HRESULT CKeyProp::OnInitDialog()
{
HRESULT hr;
// KeyType Property
DWORD dwKey = DXTKEY_RGB;
hr = GetNumericVal(TEXT("KeyType"), &dwKey);
if (SUCCEEDED(hr))
{
m_iKey = dwKey;
}
// Hue Property
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_KEY_HUE), TEXT("Hue"));
// Luminance Property
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_KEY_LUMA), TEXT("Luminance"));
// Similarity Property
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_KEY_SIMILAR), TEXT("Similarity"));
// RGB Property
DWORD dwColor = 0;
hr = GetNumericVal(TEXT("RGB"), &dwColor, 16);
if (SUCCEEDED(hr))
{
m_dwColor = SwapRGB(dwColor);
}
// Invert Property
DWORD dwInvert = 0;
hr = GetNumericVal(TEXT("Invert"), &dwInvert);
if (SUCCEEDED(hr))
{
CheckDlgButton(m_hDlg, IDC_KEY_INVERT, (dwInvert ? BST_CHECKED : BST_UNCHECKED));
}
// Populate the list of key types in order of the key-type enums
HWND hList = GetDlgItem(m_hDlg, IDC_KEY_TYPE);
const int iNumKeys = 5;
TCHAR* szKeyNames[] = {
TEXT("Chroma"), TEXT("Non-Red"), TEXT("Luminance"), TEXT("Alpha"), TEXT("Hue")
};
for (int i = 0; i < iNumKeys; i++)
{
SendMessage(hList, CB_ADDSTRING, 0, (LPARAM)szKeyNames[i]);
}
// Select the current key type
SendMessage(hList, CB_SETCURSEL, m_iKey, 0);
UpdateControls();
return S_OK;
}
HRESULT CWipeProp::OnInitDialog()
{
// Get the current SMPTE wipe number.
DWORD dwWipeNum = 0;
HRESULT hr = GetNumericVal(TEXT("MaskNum"), &dwWipeNum);
// Populate the list of SMPTE wipe names
int iSel = 0;
for (int i = 0; i < g_iNumWipes; i++)
{
SendDlgItemMessage(m_hDlg, IDC_SMPTE_MASKNUM, CB_ADDSTRING,
0, (LPARAM)g_SMPTEWipes[i].szName);
// This one matches the current MaskNum property ...
// remember this value for when we set the list box selection.
if (g_SMPTEWipes[i].num == (int) dwWipeNum)
{
iSel = i;
}
}
// Set the list box selection.
SendDlgItemMessage(m_hDlg, IDC_SMPTE_MASKNUM, CB_SETCURSEL, iSel, 0);
// Set the remaining properties...
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_SOFTNESS), TEXT("BorderSoftness"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_WIDTH), TEXT("BorderWidth"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_OFFSETX), TEXT("OffsetX"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_OFFSETY), TEXT("OffsetY"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_REPLICATEX), TEXT("ReplicateX"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_REPLICATEY), TEXT("ReplicateY"));
// The next two are floating-point values. A better UI would take % values
// from 0 - 100 and convert to 0.0 - 1.0.
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_SCALEX), TEXT("ScaleX"));
SetWindowTextFromProp(GetDlgItem(m_hDlg, IDC_SMPTE_SCALEY), TEXT("ScaleY"));
// For the color, we convert the string "0xRRGGBB" to a DWORD, convert
// to B-G-R format, and use that to paint the color swatch.
DWORD dwColor = 0;
hr = GetNumericVal(TEXT("BorderColor"), &dwColor, 16);
if (SUCCEEDED(hr))
{
m_dwBorderColor = SwapRGB(dwColor);
}
return S_OK;
}
HRESULT CPipProp::OnInitDialog()
{
// Set bounding boxes for the sizer control
RECT rcSrcBound = { 10, 10, 110, 110 }; // WAG
RECT rcDestBound = { 120, 10, 220, 110 };
RECT rcSrc, rcDest, rcVid;
// Get the video rectangle
GetClientRect(GetDlgItem(m_hwnd, IDC_VIDWIN), &rcVid);
// Set default Src and Dest rectangles
CopyRect(&rcSrc, &rcVid);
InflateRect(&rcSrc, - 10, - 10);
CopyRect(&rcDest, &rcSrc);
DWORD dwVal = 0;
if (SUCCEEDED(GetNumericVal(TEXT("SrcOffsetY"), &dwVal)))
{
rcSrc.top = rcSrc.bottom = dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("SrcOffsetX"), &dwVal)))
{
rcSrc.left = rcSrc.right = dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("SrcHeight"), &dwVal)))
{
rcSrc.bottom += dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("SrcWidth"), &dwVal)))
{
rcSrc.right += dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("OffsetY"), &dwVal)))
{
rcDest.top = rcDest.bottom = dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("OffsetX"), &dwVal)))
{
rcDest.left = rcDest.right = dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("Height"), &dwVal)))
{
rcDest.bottom += dwVal;
}
if (SUCCEEDED(GetNumericVal(TEXT("Width"), &dwVal)))
{
rcDest.right += dwVal;
}
m_Src.Init(rcSrcBound, rcVid, rcSrc);
m_Dest.Init(rcDestBound, rcVid, rcDest);
return S_OK;
}
// ****************************************************************************
// Method: avtCylindricalRadiusExpression::ProcessArguments
//
// Purpose:
// Parses optional arguments.
// Allows the user to pass a string constaint specifying the cylinder
// axis (default = z ) or a vector that defines the cylinder axis.
//
//
// Programmer: Cyrus Harrison
// Creation: March 31, 2008
//
// Modifications:
//
// ****************************************************************************
void
avtCylindricalRadiusExpression::ProcessArguments(
ArgsExpr *args, ExprPipelineState *state)
{
axisVector[0] = 0;
axisVector[1] = 0;
axisVector[2] = 1;
// Check the number of arguments
std::vector<ArgExpr*> *arguments = args->GetArgs();
size_t nargs = arguments->size();
if (nargs == 0)
{
EXCEPTION2(ExpressionException, outputVariableName,
"avtCylindricalRadiusExpression: No arguments given.");
}
// First arg should be a mesh name, let it gen is filters.
ArgExpr *first_arg = (*arguments)[0];
avtExprNode *first_tree = dynamic_cast<avtExprNode*>(first_arg->GetExpr());
first_tree->CreateFilters(state);
// If we only have two arguments, we expect a string const or vector const
if (nargs == 2)
{
ArgExpr *second_arg = (*arguments)[1];
ExprParseTreeNode *second_tree = second_arg->GetExpr();
std::string arg_type = second_tree->GetTypeName();
std::string error_msg = "avtCylindricalRadiusExpression: "
"Invalid second argument."
"Expected \"x\", \"y\", or \"z\"";
if (arg_type != "StringConst" && arg_type != "Vector" )
{
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
if (arg_type == "StringConst")
{
// string case
std::string val = dynamic_cast<StringConstExpr*>(second_tree)->GetValue();
if ( ! ( val == "x" || val == "y" || val == "z"))
{
error_msg += "\nPassed value \"" + val + "\"";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
debug5 << "avtCylindricalCoordinatesExpression:"
<< "Using " << val << " as Cylinder Axis." << endl;
if(val == "x")
{
axisVector[0] = 1;
axisVector[1] = 0;
axisVector[2] = 0;
}
else if(val == "y")
{
axisVector[0] = 0;
axisVector[1] = 1;
axisVector[2] = 0;
}
else if(val == "z")
{
axisVector[0] = 0;
axisVector[1] = 0;
axisVector[2] = 1;
}
}
else if(arg_type == "Vector")
{
VectorExpr *vec = dynamic_cast<VectorExpr*>(second_tree);
if(!vec->Z())
{
error_msg += "\nVector missing z-component.";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
// get the vector
double val = 0;
if(GetNumericVal(vec->X(),val))
{
axisVector[0] = val;
}
else
{
error_msg += "\nVector x-component is not a floating point number.";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
if(GetNumericVal(vec->Y(),val))
{
axisVector[1] = val;
}
else
{
error_msg += "\nVector z-component is not a floating point number.";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
if(GetNumericVal(vec->Z(),val))
{
axisVector[2] = val;
}
else
{
error_msg += "\nVector z-component is not a floating point number.";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
if ( axisVector[0] == 0 && axisVector[1] == 0 && axisVector[2] == 0 )
{
error_msg += "\nDegenerate vector {0,0,0}.";
debug5 << error_msg << endl;
EXCEPTION2(ExpressionException, outputVariableName,
error_msg.c_str());
}
}
}
}
