BOOL CEnCommandLineInfo::SetOption(LPCTSTR szFlag, LPCTSTR szParam)
{
CString sFlag(szFlag), sLookup, sParameter;
sFlag.MakeUpper();
// option cannot already exist
if (m_mapCommandLine.Lookup(sFlag, sParameter))
return FALSE;
// create flag
m_mapCommandLine[sFlag] = _T("");
// set szParam as the one and only option parameter
sLookup.Format(_T("%s_PARAMETER_0"), sFlag);
m_mapCommandLine[sLookup] = szParam;
return TRUE;
}
QPixmap * getPixmapForCountryCode( const QString & countryCode )
{
if( countryCode.isEmpty() )
return NULL;
QString sCode( countryCode.toLower() );
QPixmap * pm = NULL;
pm = pPixmapCache->object(sCode);
if( !pm )
{
QString sFlag( KStandardDirs::locate("locale", sFlagTemplate.arg(sCode)) );
if( !sFlag.isEmpty() )
{
pm = new QPixmap(sFlag);
pPixmapCache->insert( sCode, pm );
}
}
return pm;
}
BOOL CEnCommandLineInfo::GetOption(LPCTSTR szFlag, CStringArray& aParams) const
{
CString sFlag(szFlag), sLookup, sParameter;
sFlag.MakeUpper();
if (!m_mapCommandLine.Lookup(sFlag, sParameter))
return FALSE;
aParams.RemoveAll();
int nParam = 0;
sLookup.Format(_T("%s_PARAMETER_%d"), sFlag, nParam);
while (m_mapCommandLine.Lookup(sLookup, sParameter))
{
aParams.Add(sParameter);
nParam++;
sLookup.Format(_T("%s_PARAMETER_%d"), sFlag, nParam);
}
return TRUE;
}
void StrandBlockSolver::corner()
{
// find sharp corners surrounding each cell
int i,j=nFaces+nBedges;
nssc0.allocate(j);
ssc0 = new int*[j];
for (int n=0; n<nFaces+nBedges; n++) nssc0(n) = 0.;
int flag[nSharp];
for (int n=0; n<nSharp; n++) flag[n] =-1;
for (int n=0; n<nFaces+nBedges; n++){
for (int m=0; m<npsc(n); m++){
i = psc[n][m];
j = sFlag(i);
if (j > 0 && flag[j-1] != n){
nssc0(n) += 1;
flag[j-1] = n;
}}}
for (int n=0; n<nFaces+nBedges; n++){
if (nssc0(n) > 0) ssc0[n] = new int[nssc0(n)];
else ssc0[n] = NULL;
}
for (int n=0; n<nFaces+nBedges; n++) nssc0(n) = 0.;
for (int n=0; n<nSharp; n++) flag[n] =-1;
for (int n=0; n<nFaces+nBedges; n++){
for (int m=0; m<npsc(n); m++){
i = psc[n][m];
j = sFlag(i);
if (j > 0 && flag[j-1] != n){
ssc0[n][nssc0(n)] = j-1;
nssc0(n) += 1;
flag[j-1] = n;
}}}
//for (int n=0; n<nFaces+nBedges; n++){
// cout << n;
// for (int m=0; m<nssc0(n); m++) cout << "\t" << ssc0[n][m];
// cout << endl;
//}
//exit(0);
// find nodes surrounding each sharp corner
npsc0.allocate(nSharp);
psc0 = new int*[nSharp];
for (int n=0; n<nSharp; n++) npsc0(n) = 0;
for (int n=0; n<nNodes; n++){
j = sFlag(n)-1;
if (j >= 0) npsc0(j) += 1;
}
for (int n=0; n<nSharp; n++) psc0[n] = new int[npsc0(n)];
for (int n=0; n<nSharp; n++) npsc0(n) = 0.;
for (int n=0; n<nNodes; n++){
j = sFlag(n)-1;
if (j >= 0){
psc0[j][npsc0(j)] = n;
npsc0(j) += 1;
}}
//for (int n=0; n<nSharp; n++){
// cout << n;
// for (int m=0; m<npsc0(n); m++) cout << "\t" << psc0[n][m];
// cout << endl;
//}
//exit(0);
// find cells surrounding each sharp corner
int n1,n2;
ncsc0.allocate(nSharp);
csc0 = new int*[nSharp];
for (int n=0; n<nSharp; n++) ncsc0(n) = 0;
for (int n=0; n<nSharp; n++) flag[n] =-1;
for (int n=0; n<nFaces-nGfaces; n++){
n1 = face(0,n);
n2 = face(1,n);
j = sFlag(n1)-1;
if (j >= 0 && flag[j] != n){
ncsc0(j) += 1;
flag[j] = n;
}
j = sFlag(n2)-1;
if (j >= 0 && flag[j] != n){
ncsc0(j) += 1;
flag[j] = n;
}}
for (int n=0; n<nSharp; n++) csc0[n] = new int[ncsc0(n)];
for (int n=0; n<nSharp; n++) ncsc0(n) = 0.;
for (int n=0; n<nSharp; n++) flag[n] =-1;
for (int n=0; n<nFaces-nGfaces; n++){
n1 = face(0,n);
n2 = face(1,n);
j = sFlag(n1)-1;
if (j >= 0 && flag[j] != n){
csc0[j][ncsc0(j)] = n;
ncsc0(j) += 1;
flag[j] = n;
}
j = sFlag(n2)-1;
if (j >= 0 && flag[j] != n){
csc0[j][ncsc0(j)] = n;
ncsc0(j) += 1;
flag[j] = n;
}}
//for (int n=0; n<nSharp; n++){
// cout << n;
// for (int m=0; m<ncsc0(n); m++) cout << "\t" << csc0[n][m];
// cout << endl;
//}
}
