# -*- coding: utf-8 -*- # generated by 'xml2py' # flags '-c -d -v C:\test_h\CameraParams.xml -o CameraParams_header.py' from ctypes import * from CameraParams_const import * from PixelType_header import * STRING = c_char_p MV_PointCloudFile_Undefined = 0 # < \~chinese 未定义的点云格式 \~english Undefined point cloud format MV_ACQ_MODE_CONTINUOUS = 2 # < \~chinese 持续采集模式 \~english Continuous Mode MV_ACQ_MODE_MUTLI = 1 # < \~chinese 多帧模式 \~english Multi Mode MV_TRIGGER_MODE_ON = 1 # < \~chinese 打开 \~english On AM_CycleDetect = 6 # < \~chinese 内部用于AccessMode循环检测 \~english used internally for AccessMode cycle detection AM_Undefined = 5 # < \~chinese 对象未被初始化 \~english Object is not yet initialized AM_RW = 4 # < \~chinese 读和写 \~english Read and Write AM_RO = 3 # < \~chinese 只读 \~english Read Only AM_WO = 2 # < \~chinese 只写 \~english Write Only AM_NA = 1 # < \~chinese 不可用 \~english Not available AM_NI = 0 # < \~chinese 没有实现 \~english Not implemented MV_Image_Tif = 4 # < \~chinese Tif格式 \~english Tif image file MV_Image_Png = 3 # < \~chinese Png格式 \~english Png image file MV_Image_Jpeg = 2 # < \~chinese Jpeg格式 \~english Jpeg image file MV_Image_Bmp = 1 # < \~chinese Bmp格式 \~english Bmp image file MV_GAIN_MODE_CONTINUOUS = 2 # < \~chinese 连续 \~english Gain Mode Continuous MV_GAIN_MODE_ONCE = 1 # < \~chinese 单次 \~english Gain Mode Once MV_GrabStrategy_UpcomingImage = 3 # < \~chinese 等待下一帧图像 \~english Wait for the next image MV_GrabStrategy_LatestImages = 2 # < \~chinese 获取列表中最新的图像 \~english Gets the latest image in the list MV_GrabStrategy_LatestImagesOnly = 1 # < \~chinese 获取列表中最新的一帧图像(同时清除列表中的其余图像) \~english Gets the most recent image in the list (while clearing the rest of the images in the list) MV_PointCloudFile_OBJ = 3 # < \~chinese OBJ点云格式 \~english The point cloud format named OBJ MV_PointCloudFile_CSV = 2 # < \~chinese CSV点云格式 \~english The point cloud format named CSV MV_PointCloudFile_PLY = 1 # < \~chinese PLY点云格式 \~english The point cloud format named PLY MV_ACQ_MODE_SINGLE = 0 # < \~chinese 单帧模式 \~english Single Mode MV_TRIGGER_MODE_OFF = 0 # < \~chinese 关闭 \~english Off MV_TRIGGER_SOURCE_SOFTWARE = 7 # < \~chinese 软触发 \~english Trigger source software MV_EXPOSURE_MODE_TIMED = 0 # < \~chinese 曝光超时模式 \~english exposure mode timed MV_FormatType_Undefined = 0 # < \~chinese 未定义的格式类型 \~english Undefined format type MV_GAIN_MODE_OFF = 0 # < \~chinese 关闭增益模式 \~english Gain mode off MV_EXPOSURE_AUTO_MODE_CONTINUOUS = 2 # < \~chinese 自动连续曝光模式 \~english Exposure auto mode continuous MV_EXPOSURE_AUTO_MODE_ONCE = 1 # < \~chinese 单次自动曝光模式 \~english Exposure auto mode once MV_EXPOSURE_AUTO_MODE_OFF = 0 # < \~chinese 关闭自动曝光模式 \~english Exposure auto mode off IFT_IValue = 0 # < \~chinese IValue接口类型 \~english IValue interface MV_GrabStrategy_OneByOne = 0 # < \~chinese 从旧到新一帧一帧的获取图像 \~english Frame by frame from old to new MV_FormatType_AVI = 1 # < \~chinese AVI视频格式 \~english AVI format type MV_GAMMA_SELECTOR_USER = 1 # < \~chinese gamma选择项User \~english This enumeration selects the type of gamma to apply IFT_IString = 6 # < \~chinese IString接口类型 \~english IString interface MV_BALANCEWHITE_AUTO_OFF = 0 # < \~chinese 白平衡自动关闭 \~english Balance white auto off MV_GAMMA_SELECTOR_SRGB = 2 # < \~chinese gamma选择项SRGB \~english This enumeration selects the type of gamma to apply IFT_IPort = 11 # < \~chinese IPort接口类型 \~english IPort interface MV_BALANCEWHITE_AUTO_CONTINUOUS = 1 # < \~chinese 白平衡自动连续 \~english Balance white auto continuous IFT_IEnumEntry = 10 # < \~chinese IEnumEntry接口类型 \~english IEnumEntry interface IFT_ICategory = 8 # < \~chinese ICategory接口类型 \~english ICategory interface IFT_IRegister = 7 # < \~chinese IRegister接口类型 \~english IRegister interface MV_Image_Undefined = 0 # < \~chinese 未定义的图像类型 \~english Image undefined IFT_IFloat = 5 # < \~chinese IFloat接口类型 \~english IFloat interface IFT_IEnumeration = 9 # < \~chinese IEnumeration接口类型 \~english IEnumeration interface IFT_ICommand = 4 # < \~chinese ICommand接口类型 \~english ICommand interface IFT_IBoolean = 3 # < \~chinese IBoolean接口类型 \~english IBoolean interface IFT_IInteger = 2 # < \~chinese IInteger接口类型 \~english IInteger interface MV_GIGE_TRANSTYPE_MULTICAST_WITHOUT_RECV = 65537 # < \~chinese 表示组播模式,但本实例不接收图像数据 \~english Multicast without receive data IFT_IBase = 1 # < \~chinese IBase接口类型 \~english IBase interface MV_GIGE_TRANSTYPE_UNICAST_WITHOUT_RECV = 65536 # < \~chinese 表示设置了单播,但本实例不接收图像数据 \~english Unicast without receive data MV_BALANCEWHITE_AUTO_ONCE = 2 # < \~chinese 单次自动白平衡 \~english Balance white auto once MV_GIGE_TRANSTYPE_LIMITEDBROADCAST = 2 # < \~chinese 表示局域网内广播,暂不支持 \~english Limited broadcast mode,not support MV_GIGE_TRANSTYPE_MULTICAST = 1 # < \~chinese 表示组播 \~english Multicast mode MV_GIGE_TRANSTYPE_UNICAST = 0 # < \~chinese 表示单播(默认) \~english Unicast mode(default) MV_GIGE_TRANSTYPE_CAMERADEFINED = 4 # < \~chinese 表示从相机获取,暂不支持 \~english Transtype from camera,not support MV_GIGE_TRANSTYPE_SUBNETBROADCAST = 3 # < \~chinese 表示子网内广播,暂不支持 \~english Subnet broadcast mode,not support MV_EXPOSURE_MODE_TRIGGER_WIDTH = 1 # < \~chinese 曝光模式触发宽 \~english Trigger width MV_GIGE_TRANSTYPE_UNICAST_DEFINED_PORT = 5 # < \~chinese 表示用户自定义应用端接收图像数据Port号 \~english User Defined Receive Data Port MV_TRIGGER_SOURCE_FrequencyConverter = 8 # < \~chinese 触发源变频器 \~english Trigger source frequency converter MV_TRIGGER_SOURCE_COUNTER0 = 4 # < \~chinese 触发源计数器 \~english Trigger source conuter MV_TRIGGER_SOURCE_LINE3 = 3 # < \~chinese LINE3 触发源 \~english Trigger source line3 MV_TRIGGER_SOURCE_LINE2 = 2 # < \~chinese LINE2 触发源 \~english Trigger source line2 MV_TRIGGER_SOURCE_LINE1 = 1 # < \~chinese LINE1 触发源 \~english Trigger source line1 MV_TRIGGER_SOURCE_LINE0 = 0 # < \~chinese LINE0 触发源 \~english Trigger source line0 SortMethod_SerialNumber = 0 # < \~chinese 按序列号排序 \~english Sorting by SerialNumber SortMethod_UserID = 1 # < \~chinese 按用户自定义名字排序 \~english Sorting by UserID SortMethod_CurrentIP_ASC = 2 # < \~chinese 按当前IP地址排序(升序) \~english Sorting by current IP(Ascending) SortMethod_CurrentIP_DESC = 3 # < \~chinese 按当前IP地址排序(降序) \~english Sorting by current IP(Descending) MV_IMAGE_ROTATE_90 = 1 # < \~chinese 旋转90度 \~english Rotate 90 degrees MV_IMAGE_ROTATE_180 = 2 # < \~chinese 旋转180度 \~english Rotate 180 degrees MV_IMAGE_ROTATE_270 = 3 # < \~chinese 旋转270度 \~english Rotate 270 degrees MV_FLIP_VERTICAL = 1 # < \~chinese 垂直翻转 \~english flip vertical MV_FLIP_HORIZONTAL = 2 # < \~chinese 水平翻转 \~english flip horizontal MV_CC_GAMMA_TYPE_NONE = 0 # < \~chinese 不启用 \~english Disable MV_CC_GAMMA_TYPE_VALUE = 1 # < \~chinese Gamma值 \~english Gamma value MV_CC_GAMMA_TYPE_USER_CURVE = 2 # < \~chinese Gamma曲线 \~english Gamma curve MV_CC_GAMMA_TYPE_LRGB2SRGB = 3 # < \~chinese linear RGB to sRGB \~english linear RGB to sRGB MV_CC_GAMMA_TYPE_SRGB2LRGB = 4 # < \~chinese sRGB to linear RGB(仅色彩插值时支持,色彩校正时无效) \~english sRGB to linear RGB MV_CC_STREAM_EXCEPTION_ABNORMAL_IMAGE = 0x4001 # < \~chinese 异常的图像,该帧被丢弃 \~english abnormal image,the frame is discarded MV_CC_STREAM_EXCEPTION_LIST_OVERFLOW = 0x4002 # < \~chinese 缓存列表溢出,清除最旧的一帧 \~english Cache list overflow, clear the oldest frame MV_CC_STREAM_EXCEPTION_LIST_EMPTY = 0x4003 # < \~chinese 缓存列表为空,该帧被丢弃 \~english Cache list is empty,the frame is discarded MV_CC_STREAM_EXCEPTION_RECONNECTION = 0x4004 # < \~chinese 断流恢复 \~english reconnect MV_CC_STREAM_EXCEPTION_DISCONNECTED = 0x4005 # < \~chinese 断流,恢复失败,取流被中止 \~english reconnect fail, stream is terminated MV_CC_STREAM_EXCEPTION_DEVICE = 0x4006 # < \~chinese 设备异常,取流被中止 \~english device exception MV_SPLIT_BY_LINE = 1 #< \~chinese 源图像按行拆分成多张图像 \~english Source image split into multiple images by line int8_t = c_int8 int16_t = c_int16 int32_t = c_int32 int64_t = c_int64 uint8_t = c_uint8 uint16_t = c_uint16 uint32_t = c_uint32 uint64_t = c_uint64 int_least8_t = c_byte int_least16_t = c_short int_least32_t = c_int int_least64_t = c_long uint_least8_t = c_ubyte uint_least16_t = c_ushort uint_least32_t = c_uint uint_least64_t = c_ulong int_fast8_t = c_byte int_fast16_t = c_long int_fast32_t = c_long int_fast64_t = c_long uint_fast8_t = c_ubyte uint_fast16_t = c_ulong uint_fast32_t = c_ulong uint_fast64_t = c_ulong intptr_t = c_long uintptr_t = c_ulong intmax_t = c_long uintmax_t = c_ulong # GigE设备信息 \~english GigE device info class _MV_GIGE_DEVICE_INFO_(Structure): pass _MV_GIGE_DEVICE_INFO_._fields_ = [ ('nIpCfgOption', c_uint), # < \~chinese IP配置选项 \~english Ip config option ('nIpCfgCurrent', c_uint), # < \~chinese 当前IP地址配置 \~english IP configuration:bit31-static bit30-dhcp bit29-lla ('nCurrentIp', c_uint), # < \~chinese 当前主机IP地址 \~english Current host Ip ('nCurrentSubNetMask', c_uint), # < \~chinese 当前子网掩码 \~english curtent subnet mask ('nDefultGateWay', c_uint), # < \~chinese 默认网关 \~english Default gate way ('chManufacturerName', c_ubyte * 32), # < \~chinese 厂商名称 \~english Manufacturer Name ('chModelName', c_ubyte * 32), # < \~chinese 型号名称 \~english Mode name ('chDeviceVersion', c_ubyte * 32), # < \~chinese 设备固件版本 \~english Device Version ('chManufacturerSpecificInfo', c_ubyte * 48), # < \~chinese 厂商特殊信息 \~english Manufacturer Specific Infomation ('chSerialNumber', c_ubyte * 16), # < \~chinese 序列号 \~english serial number ('chUserDefinedName', c_ubyte * 16), # < \~chinese 用户定义名称 \~english User Defined Name ('nNetExport', c_uint), # < \~chinese 网口Ip地址 \~english NetWork Ip address ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_GIGE_DEVICE_INFO = _MV_GIGE_DEVICE_INFO_ # USB设备信息 \~english USB device info class _MV_USB3_DEVICE_INFO_(Structure): pass _MV_USB3_DEVICE_INFO_._fields_ = [ ('CrtlInEndPoint', c_ubyte), # < \~chinese 控制输入端点 \~english Control input endpoint ('CrtlOutEndPoint', c_ubyte), # < \~chinese 控制输出端点 \~english Control output endpoint ('StreamEndPoint', c_ubyte), # < \~chinese 流端点 \~english Flow endpoint ('EventEndPoint', c_ubyte), # < \~chinese 事件端点 \~english Event endpoint ('idVendor', c_ushort), # < \~chinese 供应商ID号 \~english Vendor ID Number ('idProduct', c_ushort), # < \~chinese 产品ID号 \~english Device ID Number ('nDeviceNumber', c_uint), # < \~chinese 设备序列号 \~english Device Serial Number ('chDeviceGUID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备GUID号 \~english Device GUID Number ('chVendorName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 供应商名字 \~english Vendor Name ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号名字 \~english Model Name ('chFamilyName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 家族名字 \~english Family Name ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备版本号 \~english Device Version ('chManufacturerName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 制造商名字 \~english Manufacturer Name ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial Number ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 用户自定义名字 \~english User Defined Name ('nbcdUSB', c_uint), # < \~chinese 支持的USB协议 \~english Support USB Protocol ('nDeviceAddress', c_uint), # < \~chinese 设备地址 \~english Device Address ('nReserved', c_uint * 2), # < \~chinese 保留字节 \~english Reserved bytes ] MV_USB3_DEVICE_INFO = _MV_USB3_DEVICE_INFO_ # CameraLink设备信息 \~english CameraLink device info class _MV_CamL_DEV_INFO_(Structure): pass _MV_CamL_DEV_INFO_._fields_ = [ ('chPortID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 端口号 \~english Port ID ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备型号 \~english Model name ('chFamilyName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 家族名字 \~english Family Name ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备版本号 \~english Device Version ('chManufacturerName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 制造商名字 \~english Manufacturer Name ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial Number ('nReserved', c_uint * 38), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CamL_DEV_INFO = _MV_CamL_DEV_INFO_ # 采集卡Camera Link相机信息 \~english Camera Link device information on frame grabber class _MV_CML_DEVICE_INFO_(Structure): pass _MV_CML_DEVICE_INFO_._fields_ = [ ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 采集卡ID \~english Interface ID of Frame Grabber ('chVendorName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 供应商名字 \~english Vendor name ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号名字 \~english Model name ('chManufacturerInfo', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 厂商信息 \~english Manufacturer information ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机版本 \~english Device version ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial Number ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 用户自定义名字 \~english User defined name ('chDeviceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机ID \~english Device ID ('nReserved', c_uint * 7), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CML_DEVICE_INFO = _MV_CML_DEVICE_INFO_ # CoaXPress相机信息 \~english CoaXPress device information class _MV_CXP_DEVICE_INFO_(Structure): pass _MV_CXP_DEVICE_INFO_._fields_ = [ ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 采集卡ID \~english Interface ID of Frame Grabber ('chVendorName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 供应商名字 \~english Vendor name ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号名字 \~english Model name ('chManufacturerInfo', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 厂商信息 \~english Manufacturer information ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机版本 \~english Device version ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial Number ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 用户自定义名字 \~english User defined name ('chDeviceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机ID \~english Device ID ('nReserved', c_uint * 7), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CXP_DEVICE_INFO = _MV_CXP_DEVICE_INFO_ # XoFLink相机信息 \~english XoFLink device information class _MV_XOF_DEVICE_INFO_(Structure): pass _MV_XOF_DEVICE_INFO_._fields_ = [ ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 采集卡ID \~english Interface ID of Frame Grabber ('chVendorName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 供应商名字 \~english Vendor name ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号名字 \~english Model name ('chManufacturerInfo', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 厂商信息 \~english Manufacturer information ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机版本 \~english Device version ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial Number ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 用户自定义名字 \~english User defined name ('chDeviceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 相机ID \~english Device ID ('nReserved', c_uint * 7), # < \~chinese 保留字节 \~english Reserved bytes ] MV_XOF_DEVICE_INFO = _MV_XOF_DEVICE_INFO_ # CameraParams.h 80 class _MV_CC_DEVICE_INFO_(Structure): pass # 设备信息 \~english Device info class N19_MV_CC_DEVICE_INFO_3DOT_0E(Union): pass N19_MV_CC_DEVICE_INFO_3DOT_0E._fields_ = [ ('stGigEInfo', MV_GIGE_DEVICE_INFO), # < \~chinese Gige设备信息 \~english Gige device infomation ('stUsb3VInfo', MV_USB3_DEVICE_INFO), # < \~chinese U3V设备信息 \~english u3V device information ('stCamLInfo', MV_CamL_DEV_INFO), # < \~chinese CamLink设备信息 \~english CamLink device information ('stCMLInfo', MV_CML_DEVICE_INFO), # < \~chinese 采集卡CameraLink设备信息 \~english CameraLink Device Info On Frame Grabber ('stCXPInfo', MV_CXP_DEVICE_INFO), # < \~chinese 采集卡CoaXPress设备信息 \~english CoaXPress Device Info On Frame Grabber ('stXoFInfo', MV_XOF_DEVICE_INFO), # < \~chinese 采集卡XoF设备信息 \~english XoF Device Info On Frame Grabber ] _MV_CC_DEVICE_INFO_._fields_ = [ ('nMajorVer', c_ushort), # < \~chinese 规范的主要版本 \~english Major version of the specification. ('nMinorVer', c_ushort), # < \~chinese 规范的次要版本 \~english Minor version of the specification ('nMacAddrHigh', c_uint), # < \~chinese MAC地址高位 \~english Mac address high ('nMacAddrLow', c_uint), # < \~chinese MAC地址低位 \~english Mac address low ('nTLayerType', c_uint), # < \~chinese 设备传输层协议类型 \~english Device Transport Layer Protocol Type, e.g. MV_GIGE_DEVICE ('nDevTypeInfo', c_uint), # < \~chinese 设备类型信息 \~english Device Type Info ('nReserved', c_uint * 3), # < \~chinese 保留字节 \~english Reserved bytes ('SpecialInfo', N19_MV_CC_DEVICE_INFO_3DOT_0E), # < \~chinese 不同设备特有信息 \~english Special information ] MV_CC_DEVICE_INFO = _MV_CC_DEVICE_INFO_ # 设备信息列表 \~english Device Information List class _MV_CC_DEVICE_INFO_LIST_(Structure): pass _MV_CC_DEVICE_INFO_LIST_._fields_ = [ ('nDeviceNum', c_uint), # < \~chinese 在线设备数量 \~english Online Device Number ('pDeviceInfo', POINTER(MV_CC_DEVICE_INFO) * MV_MAX_DEVICE_NUM), # < \~chinese 支持最多256个设备 \~english Support up to 256 devices ] MV_CC_DEVICE_INFO_LIST = _MV_CC_DEVICE_INFO_LIST_ # 通过GenTL枚举到的Interface信息 \~english Interface Information with GenTL class _MV_GENTL_IF_INFO_(Structure): pass _MV_GENTL_IF_INFO_._fields_ = [ ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese GenTL接口ID \~english Interface ID of GenTL ('chTLType', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 传输层类型 \~english Transport Layer type ('chDisplayName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备显示名称 \~english Display name ('nCtiIndex', c_uint), # < \~chinese GenTL的cti文件索引 \~english Cti file index of GenTL ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_GENTL_IF_INFO = _MV_GENTL_IF_INFO_ # 通过GenTL枚举到的设备信息列表 \~english Device Information List with GenTL class _MV_GENTL_IF_INFO_LIST_(Structure): pass _MV_GENTL_IF_INFO_LIST_._fields_ = [ ('nInterfaceNum', c_uint), # < \~chinese 在线设备数量 \~english Online Device Number ('pIFInfo', POINTER(MV_GENTL_IF_INFO) * MV_MAX_GENTL_IF_NUM), # < \~chinese 支持最多256个设备 \~english Support up to 256 devices ] MV_GENTL_IF_INFO_LIST = _MV_GENTL_IF_INFO_LIST_ # 通过GenTL枚举到的设备信息 \~english Device Information with GenTL class _MV_GENTL_DEV_INFO_(Structure): pass _MV_GENTL_DEV_INFO_._fields_ = [ ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese GenTL接口ID \~english Interface ID of GenTL ('chDeviceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备ID \~english Device ID ('chVendorName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 供应商名字 \~english Vendor Name ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号名字 \~english Model name ('chTLType', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 传输层类型 \~english Transport Layer type ('chDisplayName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 显示名称 \~english Display name ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 用户自定义名字 \~english User defined name ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial number ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 设备版本号 \~english Device version ('nCtiIndex', c_uint), # < \~chinese cti索引 \~english Cti Index ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_GENTL_DEV_INFO = _MV_GENTL_DEV_INFO_ # 通过GenTL枚举到的设备信息列表 \~english Device Information List with GenTL class _MV_GENTL_DEV_INFO_LIST_(Structure): pass _MV_GENTL_DEV_INFO_LIST_._fields_ = [ ('nDeviceNum', c_uint), # < \~chinese 在线设备数量 \~english Online Device Number ('pDeviceInfo', POINTER(MV_GENTL_DEV_INFO) * MV_MAX_GENTL_DEV_NUM), # < \~chinese GenTL设备信息 \~english device infomation of GenTL device ] MV_GENTL_DEV_INFO_LIST = _MV_GENTL_DEV_INFO_LIST_ # Chunk内容 \~english The content of ChunkData class _MV_CHUNK_DATA_CONTENT_(Structure): pass _MV_CHUNK_DATA_CONTENT_._fields_ = [ ('pChunkData', POINTER(c_ubyte)), # < \~chinese 块数据 \~english Chunk data ('nChunkID', c_uint), # < \~chinese 块数据ID \~english Chunk id ('nChunkLen', c_uint), # < \~chinese 块数据长度 \~english Chunk len ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CHUNK_DATA_CONTENT = _MV_CHUNK_DATA_CONTENT_ # 输出帧的信息 \~english Output Frame Information class _MV_FRAME_OUT_INFO_EX_(Structure): pass # values for enumeration 'MvGvspPixelType' MvGvspPixelType = c_int # enum class N22_MV_FRAME_OUT_INFO_EX_3DOT_1E(Union): pass N22_MV_FRAME_OUT_INFO_EX_3DOT_1E._fields_ = [ ('pUnparsedChunkContent', POINTER(MV_CHUNK_DATA_CONTENT)), # < \~chinese Chunk内容 \~english Chunk Content ('nAligning', int64_t), # < \~chinese 校准字段 \~english Aligning ] _MV_FRAME_OUT_INFO_EX_._fields_ = [ ('nWidth', c_ushort), # < \~chinese 图像宽(最大65535,超出请用nExtendWidth) \~english Image Width (over 65535, use nExtendWidth) ('nHeight', c_ushort), # < \~chinese 图像高(最大65535,超出请用nExtendHeight) \~english Image Height(over 65535, use nExtendHeight) ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english Pixel Type ('nFrameNum', c_uint), # < \~chinese 帧号 \~english Frame Number ('nDevTimeStampHigh', c_uint), # < \~chinese 时间戳高32位 \~english Timestamp high 32 bits ('nDevTimeStampLow', c_uint), # < \~chinese 时间戳低32位 \~english Timestamp low 32 bits ('nReserved0', c_uint), # < \~chinese 保留,8字节对齐 \~english Reserved, 8-byte aligned ('nHostTimeStamp', int64_t), # < \~chinese 主机生成的时间戳 \~english Host-generated timestamp ('nFrameLen', c_uint), # < \~chinese 帧的长度 \~english Frame length # < \~chinese 以下为chunk新增水印信息 \~english The followings are chunk add frame-specific information # < \~chinese 设备水印时标 \~english Device frame-specific time scale ('nSecondCount', c_uint), # < \~chinese 秒数 \~english The Seconds ('nCycleCount', c_uint), # < \~chinese 周期数 \~english The Count of Cycle ('nCycleOffset', c_uint), # < \~chinese 周期偏移量 \~english The Offset of Cycle ('fGain', c_float), # < \~chinese 增益 \~english Gain ('fExposureTime', c_float), # < \~chinese 曝光时间 \~english Exposure Time ('nAverageBrightness', c_uint), # < \~chinese 平均亮度 \~english Average brightness # < \~chinese:白平衡相关 \~english White balance ('nRed', c_uint), # < \~chinese 红色 \~english Red ('nGreen', c_uint), # < \~chinese 绿色 \~english Green ('nBlue', c_uint), # < \~chinese 蓝色 \~english Blue ('nFrameCounter', c_uint), # < \~chinese 帧计数 \~english Frame counter ('nTriggerIndex', c_uint), # < \~chinese 触发计数 \~english Trigger index # < \~chinese 输入/输出 \~english Line Input/Output ('nInput', c_uint), # < \~chinese 输入 \~english input ('nOutput', c_uint), # < \~chinese 输出 \~english output # < \~chinese ROI区域 \~english ROI Region ('nOffsetX', c_ushort), # < \~chinese 水平偏移量 \~english OffsetX ('nOffsetY', c_ushort), # < \~chinese 垂直偏移量 \~english OffsetY ('nChunkWidth', c_ushort), # < \~chinese chunk 宽 \~english The Width of Chunk ('nChunkHeight', c_ushort), # < \~chinese chunk 高 \~english The Height of Chunk ('nLostPacket', c_uint), # < \~chinese 本帧丢包数 \~english Lost Pacekt Number In This Frame ('nUnparsedChunkNum', c_uint), # < \~chinese 未解析的Chunkdata个数 \~english Unparsed chunk number ('UnparsedChunkList', N22_MV_FRAME_OUT_INFO_EX_3DOT_1E), # < \~chinese 数据库链表 \~english Unparsed chunk list ('nExtendWidth', c_uint), # < \~chinese 图像宽(扩展变量) \~english Image Width ('nExtendHeight', c_uint), # < \~chinese 图像高(扩展变量) \~english Image Height ('nReserved', c_uint * 34), # < \~chinese 保留字节 \~english Reserved bytes ] MV_FRAME_OUT_INFO_EX = _MV_FRAME_OUT_INFO_EX_ # \~chinese 显示帧信息 \~english Display frame information class _MV_DISPLAY_FRAME_INFO_EX_(Structure): pass _MV_DISPLAY_FRAME_INFO_EX_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english Pixel Type ('pImageBuf', POINTER(c_ubyte)), # < \~chinese 输入图像缓存 \~english Input image buffer ('nImageBufLen', c_uint), # < \~chinese 输入图像长度 \~english Input image length ('enRenderMode', c_uint), # < \~chinese 图像渲染方式 0-GDI(默认), 1-D3D, 2-OPENGL \~english Render mode 0-GDI(default), 1-D3D, 2-OPENGL ('nRes', c_uint * 3), # < \~chinese 保留字节 \~english Reserved bytes ] MV_DISPLAY_FRAME_INFO_EX = _MV_DISPLAY_FRAME_INFO_EX_ # 图像结构体,输出图像指针地址及图像信息 \~english Image Struct, output the pointer of Image and the information of the specific image class _MV_FRAME_OUT_(Structure): pass _MV_FRAME_OUT_._fields_ = [ ('pBufAddr', POINTER(c_ubyte)), # < \~chinese 图像指针地址 \~english pointer of image ('stFrameInfo', MV_FRAME_OUT_INFO_EX), # < \~chinese 图像信息 \~english information of the specific image ('nRes', c_uint * 16), # < \~chinese 保留字节 \~english Reserved bytes ] MV_FRAME_OUT = _MV_FRAME_OUT_ # values for enumeration '_MV_GRAB_STRATEGY_' _MV_GRAB_STRATEGY_ = c_int # enum MV_GRAB_STRATEGY = _MV_GRAB_STRATEGY_ # 网络传输的相关信息 \~english Network transmission information class _MV_NETTRANS_INFO_(Structure): pass _MV_NETTRANS_INFO_._fields_ = [ ('nReceiveDataSize', int64_t), # < \~chinese 已接收数据大小 [统计StartGrabbing和StopGrabbing之间的数据量] \~english Received Data Size [Calculate the Data Size between StartGrabbing and StopGrabbing] ('nThrowFrameCount', c_int), # < \~chinese 丢帧数量 \~english Throw frame number ('nNetRecvFrameCount', c_uint), # < \~chinese 收到帧计数 \~english Receive Frame count ('nRequestResendPacketCount', int64_t), # < \~chinese 请求重发包数 \~english Request Resend Packet Count ('nResendPacketCount', int64_t), # < \~chinese 重发包数 \~english Resend Packet Count ] MV_NETTRANS_INFO = _MV_NETTRANS_INFO_ # 全匹配的一种信息结构体 \~english A fully matched information structure class _MV_ALL_MATCH_INFO_(Structure): pass _MV_ALL_MATCH_INFO_._fields_ = [ ('nType', c_uint), # < \~chinese 需要输出的信息类型 \~english Information type need to output ('pInfo', c_void_p), # < \~chinese 输出的信息缓存,由调用者分配 \~englishOutput information cache, which is allocated by the caller ('nInfoSize', c_uint), # < \~chinese 信息缓存的大小 \~english Information cache size ] MV_ALL_MATCH_INFO = _MV_ALL_MATCH_INFO_ # 网络流量和丢包信息反馈结构体,对应类型为 MV_MATCH_TYPE_NET_DETECT \~english Network traffic and packet loss feedback structure, the corresponding type is MV_MATCH_TYPE_NET_DETECT class _MV_MATCH_INFO_NET_DETECT_(Structure): pass _MV_MATCH_INFO_NET_DETECT_._fields_ = [ ('nReceiveDataSize', int64_t), # < \~chinese 已接收数据大小 \~english Received data size ('nLostPacketCount', int64_t), # < \~chinese 丢失的包数量 \~english Number of packets lost ('nLostFrameCount', c_uint), # < \~chinese 丢帧数量 \~english Number of frames lost ('nNetRecvFrameCount', c_uint), # < \~chinese 收到帧计数 \~english Receive Frame count ('nRequestResendPacketCount', int64_t), # < \~chinese 请求重发包数 \~english Request Resend Packet Count ('nResendPacketCount', int64_t), # < \~chinese 重发包数 \~english Resend Packet Count ] MV_MATCH_INFO_NET_DETECT = _MV_MATCH_INFO_NET_DETECT_ # \~chinese host收到从u3v设备端的总字节数,对应类型为 MV_MATCH_TYPE_USB_DETECT \~english The total number of bytes host received from the u3v device side, the corresponding type is MV_MATCH_TYPE_USB_DETECT class _MV_MATCH_INFO_USB_DETECT_(Structure): pass _MV_MATCH_INFO_USB_DETECT_._fields_ = [ ('nReceiveDataSize', int64_t), # < \~chinese 已接收数据大小 \~english Received data size ('nReceivedFrameCount', c_uint), # < \~chinese 已收到的帧数 \~english Number of frames received ('nErrorFrameCount', c_uint), # < \~chinese 错误帧数 \~english Number of error frames ('nReserved', c_uint * 2), # < \~chinese 保留字节 \~english Reserved bytes ] MV_MATCH_INFO_USB_DETECT = _MV_MATCH_INFO_USB_DETECT_ # \~chinese 显示帧信息 \~english Display frame information class _MV_DISPLAY_FRAME_INFO_(Structure): pass _MV_DISPLAY_FRAME_INFO_._fields_ = [ ('hWnd', c_void_p), # < \~chinese 窗口句柄 \~english Windows handle ('pData', POINTER(c_ubyte)), # < \~chinese 显示的数据 \~english Data Buffer ('nDataLen', c_uint), # < \~chinese 数据长度 \~english Data Size ('nWidth', c_ushort), # < \~chinese 图像宽 \~english Width ('nHeight', c_ushort), # < \~chinese 图像高 \~english Height ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english Pixel format ('enRenderMode', c_uint), # < \~chinese 图像渲染方式 0-GDI(默认), 1-D3D, 2-OPENGL \~english Render mode 0-GDI(default), 1-D3D, 2-OPENGL ('nRes', c_uint * 3), # < \~chinese 保留字节 \~english Reserved bytes ] MV_DISPLAY_FRAME_INFO = _MV_DISPLAY_FRAME_INFO_ # values for enumeration 'MV_SAVE_POINT_CLOUD_FILE_TYPE' MV_SAVE_POINT_CLOUD_FILE_TYPE = c_int # enum # \~chinese 保存3D数据到缓存 \~english Save 3D data to buffer class _MV_SAVE_POINT_CLOUD_PARAM_(Structure): pass _MV_SAVE_POINT_CLOUD_PARAM_._fields_ = [ ('nLinePntNum', c_uint), # < \~chinese 每一行点的数量,即图像宽 \~english The number of points in each row,which is the width of the image ('nLineNum', c_uint), # < \~chinese 行数,即图像高 \~english The number of rows,which is the height of the image ('enSrcPixelType', MvGvspPixelType), # < \~chinese 输入数据的像素格式 \~english The pixel format of the input data ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input data size ('pDstBuf', POINTER(c_ubyte)), # < \~chinese 输出像素数据缓存 \~english Output pixel data buffer ('nDstBufSize', c_uint), # < \~chinese 提供的输出缓冲区大小(nLinePntNum * nLineNum * (16*3 + 4) + 2048) \~english Output buffer size provided (nLinePntNum * nLineNum * (16*3 + 4) + 2048) ('nDstBufLen', c_uint), # < \~chinese 输出像素数据缓存长度 \~english Output pixel data buffer size ('enPointCloudFileType', MV_SAVE_POINT_CLOUD_FILE_TYPE), # < \~chinese 提供输出的点云文件类型 \~english Output point data file type provided ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_SAVE_POINT_CLOUD_PARAM = _MV_SAVE_POINT_CLOUD_PARAM_ # values for enumeration 'MV_SAVE_IAMGE_TYPE' MV_SAVE_IAMGE_TYPE = c_int # enum # \~chinese 图片保存参数 \~english Save Image Parameters class _MV_SAVE_IMAGE_PARAM_T_EX_(Structure): pass _MV_SAVE_IMAGE_PARAM_T_EX_._fields_ = [ ('pData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input Data Buffer ('nDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input Data Size ('enPixelType', MvGvspPixelType), # < \~chinese 输入数据的像素格式 \~english Input Data Pixel Format ('nWidth', c_ushort), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_ushort), # < \~chinese 图像高 \~english Image Height ('pImageBuffer', POINTER(c_ubyte)), # < \~chinese 输出图片缓存 \~english Output Image Buffer ('nImageLen', c_uint), # < \~chinese 输出图片大小 \~english Output Image Size ('nBufferSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Output buffer size provided ('enImageType', MV_SAVE_IAMGE_TYPE), # < \~chinese 输出图片格式 \~english Output Image Format ('nJpgQuality', c_uint), # < \~chinese 编码质量, (50-99] \~english Encoding quality, (50-99] # < \~chinese ch:Bayer格式转为RGB24的插值方法 0-快速 1-均衡 2-最优 3-最优+ # < \~english en:Interpolation method of convert Bayer to RGB24 0-Fast 1-Equilibrium 2-Optimal 3-Optimal plus ('iMethodValue', c_uint), ('nReserved', c_uint * 3), # < \~chinese 保留字节 \~english Reserved bytes ] MV_SAVE_IMAGE_PARAM_EX = _MV_SAVE_IMAGE_PARAM_T_EX_ class _MV_SAVE_IMAGE_PARAM_EX3_(Structure): pass _MV_SAVE_IMAGE_PARAM_EX3_._fields_ = [ ('pData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input Data Buffer ('nDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input Data Size ('enPixelType', MvGvspPixelType), # < \~chinese 输入数据的像素格式 \~english Input Data Pixel Format ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('pImageBuffer', POINTER(c_ubyte)), # < \~chinese 输出图片缓存 \~english Output Image Buffer ('nImageLen', c_uint), # < \~chinese 输出图片大小 \~english Output Image Size ('nBufferSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Output buffer size provided ('enImageType', MV_SAVE_IAMGE_TYPE), # < \~chinese 输出图片格式 \~english Output Image Format ('nJpgQuality', c_uint), # < \~chinese 编码质量, (50-99] \~english Encoding quality, (50-99] # < \~chinese ch:Bayer格式转为RGB24的插值方法 0-快速 1-均衡 2-最优 3-最优+ # < \~english en:Interpolation method of convert Bayer to RGB24 0-Fast 1-Equilibrium 2-Optimal 3-Optimal plus ('iMethodValue', c_uint), ('nReserved', c_uint * 3), # < \~chinese 保留字节 \~english Reserved bytes ] MV_SAVE_IMAGE_PARAM_EX3 = _MV_SAVE_IMAGE_PARAM_EX3_ # \~chinese 保存BMP、JPEG、PNG、TIFF图片文件的参数 \~english Save BMP、JPEG、PNG、TIFF image file parameters class _MV_SAVE_IMG_TO_FILE_PARAM_(Structure): pass _MV_SAVE_IMG_TO_FILE_PARAM_._fields_ = [ ('enPixelType', MvGvspPixelType), # < \~chinese 输入数据的像素格式 \~english The pixel format of the input data ('pData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input Data Buffer ('nDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input Data Size ('nWidth', c_ushort), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_ushort), # < \~chinese 图像高 \~english Image Height ('enImageType', MV_SAVE_IAMGE_TYPE), # < \~chinese 输入图片格式 \~english Input Image Format ('nQuality', c_uint), # < \~chinese JPG编码质量(50-99] \~english JPG Encoding quality(50-99] ('pImagePath', c_char * 256), # < \~chinese 输入文件路径 \~english Input file path # < \~chinese ch:Bayer格式转为RGB24的插值方法 0-快速 1-均衡 2-最优 3-最优+ # < \~english en:Interpolation method of convert Bayer to RGB24 0-Fast 1-Equilibrium 2-Optimal 3-Optimal plus ('iMethodValue', c_int), ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_SAVE_IMG_TO_FILE_PARAM = _MV_SAVE_IMG_TO_FILE_PARAM_ class _MV_SAVE_IMAGE_TO_FILE_PARAM_EX_(Structure): pass _MV_SAVE_IMAGE_TO_FILE_PARAM_EX_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height # < \~chinese 输入数据的像素格式 \~english The pixel format of the input data ('enPixelType', MvGvspPixelType), ('pData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input Data Buffer ('nDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input Data Size # < \~chinese 输入图片格式 \~english Input Image Format ('enImageType', MV_SAVE_IAMGE_TYPE), ('pcImagePath', POINTER(c_char)), # < \~chinese 输入文件路径 \~english Input file path ('nQuality', c_uint), # < \~chinese JPG编码质量(50-99],其他格式无效 \~english JPG Encoding quality(50-99] # < \~chinese ch:Bayer格式转为RGB24的插值方法 0-快速 1-均衡 2-最优 3-最优+ # < \~english en:Interpolation method of convert Bayer to RGB24 0-Fast 1-Equilibrium 2-Optimal 3-Optimal plus ('iMethodValue', c_int), ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_SAVE_IMAGE_TO_FILE_PARAM_EX = _MV_SAVE_IMAGE_TO_FILE_PARAM_EX_ # \~chinese 图像转换结构体 \~english Pixel convert structure class _MV_CC_PIXEL_CONVERT_PARAM_T_(Structure): pass _MV_CC_PIXEL_CONVERT_PARAM_T_._fields_ = [ ('nWidth', c_ushort), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_ushort), # < \~chinese 图像高 \~english Image Height ('enSrcPixelType', MvGvspPixelType), # < \~chinese 源像素格式 \~english Source pixel format ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input data size ('enDstPixelType', MvGvspPixelType), # < \~chinese 目标像素格式 \~english Destination pixel format ('pDstBuffer', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstLen', c_uint), # < \~chinese 输出数据大小 \~english Output data size ('nDstBufferSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided outbut buffer size ('nRes', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_PIXEL_CONVERT_PARAM = _MV_CC_PIXEL_CONVERT_PARAM_T_ class _MV_PIXEL_CONVERT_PARAM_EX_T_(Structure): pass _MV_PIXEL_CONVERT_PARAM_EX_T_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('enSrcPixelType', MvGvspPixelType), # < \~chinese 源像素格式 \~english Source pixel format ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input data size ('enDstPixelType', MvGvspPixelType), # < \~chinese 目标像素格式 \~english Destination pixel format ('pDstBuffer', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstLen', c_uint), # < \~chinese 输出数据大小 \~english Output data size ('nDstBufferSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided outbut buffer size ('nRes', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_PIXEL_CONVERT_PARAM_EX = _MV_PIXEL_CONVERT_PARAM_EX_T_ # values for enumeration '_MV_RECORD_FORMAT_TYPE_' _MV_RECORD_FORMAT_TYPE_ = c_int # enum MV_RECORD_FORMAT_TYPE = _MV_RECORD_FORMAT_TYPE_ # \~chinese 录像参数 \~english Record Parameters class _MV_CC_RECORD_PARAM_T_(Structure): pass _MV_CC_RECORD_PARAM_T_._fields_ = [ ('enPixelType', MvGvspPixelType), # < \~chinese 输入数据的像素格式 \~english Ip config option ('nWidth', c_ushort), # < \~chinese 图像宽(指定目标参数时需为2的倍数) \~english Ip config option ('nHeight', c_ushort), # < \~chinese 图像高(指定目标参数时需为2的倍数) \~english Ip config option ('fFrameRate', c_float), # < \~chinese 帧率fps(1/16-120) \~english Ip config option ('nBitRate', c_uint), # < \~chinese 码率kbps(128kbps-16Mbps) \~english Ip config option ('enRecordFmtType', MV_RECORD_FORMAT_TYPE), # < \~chinese 录像格式 \~english Ip config option ('strFilePath', STRING), # < \~chinese 录像文件存放路径(如果路径中存在中文,需转成utf-8) \~english Video file storage path (if there is Chinese in the path, it needs to be converted to utf-8) ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_RECORD_PARAM = _MV_CC_RECORD_PARAM_T_ # \~chinese 录像数据 \~english Record Data class _MV_CC_INPUT_FRAME_INFO_T_(Structure): pass _MV_CC_INPUT_FRAME_INFO_T_._fields_ = [ ('pData', POINTER(c_ubyte)), # < \~chinese 图像数据指针 \~english Input Data Buffer ('nDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input Data Size ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_INPUT_FRAME_INFO = _MV_CC_INPUT_FRAME_INFO_T_ # values for enumeration '_MV_CAM_ACQUISITION_MODE_' _MV_CAM_ACQUISITION_MODE_ = c_int # enum MV_CAM_ACQUISITION_MODE = _MV_CAM_ACQUISITION_MODE_ # values for enumeration '_MV_CAM_GAIN_MODE_' _MV_CAM_GAIN_MODE_ = c_int # enum MV_CAM_GAIN_MODE = _MV_CAM_GAIN_MODE_ # values for enumeration '_MV_CAM_EXPOSURE_MODE_' _MV_CAM_EXPOSURE_MODE_ = c_int # enum MV_CAM_EXPOSURE_MODE = _MV_CAM_EXPOSURE_MODE_ # values for enumeration '_MV_CAM_EXPOSURE_AUTO_MODE_' _MV_CAM_EXPOSURE_AUTO_MODE_ = c_int # enum MV_CAM_EXPOSURE_AUTO_MODE = _MV_CAM_EXPOSURE_AUTO_MODE_ # values for enumeration '_MV_CAM_TRIGGER_MODE_' _MV_CAM_TRIGGER_MODE_ = c_int # enum MV_CAM_TRIGGER_MODE = _MV_CAM_TRIGGER_MODE_ # values for enumeration '_MV_CAM_GAMMA_SELECTOR_' _MV_CAM_GAMMA_SELECTOR_ = c_int # enum MV_CAM_GAMMA_SELECTOR = _MV_CAM_GAMMA_SELECTOR_ # values for enumeration '_MV_CAM_BALANCEWHITE_AUTO_' _MV_CAM_BALANCEWHITE_AUTO_ = c_int # enum MV_CAM_BALANCEWHITE_AUTO = _MV_CAM_BALANCEWHITE_AUTO_ # values for enumeration '_MV_CAM_TRIGGER_SOURCE_' _MV_CAM_TRIGGER_SOURCE_ = c_int # enum MV_CAM_TRIGGER_SOURCE = _MV_CAM_TRIGGER_SOURCE_ # \~chinese Event事件回调信息\ \~english Event callback infomation class _MV_EVENT_OUT_INFO_(Structure): pass _MV_EVENT_OUT_INFO_._fields_ = [ ('EventName', c_char * MAX_EVENT_NAME_SIZE), # < \~chinese Event名称 \~english Event name ('nEventID', c_ushort), # < \~chinese Event号 \~english Event ID ('nStreamChannel', c_ushort), # < \~chinese 流通道序号 \~english Circulation number ('nBlockIdHigh', c_uint), # < \~chinese 帧号高位 (暂无固件支持) \~english BlockId high, not support ('nBlockIdLow', c_uint), # < \~chinese 帧号低位 (暂无固件支持) \~english BlockId low, not support ('nTimestampHigh', c_uint), # < \~chinese 时间戳高位 \~english Timestramp high ('nTimestampLow', c_uint), # < \~chinese 时间戳低位 \~english Timestramp low ('pEventData', c_void_p), # < \~chinese Event数据 (暂无固件支持) \~english Event data, not support ('nEventDataSize', c_uint), # < \~chinese Event数据长度 (暂无固件支持) \~english Event data len, not support ('nReserved', c_uint * 16), # < \~chinese 保留字节 \~english Reserved bytes ] MV_EVENT_OUT_INFO = _MV_EVENT_OUT_INFO_ # \~chinese 文件存取 \~english File Access class _MV_CC_FILE_ACCESS_T(Structure): pass _MV_CC_FILE_ACCESS_T._fields_ = [ ('pUserFileName', STRING), # < \~chinese 用户文件名 \~english User file name ('pDevFileName', STRING), # < \~chinese 设备文件名 \~english Device file name ('nReserved', c_uint * 32), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_FILE_ACCESS = _MV_CC_FILE_ACCESS_T # \~chinese 文件存取进度 \~english File Access Progress class _MV_CC_FILE_ACCESS_PROGRESS_T(Structure): pass _MV_CC_FILE_ACCESS_PROGRESS_T._fields_ = [ ('nCompleted', int64_t), # < \~chinese 已完成的长度 \~english Completed Length ('nTotal', int64_t), # < \~chinese 总长度 \~english Total Length ('nReserved', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_FILE_ACCESS_PROGRESS = _MV_CC_FILE_ACCESS_PROGRESS_T # values for enumeration '_MV_GIGE_TRANSMISSION_TYPE_' _MV_GIGE_TRANSMISSION_TYPE_ = c_int # enum MV_GIGE_TRANSMISSION_TYPE = _MV_GIGE_TRANSMISSION_TYPE_ # 传输模式,可以为单播模式、组播模式等 \~english Transmission type class _MV_TRANSMISSION_TYPE_T(Structure): pass _MV_TRANSMISSION_TYPE_T._fields_ = [ ('enTransmissionType', MV_GIGE_TRANSMISSION_TYPE), # < \~chinese 传输模式 \~english Transmission type ('nDestIp', c_uint), # < \~chinese 目标IP,组播模式下有意义 \~english Destination IP ('nDestPort', c_ushort), # < \~chinese 目标Port,组播模式下有意义 \~english Destination port ('nReserved', c_uint * 32), # < \~chinese 保留字节 \~english Reserved bytes ] MV_TRANSMISSION_TYPE = _MV_TRANSMISSION_TYPE_T # \~chinese 动作命令信息 \~english Action Command class _MV_ACTION_CMD_INFO_T(Structure): pass _MV_ACTION_CMD_INFO_T._fields_ = [ ('nDeviceKey', c_uint), # < \~chinese 设备密钥 \~english Device key ('nGroupKey', c_uint), # < \~chinese 组键 \~english Group key ('nGroupMask', c_uint), # < \~chinese 组掩码 \~english Group mask ('bActionTimeEnable', c_uint), # < \~chinese 只有设置成1时Action Time才有效,非1时无效 \~english Action time enable ('nActionTime', int64_t), # < \~chinese 预定的时间,和主频有关 \~english Action time ('pBroadcastAddress', STRING), # < \~chinese 广播包地址 \~english Broadcast address ('nTimeOut', c_uint), # < \~chinese 等待ACK的超时时间,如果为0表示不需要ACK \~english Timeout ('nReserved', c_uint * 16), # < \~chinese 预留 \~english Reserved bytes ] MV_ACTION_CMD_INFO = _MV_ACTION_CMD_INFO_T # \~chinese 动作命令返回信息 \~english Action Command Result class _MV_ACTION_CMD_RESULT_T(Structure): pass _MV_ACTION_CMD_RESULT_T._fields_ = [ ('strDeviceAddress', c_ubyte * 16), # < \~chinese IP配置选项 \~english IP address of the device #1.0x0000:success. #2.0x8001:Command is not supported by the device. #3.0x8013:The device is not synchronized to a master clock to be used as time reference. #4.0x8015:A device queue or packet data has overflowed. #5.0x8016:The requested scheduled action command was requested at a time that is already past. ('nStatus', c_int), # < \~chinese 状态码 \~english status ('nReserved', c_uint * 4), # < \~chinese 预留 \~english Reserved bytes ] MV_ACTION_CMD_RESULT = _MV_ACTION_CMD_RESULT_T # \~chinese 动作命令返回信息列表 \~english Action Command Result List class _MV_ACTION_CMD_RESULT_LIST_T(Structure): pass _MV_ACTION_CMD_RESULT_LIST_T._fields_ = [ ('nNumResults', c_uint), # < \~chinese 返回值个数 \~english Num Results ('pResults', POINTER(MV_ACTION_CMD_RESULT)), # < \~chinese 动作命令返回信息 \~english action command result list ] MV_ACTION_CMD_RESULT_LIST = _MV_ACTION_CMD_RESULT_LIST_T # values for enumeration 'MV_XML_InterfaceType' MV_XML_InterfaceType = c_int # enum # values for enumeration 'MV_XML_AccessMode' MV_XML_AccessMode = c_int # enum # \~chinese 枚举类型值 \~english Enumeration Value class _MVCC_ENUMVALUE_T(Structure): pass _MVCC_ENUMVALUE_T._fields_ = [ ('nCurValue', c_uint), # < \~chinese 当前值 \~english Current Value ('nSupportedNum', c_uint), # < \~chinese 数据的有效数据个数 \~english Number of valid data ('nSupportValue', c_uint * MV_MAX_XML_SYMBOLIC_NUM), # < \~chinese 支持值列表 \~english Support value list ('nReserved', c_uint * 4), # < \~chinese 预留 \~english Reserved bytes ] MVCC_ENUMVALUE = _MVCC_ENUMVALUE_T # \~chinese Int类型值 \~english Int Value class _MVCC_INTVALUE_T(Structure): pass _MVCC_INTVALUE_T._fields_ = [ ('nCurValue', c_uint), # < \~chinese 当前值 \~english Current Value ('nMax', c_uint), # < \~chinese 最大值 \~english Max Value ('nMin', c_uint), # < \~chinese 最小值 \~english Min Value ('nInc', c_uint), # < \~chinese 步径 \~english Step size ('nReserved', c_uint * 4), # < \~chinese 预留 \~english Reserved bytes ] MVCC_INTVALUE = _MVCC_INTVALUE_T # \~chinese Int类型值Ex \~english Int Value Ex class _MVCC_INTVALUE_EX_T(Structure): pass _MVCC_INTVALUE_EX_T._fields_ = [ ('nCurValue', int64_t), # < \~chinese 当前值 \~english Current Value ('nMax', int64_t), # < \~chinese 最大值 \~english Max Value ('nMin', int64_t), # < \~chinese 最小值 \~english Min Value ('nInc', int64_t), # < \~chinese 步径 \~english Step size ('nReserved', c_uint * 16), # < \~chinese 预留 \~english Reserved bytes ] MVCC_INTVALUE_EX = _MVCC_INTVALUE_EX_T # \~chinese Float类型值 \~english Float Value class _MVCC_FLOATVALUE_T(Structure): pass _MVCC_FLOATVALUE_T._fields_ = [ ('fCurValue', c_float), # < \~chinese 当前值 \~english Current Value ('fMax', c_float), # < \~chinese 最大值 \~english Max Value ('fMin', c_float), # < \~chinese 最小值 \~english Min Value ('nReserved', c_uint * 4), # < \~chinese 预留 \~english Reserved bytes ] MVCC_FLOATVALUE = _MVCC_FLOATVALUE_T # \~chinese String类型值 \~english String Value class _MVCC_STRINGVALUE_T(Structure): pass _MVCC_STRINGVALUE_T._fields_ = [ ('chCurValue', c_char * 256), # < \~chinese 当前值 \~english Current Value ('nMaxLength', int64_t), # < \~chinese 最大长度 \~english Max length ('nReserved', c_uint * 2), # < \~chinese 预留 \~english Reserved bytes ] MVCC_STRINGVALUE = _MVCC_STRINGVALUE_T # \~chinese 水印信息 \~english Frame-specific information class _MV_CC_FRAME_SPEC_INFO_(Structure): pass _MV_CC_FRAME_SPEC_INFO_._fields_ = [ # < \~chinese 设备水印时标 \~english Device frame-specific time scale ('nSecondCount', c_uint), # < \~chinese 秒数 \~english The Seconds ('nCycleCount', c_uint), # < \~chinese 周期数 \~english The Count of Cycle ('nCycleOffset', c_uint), # < \~chinese 周期偏移量 \~english The Offset of Cycle ('fGain', c_float), # < \~chinese 增益 \~english Gain ('fExposureTime', c_float), # < \~chinese 曝光时间 \~english Exposure Time ('nAverageBrightness', c_uint), # < \~chinese 平均亮度 \~english Average brightness # < \~chinese 白平衡相关 \~english White balance ('nRed', c_uint), # < \~chinese 红色 \~english Red ('nGreen', c_uint), # < \~chinese 绿色 \~english Green ('nBlue', c_uint), # < \~chinese 蓝色 \~english Blue ('nFrameCounter', c_uint), # < \~chinese 总帧数 \~english Frame Counter ('nTriggerIndex', c_uint), # < \~chinese 触发计数 \~english Trigger Counting ('nInput', c_uint), # < \~chinese 输入 \~english Input ('nOutput', c_uint), # < \~chinese 输出 \~english Output # < \~chinese ROI区域 \~english ROI Region ('nOffsetX', c_ushort), # < \~chinese 水平偏移量 \~english OffsetX ('nOffsetY', c_ushort), # < \~chinese 垂直偏移量 \~english OffsetY ('nFrameWidth', c_ushort), # < \~chinese 水印宽 \~english The Width of Chunk ('nFrameHeight', c_ushort), # < \~chinese 水印高 \~english The Height of Chunk ('nReserved', c_uint * 16), # < \~chinese 预留 \~english Reserved bytes ] MV_CC_FRAME_SPEC_INFO = _MV_CC_FRAME_SPEC_INFO_ # \~chinese 无损解码参数 \~english High Bandwidth decode structure class _MV_CC_HB_DECODE_PARAM_T_(Structure): pass _MV_CC_HB_DECODE_PARAM_T_._fields_ = [ ('pSrcBuf', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcLen', c_uint), # < \~chinese 输入数据大小 \~english Input data size ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('pDstBuf', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstBufSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided output buffer size ('nDstBufLen', c_uint), # < \~chinese 输出数据大小 \~english Output data size ('enDstPixelType', MvGvspPixelType), # < \~chinese 输出的像素格式 \~english Output pixel format ('stFrameInfo', MV_CC_FRAME_SPEC_INFO), # < \~chinese 水印信息 \~english Frame Spec Info ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_HB_DECODE_PARAM = _MV_CC_HB_DECODE_PARAM_T_ # values for enumeration '_MV_SORT_METHOD_' _MV_SORT_METHOD_ = c_int # enum MV_SORT_METHOD = _MV_SORT_METHOD_ # values for enumeration '_MV_IMG_ROTATION_ANGLE_' _MV_IMG_ROTATION_ANGLE_ = c_int # enum MV_IMG_ROTATION_ANGLE = _MV_IMG_ROTATION_ANGLE_ # values for enumeration '_MV_IMG_FLIP_TYPE_' _MV_IMG_FLIP_TYPE_ = c_int # enum MV_IMG_FLIP_TYPE = _MV_IMG_FLIP_TYPE_ # values for enumeration '_MV_CC_GAMMA_TYPE_' _MV_CC_GAMMA_TYPE_ = c_int # enum MV_CC_GAMMA_TYPE = _MV_CC_GAMMA_TYPE_ # values for enumeration '_MV_CC_STREAM_EXCEPTION_TYPE_' _MV_CC_STREAM_EXCEPTION_TYPE_ = c_int # enum MV_CC_STREAM_EXCEPTION_TYPE = _MV_CC_STREAM_EXCEPTION_TYPE_ # values for enumeration '_MV_IMAGE_RECONSTRUCTION_METHOD_' _MV_IMAGE_RECONSTRUCTION_METHOD_ = c_int # enum MV_IMAGE_RECONSTRUCTION_METHOD = _MV_IMAGE_RECONSTRUCTION_METHOD_ # \~chinese 图像旋转结构体 \~english Rotate image structure class _MV_CC_ROTATE_IMAGE_PARAM_T_(Structure): pass _MV_CC_ROTATE_IMAGE_PARAM_T_._fields_ = [ ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english pixel format ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input data length ('pDstBuf', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstBufLen', c_uint), # < \~chinese输出数据长度 \~english Output data length ('nDstBufSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided output buffer size ('enRotationAngle', MV_IMG_ROTATION_ANGLE), # < \~chinese 旋转角度 \~english Rotation angle ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_ROTATE_IMAGE_PARAM = _MV_CC_ROTATE_IMAGE_PARAM_T_ # \~chinese 图像翻转结构体 \~english Flip image structure class _MV_CC_FLIP_IMAGE_PARAM_T_(Structure): pass _MV_CC_FLIP_IMAGE_PARAM_T_._fields_ = [ ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english pixel format ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english Input data length ('pDstBuf', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstBufLen', c_uint), # < \~chinese输出数据长度 \~english Output data length ('nDstBufSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided output buffer size ('enFlipType', MV_IMG_FLIP_TYPE), # < \~chinese 翻转类型 \~english Flip type ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_FLIP_IMAGE_PARAM = _MV_CC_FLIP_IMAGE_PARAM_T_ # \~chinese Gamma信息结构体 \~english Gamma info structure class _MV_CC_GAMMA_PARAM_T_(Structure): pass _MV_CC_GAMMA_PARAM_T_._fields_ = [ ('enGammaType', MV_CC_GAMMA_TYPE), # < \~chinese Gamma类型 \~english Gamma type ('fGammaValue', c_float), # < \~chinese Gamma值[0.1,4.0] \~english Gamma value[0.1,4.0] ('pGammaCurveBuf', POINTER(c_ubyte)), # < \~chinese Gamma曲线缓存 \~english Gamma curve buffer ('nGammaCurveBufLen', c_uint), # < \~chinese Gamma曲线长度 \~english Gamma curve buffer size ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_GAMMA_PARAM = _MV_CC_GAMMA_PARAM_T_ # \~chinese CCM参数 \~english CCM param class _MV_CC_CCM_PARAM_T_(Structure): pass _MV_CC_CCM_PARAM_T_._fields_ = [ ('bCCMEnable', c_bool), # < \~chinese 是否启用CCM \~english CCM enable ('nCCMat', c_int * 9), # < \~chinese CCM矩阵[-8192~8192] \~english Color correction matrix[-8192~8192] ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_CCM_PARAM = _MV_CC_CCM_PARAM_T_ # \~chinese CCM参数 \~english CCM param class _MV_CC_CCM_PARAM_EX_T_(Structure): pass _MV_CC_CCM_PARAM_EX_T_._fields_ = [ ('bCCMEnable', c_bool), # < \~chinese 是否启用CCM \~english CCM enable ('nCCMat', c_int * 9), # < \~chinese CCM矩阵[-65536~65536] \~english Color correction matrix[-65536~65536] ('nCCMScale', c_uint), # < \~chinese 量化系数(2的整数幂,最大65536) \~english Quantitative scale(Integer power of 2, <= 65536) ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_CCM_PARAM_EX = _MV_CC_CCM_PARAM_EX_T_ # \~chinese 对比度调节结构体 \~english Contrast structure class _MV_CC_CONTRAST_PARAM_T_(Structure): pass _MV_CC_CONTRAST_PARAM_T_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽(最小8) \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高(最小8) \~english Image Height ('pSrcBuf', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english Input data buffer ('nSrcBufLen', c_uint), # < \~chinese 输入数据大小 \~english Input data length ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english pixel format ('pDstBuf', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nDstBufSize', c_uint), # < \~chinese提供的输出缓冲区大小 \~english Provided output buffer size ('nDstBufLen', c_uint), # < \~chinese 输出数据长度 \~english Output data length ('nContrastFactor', c_uint), # < \~chinese 对比度值,[1,10000] \~english Contrast factor,[1,10000] ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_CONTRAST_PARAM_T = _MV_CC_CONTRAST_PARAM_T_ # \~chinese 枚举类型条目 \~english Enumeration Entry class _MVCC_ENUMENTRY_T(Structure): pass _MVCC_ENUMENTRY_T._fields_ = [ ('nValue', c_uint), # < \~chinese 指定值 \~english Value ('chSymbolic', c_char * MV_MAX_SYMBOLIC_LEN), # < \~chinese 指定值对应的符号 \~english Symbolic ('nReserved', c_uint * 4), # < \~chinese 预留 \~english Reserved bytes ] MVCC_ENUMENTRY = _MVCC_ENUMENTRY_T # \~chinese 辅助线颜色 \~english Color of Auxiliary Line class _MVCC_COLORF(Structure): pass _MVCC_COLORF._fields_ = [ ('fR', c_float), # < \~chinese 红色,根据像素颜色的相对深度,范围为[0.0 , 1.0],代表着[0, 255]的颜色深度 \~english Red,Range[0.0, 1.0] ('fG', c_float), # < \~chinese 绿色,根据像素颜色的相对深度,范围为[0.0 , 1.0],代表着[0, 255]的颜色深度 \~english Green,Range[0.0, 1.0] ('fB', c_float), # < \~chinese 蓝色,根据像素颜色的相对深度,范围为[0.0 , 1.0],代表着[0, 255]的颜色深度 \~english Blue,Range[0.0, 1.0] ('fAlpha', c_float), # < \~chinese 透明度,根据像素颜色的相对透明度,范围为[0.0 , 1.0] (此参数功能暂不支持) \~english Alpha,Range[0.0, 1.0](Not Support) ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MVCC_COLORF = _MVCC_COLORF # \~chinese 自定义点 \~english Point defined class _MVCC_POINTF(Structure): pass _MVCC_POINTF._fields_ = [ ('fX', c_float), # < \~chinese 该点距离图像左边缘距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Left,Range[0.0, 1.0] ('fY', c_float), # < \~chinese 该点距离图像上边缘距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Top,Range[0.0, 1.0] ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MVCC_POINTF = _MVCC_POINTF # \~chinese 矩形框区域信息 \~english Rect Area Info class _MVCC_RECT_INFO(Structure): pass _MVCC_RECT_INFO._fields_ = [ ('fTop', c_float), # < \~chinese 矩形上边缘距离图像上边缘的距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Top,Range[0, 1.0] ('fBottom', c_float), # < \~chinese 矩形下边缘距离图像下边缘的距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Bottom,Range[0, 1.0] ('fLeft', c_float), # < \~chinese 矩形左边缘距离图像左边缘的距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Left,Range[0, 1.0] ('fRight', c_float), # < \~chinese 矩形右边缘距离图像右边缘的距离,根据图像的相对位置,范围为[0.0 , 1.0] \~english Distance From Right,Range[0, 1.0] ('stColor', MVCC_COLORF), # < \~chinese 辅助线颜色信息 \~english Color of Auxiliary Line ('nLineWidth', c_uint), # < \~chinese 辅助线宽度,宽度只能是1或2 \~english Width of Auxiliary Line, width is 1 or 2 ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MVCC_RECT_INFO = _MVCC_RECT_INFO # \~chinese 圆形框区域信息 \~english Circle Area Info class _MVCC_CIRCLE_INFO(Structure): pass _MVCC_CIRCLE_INFO._fields_ = [ ('stCenterPoint', MVCC_POINTF), # < \~chinese 圆心信息 \~english Circle Point Info ('fR1', c_float), # < \~chinese 宽向半径,根据图像的相对位置[0, 1.0],半径与圆心的位置有关,需保证画出的圆在显示框范围之内,否则报错 \~english Width Radius, Range[0, 1.0] ('fR2', c_float), # < \~chinese高向半径,根据图像的相对位置[0, 1.0],半径与圆心的位置有关,需保证画出的圆在显示框范围之内,否则报错 \~english Height Radius, Range[0, 1.0] ('stColor', MVCC_COLORF), # < \~chinese 辅助线颜色信息 \~english Color of Auxiliary Line ('nLineWidth', c_uint), # < \~chinese 辅助线宽度,宽度只能是1或2 \~english Width of Auxiliary Line, width is 1 or 2 ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MVCC_CIRCLE_INFO = _MVCC_CIRCLE_INFO # \~chinese 线条辅助线信息 \~english Linear Auxiliary Line Info class _MVCC_LINES_INFO(Structure): pass _MVCC_LINES_INFO._fields_ = [ ('stStartPoint', MVCC_POINTF), # < \~chinese 线条辅助线的起始点坐标 \~english The Start Point of Auxiliary Line ('stEndPoint', MVCC_POINTF), # < \~chinese线条辅助线的终点坐标 \~english The End Point of Auxiliary Line ('stColor', MVCC_COLORF), # < \~chinese 辅助线颜色信息 \~english Color of Auxiliary Line ('nLineWidth', c_uint), # < \~chinese 辅助线宽度,宽度只能是1或2 \~english Width of Auxiliary Line, width is 1 or 2 ('nReserved', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MVCC_LINES_INFO = _MVCC_LINES_INFO # \~chinese 图像重构后的图像列表 \~english List of images after image reconstruction class _MV_OUTPUT_IMAGE_INFO_(Structure): pass _MV_OUTPUT_IMAGE_INFO_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english pixel format ('pBuf', POINTER(c_ubyte)), # < \~chinese 输出数据缓存 \~english Output data buffer ('nBufLen', c_uint), # < \~chinese 输出数据长度 \~english Output data length ('nBufSize', c_uint), # < \~chinese 提供的输出缓冲区大小 \~english Provided output buffer size ('nRes', c_uint * 8), # < \~chinese 保留字节 \~english Reserved bytes ] MV_OUTPUT_IMAGE_INFO = _MV_OUTPUT_IMAGE_INFO_ # \~chinese 重构图像参数信息 \~english Restructure image parameters class _MV_RECONSTRUCT_IMAGE_PARAM_(Structure): pass _MV_RECONSTRUCT_IMAGE_PARAM_._fields_ = [ ('nWidth', c_uint), # < \~chinese 图像宽 \~english Image Width ('nHeight', c_uint), # < \~chinese 图像高 \~english Image Height ('enPixelType', MvGvspPixelType), # < \~chinese 像素格式 \~english pixel format ('pSrcData', POINTER(c_ubyte)), # < \~chinese 输入数据缓存 \~english input data buffer ('nSrcDataLen', c_uint), # < \~chinese 输入数据大小 \~english input data size ('nExposureNum', c_uint), # < \~chinese 曝光个数(1-8] \~english Exposure number ('enReconstructMethod', MV_IMAGE_RECONSTRUCTION_METHOD), # < \~chinese 图像重构方式 \~english Image restructuring method ('stDstBufList', MV_OUTPUT_IMAGE_INFO * MV_MAX_SPLIT_NUM), # < \~chinese 输出数据缓存信息 \~english Output data info ('nRes', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_RECONSTRUCT_IMAGE_PARAM = _MV_RECONSTRUCT_IMAGE_PARAM_ # \~chinese 文件存取 \~english File Access class _MV_CC_FILE_ACCESS_E(Structure): pass _MV_CC_FILE_ACCESS_E._fields_ = [ ('pUserFileBuf', POINTER(c_char)), # < \~chinese 用户文件数据 \~english User file data ('pFileBufSize', c_uint), # < \~chinese 用户数据缓存大小 \~english data buffer size ('pFileBufLen', c_uint), # < \~chinese 用户数据缓存长度 \~english data buffer len ('pDevFileName', STRING), # < \~chinese 设备文件名 \~english Device file name ('nReserved', c_uint * 32), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CC_FILE_ACCESS_EX = _MV_CC_FILE_ACCESS_E # 采集卡信息 \~english Interface information class _MV_INTERFACE_INFO_(Structure): pass _MV_INTERFACE_INFO_._fields_ = [ ('nTLayerType', c_uint), # < \~chinese 采集卡类型 \~english Interface type ('nPCIEInfo', c_uint), # < \~chinese 采集卡的PCIE插槽信息 \~english PCIe slot information of interface ('chInterfaceID', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 采集卡ID \~english Interface ID ('chDisplayName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 显示名称 \~english Display name ('chSerialNumber', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 序列号 \~english Serial number ('chModelName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 型号 \~english model name ('chManufacturer', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 厂商 \~english manufacturer name ('chDeviceVersion', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 版本号 \~english device version ('chUserDefinedName', c_ubyte * INFO_MAX_BUFFER_SIZE), # < \~chinese 自定义名称 \~english user defined name ('nReserved', c_uint * 64), # < \~chinese 保留字节 \~english Reserved bytes ] MV_INTERFACE_INFO = _MV_INTERFACE_INFO_ # 采集卡信息列表 \~english Interface Information List class _MV_INTERFACE_INFO_LIST_(Structure): pass _MV_INTERFACE_INFO_LIST_._fields_ = [ ('nInterfaceNum', c_uint), # < \~chinese 在线设备数量 \~english Online Device Number ('pInterfaceInfos', POINTER(MV_INTERFACE_INFO) * MV_MAX_INTERFACE_NUM), # < \~chinese 支持最多256个设备 \~english Support up to 256 devices ] MV_INTERFACE_INFO_LIST = _MV_INTERFACE_INFO_LIST_ # 串口信息 \~english Serial Port Info class _MV_CAML_SERIAL_PORT_(Structure): pass _MV_CAML_SERIAL_PORT_._fields_ = [ ('chSerialPort', c_char * INFO_MAX_BUFFER_SIZE), # < \~chinese 串口号 \~english Serial Port ('nRes', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CAML_SERIAL_PORT = _MV_CAML_SERIAL_PORT_ # 本机串口列表 \~english serial port list class _MV_CAML_SERIAL_PORT_LIST_(Structure): pass _MV_CAML_SERIAL_PORT_LIST_._fields_ = [ ('nSerialPortNum', c_uint), # < \~chinese 串口数量 \~english Serial Port Num ('stSerialPort', MV_CAML_SERIAL_PORT * MV_MAX_SERIAL_PORT_NUM), # < \~chinese 串口信息 \~english Serial Port Information ('nRes', c_uint * 4), # < \~chinese 保留字节 \~english Reserved bytes ] MV_CAML_SERIAL_PORT_LIST = _MV_CAML_SERIAL_PORT_LIST_ __all__ = ['_MV_ALL_MATCH_INFO_', 'MV_CC_FILE_ACCESS_PROGRESS', 'N19_MV_CC_DEVICE_INFO_3DOT_0E', 'MV_FRAME_OUT', 'MV_CAM_GAIN_MODE', 'MV_ALL_MATCH_INFO', 'MV_GIGE_TRANSTYPE_UNICAST_WITHOUT_RECV', 'MV_TRIGGER_SOURCE_LINE0', 'MV_PointCloudFile_Undefined', 'MV_TRIGGER_SOURCE_LINE2', 'MV_TRIGGER_SOURCE_LINE3', 'AM_CycleDetect', 'MV_GrabStrategy_UpcomingImage', 'IFT_IFloat', 'MV_EVENT_OUT_INFO', 'MV_TRANSMISSION_TYPE', 'uint_fast16_t', 'MV_CHUNK_DATA_CONTENT','MV_ACTION_CMD_RESULT', 'MV_CC_INPUT_FRAME_INFO', '_MV_ACTION_CMD_RESULT_T', 'AM_RO', 'IFT_IPort', 'uint_least16_t', '_MV_FRAME_OUT_INFO_EX_', '_MV_TRANSMISSION_TYPE_T', 'MV_SAVE_IMAGE_PARAM_EX', 'MV_SAVE_IMAGE_PARAM_EX3', 'AM_RW', 'MV_XML_InterfaceType', 'int32_t', '_MV_ACTION_CMD_INFO_T', 'intptr_t', 'uint_least64_t', '_MV_NETTRANS_INFO_', '_MV_CAM_TRIGGER_MODE_', 'int_least32_t', 'MV_GIGE_TRANSTYPE_SUBNETBROADCAST', 'MV_SAVE_POINT_CLOUD_FILE_TYPE', 'MV_ACTION_CMD_RESULT_LIST', 'MV_BALANCEWHITE_AUTO_CONTINUOUS', '_MV_CHUNK_DATA_CONTENT_', 'MV_FormatType_AVI', '_MV_CC_PIXEL_CONVERT_PARAM_T_','_MV_PIXEL_CONVERT_PARAM_EX_T_', 'MV_GENTL_IF_INFO', 'MV_ACQ_MODE_SINGLE', 'MV_TRIGGER_MODE_ON', 'int_least16_t', 'N22_MV_FRAME_OUT_INFO_EX_3DOT_1E', 'MV_GIGE_TRANSTYPE_LIMITEDBROADCAST', 'int_fast32_t', '_MV_CAM_GAIN_MODE_', 'MV_RECORD_FORMAT_TYPE', 'MV_CC_DEVICE_INFO', 'IFT_ICommand', '_MV_RECORD_FORMAT_TYPE_', '_MV_CAM_ACQUISITION_MODE_', '_MVCC_STRINGVALUE_T', 'MV_GIGE_TRANSTYPE_MULTICAST_WITHOUT_RECV', '_MV_MATCH_INFO_NET_DETECT_', 'MVCC_INTVALUE', 'MV_PointCloudFile_OBJ', '_MV_GIGE_TRANSMISSION_TYPE_', '_MV_CC_RECORD_PARAM_T_', '_MV_GENTL_IF_INFO_', 'MV_EXPOSURE_MODE_TIMED', 'intmax_t', 'int16_t', 'MV_DISPLAY_FRAME_INFO', '_MV_CC_FILE_ACCESS_PROGRESS_T', '_MV_GRAB_STRATEGY_', '_MV_SAVE_IMG_TO_FILE_PARAM_', '_MV_SAVE_IMAGE_TO_FILE_PARAM_EX_', 'int_fast64_t', 'MV_XML_AccessMode', 'MV_GAIN_MODE_ONCE', 'IFT_IInteger', 'MV_CAM_BALANCEWHITE_AUTO', 'int_least8_t', 'MV_PointCloudFile_CSV', 'IFT_IBase', 'MV_TRIGGER_MODE_OFF', 'MV_Image_Bmp', '_MV_GENTL_DEV_INFO_', 'MV_CC_FILE_ACCESS', '_MV_CAM_EXPOSURE_AUTO_MODE_', 'uint_least8_t', 'MV_ACTION_CMD_INFO', '_MV_CC_INPUT_FRAME_INFO_T_', 'MV_GENTL_DEV_INFO_LIST', '_MV_CAM_TRIGGER_SOURCE_', 'MV_GRAB_STRATEGY', 'IFT_IEnumeration', 'uint64_t', 'uint8_t', '_MV_GENTL_DEV_INFO_LIST_', 'MV_CAM_GAMMA_SELECTOR', 'MV_CamL_DEV_INFO', 'MV_GENTL_IF_INFO_LIST', 'MV_CAM_TRIGGER_MODE', 'MV_GIGE_TRANSTYPE_MULTICAST', 'uint16_t', 'uint_fast8_t', '_MV_ACTION_CMD_RESULT_LIST_T', '_MV_MATCH_INFO_USB_DETECT_', '_MVCC_ENUMVALUE_T', 'MV_SAVE_POINT_CLOUD_PARAM', '_MV_CC_DEVICE_INFO_', 'IFT_IBoolean', 'MV_MATCH_INFO_USB_DETECT', 'MV_PointCloudFile_PLY', 'MVCC_ENUMVALUE', 'IFT_IString', 'MV_ACQ_MODE_CONTINUOUS', 'MV_TRIGGER_SOURCE_FrequencyConverter', 'MV_TRIGGER_SOURCE_COUNTER0', 'MV_GAIN_MODE_OFF', '_MV_CC_DEVICE_INFO_LIST_', 'MV_GIGE_DEVICE_INFO', '_MV_SAVE_IMAGE_PARAM_T_EX_', '_MV_SAVE_IMAGE_PARAM_EX3_', 'AM_NA', 'uint_least32_t', 'MV_CC_PIXEL_CONVERT_PARAM', 'MV_CC_PIXEL_CONVERT_PARAM_EX','AM_NI', '_MVCC_INTVALUE_EX_T', 'uintptr_t', 'MV_Image_Tif', 'MVCC_FLOATVALUE', 'MV_GIGE_TRANSTYPE_CAMERADEFINED', '_MV_GENTL_IF_INFO_LIST_', 'MV_NETTRANS_INFO', 'IFT_IRegister', 'MV_GIGE_TRANSMISSION_TYPE', 'MV_EXPOSURE_AUTO_MODE_ONCE', 'MV_GIGE_TRANSTYPE_UNICAST', 'int8_t', '_MV_GIGE_DEVICE_INFO_', 'IFT_IValue', 'AM_WO', 'int_fast8_t', 'MV_GAMMA_SELECTOR_SRGB','int_least64_t', 'MV_GrabStrategy_LatestImagesOnly', 'MV_EXPOSURE_AUTO_MODE_OFF', 'MV_CAM_EXPOSURE_AUTO_MODE', 'MV_EXPOSURE_AUTO_MODE_CONTINUOUS', 'MV_CAM_ACQUISITION_MODE', 'AM_Undefined', 'MV_MATCH_INFO_NET_DETECT', '_MV_CC_FILE_ACCESS_T', '_MV_DISPLAY_FRAME_INFO_','MV_GrabStrategy_OneByOne', 'MV_TRIGGER_SOURCE_SOFTWARE', 'MV_FormatType_Undefined', 'MV_BALANCEWHITE_AUTO_ONCE', 'uintmax_t', 'int_fast16_t', '_MV_CAM_EXPOSURE_MODE_','MV_BALANCEWHITE_AUTO_OFF', 'int64_t', 'MV_Image_Undefined', 'MV_GAIN_MODE_CONTINUOUS', 'uint_fast32_t', 'MV_CAM_TRIGGER_SOURCE', 'MV_GrabStrategy_LatestImages', 'MV_Image_Png', 'MV_Image_Jpeg', '_MV_CamL_DEV_INFO_', '_MVCC_FLOATVALUE_T', 'MV_FRAME_OUT_INFO_EX', '_MV_SAVE_POINT_CLOUD_PARAM_', '_MV_CAM_BALANCEWHITE_AUTO_', 'MV_CC_RECORD_PARAM', '_MV_USB3_DEVICE_INFO_', 'MVCC_INTVALUE_EX', 'MV_EXPOSURE_MODE_TRIGGER_WIDTH', 'MV_GIGE_TRANSTYPE_UNICAST_DEFINED_PORT', 'MV_SAVE_IAMGE_TYPE','MV_GENTL_DEV_INFO', 'MV_CAM_EXPOSURE_MODE', 'MVCC_STRINGVALUE', 'MvGvspPixelType', 'MV_CC_DEVICE_INFO_LIST', 'MV_TRIGGER_SOURCE_LINE1', 'uint_fast64_t','_MVCC_INTVALUE_T', 'IFT_ICategory', 'MV_SAVE_IMG_TO_FILE_PARAM', 'MV_SAVE_IMAGE_TO_FILE_PARAM_EX', '_MV_FRAME_OUT_', 'MV_GAMMA_SELECTOR_USER', 'uint32_t', '_MV_CAM_GAMMA_SELECTOR_', 'MV_ACQ_MODE_MUTLI', 'MV_USB3_DEVICE_INFO', '_MV_EVENT_OUT_INFO_', 'MV_CC_FRAME_SPEC_INFO', 'MV_CC_HB_DECODE_PARAM', 'MV_SORT_METHOD', '_MV_SORT_METHOD_', 'SortMethod_SerialNumber', 'SortMethod_UserID', 'SortMethod_CurrentIP_ASC', 'SortMethod_CurrentIP_DESC', '_MV_IMG_ROTATION_ANGLE_', 'MV_IMG_ROTATION_ANGLE', 'MV_IMAGE_ROTATE_90', 'MV_IMAGE_ROTATE_180', 'MV_IMAGE_ROTATE_270', '_MV_IMG_FLIP_TYPE_', 'MV_IMG_FLIP_TYPE', 'MV_FLIP_VERTICAL', 'MV_FLIP_HORIZONTAL', '_MV_CC_GAMMA_TYPE_', 'MV_CC_GAMMA_TYPE', 'MV_CC_GAMMA_TYPE_NONE', 'MV_CC_GAMMA_TYPE_VALUE', 'MV_CC_GAMMA_TYPE_USER_CURVE', 'MV_CC_GAMMA_TYPE_LRGB2SRGB', 'MV_CC_GAMMA_TYPE_SRGB2LRGB', 'MV_CC_STREAM_EXCEPTION_TYPE', '_MV_CC_STREAM_EXCEPTION_TYPE_', 'MV_CC_STREAM_EXCEPTION_ABNORMAL_IMAGE', 'MV_CC_STREAM_EXCEPTION_LIST_OVERFLOW', 'MV_CC_STREAM_EXCEPTION_LIST_EMPTY', 'MV_CC_STREAM_EXCEPTION_RECONNECTION', 'MV_CC_STREAM_EXCEPTION_DISCONNECTED', 'MV_CC_STREAM_EXCEPTION_DEVICE', '_MV_IMAGE_RECONSTRUCTION_METHOD_', 'MV_IMAGE_RECONSTRUCTION_METHOD', 'MV_SPLIT_BY_LINE', 'MVCC_COLORF', '_MVCC_COLORF', '_MVCC_POINTF', 'MVCC_POINTF', '_MVCC_RECT_INFO', 'MVCC_RECT_INFO', '_MVCC_CIRCLE_INFO', 'MVCC_CIRCLE_INFO', '_MVCC_LINES_INFO', 'MVCC_LINES_INFO', '_MV_OUTPUT_IMAGE_INFO_', 'MV_OUTPUT_IMAGE_INFO', 'MV_RECONSTRUCT_IMAGE_PARAM', '_MV_RECONSTRUCT_IMAGE_PARAM_', '_MVCC_ENUMENTRY_T', 'MVCC_ENUMENTRY','_MV_CC_CONTRAST_PARAM_T_', 'MV_CC_CONTRAST_PARAM_T', '_MV_CC_CCM_PARAM_EX_T_', 'MV_CC_CCM_PARAM_EX', 'MV_CC_CCM_PARAM', '_MV_CC_CCM_PARAM_T_', 'MV_CC_GAMMA_PARAM', '_MV_CC_GAMMA_PARAM_T_', 'MV_CC_FLIP_IMAGE_PARAM', '_MV_CC_FLIP_IMAGE_PARAM_T_', '_MV_CC_ROTATE_IMAGE_PARAM_T_', 'MV_CC_ROTATE_IMAGE_PARAM', 'MV_CC_FILE_ACCESS_EX', '_MV_CC_FILE_ACCESS_E', '_MV_DISPLAY_FRAME_INFO_EX_', 'MV_DISPLAY_FRAME_INFO_EX', 'MV_CML_DEVICE_INFO', '_MV_CML_DEVICE_INFO_', 'MV_CXP_DEVICE_INFO', '_MV_CXP_DEVICE_INFO_', '_MV_XOF_DEVICE_INFO_', 'MV_XOF_DEVICE_INFO', '_MV_INTERFACE_INFO_LIST_', 'MV_INTERFACE_INFO_LIST', '_MV_INTERFACE_INFO_', 'MV_INTERFACE_INFO', '_MV_CAML_SERIAL_PORT_LIST_', 'MV_CAML_SERIAL_PORT_LIST', '_MV_CAML_SERIAL_PORT_', 'MV_CAML_SERIAL_PORT']