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  • Finding out why Dell Controler is Degraded

    - by Kyle Brandt
    I installed open manage on a couple of my PE 2950s for snmp monitoring of the RAID. All the checks seem to come back okay except for controllerState: [root@aMachine ~]# snmpwalk -v 2c -c bestNotToPostPasswords myMachine -m +StorageManagement-MIB controllerstate StorageManagement-MIB::controllerState.1 = INTEGER: degraded(6) Other checks seems to indicate the battery, LD, and physicals disks are all good unless I missing something. Can anyone tell if I am missing something or neglecting something import in my RAID monitoring/understanding? I get degraded for both these servers I have set up. A walk of the entire storage management tree for on of them: StorageManagement-MIB::softwareVersion.0 = STRING: "3.2.0" StorageManagement-MIB::globalStatus.0 = INTEGER: warning(2) StorageManagement-MIB::softwareManufacturer.0 = STRING: "Dell Inc." StorageManagement-MIB::softwareProduct.0 = STRING: "Server Administrator (Storage Management)" StorageManagement-MIB::softwareDescription.0 = STRING: "Configuration and monitoring of disk storage devices." StorageManagement-MIB::displayName.0 = STRING: "Server Administrator (Storage Management)" StorageManagement-MIB::description.0 = STRING: "Configuration and monitoring of disk storage devices." StorageManagement-MIB::agentVendor.0 = STRING: "Dell Inc." StorageManagement-MIB::agentTimeStamp.0 = INTEGER: 1273842310 StorageManagement-MIB::agentGetTimeout.0 = INTEGER: 5 StorageManagement-MIB::agentModifiers.0 = INTEGER: 0 StorageManagement-MIB::agentRefreshRate.0 = INTEGER: 300 StorageManagement-MIB::agentMibVersion.0 = STRING: "3.2" StorageManagement-MIB::agentManagementSoftwareURLName.0 = "" StorageManagement-MIB::agentGlobalSystemStatus.0 = INTEGER: nonCritical(4) StorageManagement-MIB::agentLastGlobalSystemStatus.0 = INTEGER: ok(3) StorageManagement-MIB::agentSmartThermalShutdown.0 = INTEGER: notApplicable(3) StorageManagement-MIB::controllerNumber.1 = INTEGER: 1 StorageManagement-MIB::controllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::controllerVendor.1 = STRING: "DELL" StorageManagement-MIB::controllerType.1 = INTEGER: sas(6) StorageManagement-MIB::controllerState.1 = INTEGER: degraded(6) StorageManagement-MIB::controllerRebuildRateInPercent.1 = INTEGER: 30 StorageManagement-MIB::controllerFWVersion.1 = STRING: "5.0.2-0003" StorageManagement-MIB::controllerCacheSizeInMB.1 = INTEGER: 256 StorageManagement-MIB::controllerCacheSizeInBytes.1 = INTEGER: 0 StorageManagement-MIB::controllerPhysicalDeviceCount.1 = INTEGER: 5 StorageManagement-MIB::controllerLogicalDeviceCount.1 = INTEGER: 1 StorageManagement-MIB::controllerRollUpStatus.1 = INTEGER: nonCritical(4) StorageManagement-MIB::controllerComponentStatus.1 = INTEGER: nonCritical(4) StorageManagement-MIB::controllerNexusID.1 = STRING: "\\0" StorageManagement-MIB::controllerAlarmState.1 = INTEGER: disabled(2) StorageManagement-MIB::controllerDriverVersion.1 = STRING: "00.00.03.05 " StorageManagement-MIB::controllerPCISlot.1 = STRING: "embedded" StorageManagement-MIB::controllerClusterMode.1 = INTEGER: notApplicable(99) StorageManagement-MIB::controllerMinFWVersion.1 = STRING: "5.2.1-0067" StorageManagement-MIB::controllerMinDriverVersion.1 = STRING: "00.00.03.21" StorageManagement-MIB::controllerChannelCount.1 = INTEGER: 2 StorageManagement-MIB::controllerReconstructRate.1 = INTEGER: 30 StorageManagement-MIB::controllerPatrolReadRate.1 = INTEGER: 30 StorageManagement-MIB::controllerBGIRate.1 = INTEGER: 30 StorageManagement-MIB::controllerCheckConsistencyRate.1 = INTEGER: 30 StorageManagement-MIB::controllerPatrolReadMode.1 = INTEGER: automatic(1) StorageManagement-MIB::controllerPatrolReadState.1 = INTEGER: stopped(1) StorageManagement-MIB::controllerPatrolReadIterations.1 = INTEGER: 162 StorageManagement-MIB::controllerEntry.57.1 = INTEGER: 99 StorageManagement-MIB::controllerEntry.58.1 = INTEGER: 99 StorageManagement-MIB::channelNumber.1 = INTEGER: 1 StorageManagement-MIB::channelNumber.2 = INTEGER: 2 StorageManagement-MIB::channelName.1 = STRING: "Connector 0" StorageManagement-MIB::channelName.2 = STRING: "Connector 1" StorageManagement-MIB::channelState.1 = INTEGER: ready(1) StorageManagement-MIB::channelState.2 = INTEGER: ready(1) StorageManagement-MIB::channelRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::channelRollUpStatus.2 = INTEGER: ok(3) StorageManagement-MIB::channelComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::channelComponentStatus.2 = INTEGER: ok(3) StorageManagement-MIB::channelNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::channelNexusID.2 = STRING: "\\0\\1" StorageManagement-MIB::channelBusType.1 = INTEGER: sas(8) StorageManagement-MIB::channelBusType.2 = INTEGER: sas(8) StorageManagement-MIB::enclosureNumber.1 = INTEGER: 1 StorageManagement-MIB::enclosureName.1 = STRING: "Backplane" StorageManagement-MIB::enclosureVendor.1 = STRING: "DELL" StorageManagement-MIB::enclosureState.1 = INTEGER: ready(1) StorageManagement-MIB::enclosureProductID.1 = STRING: "BACKPLANE " StorageManagement-MIB::enclosureType.1 = INTEGER: internal(1) StorageManagement-MIB::enclosureChannelNumber.1 = INTEGER: 0 StorageManagement-MIB::enclosureRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::enclosureComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::enclosureNexusID.1 = STRING: "\\0\\0\\0" StorageManagement-MIB::enclosureFirmwareVersion.1 = STRING: "1.00" StorageManagement-MIB::enclosureSASAddress.1 = STRING: "50019090B4C67200" StorageManagement-MIB::arrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskVendor.1 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.2 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.3 = STRING: "DELL " StorageManagement-MIB::arrayDiskVendor.4 = STRING: "DELL " StorageManagement-MIB::arrayDiskState.1 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.2 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.3 = INTEGER: online(3) StorageManagement-MIB::arrayDiskState.4 = INTEGER: online(3) StorageManagement-MIB::arrayDiskProductID.1 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.2 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.3 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskProductID.4 = STRING: "ST3146755SS " StorageManagement-MIB::arrayDiskSerialNo.1 = STRING: "3LN0LRL0 " StorageManagement-MIB::arrayDiskSerialNo.2 = STRING: "3LN0JYJS " StorageManagement-MIB::arrayDiskSerialNo.3 = STRING: "3LN0LR0V " StorageManagement-MIB::arrayDiskSerialNo.4 = STRING: "3LN0JH97 " StorageManagement-MIB::arrayDiskRevision.1 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.2 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.3 = STRING: "T106" StorageManagement-MIB::arrayDiskRevision.4 = STRING: "T106" StorageManagement-MIB::arrayDiskEnclosureID.1 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.2 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.3 = STRING: "0" StorageManagement-MIB::arrayDiskEnclosureID.4 = STRING: "0" StorageManagement-MIB::arrayDiskChannel.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskChannel.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInMB.1 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.2 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.3 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInMB.4 = INTEGER: 139392 StorageManagement-MIB::arrayDiskLengthInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLengthInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInMB.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLargestContiguousFreeSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskTargetID.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskTargetID.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskTargetID.3 = INTEGER: 2 StorageManagement-MIB::arrayDiskTargetID.4 = INTEGER: 3 StorageManagement-MIB::arrayDiskLunID.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskLunID.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInMB.1 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.2 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.3 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInMB.4 = INTEGER: 139392 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskUsedSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInMB.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskFreeSpaceInBytes.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskBusType.1 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.2 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.3 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskBusType.4 = INTEGER: sas(8) StorageManagement-MIB::arrayDiskSpareState.1 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.2 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.3 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskSpareState.4 = INTEGER: notASpare(5) StorageManagement-MIB::arrayDiskRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.2 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.3 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskRollUpStatus.4 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.2 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.3 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskComponentStatus.4 = INTEGER: ok(3) StorageManagement-MIB::arrayDiskNexusID.1 = STRING: "\\0\\0\\0\\0" StorageManagement-MIB::arrayDiskNexusID.2 = STRING: "\\0\\0\\0\\1" StorageManagement-MIB::arrayDiskNexusID.3 = STRING: "\\0\\0\\0\\2" StorageManagement-MIB::arrayDiskNexusID.4 = STRING: "\\0\\0\\0\\3" StorageManagement-MIB::arrayDiskPartNumber.1 = STRING: "SG0DR2381253172FLRL0A00 " StorageManagement-MIB::arrayDiskPartNumber.2 = STRING: "SG0DR2381253172FJYJSA00 " StorageManagement-MIB::arrayDiskPartNumber.3 = STRING: "SG0DR2381253172FLR0VA00 " StorageManagement-MIB::arrayDiskPartNumber.4 = STRING: "SG0DR2381253172FJH97A00 " StorageManagement-MIB::arrayDiskSASAddress.1 = STRING: "5000C50002380201" StorageManagement-MIB::arrayDiskSASAddress.2 = STRING: "5000C50002385B89" StorageManagement-MIB::arrayDiskSASAddress.3 = STRING: "5000C50002385AA9" StorageManagement-MIB::arrayDiskSASAddress.4 = STRING: "5000C500023841E1" StorageManagement-MIB::arrayDiskSmartAlertIndication.1 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.2 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.3 = INTEGER: no(1) StorageManagement-MIB::arrayDiskSmartAlertIndication.4 = INTEGER: no(1) StorageManagement-MIB::arrayDiskManufactureDay.1 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.2 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.3 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureDay.4 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.1 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.2 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.3 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureWeek.4 = STRING: "07" StorageManagement-MIB::arrayDiskManufactureYear.1 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.2 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.3 = STRING: "2005" StorageManagement-MIB::arrayDiskManufactureYear.4 = STRING: "2005" StorageManagement-MIB::arrayDiskMediaType.1 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.2 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.3 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskMediaType.4 = INTEGER: hdd(2) StorageManagement-MIB::arrayDiskEntry.36.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.36.4 = INTEGER: 1 StorageManagement-MIB::arrayDiskEntry.40.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.40.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.2 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.3 = INTEGER: 0 StorageManagement-MIB::arrayDiskEntry.41.4 = INTEGER: 0 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskEnclosureConnectionNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskEnclosureConnectionArrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.1 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.2 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.3 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureName.4 = STRING: "Backplane" StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionEnclosureNumber.4 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.2 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.3 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerName.4 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskEnclosureConnectionControllerNumber.4 = INTEGER: 1 StorageManagement-MIB::batteryNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryName.1 = STRING: "Battery 0" StorageManagement-MIB::batteryVendor.1 = STRING: "DELL" StorageManagement-MIB::batteryState.1 = INTEGER: ready(1) StorageManagement-MIB::batteryRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::batteryComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::batteryNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::batteryPredictedCapacity.1 = INTEGER: ready(2) StorageManagement-MIB::batteryNextLearnTime.1 = INTEGER: 21 StorageManagement-MIB::batteryLearnState.1 = INTEGER: idle(16) StorageManagement-MIB::batteryEntry.13.1 = INTEGER: 0 StorageManagement-MIB::batteryMaxLearnDelay.1 = INTEGER: 168 StorageManagement-MIB::batteryConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryConnectionBatteryName.1 = STRING: "Battery 0" StorageManagement-MIB::batteryConnectionBatteryNumber.1 = INTEGER: 1 StorageManagement-MIB::batteryConnectionControllerName.1 = STRING: "PERC 5/i Integrated" StorageManagement-MIB::batteryConnectionControllerNumber.1 = INTEGER: 1 StorageManagement-MIB::virtualDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::virtualDiskName.1 = STRING: "Virtual Disk 0" StorageManagement-MIB::virtualDiskDeviceName.1 = STRING: "/dev/sda" StorageManagement-MIB::virtualDiskState.1 = INTEGER: ready(1) StorageManagement-MIB::virtualDiskLengthInMB.1 = INTEGER: 278784 StorageManagement-MIB::virtualDiskLengthInBytes.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskWritePolicy.1 = INTEGER: writeBack(3) StorageManagement-MIB::virtualDiskReadPolicy.1 = INTEGER: noReadAhead(5) StorageManagement-MIB::virtualDiskCachePolicy.1 = INTEGER: not-applicable(99) StorageManagement-MIB::virtualDiskLayout.1 = INTEGER: raid-10(10) StorageManagement-MIB::virtualDiskCurStripeSizeInMB.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskCurStripeSizeInBytes.1 = INTEGER: 65536 StorageManagement-MIB::virtualDiskTargetID.1 = INTEGER: 0 StorageManagement-MIB::virtualDiskRollUpStatus.1 = INTEGER: ok(3) StorageManagement-MIB::virtualDiskComponentStatus.1 = INTEGER: ok(3) StorageManagement-MIB::virtualDiskNexusID.1 = STRING: "\\0\\0" StorageManagement-MIB::virtualDiskArrayDiskType.1 = INTEGER: sas(1) StorageManagement-MIB::virtualDiskEntry.23.1 = INTEGER: 2 StorageManagement-MIB::virtualDiskEntry.24.1 = INTEGER: 0 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskLogicalConnectionNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.1 = STRING: "Physical Disk 0:0:0" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.2 = STRING: "Physical Disk 0:0:1" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.3 = STRING: "Physical Disk 0:0:2" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskName.4 = STRING: "Physical Disk 0:0:3" StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.2 = INTEGER: 2 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.3 = INTEGER: 3 StorageManagement-MIB::arrayDiskLogicalConnectionArrayDiskNumber.4 = INTEGER: 4 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.1 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.2 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.3 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskName.4 = STRING: "Virtual Disk 0" StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.1 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.2 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.3 = INTEGER: 1 StorageManagement-MIB::arrayDiskLogicalConnectionVirtualDiskNumber.4 = INTEGER: 1

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  • smallest perimiter rectangle with given integer area and integer sides

    - by remuladgryta
    Given an integer area A, how can one find integer sides w and h of a rectangle such that w*h = A and w+h is as small as possible? I'd rather the algorithm be simple than efficient (although within reasonable efficiency). What would be the best way to accomplish this? Finding out the prime factors of A, then combining them in some way that tries to balance w and h? Finding the two squares with integer sides with areas closest to A and then somehow interpolating between them? Any other method i'm not thinking of?

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  • Bit reversal of an integer, ignoring integer size and endianness

    - by ??O?????
    Given an integer typedef: typedef unsigned int TYPE; or typedef unsigned long TYPE; I have the following code to reverse the bits of an integer: TYPE max_bit= (TYPE)-1; void reverse_int_setup() { TYPE bits= (TYPE)max_bit; while (bits <<= 1) max_bit= bits; } TYPE reverse_int(TYPE arg) { TYPE bit_setter= 1, bit_tester= max_bit, result= 0; for (result= 0; bit_tester; bit_tester>>= 1, bit_setter<<= 1) if (arg & bit_tester) result|= bit_setter; return result; } One just needs first to run reverse_int_setup(), which stores an integer with the highest bit turned on, then any call to reverse_int(arg) returns arg with its bits reversed (to be used as a key to a binary tree, taken from an increasing counter, but that's more or less irrelevant). Is there a platform-agnostic way to have in compile-time the correct value for max_int after the call to reverse_int_setup(); Otherwise, is there an algorithm you consider better/leaner than the one I have for reverse_int()? Thanks.

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  • Question about C behaviour for unsigned integer underflow

    - by nn
    I have read in many places that integer overflow is well-defined in C unlike the signed counterpart. Is underflow the same? For example: unsigned int x = -1; // Does x == UINT_MAX? Thanks. I can't recall where, but i read somewhere that arithmetic on unsigned integral types is modular, so if that were the case then -1 == UINT_MAX mod (UINT_MAX+1).

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  • Compare new Integer Objects in ArrayList Question

    - by thechiman
    I am storing Integer objects representing an index of objects I want to track. Later in my code I want to check to see if a particular object's index corresponds to one of those Integers I stored earlier. I am doing this by creating an ArrayList and creating a new Integer from the index of a for loop: ArrayList<Integer> courseselectItems = new ArrayList(); //Find the course elements that are within a courseselect element and add their indicies to the ArrayList for(int i=0; i<numberElementsInNodeList; i++) { if (nodeList.item(i).getParentNode().getNodeName().equals("courseselect")) { courseselectItems.add(new Integer(i)); } } I then want to check later if the ArrayList contains a particular index: //Cycle through the namedNodeMap array to find each of the course codes for(int i=0; i<numberElementsInNodeList; i++) { if(!courseselectItems.contains(new Integer(i))) { //Do Stuff } } My question is, when I create a new Integer by using new Integer(i) will I be able to compare integers using ArrayList.contains()? That is to say, when I create a new object using new Integer(i), will that be the same as the previously created Integer object if the int value used to create them are the same? I hope I didn't make this too unclear. Thanks for the help!

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  • How does the last integer promotion rule ever get applied in C?

    - by SiegeX
    6.3.1.8p1: Otherwise, the integer promotions are performed on both operands. Then the following rules are applied to the promoted operands: If both operands have the same type, then no further conversion is needed. Otherwise, if both operands have signed integer types or both have unsigned integer types, the operand with the type of lesser integer conversion rank is converted to the type of the operand with greater rank. Otherwise, if the operand that has unsigned integer type has rank greater or equal to the rank of the type of the other operand, then the operand with signed integer type is converted to the type of the operand with unsigned integer type. Otherwise, if the type of the operand with signed integer type can represent all of the values of the type of the operand with unsigned integer type, then the operand with unsigned integer type is converted to the type of the operand with signed integer type. Otherwise, both operands are converted to the unsigned integer type corresponding to the type of the operand with signed integer type. For the bolded rule to be applied it would seem to imply you need to have have an unsigned interger type who's rank is less than the signed integer type and the signed integer type cannot hold all the values of the unsigned integer type. Is there a real world example of such a case or is this statement serving as a catch-all to cover all possible permutations?

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  • How to check if a integer is sum of given integers?

    - by p3trix
    Lets say I have a integer result and an array of integers, lets say [a,b,c] (not a fixed length). I need to detect if result=a*i +b*j + c*k, with i,j,k=0. I prefer a solution in C/C# if it is possible. PS The problem is from a reservation system, a trip can be sold if its durations is a combination of given durations. Thanks!

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  • What is a Delphi version of the C++ header for the DVP7010B video card DLL?

    - by grzegorz1
    I need help with converting c++ header file to delphi. I spent several days on this problem without success. Below is the original header file and my Delphi translation. C++ header #if _MSC_VER > 1000 #pragma once #endif // _MSC_VER > 1000 #ifdef DVP7010BDLL_EXPORTS #define DVP7010BDLL_API __declspec(dllexport) #else #define DVP7010BDLL_API __declspec(dllimport) #endif #define MAXBOARDS 4 #define MAXDEVS 4 #define ID_NEW_FRAME 37810 #define ID_MUX0_NEW_FRAME 37800 #define ID_MUX1_NEW_FRAME 37801 #define ID_MUX2_NEW_FRAME 37802 #define ID_MUX3_NEW_FRAME 37803 typedef enum { SUCCEEDED = 1, FAILED = 0, SDKINITFAILED = -1, PARAMERROR = -2, NODEVICES = -3, NOSAMPLE = -4, DEVICENUMERROR = -5, INPUTERROR = -6, // VERIFYHWERROR = -7 } Res; typedef enum tagAnalogVideoFormat { Video_None = 0x00000000, Video_NTSC_M = 0x00000001, Video_NTSC_M_J = 0x00000002, Video_PAL_B = 0x00000010, Video_PAL_M = 0x00000200, Video_PAL_N = 0x00000400, Video_SECAM_B = 0x00001000 } AnalogVideoFormat; typedef enum { SIZEFULLPAL=0, SIZED1, SIZEVGA, SIZEQVGA, SIZESUBQVGA } VideoSize; typedef enum { STOPPED = 1, RUNNING = 2, UNINITIALIZED = -1, UNKNOWNSTATE = -2 } CapState; class IDVP7010BDLL { public: int AdvDVP_CreateSDKInstence(void **pp); virtual int AdvDVP_InitSDK() PURE; virtual int AdvDVP_CloseSDK() PURE; virtual int AdvDVP_GetNoOfDevices(int *pNoOfDevs) PURE; virtual int AdvDVP_Start(int nDevNum, int SwitchingChans, HWND Main, HWND hwndPreview) PURE; virtual int AdvDVP_Stop(int nDevNum) PURE; virtual int AdvDVP_GetCapState(int nDevNum) PURE; virtual int AdvDVP_IsVideoPresent(int nDevNum, BOOL* VPresent) PURE; virtual int AdvDVP_GetCurFrameBuffer(int nDevNum, int VMux, long* bufSize, BYTE* buf) PURE; virtual int AdvDVP_SetNewFrameCallback(int nDevNum, int callback) PURE; virtual int AdvDVP_GetVideoFormat(int nDevNum, AnalogVideoFormat* vFormat) PURE; virtual int AdvDVP_SetVideoFormat(int nDevNum, AnalogVideoFormat vFormat) PURE; virtual int AdvDVP_GetFrameRate(int nDevNum, int *nFrameRate) PURE; virtual int AdvDVP_SetFrameRate(int nDevNum, int SwitchingChans, int nFrameRate) PURE; virtual int AdvDVP_GetResolution(int nDevNum, VideoSize *Size) PURE; virtual int AdvDVP_SetResolution(int nDevNum, VideoSize Size) PURE; virtual int AdvDVP_GetVideoInput(int nDevNum, int* input) PURE; virtual int AdvDVP_SetVideoInput(int nDevNum, int input) PURE; virtual int AdvDVP_GetBrightness(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetBrightness(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetContrast(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetContrast(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetHue(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetHue(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetSaturation(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetSaturation(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GPIOGetData(int nDevNum, int DINum, BOOL* value) PURE; virtual int AdvDVP_GPIOSetData(int nDevNum, int DONum, BOOL value) PURE; }; Delphi unit IDVP7010BDLL_h; interface uses Windows, Messages, SysUtils, Classes; //{$if _MSC_VER > 1000} //pragma once //{$endif} // _MSC_VER > 1000 {$ifdef DVP7010BDLL_EXPORTS} //const DVP7010BDLL_API = __declspec(dllexport); {$else} //const DVP7010BDLL_API = __declspec(dllimport); {$endif} const MAXDEVS = 4; MAXMUXS = 4; ID_NEW_FRAME = 37810; ID_MUX0_NEW_FRAME = 37800; ID_MUX1_NEW_FRAME = 37801; ID_MUX2_NEW_FRAME = 37802; ID_MUX3_NEW_FRAME = 37803; // TRec SUCCEEDED = 1; FAILED = 0; SDKINITFAILED = -1; PARAMERROR = -2; NODEVICES = -3; NOSAMPLE = -4; DEVICENUMERROR = -5; INPUTERROR = -6; // TRec // TAnalogVideoFormat Video_None = $00000000; Video_NTSC_M = $00000001; Video_NTSC_M_J = $00000002; Video_PAL_B = $00000010; Video_PAL_M = $00000200; Video_PAL_N = $00000400; Video_SECAM_B = $00001000; // TAnalogVideoFormat // TCapState STOPPED = 1; RUNNING = 2; UNINITIALIZED = -1; UNKNOWNSTATE = -2; // TCapState type TCapState = Longint; TRes = Longint; TtagAnalogVideoFormat = DWORD; TAnalogVideoFormat = TtagAnalogVideoFormat; PAnalogVideoFormat = ^TAnalogVideoFormat; TVideoSize = ( SIZEFULLPAL, SIZED1, SIZEVGA, SIZEQVGA, SIZESUBQVGA); PVideoSize = ^TVideoSize; P_Pointer = ^Pointer; TIDVP7010BDLL = class function AdvDVP_CreateSDKInstence(pp: P_Pointer): integer; virtual; stdcall; abstract; function AdvDVP_InitSDK():Integer; virtual; stdcall; abstract; function AdvDVP_CloseSDK():Integer; virtual; stdcall; abstract; function AdvDVP_GetNoOfDevices(pNoOfDevs : PInteger) :Integer; virtual; stdcall; abstract; function AdvDVP_Start(nDevNum : Integer; SwitchingChans : Integer; Main : HWND; hwndPreview: HWND ) :Integer; virtual; stdcall; abstract; function AdvDVP_Stop(nDevNum : Integer ):Integer; virtual; stdcall; abstract; function AdvDVP_GetCapState(nDevNum : Integer ):Integer; virtual; stdcall; abstract; function AdvDVP_IsVideoPresent(nDevNum : Integer; VPresent : PBool) :Integer; virtual; stdcall; abstract; function AdvDVP_GetCurFrameBuffer(nDevNum : Integer; VMux : Integer; bufSize : PLongInt; buf : PByte) :Integer; virtual; stdcall; abstract; function AdvDVP_SetNewFrameCallback(nDevNum : Integer; callback : Integer ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetVideoFormat(nDevNum : Integer; vFormat : PAnalogVideoFormat) :Integer; virtual; stdcall; abstract; function AdvDVP_SetVideoFormat(nDevNum : Integer; vFormat : TAnalogVideoFormat ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetFrameRate(nDevNum : Integer; nFrameRate : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_SetFrameRate(nDevNum : Integer; SwitchingChans : Integer; nFrameRate : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_GetResolution(nDevNum : Integer; Size : PVideoSize) :Integer; virtual; stdcall; abstract; function AdvDVP_SetResolution(nDevNum : Integer; Size : TVideoSize ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetVideoInput(nDevNum : Integer; input : PInteger) :Integer; virtual; stdcall; abstract; function AdvDVP_SetVideoInput(nDevNum : Integer; input : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_GetBrightness(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetBrightness(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetContrast(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetContrast(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetHue(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetHue(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetSaturation(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetSaturation(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GPIOGetData(nDevNum : Integer; DINum:Integer; value : PBool) :Integer; virtual; stdcall; abstract; function AdvDVP_GPIOSetData(nDevNum : Integer; DONum:Integer; value : Boolean) :Integer; virtual; stdcall; abstract; end; function IDVP7010BDLL : TIDVP7010BDLL ; stdcall; implementation function IDVP7010BDLL; external 'DVP7010B.dll'; end.

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  • Need help converting a C++ header file to delphi

    - by grzegorz1
    I need help with converting c++ header file to delphi. I spent several days on this problem without success. Below is the original header file and my Delphi translation. ///////////////////////// C++ header file //////////////////////////////////// if _MSC_VER 1000 pragma once endif // _MSC_VER 1000 ifdef DVP7010BDLL_EXPORTS define DVP7010BDLL_API __declspec(dllexport) else define DVP7010BDLL_API __declspec(dllimport) endif define MAXBOARDS 4 define MAXDEVS 4 define ID_NEW_FRAME 37810 define ID_MUX0_NEW_FRAME 37800 define ID_MUX1_NEW_FRAME 37801 define ID_MUX2_NEW_FRAME 37802 define ID_MUX3_NEW_FRAME 37803 typedef enum { SUCCEEDED = 1, FAILED = 0, SDKINITFAILED = -1, PARAMERROR = -2, NODEVICES = -3, NOSAMPLE = -4, DEVICENUMERROR = -5, INPUTERROR = -6, // VERIFYHWERROR = -7 } Res; typedef enum tagAnalogVideoFormat { Video_None = 0x00000000, Video_NTSC_M = 0x00000001, Video_NTSC_M_J = 0x00000002, Video_PAL_B = 0x00000010, Video_PAL_M = 0x00000200, Video_PAL_N = 0x00000400, Video_SECAM_B = 0x00001000 } AnalogVideoFormat; typedef enum { SIZEFULLPAL=0, SIZED1, SIZEVGA, SIZEQVGA, SIZESUBQVGA } VideoSize; typedef enum { STOPPED = 1, RUNNING = 2, UNINITIALIZED = -1, UNKNOWNSTATE = -2 } CapState; class IDVP7010BDLL { public: int AdvDVP_CreateSDKInstence(void **pp); virtual int AdvDVP_InitSDK() PURE; virtual int AdvDVP_CloseSDK() PURE; virtual int AdvDVP_GetNoOfDevices(int *pNoOfDevs) PURE; virtual int AdvDVP_Start(int nDevNum, int SwitchingChans, HWND Main, HWND hwndPreview) PURE; virtual int AdvDVP_Stop(int nDevNum) PURE; virtual int AdvDVP_GetCapState(int nDevNum) PURE; virtual int AdvDVP_IsVideoPresent(int nDevNum, BOOL* VPresent) PURE; virtual int AdvDVP_GetCurFrameBuffer(int nDevNum, int VMux, long* bufSize, BYTE* buf) PURE; virtual int AdvDVP_SetNewFrameCallback(int nDevNum, int callback) PURE; virtual int AdvDVP_GetVideoFormat(int nDevNum, AnalogVideoFormat* vFormat) PURE; virtual int AdvDVP_SetVideoFormat(int nDevNum, AnalogVideoFormat vFormat) PURE; virtual int AdvDVP_GetFrameRate(int nDevNum, int *nFrameRate) PURE; virtual int AdvDVP_SetFrameRate(int nDevNum, int SwitchingChans, int nFrameRate) PURE; virtual int AdvDVP_GetResolution(int nDevNum, VideoSize *Size) PURE; virtual int AdvDVP_SetResolution(int nDevNum, VideoSize Size) PURE; virtual int AdvDVP_GetVideoInput(int nDevNum, int* input) PURE; virtual int AdvDVP_SetVideoInput(int nDevNum, int input) PURE; virtual int AdvDVP_GetBrightness(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetBrightness(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetContrast(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetContrast(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetHue(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetHue(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GetSaturation(int nDevNum, int input, long *pnValue) PURE; virtual int AdvDVP_SetSaturation(int nDevNum, int input, long nValue) PURE; virtual int AdvDVP_GPIOGetData(int nDevNum, int DINum, BOOL* value) PURE; virtual int AdvDVP_GPIOSetData(int nDevNum, int DONum, BOOL value) PURE; }; /////////////////// delphi /////////////////////////////////////// unit IDVP7010BDLL_h; interface uses Windows, Messages, SysUtils, Classes; //{$if _MSC_VER 1000} //pragma once //{$endif} // _MSC_VER 1000 {$ifdef DVP7010BDLL_EXPORTS} //const DVP7010BDLL_API = __declspec(dllexport); {$else} //const DVP7010BDLL_API = __declspec(dllimport); {$endif} const MAXDEVS = 4; MAXMUXS = 4; ID_NEW_FRAME = 37810; ID_MUX0_NEW_FRAME = 37800; ID_MUX1_NEW_FRAME = 37801; ID_MUX2_NEW_FRAME = 37802; ID_MUX3_NEW_FRAME = 37803; // TRec SUCCEEDED = 1; FAILED = 0; SDKINITFAILED = -1; PARAMERROR = -2; NODEVICES = -3; NOSAMPLE = -4; DEVICENUMERROR = -5; INPUTERROR = -6; // TRec // TAnalogVideoFormat Video_None = $00000000; Video_NTSC_M = $00000001; Video_NTSC_M_J = $00000002; Video_PAL_B = $00000010; Video_PAL_M = $00000200; Video_PAL_N = $00000400; Video_SECAM_B = $00001000; // TAnalogVideoFormat // TCapState STOPPED = 1; RUNNING = 2; UNINITIALIZED = -1; UNKNOWNSTATE = -2; // TCapState type TCapState = Longint; TRes = Longint; TtagAnalogVideoFormat = DWORD; TAnalogVideoFormat = TtagAnalogVideoFormat; PAnalogVideoFormat = ^TAnalogVideoFormat; TVideoSize = ( SIZEFULLPAL, SIZED1, SIZEVGA, SIZEQVGA, SIZESUBQVGA); PVideoSize = ^TVideoSize; P_Pointer = ^Pointer; TIDVP7010BDLL = class function AdvDVP_CreateSDKInstence(pp: P_Pointer): integer; virtual; stdcall; abstract; function AdvDVP_InitSDK():Integer; virtual; stdcall; abstract; function AdvDVP_CloseSDK():Integer; virtual; stdcall; abstract; function AdvDVP_GetNoOfDevices(pNoOfDevs : PInteger) :Integer; virtual; stdcall; abstract; function AdvDVP_Start(nDevNum : Integer; SwitchingChans : Integer; Main : HWND; hwndPreview: HWND ) :Integer; virtual; stdcall; abstract; function AdvDVP_Stop(nDevNum : Integer ):Integer; virtual; stdcall; abstract; function AdvDVP_GetCapState(nDevNum : Integer ):Integer; virtual; stdcall; abstract; function AdvDVP_IsVideoPresent(nDevNum : Integer; VPresent : PBool) :Integer; virtual; stdcall; abstract; function AdvDVP_GetCurFrameBuffer(nDevNum : Integer; VMux : Integer; bufSize : PLongInt; buf : PByte) :Integer; virtual; stdcall; abstract; function AdvDVP_SetNewFrameCallback(nDevNum : Integer; callback : Integer ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetVideoFormat(nDevNum : Integer; vFormat : PAnalogVideoFormat) :Integer; virtual; stdcall; abstract; function AdvDVP_SetVideoFormat(nDevNum : Integer; vFormat : TAnalogVideoFormat ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetFrameRate(nDevNum : Integer; nFrameRate : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_SetFrameRate(nDevNum : Integer; SwitchingChans : Integer; nFrameRate : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_GetResolution(nDevNum : Integer; Size : PVideoSize) :Integer; virtual; stdcall; abstract; function AdvDVP_SetResolution(nDevNum : Integer; Size : TVideoSize ) :Integer; virtual; stdcall; abstract; function AdvDVP_GetVideoInput(nDevNum : Integer; input : PInteger) :Integer; virtual; stdcall; abstract; function AdvDVP_SetVideoInput(nDevNum : Integer; input : Integer) :Integer; virtual; stdcall; abstract; function AdvDVP_GetBrightness(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetBrightness(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetContrast(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetContrast(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetHue(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetHue(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GetSaturation(nDevNum : Integer; input: Integer; pnValue : PLongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_SetSaturation(nDevNum : Integer; input: Integer; nValue : LongInt) :Integer; virtual; stdcall; abstract; function AdvDVP_GPIOGetData(nDevNum : Integer; DINum:Integer; value : PBool) :Integer; virtual; stdcall; abstract; function AdvDVP_GPIOSetData(nDevNum : Integer; DONum:Integer; value : Boolean) :Integer; virtual; stdcall; abstract; end; function IDVP7010BDLL : TIDVP7010BDLL ; stdcall; implementation function IDVP7010BDLL; external 'DVP7010B.dll'; end.

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  • C++ Thread Safe Integer

    - by Paul Ridgway
    Hello everyone, I have currently created a C++ class for a thread safe integer which simply stores an integer privately and has public get a set functions which use a boost::mutex to ensure that only one change at a time can be applied to the integer. Is this the most efficient way to do it, I have been informed that mutexes are quite resource intensive? The class is used a lot, very rapidly so it could well be a bottleneck... Googleing C++ Thread Safe Integer returns unclear views and oppinions on the thread safety of integer operations on different architectures. Some say that a 32bit int on a 32bit arch is safe, but 64 on 32 isn't due to 'alignment' Others say it is compiler/OS specific (which I don't doubt). I am using Ubuntu 9.10 on 32 bit machines, some have dual cores and so threads may be executed simultaneously on different cores in some cases and I am using GCC 4.4's g++ compiler. Thanks in advance...

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  • String to Integer Smalltalk

    - by Anton
    Pretty simple question I need to get an integer from the user and I only know how to get a string from them. So if there is a way to get an integer from the user or to convert the string to an integer please let me know.

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  • PostgreSQL - can't save items - "type integer but expression is of type character"

    - by user984621
    I am getting still over and over again this error, the column age has the type integer, I am saving into this column integer-value, I also tried to don't save nothing into this column, but still getting this error... Could anyone help me, how to fix that? PG::Error: ERROR: column "age" is of type integer but expression is of type character varying at character 102 HINT: You will need to rewrite or cast the expression. : INSERT INTO "user_details" ("created_at", "age", "updated_at", "user_id") VALUES ($1, $2, $3, $4) RETURNING "id"

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  • Converting a string to an integer (Android)

    - by James Rattray
    I'm not 100% on how to do this so i'm asking... May seem stupid but... How do I convert a string into an integer? Background info: I have a textbox I have the user enter a number into... it then: EditText et = (EditText) findViewById(R.id.entry1); String hello = et.getText().toString(); gets the string 'hello' Now I want to convert it to a integer so I can get the number they typed in -will be used later on in code... Is there a way to get the edittext to a integer? -That would skip the middle man... If not, string to integer will be just fine... Thanks alot, James

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  • Properly removing an Integer from a List<Integer>

    - by Yuval A
    Here's a nice pitfall I just encountered. Consider a list of integers: List<Integer> list = new ArrayList<Integer>(); list.add(5); list.add(6); list.add(7); list.add(1); Any educated guess on what happens when you execute list.remove(1)? What about list.remove(new Integer(1))? This can cause some nasty bugs. What is the proper way to differentiate between remove(int index), which removes an element from given index and remove(Object o), which removes an element by reference, when dealing with lists of integers? The main point to consider here is the one @Nikita mentioned - exact parameter matching takes precedence over auto-boxing.

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  • SQL SERVER – Storing 64-bit Unsigned Integer Value in Database

    - by Pinal Dave
    Here is a very interesting question I received in an email just another day. Some questions just are so good that it makes me wonder how come I have not faced it first hand. Anyway here is the question - “Pinal, I am migrating my database from MySQL to SQL Server and I have faced unique situation. I have been using Unsigned 64-bit integer in MySQL but when I try to migrate that column to SQL Server, I am facing an issue as there is no datatype which I find appropriate for my column. It is now too late to change the datatype and I need immediate solution. One chain of thought was to change the data type of the column from Unsigned 64-bit (BIGINT) to VARCHAR(n) but that will just change the data type for me such that I will face quite a lot of performance related issues in future. In SQL Server we also have the BIGINT data type but that is Signed 64-bit datatype. BIGINT datatype in SQL Server have range of -2^63 (-9,223,372,036,854,775,808) to 2^63-1 (9,223,372,036,854,775,807). However, my digit is much larger than this number. Is there anyway, I can store my big 64-bit Unsigned Integer without loosing much of the performance of by converting it to VARCHAR.” Very interesting question, for the sake of the argument, we can ask user that there should be no need of such a big number or if you are taking about identity column I really doubt that if your table will grow beyond this table. Here the real question which I found interesting was how to store 64-bit unsigned integer value in SQL Server without converting it to String data type. After thinking a bit, I found a fairly simple answer. I can use NUMERIC data type. I can use NUMERIC(20) datatype for 64-bit unsigned integer value, NUMERIC(10) datatype for 32-bit unsigned integer value and NUMERIC(5) datatype for 16-bit unsigned integer value. Numeric datatype supports 38 maximum of 38 precision. Now here is another thing to keep in mind. Using NUMERIC datatype will indeed accept the 64-bit unsigned integer but in future if you try to enter negative value, it will also allow the same. Hence, you will need to put any additional constraint over column to only accept positive integer there. Here is another big concern, SQL Server will store the number as numeric and will treat that as a positive integer for all the practical purpose. You will have to write in your application logic to interpret that as a 64-bit Unsigned Integer. On another side if you are using unsigned integers in your application, there are good chance that you already have logic taking care of the same. Reference: Pinal Dave (http://blog.sqlauthority.com) Filed under: PostADay, SQL, SQL Authority, SQL Query, SQL Server, SQL Tips and Tricks, T SQL, Technology Tagged: SQL Datatype

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  • error of integer overflow

    - by user308565
    This the part of my OpenGL code, I am getting an error for : struct Ball { float x; float y; float rot; float dir; bool rmv; Ball* next; }; Ball* curBall; void addBall() { if (balls==NULL) { balls=new Ball; balls->next=NULL; curBall=balls; } else { curBall->next=new Ball; curBall=curBall->next; curBall->next=NULL; } curBall->x=((float)rand()/(float)(RAND_MAX+1))*(ww-1) +1; curBall->y=((float)rand()/(float)(RAND_MAX+1))*(wh-1) +1; curBall->dir=((float)rand()/(float)(RAND_MAX+1))*(2*PI-1) +1; curBall->rot=((float)rand()/(float)(RAND_MAX+1))*(359) +1; curBall->rmv=false; } error : In function ‘void addBall()’: file.cpp:120: warning: integer overflow in expression file.cpp:121: warning: integer overflow in expression file.cpp:122: warning: integer overflow in expression file.cpp:123: warning: integer overflow in expression

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  • SQlite: Column format for unix timestamp; Integer types

    - by SF.
    Original problem: What is the right column format for a unix timestamp? The net is full of confusion: some posts claim SQLite has no unsigned types - either whatsoever, or with exception of the 64bit int type (but there are (counter-)examples that invoke UNSIGNED INTEGER). The data types page mentions it only in a bigint example. It also claims there is a 6-byte integer but doesn't give a name for it. Of course standard INTEGER being 4-byte signed signed stores unix timestamps as negative numbers. I've heard that some systems return 64-bit timestamps too. OTOH I'm not too fond of wasting 4 bytes to store 1 extra bit (top bit of timestamp), and even if I have to pick a bigger data format, I'd rather go for the 6-byte one. I've even seen a post that claims SQLite unix timestamp is of type REAL... Complete problem: Could someone please clarify that mess?

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  • 8 byte Integer with Doctrine and PHP

    - by Rufinus
    Hi, the players: 64bit linux with php 5 (ZendFramework 1.10.2) PostgreSQL 7.3 Doctrine 1.2 Via a Flash/Flex client i get an 8byte integer value. the field in the database is an BIGINT (8 byte) PHP_INT_SIZE show that system supports 8byte integer. printing out the value in the code as it is and as intval() leads to this: Plain: 1269452776100 intval: 1269452776099 float rounding failure ? but what really driving me nuts is ERROR: invalid input syntax for integer: "1269452776099.000000"' when i try to use it in a query. like: Doctrine_Core::getTable('table')->findBy('external_id',$external_id); or Doctrine_Core::getTable('table')->findBy('external_id',intval($external_id)); How i am supposed to handle this ? or how can i give doctrine a floating point number which it should use on a bigint field ? Any help is much appreciated! TIA

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  • Implicit casting Integer calculation to float in C++

    - by Ziddiri
    Is there any compiler that has a directive or a parameter to cast integer calculation to float implicitly. For example: float f = (1/3)*5; cout << f; the "f" is "0", because calculation's constants(1, 3, 10) are integer. I want to convert integer calculation with a compiler directive or parameter. I mean, I won't use explicit casting or ".f" prefix like that: float f = ((float)1/3)*5; or float f = (1.0f/3.0f)*5.0f; Do you know any c/c++ compiler which has any parameter to do this process without explicit casting or ".f" thing?

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  • Integer variables at WIX

    - by Hila
    I would like to install a feature according to the brand. So in my brand.wxi I defined: <?define brand.FeatureLevel = 1 ?> And in my wxs I wrote: <Feature Id="FF" Title="FF" Level="$(var.brand.FeatureLevel)"> <ComponentRef Id="..." /> <ComponentRef Id="..." /> </Feature> This definition works fine (wheather I've placed 0 or 1 as FeatureLevel). My only problem is a warning I get at compilation time: The 'Level' attribute is invalid - The value '$(var.brand.FeatureLevel)' is invalid according to its datatype 'http://www.w3.org/2001/XMLSchema:integer' - The string '$(var.brand.FeatureLevel)' is not a valid Integer value. Is there a way to fix this warning? Can I define integer variable? I couldn't find a way...

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  • Fastest way to calculate a 128-bit integer modulo a 64-bit integer

    - by Paul Baker
    I have a 128-bit unsigned integer A and a 64-bit unsigned integer B. What's the fastest way to calculate A % B - that is the (64-bit) remainder from dividing A by B? I'm looking to do this in either C or assembly language, but I need to target the 32-bit x86 platform. This unfortunately means that I cannot take advantage of compiler support for 128-bit integers, nor of the x64 architecture's ability to perform the required operation in a single instruction.

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  • Java Integer: what is faster comparison or subtraction?

    - by Vladimir
    I've found that java.lang.Integer implementation of compareTo method looks as follows: public int compareTo(Integer anotherInteger) { int thisVal = this.value; int anotherVal = anotherInteger.value; return (thisVal<anotherVal ? -1 : (thisVal==anotherVal ? 0 : 1)); } The question is why use comparison instead of subtraction: return thisVal - anotherVal;

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  • Python, a smarter way of string to integer conversion

    - by Hellnar
    Hello I have written this code to convert string in such format "0(532) 222 22 22" to integer such as 05322222222 . class Phone(): def __init__(self,input): self.phone = input def __str__(self): return self.phone #convert to integer. def to_int(self): return int((self.phone).replace(" ","").replace("(","").replace(")","")) test = Phone("0(532) 222 22 22") print test.to_int() It feels very clumsy to use 3 replace methods to solve this. I am curious if there is a better solution?

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  • define integer array fortran

    - by Praveen
    Hello friends, I am a newbie in Fortran. Can any1 tell me how to define an integer array in prior. E.g. I want to define an array with no.of days in 12 months. like... integer,allocatable(12,1) :: days days=[31,28,31,30,31,30,31,31,30,31,30,31] Is this syntax correct? If not, please let me know the correct one. Thanks Praveen

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