452 lines
20 KiB
C++
452 lines
20 KiB
C++
/**
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* @file Const.h
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* @brief 常用常量的定义
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*
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*/
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#ifndef PAI_FRAME_IOSERVICE_CONST_H
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#define PAI_FRAME_IOSERVICE_CONST_H
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#include "Turtle.h"
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#include <string>
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const long long PAI_LONG_LONG_MAX = 9223372036854775807;
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/**
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* @brief 赋值因子
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*/
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const int CONST_OFFSET_SCALAR = 10U; ///<关键字OFFSET的赋值因子 (默认道头里是 -10 计算要取绝对值)
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const int CONST_SPEED_SCALAR = 1000U; ///<关键字风化层速度的赋值因子 (默认道头里是 -1000 计算要取绝对值)
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const int CONST_ELEV_SCALAR = 10U; ///<关键字CDP高程CDP 浮动基准面的高程 的赋值因子 (默认道头里是 -10 计算要取绝对值)
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const int CONST_TIME_SCALAR = 10U; ///<关键字静校正量的赋值因子 (默认道头里是 -10 计算要取绝对值)
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const int CONST_Coor_SCALAR = 10U; ///<真实坐标值的赋值因子 (默认道头里是 -10 计算要取绝对值)
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const int CONST_POINT_SCALAR = 10U; ///<关键字炮点线号、炮点桩号的赋值因子 (默认道头里是 -10 计算要取绝对值)
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const int CONST_AMP_SCALAR = 1000U; ///<关键字采样振幅(Amp)值的赋值因子 (默认道头里是 -1000 计算要取绝对值)
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const int CONST_NONEWENTRY_SCALAR = 10U; ///<炮点号的赋值因子 (默认道头里是 -1000 计算要取绝对值)
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const int CONST_ANGLE_SCALAR = 1000U; ///<入射角,方位角 的赋值因子 (默认道头里是 -1000 计算要取绝对值)
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/**
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* @brief 文件头中数据类型标识
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*/
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const int CONST_SEISMIC_DATATYPE_CODE = 1U; ///<地震数据数据标识
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const int CONST_VELMODEL_DATATYPE_CODE = 2U; ///<速度场数据标识
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const int CONST_SPECTRUM_DATATYPE_CODE = 3U; ///<速度谱数据标识
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const int CONST_IMAGEGATHER_DATATYPE_CODE = 5U; ///<成像道集数据标识
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const int CONST_TIMEMIGRATION_DATATYPE_CODE = 6U; ///<偏移剖面数据标识
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const int CONST_REFLECTION_DENSITY_DATATYPE_CODE = 7U; ///<反射密度数据标识
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const int CONST_AVO_COMPREHENSIVE_AZIMUTH_P_PROPERTY_CODE = 8U; ///<AVO全方位方位角P属性数据标识
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const int CONST_AVO_COMPREHENSIVE_AZIMUTH_G_PROPERTY_CODE = 10U; ///<AVO全方位方位角G属性数据标识
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const int CONST_AVO_COMPREHENSIVE_AZIMUTH_C_PROPERTY_CODE = 11U; ///<AVO全方位方位角C属性数据标识
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const int CONST_AVO_COMPREHENSIVE_ANGLE_P_PROPERTY_CODE = 12U; ///<AVO全方位入射角P属性数据标识
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const int CONST_AVO_COMPREHENSIVE_ANGLE_G_PROPERTY_CODE = 13U; ///<AVO全方位入射角G属性数据标识
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const int CONST_AVO_COMPREHENSIVE_ANGLE_C_PROPERTY_CODE = 14U; ///<AVO全方位入射角C属性数据标识
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const int CONST_AVO_HALF_AZIMUTH_P_PROPERTY_CODE = 15U; ///<AVO半方位方位角P属性数据标识
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const int CONST_AVO_HALF_AZIMUTH_G_PROPERTY_CODE = 16U; ///<AVO半方位方位角G属性数据标识
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const int CONST_AVO_HALF_AZIMUTH_C_PROPERTY_CODE = 17U; ///<AVO半方位方位角C属性数据标识
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const int CONST_AVO_HALF_ANGLE_P_PROPERTY_CODE = 18U; ///<AVO半方位入射角P属性数据标识
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const int CONST_AVO_HALF_ANGLE_G_PROPERTY_CODE = 19U; ///<AVO半方位入射角G属性数据标识
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const int CONST_AVO_HALF_ANGLE_C_PROPERTY_CODE = 20U; ///<AVO半方位入射角C属性数据标识
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const int CONST_AVAZ_A1_PROPERTY_CODE = 21U; ///<AVAZ属性体A1属性数据标识
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const int CONST_AVAZ_V_PROPERTY_CODE = 22U; ///<AVAZ属性体V属性数据标识
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const int CONST_AVAZ_A2_PROPERTY_CODE = 23U; ///<AVAZ属性体A2属性数据标识
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const int CONST_AVAZ_Z_PROPERTY_CODE = 24U; ///<AVAZ属性体Z属性数据标识
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const int CONST_AZIMUTH_ILLUMINATION_GATHER_CODE = 25U; ///<方位角照明道集数据标识
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const int CONST_AZIMUTH_AZIMUTH_GATHER_CODE = 26U; ///<方位角度地震数据道集数据标识
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const int CONST_TIMEDEPTH_DATATYPE_CODE = 27U; ///<时深关系体数据标识
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const int CONST_SEISMODEL_DATATYPE_CODE = 28U; ///<模型属性数据标识
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const int CONST_NSVELMODEL_DATATYPE_CODE = 29U; ///<近地表速度模型标识
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const int CONST_THREE_COMPONENT_DATATYPE_XYZ_CODE=93U; ///<三分量数据标识
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const int CONST_THREE_COMPONENT_DATATYPE_X_CODE=931U; ///<三分量X分量数据标识
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const int CONST_THREE_COMPONENT_DATATYPE_Y_CODE=932U; ///<三分量Y分量数据标识
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const int CONST_THREE_COMPONENT_DATATYPE_Z_CODE=933U; ///<三分量Z分量数据标识
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const int CONST_SEISMIC_FILE_HEADER_UNASS = 404U; ///<原文件头保留字段位置
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const int CONST_SEISMIC_FILE_HEADER_EXTEND_UNASS = 1552U;
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const int CONST_SEISMIC_TRACE_HEADER_UNASS = 460U; ///<道头保留字段位置
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const int CONST_SEISMIC_FORMAT = 5U; ///<内部格式编码格式
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const int CONST_SPECTRUM_INFO_SIZE = 100U; ///<SpectrumInfo文件头除了 字段 (vector) m_ToH, m_Vlc之后的大小
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const int CONST_SEISMIC_DOMAIN_TIME = 0U; ///<数据为时间域
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const int CONST_SEISMIC_DOMAIN_DEPTH = 1U; ///<数据为深度域
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const int CONST_SEISMIC_TEXTUAL_HEADER_LENGTH = 3200U; ///<文本头长度
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const int CONST_SEISMIC_BIN_HEADER_LENGTH = 1436U; ///<二进制文件头长度
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const int CONST_SEISMIC_BIN_HEADER_LENGTH_NEW = 7040U; ///<二进制文件头新增字段长度
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const int CONST_SEISMIC_TRACE_HEADER_LENGTH = 1024U; ///<道头长度
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const int CONST_PAI_PROPERTY_LENGTH = 10240U; ///<属性文件长度
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const int CONST_TRACESNUMBER_ONCE_READ = 1000U; ///<默认一次读取道数
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const int CONST_TRACESNUMBER_ONCE_WRITE = 1000U; ///<默认一次写入道数
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//const int CONST_GATHER_MAX_NUMBER = 50000; //能获取最大道集道数 TODO 此参数于2013-12-2 移动到 pai.conf(HDFS_GATHER_BUFFER_SIZE)
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const int CONST_MULTIKEYS_TRACESORTCODE=0; ///<非常规道集类型时,TraceSortCode的值,默认0
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const int CONST_MULTIKEYS_IDXSORTINGCODE=10000; ///<非常规道集类型时,idxSortingCode的值,默认10000
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const std::string CONST_SEISMIC_FILE_HEADER_EXTENSION = ".hdr"; ///<文件头文件后缀
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const std::string CONST_SEISMIC_TRACE_HEADER_EXTENSION = ".info"; ///<道头文件后缀
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const std::string CONST_SEISMIC_TRACE_DATA_EXTENSION = ".dat"; ///<道数据文件后缀
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const std::string CONST_FILESYSTEM_SCHEME_HDFS = "hdfs"; ///<HDFS文件系统
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const std::string CONST_INDEX_FILE_SUFFIX = ".idx"; ///<索引文件后缀
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const std::string CONST_SEISMIC_HISTORY_EXTENSION = ".his"; ///<数据历史文件后缀
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const std::string CONST_PROPERTY_FILE_SUFFIX = ".property"; ///<属性信息文件后缀
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const std::string CONST_SPATIALPROPERTY_FILE_SUFFIX = ".SpatialProperty"; ///<空间属性文件后缀
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const std::string DB_ENCODING = "UTF8"; ///<数据库编码
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const std::string DEFAULT_INDEXFILEMAP_FILE = "DEFAULT_INDEXFILEMAP_FILE"; ///<索引映射文件
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//如果有中间索引和切片的临时文件
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const std::string CONST_SEISMIC_FILE_SPLIT_TMP_EXTENSION = ".split-tmp"; ///<切片临时文件
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const std::string CONST_SEISMIC_FILE_HEADER_TMP_EXTENSION = ".hdr-tmp"; ///<文件头临时文件
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const std::string CONST_SEISMIC_FILE_IDX_TMP_EXTENSION = ".idx-tmp"; ///<索引临时文件
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const std::string CONST_SEISMIC_FILE_LIST_EXTENSION_OLD = ".LIST"; ///<索引临时文件
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const std::string CONST_SEISMIC_FILE_DISTRIBUTION_EXTENSION_OLD = ".DISTRIBUTION"; ///<索引临时文件
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const std::string CONST_SEISMIC_FILE_LIST_EXTENSION = ".list"; ///<索引临时文件
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const std::string CONST_SEISMIC_FILE_DISTRIBUTION_EXTENSION = ".Distribution"; ///<索引临时文件
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const std::string CONST_PROPERTY_FILE_SUFFIX_TXT = ".property.txt"; ///<索引临时文件
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const std::string CONST_VEL_MODEL_NODE_PATH = "/Vel-Model"; ///<速度场在工区下的节点路径
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const std::string CONST_TMP = ".tmp"; ///<占位文件
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const std::string CONST_IDX_FINAL = ".idx-final"; ///<占位文件
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const std::string SPLIT_SUFFIX = ".split"; ///<占位文件
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/**目录分隔符号*/
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const char DIRECTORY_SEPARATOR = '/';
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const char INNER_SPLIT=',';
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//const std::string DOT =".";
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const char KEYS_SPLIT=';';
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const char KEY_SEPARATOR = '_';
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const std::string FILENAME_SUFFIX_SPERATOR = ".";
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//const std::string UNDERLINE="_";
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//const std::string DOT_SUFFIX=".split";
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//const std::string INLINE_XLINE="INLINE,XLINE";
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//const std::string XLINE_INLINE="XLINE,INLINE";
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//const std::string INLINE_XLINE="Inline_Num,Crossline_Num";
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//const std::string XLINE_INLINE="Crossline_Num,Inline_Num";
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//索引中存关键字数组的长度
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const int MAX_KEYWORD_LENGTH = 32; ///<索引中存关键字数组的长度
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//索引中存文件名的数据长度
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const int FILE_NAME_LENGTH = 512; ///<索引中存文件名的数据长度
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//时间换算单位, 系统中单位时间为微妙,需要除去此数
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const unsigned long long DIVISOR = 1000000; ///<时间换算单位, 系统中单位时间为微妙,需要除去此数
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//地震数据编码格式,文件头 m_DataFormat, 及采样值的编码格式
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const std::string CONST_SEISMIC_DATAFORMAT_IEEE = "IEEE"; ///<地震数据编码格式,文件头 m_DataFormat, 及采样值的编码格式“IEEE”
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const std::string CONST_SEISMIC_DATAFORMAT_IBM = "IBM"; ///<地震数据编码格式,文件头 m_DataFormat, 及采样值的编码格式“IBM”
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const std::string CONST_SEISMIC_DATAFORMAT_SHORTINT = "SHORT INT"; ///<地震数据编码格式,文件头 m_DataFormat, 及采样值的编码格式“SHORT INT”
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/**
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* @brief 数据类型
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* 数值将会写进数据库,添加类型时不要改变数值
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*/
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enum EDataType
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{
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DATA_TYPE_NULL = 0, ///<空
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DATA_TYPE_GATHER = 1, ///<道集数据
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DATA_TYPE_VELOCITY = 2, ///<速度模型数据
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DATA_TYPE_VEL_SPECTRUM = 3, ///<速度谱数据
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DATA_TYPE_VEL_SCAN = 7 ///<常速扫描数据
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};
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/**
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* @brief 数据的生成方式
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*/
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typedef enum
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{
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IMPORT_CREATE = 0, ///<导入数据
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WORKFLOW_CREATE = 1, ///<工作流数据
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GRID_VP_DEFINE_CREATE = 2, ///<网格速度对交互生成数据
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GRIDVELMODELING_CREATE = 3, ///<网格建模生成数据
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HORIZON_VP_DEFINE_CREATE = 4, ///<层位速度对交互生成数据
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LATERVELMODELING_CREATE = 5, ///<沿层建模生成数据
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DEFINE_ACTION = 6, ///<普通交互操作,如另存为的数据
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DEFAULT = -1 ///<默认类型
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} CREATE_TYPE;
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namespace pai
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{
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namespace ios
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{
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/**
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* @brief 数据种类
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* 顺序不能改变,即使改变顺序,编号也不可改变
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* 字符串标准为PAI统一标准经过和开发人员确定,字符串统一大写
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* 不属于数据,但是有属性信息 为了方便管理统一归类道一个枚举中
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* 1~100数据属性 ,101~200文件夹属性 ,200~300其他属性 UNKNOW位置类型,暂时保留用作界面初始化节点
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*/
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typedef enum
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{
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SEIS = 0, ///<地震数据,对应字符串 “SEISMIC”
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GEOMETRY = 1, ///<SPS数据,对应字符串 “SPS”
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GRID = 2, ///<Grid数据,对应字符串 “GRID”
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VELOCITY_MODEL = 3, ///<速度模型数据,对应字符串 “VELOCITYMODEL”
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VELOCITY_PAIR = 4, ///<速度对数据,对应字符串 “VELOCITYPAIR”
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FIRSTARRIVAL = 5, ///<初置数据,对应字符串 “FIRSTARRIVAL”
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MUTE = 6, ///<切除数据,对应字符串 “MUTE”
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TRACE_EDIT = 7, ///<道编辑数据,对应字符串 “TRACEEDIT”
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STATICS_COMPUTE= 8, ///<静校正计算数据,对应字符串 “STATICS”
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HORIZON = 9, ///<层位数据,对应字符串 “HORIZON”
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MODELING = 10,///<网格速度建模数据,对应字符串 “GRIDMODELING”
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LATERAL = 11,///<沿层速度建模数据,对应字符串 “LATERALMODELING”
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SPECTRUMDATA = 12,///<速度谱数据,对应字符串 “SPECTRUMDATA”
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SHOTPROPERTY = 13,///<炮属性信息数据,对应字符串 “SHOTPROPERTY”
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WORKFLOW = 14,///<工作流数据,对应字符串 “WORKFLOW”
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JOB = 15,///<作业数据,对应字符串 “JOB”
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JOBLOG = 16,///<作业日志数据,对应字符串 “JOBLOG”
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GRIDPROPERTY = 17,///<网格属性数据,对应字符串 “GRIDPROPERTY”
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//文件夹属性
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PROJECT_FOLDER = 101, ///<项目
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SURVEY_FOLDER = 102, ///<工区
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WORKFLOW_FOLDER = 103, ///<工作流
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SEISMICDATA_FOLDER = 104, ///<地震数据
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JOB_FOLDER = 105, ///<作业
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GRID_FOLDER = 106, ///<网格
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GEOMETRY_FOLDER = 107, ///<观测系统
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PARAMETERSET_FOLDER = 108, ///<交互数据
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FIRSTARRIVAL_FOLDER = 109, ///<道初至
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MUTE_FOLDER = 110, ///<道切除
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TRACEEDIT_FOLDER = 111, ///<道编辑
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STATICS_FOLDER = 112, ///<静校正量
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HORIZON_FOLDER = 113, ///<层位
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VELOCITY_FOLDER = 114, ///<速度数据
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VELPAIR_FOLDER = 115, ///<速度对
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VELMODEL_FOLDER = 116, ///<速度模型
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VELANA_FOLDER = 117, ///<速度谱
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MODELING_FOLDER = 118, ///<速度建模
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ATTRIBUTE_FOLDER = 119, ///<炮属性
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//其他属性
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OPER = 201,///<数据历史操作
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UNKNOW ///<未知数据类型
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}DATA_TYPE;
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const std::string CONST_DATATYPE_SEISMIC = "SEISMIC"; ///<对应DATA_TYPE中的数字 0
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const std::string CONST_DATATYPE_GEOMETRY = "SPS"; ///<对应DATA_TYPE中的数字 1
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const std::string CONST_DATATYPE_GRID = "GRID"; ///<对应DATA_TYPE中的数字 2
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const std::string CONST_DATATYPE_VELOCITY_MODEL = "VELOCITYMODEL"; ///<对应DATA_TYPE中的数字 3
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const std::string CONST_DATATYPE_VELOCITY_PAIR = "VELOCITYPAIR"; ///<对应DATA_TYPE中的数字 4
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const std::string CONST_DATATYPE_FIRSTARRIVAL = "FIRSTARRIVAL"; ///<对应DATA_TYPE中的数字 5
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const std::string CONST_DATATYPE_MUTE = "MUTE"; ///<对应DATA_TYPE中的数字 6
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const std::string CONST_DATATYPE_TRACE_EDIT = "TRACEEDIT"; ///<对应DATA_TYPE中的数字 7
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const std::string CONST_DATATYPE_STATICS_COMPUTE = "STATICS"; ///<对应DATA_TYPE中的数字 8
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const std::string CONST_DATATYPE_HORIZON = "HORIZON"; ///<对应DATA_TYPE中的数字 9
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const std::string CONST_DATATYPE_GRIDMODELING = "MODELING"; ///<对应DATA_TYPE中的数字 10
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const std::string CONST_DATATYPE_LATERALMODELING = "LATERAL"; ///<对应DATA_TYPE中的数字 11
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const std::string CONST_DATATYPE_SPECTRUMDATA = "SPECTRUMDATA"; ///<对应DATA_TYPE中的数字 12
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const std::string CONST_DATATYPE_SHOTPROPERTY = "SHOTPROPERTY"; ///<对应DATA_TYPE中的数字 13
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const std::string CONST_DATATYPE_WORKFLOW = "WORKFLOW"; ///<对应DATA_TYPE中的数字 14
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const std::string CONST_DATATYPE_JOB = "JOB"; ///<对应DATA_TYPE中的数字 15
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const std::string CONST_DATATYPE_JOBLOG = "JOBLOG"; ///<对应DATA_TYPE中的数字 16
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const std::string CONST_DATATYPE_GRIDPROPERTY = "GRIDPROPERTY"; ///<对应DATA_TYPE中的数字 17
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/**
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* @brief 数据存储方式
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*/
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typedef enum
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{
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HDFS = 1, ///<存储于HDFS
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DB, ///<存储于数据库
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HDFS_DB ///<存储于
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}STORE_TYPE;
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/**
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* @brief 数据库中数据状态
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*/
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typedef enum
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{
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INVALID, ///<无效(处理中)
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VALID, ///<有效(处理完成)
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REMOVED, ///<已经删除(LAZYDELETE)
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}STATE;
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/**
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* @brief 数据类型转字符串
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* @param[in] type, 数据类型
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* @return 对应的字符串
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*/
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std::string PAI_IOSERVICE_EXPORT DataTypeToString (const DATA_TYPE type);
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/**
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* @brief 字符串转数据类型
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* @param[in] string, 字符串
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* @return 对应的数据类型
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*/
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DATA_TYPE PAI_IOSERVICE_EXPORT StringToDataType (const std::string & str);
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/**
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* @brief 获取存储类型
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* @param[in] type, 数据类型
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* @return 对应的存储类型
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*/
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STORE_TYPE PAI_IOSERVICE_EXPORT GetStoreType(const DATA_TYPE type);
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/**
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* @brief 道头字段
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*/
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const std::string strTraceHeader[] = {
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"FFID", ///<0
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"Channel_Num", ///<1
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"Shot_Num", ///<2
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"Inline_Num", ///<3
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"Crossline_Num", ///<4
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"Station_Num_CMP", ///<5
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"CMP_Num", ///<6
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"Trace_Num", ///<7
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"Offset", ///<8
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"Elev_Source", ///<9
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"Elev_Receiver", ///<10
|
||
"Elev_CMP", ///<11
|
||
"Elev_Datum_Source", ///<12
|
||
"Elev_Datum_Receiver", ///<13
|
||
"Elev_CMP-Datum", ///<14
|
||
"Depth_Source", ///<15
|
||
"Water_Depth_Source", ///<16
|
||
"Water_Depth_Receiver", ///<17
|
||
"Uphole_Time_Source", ///<18
|
||
"Uphole_Time_Receiver", ///<19
|
||
|
||
"Weath_Velocity", ///<20
|
||
"SubWeath_Velocity", ///<21
|
||
"Statics_Source", ///<22
|
||
"Statics_Receiver", ///<23
|
||
"Statics_Total_App", ///<24
|
||
"Statics_CMP", ///<25
|
||
"Statics_CMP_App", ///<26
|
||
"Statics_Hi_Receiver", ///<27
|
||
"Statics_Hi_Receiver_App", ///<28
|
||
"Statics_Hi_Source", ///<29
|
||
|
||
"Statics_Hi_Source_App", ///<30
|
||
"XCoord_Source", ///<31
|
||
"YCoord_Source", ///<32
|
||
"XCoord_Receiver", ///<33
|
||
"YCoord_Receiver", ///<34
|
||
"XCoord_CMP", ///<35
|
||
"YCoord_CMP", ///<36
|
||
"Source_Line", ///<37
|
||
"Point_Num_Source", ///<38
|
||
"Station_Num_Source", ///<39
|
||
|
||
"Source_Point_Index", ///<40
|
||
"Source_Point_Code", ///<41
|
||
"Statics_Source_Field", ///<42
|
||
"Source_Time", ///<43
|
||
"Receiver_Line", ///<44
|
||
"Point_Num_Receiver", ///<45
|
||
"Station_Num_Receiver", ///<46
|
||
"Receiver_Point_Index", ///<47
|
||
"Receiver_Point_Code", ///<48
|
||
"Statics_Receiver_Field", ///<49
|
||
|
||
"Receiver_Time", ///<50
|
||
"Field_Tape_Num", ///<51
|
||
"FFID_Inc", ///<52
|
||
"Instrument Code", ///<53
|
||
"Max_Amp_Trace", ///<54
|
||
"Min_Amp_Trace", ///<55
|
||
"Samp_Num_Trace", ///<56
|
||
"Samp_Int_Trace", ///<57
|
||
"Spread_Flag", ///<58
|
||
"Line_Int", ///<59
|
||
|
||
"TraceInterval", ///<60
|
||
"Mute_Time_S", ///<61
|
||
"Mute_Time_E", ///<62
|
||
"VS_Num", ///<63
|
||
"Fold", ///<64
|
||
"Lag_Time_A", ///<65
|
||
"Lag_Time_B", ///<66
|
||
"Delay_Time", ///<67
|
||
"Unit_Coord", ///<68
|
||
"Shot_Num_NE", ///<69
|
||
|
||
"Trace_Seque_Line", ///<70
|
||
"Trace_Seque_Uniform", ///<71
|
||
"Trace_Code", ///<72
|
||
"Data_Use", ///<73
|
||
"Gain_Type", ///<74
|
||
"Instrument_Gain_Const", ///<75
|
||
"Instrument_Gain_Ini", ///<76
|
||
"Correlated", ///<77
|
||
"Sweep_Freq_Start_Trace", ///<78
|
||
"Sweep_Freq_End_Trace", ///<79
|
||
|
||
"Sweep_Length_Tracc", ///<80
|
||
"Sweep_Type_Trace", ///<81
|
||
"Sweep_Taper_Start_Trace", ///<82
|
||
"Sweep_Taper_End_Trace", ///<83
|
||
"Taper_Type_Trace", ///<84
|
||
"Station_Num_CMP", ///<85
|
||
"Notch_Freq", ///<86
|
||
"Trace_Num", ///<87
|
||
"Notch_Slope", ///<88
|
||
"Low_Cut_Freq", ///<89
|
||
|
||
"High_Cut_Freq", ///<90
|
||
"Low_Cut_Slope", ///<91
|
||
"High_Cut_Slope", ///<92
|
||
"Year", ///<93
|
||
"Day", ///<94
|
||
"Hour", ///<95
|
||
"Minute", ///<96
|
||
"Second", ///<97
|
||
"Time_Basis", ///<98
|
||
"Trace_Weight_Factor", ///<99
|
||
|
||
"GeoGroup_Roll-Switch-One", ///<100
|
||
"GeoGroup_First-Trc_Field", ///<101
|
||
"GeoGroup_Last-Trc_Field", ///<102
|
||
"Gap_Size", ///<103
|
||
"Over_Travel", ///<104
|
||
"Trace_Measure_Unit", ///<105
|
||
"Trans_Const", ///<106
|
||
"Trans_Const_Pow", ///<107
|
||
"Trans_Unit", ///<108
|
||
"Device_ID", ///<109
|
||
|
||
"Source_Type", ///<110
|
||
"OrientationDirection", ///<111
|
||
"EnergyDirection", ///<112
|
||
"Source_Measure_Mantissa", ///<113
|
||
"Source_Measure_Pow", ///<114
|
||
"Source_Measure_Unit", ///<115
|
||
"XCoord_Midpoint", ///<116
|
||
"YCoord_Midpoint", ///<117
|
||
"Depth_Receiver", ///<118
|
||
"Statics_Source_Resid", ///<119
|
||
|
||
"Statics_Receiver_Resid", ///<120
|
||
"Statics_Source_Resid_App", ///<121
|
||
"Statics_Receiver_Resid_App" ///<122
|
||
"Azimuth" ///<123
|
||
"Angle" ///<124
|
||
};
|
||
|
||
|
||
/**
|
||
* @brief 通过排序关键字编号获取排序关键字名称
|
||
* @param[in] key 排序关键字编号
|
||
* @return 返回排序关键字名称
|
||
*/
|
||
std::string SortKeyNumToStr(int key);
|
||
|
||
/**
|
||
* @brief 通过排序关键字名称获取排序关键字编号
|
||
* @param[in] key 排序关键字名称
|
||
* @return 返回排序关键字编号
|
||
*/
|
||
int SortKeyStrToNum(std::string &key);
|
||
|
||
|
||
}
|
||
}
|
||
|
||
const std::string HBASE_FILENAME_MANAGE_TABLE = "HBASE0FILENAME0MANAGE0TABLE"; //HBase 文件名管理 ///<占位文件
|
||
|
||
#endif
|