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#
# Autogenerated by Thrift
#
# DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING
#
from thrift.Thrift import *
from thrift.transport import TTransport
from thrift.protocol import TBinaryProtocol, TProtocol
try:
from thrift.protocol import fastbinary
except:
fastbinary = None
class ConsistencyLevel:
"""
The ConsistencyLevel is an enum that controls both read and write
behavior based on the ReplicationFactor of the keyspace. The
different consistency levels have different meanings, depending on
if you're doing a write or read operation.
If W + R > ReplicationFactor, where W is the number of nodes to
block for on write, and R the number to block for on reads, you
will have strongly consistent behavior; that is, readers will
always see the most recent write. Of these, the most interesting is
to do QUORUM reads and writes, which gives you consistency while
still allowing availability in the face of node failures up to half
of <ReplicationFactor>. Of course if latency is more important than
consistency then you can use lower values for either or both.
Some ConsistencyLevels (ONE, TWO, THREE) refer to a specific number
of replicas rather than a logical concept that adjusts
automatically with the replication factor. Of these, only ONE is
commonly used; TWO and (even more rarely) THREE are only useful
when you care more about guaranteeing a certain level of
durability, than consistency.
Write consistency levels make the following guarantees before reporting success to the client:
ANY Ensure that the write has been written once somewhere, including possibly being hinted in a non-target node.
ONE Ensure that the write has been written to at least 1 node's commit log and memory table
TWO Ensure that the write has been written to at least 2 node's commit log and memory table
THREE Ensure that the write has been written to at least 3 node's commit log and memory table
QUORUM Ensure that the write has been written to <ReplicationFactor> / 2 + 1 nodes
LOCAL_QUORUM Ensure that the write has been written to <ReplicationFactor> / 2 + 1 nodes, within the local datacenter (requires NetworkTopologyStrategy)
EACH_QUORUM Ensure that the write has been written to <ReplicationFactor> / 2 + 1 nodes in each datacenter (requires NetworkTopologyStrategy)
ALL Ensure that the write is written to <code>&lt;ReplicationFactor&gt;</code> nodes before responding to the client.
Read consistency levels make the following guarantees before returning successful results to the client:
ANY Not supported. You probably want ONE instead.
ONE Returns the record obtained from a single replica.
TWO Returns the record with the most recent timestamp once two replicas have replied.
THREE Returns the record with the most recent timestamp once three replicas have replied.
QUORUM Returns the record with the most recent timestamp once a majority of replicas have replied.
LOCAL_QUORUM Returns the record with the most recent timestamp once a majority of replicas within the local datacenter have replied.
EACH_QUORUM Returns the record with the most recent timestamp once a majority of replicas within each datacenter have replied.
ALL Returns the record with the most recent timestamp once all replicas have replied (implies no replica may be down)..
"""
ONE = 1
QUORUM = 2
LOCAL_QUORUM = 3
EACH_QUORUM = 4
ALL = 5
ANY = 6
TWO = 7
THREE = 8
_VALUES_TO_NAMES = {
1: "ONE",
2: "QUORUM",
3: "LOCAL_QUORUM",
4: "EACH_QUORUM",
5: "ALL",
6: "ANY",
7: "TWO",
8: "THREE",
}
_NAMES_TO_VALUES = {
"ONE": 1,
"QUORUM": 2,
"LOCAL_QUORUM": 3,
"EACH_QUORUM": 4,
"ALL": 5,
"ANY": 6,
"TWO": 7,
"THREE": 8,
}
class IndexOperator:
EQ = 0
GTE = 1
GT = 2
LTE = 3
LT = 4
_VALUES_TO_NAMES = {
0: "EQ",
1: "GTE",
2: "GT",
3: "LTE",
4: "LT",
}
_NAMES_TO_VALUES = {
"EQ": 0,
"GTE": 1,
"GT": 2,
"LTE": 3,
"LT": 4,
}
class IndexType:
KEYS = 0
_VALUES_TO_NAMES = {
0: "KEYS",
}
_NAMES_TO_VALUES = {
"KEYS": 0,
}
class Compression:
"""
CQL query compression
"""
GZIP = 1
NONE = 2
_VALUES_TO_NAMES = {
1: "GZIP",
2: "NONE",
}
_NAMES_TO_VALUES = {
"GZIP": 1,
"NONE": 2,
}
class CqlResultType:
ROWS = 1
VOID = 2
INT = 3
_VALUES_TO_NAMES = {
1: "ROWS",
2: "VOID",
3: "INT",
}
_NAMES_TO_VALUES = {
"ROWS": 1,
"VOID": 2,
"INT": 3,
}
class Column:
"""
Basic unit of data within a ColumnFamily.
@param name, the name by which this column is set and retrieved. Maximum 64KB long.
@param value. The data associated with the name. Maximum 2GB long, but in practice you should limit it to small numbers of MB (since Thrift must read the full value into memory to operate on it).
@param timestamp. The timestamp is used for conflict detection/resolution when two columns with same name need to be compared.
@param ttl. An optional, positive delay (in seconds) after which the column will be automatically deleted.
Attributes:
- name
- value
- timestamp
- ttl
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.STRING, 'value', None, None, ), # 2
(3, TType.I64, 'timestamp', None, None, ), # 3
(4, TType.I32, 'ttl', None, None, ), # 4
)
def __init__(self, name=None, value=None, timestamp=None, ttl=None,):
self.name = name
self.value = value
self.timestamp = timestamp
self.ttl = ttl
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.value = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.I64:
self.timestamp = iprot.readI64();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.I32:
self.ttl = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('Column')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.value != None:
oprot.writeFieldBegin('value', TType.STRING, 2)
oprot.writeString(self.value)
oprot.writeFieldEnd()
if self.timestamp != None:
oprot.writeFieldBegin('timestamp', TType.I64, 3)
oprot.writeI64(self.timestamp)
oprot.writeFieldEnd()
if self.ttl != None:
oprot.writeFieldBegin('ttl', TType.I32, 4)
oprot.writeI32(self.ttl)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class SuperColumn:
"""
A named list of columns.
@param name. see Column.name.
@param columns. A collection of standard Columns. The columns within a super column are defined in an adhoc manner.
Columns within a super column do not have to have matching structures (similarly named child columns).
Attributes:
- name
- columns
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.LIST, 'columns', (TType.STRUCT,(Column, Column.thrift_spec)), None, ), # 2
)
def __init__(self, name=None, columns=None,):
self.name = name
self.columns = columns
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.LIST:
self.columns = []
(_etype3, _size0) = iprot.readListBegin()
for _i4 in xrange(_size0):
_elem5 = Column()
_elem5.read(iprot)
self.columns.append(_elem5)
iprot.readListEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('SuperColumn')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.columns != None:
oprot.writeFieldBegin('columns', TType.LIST, 2)
oprot.writeListBegin(TType.STRUCT, len(self.columns))
for iter6 in self.columns:
iter6.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
if self.columns is None:
raise TProtocol.TProtocolException(message='Required field columns is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class CounterColumn:
"""
Attributes:
- name
- value
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.I64, 'value', None, None, ), # 2
)
def __init__(self, name=None, value=None,):
self.name = name
self.value = value
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.I64:
self.value = iprot.readI64();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('CounterColumn')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.value != None:
oprot.writeFieldBegin('value', TType.I64, 2)
oprot.writeI64(self.value)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
if self.value is None:
raise TProtocol.TProtocolException(message='Required field value is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class CounterSuperColumn:
"""
Attributes:
- name
- columns
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.LIST, 'columns', (TType.STRUCT,(CounterColumn, CounterColumn.thrift_spec)), None, ), # 2
)
def __init__(self, name=None, columns=None,):
self.name = name
self.columns = columns
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.LIST:
self.columns = []
(_etype10, _size7) = iprot.readListBegin()
for _i11 in xrange(_size7):
_elem12 = CounterColumn()
_elem12.read(iprot)
self.columns.append(_elem12)
iprot.readListEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('CounterSuperColumn')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.columns != None:
oprot.writeFieldBegin('columns', TType.LIST, 2)
oprot.writeListBegin(TType.STRUCT, len(self.columns))
for iter13 in self.columns:
iter13.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
if self.columns is None:
raise TProtocol.TProtocolException(message='Required field columns is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class ColumnOrSuperColumn:
"""
Methods for fetching rows/records from Cassandra will return either a single instance of ColumnOrSuperColumn or a list
of ColumnOrSuperColumns (get_slice()). If you're looking up a SuperColumn (or list of SuperColumns) then the resulting
instances of ColumnOrSuperColumn will have the requested SuperColumn in the attribute super_column. For queries resulting
in Columns, those values will be in the attribute column. This change was made between 0.3 and 0.4 to standardize on
single query methods that may return either a SuperColumn or Column.
If the query was on a counter column family, you will either get a counter_column (instead of a column) or a
counter_super_column (instead of a super_column)
@param column. The Column returned by get() or get_slice().
@param super_column. The SuperColumn returned by get() or get_slice().
@param counter_column. The Counterolumn returned by get() or get_slice().
@param counter_super_column. The CounterSuperColumn returned by get() or get_slice().
Attributes:
- column
- super_column
- counter_column
- counter_super_column
"""
thrift_spec = (
None, # 0
(1, TType.STRUCT, 'column', (Column, Column.thrift_spec), None, ), # 1
(2, TType.STRUCT, 'super_column', (SuperColumn, SuperColumn.thrift_spec), None, ), # 2
(3, TType.STRUCT, 'counter_column', (CounterColumn, CounterColumn.thrift_spec), None, ), # 3
(4, TType.STRUCT, 'counter_super_column', (CounterSuperColumn, CounterSuperColumn.thrift_spec), None, ), # 4
)
def __init__(self, column=None, super_column=None, counter_column=None, counter_super_column=None,):
self.column = column
self.super_column = super_column
self.counter_column = counter_column
self.counter_super_column = counter_super_column
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRUCT:
self.column = Column()
self.column.read(iprot)
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRUCT:
self.super_column = SuperColumn()
self.super_column.read(iprot)
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.STRUCT:
self.counter_column = CounterColumn()
self.counter_column.read(iprot)
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.STRUCT:
self.counter_super_column = CounterSuperColumn()
self.counter_super_column.read(iprot)
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('ColumnOrSuperColumn')
if self.column != None:
oprot.writeFieldBegin('column', TType.STRUCT, 1)
self.column.write(oprot)
oprot.writeFieldEnd()
if self.super_column != None:
oprot.writeFieldBegin('super_column', TType.STRUCT, 2)
self.super_column.write(oprot)
oprot.writeFieldEnd()
if self.counter_column != None:
oprot.writeFieldBegin('counter_column', TType.STRUCT, 3)
self.counter_column.write(oprot)
oprot.writeFieldEnd()
if self.counter_super_column != None:
oprot.writeFieldBegin('counter_super_column', TType.STRUCT, 4)
self.counter_super_column.write(oprot)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class NotFoundException(Exception):
"""
A specific column was requested that does not exist.
"""
thrift_spec = (
)
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('NotFoundException')
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class InvalidRequestException(Exception):
"""
Invalid request could mean keyspace or column family does not exist, required parameters are missing, or a parameter is malformed.
why contains an associated error message.
Attributes:
- why
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'why', None, None, ), # 1
)
def __init__(self, why=None,):
self.why = why
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.why = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('InvalidRequestException')
if self.why != None:
oprot.writeFieldBegin('why', TType.STRING, 1)
oprot.writeString(self.why)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.why is None:
raise TProtocol.TProtocolException(message='Required field why is unset!')
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class UnavailableException(Exception):
"""
Not all the replicas required could be created and/or read.
"""
thrift_spec = (
)
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('UnavailableException')
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class TimedOutException(Exception):
"""
RPC timeout was exceeded. either a node failed mid-operation, or load was too high, or the requested op was too large.
"""
thrift_spec = (
)
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('TimedOutException')
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class AuthenticationException(Exception):
"""
invalid authentication request (invalid keyspace, user does not exist, or credentials invalid)
Attributes:
- why
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'why', None, None, ), # 1
)
def __init__(self, why=None,):
self.why = why
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.why = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('AuthenticationException')
if self.why != None:
oprot.writeFieldBegin('why', TType.STRING, 1)
oprot.writeString(self.why)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.why is None:
raise TProtocol.TProtocolException(message='Required field why is unset!')
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class AuthorizationException(Exception):
"""
invalid authorization request (user does not have access to keyspace)
Attributes:
- why
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'why', None, None, ), # 1
)
def __init__(self, why=None,):
self.why = why
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.why = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('AuthorizationException')
if self.why != None:
oprot.writeFieldBegin('why', TType.STRING, 1)
oprot.writeString(self.why)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.why is None:
raise TProtocol.TProtocolException(message='Required field why is unset!')
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class SchemaDisagreementException(Exception):
"""
schemas are not in agreement across all nodes
"""
thrift_spec = (
)
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('SchemaDisagreementException')
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __str__(self):
return repr(self)
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class ColumnParent:
"""
ColumnParent is used when selecting groups of columns from the same ColumnFamily. In directory structure terms, imagine
ColumnParent as ColumnPath + '/../'.
See also <a href="cassandra.html#Struct_ColumnPath">ColumnPath</a>
Attributes:
- column_family
- super_column
"""
thrift_spec = (
None, # 0
None, # 1
None, # 2
(3, TType.STRING, 'column_family', None, None, ), # 3
(4, TType.STRING, 'super_column', None, None, ), # 4
)
def __init__(self, column_family=None, super_column=None,):
self.column_family = column_family
self.super_column = super_column
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 3:
if ftype == TType.STRING:
self.column_family = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.STRING:
self.super_column = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('ColumnParent')
if self.column_family != None:
oprot.writeFieldBegin('column_family', TType.STRING, 3)
oprot.writeString(self.column_family)
oprot.writeFieldEnd()
if self.super_column != None:
oprot.writeFieldBegin('super_column', TType.STRING, 4)
oprot.writeString(self.super_column)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.column_family is None:
raise TProtocol.TProtocolException(message='Required field column_family is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class ColumnPath:
"""
The ColumnPath is the path to a single column in Cassandra. It might make sense to think of ColumnPath and
ColumnParent in terms of a directory structure.
ColumnPath is used to looking up a single column.
@param column_family. The name of the CF of the column being looked up.
@param super_column. The super column name.
@param column. The column name.
Attributes:
- column_family
- super_column
- column
"""
thrift_spec = (
None, # 0
None, # 1
None, # 2
(3, TType.STRING, 'column_family', None, None, ), # 3
(4, TType.STRING, 'super_column', None, None, ), # 4
(5, TType.STRING, 'column', None, None, ), # 5
)
def __init__(self, column_family=None, super_column=None, column=None,):
self.column_family = column_family
self.super_column = super_column
self.column = column
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 3:
if ftype == TType.STRING:
self.column_family = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.STRING:
self.super_column = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 5:
if ftype == TType.STRING:
self.column = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('ColumnPath')
if self.column_family != None:
oprot.writeFieldBegin('column_family', TType.STRING, 3)
oprot.writeString(self.column_family)
oprot.writeFieldEnd()
if self.super_column != None:
oprot.writeFieldBegin('super_column', TType.STRING, 4)
oprot.writeString(self.super_column)
oprot.writeFieldEnd()
if self.column != None:
oprot.writeFieldBegin('column', TType.STRING, 5)
oprot.writeString(self.column)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.column_family is None:
raise TProtocol.TProtocolException(message='Required field column_family is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class SliceRange:
"""
A slice range is a structure that stores basic range, ordering and limit information for a query that will return
multiple columns. It could be thought of as Cassandra's version of LIMIT and ORDER BY
@param start. The column name to start the slice with. This attribute is not required, though there is no default value,
and can be safely set to '', i.e., an empty byte array, to start with the first column name. Otherwise, it
must a valid value under the rules of the Comparator defined for the given ColumnFamily.
@param finish. The column name to stop the slice at. This attribute is not required, though there is no default value,
and can be safely set to an empty byte array to not stop until 'count' results are seen. Otherwise, it
must also be a valid value to the ColumnFamily Comparator.
@param reversed. Whether the results should be ordered in reversed order. Similar to ORDER BY blah DESC in SQL.
@param count. How many columns to return. Similar to LIMIT in SQL. May be arbitrarily large, but Thrift will
materialize the whole result into memory before returning it to the client, so be aware that you may
be better served by iterating through slices by passing the last value of one call in as the 'start'
of the next instead of increasing 'count' arbitrarily large.
Attributes:
- start
- finish
- reversed
- count
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'start', None, None, ), # 1
(2, TType.STRING, 'finish', None, None, ), # 2
(3, TType.BOOL, 'reversed', None, False, ), # 3
(4, TType.I32, 'count', None, 100, ), # 4
)
def __init__(self, start=None, finish=None, reversed=thrift_spec[3][4], count=thrift_spec[4][4],):
self.start = start
self.finish = finish
self.reversed = reversed
self.count = count
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.start = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.finish = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.BOOL:
self.reversed = iprot.readBool();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.I32:
self.count = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('SliceRange')
if self.start != None:
oprot.writeFieldBegin('start', TType.STRING, 1)
oprot.writeString(self.start)
oprot.writeFieldEnd()
if self.finish != None:
oprot.writeFieldBegin('finish', TType.STRING, 2)
oprot.writeString(self.finish)
oprot.writeFieldEnd()
if self.reversed != None:
oprot.writeFieldBegin('reversed', TType.BOOL, 3)
oprot.writeBool(self.reversed)
oprot.writeFieldEnd()
if self.count != None:
oprot.writeFieldBegin('count', TType.I32, 4)
oprot.writeI32(self.count)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.start is None:
raise TProtocol.TProtocolException(message='Required field start is unset!')
if self.finish is None:
raise TProtocol.TProtocolException(message='Required field finish is unset!')
if self.reversed is None:
raise TProtocol.TProtocolException(message='Required field reversed is unset!')
if self.count is None:
raise TProtocol.TProtocolException(message='Required field count is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class SlicePredicate:
"""
A SlicePredicate is similar to a mathematic predicate (see http://en.wikipedia.org/wiki/Predicate_(mathematical_logic)),
which is described as "a property that the elements of a set have in common."
SlicePredicate's in Cassandra are described with either a list of column_names or a SliceRange. If column_names is
specified, slice_range is ignored.
@param column_name. A list of column names to retrieve. This can be used similar to Memcached's "multi-get" feature
to fetch N known column names. For instance, if you know you wish to fetch columns 'Joe', 'Jack',
and 'Jim' you can pass those column names as a list to fetch all three at once.
@param slice_range. A SliceRange describing how to range, order, and/or limit the slice.
Attributes:
- column_names
- slice_range
"""
thrift_spec = (
None, # 0
(1, TType.LIST, 'column_names', (TType.STRING,None), None, ), # 1
(2, TType.STRUCT, 'slice_range', (SliceRange, SliceRange.thrift_spec), None, ), # 2
)
def __init__(self, column_names=None, slice_range=None,):
self.column_names = column_names
self.slice_range = slice_range
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.LIST:
self.column_names = []
(_etype17, _size14) = iprot.readListBegin()
for _i18 in xrange(_size14):
_elem19 = iprot.readString();
self.column_names.append(_elem19)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRUCT:
self.slice_range = SliceRange()
self.slice_range.read(iprot)
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('SlicePredicate')
if self.column_names != None:
oprot.writeFieldBegin('column_names', TType.LIST, 1)
oprot.writeListBegin(TType.STRING, len(self.column_names))
for iter20 in self.column_names:
oprot.writeString(iter20)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.slice_range != None:
oprot.writeFieldBegin('slice_range', TType.STRUCT, 2)
self.slice_range.write(oprot)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class IndexExpression:
"""
Attributes:
- column_name
- op
- value
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'column_name', None, None, ), # 1
(2, TType.I32, 'op', None, None, ), # 2
(3, TType.STRING, 'value', None, None, ), # 3
)
def __init__(self, column_name=None, op=None, value=None,):
self.column_name = column_name
self.op = op
self.value = value
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.column_name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.I32:
self.op = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.STRING:
self.value = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('IndexExpression')
if self.column_name != None:
oprot.writeFieldBegin('column_name', TType.STRING, 1)
oprot.writeString(self.column_name)
oprot.writeFieldEnd()
if self.op != None:
oprot.writeFieldBegin('op', TType.I32, 2)
oprot.writeI32(self.op)
oprot.writeFieldEnd()
if self.value != None:
oprot.writeFieldBegin('value', TType.STRING, 3)
oprot.writeString(self.value)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.column_name is None:
raise TProtocol.TProtocolException(message='Required field column_name is unset!')
if self.op is None:
raise TProtocol.TProtocolException(message='Required field op is unset!')
if self.value is None:
raise TProtocol.TProtocolException(message='Required field value is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class IndexClause:
"""
Attributes:
- expressions
- start_key
- count
"""
thrift_spec = (
None, # 0
(1, TType.LIST, 'expressions', (TType.STRUCT,(IndexExpression, IndexExpression.thrift_spec)), None, ), # 1
(2, TType.STRING, 'start_key', None, None, ), # 2
(3, TType.I32, 'count', None, 100, ), # 3
)
def __init__(self, expressions=None, start_key=None, count=thrift_spec[3][4],):
self.expressions = expressions
self.start_key = start_key
self.count = count
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.LIST:
self.expressions = []
(_etype24, _size21) = iprot.readListBegin()
for _i25 in xrange(_size21):
_elem26 = IndexExpression()
_elem26.read(iprot)
self.expressions.append(_elem26)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.start_key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.I32:
self.count = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('IndexClause')
if self.expressions != None:
oprot.writeFieldBegin('expressions', TType.LIST, 1)
oprot.writeListBegin(TType.STRUCT, len(self.expressions))
for iter27 in self.expressions:
iter27.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.start_key != None:
oprot.writeFieldBegin('start_key', TType.STRING, 2)
oprot.writeString(self.start_key)
oprot.writeFieldEnd()
if self.count != None:
oprot.writeFieldBegin('count', TType.I32, 3)
oprot.writeI32(self.count)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.expressions is None:
raise TProtocol.TProtocolException(message='Required field expressions is unset!')
if self.start_key is None:
raise TProtocol.TProtocolException(message='Required field start_key is unset!')
if self.count is None:
raise TProtocol.TProtocolException(message='Required field count is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class KeyRange:
"""
The semantics of start keys and tokens are slightly different.
Keys are start-inclusive; tokens are start-exclusive. Token
ranges may also wrap -- that is, the end token may be less
than the start one. Thus, a range from keyX to keyX is a
one-element range, but a range from tokenY to tokenY is the
full ring.
Attributes:
- start_key
- end_key
- start_token
- end_token
- count
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'start_key', None, None, ), # 1
(2, TType.STRING, 'end_key', None, None, ), # 2
(3, TType.STRING, 'start_token', None, None, ), # 3
(4, TType.STRING, 'end_token', None, None, ), # 4
(5, TType.I32, 'count', None, 100, ), # 5
)
def __init__(self, start_key=None, end_key=None, start_token=None, end_token=None, count=thrift_spec[5][4],):
self.start_key = start_key
self.end_key = end_key
self.start_token = start_token
self.end_token = end_token
self.count = count
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.start_key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.end_key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.STRING:
self.start_token = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.STRING:
self.end_token = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 5:
if ftype == TType.I32:
self.count = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('KeyRange')
if self.start_key != None:
oprot.writeFieldBegin('start_key', TType.STRING, 1)
oprot.writeString(self.start_key)
oprot.writeFieldEnd()
if self.end_key != None:
oprot.writeFieldBegin('end_key', TType.STRING, 2)
oprot.writeString(self.end_key)
oprot.writeFieldEnd()
if self.start_token != None:
oprot.writeFieldBegin('start_token', TType.STRING, 3)
oprot.writeString(self.start_token)
oprot.writeFieldEnd()
if self.end_token != None:
oprot.writeFieldBegin('end_token', TType.STRING, 4)
oprot.writeString(self.end_token)
oprot.writeFieldEnd()
if self.count != None:
oprot.writeFieldBegin('count', TType.I32, 5)
oprot.writeI32(self.count)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.count is None:
raise TProtocol.TProtocolException(message='Required field count is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class KeySlice:
"""
A KeySlice is key followed by the data it maps to. A collection of KeySlice is returned by the get_range_slice operation.
@param key. a row key
@param columns. List of data represented by the key. Typically, the list is pared down to only the columns specified by
a SlicePredicate.
Attributes:
- key
- columns
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'key', None, None, ), # 1
(2, TType.LIST, 'columns', (TType.STRUCT,(ColumnOrSuperColumn, ColumnOrSuperColumn.thrift_spec)), None, ), # 2
)
def __init__(self, key=None, columns=None,):
self.key = key
self.columns = columns
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.LIST:
self.columns = []
(_etype31, _size28) = iprot.readListBegin()
for _i32 in xrange(_size28):
_elem33 = ColumnOrSuperColumn()
_elem33.read(iprot)
self.columns.append(_elem33)
iprot.readListEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('KeySlice')
if self.key != None:
oprot.writeFieldBegin('key', TType.STRING, 1)
oprot.writeString(self.key)
oprot.writeFieldEnd()
if self.columns != None:
oprot.writeFieldBegin('columns', TType.LIST, 2)
oprot.writeListBegin(TType.STRUCT, len(self.columns))
for iter34 in self.columns:
iter34.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.key is None:
raise TProtocol.TProtocolException(message='Required field key is unset!')
if self.columns is None:
raise TProtocol.TProtocolException(message='Required field columns is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class KeyCount:
"""
Attributes:
- key
- count
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'key', None, None, ), # 1
(2, TType.I32, 'count', None, None, ), # 2
)
def __init__(self, key=None, count=None,):
self.key = key
self.count = count
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.I32:
self.count = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('KeyCount')
if self.key != None:
oprot.writeFieldBegin('key', TType.STRING, 1)
oprot.writeString(self.key)
oprot.writeFieldEnd()
if self.count != None:
oprot.writeFieldBegin('count', TType.I32, 2)
oprot.writeI32(self.count)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.key is None:
raise TProtocol.TProtocolException(message='Required field key is unset!')
if self.count is None:
raise TProtocol.TProtocolException(message='Required field count is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class Deletion:
"""
Note that the timestamp is only optional in case of counter deletion.
Attributes:
- timestamp
- super_column
- predicate
"""
thrift_spec = (
None, # 0
(1, TType.I64, 'timestamp', None, None, ), # 1
(2, TType.STRING, 'super_column', None, None, ), # 2
(3, TType.STRUCT, 'predicate', (SlicePredicate, SlicePredicate.thrift_spec), None, ), # 3
)
def __init__(self, timestamp=None, super_column=None, predicate=None,):
self.timestamp = timestamp
self.super_column = super_column
self.predicate = predicate
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.I64:
self.timestamp = iprot.readI64();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.super_column = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.STRUCT:
self.predicate = SlicePredicate()
self.predicate.read(iprot)
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('Deletion')
if self.timestamp != None:
oprot.writeFieldBegin('timestamp', TType.I64, 1)
oprot.writeI64(self.timestamp)
oprot.writeFieldEnd()
if self.super_column != None:
oprot.writeFieldBegin('super_column', TType.STRING, 2)
oprot.writeString(self.super_column)
oprot.writeFieldEnd()
if self.predicate != None:
oprot.writeFieldBegin('predicate', TType.STRUCT, 3)
self.predicate.write(oprot)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class Mutation:
"""
A Mutation is either an insert (represented by filling column_or_supercolumn) or a deletion (represented by filling the deletion attribute).
@param column_or_supercolumn. An insert to a column or supercolumn (possibly counter column or supercolumn)
@param deletion. A deletion of a column or supercolumn
Attributes:
- column_or_supercolumn
- deletion
"""
thrift_spec = (
None, # 0
(1, TType.STRUCT, 'column_or_supercolumn', (ColumnOrSuperColumn, ColumnOrSuperColumn.thrift_spec), None, ), # 1
(2, TType.STRUCT, 'deletion', (Deletion, Deletion.thrift_spec), None, ), # 2
)
def __init__(self, column_or_supercolumn=None, deletion=None,):
self.column_or_supercolumn = column_or_supercolumn
self.deletion = deletion
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRUCT:
self.column_or_supercolumn = ColumnOrSuperColumn()
self.column_or_supercolumn.read(iprot)
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRUCT:
self.deletion = Deletion()
self.deletion.read(iprot)
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('Mutation')
if self.column_or_supercolumn != None:
oprot.writeFieldBegin('column_or_supercolumn', TType.STRUCT, 1)
self.column_or_supercolumn.write(oprot)
oprot.writeFieldEnd()
if self.deletion != None:
oprot.writeFieldBegin('deletion', TType.STRUCT, 2)
self.deletion.write(oprot)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class TokenRange:
"""
A TokenRange describes part of the Cassandra ring, it is a mapping from a range to
endpoints responsible for that range.
@param start_token The first token in the range
@param end_token The last token in the range
@param endpoints The endpoints responsible for the range (listed by their configured listen_address)
@param rpc_endpoints The endpoints responsible for the range (listed by their configured rpc_address)
Attributes:
- start_token
- end_token
- endpoints
- rpc_endpoints
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'start_token', None, None, ), # 1
(2, TType.STRING, 'end_token', None, None, ), # 2
(3, TType.LIST, 'endpoints', (TType.STRING,None), None, ), # 3
(4, TType.LIST, 'rpc_endpoints', (TType.STRING,None), None, ), # 4
)
def __init__(self, start_token=None, end_token=None, endpoints=None, rpc_endpoints=None,):
self.start_token = start_token
self.end_token = end_token
self.endpoints = endpoints
self.rpc_endpoints = rpc_endpoints
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.start_token = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.end_token = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.LIST:
self.endpoints = []
(_etype38, _size35) = iprot.readListBegin()
for _i39 in xrange(_size35):
_elem40 = iprot.readString();
self.endpoints.append(_elem40)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.LIST:
self.rpc_endpoints = []
(_etype44, _size41) = iprot.readListBegin()
for _i45 in xrange(_size41):
_elem46 = iprot.readString();
self.rpc_endpoints.append(_elem46)
iprot.readListEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('TokenRange')
if self.start_token != None:
oprot.writeFieldBegin('start_token', TType.STRING, 1)
oprot.writeString(self.start_token)
oprot.writeFieldEnd()
if self.end_token != None:
oprot.writeFieldBegin('end_token', TType.STRING, 2)
oprot.writeString(self.end_token)
oprot.writeFieldEnd()
if self.endpoints != None:
oprot.writeFieldBegin('endpoints', TType.LIST, 3)
oprot.writeListBegin(TType.STRING, len(self.endpoints))
for iter47 in self.endpoints:
oprot.writeString(iter47)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.rpc_endpoints != None:
oprot.writeFieldBegin('rpc_endpoints', TType.LIST, 4)
oprot.writeListBegin(TType.STRING, len(self.rpc_endpoints))
for iter48 in self.rpc_endpoints:
oprot.writeString(iter48)
oprot.writeListEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.start_token is None:
raise TProtocol.TProtocolException(message='Required field start_token is unset!')
if self.end_token is None:
raise TProtocol.TProtocolException(message='Required field end_token is unset!')
if self.endpoints is None:
raise TProtocol.TProtocolException(message='Required field endpoints is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class AuthenticationRequest:
"""
Authentication requests can contain any data, dependent on the IAuthenticator used
Attributes:
- credentials
"""
thrift_spec = (
None, # 0
(1, TType.MAP, 'credentials', (TType.STRING,None,TType.STRING,None), None, ), # 1
)
def __init__(self, credentials=None,):
self.credentials = credentials
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.MAP:
self.credentials = {}
(_ktype50, _vtype51, _size49 ) = iprot.readMapBegin()
for _i53 in xrange(_size49):
_key54 = iprot.readString();
_val55 = iprot.readString();
self.credentials[_key54] = _val55
iprot.readMapEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('AuthenticationRequest')
if self.credentials != None:
oprot.writeFieldBegin('credentials', TType.MAP, 1)
oprot.writeMapBegin(TType.STRING, TType.STRING, len(self.credentials))
for kiter56,viter57 in self.credentials.items():
oprot.writeString(kiter56)
oprot.writeString(viter57)
oprot.writeMapEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.credentials is None:
raise TProtocol.TProtocolException(message='Required field credentials is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class ColumnDef:
"""
Attributes:
- name
- validation_class
- index_type
- index_name
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.STRING, 'validation_class', None, None, ), # 2
(3, TType.I32, 'index_type', None, None, ), # 3
(4, TType.STRING, 'index_name', None, None, ), # 4
)
def __init__(self, name=None, validation_class=None, index_type=None, index_name=None,):
self.name = name
self.validation_class = validation_class
self.index_type = index_type
self.index_name = index_name
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.validation_class = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.I32:
self.index_type = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.STRING:
self.index_name = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('ColumnDef')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.validation_class != None:
oprot.writeFieldBegin('validation_class', TType.STRING, 2)
oprot.writeString(self.validation_class)
oprot.writeFieldEnd()
if self.index_type != None:
oprot.writeFieldBegin('index_type', TType.I32, 3)
oprot.writeI32(self.index_type)
oprot.writeFieldEnd()
if self.index_name != None:
oprot.writeFieldBegin('index_name', TType.STRING, 4)
oprot.writeString(self.index_name)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
if self.validation_class is None:
raise TProtocol.TProtocolException(message='Required field validation_class is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class CfDef:
"""
Attributes:
- keyspace
- name
- column_type
- comparator_type
- subcomparator_type
- comment
- row_cache_size
- key_cache_size
- read_repair_chance
- column_metadata
- gc_grace_seconds
- default_validation_class
- id
- min_compaction_threshold
- max_compaction_threshold
- row_cache_save_period_in_seconds
- key_cache_save_period_in_seconds
- memtable_flush_after_mins
- memtable_throughput_in_mb
- memtable_operations_in_millions
- replicate_on_write
- merge_shards_chance
- key_validation_class
- row_cache_provider
- key_alias
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'keyspace', None, None, ), # 1
(2, TType.STRING, 'name', None, None, ), # 2
(3, TType.STRING, 'column_type', None, "Standard", ), # 3
None, # 4
(5, TType.STRING, 'comparator_type', None, "BytesType", ), # 5
(6, TType.STRING, 'subcomparator_type', None, None, ), # 6
None, # 7
(8, TType.STRING, 'comment', None, None, ), # 8
(9, TType.DOUBLE, 'row_cache_size', None, 0, ), # 9
None, # 10
(11, TType.DOUBLE, 'key_cache_size', None, 200000, ), # 11
(12, TType.DOUBLE, 'read_repair_chance', None, 1, ), # 12
(13, TType.LIST, 'column_metadata', (TType.STRUCT,(ColumnDef, ColumnDef.thrift_spec)), None, ), # 13
(14, TType.I32, 'gc_grace_seconds', None, None, ), # 14
(15, TType.STRING, 'default_validation_class', None, None, ), # 15
(16, TType.I32, 'id', None, None, ), # 16
(17, TType.I32, 'min_compaction_threshold', None, None, ), # 17
(18, TType.I32, 'max_compaction_threshold', None, None, ), # 18
(19, TType.I32, 'row_cache_save_period_in_seconds', None, None, ), # 19
(20, TType.I32, 'key_cache_save_period_in_seconds', None, None, ), # 20
(21, TType.I32, 'memtable_flush_after_mins', None, None, ), # 21
(22, TType.I32, 'memtable_throughput_in_mb', None, None, ), # 22
(23, TType.DOUBLE, 'memtable_operations_in_millions', None, None, ), # 23
(24, TType.BOOL, 'replicate_on_write', None, None, ), # 24
(25, TType.DOUBLE, 'merge_shards_chance', None, None, ), # 25
(26, TType.STRING, 'key_validation_class', None, None, ), # 26
(27, TType.STRING, 'row_cache_provider', None, "org.apache.cassandra.cache.ConcurrentLinkedHashCacheProvider", ), # 27
(28, TType.STRING, 'key_alias', None, None, ), # 28
)
def __init__(self, keyspace=None, name=None, column_type=thrift_spec[3][4], comparator_type=thrift_spec[5][4], subcomparator_type=None, comment=None, row_cache_size=thrift_spec[9][4], key_cache_size=thrift_spec[11][4], read_repair_chance=thrift_spec[12][4], column_metadata=None, gc_grace_seconds=None, default_validation_class=None, id=None, min_compaction_threshold=None, max_compaction_threshold=None, row_cache_save_period_in_seconds=None, key_cache_save_period_in_seconds=None, memtable_flush_after_mins=None, memtable_throughput_in_mb=None, memtable_operations_in_millions=None, replicate_on_write=None, merge_shards_chance=None, key_validation_class=None, row_cache_provider=thrift_spec[27][4], key_alias=None,):
self.keyspace = keyspace
self.name = name
self.column_type = column_type
self.comparator_type = comparator_type
self.subcomparator_type = subcomparator_type
self.comment = comment
self.row_cache_size = row_cache_size
self.key_cache_size = key_cache_size
self.read_repair_chance = read_repair_chance
self.column_metadata = column_metadata
self.gc_grace_seconds = gc_grace_seconds
self.default_validation_class = default_validation_class
self.id = id
self.min_compaction_threshold = min_compaction_threshold
self.max_compaction_threshold = max_compaction_threshold
self.row_cache_save_period_in_seconds = row_cache_save_period_in_seconds
self.key_cache_save_period_in_seconds = key_cache_save_period_in_seconds
self.memtable_flush_after_mins = memtable_flush_after_mins
self.memtable_throughput_in_mb = memtable_throughput_in_mb
self.memtable_operations_in_millions = memtable_operations_in_millions
self.replicate_on_write = replicate_on_write
self.merge_shards_chance = merge_shards_chance
self.key_validation_class = key_validation_class
self.row_cache_provider = row_cache_provider
self.key_alias = key_alias
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.keyspace = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.STRING:
self.column_type = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 5:
if ftype == TType.STRING:
self.comparator_type = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 6:
if ftype == TType.STRING:
self.subcomparator_type = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 8:
if ftype == TType.STRING:
self.comment = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 9:
if ftype == TType.DOUBLE:
self.row_cache_size = iprot.readDouble();
else:
iprot.skip(ftype)
elif fid == 11:
if ftype == TType.DOUBLE:
self.key_cache_size = iprot.readDouble();
else:
iprot.skip(ftype)
elif fid == 12:
if ftype == TType.DOUBLE:
self.read_repair_chance = iprot.readDouble();
else:
iprot.skip(ftype)
elif fid == 13:
if ftype == TType.LIST:
self.column_metadata = []
(_etype61, _size58) = iprot.readListBegin()
for _i62 in xrange(_size58):
_elem63 = ColumnDef()
_elem63.read(iprot)
self.column_metadata.append(_elem63)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 14:
if ftype == TType.I32:
self.gc_grace_seconds = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 15:
if ftype == TType.STRING:
self.default_validation_class = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 16:
if ftype == TType.I32:
self.id = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 17:
if ftype == TType.I32:
self.min_compaction_threshold = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 18:
if ftype == TType.I32:
self.max_compaction_threshold = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 19:
if ftype == TType.I32:
self.row_cache_save_period_in_seconds = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 20:
if ftype == TType.I32:
self.key_cache_save_period_in_seconds = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 21:
if ftype == TType.I32:
self.memtable_flush_after_mins = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 22:
if ftype == TType.I32:
self.memtable_throughput_in_mb = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 23:
if ftype == TType.DOUBLE:
self.memtable_operations_in_millions = iprot.readDouble();
else:
iprot.skip(ftype)
elif fid == 24:
if ftype == TType.BOOL:
self.replicate_on_write = iprot.readBool();
else:
iprot.skip(ftype)
elif fid == 25:
if ftype == TType.DOUBLE:
self.merge_shards_chance = iprot.readDouble();
else:
iprot.skip(ftype)
elif fid == 26:
if ftype == TType.STRING:
self.key_validation_class = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 27:
if ftype == TType.STRING:
self.row_cache_provider = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 28:
if ftype == TType.STRING:
self.key_alias = iprot.readString();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('CfDef')
if self.keyspace != None:
oprot.writeFieldBegin('keyspace', TType.STRING, 1)
oprot.writeString(self.keyspace)
oprot.writeFieldEnd()
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 2)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.column_type != None:
oprot.writeFieldBegin('column_type', TType.STRING, 3)
oprot.writeString(self.column_type)
oprot.writeFieldEnd()
if self.comparator_type != None:
oprot.writeFieldBegin('comparator_type', TType.STRING, 5)
oprot.writeString(self.comparator_type)
oprot.writeFieldEnd()
if self.subcomparator_type != None:
oprot.writeFieldBegin('subcomparator_type', TType.STRING, 6)
oprot.writeString(self.subcomparator_type)
oprot.writeFieldEnd()
if self.comment != None:
oprot.writeFieldBegin('comment', TType.STRING, 8)
oprot.writeString(self.comment)
oprot.writeFieldEnd()
if self.row_cache_size != None:
oprot.writeFieldBegin('row_cache_size', TType.DOUBLE, 9)
oprot.writeDouble(self.row_cache_size)
oprot.writeFieldEnd()
if self.key_cache_size != None:
oprot.writeFieldBegin('key_cache_size', TType.DOUBLE, 11)
oprot.writeDouble(self.key_cache_size)
oprot.writeFieldEnd()
if self.read_repair_chance != None:
oprot.writeFieldBegin('read_repair_chance', TType.DOUBLE, 12)
oprot.writeDouble(self.read_repair_chance)
oprot.writeFieldEnd()
if self.column_metadata != None:
oprot.writeFieldBegin('column_metadata', TType.LIST, 13)
oprot.writeListBegin(TType.STRUCT, len(self.column_metadata))
for iter64 in self.column_metadata:
iter64.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.gc_grace_seconds != None:
oprot.writeFieldBegin('gc_grace_seconds', TType.I32, 14)
oprot.writeI32(self.gc_grace_seconds)
oprot.writeFieldEnd()
if self.default_validation_class != None:
oprot.writeFieldBegin('default_validation_class', TType.STRING, 15)
oprot.writeString(self.default_validation_class)
oprot.writeFieldEnd()
if self.id != None:
oprot.writeFieldBegin('id', TType.I32, 16)
oprot.writeI32(self.id)
oprot.writeFieldEnd()
if self.min_compaction_threshold != None:
oprot.writeFieldBegin('min_compaction_threshold', TType.I32, 17)
oprot.writeI32(self.min_compaction_threshold)
oprot.writeFieldEnd()
if self.max_compaction_threshold != None:
oprot.writeFieldBegin('max_compaction_threshold', TType.I32, 18)
oprot.writeI32(self.max_compaction_threshold)
oprot.writeFieldEnd()
if self.row_cache_save_period_in_seconds != None:
oprot.writeFieldBegin('row_cache_save_period_in_seconds', TType.I32, 19)
oprot.writeI32(self.row_cache_save_period_in_seconds)
oprot.writeFieldEnd()
if self.key_cache_save_period_in_seconds != None:
oprot.writeFieldBegin('key_cache_save_period_in_seconds', TType.I32, 20)
oprot.writeI32(self.key_cache_save_period_in_seconds)
oprot.writeFieldEnd()
if self.memtable_flush_after_mins != None:
oprot.writeFieldBegin('memtable_flush_after_mins', TType.I32, 21)
oprot.writeI32(self.memtable_flush_after_mins)
oprot.writeFieldEnd()
if self.memtable_throughput_in_mb != None:
oprot.writeFieldBegin('memtable_throughput_in_mb', TType.I32, 22)
oprot.writeI32(self.memtable_throughput_in_mb)
oprot.writeFieldEnd()
if self.memtable_operations_in_millions != None:
oprot.writeFieldBegin('memtable_operations_in_millions', TType.DOUBLE, 23)
oprot.writeDouble(self.memtable_operations_in_millions)
oprot.writeFieldEnd()
if self.replicate_on_write != None:
oprot.writeFieldBegin('replicate_on_write', TType.BOOL, 24)
oprot.writeBool(self.replicate_on_write)
oprot.writeFieldEnd()
if self.merge_shards_chance != None:
oprot.writeFieldBegin('merge_shards_chance', TType.DOUBLE, 25)
oprot.writeDouble(self.merge_shards_chance)
oprot.writeFieldEnd()
if self.key_validation_class != None:
oprot.writeFieldBegin('key_validation_class', TType.STRING, 26)
oprot.writeString(self.key_validation_class)
oprot.writeFieldEnd()
if self.row_cache_provider != None:
oprot.writeFieldBegin('row_cache_provider', TType.STRING, 27)
oprot.writeString(self.row_cache_provider)
oprot.writeFieldEnd()
if self.key_alias != None:
oprot.writeFieldBegin('key_alias', TType.STRING, 28)
oprot.writeString(self.key_alias)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.keyspace is None:
raise TProtocol.TProtocolException(message='Required field keyspace is unset!')
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class KsDef:
"""
Attributes:
- name
- strategy_class
- strategy_options
- replication_factor: @deprecated
- cf_defs
- durable_writes
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'name', None, None, ), # 1
(2, TType.STRING, 'strategy_class', None, None, ), # 2
(3, TType.MAP, 'strategy_options', (TType.STRING,None,TType.STRING,None), None, ), # 3
(4, TType.I32, 'replication_factor', None, None, ), # 4
(5, TType.LIST, 'cf_defs', (TType.STRUCT,(CfDef, CfDef.thrift_spec)), None, ), # 5
(6, TType.BOOL, 'durable_writes', None, True, ), # 6
)
def __init__(self, name=None, strategy_class=None, strategy_options=None, replication_factor=None, cf_defs=None, durable_writes=thrift_spec[6][4],):
self.name = name
self.strategy_class = strategy_class
self.strategy_options = strategy_options
self.replication_factor = replication_factor
self.cf_defs = cf_defs
self.durable_writes = durable_writes
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.name = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.STRING:
self.strategy_class = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.MAP:
self.strategy_options = {}
(_ktype66, _vtype67, _size65 ) = iprot.readMapBegin()
for _i69 in xrange(_size65):
_key70 = iprot.readString();
_val71 = iprot.readString();
self.strategy_options[_key70] = _val71
iprot.readMapEnd()
else:
iprot.skip(ftype)
elif fid == 4:
if ftype == TType.I32:
self.replication_factor = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 5:
if ftype == TType.LIST:
self.cf_defs = []
(_etype75, _size72) = iprot.readListBegin()
for _i76 in xrange(_size72):
_elem77 = CfDef()
_elem77.read(iprot)
self.cf_defs.append(_elem77)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 6:
if ftype == TType.BOOL:
self.durable_writes = iprot.readBool();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('KsDef')
if self.name != None:
oprot.writeFieldBegin('name', TType.STRING, 1)
oprot.writeString(self.name)
oprot.writeFieldEnd()
if self.strategy_class != None:
oprot.writeFieldBegin('strategy_class', TType.STRING, 2)
oprot.writeString(self.strategy_class)
oprot.writeFieldEnd()
if self.strategy_options != None:
oprot.writeFieldBegin('strategy_options', TType.MAP, 3)
oprot.writeMapBegin(TType.STRING, TType.STRING, len(self.strategy_options))
for kiter78,viter79 in self.strategy_options.items():
oprot.writeString(kiter78)
oprot.writeString(viter79)
oprot.writeMapEnd()
oprot.writeFieldEnd()
if self.replication_factor != None:
oprot.writeFieldBegin('replication_factor', TType.I32, 4)
oprot.writeI32(self.replication_factor)
oprot.writeFieldEnd()
if self.cf_defs != None:
oprot.writeFieldBegin('cf_defs', TType.LIST, 5)
oprot.writeListBegin(TType.STRUCT, len(self.cf_defs))
for iter80 in self.cf_defs:
iter80.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.durable_writes != None:
oprot.writeFieldBegin('durable_writes', TType.BOOL, 6)
oprot.writeBool(self.durable_writes)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.name is None:
raise TProtocol.TProtocolException(message='Required field name is unset!')
if self.strategy_class is None:
raise TProtocol.TProtocolException(message='Required field strategy_class is unset!')
if self.cf_defs is None:
raise TProtocol.TProtocolException(message='Required field cf_defs is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class CqlRow:
"""
Row returned from a CQL query
Attributes:
- key
- columns
"""
thrift_spec = (
None, # 0
(1, TType.STRING, 'key', None, None, ), # 1
(2, TType.LIST, 'columns', (TType.STRUCT,(Column, Column.thrift_spec)), None, ), # 2
)
def __init__(self, key=None, columns=None,):
self.key = key
self.columns = columns
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.STRING:
self.key = iprot.readString();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.LIST:
self.columns = []
(_etype84, _size81) = iprot.readListBegin()
for _i85 in xrange(_size81):
_elem86 = Column()
_elem86.read(iprot)
self.columns.append(_elem86)
iprot.readListEnd()
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('CqlRow')
if self.key != None:
oprot.writeFieldBegin('key', TType.STRING, 1)
oprot.writeString(self.key)
oprot.writeFieldEnd()
if self.columns != None:
oprot.writeFieldBegin('columns', TType.LIST, 2)
oprot.writeListBegin(TType.STRUCT, len(self.columns))
for iter87 in self.columns:
iter87.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.key is None:
raise TProtocol.TProtocolException(message='Required field key is unset!')
if self.columns is None:
raise TProtocol.TProtocolException(message='Required field columns is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
class CqlResult:
"""
Attributes:
- type
- rows
- num
"""
thrift_spec = (
None, # 0
(1, TType.I32, 'type', None, None, ), # 1
(2, TType.LIST, 'rows', (TType.STRUCT,(CqlRow, CqlRow.thrift_spec)), None, ), # 2
(3, TType.I32, 'num', None, None, ), # 3
)
def __init__(self, type=None, rows=None, num=None,):
self.type = type
self.rows = rows
self.num = num
def read(self, iprot):
if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None:
fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec))
return
iprot.readStructBegin()
while True:
(fname, ftype, fid) = iprot.readFieldBegin()
if ftype == TType.STOP:
break
if fid == 1:
if ftype == TType.I32:
self.type = iprot.readI32();
else:
iprot.skip(ftype)
elif fid == 2:
if ftype == TType.LIST:
self.rows = []
(_etype91, _size88) = iprot.readListBegin()
for _i92 in xrange(_size88):
_elem93 = CqlRow()
_elem93.read(iprot)
self.rows.append(_elem93)
iprot.readListEnd()
else:
iprot.skip(ftype)
elif fid == 3:
if ftype == TType.I32:
self.num = iprot.readI32();
else:
iprot.skip(ftype)
else:
iprot.skip(ftype)
iprot.readFieldEnd()
iprot.readStructEnd()
def write(self, oprot):
if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None:
oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec)))
return
oprot.writeStructBegin('CqlResult')
if self.type != None:
oprot.writeFieldBegin('type', TType.I32, 1)
oprot.writeI32(self.type)
oprot.writeFieldEnd()
if self.rows != None:
oprot.writeFieldBegin('rows', TType.LIST, 2)
oprot.writeListBegin(TType.STRUCT, len(self.rows))
for iter94 in self.rows:
iter94.write(oprot)
oprot.writeListEnd()
oprot.writeFieldEnd()
if self.num != None:
oprot.writeFieldBegin('num', TType.I32, 3)
oprot.writeI32(self.num)
oprot.writeFieldEnd()
oprot.writeFieldStop()
oprot.writeStructEnd()
def validate(self):
if self.type is None:
raise TProtocol.TProtocolException(message='Required field type is unset!')
return
def __repr__(self):
L = ['%s=%r' % (key, value)
for key, value in self.__dict__.iteritems()]
return '%s(%s)' % (self.__class__.__name__, ', '.join(L))
def __eq__(self, other):
return isinstance(other, self.__class__) and self.__dict__ == other.__dict__
def __ne__(self, other):
return not (self == other)
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