BigMLer makes BigML even easier.
BigMLer wraps BigML's API Python bindings to offer a high-level command-line script to easily create and publish datasets and models, create ensembles, make local predictions from multiple models, and simplify many other machine learning tasks. For additional information, see the full documentation for BigMLer on Read the Docs.
BigMLer is open sourced under the Apache License, Version 2.0.
BigMLer needs Python 3.8 or higher versions to work. Compatibility with Python 2.X was discontinued in version 3.27.2.
BigMLer requires bigml 9.7.1 or
higher, that contains the bindings providing support to use the BigML
platform to create, update, get and delete resources,
but also to produce local predictions using the
models created in BigML
. Most of them will be actionable with the basic
installation, but some additional dependencies are needed
to use local Topic Models
to produce Topic Distributions
. These can
be installed using:
pip install bigmler[topics]
The bindings also support local predictions for models generated from images. To use these models, an additional set of libraries needs to be installed using:
pip install bigmler[images]
The external libraries used in this case exist for the majority of recent Operating System versions. Still, some of them might need especific compiler versions or dlls, so their installation may require an additional setup effort and will not be supported by default.
The full set of libraries can be installed using
pip install bigmler[full]
To install the latest stable release with pip
$ pip install bigmler
You can also install the development version of bigmler directly from the Git repository
$ pip install -e git://github.com/bigmlcom/bigmler.git#egg=bigmler
For a detailed description of install instructions on Windows see the :ref:bigmler-on-windows section.
Support for local Topic Distributions (Topic Models' predictions) and local predictions for datasets that include Images will only be available as extras, because the libraries used for that are not usually available in all Operating Systems. If you need to support those, please check the Installation Extras section.
Local Topic Distributions support can be installed using:
pip install bigmler[topics]
Images local predictions support can be installed using:
pip install bigmler[images]
The full set of features can be installed using:
pip install bigmler[full]
WARNING: Mind that installing these extras can require some extra work, as explained in the :ref:requirements section.
All the requests to BigML.io must be authenticated using your username and API key and are always transmitted over HTTPS.
BigML module will look for your username and API key in the environment
variables BIGML_USERNAME
and BIGML_API_KEY
respectively. You can
add the following lines to your .bashrc
or .bash_profile
to set
those variables automatically when you log in
export BIGML_USERNAME=myusername
export BIGML_API_KEY=ae579e7e53fb9abd646a6ff8aa99d4afe83ac291
Otherwise, you can initialize directly when running the BigMLer script as follows
bigmler --train data/iris.csv --username myusername \
--api-key ae579e7e53fb9abd646a6ff8aa99d4afe83ac291
For a detailed description of authentication instructions on Windows see the BigMLer on Windows section.
To install BigMLer on Windows environments, you'll need Python installed.
The code has been tested with Python 3.10 and you can create a conda
environment with that Python version or download it from Python for Windows and install it. In the latter case, you'll
also need too install the pip
tool to install BigMLer.
To install pip
, first you need to open your command terminal window
(write cmd
in
the input field that appears when you click on Start
and hit enter
).
Then you can follow the steps described, for example, in this guide
to install its latest version.
And finally, to install BigMLer in its basic capacities, just type
python -m pip install bigmler
and BigMLer should be installed in your computer or conda environment. Then issuing
bigmler --version
should show BigMLer version information.
Extensions of BigMLer to use images are usually not available in Windows. The libraries needed for those models are not available usually for that operating system. If your Machine Learning project involves images, we recommend that you choose a Linux based operating system.
Finally, to start using BigMLer to handle your BigML resources, you need to set your credentials in BigML for authentication. If you want them to be permanently stored in your system, use
setx BIGML_USERNAME myusername
setx BIGML_API_KEY ae579e7e53fb9abd646a6ff8aa99d4afe83ac291
Note that setx
will not change the environment variables of your actual
console, so you will need to open a new one to start using them.
Also, you can instruct BigMLer to work in BigML's Sandbox
environment by using the parameter ---dev
bigmler --train data/iris.csv --dev
Using the development flag you can run tasks under 1 MB without spending any of your BigML credits.
To run BigMLer you can use the console script directly. The --help option will describe all the available options
bigmler --help
Alternatively you can just call bigmler as follows
python bigmler.py --help
This will display the full list of optional arguments. You can read a brief explanation for each option below.
Let's see some basic usage examples. Check the installation and authentication sections in BigMLer on Read the Docs if you are not familiar with BigML.
You can create a new model just with
bigmler --train data/iris.csv
If you check your dashboard at BigML, you will see a new source, dataset, and model. Isn't it magic?
You can generate predictions for a test set using
bigmler --train data/iris.csv --test data/test_iris.csv
You can also specify a file name to save the newly created predictions
bigmler --train data/iris.csv --test data/test_iris.csv --output predictions
If you do not specify the path to an output file, BigMLer will auto-generate
one for you under a
new directory named after the current date and time
(e.g., MonNov1212_174715/predictions.csv).
With --prediction-info
flag set to brief
only the prediction result will be stored (default is
normal
and includes confidence information).
A different objective field
(the field that you want to predict) can
be selected using
bigmler --train data/iris.csv \
--test data/test_iris.csv \
--objective 'sepal length'
If you do not explicitly specify an objective field, BigML will default to the last column in your dataset.
Also, if your test file uses a particular field separator for its data,
you can tell BigMLer using --test-separator
.
For example, if your test file uses the tab character as field separator the
call should be like
bigmler --train data/iris.csv --test data/test_iris.tsv \
--test-separator '\t'
If you don't provide a file name for your training source, BigMLer will try to read it from the standard input
cat data/iris.csv | bigmler --train
BigMLer will try to use the locale of the model both to create a new source
(if --train
flag is used) and to interpret test data. In case
it fails, it will try en_US.UTF-8
or English_United States.1252
and a warning message will be printed.
If you want to change this behaviour you can specify your preferred locale
bigmler --train data/iris.csv --test data/test_iris.csv \
--locale "English_United States.1252"
If you check your working directory you will see that BigMLer creates a file
with the
model ids that have been generated (e.g., FriNov0912_223645/models).
This file is handy if then you want to use those model ids to generate local
predictions. BigMLer also creates a file with the dataset id that has been
generated (e.g., TueNov1312_003451/dataset) and another one summarizing
the steps taken in the session progress: bigmler_sessions
. You can also
store a copy of every created or retrieved resource in your output directory
(e.g., TueNov1312_003451/model_50c23e5e035d07305a00004f) by setting the flag
--store
.
BigMLer will accept flags written with underscore as word separator like
--clear_logs
for compatibility with prior versions. Also --field-names
is accepted, although the more complete --field-attributes
flag is
preferred. --stat_pruning
and --no_stat_pruning
are discontinued
and their effects can be achived by setting the actual --pruning
flag
to statistical
or no-pruning
values respectively.
The tests will be run using pytest.
You'll need to set up your authentication
via environment variables, as explained in the authentication section.
Also some of the tests need other environment
variables like BIGML_ORGANIZATION
to test calls when used by Organization
members and BIGML_EXTERNAL_CONN_HOST
, BIGML_EXTERNAL_CONN_PORT
,
BIGML_EXTERNAL_CONN_DB
, BIGML_EXTERNAL_CONN_USER
,
BIGML_EXTERNAL_CONN_PWD
and BIGML_EXTERNAL_CONN_SOURCE
in order to test external data connectors.
With that in place, you can run the test suite simply by issuing
$ pytest
For additional information, see the full documentation for BigMLer on Read the Docs.
Please report problems and bugs to our BigML.io issue tracker.
Discussions about the different bindings take place in the general BigML mailing list.