/** * Autogenerated by Thrift Compiler (0.8.0) * * DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING * @generated */ #ifndef cassandra_TYPES_H #define cassandra_TYPES_H #include #include #include #include #include #include namespace org { namespace apache { namespace cassandra { struct ConsistencyLevel { enum type { ONE = 1, QUORUM = 2, LOCAL_QUORUM = 3, EACH_QUORUM = 4, ALL = 5, ANY = 6, TWO = 7, THREE = 8 }; }; extern const std::map _ConsistencyLevel_VALUES_TO_NAMES; struct IndexOperator { enum type { EQ = 0, GTE = 1, GT = 2, LTE = 3, LT = 4 }; }; extern const std::map _IndexOperator_VALUES_TO_NAMES; struct IndexType { enum type { KEYS = 0, CUSTOM = 1 }; }; extern const std::map _IndexType_VALUES_TO_NAMES; struct Compression { enum type { GZIP = 1, NONE = 2 }; }; extern const std::map _Compression_VALUES_TO_NAMES; struct CqlResultType { enum type { ROWS = 1, VOID = 2, INT = 3 }; }; extern const std::map _CqlResultType_VALUES_TO_NAMES; typedef struct _Column__isset { _Column__isset() : value(false), timestamp(false), ttl(false) {} bool value; bool timestamp; bool ttl; } _Column__isset; class Column { public: static const char* ascii_fingerprint; // = "3EE0E1C5C844001B62F08125068292CC"; static const uint8_t binary_fingerprint[16]; // = {0x3E,0xE0,0xE1,0xC5,0xC8,0x44,0x00,0x1B,0x62,0xF0,0x81,0x25,0x06,0x82,0x92,0xCC}; Column() : name(""), value(""), timestamp(0), ttl(0) { } virtual ~Column() throw() {} std::string name; std::string value; int64_t timestamp; int32_t ttl; _Column__isset __isset; void __set_name(const std::string& val) { name = val; } void __set_value(const std::string& val) { value = val; __isset.value = true; } void __set_timestamp(const int64_t val) { timestamp = val; __isset.timestamp = true; } void __set_ttl(const int32_t val) { ttl = val; __isset.ttl = true; } bool operator == (const Column & rhs) const { if (!(name == rhs.name)) return false; if (__isset.value != rhs.__isset.value) return false; else if (__isset.value && !(value == rhs.value)) return false; if (__isset.timestamp != rhs.__isset.timestamp) return false; else if (__isset.timestamp && !(timestamp == rhs.timestamp)) return false; if (__isset.ttl != rhs.__isset.ttl) return false; else if (__isset.ttl && !(ttl == rhs.ttl)) return false; return true; } bool operator != (const Column &rhs) const { return !(*this == rhs); } bool operator < (const Column & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class SuperColumn { public: static const char* ascii_fingerprint; // = "470EFC558004E98D92D604898305C04E"; static const uint8_t binary_fingerprint[16]; // = {0x47,0x0E,0xFC,0x55,0x80,0x04,0xE9,0x8D,0x92,0xD6,0x04,0x89,0x83,0x05,0xC0,0x4E}; SuperColumn() : name("") { } virtual ~SuperColumn() throw() {} std::string name; std::vector columns; void __set_name(const std::string& val) { name = val; } void __set_columns(const std::vector & val) { columns = val; } bool operator == (const SuperColumn & rhs) const { if (!(name == rhs.name)) return false; if (!(columns == rhs.columns)) return false; return true; } bool operator != (const SuperColumn &rhs) const { return !(*this == rhs); } bool operator < (const SuperColumn & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class CounterColumn { public: static const char* ascii_fingerprint; // = "1CCCF6FC31CFD1D61BBBB1BAF3590620"; static const uint8_t binary_fingerprint[16]; // = {0x1C,0xCC,0xF6,0xFC,0x31,0xCF,0xD1,0xD6,0x1B,0xBB,0xB1,0xBA,0xF3,0x59,0x06,0x20}; CounterColumn() : name(""), value(0) { } virtual ~CounterColumn() throw() {} std::string name; int64_t value; void __set_name(const std::string& val) { name = val; } void __set_value(const int64_t val) { value = val; } bool operator == (const CounterColumn & rhs) const { if (!(name == rhs.name)) return false; if (!(value == rhs.value)) return false; return true; } bool operator != (const CounterColumn &rhs) const { return !(*this == rhs); } bool operator < (const CounterColumn & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class CounterSuperColumn { public: static const char* ascii_fingerprint; // = "CD4C8C4BF7753E46DE417CDE369343A4"; static const uint8_t binary_fingerprint[16]; // = {0xCD,0x4C,0x8C,0x4B,0xF7,0x75,0x3E,0x46,0xDE,0x41,0x7C,0xDE,0x36,0x93,0x43,0xA4}; CounterSuperColumn() : name("") { } virtual ~CounterSuperColumn() throw() {} std::string name; std::vector columns; void __set_name(const std::string& val) { name = val; } void __set_columns(const std::vector & val) { columns = val; } bool operator == (const CounterSuperColumn & rhs) const { if (!(name == rhs.name)) return false; if (!(columns == rhs.columns)) return false; return true; } bool operator != (const CounterSuperColumn &rhs) const { return !(*this == rhs); } bool operator < (const CounterSuperColumn & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _ColumnOrSuperColumn__isset { _ColumnOrSuperColumn__isset() : column(false), super_column(false), counter_column(false), counter_super_column(false) {} bool column; bool super_column; bool counter_column; bool counter_super_column; } _ColumnOrSuperColumn__isset; class ColumnOrSuperColumn { public: static const char* ascii_fingerprint; // = "2B34AC9E80F1DAA3A2A63B1AB1841E61"; static const uint8_t binary_fingerprint[16]; // = {0x2B,0x34,0xAC,0x9E,0x80,0xF1,0xDA,0xA3,0xA2,0xA6,0x3B,0x1A,0xB1,0x84,0x1E,0x61}; ColumnOrSuperColumn() { } virtual ~ColumnOrSuperColumn() throw() {} Column column; SuperColumn super_column; CounterColumn counter_column; CounterSuperColumn counter_super_column; _ColumnOrSuperColumn__isset __isset; void __set_column(const Column& val) { column = val; __isset.column = true; } void __set_super_column(const SuperColumn& val) { super_column = val; __isset.super_column = true; } void __set_counter_column(const CounterColumn& val) { counter_column = val; __isset.counter_column = true; } void __set_counter_super_column(const CounterSuperColumn& val) { counter_super_column = val; __isset.counter_super_column = true; } bool operator == (const ColumnOrSuperColumn & rhs) const { if (__isset.column != rhs.__isset.column) return false; else if (__isset.column && !(column == rhs.column)) return false; if (__isset.super_column != rhs.__isset.super_column) return false; else if (__isset.super_column && !(super_column == rhs.super_column)) return false; if (__isset.counter_column != rhs.__isset.counter_column) return false; else if (__isset.counter_column && !(counter_column == rhs.counter_column)) return false; if (__isset.counter_super_column != rhs.__isset.counter_super_column) return false; else if (__isset.counter_super_column && !(counter_super_column == rhs.counter_super_column)) return false; return true; } bool operator != (const ColumnOrSuperColumn &rhs) const { return !(*this == rhs); } bool operator < (const ColumnOrSuperColumn & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class NotFoundException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "99914B932BD37A50B983C5E7C90AE93B"; static const uint8_t binary_fingerprint[16]; // = {0x99,0x91,0x4B,0x93,0x2B,0xD3,0x7A,0x50,0xB9,0x83,0xC5,0xE7,0xC9,0x0A,0xE9,0x3B}; NotFoundException() { } virtual ~NotFoundException() throw() {} bool operator == (const NotFoundException & /* rhs */) const { return true; } bool operator != (const NotFoundException &rhs) const { return !(*this == rhs); } bool operator < (const NotFoundException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class InvalidRequestException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "EFB929595D312AC8F305D5A794CFEDA1"; static const uint8_t binary_fingerprint[16]; // = {0xEF,0xB9,0x29,0x59,0x5D,0x31,0x2A,0xC8,0xF3,0x05,0xD5,0xA7,0x94,0xCF,0xED,0xA1}; InvalidRequestException() : why("") { } virtual ~InvalidRequestException() throw() {} std::string why; void __set_why(const std::string& val) { why = val; } bool operator == (const InvalidRequestException & rhs) const { if (!(why == rhs.why)) return false; return true; } bool operator != (const InvalidRequestException &rhs) const { return !(*this == rhs); } bool operator < (const InvalidRequestException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class UnavailableException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "99914B932BD37A50B983C5E7C90AE93B"; static const uint8_t binary_fingerprint[16]; // = {0x99,0x91,0x4B,0x93,0x2B,0xD3,0x7A,0x50,0xB9,0x83,0xC5,0xE7,0xC9,0x0A,0xE9,0x3B}; UnavailableException() { } virtual ~UnavailableException() throw() {} bool operator == (const UnavailableException & /* rhs */) const { return true; } bool operator != (const UnavailableException &rhs) const { return !(*this == rhs); } bool operator < (const UnavailableException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class TimedOutException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "99914B932BD37A50B983C5E7C90AE93B"; static const uint8_t binary_fingerprint[16]; // = {0x99,0x91,0x4B,0x93,0x2B,0xD3,0x7A,0x50,0xB9,0x83,0xC5,0xE7,0xC9,0x0A,0xE9,0x3B}; TimedOutException() { } virtual ~TimedOutException() throw() {} bool operator == (const TimedOutException & /* rhs */) const { return true; } bool operator != (const TimedOutException &rhs) const { return !(*this == rhs); } bool operator < (const TimedOutException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class AuthenticationException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "EFB929595D312AC8F305D5A794CFEDA1"; static const uint8_t binary_fingerprint[16]; // = {0xEF,0xB9,0x29,0x59,0x5D,0x31,0x2A,0xC8,0xF3,0x05,0xD5,0xA7,0x94,0xCF,0xED,0xA1}; AuthenticationException() : why("") { } virtual ~AuthenticationException() throw() {} std::string why; void __set_why(const std::string& val) { why = val; } bool operator == (const AuthenticationException & rhs) const { if (!(why == rhs.why)) return false; return true; } bool operator != (const AuthenticationException &rhs) const { return !(*this == rhs); } bool operator < (const AuthenticationException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class AuthorizationException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "EFB929595D312AC8F305D5A794CFEDA1"; static const uint8_t binary_fingerprint[16]; // = {0xEF,0xB9,0x29,0x59,0x5D,0x31,0x2A,0xC8,0xF3,0x05,0xD5,0xA7,0x94,0xCF,0xED,0xA1}; AuthorizationException() : why("") { } virtual ~AuthorizationException() throw() {} std::string why; void __set_why(const std::string& val) { why = val; } bool operator == (const AuthorizationException & rhs) const { if (!(why == rhs.why)) return false; return true; } bool operator != (const AuthorizationException &rhs) const { return !(*this == rhs); } bool operator < (const AuthorizationException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class SchemaDisagreementException : public ::apache::thrift::TException { public: static const char* ascii_fingerprint; // = "99914B932BD37A50B983C5E7C90AE93B"; static const uint8_t binary_fingerprint[16]; // = {0x99,0x91,0x4B,0x93,0x2B,0xD3,0x7A,0x50,0xB9,0x83,0xC5,0xE7,0xC9,0x0A,0xE9,0x3B}; SchemaDisagreementException() { } virtual ~SchemaDisagreementException() throw() {} bool operator == (const SchemaDisagreementException & /* rhs */) const { return true; } bool operator != (const SchemaDisagreementException &rhs) const { return !(*this == rhs); } bool operator < (const SchemaDisagreementException & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _ColumnParent__isset { _ColumnParent__isset() : super_column(false) {} bool super_column; } _ColumnParent__isset; class ColumnParent { public: static const char* ascii_fingerprint; // = "0A13AE61181713A4100DFFB3EC293822"; static const uint8_t binary_fingerprint[16]; // = {0x0A,0x13,0xAE,0x61,0x18,0x17,0x13,0xA4,0x10,0x0D,0xFF,0xB3,0xEC,0x29,0x38,0x22}; ColumnParent() : column_family(""), super_column("") { } virtual ~ColumnParent() throw() {} std::string column_family; std::string super_column; _ColumnParent__isset __isset; void __set_column_family(const std::string& val) { column_family = val; } void __set_super_column(const std::string& val) { super_column = val; __isset.super_column = true; } bool operator == (const ColumnParent & rhs) const { if (!(column_family == rhs.column_family)) return false; if (__isset.super_column != rhs.__isset.super_column) return false; else if (__isset.super_column && !(super_column == rhs.super_column)) return false; return true; } bool operator != (const ColumnParent &rhs) const { return !(*this == rhs); } bool operator < (const ColumnParent & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _ColumnPath__isset { _ColumnPath__isset() : super_column(false), column(false) {} bool super_column; bool column; } _ColumnPath__isset; class ColumnPath { public: static const char* ascii_fingerprint; // = "606212895BCF63C757913CF35AEB3462"; static const uint8_t binary_fingerprint[16]; // = {0x60,0x62,0x12,0x89,0x5B,0xCF,0x63,0xC7,0x57,0x91,0x3C,0xF3,0x5A,0xEB,0x34,0x62}; ColumnPath() : column_family(""), super_column(""), column("") { } virtual ~ColumnPath() throw() {} std::string column_family; std::string super_column; std::string column; _ColumnPath__isset __isset; void __set_column_family(const std::string& val) { column_family = val; } void __set_super_column(const std::string& val) { super_column = val; __isset.super_column = true; } void __set_column(const std::string& val) { column = val; __isset.column = true; } bool operator == (const ColumnPath & rhs) const { if (!(column_family == rhs.column_family)) return false; if (__isset.super_column != rhs.__isset.super_column) return false; else if (__isset.super_column && !(super_column == rhs.super_column)) return false; if (__isset.column != rhs.__isset.column) return false; else if (__isset.column && !(column == rhs.column)) return false; return true; } bool operator != (const ColumnPath &rhs) const { return !(*this == rhs); } bool operator < (const ColumnPath & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class SliceRange { public: static const char* ascii_fingerprint; // = "184D24C9A0B8D4415E234DB649CAE740"; static const uint8_t binary_fingerprint[16]; // = {0x18,0x4D,0x24,0xC9,0xA0,0xB8,0xD4,0x41,0x5E,0x23,0x4D,0xB6,0x49,0xCA,0xE7,0x40}; SliceRange() : start(""), finish(""), reversed(false), count(100) { } virtual ~SliceRange() throw() {} std::string start; std::string finish; bool reversed; int32_t count; void __set_start(const std::string& val) { start = val; } void __set_finish(const std::string& val) { finish = val; } void __set_reversed(const bool val) { reversed = val; } void __set_count(const int32_t val) { count = val; } bool operator == (const SliceRange & rhs) const { if (!(start == rhs.start)) return false; if (!(finish == rhs.finish)) return false; if (!(reversed == rhs.reversed)) return false; if (!(count == rhs.count)) return false; return true; } bool operator != (const SliceRange &rhs) const { return !(*this == rhs); } bool operator < (const SliceRange & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _SlicePredicate__isset { _SlicePredicate__isset() : column_names(false), slice_range(false) {} bool column_names; bool slice_range; } _SlicePredicate__isset; class SlicePredicate { public: static const char* ascii_fingerprint; // = "F59D1D81C17DFFAF09988BF1C9CE5E27"; static const uint8_t binary_fingerprint[16]; // = {0xF5,0x9D,0x1D,0x81,0xC1,0x7D,0xFF,0xAF,0x09,0x98,0x8B,0xF1,0xC9,0xCE,0x5E,0x27}; SlicePredicate() { } virtual ~SlicePredicate() throw() {} std::vector column_names; SliceRange slice_range; _SlicePredicate__isset __isset; void __set_column_names(const std::vector & val) { column_names = val; __isset.column_names = true; } void __set_slice_range(const SliceRange& val) { slice_range = val; __isset.slice_range = true; } bool operator == (const SlicePredicate & rhs) const { if (__isset.column_names != rhs.__isset.column_names) return false; else if (__isset.column_names && !(column_names == rhs.column_names)) return false; if (__isset.slice_range != rhs.__isset.slice_range) return false; else if (__isset.slice_range && !(slice_range == rhs.slice_range)) return false; return true; } bool operator != (const SlicePredicate &rhs) const { return !(*this == rhs); } bool operator < (const SlicePredicate & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class IndexExpression { public: static const char* ascii_fingerprint; // = "D9F4CFE2F293A8B1052FD3031DD2C847"; static const uint8_t binary_fingerprint[16]; // = {0xD9,0xF4,0xCF,0xE2,0xF2,0x93,0xA8,0xB1,0x05,0x2F,0xD3,0x03,0x1D,0xD2,0xC8,0x47}; IndexExpression() : column_name(""), op((IndexOperator::type)0), value("") { } virtual ~IndexExpression() throw() {} std::string column_name; IndexOperator::type op; std::string value; void __set_column_name(const std::string& val) { column_name = val; } void __set_op(const IndexOperator::type val) { op = val; } void __set_value(const std::string& val) { value = val; } bool operator == (const IndexExpression & rhs) const { if (!(column_name == rhs.column_name)) return false; if (!(op == rhs.op)) return false; if (!(value == rhs.value)) return false; return true; } bool operator != (const IndexExpression &rhs) const { return !(*this == rhs); } bool operator < (const IndexExpression & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class IndexClause { public: static const char* ascii_fingerprint; // = "9B551B9AB86120B0EEA9005C77FD3C1F"; static const uint8_t binary_fingerprint[16]; // = {0x9B,0x55,0x1B,0x9A,0xB8,0x61,0x20,0xB0,0xEE,0xA9,0x00,0x5C,0x77,0xFD,0x3C,0x1F}; IndexClause() : start_key(""), count(100) { } virtual ~IndexClause() throw() {} std::vector expressions; std::string start_key; int32_t count; void __set_expressions(const std::vector & val) { expressions = val; } void __set_start_key(const std::string& val) { start_key = val; } void __set_count(const int32_t val) { count = val; } bool operator == (const IndexClause & rhs) const { if (!(expressions == rhs.expressions)) return false; if (!(start_key == rhs.start_key)) return false; if (!(count == rhs.count)) return false; return true; } bool operator != (const IndexClause &rhs) const { return !(*this == rhs); } bool operator < (const IndexClause & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _KeyRange__isset { _KeyRange__isset() : start_key(false), end_key(false), start_token(false), end_token(false), row_filter(false) {} bool start_key; bool end_key; bool start_token; bool end_token; bool row_filter; } _KeyRange__isset; class KeyRange { public: static const char* ascii_fingerprint; // = "A6EC82FA0980B91C7C8EB013C61CA1B0"; static const uint8_t binary_fingerprint[16]; // = {0xA6,0xEC,0x82,0xFA,0x09,0x80,0xB9,0x1C,0x7C,0x8E,0xB0,0x13,0xC6,0x1C,0xA1,0xB0}; KeyRange() : start_key(""), end_key(""), start_token(""), end_token(""), count(100) { } virtual ~KeyRange() throw() {} std::string start_key; std::string end_key; std::string start_token; std::string end_token; std::vector row_filter; int32_t count; _KeyRange__isset __isset; void __set_start_key(const std::string& val) { start_key = val; __isset.start_key = true; } void __set_end_key(const std::string& val) { end_key = val; __isset.end_key = true; } void __set_start_token(const std::string& val) { start_token = val; __isset.start_token = true; } void __set_end_token(const std::string& val) { end_token = val; __isset.end_token = true; } void __set_row_filter(const std::vector & val) { row_filter = val; __isset.row_filter = true; } void __set_count(const int32_t val) { count = val; } bool operator == (const KeyRange & rhs) const { if (__isset.start_key != rhs.__isset.start_key) return false; else if (__isset.start_key && !(start_key == rhs.start_key)) return false; if (__isset.end_key != rhs.__isset.end_key) return false; else if (__isset.end_key && !(end_key == rhs.end_key)) return false; if (__isset.start_token != rhs.__isset.start_token) return false; else if (__isset.start_token && !(start_token == rhs.start_token)) return false; if (__isset.end_token != rhs.__isset.end_token) return false; else if (__isset.end_token && !(end_token == rhs.end_token)) return false; if (__isset.row_filter != rhs.__isset.row_filter) return false; else if (__isset.row_filter && !(row_filter == rhs.row_filter)) return false; if (!(count == rhs.count)) return false; return true; } bool operator != (const KeyRange &rhs) const { return !(*this == rhs); } bool operator < (const KeyRange & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class KeySlice { public: static const char* ascii_fingerprint; // = "D1568675B0C135C909E3169B72A4DA3D"; static const uint8_t binary_fingerprint[16]; // = {0xD1,0x56,0x86,0x75,0xB0,0xC1,0x35,0xC9,0x09,0xE3,0x16,0x9B,0x72,0xA4,0xDA,0x3D}; KeySlice() : key("") { } virtual ~KeySlice() throw() {} std::string key; std::vector columns; void __set_key(const std::string& val) { key = val; } void __set_columns(const std::vector & val) { columns = val; } bool operator == (const KeySlice & rhs) const { if (!(key == rhs.key)) return false; if (!(columns == rhs.columns)) return false; return true; } bool operator != (const KeySlice &rhs) const { return !(*this == rhs); } bool operator < (const KeySlice & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class KeyCount { public: static const char* ascii_fingerprint; // = "EEBC915CE44901401D881E6091423036"; static const uint8_t binary_fingerprint[16]; // = {0xEE,0xBC,0x91,0x5C,0xE4,0x49,0x01,0x40,0x1D,0x88,0x1E,0x60,0x91,0x42,0x30,0x36}; KeyCount() : key(""), count(0) { } virtual ~KeyCount() throw() {} std::string key; int32_t count; void __set_key(const std::string& val) { key = val; } void __set_count(const int32_t val) { count = val; } bool operator == (const KeyCount & rhs) const { if (!(key == rhs.key)) return false; if (!(count == rhs.count)) return false; return true; } bool operator != (const KeyCount &rhs) const { return !(*this == rhs); } bool operator < (const KeyCount & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _Deletion__isset { _Deletion__isset() : timestamp(false), super_column(false), predicate(false) {} bool timestamp; bool super_column; bool predicate; } _Deletion__isset; class Deletion { public: static const char* ascii_fingerprint; // = "40F33ECF1C932CA77C2414C4E6C60CBE"; static const uint8_t binary_fingerprint[16]; // = {0x40,0xF3,0x3E,0xCF,0x1C,0x93,0x2C,0xA7,0x7C,0x24,0x14,0xC4,0xE6,0xC6,0x0C,0xBE}; Deletion() : timestamp(0), super_column("") { } virtual ~Deletion() throw() {} int64_t timestamp; std::string super_column; SlicePredicate predicate; _Deletion__isset __isset; void __set_timestamp(const int64_t val) { timestamp = val; __isset.timestamp = true; } void __set_super_column(const std::string& val) { super_column = val; __isset.super_column = true; } void __set_predicate(const SlicePredicate& val) { predicate = val; __isset.predicate = true; } bool operator == (const Deletion & rhs) const { if (__isset.timestamp != rhs.__isset.timestamp) return false; else if (__isset.timestamp && !(timestamp == rhs.timestamp)) return false; if (__isset.super_column != rhs.__isset.super_column) return false; else if (__isset.super_column && !(super_column == rhs.super_column)) return false; if (__isset.predicate != rhs.__isset.predicate) return false; else if (__isset.predicate && !(predicate == rhs.predicate)) return false; return true; } bool operator != (const Deletion &rhs) const { return !(*this == rhs); } bool operator < (const Deletion & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _Mutation__isset { _Mutation__isset() : column_or_supercolumn(false), deletion(false) {} bool column_or_supercolumn; bool deletion; } _Mutation__isset; class Mutation { public: static const char* ascii_fingerprint; // = "E8B65DF3979C6868F80DF81F8E769E63"; static const uint8_t binary_fingerprint[16]; // = {0xE8,0xB6,0x5D,0xF3,0x97,0x9C,0x68,0x68,0xF8,0x0D,0xF8,0x1F,0x8E,0x76,0x9E,0x63}; Mutation() { } virtual ~Mutation() throw() {} ColumnOrSuperColumn column_or_supercolumn; Deletion deletion; _Mutation__isset __isset; void __set_column_or_supercolumn(const ColumnOrSuperColumn& val) { column_or_supercolumn = val; __isset.column_or_supercolumn = true; } void __set_deletion(const Deletion& val) { deletion = val; __isset.deletion = true; } bool operator == (const Mutation & rhs) const { if (__isset.column_or_supercolumn != rhs.__isset.column_or_supercolumn) return false; else if (__isset.column_or_supercolumn && !(column_or_supercolumn == rhs.column_or_supercolumn)) return false; if (__isset.deletion != rhs.__isset.deletion) return false; else if (__isset.deletion && !(deletion == rhs.deletion)) return false; return true; } bool operator != (const Mutation &rhs) const { return !(*this == rhs); } bool operator < (const Mutation & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _EndpointDetails__isset { _EndpointDetails__isset() : host(false), datacenter(false), rack(false) {} bool host; bool datacenter; bool rack; } _EndpointDetails__isset; class EndpointDetails { public: static const char* ascii_fingerprint; // = "F4A50F0EC638C7F66026F9B6678FD89B"; static const uint8_t binary_fingerprint[16]; // = {0xF4,0xA5,0x0F,0x0E,0xC6,0x38,0xC7,0xF6,0x60,0x26,0xF9,0xB6,0x67,0x8F,0xD8,0x9B}; EndpointDetails() : host(""), datacenter(""), rack("") { } virtual ~EndpointDetails() throw() {} std::string host; std::string datacenter; std::string rack; _EndpointDetails__isset __isset; void __set_host(const std::string& val) { host = val; } void __set_datacenter(const std::string& val) { datacenter = val; } void __set_rack(const std::string& val) { rack = val; __isset.rack = true; } bool operator == (const EndpointDetails & rhs) const { if (!(host == rhs.host)) return false; if (!(datacenter == rhs.datacenter)) return false; if (__isset.rack != rhs.__isset.rack) return false; else if (__isset.rack && !(rack == rhs.rack)) return false; return true; } bool operator != (const EndpointDetails &rhs) const { return !(*this == rhs); } bool operator < (const EndpointDetails & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _TokenRange__isset { _TokenRange__isset() : rpc_endpoints(false), endpoint_details(false) {} bool rpc_endpoints; bool endpoint_details; } _TokenRange__isset; class TokenRange { public: static const char* ascii_fingerprint; // = "832268DC4CD6B17EE8881FC57EA04679"; static const uint8_t binary_fingerprint[16]; // = {0x83,0x22,0x68,0xDC,0x4C,0xD6,0xB1,0x7E,0xE8,0x88,0x1F,0xC5,0x7E,0xA0,0x46,0x79}; TokenRange() : start_token(""), end_token("") { } virtual ~TokenRange() throw() {} std::string start_token; std::string end_token; std::vector endpoints; std::vector rpc_endpoints; std::vector endpoint_details; _TokenRange__isset __isset; void __set_start_token(const std::string& val) { start_token = val; } void __set_end_token(const std::string& val) { end_token = val; } void __set_endpoints(const std::vector & val) { endpoints = val; } void __set_rpc_endpoints(const std::vector & val) { rpc_endpoints = val; __isset.rpc_endpoints = true; } void __set_endpoint_details(const std::vector & val) { endpoint_details = val; __isset.endpoint_details = true; } bool operator == (const TokenRange & rhs) const { if (!(start_token == rhs.start_token)) return false; if (!(end_token == rhs.end_token)) return false; if (!(endpoints == rhs.endpoints)) return false; if (__isset.rpc_endpoints != rhs.__isset.rpc_endpoints) return false; else if (__isset.rpc_endpoints && !(rpc_endpoints == rhs.rpc_endpoints)) return false; if (__isset.endpoint_details != rhs.__isset.endpoint_details) return false; else if (__isset.endpoint_details && !(endpoint_details == rhs.endpoint_details)) return false; return true; } bool operator != (const TokenRange &rhs) const { return !(*this == rhs); } bool operator < (const TokenRange & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class AuthenticationRequest { public: static const char* ascii_fingerprint; // = "5EA2D527ECA3BA20C77AFC023EE8C05F"; static const uint8_t binary_fingerprint[16]; // = {0x5E,0xA2,0xD5,0x27,0xEC,0xA3,0xBA,0x20,0xC7,0x7A,0xFC,0x02,0x3E,0xE8,0xC0,0x5F}; AuthenticationRequest() { } virtual ~AuthenticationRequest() throw() {} std::map credentials; void __set_credentials(const std::map & val) { credentials = val; } bool operator == (const AuthenticationRequest & rhs) const { if (!(credentials == rhs.credentials)) return false; return true; } bool operator != (const AuthenticationRequest &rhs) const { return !(*this == rhs); } bool operator < (const AuthenticationRequest & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _ColumnDef__isset { _ColumnDef__isset() : index_type(false), index_name(false), index_options(false) {} bool index_type; bool index_name; bool index_options; } _ColumnDef__isset; class ColumnDef { public: static const char* ascii_fingerprint; // = "0D89CE83D7EDAD079AC3213ED1DCAA58"; static const uint8_t binary_fingerprint[16]; // = {0x0D,0x89,0xCE,0x83,0xD7,0xED,0xAD,0x07,0x9A,0xC3,0x21,0x3E,0xD1,0xDC,0xAA,0x58}; ColumnDef() : name(""), validation_class(""), index_type((IndexType::type)0), index_name("") { } virtual ~ColumnDef() throw() {} std::string name; std::string validation_class; IndexType::type index_type; std::string index_name; std::map index_options; _ColumnDef__isset __isset; void __set_name(const std::string& val) { name = val; } void __set_validation_class(const std::string& val) { validation_class = val; } void __set_index_type(const IndexType::type val) { index_type = val; __isset.index_type = true; } void __set_index_name(const std::string& val) { index_name = val; __isset.index_name = true; } void __set_index_options(const std::map & val) { index_options = val; __isset.index_options = true; } bool operator == (const ColumnDef & rhs) const { if (!(name == rhs.name)) return false; if (!(validation_class == rhs.validation_class)) return false; if (__isset.index_type != rhs.__isset.index_type) return false; else if (__isset.index_type && !(index_type == rhs.index_type)) return false; if (__isset.index_name != rhs.__isset.index_name) return false; else if (__isset.index_name && !(index_name == rhs.index_name)) return false; if (__isset.index_options != rhs.__isset.index_options) return false; else if (__isset.index_options && !(index_options == rhs.index_options)) return false; return true; } bool operator != (const ColumnDef &rhs) const { return !(*this == rhs); } bool operator < (const ColumnDef & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _CfDef__isset { _CfDef__isset() : column_type(false), comparator_type(false), subcomparator_type(false), comment(false), read_repair_chance(false), column_metadata(false), gc_grace_seconds(false), default_validation_class(false), id(false), min_compaction_threshold(false), max_compaction_threshold(false), replicate_on_write(false), key_validation_class(false), key_alias(false), compaction_strategy(false), compaction_strategy_options(false), compression_options(false), bloom_filter_fp_chance(false), caching(false), dclocal_read_repair_chance(false), row_cache_size(false), key_cache_size(false), row_cache_save_period_in_seconds(false), key_cache_save_period_in_seconds(false), memtable_flush_after_mins(false), memtable_throughput_in_mb(false), memtable_operations_in_millions(false), merge_shards_chance(false), row_cache_provider(false), row_cache_keys_to_save(false) {} bool column_type; bool comparator_type; bool subcomparator_type; bool comment; bool read_repair_chance; bool column_metadata; bool gc_grace_seconds; bool default_validation_class; bool id; bool min_compaction_threshold; bool max_compaction_threshold; bool replicate_on_write; bool key_validation_class; bool key_alias; bool compaction_strategy; bool compaction_strategy_options; bool compression_options; bool bloom_filter_fp_chance; bool caching; bool dclocal_read_repair_chance; bool row_cache_size; bool key_cache_size; bool row_cache_save_period_in_seconds; bool key_cache_save_period_in_seconds; bool memtable_flush_after_mins; bool memtable_throughput_in_mb; bool memtable_operations_in_millions; bool merge_shards_chance; bool row_cache_provider; bool row_cache_keys_to_save; } _CfDef__isset; class CfDef { public: static const char* ascii_fingerprint; // = "231A260521B5DD99EFBCCBDD8768CA7D"; static const uint8_t binary_fingerprint[16]; // = {0x23,0x1A,0x26,0x05,0x21,0xB5,0xDD,0x99,0xEF,0xBC,0xCB,0xDD,0x87,0x68,0xCA,0x7D}; CfDef() : keyspace(""), name(""), column_type("Standard"), comparator_type("BytesType"), subcomparator_type(""), comment(""), read_repair_chance(0), gc_grace_seconds(0), default_validation_class(""), id(0), min_compaction_threshold(0), max_compaction_threshold(0), replicate_on_write(0), key_validation_class(""), key_alias(""), compaction_strategy(""), bloom_filter_fp_chance(0), caching("keys_only"), dclocal_read_repair_chance(0), row_cache_size(0), key_cache_size(0), row_cache_save_period_in_seconds(0), key_cache_save_period_in_seconds(0), memtable_flush_after_mins(0), memtable_throughput_in_mb(0), memtable_operations_in_millions(0), merge_shards_chance(0), row_cache_provider(""), row_cache_keys_to_save(0) { } virtual ~CfDef() throw() {} std::string keyspace; std::string name; std::string column_type; std::string comparator_type; std::string subcomparator_type; std::string comment; double read_repair_chance; std::vector column_metadata; int32_t gc_grace_seconds; std::string default_validation_class; int32_t id; int32_t min_compaction_threshold; int32_t max_compaction_threshold; bool replicate_on_write; std::string key_validation_class; std::string key_alias; std::string compaction_strategy; std::map compaction_strategy_options; std::map compression_options; double bloom_filter_fp_chance; std::string caching; double dclocal_read_repair_chance; double row_cache_size; double key_cache_size; int32_t row_cache_save_period_in_seconds; int32_t key_cache_save_period_in_seconds; int32_t memtable_flush_after_mins; int32_t memtable_throughput_in_mb; double memtable_operations_in_millions; double merge_shards_chance; std::string row_cache_provider; int32_t row_cache_keys_to_save; _CfDef__isset __isset; void __set_keyspace(const std::string& val) { keyspace = val; } void __set_name(const std::string& val) { name = val; } void __set_column_type(const std::string& val) { column_type = val; __isset.column_type = true; } void __set_comparator_type(const std::string& val) { comparator_type = val; __isset.comparator_type = true; } void __set_subcomparator_type(const std::string& val) { subcomparator_type = val; __isset.subcomparator_type = true; } void __set_comment(const std::string& val) { comment = val; __isset.comment = true; } void __set_read_repair_chance(const double val) { read_repair_chance = val; __isset.read_repair_chance = true; } void __set_column_metadata(const std::vector & val) { column_metadata = val; __isset.column_metadata = true; } void __set_gc_grace_seconds(const int32_t val) { gc_grace_seconds = val; __isset.gc_grace_seconds = true; } void __set_default_validation_class(const std::string& val) { default_validation_class = val; __isset.default_validation_class = true; } void __set_id(const int32_t val) { id = val; __isset.id = true; } void __set_min_compaction_threshold(const int32_t val) { min_compaction_threshold = val; __isset.min_compaction_threshold = true; } void __set_max_compaction_threshold(const int32_t val) { max_compaction_threshold = val; __isset.max_compaction_threshold = true; } void __set_replicate_on_write(const bool val) { replicate_on_write = val; __isset.replicate_on_write = true; } void __set_key_validation_class(const std::string& val) { key_validation_class = val; __isset.key_validation_class = true; } void __set_key_alias(const std::string& val) { key_alias = val; __isset.key_alias = true; } void __set_compaction_strategy(const std::string& val) { compaction_strategy = val; __isset.compaction_strategy = true; } void __set_compaction_strategy_options(const std::map & val) { compaction_strategy_options = val; __isset.compaction_strategy_options = true; } void __set_compression_options(const std::map & val) { compression_options = val; __isset.compression_options = true; } void __set_bloom_filter_fp_chance(const double val) { bloom_filter_fp_chance = val; __isset.bloom_filter_fp_chance = true; } void __set_caching(const std::string& val) { caching = val; __isset.caching = true; } void __set_dclocal_read_repair_chance(const double val) { dclocal_read_repair_chance = val; __isset.dclocal_read_repair_chance = true; } void __set_row_cache_size(const double val) { row_cache_size = val; __isset.row_cache_size = true; } void __set_key_cache_size(const double val) { key_cache_size = val; __isset.key_cache_size = true; } void __set_row_cache_save_period_in_seconds(const int32_t val) { row_cache_save_period_in_seconds = val; __isset.row_cache_save_period_in_seconds = true; } void __set_key_cache_save_period_in_seconds(const int32_t val) { key_cache_save_period_in_seconds = val; __isset.key_cache_save_period_in_seconds = true; } void __set_memtable_flush_after_mins(const int32_t val) { memtable_flush_after_mins = val; __isset.memtable_flush_after_mins = true; } void __set_memtable_throughput_in_mb(const int32_t val) { memtable_throughput_in_mb = val; __isset.memtable_throughput_in_mb = true; } void __set_memtable_operations_in_millions(const double val) { memtable_operations_in_millions = val; __isset.memtable_operations_in_millions = true; } void __set_merge_shards_chance(const double val) { merge_shards_chance = val; __isset.merge_shards_chance = true; } void __set_row_cache_provider(const std::string& val) { row_cache_provider = val; __isset.row_cache_provider = true; } void __set_row_cache_keys_to_save(const int32_t val) { row_cache_keys_to_save = val; __isset.row_cache_keys_to_save = true; } bool operator == (const CfDef & rhs) const { if (!(keyspace == rhs.keyspace)) return false; if (!(name == rhs.name)) return false; if (__isset.column_type != rhs.__isset.column_type) return false; else if (__isset.column_type && !(column_type == rhs.column_type)) return false; if (__isset.comparator_type != rhs.__isset.comparator_type) return false; else if (__isset.comparator_type && !(comparator_type == rhs.comparator_type)) return false; if (__isset.subcomparator_type != rhs.__isset.subcomparator_type) return false; else if (__isset.subcomparator_type && !(subcomparator_type == rhs.subcomparator_type)) return false; if (__isset.comment != rhs.__isset.comment) return false; else if (__isset.comment && !(comment == rhs.comment)) return false; if (__isset.read_repair_chance != rhs.__isset.read_repair_chance) return false; else if (__isset.read_repair_chance && !(read_repair_chance == rhs.read_repair_chance)) return false; if (__isset.column_metadata != rhs.__isset.column_metadata) return false; else if (__isset.column_metadata && !(column_metadata == rhs.column_metadata)) return false; if (__isset.gc_grace_seconds != rhs.__isset.gc_grace_seconds) return false; else if (__isset.gc_grace_seconds && !(gc_grace_seconds == rhs.gc_grace_seconds)) return false; if (__isset.default_validation_class != rhs.__isset.default_validation_class) return false; else if (__isset.default_validation_class && !(default_validation_class == rhs.default_validation_class)) return false; if (__isset.id != rhs.__isset.id) return false; else if (__isset.id && !(id == rhs.id)) return false; if (__isset.min_compaction_threshold != rhs.__isset.min_compaction_threshold) return false; else if (__isset.min_compaction_threshold && !(min_compaction_threshold == rhs.min_compaction_threshold)) return false; if (__isset.max_compaction_threshold != rhs.__isset.max_compaction_threshold) return false; else if (__isset.max_compaction_threshold && !(max_compaction_threshold == rhs.max_compaction_threshold)) return false; if (__isset.replicate_on_write != rhs.__isset.replicate_on_write) return false; else if (__isset.replicate_on_write && !(replicate_on_write == rhs.replicate_on_write)) return false; if (__isset.key_validation_class != rhs.__isset.key_validation_class) return false; else if (__isset.key_validation_class && !(key_validation_class == rhs.key_validation_class)) return false; if (__isset.key_alias != rhs.__isset.key_alias) return false; else if (__isset.key_alias && !(key_alias == rhs.key_alias)) return false; if (__isset.compaction_strategy != rhs.__isset.compaction_strategy) return false; else if (__isset.compaction_strategy && !(compaction_strategy == rhs.compaction_strategy)) return false; if (__isset.compaction_strategy_options != rhs.__isset.compaction_strategy_options) return false; else if (__isset.compaction_strategy_options && !(compaction_strategy_options == rhs.compaction_strategy_options)) return false; if (__isset.compression_options != rhs.__isset.compression_options) return false; else if (__isset.compression_options && !(compression_options == rhs.compression_options)) return false; if (__isset.bloom_filter_fp_chance != rhs.__isset.bloom_filter_fp_chance) return false; else if (__isset.bloom_filter_fp_chance && !(bloom_filter_fp_chance == rhs.bloom_filter_fp_chance)) return false; if (__isset.caching != rhs.__isset.caching) return false; else if (__isset.caching && !(caching == rhs.caching)) return false; if (__isset.dclocal_read_repair_chance != rhs.__isset.dclocal_read_repair_chance) return false; else if (__isset.dclocal_read_repair_chance && !(dclocal_read_repair_chance == rhs.dclocal_read_repair_chance)) return false; if (__isset.row_cache_size != rhs.__isset.row_cache_size) return false; else if (__isset.row_cache_size && !(row_cache_size == rhs.row_cache_size)) return false; if (__isset.key_cache_size != rhs.__isset.key_cache_size) return false; else if (__isset.key_cache_size && !(key_cache_size == rhs.key_cache_size)) return false; if (__isset.row_cache_save_period_in_seconds != rhs.__isset.row_cache_save_period_in_seconds) return false; else if (__isset.row_cache_save_period_in_seconds && !(row_cache_save_period_in_seconds == rhs.row_cache_save_period_in_seconds)) return false; if (__isset.key_cache_save_period_in_seconds != rhs.__isset.key_cache_save_period_in_seconds) return false; else if (__isset.key_cache_save_period_in_seconds && !(key_cache_save_period_in_seconds == rhs.key_cache_save_period_in_seconds)) return false; if (__isset.memtable_flush_after_mins != rhs.__isset.memtable_flush_after_mins) return false; else if (__isset.memtable_flush_after_mins && !(memtable_flush_after_mins == rhs.memtable_flush_after_mins)) return false; if (__isset.memtable_throughput_in_mb != rhs.__isset.memtable_throughput_in_mb) return false; else if (__isset.memtable_throughput_in_mb && !(memtable_throughput_in_mb == rhs.memtable_throughput_in_mb)) return false; if (__isset.memtable_operations_in_millions != rhs.__isset.memtable_operations_in_millions) return false; else if (__isset.memtable_operations_in_millions && !(memtable_operations_in_millions == rhs.memtable_operations_in_millions)) return false; if (__isset.merge_shards_chance != rhs.__isset.merge_shards_chance) return false; else if (__isset.merge_shards_chance && !(merge_shards_chance == rhs.merge_shards_chance)) return false; if (__isset.row_cache_provider != rhs.__isset.row_cache_provider) return false; else if (__isset.row_cache_provider && !(row_cache_provider == rhs.row_cache_provider)) return false; if (__isset.row_cache_keys_to_save != rhs.__isset.row_cache_keys_to_save) return false; else if (__isset.row_cache_keys_to_save && !(row_cache_keys_to_save == rhs.row_cache_keys_to_save)) return false; return true; } bool operator != (const CfDef &rhs) const { return !(*this == rhs); } bool operator < (const CfDef & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _KsDef__isset { _KsDef__isset() : strategy_options(false), replication_factor(false), durable_writes(false) {} bool strategy_options; bool replication_factor; bool durable_writes; } _KsDef__isset; class KsDef { public: static const char* ascii_fingerprint; // = "0767851B6476EB3777A21E59E912E11A"; static const uint8_t binary_fingerprint[16]; // = {0x07,0x67,0x85,0x1B,0x64,0x76,0xEB,0x37,0x77,0xA2,0x1E,0x59,0xE9,0x12,0xE1,0x1A}; KsDef() : name(""), strategy_class(""), replication_factor(0), durable_writes(true) { } virtual ~KsDef() throw() {} std::string name; std::string strategy_class; std::map strategy_options; int32_t replication_factor; std::vector cf_defs; bool durable_writes; _KsDef__isset __isset; void __set_name(const std::string& val) { name = val; } void __set_strategy_class(const std::string& val) { strategy_class = val; } void __set_strategy_options(const std::map & val) { strategy_options = val; __isset.strategy_options = true; } void __set_replication_factor(const int32_t val) { replication_factor = val; __isset.replication_factor = true; } void __set_cf_defs(const std::vector & val) { cf_defs = val; } void __set_durable_writes(const bool val) { durable_writes = val; __isset.durable_writes = true; } bool operator == (const KsDef & rhs) const { if (!(name == rhs.name)) return false; if (!(strategy_class == rhs.strategy_class)) return false; if (__isset.strategy_options != rhs.__isset.strategy_options) return false; else if (__isset.strategy_options && !(strategy_options == rhs.strategy_options)) return false; if (__isset.replication_factor != rhs.__isset.replication_factor) return false; else if (__isset.replication_factor && !(replication_factor == rhs.replication_factor)) return false; if (!(cf_defs == rhs.cf_defs)) return false; if (__isset.durable_writes != rhs.__isset.durable_writes) return false; else if (__isset.durable_writes && !(durable_writes == rhs.durable_writes)) return false; return true; } bool operator != (const KsDef &rhs) const { return !(*this == rhs); } bool operator < (const KsDef & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class CqlRow { public: static const char* ascii_fingerprint; // = "470EFC558004E98D92D604898305C04E"; static const uint8_t binary_fingerprint[16]; // = {0x47,0x0E,0xFC,0x55,0x80,0x04,0xE9,0x8D,0x92,0xD6,0x04,0x89,0x83,0x05,0xC0,0x4E}; CqlRow() : key("") { } virtual ~CqlRow() throw() {} std::string key; std::vector columns; void __set_key(const std::string& val) { key = val; } void __set_columns(const std::vector & val) { columns = val; } bool operator == (const CqlRow & rhs) const { if (!(key == rhs.key)) return false; if (!(columns == rhs.columns)) return false; return true; } bool operator != (const CqlRow &rhs) const { return !(*this == rhs); } bool operator < (const CqlRow & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; class CqlMetadata { public: static const char* ascii_fingerprint; // = "B7C5A4AA9652C744A48EBC1C12D531E7"; static const uint8_t binary_fingerprint[16]; // = {0xB7,0xC5,0xA4,0xAA,0x96,0x52,0xC7,0x44,0xA4,0x8E,0xBC,0x1C,0x12,0xD5,0x31,0xE7}; CqlMetadata() : default_name_type(""), default_value_type("") { } virtual ~CqlMetadata() throw() {} std::map name_types; std::map value_types; std::string default_name_type; std::string default_value_type; void __set_name_types(const std::map & val) { name_types = val; } void __set_value_types(const std::map & val) { value_types = val; } void __set_default_name_type(const std::string& val) { default_name_type = val; } void __set_default_value_type(const std::string& val) { default_value_type = val; } bool operator == (const CqlMetadata & rhs) const { if (!(name_types == rhs.name_types)) return false; if (!(value_types == rhs.value_types)) return false; if (!(default_name_type == rhs.default_name_type)) return false; if (!(default_value_type == rhs.default_value_type)) return false; return true; } bool operator != (const CqlMetadata &rhs) const { return !(*this == rhs); } bool operator < (const CqlMetadata & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _CqlResult__isset { _CqlResult__isset() : rows(false), num(false), schema(false) {} bool rows; bool num; bool schema; } _CqlResult__isset; class CqlResult { public: static const char* ascii_fingerprint; // = "521B9CE5AF77539F7267F6952B609E81"; static const uint8_t binary_fingerprint[16]; // = {0x52,0x1B,0x9C,0xE5,0xAF,0x77,0x53,0x9F,0x72,0x67,0xF6,0x95,0x2B,0x60,0x9E,0x81}; CqlResult() : type((CqlResultType::type)0), num(0) { } virtual ~CqlResult() throw() {} CqlResultType::type type; std::vector rows; int32_t num; CqlMetadata schema; _CqlResult__isset __isset; void __set_type(const CqlResultType::type val) { type = val; } void __set_rows(const std::vector & val) { rows = val; __isset.rows = true; } void __set_num(const int32_t val) { num = val; __isset.num = true; } void __set_schema(const CqlMetadata& val) { schema = val; __isset.schema = true; } bool operator == (const CqlResult & rhs) const { if (!(type == rhs.type)) return false; if (__isset.rows != rhs.__isset.rows) return false; else if (__isset.rows && !(rows == rhs.rows)) return false; if (__isset.num != rhs.__isset.num) return false; else if (__isset.num && !(num == rhs.num)) return false; if (__isset.schema != rhs.__isset.schema) return false; else if (__isset.schema && !(schema == rhs.schema)) return false; return true; } bool operator != (const CqlResult &rhs) const { return !(*this == rhs); } bool operator < (const CqlResult & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; typedef struct _CqlPreparedResult__isset { _CqlPreparedResult__isset() : variable_types(false), variable_names(false) {} bool variable_types; bool variable_names; } _CqlPreparedResult__isset; class CqlPreparedResult { public: static const char* ascii_fingerprint; // = "7E1663EC688DFDC28722BF36F9F64E6F"; static const uint8_t binary_fingerprint[16]; // = {0x7E,0x16,0x63,0xEC,0x68,0x8D,0xFD,0xC2,0x87,0x22,0xBF,0x36,0xF9,0xF6,0x4E,0x6F}; CqlPreparedResult() : itemId(0), count(0) { } virtual ~CqlPreparedResult() throw() {} int32_t itemId; int32_t count; std::vector variable_types; std::vector variable_names; _CqlPreparedResult__isset __isset; void __set_itemId(const int32_t val) { itemId = val; } void __set_count(const int32_t val) { count = val; } void __set_variable_types(const std::vector & val) { variable_types = val; __isset.variable_types = true; } void __set_variable_names(const std::vector & val) { variable_names = val; __isset.variable_names = true; } bool operator == (const CqlPreparedResult & rhs) const { if (!(itemId == rhs.itemId)) return false; if (!(count == rhs.count)) return false; if (__isset.variable_types != rhs.__isset.variable_types) return false; else if (__isset.variable_types && !(variable_types == rhs.variable_types)) return false; if (__isset.variable_names != rhs.__isset.variable_names) return false; else if (__isset.variable_names && !(variable_names == rhs.variable_names)) return false; return true; } bool operator != (const CqlPreparedResult &rhs) const { return !(*this == rhs); } bool operator < (const CqlPreparedResult & ) const; uint32_t read(::apache::thrift::protocol::TProtocol* iprot); uint32_t write(::apache::thrift::protocol::TProtocol* oprot) const; }; }}} // namespace #endif