The aim of this fork is to make quantipy compatible with newer Pandas and Numpy versions.
Quantipy is an open-source data processing, analysis and reporting software project that builds on the excellent pandas and numpy libraries. Aimed at people data, Quantipy offers support for native handling of special data types like multiple choice variables, statistical analysis using case or observation weights, DataFrame metadata and pretty data exports.
This repository is a port of Quantipy from Python 2.x to Python 3.
- Reads plain .csv, converts from Dimensions, SPSS, Decipher, or Ascribe
- Open metadata format to describe and manage datasets
- Powerful, metadata-driven cleaning, editing, recoding and transformation of datasets
- Computation and assessment of data weights
- Easy-to-use analysis interface
- Structured analysis and reporting via Chain and Cluster containers
- Exports to SPSS, Dimensions ddf/mdd, MS Excel and Powerpoint with flexible layouts and various options
- Python 3.8 is not yet fully supported, but 3.5, 3.6, and 3.7 are.
- Quantipy was concieved of and instigated by Gary Nelson: http://www.datasmoothie.com
- Alexander Buchhammer, Alasdair Eaglestone, James Griffiths, Kerstin Müller : https://yougov.co.uk
- Datasmoothie’s Birgir Hrafn Sigurðsson and Geir Freysson: http://www.datasmoothie.com
pip install quantipy3
or
python3 -m pip install quantipy3
Note that the package is called quantipy3 on pip.
If you want to create a virtual environment when using Quantipy:
conda
conda create -n envqp python=3with venv
python -m venv [your_env_name]Get started
If you are working with SPSS, import your sav file.
import quantipy as qp
dataset = qp.DataSet("My dataset, wave 1")
dataset.read_spss('my_file.sav')
You can start straight away by exploring what variables are in your file.
dataset.variables()
['gender',
'agecat',
'price_satisfaction',
'numitems_satisfaction',
'org_satisfaction',
'service_satisfaction',
'quality_satisfaction',
'overall_satisfaction',
'weight']
If you want more details on a variable, explore it's meta data.
dataset.meta('agecat')
| single | codes | texts | missing |
|---|---|---|---|
| agecat: Age category | |||
| 1 | 1 | 18-24 | None |
| 2 | 2 | 25-34 | None |
| 3 | 3 | 35-49 | None |
| 4 | 4 | 50-64 | None |
| 5 | 5 | 64+ | None |
Quantipy knows out-of-the-box what SPSS's meta data means and uses it correctly. All codes and labels are the same as in the sav file.
Calculate some results, counts or percentages
dataset.crosstab('price_satisfaction', 'gender')
| Question | agecat. Age category | ||||||
|---|---|---|---|---|---|---|---|
| Values | All | 18-24 | 25-34 | 35-49 | 50-64 | 64+ | |
| Question | Values | ||||||
| price_satisfaction. Price satisfaction | All | 582.0 | 46.0 | 127.0 | 230.0 | 147.0 | 32.0 |
| Strongly Negative | 72.0 | 8.0 | 20.0 | 22.0 | 17.0 | 5.0 | |
| Somewhat Negative | 135.0 | 10.0 | 30.0 | 52.0 | 38.0 | 5.0 | |
| Neutral | 140.0 | 9.0 | 32.0 | 59.0 | 36.0 | 4.0 | |
| Somewhat Positive | 145.0 | 12.0 | 25.0 | 63.0 | 33.0 | 12.0 | |
| Strongly Positive | 90.0 | 7.0 | 20.0 | 34.0 | 23.0 | 6.0 | |
You can also filter
dataset.crosstab('price_satisfaction', 'agecat', f={'gender':1})
and use a weight column
dataset.crosstab('price_satisfaction', 'agecat', f={'gender':1}, w="weight")
Variables can be created, recoded or edited with DataSet methods, e.g. derive():
mapper = [(1, '18-35 year old', {'agecat': [1,2]}),
(2, '36 and older', {'agecat': [3,4,5]})]
dataset.derive('two_age_groups', 'single', dataset.text("Older or younger than 35"), mapper)
dataset.meta('two_age_groups')single codes texts missing
two_age_groups: "Older or youngar than 35"
1 1 18-35 years old None
2 2 36 and older None
The DataSet case data component can be inspected with the []-indexer, as known from a pd.DataFrame:
dataset[['gender', 'age']].head(5) gender age
0 1.0 1.0
1 2.0 1.0
2 2.0 2.0
3 1.0 NaN
4 NaN 1.0
If your data hasn't been weighted yet, you can use Quantipy's RIM weighting algorithm.
Assuming we have the same variables as before, gender and agecat we can weight the dataset with these two variables:
from quantipy.core.weights.rim import Rim
age_targets = {'agecat':{1:5.0, 2:30.0, 3:26.0, 4:19.0, 5:20.0}}
gender_targets = {'gender':{0:49, 1:51}}
scheme = Rim('gender_and_age')
scheme.set_targets(targets=[age_targets, gender_targets])
dataset.weight(scheme,unique_key='respondentId',
weight_name="my_weight",
inplace=True)
Quantipy will show you a weighting report:
Weight variable weights_gender_and_age
Weight group _default_name_
Weight filter None
Total: unweighted 582.000000
Total: weighted 582.000000
Weighting efficiency 60.009826
Iterations required 14.000000
Mean weight factor 1.000000
Minimum weight factor 0.465818
Maximum weight factor 6.187700
Weight factor ratio 13.283522
And you can test whether the weighting has worked by running crosstabs:
dataset.crosstab('agecat', ci=['c%'], w='my_new_weight')
| Question | agecat. Age category | |
|---|---|---|
| Question | Values | |
| agecat. Age category | All | 100.0 |
| 18-24 | 5.0 | |
| 25-34 | 30.0 | |
| 35-49 | 26.0 | |
| 50-64 | 19.0 | |
| 64+ | 20.0 |
dataset.crosstab('gender', ci=['c%'], w='my_new_weight')
| Question | gender. Gender | |
|---|---|---|
| Question | Values | |
| gender. Gender | All | 100.0 |
| Male | 49.0 | |
| Female | 51.0 |
The test suite for Quantipy can be run with the command
python3 -m pytest tests
But when developing a specific aspect of Quantipy, it might be quicker to run (e.g. for the DataSet)
python3 -m unittest tests.test_dataset
Tests for unsupported features are skipped, see here for what tests are supported.
We welcome volunteers and supporters. Please include a test case with any pull request, especially those that run calculations.