mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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42bdeaf52c
Original repo is here: https://github.com/microsoft/Windows-classic-samples Part-of: <https://gitlab.freedesktop.org/gstreamer/gstreamer/-/merge_requests/1577>
402 lines
13 KiB
C++
402 lines
13 KiB
C++
//------------------------------------------------------------------------------
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// File: StrmCtl.cpp
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//
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// Desc: DirectShow base classes.
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//
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// Copyright (c) 1996-2001 Microsoft Corporation. All rights reserved.
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//------------------------------------------------------------------------------
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#include <streams.h>
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#include <strmctl.h>
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CBaseStreamControl::CBaseStreamControl(__inout HRESULT *phr)
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: m_StreamState(STREAM_FLOWING)
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, m_StreamStateOnStop(STREAM_FLOWING) // means no pending stop
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, m_tStartTime(MAX_TIME)
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, m_tStopTime(MAX_TIME)
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, m_StreamEvent(FALSE, phr)
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, m_dwStartCookie(0)
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, m_dwStopCookie(0)
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, m_pRefClock(NULL)
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, m_FilterState(State_Stopped)
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, m_bIsFlushing(FALSE)
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, m_bStopSendExtra(FALSE)
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{}
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CBaseStreamControl::~CBaseStreamControl()
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{
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// Make sure we release the clock.
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SetSyncSource(NULL);
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return;
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}
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STDMETHODIMP CBaseStreamControl::StopAt(const REFERENCE_TIME * ptStop, BOOL bSendExtra, DWORD dwCookie)
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{
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CAutoLock lck(&m_CritSec);
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m_bStopSendExtra = FALSE; // reset
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m_bStopExtraSent = FALSE;
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if (ptStop)
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{
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if (*ptStop == MAX_TIME)
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{
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DbgLog((LOG_TRACE,2,TEXT("StopAt: Cancel stop")));
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CancelStop();
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// If there's now a command to start in the future, we assume
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// they want to be stopped when the graph is first run
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if (m_FilterState == State_Stopped && m_tStartTime < MAX_TIME) {
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m_StreamState = STREAM_DISCARDING;
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DbgLog((LOG_TRACE,2,TEXT("graph will begin by DISCARDING")));
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}
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return NOERROR;
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}
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DbgLog((LOG_TRACE,2,TEXT("StopAt: %dms extra=%d"),
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(int)(*ptStop/10000), bSendExtra));
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// if the first command is to stop in the future, then we assume they
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// want to be started when the graph is first run
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if (m_FilterState == State_Stopped && m_tStartTime > *ptStop) {
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m_StreamState = STREAM_FLOWING;
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DbgLog((LOG_TRACE,2,TEXT("graph will begin by FLOWING")));
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}
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m_bStopSendExtra = bSendExtra;
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m_tStopTime = *ptStop;
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m_dwStopCookie = dwCookie;
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m_StreamStateOnStop = STREAM_DISCARDING;
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}
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else
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{
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DbgLog((LOG_TRACE,2,TEXT("StopAt: now")));
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// sending an extra frame when told to stop now would mess people up
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m_bStopSendExtra = FALSE;
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m_tStopTime = MAX_TIME;
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m_dwStopCookie = 0;
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m_StreamState = STREAM_DISCARDING;
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m_StreamStateOnStop = STREAM_FLOWING; // no pending stop
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}
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// we might change our mind what to do with a sample we're blocking
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m_StreamEvent.Set();
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return NOERROR;
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}
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STDMETHODIMP CBaseStreamControl::StartAt
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( const REFERENCE_TIME *ptStart, DWORD dwCookie )
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{
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CAutoLock lck(&m_CritSec);
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if (ptStart)
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{
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if (*ptStart == MAX_TIME)
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{
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DbgLog((LOG_TRACE,2,TEXT("StartAt: Cancel start")));
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CancelStart();
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// If there's now a command to stop in the future, we assume
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// they want to be started when the graph is first run
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if (m_FilterState == State_Stopped && m_tStopTime < MAX_TIME) {
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DbgLog((LOG_TRACE,2,TEXT("graph will begin by FLOWING")));
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m_StreamState = STREAM_FLOWING;
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}
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return NOERROR;
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}
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DbgLog((LOG_TRACE,2,TEXT("StartAt: %dms"), (int)(*ptStart/10000)));
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// if the first command is to start in the future, then we assume they
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// want to be stopped when the graph is first run
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if (m_FilterState == State_Stopped && m_tStopTime >= *ptStart) {
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DbgLog((LOG_TRACE,2,TEXT("graph will begin by DISCARDING")));
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m_StreamState = STREAM_DISCARDING;
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}
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m_tStartTime = *ptStart;
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m_dwStartCookie = dwCookie;
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// if (m_tStopTime == m_tStartTime) CancelStop();
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}
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else
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{
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DbgLog((LOG_TRACE,2,TEXT("StartAt: now")));
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m_tStartTime = MAX_TIME;
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m_dwStartCookie = 0;
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m_StreamState = STREAM_FLOWING;
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}
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// we might change our mind what to do with a sample we're blocking
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m_StreamEvent.Set();
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return NOERROR;
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}
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// Retrieve information about current settings
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STDMETHODIMP CBaseStreamControl::GetInfo(__out AM_STREAM_INFO *pInfo)
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{
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if (pInfo == NULL)
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return E_POINTER;
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pInfo->tStart = m_tStartTime;
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pInfo->tStop = m_tStopTime;
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pInfo->dwStartCookie = m_dwStartCookie;
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pInfo->dwStopCookie = m_dwStopCookie;
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pInfo->dwFlags = m_bStopSendExtra ? AM_STREAM_INFO_STOP_SEND_EXTRA : 0;
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pInfo->dwFlags |= m_tStartTime == MAX_TIME ? 0 : AM_STREAM_INFO_START_DEFINED;
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pInfo->dwFlags |= m_tStopTime == MAX_TIME ? 0 : AM_STREAM_INFO_STOP_DEFINED;
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switch (m_StreamState) {
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default:
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DbgBreak("Invalid stream state");
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case STREAM_FLOWING:
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break;
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case STREAM_DISCARDING:
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pInfo->dwFlags |= AM_STREAM_INFO_DISCARDING;
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break;
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}
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return S_OK;
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}
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void CBaseStreamControl::ExecuteStop()
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{
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ASSERT(CritCheckIn(&m_CritSec));
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m_StreamState = m_StreamStateOnStop;
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if (m_dwStopCookie && m_pSink) {
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DbgLog((LOG_TRACE,2,TEXT("*sending EC_STREAM_CONTROL_STOPPED (%d)"),
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m_dwStopCookie));
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m_pSink->Notify(EC_STREAM_CONTROL_STOPPED, (LONG_PTR)this, m_dwStopCookie);
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}
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CancelStop(); // This will do the tidy up
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}
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void CBaseStreamControl::ExecuteStart()
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{
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ASSERT(CritCheckIn(&m_CritSec));
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m_StreamState = STREAM_FLOWING;
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if (m_dwStartCookie) {
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DbgLog((LOG_TRACE,2,TEXT("*sending EC_STREAM_CONTROL_STARTED (%d)"),
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m_dwStartCookie));
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m_pSink->Notify(EC_STREAM_CONTROL_STARTED, (LONG_PTR)this, m_dwStartCookie);
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}
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CancelStart(); // This will do the tidy up
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}
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void CBaseStreamControl::CancelStop()
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{
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ASSERT(CritCheckIn(&m_CritSec));
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m_tStopTime = MAX_TIME;
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m_dwStopCookie = 0;
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m_StreamStateOnStop = STREAM_FLOWING;
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}
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void CBaseStreamControl::CancelStart()
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{
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ASSERT(CritCheckIn(&m_CritSec));
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m_tStartTime = MAX_TIME;
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m_dwStartCookie = 0;
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}
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// This guy will return one of the three StreamControlState's. Here's what the caller
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// should do for each one:
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//
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// STREAM_FLOWING: Proceed as usual (render or pass the sample on)
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// STREAM_DISCARDING: Calculate the time 'til *pSampleStart and wait that long
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// for the event handle (GetStreamEventHandle()). If the
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// wait expires, throw the sample away. If the event
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// fires, call me back, I've changed my mind.
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// I use pSampleStart (not Stop) so that live sources don't
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// block for the duration of their samples, since the clock
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// will always read approximately pSampleStart when called
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// All through this code, you'll notice the following rules:
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// - When start and stop time are the same, it's as if start was first
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// - An event is considered inside the sample when it's >= sample start time
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// but < sample stop time
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// - if any part of the sample is supposed to be sent, we'll send the whole
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// thing since we don't break it into smaller pieces
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// - If we skip over a start or stop without doing it, we still signal the event
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// and reset ourselves in case somebody's waiting for the event, and to make
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// sure we notice that the event is past and should be forgotten
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// Here are the 19 cases that have to be handled (x=start o=stop <-->=sample):
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//
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// 1. xo<--> start then stop
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// 2. ox<--> stop then start
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// 3. x<o-> start
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// 4. o<x-> stop then start
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// 5. x<-->o start
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// 6. o<-->x stop
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// 7. <x->o start
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// 8. <o->x no change
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// 9. <xo> start
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// 10. <ox> stop then start
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// 11. <-->xo no change
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// 12. <-->ox no change
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// 13. x<--> start
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// 14. <x-> start
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// 15. <-->x no change
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// 16. o<--> stop
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// 17. <o-> no change
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// 18. <-->o no change
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// 19. <--> no change
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enum CBaseStreamControl::StreamControlState CBaseStreamControl::CheckSampleTimes
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( __in const REFERENCE_TIME * pSampleStart, __in const REFERENCE_TIME * pSampleStop )
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{
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CAutoLock lck(&m_CritSec);
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ASSERT(!m_bIsFlushing);
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ASSERT(pSampleStart && pSampleStop);
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// Don't ask me how I came up with the code below to handle all 19 cases
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// - DannyMi
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if (m_tStopTime >= *pSampleStart)
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{
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if (m_tStartTime >= *pSampleStop)
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return m_StreamState; // cases 8 11 12 15 17 18 19
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if (m_tStopTime < m_tStartTime)
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ExecuteStop(); // case 10
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ExecuteStart(); // cases 3 5 7 9 13 14
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return m_StreamState;
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}
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if (m_tStartTime >= *pSampleStop)
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{
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ExecuteStop(); // cases 6 16
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return m_StreamState;
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}
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if (m_tStartTime <= m_tStopTime)
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{
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ExecuteStart();
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ExecuteStop();
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return m_StreamState; // case 1
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}
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else
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{
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ExecuteStop();
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ExecuteStart();
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return m_StreamState; // cases 2 4
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}
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}
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enum CBaseStreamControl::StreamControlState CBaseStreamControl::CheckStreamState( IMediaSample * pSample )
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{
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REFERENCE_TIME rtBufferStart, rtBufferStop;
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const BOOL bNoBufferTimes =
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pSample == NULL ||
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FAILED(pSample->GetTime(&rtBufferStart, &rtBufferStop));
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StreamControlState state;
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LONG lWait;
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do
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{
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// something has to break out of the blocking
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if (m_bIsFlushing || m_FilterState == State_Stopped)
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return STREAM_DISCARDING;
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if (bNoBufferTimes) {
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// Can't do anything until we get a time stamp
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state = m_StreamState;
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break;
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} else {
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state = CheckSampleTimes( &rtBufferStart, &rtBufferStop );
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if (state == STREAM_FLOWING)
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break;
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// we aren't supposed to send this, but we've been
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// told to send one more than we were supposed to
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// (and the stop isn't still pending and we're streaming)
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if (m_bStopSendExtra && !m_bStopExtraSent &&
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m_tStopTime == MAX_TIME &&
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m_FilterState != State_Stopped) {
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m_bStopExtraSent = TRUE;
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DbgLog((LOG_TRACE,2,TEXT("%d sending an EXTRA frame"),
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m_dwStopCookie));
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state = STREAM_FLOWING;
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break;
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}
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}
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// We're in discarding mode
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// If we've no clock, discard as fast as we can
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if (!m_pRefClock) {
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break;
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// If we're paused, we can't discard in a timely manner because
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// there's no such thing as stream times. We must block until
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// we run or stop, or we'll end up throwing the whole stream away
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// as quickly as possible
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} else if (m_FilterState == State_Paused) {
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lWait = INFINITE;
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} else {
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// wait until it's time for the sample until we say "discard"
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// ("discard in a timely fashion")
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REFERENCE_TIME rtNow;
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EXECUTE_ASSERT(SUCCEEDED(m_pRefClock->GetTime(&rtNow)));
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rtNow -= m_tRunStart; // Into relative ref-time
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lWait = LONG((rtBufferStart - rtNow)/10000); // 100ns -> ms
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if (lWait < 10) break; // Not worth waiting - discard early
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}
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} while(WaitForSingleObject(GetStreamEventHandle(), lWait) != WAIT_TIMEOUT);
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return state;
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}
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void CBaseStreamControl::NotifyFilterState( FILTER_STATE new_state, REFERENCE_TIME tStart )
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{
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CAutoLock lck(&m_CritSec);
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// or we will get confused
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if (m_FilterState == new_state)
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return;
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switch (new_state)
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{
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case State_Stopped:
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DbgLog((LOG_TRACE,2,TEXT("Filter is STOPPED")));
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// execute any pending starts and stops in the right order,
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// to make sure all notifications get sent, and we end up
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// in the right state to begin next time (??? why not?)
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if (m_tStartTime != MAX_TIME && m_tStopTime == MAX_TIME) {
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ExecuteStart();
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} else if (m_tStopTime != MAX_TIME && m_tStartTime == MAX_TIME) {
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ExecuteStop();
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} else if (m_tStopTime != MAX_TIME && m_tStartTime != MAX_TIME) {
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if (m_tStartTime <= m_tStopTime) {
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ExecuteStart();
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ExecuteStop();
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} else {
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ExecuteStop();
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ExecuteStart();
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}
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}
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// always start off flowing when the graph starts streaming
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// unless told otherwise
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m_StreamState = STREAM_FLOWING;
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m_FilterState = new_state;
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break;
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case State_Running:
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DbgLog((LOG_TRACE,2,TEXT("Filter is RUNNING")));
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m_tRunStart = tStart;
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// fall-through
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default: // case State_Paused:
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m_FilterState = new_state;
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}
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// unblock!
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m_StreamEvent.Set();
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}
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void CBaseStreamControl::Flushing(BOOL bInProgress)
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{
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CAutoLock lck(&m_CritSec);
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m_bIsFlushing = bInProgress;
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m_StreamEvent.Set();
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}
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