Jmol JavaScript Object/WebGL
WebGL modality in JSmol
JSmol has tentatively implemented a modality (additional to the Java and the HTML5 modalities) that makes use of the WebGL technology.
- Please, note that this modality does not implement the full set of functionalities of Jmol/JSmol and there are no current plans to develop it further. Help from interested developers/programmers would be welcome.
WebGL is a hardware-accelerated technology for displaying 2D and 3D graphics inside web pages without using any plugins in the browser. It relies on capabilities of the user's graphics card (calculation in the GPU), and so compatibility may be limited, although it is a growing standard feature.
The major advantage of using WebGL is a better quality and faster rendering of the model, rotation, movement, etc., over that obtained with JSmol/HTML5. In exchange, the latter offers a wider compatibility with devices.
Demonstration page: https://chemapps.stolaf.edu/jmol//jsmol/jsmolgl.htm
Hardware support
Old graphics cards may not support WebGL.
Browser support
Browser support is irregular, although growing. Current versions of Chrome, Safari, Edge are compatible, Firefox may depend on the update of graphics card drivers. Please check e.g. Can I use for current status.
Implementing the WebGL modality
You need to be aware that your users/visitors might not have a WebGL-compatible system, so be cautious with your design and offer alternatives.
In order to have JSmol in your pages use the WebGL modality:
- your page should call JSmol.GLmol.min.js in addition to JSmol.min.js
- the
use
parameter of theInfo
variable must be set toWebGL
(case-insensitive). You can set it toWebGL HTML5
(that's two values) and it will fall back to regular html5-only JSmol should WebGL be unavailable to the browser.
JmolScript features
- Please, if you have experienced with JSmol/WebGL feel free to add items here.
Supported
- rendering styles for atoms and bonds, cartoons, backbone, trace, ribbons
- isosurfaces
- molecular orbitals
- ...
Not supported
- background color is ignored (always transparent)
- echo, labels (not displayed, may pop errors)
- halos (not displayed)
- hover (tooltips not displayed)
- translucency (always opaque)
- animation (stops at every frame)
- vibration (the animations)
- rockets (helices lack the pointed end), strands (clumsy rotation)
- mesh (e.g. in MO, clumsy rotation)
- ...
WebGL-based alternatives to JSmol
There are several programs able to display molecular structures using the WebGL technology. This is a list of some of them, and an attempt for comparison.
GLmol
By biochem_fan.
- Main page: http://webglmol.osdn.jp/index-en.html
Might have been the first WebGL viewer available. Some of its code has been used in the JSmol WebGL modality. Active development has apparently ceased.
3Dmol.js
- Main page: http://3dmol.csb.pitt.edu/doc/
- Demo: http://3dmol.csb.pitt.edu/
- Article in Bioinformatics, doi:10.1093/bioinformatics/btu829
- Repository: https://github.com/3dmol/3Dmol.js
- Library available as a single JavaScript file (including or not jQuery)
Has a very simple embedding mechanism, based on HTML markup or url formatting. Abilities to compute isosurfaces in parallel (using web workers that donât hang the web browser during the computation). Displays most common bio-molecular representations, labels, select and color abilities.
PV Protein Viewer
By Marco Biasini. Open source.
- Main page: http://biasmv.github.io/pv/
- Documentation: http://pv.readthedocs.org/en/latest/intro.html
- Repository: https://github.com/biasmv/pv
Used by SwissModel and RCSB Protein Data Bank. Very clear documentation. Graphics are stylized but also really clear in their depiction. Common bio-molecular representations are available. Selections are based on javascript and a JSON syntax.
NGL
by Alexander Rose
- Main page: http://arose.github.io/ngl/doc/#User_manual/Introduction/Welcome
- Demonstration: http://proteinformatics.charite.de/ngl/html/ngl.html
- Article in Nucleic Acid Research, doi:10.1093/nar/gkv402
- Repository: https://github.com/arose/ngl
Beautiful graphic capabilities. Many bio-molecular representations (some unique such as «hyperballs» and «ropes» ). Abilities to act on selections with a Jmol-like syntax.
ChemDoodle Web Components
Free product offered by iChemLabs, LLC, under open-source GPL license.
- Main page: https://web.chemdoodle.com/
- Examples: https://web.chemdoodle.com/demos/iza-zeolite-explorer/ http://www.glmol.com/
Handles biomolecular representations and has some capabilities to handle cif files and generate multiple cells. Viewer canvases can be linked to a range of different widgets (spectrum display, 2D formula, etc.). Selection and display is based on the manipulation of JavaScript objects.
iview
By Li, Leung, Nakane and Wong, Chinese University of Hong Kong. Code licensed under Apache License 2.0 / MIT License.
- Main page: http://istar.cse.cuhk.edu.hk/iview/
- Article in BMC Bioinformatics, doi:10.1186/1471-2105-15-56
- Repository: https://github.com/HongjianLi/iview
Based on GLmol. Specially aimed at protein-ligand complexes.
molmil
Backed by Protein Data Bank Japan.
- Main page: http://pdbj.org/help/molmil
Speck
By Rye Terrell. Public domain.
- Main page: http://wwwtyro.github.io/speck/
- Repository: https://github.com/wwwtyro/speck
Reads only xyz
files. Implements spacefill, sticks, ball & stick styles, but no cartoons etc. Offers ambient occlusion rendering. Beautiful images, but not useful for a smooth real time manipulation of the model.