Python* API Reference for Intel® Data Analytics Acceleration Library 2020 Update 1

Public Member Functions | List of all members
Result Class Reference

Provides methods to access final results obtained with the compute() method of the quantiles algorithm in the batch processing mode. More...

Public Member Functions

def serializationTag
 
def getSerializationTag
 
def __init__
 
def get
 
def set
 
def check
 
def allocate_{Float64|Float32}
 
- Public Member Functions inherited from Result
def __init__
 
def getSerializationTag
 
def check
 
- Public Member Functions inherited from SerializationIface
def serialize
 
def deserialize
 
def getSerializationTag
 
- Public Member Functions inherited from Base
def __init__
 
- Public Member Functions inherited from Argument
def __init__
 
def __lshift__
 
def size
 

Detailed Description

Constructor & Destructor Documentation

def __init__ (   self)

Member Function Documentation

def allocate_{Float64|Float32} (   self,
  input,
  parameter,
  method 
)

Allocates memory to store final results of the quantile algorithms

Parameters
inputInput objects for the quantiles algorithm
parameterParameters of the quantiles algorithm
methodAlgorithm computation method
Full Names
  • allocate_Float64 is for float64
  • allocate_Float32 is for float32
def check (   self,
  arg2,
  par,
  method 
)

Checks the correctness of the Result object

Parameters
inPointer to the object
parPointer to the parameters structure
methodAlgorithm computation method
def get (   self,
  id 
)

Returns the final result of the quantiles algorithm

Parameters
idIdentifier of the final result, ResultId
Returns
Final result that corresponds to the given identifier
def getSerializationTag (   self)

getSerializationTag(Result self) -> int

def serializationTag ( )
def set (   self,
  id,
  value 
)

Sets the Result object of the quantiles algorithm

Parameters
idIdentifier of the Result object
valuePointer to the Result object

The documentation for this class was generated from the following file:

For more complete information about compiler optimizations, see our Optimization Notice.