from the map.

	286 /// </summary>

	287 public void Clear()

	288 {

	289 list.Clear();

	290 map.Clear();

	291 }

	292

	293 /// <summary>

	294 /// Determines whether map contains an entry equivalent to the given key /value pair.

	295 /// </summary>

	296 /// <param name="item">The key/value pair to find.</param>

	297 /// <returns></returns>

	298 bool ICollection<KeyValuePair<TKey, TValue>>.Contains(KeyValuePair<TKey, TValue> item)

	299 {

	300 TValue value;

	301 return TryGetValue(item.Key, out value)

	302 && EqualityComparer<TValue>.Default.Equals(item.Value, value);

	303 }

	304

	305 /// <summary>

	306 /// Copies the key/value pairs in this map to an array.

	307 /// </summary>

	308 /// <param name="array">The array to copy the entries into.</param>

	309 /// <param name="arrayIndex">The index of the array at which to start co pying values.</param>

	310 void ICollection<KeyValuePair<TKey, TValue>>.CopyTo(KeyValuePair<TKey, T Value>[] array, int arrayIndex)

	311 {

	312 list.CopyTo(array, arrayIndex);

	313 }

	314

	315 /// <summary>

	316 /// Removes the specified key/value pair from the map.

	317 /// </summary>

	318 /// <remarks>Both the key and the value must be found for the entry to b e removed.</remarks>

	319 /// <param name="item">The key/value pair to remove.</param>

	320 /// <returns><c>true</c> if the key/value pair was found and removed; <c >false</c> otherwise.</returns>

	321 bool ICollection<KeyValuePair<TKey, TValue>>.Remove(KeyValuePair<TKey, T Value> item)

	322 {

	323 if (item.Key == null)

	324 {

	325 throw new ArgumentException("Key is null", "item");

	326 }

	327 LinkedListNode<KeyValuePair<TKey, TValue>> node;

	328 if (map.TryGetValue(item.Key, out node) &&

	329 EqualityComparer<TValue>.Default.Equals(item.Value, node.Value.V alue))

	330 {

	331 map.Remove(item.Key);

	332 node.List.Remove(node);

	333 return true;

	334 }

	335 else

	336 {

	337 return false;

	338 }

	339 }

	340

	341 /// <summary>

	342 /// Returns whether or not this map allows values to be null.

	343 /// </summary>

	344 public bool AllowsNullValues { get { return allowNullValues; } }

	345

	346 /// <summary>

	347 /// Gets the number of elements contained in the map.

	348 /// </summary>

	349 public int Count { get { return list.Count; } }

	350

	351 /// <summary>

	352 /// Gets a value indicating whether the map is read-only.

	353 /// </summary>

	354 public bool IsReadOnly { get { return false; } }

	355

	356 /// <summary>

	357 /// Determines whether the specified <see cref="System.Object" />, is eq ual to this instance.

	358 /// </summary>

	359 /// <param name="other">The <see cref="System.Object" /> to compare with this instance.</param>

	360 /// <returns>

	361 /// <c>true</c> if the specified <see cref="System.Object" /> is equal to this instance; otherwise, <c>false</c>.

	362 /// </returns>

	363 public override bool Equals(object other)

	364 {

	365 return Equals(other as MapField<TKey, TValue>);

	366 }

	367

	368 /// <summary>

	369 /// Returns a hash code for this instance.

	370 /// </summary>

	371 /// <returns>

	372 /// A hash code for this instance, suitable for use in hashing algorithm s and data structures like a hash table.

	373 /// </returns>

	374 public override int GetHashCode()

	375 {

	376 var valueComparer = EqualityComparer<TValue>.Default;

	377 int hash = 0;

	378 foreach (var pair in list)

	379 {

	380 hash ^= pair.Key.GetHashCode() * 31 + valueComparer.GetHashCode( pair.Value);

	381 }

	382 return hash;

	383 }

	384

	385 /// <summary>

	386 /// Compares this map with another for equality.

	387 /// </summary>

	388 /// <remarks>

	389 /// The order of the key/value pairs in the maps is not deemed significa nt in this comparison.

	390 /// </remarks>

	391 /// <param name="other">The map to compare this with.</param>

	392 /// <returns><c>true</c> if <paramref name="other"/> refers to an equal map; <c>false</c> otherwise.</returns>

	393 public bool Equals(MapField<TKey, TValue> other)

	394 {

	395 if (other == null)

	396 {

	397 return false;

	398 }

	399 if (other == this)

	400 {

	401 return true;

	402 }

	403 if (other.Count != this.Count)

	404 {

	405 return false;

	406 }

	407 var valueComparer = EqualityComparer<TValue>.Default;

	408 foreach (var pair in this)

	409 {

	410 TValue value;

	411 if (!other.TryGetValue(pair.Key, out value))

	412 {

	413 return false;

	414 }

	415 if (!valueComparer.Equals(value, pair.Value))

	416 {

	417 return false;

	418 }

	419 }

	420 return true;

	421 }

	422

	423 /// <summary>

	424 /// Adds entries to the map from the given stream.

	425 /// </summary>

	426 /// <remarks>

	427 /// It is assumed that the stream is initially positioned after the tag specified by the codec.

	428 /// This method will continue reading entries from the stream until the end is reached, or

	429 /// a different tag is encountered.

	430 /// </remarks>

	431 /// <param name="input">Stream to read from</param>

	432 /// <param name="codec">Codec describing how the key/value pairs are enc oded</param>

	433 public void AddEntriesFrom(CodedInputStream input, Codec codec)

	434 {

	435 var adapter = new Codec.MessageAdapter(codec);

	436 do

	437 {

	438 adapter.Reset();

	439 input.ReadMessage(adapter);

	440 this[adapter.Key] = adapter.Value;

	441 } while (input.MaybeConsumeTag(codec.MapTag));

	442 }

	443

	444 /// <summary>

	445 /// Writes the contents of this map to the given coded output stream, us ing the specified codec

	446 /// to encode each entry.

	447 /// </summary>

	448 /// <param name="output">The output stream to write to.</param>

	449 /// <param name="codec">The codec to use for each entry.</param>

	450 public void WriteTo(CodedOutputStream output, Codec codec)

	451 {

	452 var message = new Codec.MessageAdapter(codec);

	453 foreach (var entry in list)

	454 {

	455 message.Key = entry.Key;

	456 message.Value = entry.Value;

	457 output.WriteTag(codec.MapTag);

	458 output.WriteMessage(message);

	459 }

	460 }

	461

	462 /// <summary>

	463 /// Calculates the size of this map based on the given entry codec.

	464 /// </summary>

	465 /// <param name="codec">The codec to use to encode each entry.</param>

	466 /// <returns></returns>

	467 public int CalculateSize(Codec codec)

	468 {

	469 if (Count == 0)

	470 {

	471 return 0;

	472 }

	473 var message = new Codec.MessageAdapter(codec);

	474 int size = 0;

	475 foreach (var entry in list)

	476 {

	477 message.Key = entry.Key;

	478 message.Value = entry.Value;

	479 size += CodedOutputStream.ComputeRawVarint32Size(codec.MapTag);

	480 size += CodedOutputStream.ComputeMessageSize(message);

	481 }

	482 return size;

	483 }

	484

	485 #region IDictionary explicit interface implementation

	486 void IDictionary.Add(object key, object value)

	487 {

	488 Add((TKey)key, (TValue)value);

	489 }

	490

	491 bool IDictionary.Contains(object key)

	492 {

	493 if (!(key is TKey))

	494 {

	495 return false;

	496 }

	497 return ContainsKey((TKey)key);

	498 }

	499

	500 IDictionaryEnumerator IDictionary.GetEnumerator()

	501 {

	502 return new DictionaryEnumerator(GetEnumerator());

	503 }

	504

	505 void IDictionary.Remove(object key)

	506 {

	507 Preconditions.CheckNotNull(key, "key");

	508 if (!(key is TKey))

	509 {

	510 return;

	511 }

	512 Remove((TKey)key);

	513 }

	514

	515 void ICollection.CopyTo(Array array, int index)

	516 {

	517 // This is ugly and slow as heck, but with any luck it will never be used anyway.

	518 ICollection temp = this.Select(pair => new DictionaryEntry(pair.Key, pair.Value)).ToList();

	519 temp.CopyTo(array, index);

	520 }

	521

	522 bool IDictionary.IsFixedSize { get { return false; } }

	523

	524 ICollection IDictionary.Keys { get { return (ICollection)Keys; } }

	525

	526 ICollection IDictionary.Values { get { return (ICollection)Values; } }

	527

	528 bool ICollection.IsSynchronized { get { return false; } }

	529

	530 object ICollection.SyncRoot { get { return this; } }

	531

	532 object IDictionary.this[object key]

	533 {

	534 get

	535 {

	536 Preconditions.CheckNotNull(key, "key");

	537 if (!(key is TKey))

	538 {

	539 return null;

	540 }

	541 TValue value;

	542 TryGetValue((TKey)key, out value);

	543 return value;

	544 }

	545

	546 set

	547 {

	548 this[(TKey)key] = (TValue)value;

	549 }

	550 }

	551 #endregion

	552

	553 private class DictionaryEnumerator : IDictionaryEnumerator

	554 {

	555 private readonly IEnumerator<KeyValuePair<TKey, TValue>> enumerator;

	556

	557 internal DictionaryEnumerator(IEnumerator<KeyValuePair<TKey, TValue> > enumerator)

	558 {

	559 this.enumerator = enumerator;

	560 }

	561

	562 public bool MoveNext()

	563 {

	564 return enumerator.MoveNext();

	565 }

	566

	567 public void Reset()

	568 {

	569 enumerator.Reset();

	570 }

	571

	572 public object Current { get { return Entry; } }

	573 public DictionaryEntry Entry { get { return new DictionaryEntry(Key, Value); } }

	574 public object Key { get { return enumerator.Current.Key; } }

	575 public object Value { get { return enumerator.Current.Value; } }

	576 }

	577

	578 /// <summary>

	579 /// A codec for a specific map field. This contains all the information required to encode and

	580 /// decode the nested messages.

	581 /// </summary>

	582 public sealed class Codec

	583 {

	584 private readonly FieldCodec<TKey> keyCodec;

	585 private readonly FieldCodec<TValue> valueCodec;

	586 private readonly uint mapTag;

	587

	588 /// <summary>

	589 /// Creates a new entry codec based on a separate key codec and valu e codec,

	590 /// and the tag to use for each map entry.

	591 /// </summary>

	592 /// <param name="keyCodec">The key codec.</param>

	593 /// <param name="valueCodec">The value codec.</param>

	594 /// <param name="mapTag">The map tag to use to introduce each map en try.</param>

	595 public Codec(FieldCodec<TKey> keyCodec, FieldCodec<TValue> valueCode c, uint mapTag)

	596 {

	597 this.keyCodec = keyCodec;

	598 this.valueCodec = valueCodec;

	599 this.mapTag = mapTag;

	600 }

	601

	602 /// <summary>

	603 /// The tag used in the enclosing message to indicate map entries.

	604 /// </summary>

	605 internal uint MapTag { get { return mapTag; } }

	606

	607 /// <summary>

	608 /// A mutable message class, used for parsing and serializing. This

	609 /// delegates the work to a codec, but implements the <see cref="IMe ssage"/> interface

	610 /// for interop with <see cref="CodedInputStream"/> and <see cref="C odedOutputStream"/>.

	611 /// This is nested inside Codec as it's tightly coupled to the assoc iated codec,

	612 /// and it's simpler if it has direct access to all its fields.

	613 /// </summary>

	614 internal class MessageAdapter : IMessage

	615 {

	616 private readonly Codec codec;

	617 internal TKey Key { get; set; }

	618 internal TValue Value { get; set; }

	619

	620 internal MessageAdapter(Codec codec)

	621 {

	622 this.codec = codec;

	623 }

	624

	625 internal void Reset()

	626 {

	627 Key = codec.keyCodec.DefaultValue;

	628 Value = codec.valueCodec.DefaultValue;

	629 }

	630

	631 public void MergeFrom(CodedInputStream input)

	632 {

	633 uint tag;

	634 while ((tag = input.ReadTag()) != 0)

	635 {

	636 if (tag == codec.keyCodec.Tag)

	637 {

	638 Key = codec.keyCodec.Read(input);

	639 }

	640 else if (tag == codec.valueCodec.Tag)

	641 {

	642 Value = codec.valueCodec.Read(input);

	643 }

	644 else

	645 {

	646 input.SkipLastField();

	647 }

	648 }

	649 }

	650

	651 public void WriteTo(CodedOutputStream output)

	652 {

	653 codec.keyCodec.WriteTagAndValue(output, Key);

	654 codec.valueCodec.WriteTagAndValue(output, Value);

	655 }

	656

	657 public int CalculateSize()

	658 {

	659 return codec.keyCodec.CalculateSizeWithTag(Key) + codec.valu eCodec.CalculateSizeWithTag(Value);

	660 }

	661

	662 MessageDescriptor IMessage.Descriptor { get { return null; } }

	663 }

	664 }

	665

	666 private class MapView<T> : ICollection<T>, ICollection

	667 {

	668 private readonly MapField<TKey, TValue> parent;

	669 private readonly Func<KeyValuePair<TKey, TValue>, T> projection;

	670 private readonly Func<T, bool> containsCheck;

	671

	672 internal MapView(

	673 MapField<TKey, TValue> parent,

	674 Func<KeyValuePair<TKey, TValue>, T> projection,

	675 Func<T, bool> containsCheck)

	676 {

	677 this.parent = parent;

	678 this.projection = projection;

	679 this.containsCheck = containsCheck;

	680 }

	681

	682 public int Count { get { return parent.Count; } }

	683

	684 public bool IsReadOnly { get { return true; } }

	685

	686 public bool IsSynchronized { get { return false; } }

	687

	688 public object SyncRoot { get { return parent; } }

	689

	690 public void Add(T item)

	691 {

	692 throw new NotSupportedException();

	693 }

	694

	695 public void Clear()

	696 {

	697 throw new NotSupportedException();

	698 }

	699

	700 public bool Contains(T item)

	701 {

	702 return containsCheck(item);

	703 }

	704

	705 public void CopyTo(T[] array, int arrayIndex)

	706 {

	707 if (arrayIndex < 0)

	708 {

	709 throw new ArgumentOutOfRangeException("arrayIndex");

	710 }

	711 if (arrayIndex + Count >= array.Length)

	712 {

	713 throw new ArgumentException("Not enough space in the array", "array");

	714 }

	715 foreach (var item in this)

	716 {

	717 array[arrayIndex++] = item;

	718 }

	719 }

	720

	721 public IEnumerator<T> GetEnumerator()

	722 {

	723 return parent.list.Select(projection).GetEnumerator();

	724 }

	725

	726 public bool Remove(T item)

	727 {

	728 throw new NotSupportedException();

	729 }

	730

	731 IEnumerator IEnumerable.GetEnumerator()

	732 {

	733 return GetEnumerator();

	734 }

	735

	736 public void CopyTo(Array array, int index)

	737 {

	738 if (index < 0)

	739 {

	740 throw new ArgumentOutOfRangeException("index");

	741 }

	742 if (index + Count >= array.Length)

	743 {

	744 throw new ArgumentException("Not enough space in the array", "array");

	745 }

	746 foreach (var item in this)

	747 {

	748 array.SetValue(item, index++);

	749 }

	750 }

	751 }

	752 }

	753 }

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