CliMAF WPS Demo¶
A Web Processing Service for CliMAF.
- Free software: Apache Software License 2.0
- Documentation: https://climaf-wps-demo.readthedocs.io.
Credits¶
This package was created with Cookiecutter and the bird-house/cookiecutter-birdhouse project template.
Installation¶
Install from Conda¶
Warning
TODO: Prepare Conda package.
Install from GitHub¶
Check out code from the CliMAF WPS Demo GitHub repo and start the installation:
$ git clone https://github.com/cp4cds/climaf-wps-demo.git
$ cd climafwps
$ conda env create -f environment.yml
$ source activate climafwps
$ python setup.py develop
… or do it the lazy way¶
The previous installation instructions assume you have Anaconda installed.
We provide also a Makefile to run this installation without additional steps:
$ git clone https://github.com/cp4cds/climaf-wps-demo.git
$ cd climafwps
$ make clean # cleans up a previous Conda environment
$ make install # installs Conda if necessary and runs the above installation steps
Start CliMAF WPS Demo PyWPS service¶
After successful installation you can start the service using the climafwps command-line.
$ climafwps --help # show help
$ climafwps start # start service with default configuration
OR
$ climafwps start --daemon # start service as daemon
loading configuration
forked process id: 42
The deployed WPS service is by default available on:
http://localhost:5000/wps?service=WPS&version=1.0.0&request=GetCapabilities.
Note
Remember the process ID (PID) so you can stop the service with kill PID.
You can find which process uses a given port using the following command (here for port 5000):
$ netstat -nlp | grep :5000
Check the log files for errors:
$ tail -f pywps.log
… or do it the lazy way¶
You can also use the Makefile to start and stop the service:
$ make start
$ make status
$ tail -f pywps.log
$ make stop
Run CliMAF WPS Demo as Docker container¶
You can also run CliMAF WPS Demo as a Docker container.
Warning
TODO: Describe Docker container support.
Use Ansible to deploy CliMAF WPS Demo on your System¶
Use the Ansible playbook for PyWPS to deploy CliMAF WPS Demo on your system.
Configuration¶
Command-line options¶
You can overwrite the default PyWPS configuration by using command-line options. See the CliMAF WPS Demo help which options are available:
$ climafwps start --help
--hostname HOSTNAME hostname in PyWPS configuration.
--port PORT port in PyWPS configuration.
Start service with different hostname and port:
$ climafwps start --hostname localhost --port 5001
Use a custom configuration file¶
You can overwrite the default PyWPS configuration by providing your own
PyWPS configuration file (just modifiy the options you want to change).
Use one of the existing sample-*.cfg files as example and copy them to etc/custom.cfg.
For example change the hostname (localhost) and the path to the CMIP5 data archive:
$ cd climafwps
$ vim etc/custom.cfg
$ cat etc/custom.cfg
[server]
url = http://localhost:5000/wps
outputurl = http://localhost:5000/outputs
[logging]
level = INFO
[data]
archive_root = /data/cmip5/data
Start the service with your custom configuration:
# start the service with this configuration
$ climafwps start -c etc/custom.cfg
Developer Guide¶
Warning
To create new processes look at examples in Emu.
Building the docs¶
First install dependencies for the documentation:
$ make bootstrap_dev
$ make docs
Running tests¶
Run tests using pytest.
First activate the climafwps Conda environment and install pytest.
$ source activate climafwps
$ conda install pytest flake8 # if not already installed
Run quick tests (skip slow and online):
$ pytest -m 'not slow and not online'"
Run all tests:
$ pytest
Check pep8:
$ flake8
Run tests the lazy way¶
Do the same as above using the Makefile.
$ make test
$ make testall
$ make pep8
Prepare a release¶
Update the Conda specification file to build identical environments on a specific OS.
Note
You should run this on your target OS, in our case Linux.
$ make clean
$ make install
$ make spec
Bump a new version¶
Make a new version of CliMAF WPS Demo in the following steps:
- Make sure everything is commit to GitHub.
- Update
CHANGES.rstwith the next version. - Dry Run:
bumpversion --dry-run --verbose --new-version 0.8.1 patch - Do it:
bumpversion --new-version 0.8.1 patch - … or:
bumpversion --new-version 0.9.0 minor - Push it:
git push - Push tag:
git push --tags
See the bumpversion documentation for details.
Processes¶
Sleep¶
-
class
climafwps.processes.wps_sleep.Sleep[source]¶ sleep Sleep Process (v1.0)
Testing a long running process, in the sleep.This process will sleep for a given delay or 10 seconds if not a valid value.
Parameters: delay ({'None'}) – Delay between every update Returns: sleep_output – Sleep Output Return type: string References
CMIP5 Global Mean Time Series¶
-
class
climafwps.processes.wps_tsplot.TimeSeriesPlot[source]¶ tsplot CMIP5 Global Mean Time Series (v1.1.1)
Uses the CliMAF tool to calculate a time series of global mean values for a variable, model, experiment and ensemble member from the CMIP5 archive. The time series is plotted as a line graph showing change in the global mean value against time.
Parameters: - model ({'ACCESS1-0', 'ACCESS1-3', 'bcc-csm1-1', 'bcc-csm1-1-m', 'BNU-ESM', 'CanCM4', 'CanESM2', 'CCSM4', 'CESM1-BGC', 'CESM1-CAM5', ..}) – Climate model ID
- experiment ({'rcp45', 'rcp60', 'rcp8', 'historical'}) – Experiment name
- variable ({'cl', 'clt', 'evspsbl', 'hur', 'huss', 'prc', 'ps', 'rldscs', 'rlutcs', 'rsdt', ..}) – Variable ID
- start_year ({'None'}) – 4-digit start year
- end_year ({'None'}) – 4-digit end year
Returns: output – Generated timeseries plot.
Return type: image/png
References
