{ "info": { "author": "J. Schellekens", "author_email": "jaap.schellekens@deltares.nl", "bugtrack_url": null, "classifiers": [], "description": "WFLOW\n=====\n\nwflow consists of a set of python programs that can be run on the command line \nand perform hydrological simulations. The models are based on the PCRaster \npython framework. In wflow this framework is extended (the wf_DynamicFramework) \nso that models build using the framework can be controlled using the API. \nLinks to BMI, OpenMI and OpenDAP have been made.\n\nA link to the latest version can always be found at https://github.com/openstreams/wflow \n\nReference documentation at:\n\n+ http://wflow.readthedocs.io/en/latest/\n\n\nObtaining wflow\n===============\n\nGo to https://github.com/openstreams/wflow. There you can download the source or a release. Also make sure\nyou get the required third party models first (see below). The documentation can be found at\nhttp://wflow.readthedocs.org\n\nWhich version to use\n====================\nThe master branch can change rapidly (and break functionality without warning) so please use one of the releases if possible. If you want to adjust things in the model(s) we assume you should be comfortable using the master branch.\n\n\nBinaries for windows\n====================\nFor windows binaries check the releases (https://github.com/openstreams/wflow/releases). These can be used \nif you do not have a python installation. However, it is recommended to install wflow as a python package (see below).\nThere is absolutely no guarantee the executables will work on your computer.\n\nInstall as a python package (windows quick install instructions)\n================================================================\n\n*Installing Anaconda (scientific python distribution)*\n\nDownload Anaconda for python 3, 64 bit from https://www.anaconda.com/download/.\nWe will assume that this python is available in the path, such that ``python``,\n``pip``, and ``conda`` are available from the command line.\n\nNote that there is no hard requirement for Anaconda Python, but often it makes installation\nof required dependecies easier using ``conda``.\n\nOnce Anaconda is installed open a command window and install netCDF4, gdal and pyproj using the following command:\n\n+ conda install netCDF4 gdal pyproj\n\n*Installing pcraster*\n\n+ Download pcraster from http://pcraster.geo.uu.nl/ website (version 4.2)\n+ Follow the installation instructions at http://pcraster.geo.uu.nl/quick-start-guide/\n\n*Installing wflow itself*\n\nClone with git or download the latest zip with the source code of wflow. Go to the ``wflow-py`` directory and run:\n\n+ ``pip install -e .``\n\nThis will create a link.\n\nTo check it the install is successful, go to the examples directory and run the following command:\n\n+ ``python -m wflow.wflow_sbm -C wflow_rhine_sbm -R testing``\n\nThis should run without errors\n\nCredits\n=======\n\n+ The stats.py script was made by Keith Cherkauer (https://engineering.purdue.edu/~cherkaue/software.htm)\n\n+ pcraster is developed and maintained by Utrecht University (http://www.pcraster.eu)\n\n+ netCDF4 is developed by unidata (http://unidata.github.io/netcdf4-python/)\n\n+ GDAL is released under an X/MIT style Open Source license by the Open Source Geospatial Foundation (http://www.gdal.org).\n\n\nCitation\n========\nSee doi of the release you use. If you use a snapshot of the development (without a DOI) cite as follows:\n\nJaap Schellekens, Willem van Verseveld, Tanja Euser, Hessel Winsemius, Christophe Thiange, Laur\u00e8ne Bouaziz, Daniel Tollenaar, Sander de Vries, Albrecht Weerts, YEAR. openstreams/wflow: unstable-master. https://github.com/openstreams/wflow, obtained: DATE_OF_DOWNLOAD\n\n\nRecent releases\n---------------\n\n.. image:: https://zenodo.org/badge/17738134.svg\n :target: https://zenodo.org/badge/latestdoi/17738134\n\nJaap Schellekens, Willem van Verseveld, Tanja Euser, Hessel Winsemius, Christophe Thiange, Laur\u00e8ne Bouaziz, Daniel Tollenaar, Sander de Vries, 2016. openstreams/wflow: 2016.04 Test release. doi:10.5281/zenodo.167057\n\n.. image:: https://zenodo.org/badge/DOI/10.5281/zenodo.155389.svg\n :target: https://doi.org/10.5281/zenodo.155389\n\nJaap Schellekens, Willem van Verseveld, Tanja Euser, Hessel Winsemius, Christophe Thiange, Laur\u00e8ne Bouaziz, Daniel Tollenaar, Sander de Vries, 2016. openstreams/wflow: 2016.03. doi:10.5281/zenodo.155389\n\n\n\n", "description_content_type": "", "docs_url": null, "download_url": "", "downloads": { "last_day": -1, "last_month": -1, "last_week": -1 }, "home_page": "http://wflow.readthedocs.io/en/latest/", "keywords": "", "license": "GPL", "maintainer": "", "maintainer_email": "", "name": "wflow", "package_url": "https://pypi.org/project/wflow/", "platform": "", "project_url": "https://pypi.org/project/wflow/", "project_urls": { "Homepage": "http://wflow.readthedocs.io/en/latest/" }, "release_url": "https://pypi.org/project/wflow/2018.1/", "requires_dist": [ "numpy", "scipy", "gdal", "netCDF4", "cftime", "pyproj", "python-dateutil" ], "requires_python": ">=3.6", "summary": "the wflow hydrological models (part of OpenStreams)", "version": "2018.1" }, "last_serial": 4462170, "releases": { "2018.1": [ { "comment_text": "", "digests": { "md5": "34c7566e1b19f1d0d54fce032bce4b37", "sha256": "743c38f4a48cece1a39f9ec499efb1fad1d3361f5ec665c9c253ae0331bc0366" }, "downloads": -1, "filename": "wflow-2018.1-py3-none-any.whl", "has_sig": false, "md5_digest": "34c7566e1b19f1d0d54fce032bce4b37", "packagetype": "bdist_wheel", "python_version": "py3", "requires_python": ">=3.6", "size": 610209, "upload_time": "2018-11-07T16:20:00", "url": "https://files.pythonhosted.org/packages/5d/3a/0bb574e637e1817a259d2ae44cf7cebba621448b8736cb6d02f8ea0478c0/wflow-2018.1-py3-none-any.whl" }, { "comment_text": "", "digests": { "md5": "0e0cd70c1d8ad132dd927aa7583f10c6", "sha256": "71f99f7b7609e26a686e7115e4e23ef838adc4e381ae4af8a07c68e10847e57e" }, "downloads": -1, "filename": "wflow-2018.1.tar.gz", "has_sig": false, "md5_digest": "0e0cd70c1d8ad132dd927aa7583f10c6", "packagetype": "sdist", "python_version": "source", "requires_python": ">=3.6", "size": 435961, "upload_time": "2018-11-07T16:20:03", "url": "https://files.pythonhosted.org/packages/0c/d2/cba9dde4468468c4f6b112776e4da1a71e07f16a7c07ef4f7f10e5e392d5/wflow-2018.1.tar.gz" } ] }, "urls": [ { "comment_text": "", "digests": { "md5": "34c7566e1b19f1d0d54fce032bce4b37", "sha256": "743c38f4a48cece1a39f9ec499efb1fad1d3361f5ec665c9c253ae0331bc0366" }, "downloads": -1, "filename": "wflow-2018.1-py3-none-any.whl", "has_sig": false, "md5_digest": "34c7566e1b19f1d0d54fce032bce4b37", "packagetype": "bdist_wheel", "python_version": "py3", "requires_python": ">=3.6", "size": 610209, "upload_time": "2018-11-07T16:20:00", "url": "https://files.pythonhosted.org/packages/5d/3a/0bb574e637e1817a259d2ae44cf7cebba621448b8736cb6d02f8ea0478c0/wflow-2018.1-py3-none-any.whl" }, { "comment_text": "", "digests": { "md5": "0e0cd70c1d8ad132dd927aa7583f10c6", "sha256": "71f99f7b7609e26a686e7115e4e23ef838adc4e381ae4af8a07c68e10847e57e" }, "downloads": -1, "filename": "wflow-2018.1.tar.gz", "has_sig": false, "md5_digest": "0e0cd70c1d8ad132dd927aa7583f10c6", "packagetype": "sdist", "python_version": "source", "requires_python": ">=3.6", "size": 435961, "upload_time": "2018-11-07T16:20:03", "url": "https://files.pythonhosted.org/packages/0c/d2/cba9dde4468468c4f6b112776e4da1a71e07f16a7c07ef4f7f10e5e392d5/wflow-2018.1.tar.gz" } ] }