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A selection of tools for easier processing of data using Pandas and AWS

Project description

Dativa Tools

Provides useful libraries for processing large data sets. Developed by the team at www.dativa.com as we find them useful in our projects.

The key libraries included here are:

  • dativa.tools.aws.S3Csv2Parquet - an AWS Glue based tool to transform CSV files to Parquet files
  • dativa.tools.aws.AthenaClient - provide a simple wrapper to execute Athena queries and create tables. When combined with the S3Csv2Parquet handler can automatically change Athena outputs to Parquet format
  • dativa.tools.aws.PipelineClient - client to interact with the Pipeline API. When provided an api key, source S3 location, destination s3 location, and rules, it will clean the source file and post it to destination.
  • dativa.tools.aws.S3Client - a wrapper for AWS's boto library for S3 enabling easier iteration over S3 files and multiple deletions, as well as uploading multiple files
  • dativa.tools.SQLClient - a wrapper for any PEP249 compliant database client with logging and splitting of queries
  • dativa.tools.pandas.CSVHandler - improved CSV handling for Pandas
  • dativa.tools.pandas.ParquetHandler - improved Parquet handling for pandas
  • dativa.tools.pandas.Shapley - Shapley attribution modelling using pandas DataFrames

There are also some useful support functions for Pandas date and time handling.

Installation

pip install dativatools

Note that Dativa Tools uses loose binding to required libraries and the required binaries are thus not automatically installed with the package and you can import classes and functions from dativa tools without the required libraries installed. An ImportError is only raised at runtime if you are looking to use a function that depends on another package that is not installed.

The required libraries are listed in requirements.txt and include:

  • pyarror for ParquetHandler
  • pandas for all of the pandas extensions
  • awsretry and boto3 for any functions requiring AWS access
  • s3fs for many functions using S3
  • blist for Shapley
  • pycryptodome for encrypting CSVs in CSVHandler
  • chardet for sniffing encodings in CSVHandler
  • requests for PipelineClient

Description

dativa.tools.aws.AthenaClient

An easy to use client for AWS Athena that will create tables from S3 buckets (using AWS Glue) and run queries against these tables. It support full customisation of SerDe and column names on table creation.

Examples:

Creating tables

The library creates a temporary Glue crawler which is deleted after use, and will also create the database if it does not exist.

from dativa.tools.aws import AthenaClient
ac = AthenaClient("us-east-1", "my_athena_db")
ac.create_table(table_name='my_first_table',
                crawler_target={'S3Targets': [
                    {'Path': 's3://my-bucket/table-data'}]}
                )

# Create a table with a custom SerDe and column names, typical for CSV files
ac.create_table(table_name='comcast_visio_match',
                crawler_target={'S3Targets': [
                    {'Path': 's3://my-bucket/table-data-2', 'Exclusions': ['**._manifest']}]},
                serde='org.apache.hadoop.hive.serde2.OpenCSVSerde',
                columns=[{'Name': 'id', 'Type': 'string'}, {
                    'Name': 'device_id', 'Type': 'string'}, {'Name': 'subscriber_id', 'Type': 'string'}]
                )

Running queries

from dativa.tools.aws import AthenaClient

ac = AthenaClient("us-east-1", "my_athena_db")
ac.add_query(sql="select * from table",
                 name="My first query",
                 output_location= "s3://my-bucket/query-location/")

ac.wait_for_completion()

Fetch results of query

from dativa.tools.aws import AthenaClient

ac = AthenaClient("us-east-1", "my_athena_db")
query = ac.add_query(sql="select * from table",
                     name="My first query",
                     output_location= "s3://my-bucket/query-location/")

ac.wait_for_completion()
ac.get_query_result(query)

Running queries with the output in Parquet and create an Athena table

from dativa.tools.aws import AthenaClient, S3Csv2Parquet

scp = S3Csv2Parquet(region="us-east-1",
                    template_location="s3://my-bucket/glue-template-path/")
ac = AthenaClient("us-east-1", "my_athena_db", s3_parquet=scp)
ac.add_query(sql="select * from table",
                 name="my query that outputs Parquet",
                 output_location="s3://my-bucket/query-location/",
                 parquet=True)

ac.wait_for_completion()

ac.create_table({'S3Targets': [{'Path': "s3://my-bucket/query-location/"}]},
                                        table_name="query_location")

dativa.tools.aws.S3Client

An easy to use client for AWS S3 that copies data to S3. Examples:

Batch deleting of files on S3

from dativa.tools.aws import S3Client

# Delete all files in a folder
s3 = S3Client()
s3.delete_files(bucket="bucket_name", prefix="/delete-this-folder/")

# Delete only .csv.metadata files in a folder
s3 = S3Client()
s3.delete_files(bucket="bucket_name", prefix="/delete-this-folder/", suffix=".csv.metadata")

Copy files from folder in local filesystem to s3 bucket

from dativa.tools.aws import S3Client

s3 = S3Client()
s3.put_folder(source="/home/user/my_folder", bucket="bucket_name", destination="backup/files")

# Copy all csv files from folder to s3
s3.put_folder(source="/home/user/my_folder", bucket="bucket_name", destination="backup/files", file_format="*.csv")

dativa.tools.SQLClient

A SQL client that wraps any PEP249 compliant connection object and provides detailed logging and simple query execution.

It takes the following parameters when instantaited:

  • db_connection - a PEP257 compatible database connection
  • logger - the logger to use
  • logging_level - the level at which to log most output
  • log_query_text - whether to log all of the query text
  • humour - if set to true output jokes to pass the time of day waiting for queries to complete

execute_query

Runs a query and ignores any output

Parameters:

  • query - the query to run, either a SQL file or a SQL query
  • parameters - a dict of parameters to substitute in the query
  • replace - a dict or items to be replaced in the SQL text
  • first_to_run - the index of the first query in a mult-command query to be executed

execute_query_to_df

Runs a query and returns the output of the final statement in a DataFrame.

Parameters:

  • query - the query to run, either a SQL file or a SQL query
  • parameters - a dict of parameters to substitute in the query
  • replace - a dict or items to be replaced in the SQL text
  • first_to_run - the index of the first query in a mult-command query to be executed

def execute_query_to_csv

Runs a query and writes the output of the final statement to a CSV file.

Parameters:

  • query - the query to run, either a SQL file or a SQL query
  • csvfile - the file name to save the query results to
  • parameters - a dict of parameters to substitute in the query
  • replace - a dict or items to be replaced in the SQL text

Example code

import os
import psycopg2
from dativa.tools import SqlClient

# set up the SQL client from environment variables
sql = SqlClient(psycopg2.connect(
    database=os.environ["DB_NAME"],
    user=os.environ["USER"],
    password=os.environ["PASSWORD"],
    host=os.environ["HOST"],
    port=os.environ["PORT"],
    client_encoding="UTF-8",
    connect_timeout=10))

# create the full schedule table
df = sql.execute_query_to_df(query="sql/my_query.sql",
                             parameters={"start_date": "2018-01-01",
                                         "end_date": "2018-02-01"})

dativa.tools.log_to_stdout

A convenience function to redirect a specific logger and its children to stdout

import logging
from dativa.tools import log_to_stdout

log_to_stdout("dativa.tools", logging.DEBUG)

dativa.tools.pandas.CSVHandler

A wrapper for pandas CSV handling to read and write dataframes that is provided in pandas with consistent CSV parameters and sniffing the CSV parameters automatically. Includes reading a CSV into a dataframe, and writing it out to a string.

Parameters

  • base_path: the base path for any CSV file read, if passed as a string
  • detect_parameters: whether the encoding of the CSV file should be automatically detected
  • encoding: the encoding of the CSV files, defaults to UTF-8
  • delimiter: the delimeter used in the CSV, defaults to ,
  • header: the index of the header row, or -1 if there is no header
  • skiprows: the number of rows at the beginning of file to skip
  • quotechar: the quoting character to use, defaults to ""
  • include_index: specifies whether the index should be written out, default to False
  • compression: specifies whether the data should be encoded, default to 'infer'
  • nan_values: an array of possible NaN values, the first of which is used when writign out, defaults to None
  • line_terminator: the line terminator to be used
  • quoting: the level of quoting, defaults to QUOTE_MINIMAL
  • decimal: the decimal character, defaults to '.'
  • chunksize: if specified the CSV is written out in chunks
  • aes_key: bytes, allowable lengths are 16, 24, 32

for decrypting and encrypting CSVs when passing to a dataframe, this uses AES CFB encryption via Pycryptodome

  • aes_iv: bytes, must have length of 16

the initialization vector for the AES CFB encryption via Pycryptodome. If aes_key is specified and this is not, it will auto-generate an iv and prefix it to the encrypted bytes.

load_df

Opens a CSV file using the specified configuration for the class and raises an exception if the encoding is unparseable. Detects if base_path is an S3 location and loads data from there if required.

Parameters:

  • file - File path. Should begin with 's3://' to load from S3 location.
  • force_dtype - Force data type for data or columns, defaults to None
  • kwargs - any of the keyword arguments used to create the class can also be passed to load_df

Returns:

  • dataframe

save_df

Writes a formatted string from a dataframe using the specified configuration for the class the file. Detects if base_path is an S3 location and saves data there if required.

Parameters:

  • df - Dataframe to save
  • file - File path. Should begin with 's3://' to save to an S3 location.
  • kwargs - any of the keyword arguments used to create the class can also be passed to save_df

df_to_string

Returns a formatted string from a dataframe using the specified configuration for the class.

Parameters:

  • df - Dataframe to convert to string
  • kwargs - any of the keyword arguments used to create the class can also be passed to df_to_string

Returns:

  • string

Example code

from dativa.tools.pandas import CSVHandler

# Create the CSV handler
csv = CSVHandler(base_path='s3://my-bucket-name/')

# Load a file
df = csv.load_df('my-file-name.csv')

# Create a string
str_df = csv.df_to_string(df)

# Save a file
csv.save_df(df, 'another-path/another-file-name.csv')

Support functions for Pandas

  • dativa.tools.pandas.is_numeric - a function to check whether a series or string is numeric
  • dativa.tools.pandas.string_to_datetime - a function to convert a string, or series of strings to a datetime, with a strptime date format that supports nanoseconds
  • dativa.tools.pandas.datetime_to_string - a function to convert a datetime, or a series of datetimes to a string, with a strptime date format that supports nanoseconds
  • dativa.tools.pandas.format_string_is_valid - a function to confirm whether a strptime format string returns a date
  • dativa.tools.pandas.get_column_name - a function to return the name of a column from a passed column name or index.
  • dativa.tools.pandas.get_unique_column_name - a function to return a unique column name when adding new columns to a DataFrame

dativa.tools.pandas.ParquetHandler

ParquetHandler class, specify path of parquet file, and get pandas dataframe for analysis and modification.

  • param base_path : The base location where the parquet_files are stored.
  • type base_path : str
  • param row_group_size : The size of the row groups while writing out the parquet file.
  • type row_group_size : int
  • param use_dictionary : Specify whether to use boolean encoding or not
  • type use_dictionary : bool
  • param use_deprecated_int96_timestamps : Write nanosecond resolution timestamps to INT96 Parquet format.
  • type use_deprecated_int96_timestamps : bool
  • param coerce_timestamps : Cast timestamps a particular resolution. Valid values: {None, 'ms', 'us'}
  • type coerce_timestamps : str
  • param compression : Specify the compression codec.
  • type compression : str
from dativa.tools.pandas import CSVHandler, ParquetHandler

# Read a parquet file
pq_obj = ParquetHandler()
df_parquet = pq_obj.load_df('data.parquet')

# save a csv_file to parquet
csv = CSVHandler(csv_delimiter=",")
df = csv.load_df('emails.csv')
pq_obj = ParquetHandler()
pq_obj.save_df(df, 'emails.parquet')

dativa.tools.aws import S3Csv2Parquet

An easy to use module for converting csv files on s3 to praquet using aws glue jobs. For S3 access and glue access suitable credentials should be available in '~/.aws/credentials' or the AWS_ACCESS_KEY_ID/AWS_SECRET_ACCESS_KEY environment variables.

S3Csv2Parquet

Parameters:

  • region - str, AWS region in which glue job is to be run
  • template_location - str, S3 bucket Folder in which template scripts are located or need to be copied. format s3://bucketname/folder/ it is not clear to those unfamiliar with glue what this is.
  • glue_role - str, Name of the glue role which need to be assigned to the Glue Job.
  • max_jobs - int, default 5 Maximum number of jobs the can run concurrently in the queue
  • retry_limit - int, default 3 Maximum number of retries allowed per job on failure

convert

Parameters:

  • csv_path - str or list of str for multiple files, s3 location of the csv file format s3://bucketname/folder/file.csv Pass a list for multiple files
  • output_folder - str, default set to folder where csv files are located s3 location at which paraquet file should be copied format s3://bucketname/folder
  • schema - list of tuples, If not specified schema is inferred from the file format [(column1, datatype), (column2, datatype)] Supported datatypes are boolean, double, float, integer, long, null, short, string
  • name - str, default 'parquet_csv_convert' Name to be assigned to glue job
  • allocated_capacity - int, default 2 The number of AWS Glue data processing units (DPUs) to allocate to this Job. From 2 to 100 DPUs can be allocated
  • delete_csv - boolean, default False If set source csv files are deleted post successful completion of job
  • separator - character, default ',' Delimiter character in csv files
  • with_header- int, default 1 Specifies whether to treat the first line as a header Can take values 0 or 1
  • compression - str, default None If not specified compression is not applied. Can take values snappy, gzip, and lzo
  • partition_by - list of str, default None List containing columns to partition data by
  • mode - str, default append Options include: overwrite: will remove data from output_folder before writing out converted file. append: Will write out to output_folder without deleting existing data. ignore: Silently ignore this operation if data already exists.

####Example

from dativa.tools.aws import S3Csv2Parquet

# Initial setup
csv2parquet_obj = S3Csv2Parquet("us-east-1", "s3://my-bucket/templatefolder")

# Create/update a glue job to convert csv files and execute it
csv2parquet_obj.convert("s3://my-bucket/file_to_be_converted_1.csv")
csv2parquet_obj.convert("s3://my-bucket/file_to_be_converted_2.csv")

# Wait for completion of jobs 
csv2parquet_obj.wait_for_completion()

dativa.tools.aws.PipelineClient

PipelineClient class, provide api key, source s3 location, destination s3 location, rules, and get source file cleaned and posted to destination. Refer https://www.dativa.com/tools/dativatools/aws-api/ for more details.

Arguments:

  • api_key : str, The individual key provided by the pipeline api

  • source_s3_url : str, The S3 source where the csv files are present

  • destination_s3_url : str, The S3 destination where the files are to be posted after cleansing

  • rules : list of dicts OR str, rules by which to clean the file

                        list of dicts specifying each rule to be applied 
                        str specifying location of the rules file
    
  • url : str, url of the pipeline api, defaults to

                        https://pipeline-api.dativa.com/clean
    
  • status_url : url, the url to query for to check status of the api call, defaults to

                        https://pipeline-api.dativa.com/status/{0}
    
  • source_delimiter : str, the delimiter of the source file, defaults to ","

  • destination_delimiter : str, the delimiter of the destination file, defaults to ","

  • source_encoding : str, the encoding of the source file, defaults to "utf-8"

  • destination_encoding : str, the encoding of the destination file, defaults to "utf-8"

Example code

from dativa.tools.aws import PipelineClient
import os
api_key = os.environ["DATIVA_PIPELINE_API_KEY"]
rules = [{'field': 'to',
          'params': {'fallback_mode': 'remove_record',          
                     'maximum_length': 1024,        
                     'minimum_length': 5,       
                     'regex': '[^@]+@[^.]..*[^.]'},                               
          'rule_type': 'String'}]
bucket = "example-of-bucket"
obj = PipelineClient(api_key=api_key,
                     rules=rules,
                     source_s3_url="s3://{0}/source_key".format(bucket),
                     destination_s3_url="s3://{0}/dest_key".format(bucket),
                     )
obj.run_job_synchronously()

To run tests

The API and AWS credentials must be present as environment variables for the testing to pass successfully

export DATIVA_PIPELINE_API_KEY=API_KEY_HERE
export AWS_ACCESS_KEY_ID=AWS_CREDENTIALS_HERE
export AWS_SECRET_ACCESS_KEY=AWS_CREDENTIALS_HERE

The user must also specify a bucket to act as a source and a separate one to act as the destination.

dativa.tools.pandas.Shapley

Shapley attribution of scores to members of sets.

See medium or wiki for details on the math. The aim is to apportion scores between the members of a set responsible for producing that score.

Takes two DataFrames as input, one containing impressions from campaigns and the other containing conversions.

eg. campaigns

viewer_id campaign_id
20 B
19 B
12 B
6 A
17 B
12 B
8 B
3 A
18 A

where a campaign_id might be a campaign that an individual has interacted with. Each viewer / campaign pair is only considered once.

eg 2. conversions

|viewer_id| |: --- :| |14| |12| |2| |3| |11|

these are individuals that have converted. From this a conversion rate is calculated which is used as a score. That score is apportioned among the campaigns.

Typically not all combinations of impressions are present (particularly in where there are lots of campaigns being run). The missing combinations are assigned a default score, which might be an average conversion rate or similar. This is passed to the class constructor as default_score and must be numeric.

Example code

s = Shapley(df_campaigns, df_conversions, 'viewer_id', 'campaign_id', default_score=0.01)

results = s.run()

dativa.tools.FileValidation

A module to validate the files present in a given directory based on glob pattern matching. The FileValidation class initialises and checks a set of rules for a file validation, this can then be run for various paths and glob pattern matches via a method (run_validator). Validation is be based on various properties - time last modified, size and the number of files which match criteria. Examples on how to use the file validation are provided below.

FileValidation Arguments:

  • timestamp: (tuple or str or None) strings for min and max time (str or None, str or None) in UTC. This is read in with datetime.strptime, so must use compatible formats
  • file_size: (tuple or int or None) min and max size in bytes (int or None, int or None), treats single int as minimum
  • file_count: (tuple or int or None) min and max file count, treats single int as minimum
  • timestamp_format: (str) string for a valid timestamp, specified format for both max and min timestamp, uses datetime.strptime, hence must be in compatible format.

run_validator Arguments:

  • path: (str) path to the files - can either be a path for S3Location or an absolute local file path. CANNOT HAVE '/' AS THE FINAL CHARACTER.
  • glob_pattern: (str) pattern of glob files to be examined. CANNOT HAVE '/' AS THE FIRST CHARACTER.
  • consider_correctly_formed_files: (bool) if False, consider malformed files (which do not match validation) for the file_count argument of FileValidation
  • raise_exceptions: (bool) whether to raise exception when finding files which do not match validation criteria

Example codes

The code can either return a list of files (either all which match the criteria or those which do not) or raise an exception if any files fail the validation. This can be applied to either files on S3 or on the local filesystem.

The files to be validated are specified via s3fs.glob for S3 (see https://s3fs.readthedocs.io/en/latest/) and glob.glob for local files (see https://docs.python.org/3/library/glob.html).

Check number of CSVs in a given path

from dativa.tools import FileValidation
# ensure there are between 10 and 100 CSVs in your target folder
# this command ignores other file extensions (e.g. .tsv files) as they aren't picked up by the glob pattern          
fv = FileValidation(file_count=(10, 100))   # between 10 and 100 bytes 
# if validation is not met, raise an exception
fv.run_validator(path="s3://some-bucket/some-path",
                 glob_pattern="*.csv",
                 raise_exceptions=True)

Check that a specific file was last modified on a specific date and is smaller than a given size

from dativa.tools import FileValidation

fv = FileValidation(file_size=(None, 2*2**10),  # 2 KB
                    timestamp=("2018-12-25", "2018-12-25"), # made on 25th Dec 2018 
                    timestamp_format="%Y-%m-%d")
# if validation is not met, raise an exception                    
fv.run_validator(path="s3://some-bucket/some-path",
                 glob_pattern="some-specific-key.csv",
                 raise_exceptions=True)

Return file which do not match a certain size and age range

from dativa.tools import FileValidation
from datetime import datetime
fv = FileValidation(file_size=(10, None), # minimum file size of 10 bytes 
                    # no minimum time, earliest files made today
                    timestamp=(None, datetime.utcnow().strftime("%Y-%m-%d")),
                    timestamp_format="%Y-%m-%d")
                    
# return files in dictionary                    
list_of_bad_files = fv.run_validator(path="/Users/your-name/absolute/file/path",
                                     glob_pattern="*",
                                     consider_correctly_formed_files=False)

Local file paths must be absolute paths rather than relative paths

from dativa.tools import FileValidation
fv = FileValidation(file_size=(10, 10*2**20) # between 10 bytes and 10 GB
                    )
# return files which do not match the specified validation                    
list_of_bad_files = fv.run_validator(path="/Users/your-name/absolute/file/path",
                                     glob_pattern="*",
                                     consider_correctly_formed_files=False)

# return files which match the specified validation                    
list_of_good_files = fv.run_validator(path="/Users/your-name/absolute/file/path",
                                      glob_pattern="*",
                                      consider_correctly_formed_files=True)

NOTE - both the path must not end with a '/' AND glob_pattern must not start with one

from dativa.tools import FileValidation
fv = FileValidation(file_size=(10, None), # minimum file size of 10 bytes 
                    )
                    
# return files in dictionary                    
this_will_not_run = fv.run_validator(path="/Users/your-name/absolute/file/path/",
                                     glob_pattern="/*",
                                     consider_correctly_formed_files=False)
also_will_not_run = fv.run_validator(path="/Users/your-name/absolute/file/path/",
                                     glob_pattern="*",
                                     consider_correctly_formed_files=False)
again_will_not_run = fv.run_validator(path="/Users/your-name/absolute/file/path",
                                      glob_pattern="/*",
                                      consider_correctly_formed_files=False)

Legacy classes

The modules in the dativatools namespace are legacy only and will be deprecated in future.

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