PyGLVis is an interactive Jupyter widget for visualizing finite element meshes and functions, built on-top of the GLVis library.
The GLVis Jupyter widget is installed using pip
. To install the latest version from the repository:
git clone https://github.com/GLVis/pyglvis.git
cd pyglvis
pip install .
Or, install directly from PyPi,
pip install glvis
PyGLVis requires the Python wrapper for MFEM, PyMFEM, which can be installed with
pip install mfem
from glvis import glvis
# Create a `glvis` object
g = glvis(data, width=640, height=480)
# Run a cell with `g` as the last statement to display the widget
g
The data
object can be one of:
Mesh
, defined in PyMFEM(Mesh, GridFunction)
tuple, defined in PyMFEMstr
, in the format of*.saved
files used by MFEM and GLVis. See examples/basic.ipynb for an example.
GLVis has many keyboard commands that can be used to customize the visualization. A few of the most common are listed below. See the GLVis README for a full list.
r
- reset the viewc
- toggle the colorbarj
- toggle perspectivel
- toggle the lightg
- toggle the background color (white/black)a
- cycle through bounding box axes statesm
- cycle through mesh statesp
- cycle through color palettest
- cycle through materials and lights0
- begin rotating around z-axis.
- pause rotation*
//
- zoom in/out
These can be set using the keys
argument when creating a glvis
object.
glvis(data, keys='rljgac//0')
This combination of keys would: r
reset the view, l
toggle the light, j
toggle perspective, g
toggle the background color to black (default is white), a
show the bounding box, c
show the colorbar, //
zoom out twice, and 0
begin rotating around the z-axis:
Alternatively, keys can be typed directly into the widget after it has been created:
Once you have a glvis
object there are a few methods that can used to update the
visualization, besides using keys:
# Show a new Mesh/GridFunction, resets keys
g.plot(data)
# Show an updated visualization with the same data, preserving keys
g.update(data)
# Change the image size
g.set_size(width, height)
# Force the widget to render. If the widget isn't the last statement in a cell it
# will not be shown without this. See ex9.ipynb
g.render()
See the examples directory for additional examples. To test those locally, start a Jupyter lab server with
jupyter lab
This widget was originally developed using the jupyter widget cookiecutter; however, recent changes to the Jupyter ecosystem have broken a lot of functionality, leading to a rewrite using anywidget. If you encounter any problems, please consider supporting development by opening an issue.
graph TD;
A[mfem] --> B[pymfem];
A --> C[glvis];
C --> D[glvis-js];
Ext1[emscripten] --> D;
D-.-E["glvis-js\n(npm/esm mirror)"]
B & E --> G[pyglvis];
Ext2[jupyter] --> G;
pyglvis
is most directly depednent on PyMFEM
and glvis-js
. PyMFEM is a Python wrapper of the finite element library, MFEM
, while glvis-js
is a JavaScript/WebAssembly port of glvis
.
glvis-js
is hosted on github and mirrored on npm. esm.sh allows pyglvis
to pull the latest version of glvis-js
directly from npm. This can be seen in the first line of glvis/widget.js:
import glvis from "https://esm.sh/glvis";
You can specify a different version of glvis-js
by adding @x.y.z
to the end of this import statement, where x.y.z
matches a version number available on npm
, e.g.
import glvis from "https://esm.sh/[email protected]";
To publish a new version of glvis-js
, follow the instructions on the repo.
-
Update
__version__
inglvis/__about__.py
-
git add
andgit commit
changes
You will need twine to publish to PyPI, install with pip
.
python -m hatch build
twine upload dist/*
git tag -a X.X.X -m 'comment'
git push --tags