BYTE* pbyGetFilterConfig(BYTE* pbyTrgBuffer, CModuleFilterArray* pouModuleFilterArray, const SFILTERAPPLIED_CAN* SrcFilter) { BYTE* pbyTemp = pbyTrgBuffer; USHORT ushFilterCount = 0; if (pouModuleFilterArray != NULL && (SrcFilter != NULL)) { ushFilterCount = (USHORT)pouModuleFilterArray->GetSize(); } SFILTERAPPLIED_CAN sFilterApplied; sFilterApplied.vClear(); sFilterApplied.m_bEnabled = TRUE; sFilterApplied.m_ushTotal = ushFilterCount; sFilterApplied.m_psFilters = new SFILTERSET[sFilterApplied.m_ushTotal]; for (INT i = 0; i < ushFilterCount; i++) { //update filter applied SMODULEFILTER sModuleFilter = pouModuleFilterArray->GetAt(i); SFILTERSET* psFilterSet = SFILTERSET::psGetFilterSetPointer(SrcFilter->m_psFilters, SrcFilter->m_ushTotal, sModuleFilter.m_omFilterName); if (psFilterSet != NULL) { sFilterApplied.m_psFilters[i].bClone(*psFilterSet); } } pbyTemp = sFilterApplied.pbGetConfigData(pbyTemp); sFilterApplied.vClear(); return pbyTemp; }
static void vPopulateFilterApplied(const SFILTERAPPLIED_CAN* psFilterConfigured, SFILTERAPPLIED_CAN& sFilterApplied, CMainEntryList& SrcList) { if ( psFilterConfigured == nullptr ) { return; } const SMAINENTRY& sMainEntry = SrcList.GetHead(); int nCount = sMainEntry.m_odSelEntryList.GetCount(); SFILTERAPPLIED_CAN sTempAppliedFilter; sTempAppliedFilter.bClone(sFilterApplied); sFilterApplied.vClear(); sFilterApplied.m_psFilters = new SFILTERSET[nCount]; POSITION pos = sMainEntry.m_odSelEntryList.GetHeadPosition(); while (pos) { SSUBENTRY sSubEntry = sMainEntry.m_odSelEntryList.GetNext(pos); const PSFILTERSET psTemp = SFILTERSET::psGetFilterSetPointer(psFilterConfigured->m_psFilters, psFilterConfigured->m_ushTotal, sSubEntry.m_omSubEntryName.GetBuffer(MAX_PATH)); if (psTemp != nullptr) { sFilterApplied.m_psFilters[sFilterApplied.m_ushTotal].bClone(*psTemp); sFilterApplied.m_ushTotal++; } } //restore the enable flag for all filters for(int nAppFilterCnt = 0; nAppFilterCnt < sFilterApplied.m_ushTotal; nAppFilterCnt++) { for(int nTempFilCnt = 0; nTempFilCnt < sTempAppliedFilter.m_ushTotal; nTempFilCnt++ ) { if((&sTempAppliedFilter.m_psFilters[nTempFilCnt]) != nullptr) { if(sFilterApplied.m_psFilters[nAppFilterCnt].m_sFilterName.m_acFilterName == sTempAppliedFilter.m_psFilters[nTempFilCnt].m_sFilterName.m_acFilterName) { ((sFilterApplied.m_psFilters)+ nAppFilterCnt) ->m_bEnabled = ((sTempAppliedFilter.m_psFilters)+ nTempFilCnt) ->m_bEnabled; } } } } }
static void vPopulateFilterApplied(const SFILTERAPPLIED_CAN* psFilterConfigured, SFILTERAPPLIED_CAN& sFilterApplied, CMainEntryList& SrcList) { const SMAINENTRY& sMainEntry = SrcList.GetHead(); int nCount = (int)sMainEntry.m_odSelEntryList.GetCount(); sFilterApplied.vClear(); sFilterApplied.m_psFilters = new SFILTERSET[nCount]; POSITION pos = sMainEntry.m_odSelEntryList.GetHeadPosition(); while (pos) { SSUBENTRY sSubEntry = sMainEntry.m_odSelEntryList.GetNext(pos); const PSFILTERSET psTemp = SFILTERSET::psGetFilterSetPointer(psFilterConfigured->m_psFilters, psFilterConfigured->m_ushTotal, sSubEntry.m_omSubEntryName.GetBuffer(MAX_PATH)); ASSERT (psTemp != NULL); sFilterApplied.m_psFilters[sFilterApplied.m_ushTotal].bClone(*psTemp); sFilterApplied.m_ushTotal++; } }