CInputVirtualDevice* CInputDevice::CreateVariableVirtualDeviceFromThis(CInputActions* pcInputActions) { CInputVirtualDevice* pcVirtual; CInputSourceDesc* pcSource; CInputDevices* pcInputDevices; CChars szTemp; CArrayIntAndPointer apcSourceDescs; int i; pcInputDevices = GetInputDevices(); szTemp.Init(mszFriendlyName.Text()); szTemp.Append(" Variable"); pcVirtual = pcInputDevices->CreateVirtualDevice(szTemp.Text()); szTemp.Kill(); mcVariables.SetChords(pcVirtual->GetChords()); apcSourceDescs.Init(8); mpcDesc->GetVariableChordDescs()->GetInputSourceDescs(&apcSourceDescs, mpcDesc); for (i = 0; i < apcSourceDescs.NumElements(); i++) { pcSource = (CInputSourceDesc*)apcSourceDescs.GetPtr(i); pcVirtual->AddSource(this, pcSource); } apcSourceDescs.Kill(); pcVirtual->DoneAddingSources(); GetInputDevices()->AddChords(pcVirtual, mpcDesc->GetVariableChordDescs(), this); pcInputDevices->UpdateCommonality(); pcVirtual->Unstoppable(); return pcVirtual; }
BOOL CLogFile::FindHoles(CArrayIntAndPointer* papvOverlapping, filePos iPosition, filePos iLength) { CArrayIntAndPointer apvOverlappingSorted; int i; CLogFileCommandWrite* psWrite; int eCommand; BOOL bHoles; filePos iEnd; if (iLength == 0) { return FALSE; } if (papvOverlapping->NumElements() == 0) { return FALSE; } apvOverlappingSorted.Init(1); apvOverlappingSorted.Copy(papvOverlapping); apvOverlappingSorted.QuickSort(CompareLogFileWrite); apvOverlappingSorted.Get(0, (void**)&psWrite, &eCommand); if (psWrite->iPosition > iPosition) { apvOverlappingSorted.Kill(); return TRUE; } else { iEnd = psWrite->iPosition + psWrite->iSize -1; } bHoles = FALSE; for (i = 1; i < apvOverlappingSorted.NumElements(); i++) { apvOverlappingSorted.Get(i, (void**)&psWrite, &eCommand); if (psWrite->iPosition > (iEnd+1)) { bHoles = TRUE; break; } iEnd = psWrite->iPosition + psWrite->iSize -1; if (iEnd >= (iPosition + iLength-1)) { break; } } if (iEnd < (iPosition + iLength-1)) { bHoles = TRUE; } apvOverlappingSorted.Kill(); return bHoles; }
filePos CLogFile::ReadNextTouchingWrites(int iWriteIndex, void* pvDest, filePos iSize, filePos iCount) { CArrayIntAndPointer apvOverlapping; BOOL bAny; filePos iByteSize; iByteSize = iSize * iCount; bAny = FindTouchingWriteCommands(iWriteIndex, &apvOverlapping, miPosition, iByteSize, TRUE); if (bAny) { CopyWritesToRead(&apvOverlapping, iByteSize, pvDest); apvOverlapping.Kill(); } return iCount; }
filePos CLogFile::Write(const void* pvSource, filePos iSize, filePos iCount) { CArrayIntAndPointer apvOverlapping; BOOL bAny; filePos iByteLength; CLogFileCommandWrite* pcWrite; if (IsFileModeWritable(meFileMode)) { mbTouched = TRUE; iByteLength = iSize * iCount; if (miLastWriteOpenIndex == -1) { bAny = FALSE; } else { bAny = FindTouchingWriteCommands(miLastWriteOpenIndex + 1, &apvOverlapping, miPosition, iByteLength, FALSE); } if (bAny) { AmalgamateOverlappingWrites(&apvOverlapping, pvSource, miPosition, iByteLength); apvOverlapping.Kill(); miPosition += iByteLength; } else { pcWrite = AddWriteCommand(miPosition, (void*)pvSource, iByteLength); if (!pcWrite) { return 0; } miPosition += iByteLength; } UpdateLength(); return iCount; } else { return 0; } }
filePos CLogFile::ReadFirstTouchingWrites(int iWriteIndex, void* pvDest, filePos iSize, filePos iCount) { CArrayIntAndPointer apvOverlapping; BOOL bAny; BOOL bHoles; filePos iBytesReadFromFile; filePos iByteSize; iByteSize = iSize * iCount; bAny = FindTouchingWriteCommands(iWriteIndex, &apvOverlapping, miPosition, iByteSize, TRUE); if (bAny) { bHoles = FindHoles(&apvOverlapping, miPosition, iByteSize); if (bHoles) { iBytesReadFromFile = ReadFromBackingFile(pvDest, iSize, iCount); } CopyWritesToRead(&apvOverlapping, iByteSize, pvDest); apvOverlapping.Kill(); return iCount; } else { if (miFileLength == 0) { return iCount; } else { iBytesReadFromFile = ReadWithNoTouchingWrites(pvDest, iSize, iCount); if (iBytesReadFromFile == iByteSize) { return iCount; } else { return 0; } } } }
BOOL CCalculator::Expression(CCalcExpression** ppcExpression) { BOOL bOperator; BOOL bOperand; BOOL bFirst; CArrayIntAndPointer cArray; CCalcOperator* pcOperator; CCalcExpression* pcOperand; cArray.Init(16); bFirst = TRUE; for (;;) { for (;;) { bOperator = Operator(&pcOperator); if (!bOperator) { break; } cArray.Add(pcOperator, 0); } bOperand = Operand(&pcOperand); if (!bOperand && !bOperator) { if (bFirst) { cArray.Kill(); return FALSE; } else { BuildExpression(ppcExpression, &cArray); cArray.Kill(); if (*ppcExpression == NULL) { return FALSE; } else { return TRUE; } } } cArray.Add(pcOperand, 0); bFirst = FALSE; } }