Leaked source code of windows server 2003
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/////////////////////////////////////////////////////////////////////////////////////
// Locatorimpl.h : implementation helper template for locator interface
// Copyright (c) Microsoft Corporation 2000.
#ifndef LOCATORIMPL_H
#define LOCATORIMPL_H
namespace BDATuningModel {
template<class T,
class MostDerived = ILocator,
LPCGUID iid = &__uuidof(MostDerived),
LPCGUID LibID = &LIBID_TunerLib,
WORD wMajor = 1,
WORD wMinor = 0,
class tihclass = CComTypeInfoHolder
> class ATL_NO_VTABLE ILocatorImpl :
public IPersistPropertyBagImpl<T>,
public IDispatchImpl<MostDerived, iid, LibID, wMajor, wMinor, tihclass>
{
// ILocator
public:
long m_Frequency;
FECMethod m_InnerFECMethod;
BinaryConvolutionCodeRate m_InnerFECRate;
FECMethod m_OuterFECMethod;
BinaryConvolutionCodeRate m_OuterFECRate;
ModulationType m_Modulation;
long m_SymbolRate;
ILocatorImpl() : m_Frequency(-1),
m_InnerFECMethod(BDA_FEC_METHOD_NOT_SET),
m_InnerFECRate(BDA_BCC_RATE_NOT_SET),
m_OuterFECMethod(BDA_FEC_METHOD_NOT_SET),
m_OuterFECRate(BDA_BCC_RATE_NOT_SET),
m_SymbolRate(-1),
m_Modulation(BDA_MOD_NOT_SET) {}
virtual ~ILocatorImpl() {}
typedef ILocatorImpl<T, MostDerived, iid, LibID, wMajor, wMinor, tihclass> thistype;
BEGIN_PROP_MAP(thistype)
PROP_DATA_ENTRY("Frequency", m_Frequency, VT_I4)
PROP_DATA_ENTRY("InnerFECMethod", m_InnerFECMethod, VT_I4)
PROP_DATA_ENTRY("InnerFECRate", m_InnerFECRate, VT_I4)
PROP_DATA_ENTRY("OuterFECMethod", m_OuterFECMethod, VT_I4)
PROP_DATA_ENTRY("OuterFECRate", m_OuterFECRate, VT_I4)
PROP_DATA_ENTRY("ModulationType", m_Modulation, VT_I4)
PROP_DATA_ENTRY("SymbolRate", m_SymbolRate, VT_I4)
END_PROP_MAP()
// ILocator
public:
STDMETHOD(get_CarrierFrequency)(/*[out, retval]*/ long *pFrequency) {
try {
if (!pFrequency) {
return E_POINTER;
}
ATL_LOCKT();
*pFrequency = m_Frequency;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_CarrierFrequency)(/*[in]*/ long NewFrequency) {
ATL_LOCKT();
m_Frequency = NewFrequency;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_InnerFEC)(/*[out, retval]*/ FECMethod *pFEC) {
try {
if (!pFEC) {
return E_POINTER;
}
ATL_LOCKT();
*pFEC = m_InnerFECMethod;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_InnerFEC)(/*[in]*/ FECMethod NewFEC) {
ATL_LOCKT();
m_InnerFECMethod = NewFEC;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_InnerFECRate)(/*[out, retval]*/ BinaryConvolutionCodeRate *pFECRate) {
try {
if (!pFECRate) {
return E_POINTER;
}
ATL_LOCKT();
*pFECRate = m_InnerFECRate;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_InnerFECRate)(/*[in]*/ BinaryConvolutionCodeRate NewFECRate) {
ATL_LOCKT();
m_InnerFECRate = NewFECRate;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_OuterFEC)(/*[out, retval]*/ FECMethod *pFEC) {
try {
if (!pFEC) {
return E_POINTER;
}
ATL_LOCKT();
*pFEC = m_OuterFECMethod;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_OuterFEC)(/*[in]*/ FECMethod NewFEC) {
ATL_LOCKT();
m_OuterFECMethod = NewFEC;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_OuterFECRate)(/*[out, retval]*/ BinaryConvolutionCodeRate *pFECRate) {
try {
if (!pFECRate) {
return E_POINTER;
}
ATL_LOCKT();
*pFECRate = m_OuterFECRate;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_OuterFECRate)(/*[in]*/ BinaryConvolutionCodeRate NewFECRate) {
ATL_LOCKT();
m_OuterFECRate = NewFECRate;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_Modulation)(/*[out, retval]*/ ModulationType* pModulation) {
try {
if (!pModulation) {
return E_POINTER;
}
ATL_LOCKT();
*pModulation = m_Modulation;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_Modulation)(/*[in]*/ ModulationType NewModulation) {
ATL_LOCKT();
m_Modulation = NewModulation;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(get_SymbolRate)(/*[out, retval]*/ long* pSymbolRate) {
try {
if (!pSymbolRate) {
return E_POINTER;
}
ATL_LOCKT();
*pSymbolRate = m_SymbolRate;
return NOERROR;
} catch (...) {
return E_POINTER;
}
}
STDMETHOD(put_SymbolRate)(/*[in]*/ long NewSymbolRate) {
ATL_LOCKT();
m_SymbolRate = NewSymbolRate;
MARK_DIRTY(T);
return NOERROR;
}
STDMETHOD(Clone) (ILocator **ppL) {
try {
if (!ppL) {
return E_POINTER;
}
ATL_LOCKT();
T* pt = static_cast<T*>(new CComObject<T>);
if (!pt) {
return E_OUTOFMEMORY;
}
pt->m_Frequency = m_Frequency;
pt->m_InnerFECMethod = m_InnerFECMethod;
pt->m_InnerFECRate = m_InnerFECRate;
pt->m_OuterFECMethod = m_OuterFECMethod;
pt->m_OuterFECRate = m_OuterFECRate;
pt->m_Modulation = m_Modulation;
pt->m_SymbolRate = m_SymbolRate;
pt->m_bRequiresSave = true;
pt->AddRef();
*ppL = pt;
return NOERROR;
} catch (HRESULT h) {
return h;
} catch (...) {
return E_POINTER;
}
}
};
}; // namespace
#endif // LOCATORIMPL_H
// end of file -- locatorimpl.h