private void NotifyError(string sErrorMessage, int hrErr)
{
m_pPreview.CloseDevice();
string sErrMsg = MFError.GetErrorText(hrErr);
string sMsg = string.Format("{0} (HRESULT = 0x{1:x}:{2})", sErrorMessage, hrErr, sErrMsg);
MessageBox.Show(this, sMsg, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
private void NotifyError(string sErrorMessage, HResult hrErr)
{
string sErrMsg = MFError.GetErrorText(hrErr);
string sMsg = string.Format("{0} (HRESULT = 0x{1:x}:{2})", sErrorMessage, hrErr, sErrMsg);
MessageBox.Show(this, sMsg, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
StopCapture();
}
private void NotifyError(string sErrorMessage, int hrErr)
{
var sErrMsg = MFError.GetErrorText(hrErr);
string sMsg = $"{sErrorMessage} (HRESULT = 0x{hrErr:x}:{sErrMsg})";
camProcess.CloseDevice();
NotificationRequest.Raise(new Notification {
Content = sMsg, Title = "Error"
});
}
/// <summary>
/// Print out a debug line when hr doesn't equal S_Ok.
/// </summary>
/// <param name="hr">Value to check</param>
/// <returns>The input value.</returns>
/// <remarks>This code shows the calling routine and the error text.
/// All the public interface methods use this to wrap their returns.
/// </remarks>
private static HResult CheckReturn(HResult hr)
{
#if DEBUG
if (hr != HResult.S_OK)
{
StackTrace st = new StackTrace();
StackFrame sf = st.GetFrame(1);
string sName = sf.GetMethod().Name;
string sError = MFError.GetErrorText(hr);
if (sError != null)
{
sError = sError.Trim();
}
Trace(string.Format("{1} returning 0x{0:x} ({2})", hr, sName, sError));
}
#endif
return(hr);
}
public void DoSplit()
{
HResult hr;
bool bHasVideo = false;
IMFByteStream pStream = null;
IMFASFContentInfo pContentInfo = null;
IMFASFSplitter pSplitter = null;
Console.WriteLine(string.Format("Opening {0}.", m_sFileName));
try
{
// Start the Media Foundation platform.
hr = MFExtern.MFStartup(0x10070, MFStartup.Full);
MFError.ThrowExceptionForHR(hr);
// Open the file.
OpenFile(m_sFileName, out pStream);
// Read the ASF header.
CreateContentInfo(pStream, out pContentInfo);
// Create the ASF splitter.
CreateASFSplitter(pContentInfo, out pSplitter);
// Select the first video stream.
SelectVideoStream(pContentInfo, pSplitter, out bHasVideo);
// Parse the ASF file.
if (bHasVideo)
{
DisplayKeyFrames(pStream, pSplitter);
}
else
{
Console.WriteLine("No video stream.");
}
}
catch (Exception e)
{
hr = (HResult)Marshal.GetHRForException(e);
string s = MFError.GetErrorText(hr);
if (s == null)
{
s = e.Message;
}
else
{
s = string.Format("{0} ({1})", s, e.Message);
}
Console.WriteLine(string.Format("Exception 0x{0:x}: {1}", hr, s));
}
finally
{
// Clean up.
SafeRelease(pSplitter);
SafeRelease(pContentInfo);
SafeRelease(pStream);
}
// Shut down the Media Foundation platform.
hr = MFExtern.MFShutdown();
MFError.ThrowExceptionForHR(hr);
}
void NotifyError(IntPtr hwnd, string sErrorMessage, int hrErr)
{
string s = string.Format("{0} (HRESULT = 0x{1:x} {2})", sErrorMessage, hrErr, MFError.GetErrorText(hrErr));
MessageBox.Show(this, s, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
void NotifyError(string sErrorMessage, HResult hrErr)
{
string s;
const int REGDB_E_CLASSNOTREG = unchecked ((int)0x80040154);
if (hrErr != (HResult)REGDB_E_CLASSNOTREG)
{
s = string.Format("{0} (HRESULT = 0x{1:x} {2})", sErrorMessage, hrErr, MFError.GetErrorText(hrErr));
}
else
{
string e;
if (Environment.Is64BitProcess)
{
e = "64";
}
else
{
e = "32";
}
s = string.Format("The CLSID for that MFT is not registered for {0}bit. Please rebuild/reregister.", e);
}
MessageBox.Show(this, s, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
UpdateUI(CPlayer.PlayerState.Ready);
}
public static string GetDescription(this HResult hr)
{
return(MFError.GetErrorText((int)hr));
}