diff options
Diffstat (limited to 'src/player/backends')
| -rw-r--r-- | src/player/backends/media_foundation.cpp | 1003 | ||||
| -rw-r--r-- | src/player/backends/media_foundation.h | 115 | ||||
| -rw-r--r-- | src/player/backends/utility/com_ptr.h | 148 | ||||
| -rw-r--r-- | src/player/backends/utility/optional.h | 517 |
4 files changed, 1783 insertions, 0 deletions
diff --git a/src/player/backends/media_foundation.cpp b/src/player/backends/media_foundation.cpp new file mode 100644 index 0000000..0585068 --- /dev/null +++ b/src/player/backends/media_foundation.cpp @@ -0,0 +1,1003 @@ +/* +Copyright (c) 2015 +Michał Cichoń <thedmd@interia.pl> + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. +*/ + +/* receive/play audio stream */ + +/* based on DShow example player */ + +extern "C" { +# include "config.h" +# include "../player2_private.h" +} +#undef restrict +#undef inline +# include "media_foundation.h" +# include <mferror.h> +# include <cassert> +# include <cmath> + +# pragma comment(lib, "mf.lib") +# pragma comment(lib, "mfplat.lib") +# pragma comment(lib, "mfuuid.lib") + +# define SAFE_CALL(expression) do { hr = expression; if (FAILED(hr)) return hr; } while (false) + +// Placement new is missing if we do not include <memory> +//static inline void* operator new(size_t size, void* ptr) +//{ +// return ptr; +//} + +template <class Q> +static HRESULT GetEventObject(IMFMediaEvent *mediaEvent, Q** outObject) +{ + *outObject = nullptr; + + PROPVARIANT var; + HRESULT hr = mediaEvent->GetValue(&var); + if (SUCCEEDED(hr)) + { + if (var.vt == VT_UNKNOWN) + hr = var.punkVal->QueryInterface(outObject); + else + hr = MF_E_INVALIDTYPE; + + PropVariantClear(&var); + } + return hr; +} + +//static HRESULT CreateMediaSource(PCWSTR pszURL, IMFMediaSource **ppSource); +static HRESULT CreatePlaybackTopology(IMFMediaSource *pSource, IMFPresentationDescriptor *pPD, IMFTopology **ppTopology); +static float MFTIMEToSeconds(MFTIME time) +{ + float seconds = (float)(time / 1e7); + return seconds; +} + +static void DefaultMediaPlayerEventCallback(MediaPlayer* player, com_ptr<IMFMediaEvent> mediaEvent, MediaEventType eventType) +{ + player->HandleEvent(mediaEvent); +} + +HRESULT MediaPlayer::Create(MediaPlayerEventCallback eventCallback, MediaPlayer** outMediaPlayer) +{ + if (!outMediaPlayer) + return E_POINTER; + + if (!eventCallback) + eventCallback = DefaultMediaPlayerEventCallback; + + // auto mediaPlayer = new (std::nothrow) MediaPlayer(eventCallback); + + // Cheep object construction without throwing exceptions around. + auto mediaPlayer = reinterpret_cast<MediaPlayer*>(malloc(sizeof(MediaPlayer))); + if (!mediaPlayer) + return E_OUTOFMEMORY; + + new (mediaPlayer) MediaPlayer(eventCallback); + + auto hr = mediaPlayer->Initialize(); + if (SUCCEEDED(hr)) + *outMediaPlayer = mediaPlayer; + else + mediaPlayer->Release(); + + return hr; +} + +MediaPlayer::MediaPlayer(MediaPlayerEventCallback eventCallback): + m_RefCount(1), + m_SourceResolver(nullptr), + m_CancelCookie(nullptr), + m_MediaSession(nullptr), + m_MediaSource(nullptr), + m_SimpleAudioVolume(nullptr), + m_PresentationClock(nullptr), + m_StreamAudioVolume(nullptr), + m_SetMasterVolume(), + m_MasterVolume(1.0f), + m_ReplayGain(0.0f), + m_EventCallback(eventCallback), + m_UserData(nullptr), + m_State(Closed), + m_CloseEvent(nullptr) +{ +} + +MediaPlayer::~MediaPlayer() +{ + // If FALSE, the app did not call Shutdown(). + assert(m_MediaSession == nullptr); + + // When MediaPlayer calls IMediaEventGenerator::BeginGetEvent on the + // media session, it causes the media session to hold a reference + // count on the MediaPlayer. + + // This creates a circular reference count between MediaPlayer and the + // media session. Calling Shutdown breaks the circular reference + // count. + + // If CreateInstance fails, the application will not call + // Shutdown. To handle that case, call Shutdown in the destructor. + Shutdown(); +} + + +ULONG STDMETHODCALLTYPE MediaPlayer::AddRef() +{ + return InterlockedIncrement(&m_RefCount); +} + +ULONG STDMETHODCALLTYPE MediaPlayer::Release() +{ + auto count = InterlockedDecrement(&m_RefCount); + if (count == 0) + { + // Do manually deleter job, since malloc was used to allocate memory + this->~MediaPlayer(); + free(this); + + // delete this; + } + return count; +} + +HRESULT STDMETHODCALLTYPE MediaPlayer::QueryInterface(REFIID iid, void** object) +{ + if (!object) + return E_POINTER; + + *object = nullptr; + if (iid == IID_IUnknown) + *object = static_cast<IUnknown*>(this); + else if (iid == IID_IMFAsyncCallback) + *object = static_cast<IMFAsyncCallback*>(this); + else + return E_NOINTERFACE; + + AddRef(); + + return S_OK; +} + +HRESULT MediaPlayer::Initialize() +{ + auto hr = MFStartup(MF_VERSION); + if (FAILED(hr)) + return hr; + + m_CloseEvent = CreateEvent(nullptr, false, false, nullptr); + if (!m_CloseEvent) + { + hr = HRESULT_FROM_WIN32(GetLastError()); + return hr; + } + + return hr; +} + +HRESULT MediaPlayer::Shutdown() +{ + auto hr = CloseSession(); + + MFShutdown(); + + if (m_CloseEvent) + { + CloseHandle(m_CloseEvent); + m_CloseEvent = nullptr; + } + + return hr; +} + +HRESULT MediaPlayer::CreateSession() +{ + HRESULT hr = S_OK; + + SAFE_CALL(CloseSession()); + assert(m_State == Closed); + SAFE_CALL(MFCreateMediaSession(nullptr, &m_MediaSession)); + SAFE_CALL(m_MediaSession->BeginGetEvent(this, nullptr)); + + return hr; +} + +HRESULT MediaPlayer::CloseSession() +{ + // The IMFMediaSession::Close method is asynchronous, but the + // CPlayer::CloseSession method waits on the MESessionClosed mediaEvent. + // + // MESessionClosed is guaranteed to be the last mediaEvent that the + // media session fires. + + HRESULT hr = S_OK; + + if (m_SourceResolver) + { + if (m_CancelCookie) + { + SAFE_CALL(m_SourceResolver->CancelObjectCreation(m_CancelCookie)); + m_CancelCookie = nullptr; + } + + m_SourceResolver = nullptr; + } + + if (m_MediaSession) + { + SAFE_CALL(SetState(Closing)); + + hr = m_MediaSession->Close(); + if (SUCCEEDED(hr)) + { + auto waitResult = WaitForSingleObject(m_CloseEvent, 5000); + assert(waitResult != WAIT_TIMEOUT); + } + } + + if (SUCCEEDED(hr)) + { + // Shut down the media source. (Synchronous operation, no events.) + if (m_MediaSource) + m_MediaSource->Shutdown(); + + // Shut down the media session. (Synchronous operation, no events.) + if (m_MediaSession) + m_MediaSession->Shutdown(); + } + + m_MediaSource = nullptr; + m_MediaSession = nullptr; + + SAFE_CALL(SetState(Closed)); + + return hr; +} + +HRESULT MediaPlayer::OpenURL(const wchar_t* url) +{ + // 1. Create a new media session. + // 2. Create the media source. + // 3. Create the topology. + // 4. Queue the topology [asynchronous] + // 5. Start playback [asynchronous - does not happen in this method.] + + auto doOpenAsync = [this](const wchar_t* url) + { + HRESULT hr = S_OK; + + SAFE_CALL(CreateSession()); + + SAFE_CALL(MFCreateSourceResolver(&m_SourceResolver)); + + SAFE_CALL(m_SourceResolver->BeginCreateObjectFromURL( + url, // URL of the source. + MF_RESOLUTION_MEDIASOURCE, // Create a source object. + NULL, // Optional property store. + &m_CancelCookie, // Receives cookie for cancelation. + this, // Callback for recieving events. + nullptr)); // User defined state. + + return hr; + }; + + auto hr = doOpenAsync(url); + if (SUCCEEDED(hr)) + SAFE_CALL(SetState(OpenPending)); + else + SAFE_CALL(SetState(Closed)); + + return hr; +} + +HRESULT MediaPlayer::ApplyTopology() +{ + HRESULT hr = S_OK; + + com_ptr<IMFTopology> topology; + com_ptr<IMFPresentationDescriptor> presentationDescriptor; + + SAFE_CALL(m_MediaSource->CreatePresentationDescriptor(&presentationDescriptor)); + SAFE_CALL(CreatePlaybackTopology(m_MediaSource, presentationDescriptor, &topology)); + SAFE_CALL(m_MediaSession->SetTopology(0, topology)); + + return hr; +} + +HRESULT MediaPlayer::StartPlayback() +{ + assert(m_MediaSession); + + PROPVARIANT start; + PropVariantInit(&start); + + if (m_State == Stopped) + { + // After stop, always play from beginning + start.vt = VT_I8; + start.uhVal.QuadPart = 0; + } + + auto hr = m_MediaSession->Start(nullptr, &start); + if (SUCCEEDED(hr)) + { + // Note: Start is an asynchronous operation. However, we + // can treat our state as being already started. If Start + // fails later, we'll get an MESessionStarted mediaEvent with + // an error code, and we will update our state then. + SAFE_CALL(SetState(Started)); + } + PropVariantClear(&start); + + return hr; +} + +HRESULT MediaPlayer::Play() +{ + if (m_State != Paused && m_State != Stopped) + return MF_E_INVALIDREQUEST; + + if (!m_MediaSession || !m_MediaSource) + return E_UNEXPECTED; + + return StartPlayback(); +} + +HRESULT MediaPlayer::Pause() +{ + if (m_State != Started) + return MF_E_INVALIDREQUEST; + + if (!m_MediaSession || !m_MediaSource) + return E_UNEXPECTED; + + auto hr = m_MediaSession->Pause(); + if (SUCCEEDED(hr)) + SAFE_CALL(SetState(Paused)); + + return hr; +} + +HRESULT MediaPlayer::Stop() +{ + if (m_State != Started && m_State != Paused) + return MF_E_INVALIDREQUEST; + + if (!m_MediaSession) + return E_UNEXPECTED; + + auto hr = m_MediaSession->Stop(); + if (SUCCEEDED(hr)) + SAFE_CALL(SetState(Stopped)); + + return hr; +} + +HRESULT MediaPlayer::SetState(State state) +{ + if (m_State == state) + return S_OK; + + auto previousState = m_State; + + m_State = state; + + HRESULT hr = S_OK; + SAFE_CALL(OnStateChange(m_State, previousState)); + return hr; +} + +MediaPlayer::State MediaPlayer::GetState() const +{ + return m_State; +} + +void MediaPlayer::SetMasterVolume(float volume) +{ + m_MasterVolume = min(1.0f, max(0.0f, volume)); + if (FAILED(ApplyMasterVolume(volume))) + m_SetMasterVolume = volume; +} + +HRESULT MediaPlayer::ApplyMasterVolume(float volume) +{ + if (m_SimpleAudioVolume) + return m_SimpleAudioVolume->SetMasterVolume(volume); + else + return E_FAIL; +} + +float MediaPlayer::GetMasterVolume() const +{ + if (m_SimpleAudioVolume) + { + float masterVolume = 1.0f; + if (SUCCEEDED(m_SimpleAudioVolume->GetMasterVolume(&masterVolume))) + m_MasterVolume = masterVolume; + } + + return m_MasterVolume; +} + + +void MediaPlayer::SetReplayGain(float replayGain) +{ + m_ReplayGain = replayGain; + ApplyReplayGain(replayGain); +} + +HRESULT MediaPlayer::ApplyReplayGain(float replayGain) +{ + if (m_StreamAudioVolume) + { + HRESULT hr = S_OK; + + // Attenuation (dB) = 20 * log10(Level) + const float attenuation = powf(10.0f, replayGain / 20.0f); + const float volume = max(0.0f, min(1.0f, attenuation)); + + // This is poor-man method since positive gain is always clipped. + // To fully implement replay gain use custom MFT to process + // audio data. + UINT32 channelCount = 0; + SAFE_CALL(m_StreamAudioVolume->GetChannelCount(&channelCount)); + + for (UINT32 i = 0; i < channelCount; ++i) + hr = m_StreamAudioVolume->SetChannelVolume(i, volume); + + return hr; + } + else + return E_FAIL; +} + +float MediaPlayer::GetReplayGain() const +{ + return m_ReplayGain; +} + +optional<float> MediaPlayer::GetPresentationTime() const +{ + if (m_PresentationClock) + { + MFTIME presentationTime = 0; + if (SUCCEEDED(m_PresentationClock->GetTime(&presentationTime))) + return MFTIMEToSeconds(presentationTime); + } + + return nullopt; +} + +optional<float> MediaPlayer::GetDuration() const +{ + if (m_MediaSource) + { + com_ptr<IMFPresentationDescriptor> presentationDescriptor; + + if (SUCCEEDED(m_MediaSource->CreatePresentationDescriptor(&presentationDescriptor))) + { + MFTIME durationTime = 0; + if (SUCCEEDED(presentationDescriptor->GetUINT64(MF_PD_DURATION, reinterpret_cast<UINT64*>(&durationTime)))) + return MFTIMEToSeconds(durationTime); + } + } + + return nullopt; +} + +void MediaPlayer::SetUserData(void* userData) +{ + m_UserData = userData; +} + +void* MediaPlayer::GetUserData() const +{ + return m_UserData; +} + + +HRESULT MediaPlayer::HandleEvent(IMFMediaEvent* mediaEvent) +{ + if (!mediaEvent) + return E_POINTER; + + HRESULT hr = S_OK; + HRESULT hrStatus = S_OK; + + MediaEventType eventType = MEUnknown; + SAFE_CALL(mediaEvent->GetType(&eventType)); + SAFE_CALL(mediaEvent->GetStatus(&hrStatus)); + SAFE_CALL(hrStatus); + + switch (eventType) + { + case MESessionTopologyStatus: SAFE_CALL(OnTopologyStatus(mediaEvent)); break; + case MEEndOfPresentation: SAFE_CALL(OnPresentationEnded(mediaEvent)); break; + case MENewPresentation: SAFE_CALL(OnNewPresentation(mediaEvent)); break; + default: break; + } + + SAFE_CALL(OnSessionEvent(mediaEvent, eventType)); + + return hr; +} + +HRESULT MediaPlayer::OnTopologyStatus(IMFMediaEvent* mediaEvent) +{ + UINT32 status = 0; + HRESULT hr = S_OK; + + SAFE_CALL(mediaEvent->GetUINT32(MF_EVENT_TOPOLOGY_STATUS, &status)); + if (status == MF_TOPOSTATUS_READY) + SAFE_CALL(StartPlayback()); + + return hr; +} + +HRESULT MediaPlayer::OnPresentationEnded(IMFMediaEvent* mediaEvent) +{ + HRESULT hr = S_OK; + SAFE_CALL(SetState(Stopped)); + return hr; +} + +HRESULT MediaPlayer::OnNewPresentation(IMFMediaEvent* mediaEvent) +{ + HRESULT hr = S_OK; + + com_ptr<IMFTopology> topology; + com_ptr<IMFPresentationDescriptor> presentationDescriptor; + + SAFE_CALL(GetEventObject(mediaEvent, &presentationDescriptor)); + SAFE_CALL(CreatePlaybackTopology(m_MediaSource, presentationDescriptor, &topology)); + SAFE_CALL(m_MediaSession->SetTopology(0, topology)); + + SAFE_CALL(SetState(OpenPending)); + + return S_OK; +} + +HRESULT MediaPlayer::OnSessionEvent(IMFMediaEvent*, MediaEventType) +{ + return S_OK; +} + +HRESULT MediaPlayer::OnStateChange(State state, State previousState) +{ + HRESULT hr = S_OK; + + if (state == Started && previousState != Paused) + { + m_SimpleAudioVolume = nullptr; + m_PresentationClock = nullptr; + + com_ptr<IMFClock> clock; + SAFE_CALL(m_MediaSession->GetClock(&clock)); + SAFE_CALL(clock->QueryInterface(&m_PresentationClock)); + + SAFE_CALL(MFGetService(m_MediaSession, MR_POLICY_VOLUME_SERVICE, IID_IMFSimpleAudioVolume, (void**)&m_SimpleAudioVolume)); + + // Set master volume to previously set value + if (m_SetMasterVolume) + { + SAFE_CALL(ApplyMasterVolume(*m_SetMasterVolume)); + m_SetMasterVolume = nullopt; + } + + MFGetService(m_MediaSession, MR_STREAM_VOLUME_SERVICE, IID_IMFAudioStreamVolume, (void**)&m_StreamAudioVolume); + ApplyReplayGain(m_ReplayGain); + } + + if (state == Stopped) + { + m_StreamAudioVolume = nullptr; + m_SimpleAudioVolume = nullptr; + m_PresentationClock = nullptr; + } + + return hr; +} + +HRESULT STDMETHODCALLTYPE MediaPlayer::GetParameters(DWORD* flags, DWORD* queue) +{ + return E_NOTIMPL; // optional, not implemented +} + +HRESULT STDMETHODCALLTYPE MediaPlayer::Invoke(IMFAsyncResult* asyncResult) +{ + HRESULT hr = S_OK; + + if (m_SourceResolver && m_State == OpenPending) + { + auto doFinishOpen = [this](IMFAsyncResult* asyncResult) + { + HRESULT hr = S_OK; + + // We are in async OpenURL + MF_OBJECT_TYPE objectType = MF_OBJECT_INVALID; + com_ptr<IUnknown> source; + + SAFE_CALL(m_SourceResolver->EndCreateObjectFromURL(asyncResult, &objectType, &source)); + SAFE_CALL(source->QueryInterface(&m_MediaSource)); + + return hr; + }; + + hr = doFinishOpen(asyncResult); + + m_CancelCookie = nullptr; + m_SourceResolver = nullptr; + + if (SUCCEEDED(hr)) + hr = ApplyTopology(); + + if (FAILED(hr)) + CloseSession(); + + return hr; + } + + MediaEventType eventType = MEUnknown; + com_ptr<IMFMediaEvent> mediaEvent; + SAFE_CALL(m_MediaSession->EndGetEvent(asyncResult, &mediaEvent)); + SAFE_CALL(mediaEvent->GetType(&eventType)); + + if (eventType == MESessionClosed) + // The session was closed. + // The application is waiting on the m_CloseEvent mediaEvent handle. + SetEvent(m_CloseEvent); + else + // For all other events, get the next mediaEvent in the queue. + SAFE_CALL(m_MediaSession->BeginGetEvent(this, nullptr)); + + // Check the application state. + + // If a call to IMFMediaSession::Close is pending, it means the + // application is waiting on the m_CloseEvent mediaEvent and + // the application's message loop is blocked. + + // Otherwise, post a private window message to the application. + if (m_State != Closing) + { + // Leave a reference count on the mediaEvent. + m_EventCallback(this, std::move(mediaEvent), eventType); + } + + return S_OK; +} + +// Create a media source from a URL. +//static HRESULT CreateMediaSource(const wchar_t* url, IMFMediaSource** mediaSource) +//{ +// HRESULT hr = S_OK; +// +// MF_OBJECT_TYPE objectType = MF_OBJECT_INVALID; +// +// com_ptr<IMFSourceResolver> sourceResolver; +// com_ptr<IUnknown> source; +// +// // Create the source resolver. +// SAFE_CALL(MFCreateSourceResolver(&sourceResolver)); +// +// // Use the source resolver to create the media source. +// +// // Note: For simplicity this sample uses the synchronous method to create +// // the media source. However, creating a media source can take a noticeable +// // amount of time, especially for a network source. For a more responsive +// // UI, use the asynchronous BeginCreateObjectFromURL method. +// SAFE_CALL(sourceResolver->CreateObjectFromURL( +// url, // URL of the source. +// MF_RESOLUTION_MEDIASOURCE, // Create a source object. +// NULL, // Optional property store. +// &objectType, // Receives the created object type. +// &source)); // Receives a pointer to the media source. +// +// // Get the IMFMediaSource interface from the media source. +// SAFE_CALL(source->QueryInterface(IID_PPV_ARGS(mediaSource))); +// +// return hr; +//} + +static HRESULT CreateMediaSinkActivate(IMFStreamDescriptor* streamDescriptor, IMFActivate** outActivate) +{ + HRESULT hr = S_OK; + + com_ptr<IMFMediaTypeHandler> mediaTypeHandler; + com_ptr<IMFActivate> activate; + + // Get the media type handler for the stream. + SAFE_CALL(streamDescriptor->GetMediaTypeHandler(&mediaTypeHandler)); + + // Get the major media type. + GUID majorType = GUID_NULL; + SAFE_CALL(mediaTypeHandler->GetMajorType(&majorType)); + + // Create an IMFActivate object for the renderer, based on the media type. + if (MFMediaType_Audio == majorType) + { + // Create the audio renderer. + SAFE_CALL(MFCreateAudioRendererActivate(&activate)); + } + else // Unknown stream type. + { + SAFE_CALL(E_FAIL); + // Optionally, you could deselect this stream instead of failing. + } + + // Return IMFActivate pointer to caller. + *outActivate = activate.detach(); + + return hr; +} + +// Add a source node to a topology. +static HRESULT AddSourceNode(IMFTopology* topology, IMFMediaSource* mediaSource, IMFPresentationDescriptor* presentationDescriptor, IMFStreamDescriptor* streamDescriptor, IMFTopologyNode* *outTopologyNode) +{ + HRESULT hr = S_OK; + + com_ptr<IMFTopologyNode> node; + + // Create the node. + SAFE_CALL(MFCreateTopologyNode(MF_TOPOLOGY_SOURCESTREAM_NODE, &node)); + SAFE_CALL(node->SetUnknown(MF_TOPONODE_SOURCE, mediaSource)); + SAFE_CALL(node->SetUnknown(MF_TOPONODE_PRESENTATION_DESCRIPTOR, presentationDescriptor)); + SAFE_CALL(node->SetUnknown(MF_TOPONODE_STREAM_DESCRIPTOR, streamDescriptor)); + SAFE_CALL(topology->AddNode(node)); + + *outTopologyNode = node.detach(); + + return hr; +} + +// Add an output node to a topology. +static HRESULT AddOutputNode(IMFTopology* topology, IMFActivate* activate, DWORD streamSinkId, IMFTopologyNode** outTopologyNode) +{ + HRESULT hr = S_OK; + + com_ptr<IMFTopologyNode> node; + + SAFE_CALL(MFCreateTopologyNode(MF_TOPOLOGY_OUTPUT_NODE, &node)); + SAFE_CALL(node->SetObject(activate)); + SAFE_CALL(node->SetUINT32(MF_TOPONODE_STREAMID, streamSinkId)); + SAFE_CALL(node->SetUINT32(MF_TOPONODE_NOSHUTDOWN_ON_REMOVE, false)); + SAFE_CALL(topology->AddNode(node)); + + *outTopologyNode = node.detach(); + + return hr; +} + +// Add a topology branch for one stream. +// +// For each stream, this function does the following: +// +// 1. Creates a source node associated with the stream. +// 2. Creates an output node for the renderer. +// 3. Connects the two nodes. +// +// The media session will add any decoders that are needed. +static HRESULT AddBranchToPartialTopology(IMFTopology* topology, IMFMediaSource* mediaSource, IMFPresentationDescriptor* presentationDescriptor, DWORD streamIndex) +{ + HRESULT hr = S_OK; + + com_ptr<IMFStreamDescriptor> streamDescriptor; + com_ptr<IMFActivate> activate; + com_ptr<IMFTopologyNode> sourceNode; + com_ptr<IMFTopologyNode> outputNode; + + BOOL isSelected = false; + SAFE_CALL(presentationDescriptor->GetStreamDescriptorByIndex(streamIndex, &isSelected, &streamDescriptor)); + if (!isSelected) + return hr; + + // Create the media sink activation object. + SAFE_CALL(CreateMediaSinkActivate(streamDescriptor, &activate)); + SAFE_CALL(AddSourceNode(topology, mediaSource, presentationDescriptor, streamDescriptor, &sourceNode)); + SAFE_CALL(AddOutputNode(topology, activate, 0, &outputNode)); + SAFE_CALL(sourceNode->ConnectOutput(0, outputNode, 0)); + + return hr; +} + +// Create a playback topology from a media source. +static HRESULT CreatePlaybackTopology(IMFMediaSource* mediaSourcee, IMFPresentationDescriptor* presentationDescriptor, IMFTopology** outTopology) +{ + HRESULT hr = S_OK; + + com_ptr<IMFTopology> topology; + + // Create a new topology. + SAFE_CALL(MFCreateTopology(&topology)); + + // Get the number of streams in the media source. + DWORD streamDescriptorCount = 0; + SAFE_CALL(presentationDescriptor->GetStreamDescriptorCount(&streamDescriptorCount)); + + // For each stream, create the topology nodes and add them to the topology. + for (DWORD i = 0; i < streamDescriptorCount; ++i) + SAFE_CALL(AddBranchToPartialTopology(topology, mediaSourcee, presentationDescriptor, i)); + + *outTopology = topology.detach(); + + return hr; +} + +# undef SAFE_CALL + +struct _player_t +{ + com_ptr<MediaPlayer> player; +}; + +extern "C" player2_t WMFPlayerCreate() +{ + com_ptr<MediaPlayer> player; + auto hr = MediaPlayer::Create(nullptr, &player); + if (FAILED(hr)) + return nullptr; + + auto out = new _player_t(); + out->player = player; + return out; +} + +extern "C" void WMFPlayerDestroy(player2_t player) +{ + if (player) + delete player; +} + +extern "C" void WMFPlayerSetVolume(player2_t player, float volume) +{ + player->player->SetMasterVolume(volume); +} + +extern "C" float WMFPlayerGetVolume(player2_t player) +{ + return player->player->GetMasterVolume(); +} + +extern "C" void WMFPlayerSetGain(player2_t player, float gainDb) +{ + player->player->SetReplayGain(gainDb); +} + +extern "C" float WMFPlayerGetGain(player2_t player) +{ + return player->player->GetReplayGain(); +} + +extern "C" double WMFPlayerGetDuration(player2_t player) +{ + if (auto duration = player->player->GetDuration()) + return *duration; + else + return 0.0f; +} + +extern "C" double WMFPlayerGetTime(player2_t player) +{ + if (auto duration = player->player->GetPresentationTime()) + return *duration; + else + return 0.0f; +} + +extern "C" bool WMFPlayerOpen(player2_t player, const char* url) +{ + auto urlLength = strlen(url); + if (urlLength == 0) + return false; + + int bufferLength = ::MultiByteToWideChar(CP_UTF8, 0, url, urlLength, nullptr, 0); + if (bufferLength == 0) + return false; + + wchar_t* buffer = new wchar_t[bufferLength + 1]; + int result = ::MultiByteToWideChar(CP_UTF8, 0, url, urlLength, buffer, bufferLength); + if (result == 0) + { + delete [] buffer; + return false; + } + + buffer[bufferLength] = 0; + + auto hr = player->player->OpenURL(buffer); + + delete[] buffer; + + while (player->player->GetState() == MediaPlayer::OpenPending) + Sleep(1); + + return SUCCEEDED(hr); +} + +extern "C" bool WMFPlayerPlay(player2_t player) +{ + return SUCCEEDED(player->player->Play()); +} + +extern "C" bool WMFPlayerPause(player2_t player) +{ + return SUCCEEDED(player->player->Pause()); +} + +extern "C" bool WMFPlayerStop(player2_t player) +{ + return SUCCEEDED(player->player->Stop()); +} + +extern "C" bool WMFPlayerFinish(player2_t player) +{ + return SUCCEEDED(player->player->Stop()); +} + +extern "C" bool WMFPlayerIsPlaying(player2_t player) +{ + auto state = player->player->GetState(); + return state == MediaPlayer::OpenPending || state == MediaPlayer::Started; +} + +extern "C" bool WMFPlayerIsPaused(player2_t player) +{ + auto state = player->player->GetState(); + return state == MediaPlayer::Paused; +} + +extern "C" bool WMFPlayerIsStopped(player2_t player) +{ + auto state = player->player->GetState(); + return state == MediaPlayer::Stopped || state == MediaPlayer::Closing || state == MediaPlayer::Closed; +} + +extern "C" bool WMFPlayerIsFinished(player2_t player) +{ + return WMFPlayerIsStopped(player); + //auto state = player->player->GetState(); + //return state == MediaPlayer::Closing || state == MediaPlayer::Closed; +} + +extern "C" player2_iface player2_windows_media_foundation = +{ + /*.Name =*/ "Windows Media Foundation", + /*.Create =*/ WMFPlayerCreate, + /*.Destroy =*/ WMFPlayerDestroy, + /*.SetVolume =*/ WMFPlayerSetVolume, + /*.GetVolume =*/ WMFPlayerGetVolume, + /*.SetGain =*/ WMFPlayerSetGain, + /*.GetGain =*/ WMFPlayerGetGain, + /*.GetDuration =*/ WMFPlayerGetDuration, + /*.GetTime =*/ WMFPlayerGetTime, + /*.Open =*/ WMFPlayerOpen, + /*.Play =*/ WMFPlayerPlay, + /*.Pause =*/ WMFPlayerPause, + /*.Stop =*/ WMFPlayerStop, + /*.Finish =*/ WMFPlayerFinish, + /*.IsPlaying =*/ WMFPlayerIsPlaying, + /*.IsPaused =*/ WMFPlayerIsPaused, + /*.IsStopped =*/ WMFPlayerIsStopped, + /*.IsFinished =*/ WMFPlayerIsFinished +}; diff --git a/src/player/backends/media_foundation.h b/src/player/backends/media_foundation.h new file mode 100644 index 0000000..cf10122 --- /dev/null +++ b/src/player/backends/media_foundation.h @@ -0,0 +1,115 @@ +# ifndef __TD__BASIC_MEDIA_PLAYER_H__ +# define __TD__BASIC_MEDIA_PLAYER_H__ +# pragma once + +# include <mfapi.h> +# include <mfidl.h> +# include "utility/com_ptr.h" +# include "utility/optional.h" + +class MediaPlayer; + +typedef void (*MediaPlayerEventCallback)(MediaPlayer* player, com_ptr<IMFMediaEvent>, MediaEventType); + +class MediaPlayer: + private IMFAsyncCallback +{ +public: + enum State + { + Closed = 0, // no session + Ready, // session was created, ready to open file + OpenPending, // session is opening a file + Started, // session is playing a file + Paused, // session is paused + Stopped, // session is stopped (but ready to play) + Closing // session was closed, waiting for async callback + }; + + static HRESULT Create(MediaPlayerEventCallback eventCallback, MediaPlayer** outMediaPlayer); + + // IUnknown + virtual ULONG STDMETHODCALLTYPE AddRef() override; + virtual ULONG STDMETHODCALLTYPE Release() override; + virtual HRESULT STDMETHODCALLTYPE QueryInterface(REFIID iid, void** object) override; + + HRESULT OpenURL(const wchar_t* url); + HRESULT Play(); + HRESULT Pause(); + HRESULT Stop(); + HRESULT Shutdown(); + + State GetState() const; + + void SetMasterVolume(float volume); + float GetMasterVolume() const; + + void SetReplayGain(float replayGain); + float GetReplayGain() const; + + optional<float> GetPresentationTime() const; + optional<float> GetDuration() const; + + void SetUserData(void* userData); + void* GetUserData() const; + + HRESULT HandleEvent(IMFMediaEvent* mediaEvent); + +protected: + MediaPlayer(MediaPlayerEventCallback eventCallback); + virtual ~MediaPlayer(); + + HRESULT Initialize(); + HRESULT CreateSession(); + HRESULT CloseSession(); + HRESULT StartPlayback(); + HRESULT ApplyTopology(); + + HRESULT ApplyMasterVolume(float volume); + HRESULT ApplyReplayGain(float replayGain); + + const com_ptr<IMFMediaSession>& GetMediaSession() const { return m_MediaSession; } + const com_ptr<IMFMediaSource>& GetMediaSource() const { return m_MediaSource; } + + virtual HRESULT OnTopologyStatus(IMFMediaEvent* mediaEvent); + virtual HRESULT OnPresentationEnded(IMFMediaEvent* mediaEvent); + virtual HRESULT OnNewPresentation(IMFMediaEvent* mediaEvent); + + // Override to handle additional session events. + virtual HRESULT OnSessionEvent(IMFMediaEvent* mediaEvent, MediaEventType mediaEventType); + + virtual HRESULT OnStateChange(State state, State previousState); + +private: + // IMFAsyncCallback + virtual HRESULT STDMETHODCALLTYPE GetParameters(DWORD* flags, DWORD* queue); + virtual HRESULT STDMETHODCALLTYPE Invoke(IMFAsyncResult* asyncResult); + + HRESULT SetState(State state); + + ULONG m_RefCount; + + com_ptr<IMFSourceResolver> m_SourceResolver; + com_ptr<IUnknown> m_CancelCookie; + + com_ptr<IMFMediaSession> m_MediaSession; + com_ptr<IMFMediaSource> m_MediaSource; + + com_ptr<IMFSimpleAudioVolume> m_SimpleAudioVolume; + com_ptr<IMFPresentationClock> m_PresentationClock; + com_ptr<IMFAudioStreamVolume> m_StreamAudioVolume; + + optional<float> m_SetMasterVolume; + mutable float m_MasterVolume; + mutable float m_ReplayGain; + + MediaPlayerEventCallback m_EventCallback; + + void* m_UserData; + + State m_State; + HANDLE m_CloseEvent; +}; + + +# endif // __TD__BASIC_MEDIA_PLAYER_H__
\ No newline at end of file diff --git a/src/player/backends/utility/com_ptr.h b/src/player/backends/utility/com_ptr.h new file mode 100644 index 0000000..23534b2 --- /dev/null +++ b/src/player/backends/utility/com_ptr.h @@ -0,0 +1,148 @@ +# ifndef __TD__COM_PTR_H__ +# define __TD__COM_PTR_H__ +# pragma once + +template <typename T> +class com_ptr +{ +//private: +// typedef void (com_ptr::*bool_type)() const; +// void safe_bool() const {} +// +// +public: + com_ptr(): + _ptr(nullptr) + { + } + + com_ptr(T* ptr, bool add_ref = false): + _ptr(ptr) + { + if (_ptr && add_ref) + _ptr->AddRef(); + } + + com_ptr(const com_ptr& rhs): + _ptr(rhs._ptr) + { + if (_ptr) + _ptr->AddRef(); + } + + com_ptr(com_ptr&& rhs): + _ptr(rhs._ptr) + { + rhs._ptr = nullptr; + } + + template <typename U> + com_ptr(const com_ptr<U>& rhs): + _ptr(rhs._ptr) + { + if (_ptr) + _ptr->AddRef(); + } + + ~com_ptr() + { + if (_ptr) + _ptr->Release(); + } + + com_ptr& operator = (const com_ptr& rhs) + { + com_ptr(rhs).swap(*this); + return *this; + } + + com_ptr& operator = (com_ptr&& rhs) + { + com_ptr(static_cast<com_ptr&&>(rhs)).swap(*this); + return *this; + } + + template <typename U> + com_ptr& operator = (const com_ptr<U>& rhs) + { + com_ptr(rhs).swap(*this): + return *this; + } + + com_ptr& operator = (T* rhs) + { + com_ptr(rhs).swap(*this); + return *this; + } + + //operator bool_type() const + //{ + // return _ptr ? &com_ptr::safe_bool : nullptr; + //} + + //bool_type operator !() const + //{ + // return !((bool_type)*this); + //} + + void reset() + { + com_ptr().swap(*this); + } + + void reset(T* rhs) + { + com_ptr(rhs).swap(*this); + } + + void reset(T* rhs, bool add_ref) + { + com_ptr(rhs, add_ref).swap(*this); + } + + T* get() const + { + return _ptr; + } + + T* detach() + { + auto result = _ptr; + _ptr = nullptr; + return result; + } + + void swap(com_ptr& rhs) + { + T* temp = rhs._ptr; + rhs._ptr = _ptr; + _ptr = temp; + } + + T& operator * () const { return *_ptr; } + T* operator -> () const { return _ptr; } + + operator T* () const { return _ptr; } + T** operator & () { return &_ptr; } + +private: + T* _ptr; +}; + +template <typename T, typename U> inline bool operator==(const com_ptr<T>& a, const com_ptr<U>& b) { return a.get() == b.get(); } +template <typename T, typename U> inline bool operator!=(const com_ptr<T>& a, const com_ptr<U>& b) { return a.get() != b.get(); } +template <typename T, typename U> inline bool operator==(const com_ptr<T>& a, U* b) { return a.get() == b; } +template <typename T, typename U> inline bool operator!=(const com_ptr<T>& a, U* b) { return a.get() != b; } +template <typename T, typename U> inline bool operator==(T* a, const com_ptr<U>& b) { return a == b.get(); } +template <typename T, typename U> inline bool operator!=(T* a, const com_ptr<U>& b) { return a != b.get(); } +template <typename T> inline bool operator==(const com_ptr<T>& p, std::nullptr_t) { return p.get() == nullptr; } +template <typename T> inline bool operator==(std::nullptr_t, const com_ptr<T>& p) { return p.get() == nullptr; } +template <typename T> inline bool operator!=(const com_ptr<T>& p, std::nullptr_t) { return p.get() != nullptr; } +template <typename T> inline bool operator!=(std::nullptr_t, const com_ptr<T>& p) { return p.get() != nullptr; } +template <typename T> inline bool operator<(const com_ptr<T>& a, const com_ptr<T>& b) { return std::less<T*>()(a.get(), b.get()); } +template <typename T> inline bool operator<=(const com_ptr<T>& a, const com_ptr<T>& b) { return std::less_equal<T*>()(a.get(), b.get()); } +template <typename T> inline bool operator>(const com_ptr<T>& a, const com_ptr<T>& b) { return std::greater<T*>()(a.get(), b.get()); } +template <typename T> inline bool operator>=(const com_ptr<T>& a, const com_ptr<T>& b) { return std::greater_equal<T*>()(a.get(), b.get()); } +template <typename T> void swap(com_ptr<T> & lhs, com_ptr<T> & rhs) { lhs.swap(rhs); } + +# endif // __TD__COM_PTR_H__
\ No newline at end of file diff --git a/src/player/backends/utility/optional.h b/src/player/backends/utility/optional.h new file mode 100644 index 0000000..9ee0b71 --- /dev/null +++ b/src/player/backends/utility/optional.h @@ -0,0 +1,517 @@ +//------------------------------------------------------------------------------ +// +//------------------------------------------------------------------------------ +# ifndef __TD__OPTIONAL_H__ +# define __TD__OPTIONAL_H__ +# pragma once + +# include <type_traits> +# include <utility> +# include <cassert> + + +//------------------------------------------------------------------------------ +struct nullopt_t +{ + struct init {}; + nullopt_t(init) {} +}; + +const nullopt_t nullopt((nullopt_t::init())); + +template <typename T> +struct optional +{ +private: + typedef typename std::aligned_storage<sizeof(T), std::alignment_of<T>::value>::type storage_type; + + typedef void (optional::*bool_type)() const; + void safe_bool() const { } + + +public: + optional(); + optional(nullopt_t); + optional(const optional& v); + optional(optional&& v); + optional(const T& v); + optional(T&& v); + ~optional(); + + operator bool_type() const; + + optional& operator=(nullopt_t); + + optional& operator=(const optional& other); + optional& operator=(optional&& other); + + // The function does not participate in overload resolution unless std::is_same<std::decay_t<U>, T>::value is true + template <typename U> + // optional& operator=(U&& value); + optional& operator=(typename std::enable_if<std::is_same<typename std::decay<U>::type, T>::value, U>::type&& value); + + T* operator->(); + const T* operator->() const; + T& operator*(); + const T& operator*() const; + + T& value(); + const T& value() const; + +# if defined(_MSC_VER) && (_MSC_VER > 1600) + template <typename U> + T value_or(U&& default_value) const &; + + template <typename U> + T value_or(U&& default_value) &&; +# else + T value_or(const T& default_value); + T value_or(const T& default_value) const; +# endif + + bool has_value() const; + + void swap(optional& other); + +private: + T* value_ptr() { return reinterpret_cast< T*>(&_value); } + const T* value_ptr() const { return reinterpret_cast<const T*>(&_value); } + + T& value_ref() { return *value_ptr(); } + const T& value_ref() const { return *value_ptr(); } + + bool _has_value; + storage_type _value; +# if defined(_DEBUG) + const T& _preview; +# endif +}; + + +//------------------------------------------------------------------------------ +template <typename T> +inline optional<T>::optional(): + _has_value(false) +# if defined(_DEBUG) + ,_preview(value_ref()) +# endif +{ +} + +template <typename T> +inline optional<T>::optional(nullopt_t): + _has_value(false) +# if defined(_DEBUG) + , _preview(value_ref()) +# endif +{ +} + +template <typename T> +inline optional<T>::optional(const optional& v): + _has_value(v._has_value) +# if defined(_DEBUG) + , _preview(value_ref()) +# endif +{ + if (_has_value) + new (value_ptr()) T(v.value_ref()); +} + +template <typename T> +inline optional<T>::optional(optional&& v): + _has_value(v._has_value) +# if defined(_DEBUG) + , _preview(value_ref()) +# endif +{ + if (!_has_value) + return; + + new (value_ptr()) T(std::move(v.value_ref())); + v.value_ref().~T(); + + v._has_value = false; +} + +template <typename T> +inline optional<T>::optional(const T& v): + _has_value(true) +# if defined(_DEBUG) + , _preview(value_ref()) +# endif +{ + new (value_ptr()) T(v); +} + +template <typename T> +inline optional<T>::optional(T&& v): + _has_value(true) +# if defined(_DEBUG) + , _preview(value_ref()) +# endif +{ + new (value_ptr()) T(std::forward<T>(v)); +} + +template <typename T> +inline optional<T>::~optional() +{ + if (_has_value) + value_ref().~T(); +} + +template <typename T> +inline optional<T>::operator bool_type() const +{ + return _has_value ? &optional::safe_bool : nullptr; +} + +template <typename T> +inline optional<T>& optional<T>::operator= (nullopt_t) +{ + optional().swap(*this); + _has_value = false; + return *this; +} + +template <typename T> +inline optional<T>& optional<T>::operator=(const optional& other) +{ + optional(other).swap(*this); + return *this; +} + +template <typename T> +inline optional<T>& optional<T>::operator=(optional&& other) +{ + optional(std::forward<optional>(other)).swap(*this); + return *this; +} + +template <typename T> +template <typename U> +inline optional<T>& optional<T>::operator=(typename std::enable_if<std::is_same<typename std::decay<U>::type, T>::value, U>::type&& value) +{ + optional<T>(value).swap(*this); + return *this; +} + + +template <typename T> +inline T* optional<T>::operator->() +{ + assert(_has_value); + return value_ptr(); +} + +template <typename T> +inline const T* optional<T>::operator->() const +{ + assert(_has_value); + return value_ptr(); +} + +template <typename T> +inline T& optional<T>::operator*() +{ + assert(_has_value); + return value_ref(); +} + +template <typename T> +inline const T& optional<T>::operator*() const +{ + assert(_has_value); + return value_ref(); +} + +template <typename T> +inline T& optional<T>::value() +{ + assert(_has_value); + return value_ref(); +} + +template <typename T> +inline const T& optional<T>::value() const +{ + assert(_has_value); + return value_ref(); +} + +# if defined(_MSC_VER) && (_MSC_VER > 1600) +template <typename T> +template <typename U> +inline T optional<T>::value_or(U&& default_value) const & +{ + return bool(*this) ? value_ref() : static_cast<T>(std::forward<U>(default_value)); +} + +template <typename T> +template <typename U> +inline T optional<T>::value_or(U&& default_value) && +{ + return bool(*this) ? std::move(value_ref()) : static_cast<T>(std::forward<U>(default_value)); +} +# else +template <typename T> +T optional<T>::value_or(const T& default_value) +{ + return _has_value ? value_ref() : default_value; +} + +template <typename T> +T optional<T>::value_or(const T& default_value) const +{ + return _has_value ? value_ref() : default_value; +} +# endif + +template <typename T> +inline bool optional<T>::has_value() const +{ + return _has_value; +} + +template <typename T> +inline void optional<T>::swap(optional& other) +{ + using std::swap; + + if (_has_value && other._has_value) + { + swap(value_ref(), other.value_ref()); + } + else if (_has_value && !other._has_value) + { + new (other.value_ptr()) T(std::forward<T>(value_ref())); + + value_ref().~T(); + + _has_value = false; + other._has_value = true; + } + else if (!_has_value && other._has_value) + { + new (value_ptr()) T(std::forward<T>(other.value_ref())); + + other.value_ref().~T(); + + _has_value = true; + other._has_value = false; + } +} + + +//------------------------------------------------------------------------------ +template <typename T> +optional<T> make_optional(T&& v) +{ + return optional<T>(std::forward<T>(v)); +} + +template <typename T> +inline void swap(optional<T>& lhs, optional<T>& rhs) +{ + lhs.swap(rhs); +} + +template <typename T> +inline bool operator==(const optional<T>& lhs, const optional<T>& rhs) +{ + if (static_cast<bool>(lhs) != static_cast<bool>(rhs)) + return false; + if (!static_cast<bool>(lhs)) + return true; + return *lhs == *rhs; +} + +template <typename T> +bool operator!=(const optional<T>& lhs, const optional<T>& rhs) +{ + return !(lhs == rhs); +} + +template <typename T> +inline bool operator<(const optional<T>& lhs, const optional<T>& rhs) +{ + if (!static_cast<bool>(rhs)) + return false; + if (!static_cast<bool>(lhs)) + return true; + return *lhs < *rhs; +} + +template <typename T> +inline bool operator>(const optional<T>& lhs, const optional<T>& rhs) +{ + return rhs < lhs; +} + +template <typename T> +inline bool operator<=(const optional<T>& lhs, const optional<T>& rhs) +{ + return !(rhs < lhs); +} + +template <typename T> +inline bool operator>=(const optional<T>& lhs, const optional<T>& rhs) +{ + return !(lhs < rhs); +} + +template <typename T> +inline bool operator==(const optional<T>& opt, nullopt_t) +{ + return !static_cast<bool>(opt); +} + +template <typename T> +inline bool operator==(nullopt_t, const optional<T>& opt) +{ + return static_cast<bool>(opt); +} + +template <typename T> +inline bool operator!=(const optional<T>& opt, nullopt_t) +{ + return static_cast<bool>(opt); +} + +template <typename T> +inline bool operator!=(nullopt_t, const optional<T>& opt) +{ + return !static_cast<bool>(opt); +} + +template <typename T> +inline bool operator<(const optional<T>& opt, nullopt_t) +{ + return false; +} + +template <typename T> +inline bool operator<(nullopt_t, const optional<T>& opt) +{ + return static_cast<bool>(opt); +} + +template <typename T> +inline bool operator<=(const optional<T>& opt, nullopt_t) +{ + return !opt; +} + +template <typename T> +inline bool operator<=(nullopt_t, const optional<T>& opt) +{ + return true; +} + +template <typename T> +inline bool operator>(const optional<T>& opt, nullopt_t) +{ + return static_cast<bool>(opt); +} + +template <typename T> +inline bool operator>(nullopt_t, const optional<T>& opt) +{ + return false; +} + +template <typename T> +inline bool operator>=(const optional<T>&, nullopt_t) +{ + return true; +} + +template <typename T> +inline bool operator>=(nullopt_t, const optional<T>& opt) +{ + return !opt; +} + +template <typename T> +inline bool operator==(const optional<T>& opt, const T& v) +{ + return static_cast<bool>(opt) ? *opt == v : false; +} + +template <typename T> +inline bool operator==(const T& v, const optional<T>& opt) +{ + return static_cast<bool>(opt) ? *opt == v : false; +} + +template <typename T> +inline bool operator!=(const optional<T>& opt, const T& v) +{ + return static_cast<bool>(opt) ? *opt != v : true; +} + +template <typename T> +inline bool operator!=(const T& v, const optional<T>& opt) +{ + return static_cast<bool>(opt) ? *opt != v : true; +} + +template <typename T> +inline bool operator<(const optional<T>& opt, const T& v) +{ + using namespace std; + return static_cast<bool>(opt) ? less<T>(*opt, v) : true; +} + +template <typename T> +inline bool operator<(const T& v, const optional<T>& opt) +{ + using namespace std; + return static_cast<bool>(opt) ? less<T>(v, *opt) : false; +} + +template <typename T> +inline bool operator<=(const optional<T>& opt, const T& v) +{ + using namespace std; + return static_cast<bool>(opt) ? less_equal<T>(*opt, v) : true; +} + +template <typename T> +inline bool operator<=(const T& v, const optional<T>& opt) +{ + using namespace std; + return static_cast<bool>(opt) ? less_equal<T>(v, *opt) : false; +} + +template <typename T> +inline bool operator>(const optional<T>& opt, const T& v) +{ + using namespace std; + return static_cast<bool>(opt) ? greater<T>(*opt, v) : false; +} + +template <typename T> +inline bool operator>(const T& v, const optional<T>& opt) +{ + using namespace std; + return static_cast<bool>(opt) ? greater<T>(v, *opt) : true; +} + +template <typename T> +inline bool operator>=(const optional<T>& opt, const T& v) +{ + using namespace std; + return static_cast<bool>(opt) ? greater_equal<T>(*opt, v) : false; +} + +template <typename T> +inline bool operator>=(const T& v, const optional<T>& opt) +{ + using namespace std; + return static_cast<bool>(opt) ? greater_equal<T>(v, *opt) : true; +} + + +# endif // __TD__OPTIONAL_H__ |