The Institute for Disease Modeling (IDM) has developed Vis-Tools to aid in the visualization of geospatial disease simulation data. It is meant to be used as an adjunct to EMOD, IDM's epidemiological modeling software.
For complete information on the installation and use of Vis-Tools, see the documentation.
- Python 3.x, in PATH
- npm 6.x, in PATH
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Git clone the Vis-Tools repo to some directory
<dir>
git clone https://github.com/InstituteforDiseaseModeling/vis-tools <dir> cd <dir>
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Ensure Python is in PATH
python --version
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Ensure npm is in PATH
npm --version # ensure npm is in PATH, is version 6.x
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Install Vis-Tools python package
python setup.py install
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Install client libraries
cd vistools npm install
For full details, read the Prerequisites page and Quick start pages.
The Vis-Tools 1.4 release:
- Fixes a number of bugs
- Updates third-party libraries to fix bugs and security issues
- Eliminates cached Javascript libraries.
- Drops Python 2.x support. Please use Python 3.x with Vis-Tools.
Please be sure to follow the steps in the Installation section above.
Version 1.3.1 fixes some compatibility problems with Chrome versions 71+.
The Vis-Tools 1.3 release is a minor bug-fixing update.
The Vis-Tools 1.2 release brings integration with IDM's COMPS environment. Additionally, Vis-Tools is now a proper Python package ('vis_tools'), and does a better job of encapsulation of the work products of its preprocessing phase.
If you have created custom preprocessing scripts with an earlier version of Vis-Tools, you'll need to update them a little to make them work with Vis-Tools 1.2. The easiest way to do this is to generate a new default preprocessing script with survey:
cd my_sim
survey
Then use a diff tool such as WinDiff to merge your changes back into the default preprocessing script.
Vis-Tools is now a proper Python package. After pulling the Vis-Tools repo:
git clone <Vis-Tools-repo>
cd Vis-Tools
python setup.py install
Be sure to also do this step any time you update Vis-Tools (with a git pull).
Both survey and survey's generated preprocessing scripts are now meant to be run from within a local simulation directory. For example:
cd my_sim
survey
python ./Vis-Tools/<md5>/preprocess_my_sim.py
Vis-Tools survey tool and its generated preprocessing script now live within a Vis-Tools directory inside the simulation directory. When the preprocessing script is generated, it is place into a directory under Vis-Tools that is named after the script's MD5 hash. This allows multiple runs of survey, or multiple user's Vis-Tools products to be separated from one another. For example:
cd my_sim
survey
ls -la Vis-Tools
total 4
drwxr-xr-x 1 user 1049089 0 May 22 12:30 .
drwxr-xr-x 1 user 1049089 0 May 22 12:30 ..
drwxr-xr-x 1 user 1049089 0 May 22 12:30 46bbefdf5ec1171d00b9c342fff669bc
python ./Vis-Tools/46bbefdf5ec1171d00b9c342fff669bc/preprocess_my_sim.py
Vis-Tools python classes now properly output errors to stderr, and send non-error output to stdout.
Vis-Tools preprocessing and visualization can now be accomplished through the COMPS web UI. For simulations with spatial output, the Spatial tab of the Explore view. The survey program has new options to support COMPS integration but they can be largely ignored for local usage of Vis-Tools.
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New "flat mode" flattens globe to an equi-rectangular projection. Toggle with the "F" key.
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New "presentation mode" hides all user interface controls for recording videos or use in live presentations. Keys (such as space to start/stop the animation) still work. Toggle with the "P" key. Also now there are now "start" and "stop" audio tones that indicate when animation has started and stopped at the end, for use in recording animations.
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The "Home" and "End" keys now seek the time locator to the beginning and end of the simulation's time span, respectively.
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Gradients can now be used that have transparency built into their stops in the form "#rrggbbaa". For example, "#ff000088@0,#ffffffff@1" makes a red-to-white ramp which goes from half-translucent to fully opaque across its range. Such gradient specifications can be set in the visset via the preprocessing script.
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The base layer (the map that is used for the globe) can now be a single custom-made equi-rectangular image. For example:
vis_set.set_custom_base_layer("GrayWorld.png")
The Vis-Tools 1.1 release brings Python 2.7.x and Python 3.6.x compatibility. Additionally there is a new Python unit test suite (not included in the distribution) that tests the full Python object API.
The Vis-Tools 1.0 release is the initial release. There were some last minute additions to Vis-Tools that are only minimally documented. They are noted here to aid in their discoverablility.
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Weighted network visualization layers: The VisSet Python object can now generate weighted network visualization layers given a CSV file containing the node-to-node connections and weights. See the VisSet class documentation for details.
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Vector cohort migration layers: The VisSet Python object can now generate vector cohort migration layers given a suitable CSV file. See the VisSet class documentation for details.
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Note on Python 3: Vis-Tools 1.0 only works with Python 2.7.x. Use Vis-Tools 1.1 or later for compatibility with both Python 2 and Python 3.