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meza: A Python toolkit for processing tabular data

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Index

Introduction | Requirements | Motivation | Hello World | Usage | Interoperability | Installation | Project Structure | Design Principles | Scripts | Contributing | Credits | More Info | License

Introduction

meza is a Python library for reading and processing tabular data. It has a functional programming style API, excels at reading/writing large files, and can process 10+ file types.

With meza, you can

  • Read csv/xls/xlsx/mdb/dbf files, and more!
  • Type cast records (date, float, text...)
  • Process Uñicôdë text
  • Lazily stream files by default
  • and much more...

Requirements

meza has been tested and is known to work on Python 3.7, 3.8, and 3.9; and PyPy3.7.

Optional Dependencies

Function Dependency Installation File type / extension
meza.io.read_mdb mdbtools sudo port install mdbtools Microsoft Access / mdb
meza.io.read_html lxml [1] pip install lxml HTML / html
meza.convert.records2array NumPy [2] pip install numpy n/a
meza.convert.records2df pandas pip install pandas n/a

Notes

[1]If lxml isn't present, read_html will default to the builtin Python html reader
[2]records2array can be used without numpy by passing native=True in the function call. This will convert records into a list of native array.array objects.

Motivation

Why I built meza

pandas is great, but installing it isn't exactly a walk in the park, and it doesn't play nice with PyPy. I designed meza to be a lightweight, easy to install, less featureful alternative to pandas. I also optimized meza for low memory usage, PyPy compatibility, and functional programming best practices.

Why you should use meza

meza provides a number of benefits / differences from similar libraries such as pandas. Namely:

For more detailed information, please check-out the FAQ.

Hello World

A simple data processing example is shown below:

First create a simple csv file (in bash)

echo 'col1,col2,col3\nhello,5/4/82,1\none,1/1/15,2\nhappy,7/1/92,3\n' > data.csv

Now we can read the file, manipulate the data a bit, and write the manipulated data back to a new file.

>>> from meza import io, process as pr, convert as cv
>>> from io import open

>>> # Load the csv file
>>> records = io.read_csv('data.csv')

>>> # `records` are iterators over the rows
>>> row = next(records)
>>> row
{'col1': 'hello', 'col2': '5/4/82', 'col3': '1'}

>>> # Let's replace the first row so as not to lose any data
>>> records = pr.prepend(records, row)

# Guess column types. Note: `detect_types` returns a new `records`
# generator since it consumes rows during type detection
>>> records, result = pr.detect_types(records)
>>> {t['id']: t['type'] for t in result['types']}
{'col1': 'text', 'col2': 'date', 'col3': 'int'}

# Now type cast the records. Note: most `meza.process` functions return
# generators, so lets wrap the result in a list to view the data
>>> casted = list(pr.type_cast(records, result['types']))
>>> casted[0]
{'col1': 'hello', 'col2': datetime.date(1982, 5, 4), 'col3': 1}

# Cut out the first column of data and merge the rows to get the max value
# of the remaining columns. Note: since `merge` (by definition) will always
# contain just one row, it is returned as is (not wrapped in a generator)
>>> cut_recs = pr.cut(casted, ['col1'], exclude=True)
>>> merged = pr.merge(cut_recs, pred=bool, op=max)
>>> merged
{'col2': datetime.date(2015, 1, 1), 'col3': 3}

# Now write merged data back to a new csv file.
>>> io.write('out.csv', cv.records2csv(merged))

# View the result
>>> with open('out.csv', 'utf-8') as f:
...     f.read()
'col2,col3\n2015-01-01,3\n'

Usage

meza is intended to be used directly as a Python library.

Usage Index

Reading data

meza can read both filepaths and file-like objects. Additionally, all readers return equivalent records iterators, i.e., a generator of dictionaries with keys corresponding to the column names.

>>> from io import open, StringIO
>>> from meza import io

"""Read a filepath"""
>>> records = io.read_json('path/to/file.json')

"""Read a file like object and de-duplicate the header"""
>>> f = StringIO('col,col\nhello,world\n')
>>> records = io.read_csv(f, dedupe=True)

"""View the first row"""
>>> next(records)
{'col': 'hello', 'col_2': 'world'}

"""Read the 1st sheet of an xls file object opened in text mode."""
# Also, santize the header names by converting them to lowercase and
# replacing whitespace and invalid characters with `_`.
>>> with open('path/to/file.xls', 'utf-8') as f:
...     for row in io.read_xls(f, sanitize=True):
...         # do something with the `row`
...         pass

"""Read the 2nd sheet of an xlsx file object opened in binary mode"""
# Note: sheets are zero indexed
>>> with open('path/to/file.xlsx') as f:
...     records = io.read_xls(f, encoding='utf-8', sheet=1)
...     first_row = next(records)
...     # do something with the `first_row`

"""Read any recognized file"""
>>> records = io.read('path/to/file.geojson')
>>> f.seek(0)
>>> records = io.read(f, ext='csv', dedupe=True)

Please see readers for a complete list of available readers and recognized file types.

Processing data

Numerical analysis (à la pandas) [3]

In the following example, pandas equivalent methods are preceded by -->.

>>> import itertools as it
>>> import random

>>> from io import StringIO
>>> from meza import io, process as pr, convert as cv, stats

# Create some data in the same structure as what the various `read...`
# functions output
>>> header = ['A', 'B', 'C', 'D']
>>> data = [(random.random() for _ in range(4)) for x in range(7)]
>>> df = [dict(zip(header, d)) for d in data]
>>> df[0]
{'A': 0.53908..., 'B': 0.28919..., 'C': 0.03003..., 'D': 0.65363...}

"""Sort records by the value of column `B` --> df.sort_values(by='B')"""
>>> next(pr.sort(df, 'B'))
{'A': 0.53520..., 'B': 0.06763..., 'C': 0.02351..., 'D': 0.80529...}

"""Select column `A` --> df['A']"""
>>> next(pr.cut(df, ['A']))
{'A': 0.53908170489952006}

"""Select the first three rows of data --> df[0:3]"""
>>> len(list(it.islice(df, 3)))
3

"""Select all data whose value for column `A` is less than 0.5
--> df[df.A < 0.5]
"""
>>> next(pr.tfilter(df, 'A', lambda x: x < 0.5))
{'A': 0.21000..., 'B': 0.25727..., 'C': 0.39719..., 'D': 0.64157...}

# Note: since `aggregate` and `merge` (by definition) return just one row,
# they return them as is (not wrapped in a generator).
"""Calculate the mean of column `A` across all data --> df.mean()['A']"""
>>> pr.aggregate(df, 'A', stats.mean)['A']
0.5410437473067938

"""Calculate the sum of each column across all data --> df.sum()"""
>>> pr.merge(df, pred=bool, op=sum)
{'A': 3.78730..., 'C': 2.82875..., 'B': 3.14195..., 'D': 5.26330...}

Text processing (à la csvkit) [4]

In the following example, csvkit equivalent commands are preceded by -->.

First create a few simple csv files (in bash)

echo 'col_1,col_2,col_3\n1,dill,male\n2,bob,male\n3,jane,female' > file1.csv
echo 'col_1,col_2,col_3\n4,tom,male\n5,dick,male\n6,jill,female' > file2.csv

Now we can read the files, manipulate the data, convert the manipulated data to json, and write the json back to a new file. Also, note that since all readers return equivalent records iterators, you can use them interchangeably (in place of read_csv) to open any supported file. E.g., read_xls, read_sqlite, etc.

>>> import itertools as it

>>> from meza import io, process as pr, convert as cv

"""Combine the files into one iterator
--> csvstack file1.csv file2.csv
"""
>>> records = io.join('file1.csv', 'file2.csv')
>>> next(records)
{'col_1': '1', 'col_2': 'dill', 'col_3': 'male'}
>>> next(it.islice(records, 4, None))
{'col_1': '6', 'col_2': 'jill', 'col_3': 'female'}

# Now let's create a persistent records list
>>> records = list(io.read_csv('file1.csv'))

"""Sort records by the value of column `col_2`
--> csvsort -c col_2 file1.csv
"""
>>> next(pr.sort(records, 'col_2'))
{'col_1': '2', 'col_2': 'bob', 'col_3': 'male'

"""Select column `col_2` --> csvcut -c col_2 file1.csv"""
>>> next(pr.cut(records, ['col_2']))
{'col_2': 'dill'}

"""Select all data whose value for column `col_2` contains `jan`
--> csvgrep -c col_2 -m jan file1.csv
"""
>>> next(pr.grep(records, [{'pattern': 'jan'}], ['col_2']))
{'col_1': '3', 'col_2': 'jane', 'col_3': 'female'}

"""Convert a csv file to json --> csvjson -i 4 file1.csv"""
>>> io.write('file.json', cv.records2json(records))

# View the result
>>> with open('file.json', 'utf-8') as f:
...     f.read()
'[{"col_1": "1", "col_2": "dill", "col_3": "male"}, {"col_1": "2",
"col_2": "bob", "col_3": "male"}, {"col_1": "3", "col_2": "jane",
"col_3": "female"}]'

Geo processing (à la mapbox) [5]

In the following example, mapbox equivalent commands are preceded by -->.

First create a geojson file (in bash)

echo '{"type": "FeatureCollection","features": [' > file.geojson
echo '{"type": "Feature", "id": 11, "geometry": {"type": "Point", "coordinates": [10, 20]}},' >> file.geojson
echo '{"type": "Feature", "id": 12, "geometry": {"type": "Point", "coordinates": [5, 15]}}]}' >> file.geojson

Now we can open the file, split the data by id, and finally convert the split data to a new geojson file-like object.

>>> from meza import io, process as pr, convert as cv

# Load the geojson file and peek at the results
>>> records, peek = pr.peek(io.read_geojson('file.geojson'))
>>> peek[0]
{'lat': 20, 'type': 'Point', 'lon': 10, 'id': 11}

"""Split the records by feature ``id`` and select the first feature
--> geojsplit -k id file.geojson
"""
>>> splits = pr.split(records, 'id')
>>> feature_records, name = next(splits)
>>> name
11

"""Convert the feature records into a GeoJSON file-like object"""
>>> geojson = cv.records2geojson(feature_records)
>>> geojson.readline()
'{"type": "FeatureCollection", "bbox": [10, 20, 10, 20], "features": '
'[{"type": "Feature", "id": 11, "geometry": {"type": "Point", '
'"coordinates": [10, 20]}, "properties": {"id": 11}}], "crs": {"type": '
'"name", "properties": {"name": "urn:ogc:def:crs:OGC:1.3:CRS84"}}}'

# Note: you can also write back to a file as shown previously
# io.write('file.geojson', geojson)

Writing data

meza can persist records to disk via the following functions:

  • meza.convert.records2csv
  • meza.convert.records2json
  • meza.convert.records2geojson

Each function returns a file-like object that you can write to disk via meza.io.write('/path/to/file', result).

>>> from meza import io, convert as cv
>>> from io import StringIO, open

# First let's create a simple tsv file like object
>>> f = StringIO('col1\tcol2\nhello\tworld\n')
>>> f.seek(0)

# Next create a records list so we can reuse it
>>> records = list(io.read_tsv(f))
>>> records[0]
{'col1': 'hello', 'col2': 'world'}

# Now we're ready to write the records data to file

"""Create a csv file like object"""
>>> cv.records2csv(records).readline()
'col1,col2\n'

"""Create a json file like object"""
>>> cv.records2json(records).readline()
'[{"col1": "hello", "col2": "world"}]'

"""Write back csv to a filepath"""
>>> io.write('file.csv', cv.records2csv(records))
>>> with open('file.csv', 'utf-8') as f_in:
...     f_in.read()
'col1,col2\nhello,world\n'

"""Write back json to a filepath"""
>>> io.write('file.json', cv.records2json(records))
>>> with open('file.json', 'utf-8') as f_in:
...     f_in.readline()
'[{"col1": "hello", "col2": "world"}]'

Cookbook

Please see the cookbook or ipython notebook for more examples.

Notes

[3]http://pandas.pydata.org/pandas-docs/stable/10min.html#min
[4]https://csvkit.readthedocs.org/en/0.9.1/cli.html#processing
[5]https://github.com/mapbox?utf8=%E2%9C%93&query=geojson

Interoperability

meza plays nicely with NumPy and friends out of the box

setup

from meza import process as pr

# First create some records and types. Also, convert the records to a list
# so we can reuse them.
>>> records = [{'a': 'one', 'b': 2}, {'a': 'five', 'b': 10, 'c': 20.1}]
>>> records, result = pr.detect_types(records)
>>> records, types = list(records), result['types']
>>> types
[
    {'type': 'text', 'id': 'a'},
    {'type': 'int', 'id': 'b'},
    {'type': 'float', 'id': 'c'}]

from records to pandas.DataFrame to records

>>> import pandas as pd
>>> from meza import convert as cv

"""Convert the records to a DataFrame"""
>>> df = cv.records2df(records, types)
>>> df
        a   b   c
0   one   2   NaN
1  five  10  20.1
# Alternatively, you can do `pd.DataFrame(records)`

"""Convert the DataFrame back to records"""
>>> next(cv.df2records(df))
{'a': 'one', 'b': 2, 'c': nan}

from records to arrays to records

>>> import numpy as np

>>> from array import array
>>> from meza import convert as cv

"""Convert records to a structured array"""
>>> recarray = cv.records2array(records, types)
>>> recarray
rec.array([('one', 2, nan), ('five', 10, 20.100000381469727)],
          dtype=[('a', 'O'), ('b', '<i4'), ('c', '<f4')])
>>> recarray.b
array([ 2, 10], dtype=int32)

"""Convert records to a native array"""
>>> narray = cv.records2array(records, types, native=True)
>>> narray
[[array('u', 'a'), array('u', 'b'), array('u', 'c')],
[array('u', 'one'), array('u', 'five')],
array('i', [2, 10]),
array('f', [0.0, 20.100000381469727])]

"""Convert a 2-D NumPy array to a records generator"""
>>> data = np.array([[1, 2, 3], [4, 5, 6]], np.int32)
>>> data
array([[1, 2, 3],
       [4, 5, 6]], dtype=int32)
>>> next(cv.array2records(data))
{'column_1': 1, 'column_2': 2, 'column_3': 3}

"""Convert the structured array back to a records generator"""
>>> next(cv.array2records(recarray))
{'a': 'one', 'b': 2, 'c': nan}

"""Convert the native array back to records generator"""
>>> next(cv.array2records(narray, native=True))
{'a': 'one', 'b': 2, 'c': 0.0}

Installation

(You are using a virtualenv, right?)

At the command line, install meza using either pip (recommended)

pip install meza

or easy_install

easy_install meza

Please see the installation doc for more details.

Project Structure

┌── CONTRIBUTING.rst
├── LICENSE
├── MANIFEST.in
├── Makefile
├── README.rst
├── data
│   ├── converted/*
│   └── test/*
├── dev-requirements.txt
├── docs
│   ├── AUTHORS.rst
│   ├── CHANGES.rst
│   ├── COOKBOOK.rst
│   ├── FAQ.rst
│   ├── INSTALLATION.rst
│   └── TODO.rst
├── examples
│   ├── usage.ipynb
│   └── usage.py
├── helpers/*
├── manage.py
├── meza
│   ├── __init__.py
│   ├── convert.py
│   ├── dbf.py
│   ├── fntools.py
│   ├── io.py
│   ├── process.py
│   ├── stats.py
│   ├── typetools.py
│   └── unicsv.py
├── optional-requirements.txt
├── py2-requirements.txt
├── requirements.txt
├── setup.cfg
├── setup.py
├── tests
│   ├── __init__.py
│   ├── standard.rc
│   ├── test_fntools.py
│   ├── test_io.py
│   └── test_process.py
└── tox.ini

Design Principles

  • prefer functions over objects
  • provide enough functionality out of the box to easily implement the most common data analysis use cases
  • make conversion between records, arrays, and DataFrames dead simple
  • whenever possible, lazily read objects and stream the result [6]
[6]Notable exceptions are meza.process.group, meza.process.sort, meza.io.read_dbf, meza.io.read_yaml, and meza.io.read_html. These functions read the entire contents into memory up front.

Scripts

meza comes with a built in task manager manage.py

Setup

pip install -r dev-requirements.txt

Examples

Run python linter and nose tests

manage lint
manage test

Contributing

Please mimic the coding style/conventions used in this repo. If you add new classes or functions, please add the appropriate doc blocks with examples. Also, make sure the python linter and nose tests pass.

Please see the contributing doc for more details.

Credits

Shoutouts to csvkit, messytables, and pandas for heavily inspiring meza.

More Info

License

meza is distributed under the MIT License.