bool CAcceleratorManager::AddAccel(BYTE cVirt, WORD wIDCommand, WORD wKey, LPCTSTR szCommand, bool bLocked)
{
ASSERT(szCommand != NULL);
WORD wIDCmd;
if (m_mapAccelString.Lookup(szCommand, wIDCmd) == TRUE) {
if (wIDCmd != wIDCommand)
return false;
}
CCmdAccelOb* pCmdAccel = NULL;
if (m_mapAccelTable.Lookup(wIDCommand, pCmdAccel) == TRUE) {
if (pCmdAccel->m_szCommand != szCommand) {
return false;
}
CAccelsOb* pAccel;
POSITION pos = pCmdAccel->m_Accels.GetHeadPosition();
while (pos != NULL) {
pAccel = pCmdAccel->m_Accels.GetNext(pos);
if (pAccel->m_cVirt == cVirt &&
pAccel->m_wKey == wKey)
return FALSE;
}
// Adding the accelerator
pCmdAccel->Add(cVirt, wKey, bLocked);
} else {
pCmdAccel = new CCmdAccelOb(cVirt, wIDCommand, wKey, szCommand, bLocked);
ASSERT(pCmdAccel != NULL);
m_mapAccelTable.SetAt(wIDCommand, pCmdAccel);
}
// 2nd table
m_mapAccelString.SetAt(szCommand, wIDCommand);
return true;
}
//////////////////////////////////////////////////////////////////////
// In/Out to the registry
//////////////////////////////////////////////////////////////////////
//
//
bool CAcceleratorManager::Load(HKEY hRegKey, LPCTSTR szRegKey)
{
ASSERT(szRegKey != NULL);
HKEY hKey;
m_hRegKey = hRegKey;
m_szRegKey = szRegKey;
LONG res = RegOpenKeyEx(hRegKey, szRegKey, 0L, KEY_ALL_ACCESS, &hKey);
if(res == ERROR_SUCCESS) {
DWORD data[2048/sizeof(DWORD)];
DWORD dwType;
DWORD len = sizeof(data);
res = RegQueryValueEx(hKey, "keyboard", NULL, &dwType,
(LPBYTE)data, &len);
RegCloseKey(hKey);
if(res == ERROR_SUCCESS) {
int count = len/sizeof(DWORD);
CCmdAccelOb* pCmdAccel;
CAccelsOb* pAccel;
DWORD dwIDAccelData, dwAccelData;
int iIndex = 0;
if(count) {
while(iIndex < count) {
dwIDAccelData = data[iIndex++];
WORD wIDCommand = LOWORD(dwIDAccelData);
CMapWordToCCmdAccelOb::iterator it = m_mapAccelTable.find(wIDCommand);
bool bExistID = (it != m_mapAccelTable.end());
if (bExistID) {
pCmdAccel = it->second;
pCmdAccel->DeleteUserAccels();
}
for (int j = 0; j < HIWORD(dwIDAccelData) && iIndex < count; j++) {
dwAccelData = data[iIndex++];
if (bExistID) {
pAccel = new CAccelsOb;
ASSERT(pAccel != NULL);
pAccel->SetData(dwAccelData);
pCmdAccel->Add(pAccel);
}
}
}
}
UpdateWndTable();
return true;
}
return false;
}
return true;
}
//////////////////////////////////////////////////////////////////////
// In/Out to the registry
//////////////////////////////////////////////////////////////////////
//
//
bool CAcceleratorManager::Load(HKEY hRegKey, LPCTSTR szRegKey)
{
ASSERT(szRegKey != NULL);
m_hRegKey = hRegKey;
m_szRegKey = szRegKey;
DWORD data[2048/sizeof(DWORD)];
DWORD len = sizeof(data);
if(regQueryBinaryValue("keyboard", (char *)data, len)) {
int count = len/sizeof(DWORD);
CCmdAccelOb* pCmdAccel;
CAccelsOb* pAccel;
DWORD dwIDAccelData, dwAccelData;
BOOL bExistID;
int iIndex = 0;
if(count) {
WORD wKey;
POSITION pos = m_mapAccelTable.GetStartPosition();
while(pos != NULL) {
m_mapAccelTable.GetNextAssoc(pos, wKey, pCmdAccel);
pCmdAccel->DeleteUserAccels();
}
while(iIndex < count) {
dwIDAccelData = data[iIndex++];
WORD wIDCommand = LOWORD(dwIDAccelData);
bExistID = m_mapAccelTable.Lookup(wIDCommand, pCmdAccel);
if (bExistID) {
pCmdAccel->DeleteUserAccels();
}
for (int j = 0; j < HIWORD(dwIDAccelData) && iIndex < count; j++) {
dwAccelData = data[iIndex++];
if (bExistID) {
pAccel = new CAccelsOb;
ASSERT(pAccel != NULL);
pAccel->SetData(dwAccelData);
pCmdAccel->Add(pAccel);
}
}
}
}
UpdateWndTable();
return true;
}
return false;
}
bool CAcceleratorManager::AddAccel(BYTE cVirt, WORD wIDCommand, WORD wKey, LPCTSTR szCommand, bool bLocked)
{
ASSERT(szCommand != NULL);
// WORD wIDCmd;
CMapStringToWord::iterator it;
it = m_mapAccelString.find((char *)szCommand);
if (it != m_mapAccelString.end()) {
if (it->second != wIDCommand)
return false;
}
CCmdAccelOb* pCmdAccel = NULL;
CMapWordToCCmdAccelOb::iterator it2;
it2 = m_mapAccelTable.find(wIDCommand);
if(it2 != m_mapAccelTable.end()) {
pCmdAccel = it2->second;
if(strcmp(pCmdAccel->m_szCommand, szCommand)) {
return false;
}
CAccelsOb* pAccel;
std::list<CAccelsOb *>::iterator it3 = pCmdAccel->m_Accels.begin();
while (it3 != pCmdAccel->m_Accels.end()) {
pAccel = *it3;
if (pAccel->m_cVirt == cVirt &&
pAccel->m_wKey == wKey)
return FALSE;
it3++;
}
// Adding the accelerator
pCmdAccel->Add(cVirt, wKey, bLocked);
} else {
pCmdAccel = new CCmdAccelOb(cVirt, wIDCommand, wKey, szCommand, bLocked);
ASSERT(pCmdAccel != NULL);
m_mapAccelTable.insert(CMapWordToCCmdAccelOb::value_type(wIDCommand, pCmdAccel));
}
// 2nd table
m_mapAccelString.insert(CMapStringToWord::value_type((char *)szCommand, wIDCommand));
return true;
}
bool CAcceleratorManager::Default()
{
CCmdAccelOb* pCmdAccel;
CCmdAccelOb* pSavedCmdAccel;
CAccelsOb* pAccel;
CAccelsOb* pSavedAccel;
WORD wKey;
CMapWordToCCmdAccelOb::iterator it = m_mapAccelTable.begin();
while(it != m_mapAccelTable.end()) {
wKey = it->first;
pCmdAccel = it->second;
pCmdAccel->DeleteUserAccels();
it++;
}
// @ Add the saved Accelerators
it = m_mapAccelTableSaved.begin();
while (it != m_mapAccelTableSaved.end()) {
wKey = it->first;
pSavedCmdAccel = it->second;
it++;
pCmdAccel = m_mapAccelTable.find(wKey)->second;
// @ Removed by kukac pCmdAccel->DeleteUserAccels();
std::list<CAccelsOb*>::iterator it = pSavedCmdAccel->m_Accels.begin();
while (it != pSavedCmdAccel->m_Accels.end()) {
pSavedAccel = *it;
it++;
pAccel = new CAccelsOb(pSavedAccel);
ASSERT(pAccel != NULL);
pCmdAccel->m_Accels.push_back(pAccel);
}
}
return true;
}
