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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
public struct TMap<Key : TSerializable & Hashable, Value : TSerializable & Hashable>: Collection, ExpressibleByDictionaryLiteral, Hashable, TSerializable {
public typealias Storage = Dictionary<Key, Value>
public typealias Element = Storage.Element
public typealias Index = Storage.Index
public typealias IndexDistance = Int
public typealias Indices = Storage.Indices
public typealias SubSequence = Storage.SubSequence
internal var storage = Storage()
/// Mark: Be Like Dictionary
public func indexForKey(_ key: Key) -> Index? {
return storage.index(forKey: key)
}
public mutating func updateValue(_ value: Value, forKey key: Key) -> Value? {
return storage.updateValue(value, forKey: key)
}
public mutating func removeValueForKey(_ key: Key) -> Value? {
return storage.removeValue(forKey: key)
}
public init(minimumCapacity: Int) {
storage = Storage(minimumCapacity: minimumCapacity)
}
/// init from Dictionary<K,V>
public init(_ dict: [Key: Value]) {
storage = dict
}
/// read only access to storage if needed as Dictionary<K,V>
public var dictionary: [Key: Value] {
return storage
}
public subscript (key: Key) -> Value? {
get {
return storage[key]
}
set {
storage[key] = newValue
}
}
/// Mark: Collection
public var indices: Indices {
return storage.indices
}
public func distance(from start: Index, to end: Index) -> IndexDistance {
return storage.distance(from: start, to: end)
}
public func index(_ i: Index, offsetBy n: IndexDistance) -> Index {
return storage.index(i, offsetBy: n)
}
public func index(_ i: Index, offsetBy n: IndexDistance, limitedBy limit: Index) -> Index? {
return storage.index(i, offsetBy: n, limitedBy: limit)
}
public subscript(position: Index) -> Element {
return storage[position]
}
/// Mark: IndexableBase
public var startIndex: Index { return storage.startIndex }
public var endIndex: Index { return storage.endIndex }
public func index(after i: Index) -> Index {
return storage.index(after: i)
}
public func formIndex(after i: inout Index) {
storage.formIndex(after: &i)
}
public subscript(bounds: Range<Index>) -> SubSequence {
return storage[bounds]
}
/// Mark: DictionaryLiteralConvertible
public init(dictionaryLiteral elements: (Key, Value)...) {
storage = Storage()
for (key, value) in elements {
storage[key] = value
}
}
/// Mark: Hashable
public func hash(into hasher: inout Hasher) {
hasher.combine(storage)
}
/// Mark: TSerializable
public static var thriftType : TType { return .map }
public init() {
storage = Storage()
}
public static func read(from proto: TProtocol) throws -> TMap {
let (keyType, valueType, size) = try proto.readMapBegin()
if size > 0 {
if keyType != Key.thriftType {
throw TProtocolError(error: .invalidData,
message: "Unexpected TMap Key Type",
extendedError: .unexpectedType(type: keyType))
}
if valueType != Value.thriftType {
throw TProtocolError(error: .invalidData,
message: "Unexpected TMap Value Type",
extendedError: .unexpectedType(type: valueType))
}
}
var map = TMap()
for _ in 0..<size {
let key = try Key.read(from: proto)
let value = try Value.read(from: proto)
map.storage[key] = value
}
try proto.readMapEnd()
return map
}
public func write(to proto: TProtocol) throws {
try proto.writeMapBegin(keyType: Key.thriftType,
valueType: Value.thriftType, size: Int32(self.count))
for (key, value) in self.storage {
try Key.write(key, to: proto)
try Value.write(value, to: proto)
}
try proto.writeMapEnd()
}
}
/// Mark: CustomStringConvertible, CustomDebugStringConvertible
extension TMap : CustomStringConvertible, CustomDebugStringConvertible {
public var description : String {
return storage.description
}
public var debugDescription : String {
return storage.debugDescription
}
}
/// Mark: Equatable
public func ==<Key, Value>(lhs: TMap<Key,Value>, rhs: TMap<Key, Value>) -> Bool {
if lhs.count != rhs.count {
return false
}
return lhs.storage == rhs.storage
}
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