import argparse import collections import gpudb import sys import random SCHEMA = 'example_udf_python' INPUT_TABLE = SCHEMA + '.udf_cublas_in_table' OPTION_NO_CREATE_ERROR = {"no_error_if_exists": "true"} def python_cublas_udf_init(): # Create the Python UDF example schema, if it doesn't exist kinetica.create_schema(SCHEMA, options=OPTION_NO_CREATE_ERROR) ## Create input data table kinetica.clear_table(table_name = INPUT_TABLE, options = OPTION_NO_DROP_ERROR) input_table = gpudb.GPUdbTable( _type = [ ["x", "float"], ["y", "float"], ["z", "float"] ], name = INPUT_TABLE, db = kinetica, options = gpudb.GPUdbTableOptions.default().is_replicated(True) ) ## Insert input data records = [] for val in range(10): records.append([random.uniform(0,10), random.uniform(0,10), random.uniform(0,10)]) input_table.insert_records(records) # end python_cublas_udf_init() if __name__ == '__main__': # Set up args parser = argparse.ArgumentParser(description='Initialize table for Python UDF CUBLAS example.') parser.add_argument('--url', default='http://127.0.0.1:9191', help='Kinetica URL to run example against') parser.add_argument('--username', default='', help='Username of user to run example with') parser.add_argument('--password', default='', help='Password of user') args = parser.parse_args() # Establish connection with an instance of Kinetica kinetica = gpudb.GPUdb(host=[args.url], username=args.username, password=args.password) # Execute defined functions python_cublas_udf_init()