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481 lines
18 KiB
481 lines
18 KiB
//********************************************************* |
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// |
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// Copyright (c) Microsoft. All rights reserved. |
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// THIS CODE IS PROVIDED *AS IS* WITHOUT WARRANTY OF |
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// ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING ANY |
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// IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR |
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// PURPOSE, MERCHANTABILITY, OR NON-INFRINGEMENT. |
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// |
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//********************************************************* |
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// |
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// SuspensionManager.cpp |
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// Implementation of the SuspensionManager class |
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// |
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#include "pch.h" |
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#include "SuspensionManager.h" |
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#include <collection.h> |
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#include <algorithm> |
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using namespace SDKSample::Common; |
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using namespace Concurrency; |
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using namespace Platform; |
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using namespace Platform::Collections; |
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using namespace Windows::Foundation; |
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using namespace Windows::Foundation::Collections; |
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using namespace Windows::Storage; |
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using namespace Windows::Storage::FileProperties; |
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using namespace Windows::Storage::Streams; |
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using namespace Windows::UI::Xaml; |
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using namespace Windows::UI::Xaml::Controls; |
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using namespace Windows::UI::Xaml::Interop; |
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namespace |
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{ |
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Map<String^, Object^>^ _sessionState = ref new Map<String^, Object^>(); |
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String^ sessionStateFilename = "_sessionState.dat"; |
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// Forward declarations for object object read / write support |
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void WriteObject(Windows::Storage::Streams::DataWriter^ writer, Platform::Object^ object); |
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Platform::Object^ ReadObject(Windows::Storage::Streams::DataReader^ reader); |
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} |
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/// <summary> |
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/// Provides access to global session state for the current session. This state is serialized by |
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/// <see cref="SaveAsync"/> and restored by <see cref="RestoreAsync"/> which require values to be |
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/// one of the following: boxed values including integers, floating-point singles and doubles, |
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/// wide characters, boolean, Strings and Guids, or Map<String^, Object^> where map values are |
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/// subject to the same constraints. Session state should be as compact as possible. |
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/// </summary> |
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IMap<String^, Object^>^ SuspensionManager::SessionState::get(void) |
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{ |
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return _sessionState; |
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} |
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/// <summary> |
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/// Wrap a WeakReference as a reference object for use in a collection. |
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/// </summary> |
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private ref class WeakFrame sealed |
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{ |
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private: |
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WeakReference _frameReference; |
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internal: |
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WeakFrame(Frame^ frame) { _frameReference = frame; } |
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property Frame^ ResolvedFrame |
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{ |
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Frame^ get(void) { return _frameReference.Resolve<Frame>(); } |
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}; |
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}; |
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namespace |
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{ |
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std::vector<WeakFrame^> _registeredFrames; |
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DependencyProperty^ FrameSessionStateKeyProperty = |
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DependencyProperty::RegisterAttached("_FrameSessionStateKeyProperty", |
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TypeName(String::typeid), TypeName(SuspensionManager::typeid), nullptr); |
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DependencyProperty^ FrameSessionStateProperty = |
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DependencyProperty::RegisterAttached("_FrameSessionStateProperty", |
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TypeName(IMap<String^, Object^>::typeid), TypeName(SuspensionManager::typeid), nullptr); |
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} |
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/// <summary> |
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/// Registers a <see cref="Frame"/> instance to allow its navigation history to be saved to |
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/// and restored from <see cref="SessionState"/>. Frames should be registered once |
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/// immediately after creation if they will participate in session state management. Upon |
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/// registration if state has already been restored for the specified key |
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/// the navigation history will immediately be restored. Subsequent invocations of |
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/// <see cref="RestoreAsync(String)"/> will also restore navigation history. |
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/// </summary> |
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/// <param name="frame">An instance whose navigation history should be managed by |
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/// <see cref="SuspensionManager"/></param> |
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/// <param name="sessionStateKey">A unique key into <see cref="SessionState"/> used to |
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/// store navigation-related information.</param> |
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void SuspensionManager::RegisterFrame(Frame^ frame, String^ sessionStateKey) |
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{ |
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if (frame->GetValue(FrameSessionStateKeyProperty) != nullptr) |
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{ |
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throw ref new FailureException("Frames can only be registered to one session state key"); |
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} |
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if (frame->GetValue(FrameSessionStateProperty) != nullptr) |
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{ |
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throw ref new FailureException("Frames must be either be registered before accessing frame session state, or not registered at all"); |
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} |
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// Use a dependency property to associate the session key with a frame, and keep a list of frames whose |
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// navigation state should be managed |
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frame->SetValue(FrameSessionStateKeyProperty, sessionStateKey); |
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_registeredFrames.insert(_registeredFrames.begin(), ref new WeakFrame(frame)); |
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// Check to see if navigation state can be restored |
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RestoreFrameNavigationState(frame); |
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} |
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/// <summary> |
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/// Disassociates a <see cref="Frame"/> previously registered by <see cref="RegisterFrame"/> |
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/// from <see cref="SessionState"/>. Any navigation state previously captured will be |
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/// removed. |
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/// </summary> |
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/// <param name="frame">An instance whose navigation history should no longer be |
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/// managed.</param> |
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void SuspensionManager::UnregisterFrame(Frame^ frame) |
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{ |
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// Remove session state and remove the frame from the list of frames whose navigation |
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// state will be saved (along with any weak references that are no longer reachable) |
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auto key = safe_cast<String^>(frame->GetValue(FrameSessionStateKeyProperty)); |
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if (SessionState->HasKey(key)) SessionState->Remove(key); |
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_registeredFrames.erase( |
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std::remove_if(_registeredFrames.begin(), _registeredFrames.end(), [=](WeakFrame^& e) |
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{ |
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auto testFrame = e->ResolvedFrame; |
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return testFrame == nullptr || testFrame == frame; |
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}), |
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_registeredFrames.end() |
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); |
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} |
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/// <summary> |
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/// Provides storage for session state associated with the specified <see cref="Frame"/>. |
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/// Frames that have been previously registered with <see cref="RegisterFrame"/> have |
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/// their session state saved and restored automatically as a part of the global |
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/// <see cref="SessionState"/>. Frames that are not registered have transient state |
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/// that can still be useful when restoring pages that have been discarded from the |
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/// navigation cache. |
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/// </summary> |
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/// <remarks>Apps may choose to rely on <see cref="LayoutAwarePage"/> to manage |
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/// page-specific state instead of working with frame session state directly.</remarks> |
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/// <param name="frame">The instance for which session state is desired.</param> |
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/// <returns>A collection of state subject to the same serialization mechanism as |
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/// <see cref="SessionState"/>.</returns> |
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IMap<String^, Object^>^ SuspensionManager::SessionStateForFrame(Frame^ frame) |
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{ |
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auto frameState = safe_cast<IMap<String^, Object^>^>(frame->GetValue(FrameSessionStateProperty)); |
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if (frameState == nullptr) |
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{ |
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auto frameSessionKey = safe_cast<String^>(frame->GetValue(FrameSessionStateKeyProperty)); |
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if (frameSessionKey != nullptr) |
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{ |
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// Registered frames reflect the corresponding session state |
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if (!_sessionState->HasKey(frameSessionKey)) |
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{ |
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_sessionState->Insert(frameSessionKey, ref new Map<String^, Object^>()); |
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} |
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frameState = safe_cast<IMap<String^, Object^>^>(_sessionState->Lookup(frameSessionKey)); |
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} |
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else |
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{ |
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// Frames that aren't registered have transient state |
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frameState = ref new Map<String^, Object^>(); |
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} |
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frame->SetValue(FrameSessionStateProperty, frameState); |
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} |
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return frameState; |
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} |
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void SuspensionManager::RestoreFrameNavigationState(Frame^ frame) |
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{ |
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auto frameState = SessionStateForFrame(frame); |
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if (frameState->HasKey("Navigation")) |
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{ |
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frame->SetNavigationState(safe_cast<String^>(frameState->Lookup("Navigation"))); |
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} |
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} |
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void SuspensionManager::SaveFrameNavigationState(Frame^ frame) |
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{ |
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auto frameState = SessionStateForFrame(frame); |
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frameState->Insert("Navigation", frame->GetNavigationState()); |
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} |
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/// <summary> |
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/// Save the current <see cref="SessionState"/>. Any <see cref="Frame"/> instances |
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/// registered with <see cref="RegisterFrame"/> will also preserve their current |
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/// navigation stack, which in turn gives their active <see cref="Page"/> an opportunity |
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/// to save its state. |
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/// </summary> |
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/// <returns>An asynchronous task that reflects when session state has been saved.</returns> |
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task<void> SuspensionManager::SaveAsync(void) |
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{ |
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// Save the navigation state for all registered frames |
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for (auto&& weakFrame : _registeredFrames) |
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{ |
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auto frame = weakFrame->ResolvedFrame; |
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if (frame != nullptr) SaveFrameNavigationState(frame); |
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} |
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// Serialize the session state synchronously to avoid asynchronous access to shared |
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// state |
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auto sessionData = ref new InMemoryRandomAccessStream(); |
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auto sessionDataWriter = ref new DataWriter(sessionData->GetOutputStreamAt(0)); |
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WriteObject(sessionDataWriter, _sessionState); |
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// Once session state has been captured synchronously, begin the asynchronous process |
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// of writing the result to disk |
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return task<unsigned int>(sessionDataWriter->StoreAsync()).then([=](unsigned int) |
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{ |
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return sessionDataWriter->FlushAsync(); |
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}).then([=](bool flushSucceeded) |
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{ |
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(void)flushSucceeded; // Unused parameter |
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return ApplicationData::Current->LocalFolder->CreateFileAsync(sessionStateFilename, |
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CreationCollisionOption::ReplaceExisting); |
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}).then([=](StorageFile^ createdFile) |
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{ |
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return createdFile->OpenAsync(FileAccessMode::ReadWrite); |
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}).then([=](IRandomAccessStream^ newStream) |
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{ |
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return RandomAccessStream::CopyAndCloseAsync( |
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sessionData->GetInputStreamAt(0), newStream->GetOutputStreamAt(0)); |
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}).then([=](UINT64 copiedBytes) |
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{ |
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(void)copiedBytes; // Unused parameter |
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return; |
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}); |
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} |
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/// <summary> |
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/// Restores previously saved <see cref="SessionState"/>. Any <see cref="Frame"/> instances |
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/// registered with <see cref="RegisterFrame"/> will also restore their prior navigation |
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/// state, which in turn gives their active <see cref="Page"/> an opportunity restore its |
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/// state. |
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/// </summary> |
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/// <param name="version">A version identifier compared to the session state to prevent |
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/// incompatible versions of session state from reaching app code. Saved state with a |
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/// different version will be ignored, resulting in an empty <see cref="SessionState"/> |
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/// dictionary.</param> |
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/// <returns>An asynchronous task that reflects when session state has been read. The |
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/// content of <see cref="SessionState"/> should not be relied upon until this task |
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/// completes.</returns> |
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task<void> SuspensionManager::RestoreAsync(void) |
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{ |
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_sessionState->Clear(); |
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task<StorageFile^> getFileTask(ApplicationData::Current->LocalFolder->GetFileAsync(sessionStateFilename)); |
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return getFileTask.then([=](StorageFile^ stateFile) |
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{ |
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task<BasicProperties^> getBasicPropertiesTask(stateFile->GetBasicPropertiesAsync()); |
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return getBasicPropertiesTask.then([=](BasicProperties^ stateFileProperties) |
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{ |
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auto size = unsigned int(stateFileProperties->Size); |
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if (size != stateFileProperties->Size) throw ref new FailureException("Session state larger than 4GB"); |
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task<IRandomAccessStreamWithContentType^> openReadTask(stateFile->OpenReadAsync()); |
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return openReadTask.then([=](IRandomAccessStreamWithContentType^ stateFileStream) |
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{ |
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auto stateReader = ref new DataReader(stateFileStream); |
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return task<unsigned int>(stateReader->LoadAsync(size)).then([=](unsigned int bytesRead) |
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{ |
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(void)bytesRead; // Unused parameter |
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// Deserialize the Session State |
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Object^ content = ReadObject(stateReader); |
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_sessionState = (Map<String^, Object^>^)content; |
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// Restore any registered frames to their saved state |
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for (auto&& weakFrame : _registeredFrames) |
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{ |
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auto frame = weakFrame->ResolvedFrame; |
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if (frame != nullptr) |
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{ |
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frame->ClearValue(FrameSessionStateProperty); |
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RestoreFrameNavigationState(frame); |
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} |
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} |
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}, task_continuation_context::use_current()); |
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}); |
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}); |
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}); |
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} |
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#pragma region Object serialization for a known set of types |
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namespace |
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{ |
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// Codes used for identifying serialized types |
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enum StreamTypes { |
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NullPtrType = 0, |
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// Supported IPropertyValue types |
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UInt8Type, UInt16Type, UInt32Type, UInt64Type, Int16Type, Int32Type, Int64Type, |
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SingleType, DoubleType, BooleanType, Char16Type, GuidType, StringType, |
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// Additional supported types |
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StringToObjectMapType, |
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// Marker values used to ensure stream integrity |
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MapEndMarker |
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}; |
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void WriteString(DataWriter^ writer, String^ string) |
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{ |
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writer->WriteByte(StringType); |
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writer->WriteUInt32(writer->MeasureString(string)); |
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writer->WriteString(string); |
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} |
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void WriteProperty(DataWriter^ writer, IPropertyValue^ propertyValue) |
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{ |
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switch (propertyValue->Type) |
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{ |
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case PropertyType::UInt8: |
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writer->WriteByte(UInt8Type); |
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writer->WriteByte(propertyValue->GetUInt8()); |
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return; |
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case PropertyType::UInt16: |
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writer->WriteByte(UInt16Type); |
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writer->WriteUInt16(propertyValue->GetUInt16()); |
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return; |
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case PropertyType::UInt32: |
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writer->WriteByte(UInt32Type); |
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writer->WriteUInt32(propertyValue->GetUInt32()); |
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return; |
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case PropertyType::UInt64: |
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writer->WriteByte(UInt64Type); |
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writer->WriteUInt64(propertyValue->GetUInt64()); |
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return; |
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case PropertyType::Int16: |
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writer->WriteByte(Int16Type); |
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writer->WriteUInt16(propertyValue->GetInt16()); |
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return; |
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case PropertyType::Int32: |
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writer->WriteByte(Int32Type); |
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writer->WriteUInt32(propertyValue->GetInt32()); |
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return; |
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case PropertyType::Int64: |
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writer->WriteByte(Int64Type); |
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writer->WriteUInt64(propertyValue->GetInt64()); |
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return; |
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case PropertyType::Single: |
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writer->WriteByte(SingleType); |
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writer->WriteSingle(propertyValue->GetSingle()); |
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return; |
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case PropertyType::Double: |
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writer->WriteByte(DoubleType); |
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writer->WriteDouble(propertyValue->GetDouble()); |
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return; |
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case PropertyType::Boolean: |
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writer->WriteByte(BooleanType); |
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writer->WriteBoolean(propertyValue->GetBoolean()); |
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return; |
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case PropertyType::Char16: |
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writer->WriteByte(Char16Type); |
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writer->WriteUInt16(propertyValue->GetChar16()); |
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return; |
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case PropertyType::Guid: |
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writer->WriteByte(GuidType); |
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writer->WriteGuid(propertyValue->GetGuid()); |
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return; |
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case PropertyType::String: |
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WriteString(writer, propertyValue->GetString()); |
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return; |
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default: |
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throw ref new InvalidArgumentException("Unsupported property type"); |
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} |
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} |
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void WriteStringToObjectMap(DataWriter^ writer, IMap<String^, Object^>^ map) |
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{ |
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writer->WriteByte(StringToObjectMapType); |
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writer->WriteUInt32(map->Size); |
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for (auto&& pair : map) |
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{ |
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WriteObject(writer, pair->Key); |
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WriteObject(writer, pair->Value); |
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} |
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writer->WriteByte(MapEndMarker); |
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} |
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void WriteObject(DataWriter^ writer, Object^ object) |
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{ |
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if (object == nullptr) |
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{ |
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writer->WriteByte(NullPtrType); |
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return; |
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} |
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auto propertyObject = dynamic_cast<IPropertyValue^>(object); |
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if (propertyObject != nullptr) |
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{ |
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WriteProperty(writer, propertyObject); |
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return; |
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} |
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auto mapObject = dynamic_cast<IMap<String^, Object^>^>(object); |
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if (mapObject != nullptr) |
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{ |
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WriteStringToObjectMap(writer, mapObject); |
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return; |
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} |
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throw ref new InvalidArgumentException("Unsupported data type"); |
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} |
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String^ ReadString(DataReader^ reader) |
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{ |
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int length = reader->ReadUInt32(); |
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String^ string = reader->ReadString(length); |
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return string; |
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} |
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IMap<String^, Object^>^ ReadStringToObjectMap(DataReader^ reader) |
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{ |
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auto map = ref new Map<String^, Object^>(); |
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auto size = reader->ReadUInt32(); |
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for (unsigned int index = 0; index < size; index++) |
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{ |
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auto key = safe_cast<String^>(ReadObject(reader)); |
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auto value = ReadObject(reader); |
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map->Insert(key, value); |
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} |
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if (reader->ReadByte() != MapEndMarker) |
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{ |
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throw ref new InvalidArgumentException("Invalid stream"); |
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} |
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return map; |
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} |
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Object^ ReadObject(DataReader^ reader) |
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{ |
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auto type = reader->ReadByte(); |
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switch (type) |
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{ |
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case NullPtrType: |
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return nullptr; |
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case UInt8Type: |
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return reader->ReadByte(); |
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case UInt16Type: |
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return reader->ReadUInt16(); |
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case UInt32Type: |
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return reader->ReadUInt32(); |
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case UInt64Type: |
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return reader->ReadUInt64(); |
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case Int16Type: |
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return reader->ReadInt16(); |
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case Int32Type: |
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return reader->ReadInt32(); |
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case Int64Type: |
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return reader->ReadInt64(); |
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case SingleType: |
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return reader->ReadSingle(); |
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case DoubleType: |
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return reader->ReadDouble(); |
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case BooleanType: |
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return reader->ReadBoolean(); |
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case Char16Type: |
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return (char16_t)reader->ReadUInt16(); |
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case GuidType: |
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return reader->ReadGuid(); |
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case StringType: |
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return ReadString(reader); |
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case StringToObjectMapType: |
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return ReadStringToObjectMap(reader); |
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default: |
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throw ref new InvalidArgumentException("Unsupported property type"); |
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} |
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} |
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} |
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#pragma endregion
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