v_ase: a Blender-style browser GUI and editor for ASE Atoms objects.
Project description
v_ase
v_ase was developed for researchers who want the convenience of ASE and the
flexibility of Blender in one atomistic workflow. ASE is convenient because
structures and trajectories can be opened directly from Python or the terminal.
Blender is flexible because objects can be selected, moved, rotated, inspected,
and edited in a real 3D scene. v_ase combines those two strengths: an
ase gui-style entry point for scientific files, plus direct 3D editing for
atomic structures.
It is intended to replace:
ase gui FILE
with:
v_ase gui FILE
For example:
v_ase gui POSCAR
v_ase gui structure.vasp
v_ase gui movie.extxyz
v_ase gui relaxation.traj
The viewer opens locally in your browser. Middle mouse tumbles the camera,
left click and box drag select atoms, G moves atoms, R rotates atoms,
X/Y/Z lock axes, numeric input gives exact transforms, and trajectory files
show playback controls for frame-by-frame movie inspection.
Highlights
v_ase gui FILEcommand-line workflow for POSCAR, VASP, extxyz, traj, and other ASE-readable files.- Python API for notebooks and scripts:
from v_ase.visualize import view. - Blender-like viewport interaction: middle-mouse orbit, shift-middle pan,
wheel zoom, click/box selection,
Gmove,Rrotate, axis locking, numeric transforms,Enter,Esc, copy/paste/undo/delete. - Selection measurements: two selected atoms show distance, and three selected atoms show two distances plus the central angle.
- ASE constraint-aware editing and visualization:
FixAtoms,FixCartesian,FixedLine,FixedPlane,FixScaled, andHookean. - Hookean constraints are visualized as threshold-aware hook/latch springs.
- Trajectory playback with live frame slider, FPS control, image export, and video export.
- Periodic bonds, element-pair cutoff tables, manual bond pairs, supercell
preview,
make_supercell(P)cell transform, and wrap atoms into cell. - Custom extxyz atom type labels such as
H_type5are preserved for GUI type settings even when ASE cannot parse them as real elements. - Export POSCAR, pickle, PNG image, WebM video, and Blender Python scene script. Blender export includes a camera matching the current v_ase viewport.
Installation
From PyPI
python -m pip install v_ase-gui
From GitHub
git clone https://github.com/lgyEthan/v_ase.git
cd v_ase
python -m pip install --upgrade pip
python -m pip install -e .
No conda and no Node.js are required. Three.js is vendored inside the package.
Quick Start
Open a structure file:
v_ase gui POSCAR
v_ase gui structure.vasp
v_ase gui trajectory.extxyz
v_ase gui relaxation.traj
The direct file form also works:
v_ase POSCAR
Use from Python:
from ase.build import molecule
from v_ase.visualize import view
atoms = molecule("H2O")
edited = view(atoms)
print(edited.positions)
Useful CLI options:
v_ase gui structure.vasp --show-bonds
v_ase gui trajectory.extxyz --index :
v_ase gui trajectory.extxyz --index -1
v_ase gui ABCD --format POSCAR
v_ase gui ABCD --format XDATCAR
v_ase gui ABCD --format vasprun.xml
v_ase gui ABCD --format lammpstrj
v_ase gui ABCD --format data
v_ase gui POSCAR --output edited.vasp
v_ase gui POSCAR --no-block
--format forces the input reader when the filename is ambiguous. It accepts
common aliases such as POSCAR, XDATCAR, vasprun.xml, lammpstrj, traj,
xyz, extxyz, and data, plus raw ASE format names.
Example Structures
The README and demo structures can be regenerated from source:
python examples/readme_scenes.py
This writes single-structure .traj files under examples/readme_scene_assets/.
Open them with normal v_ase commands:
v_ase gui examples/readme_scene_assets/fixedline.traj --show-bonds
v_ase gui examples/readme_scene_assets/fixedplane.traj --show-bonds
v_ase gui examples/readme_scene_assets/hookean.traj --show-bonds
v_ase gui examples/readme_scene_assets/ferrocene.traj --show-bonds
v_ase gui examples/readme_scene_assets/showcase.traj --show-bonds
Case 1: Selection, FixedLine, and FixedPlane
Selected atoms get yellow Blender-style outlines. Fixed atoms are dimmed, and
selected FixedLine / FixedPlane atoms show geometric guides so the allowed
movement is visible before committing coordinates.
FixedLine is shown as a Li ion moving along a carbon nanotube channel. The ion
can slide parallel to the tube axis, but not leave the channel direction:
FixedPlane is shown as a Li ion moving over a Cu(111) surface. The guide is an
unbounded plane field through the selected atom, not a finite patch, so the
surface-parallel XY constraint reads as diffusion over the surface rather than
rotation:
Example:
from ase.build import molecule
from ase.constraints import FixAtoms, FixedLine, FixedPlane
from v_ase.visualize import view
atoms = molecule("H2O")
atoms.set_constraint([
FixAtoms(indices=[0]),
FixedLine(1, [1, 0, 0]),
FixedPlane(2, [0, 0, 1]),
])
view(atoms)
When Apply constraints is enabled, move and rotate previews are projected onto
the allowed line or plane and the backend commit uses
atoms.set_positions(..., apply_constraint=True).
Case 2: Hookean Constraints
Hookean constraints are drawn with physical meaning. The rt threshold is
placed in Angstroms along the constrained direction. Below the threshold the
spring is inactive and shows slack. Beyond the threshold the latch engages and
the spring becomes active. The example below uses a 9-atom ethanol-like
adsorbate on Cu(111). The O-H group moves with oxygen while the C-O bond is
pulled, so the graphic reads as a bond-retention constraint rather than an
arbitrary long-range tether.
Example:
from ase.build import molecule
from ase.constraints import Hookean
from v_ase.visualize import view
atoms = molecule("H2O")
atoms.set_constraint(Hookean(0, 1, rt=1.15, k=5.0))
view(atoms)
For trajectories, the Hookean graphic updates frame by frame, so inactive, near-threshold, and active states can be inspected as a movie.
Case 3: Rotate and Move
Transforms follow Blender-style keyboard flow:
G X 1.2 Enter
R Z 30 Enter
Supported behavior:
G: move selected atoms.R: rotate selected atoms.X,Y,Z: lock transform axis in transform mode.- Numeric input: exact displacement or angle.
- Left click or
Enter: confirm. Esc: cancel.- Optional move increment in Angstrom.
- Optional rotate increment in degrees.
- Rotate pivots: selection center, global origin, or unit-cell center.
- Optional bond-strain guard for rejecting excessive periodic bond distortion.
Here a ferrocene molecule is used to show a selected cyclopentadienyl ring rotating about the X axis while the rest of the molecule remains in place:
For axis-locked rotation, the colored axis guide is drawn through the active pivot. If the pivot is the origin, the axis passes through the origin; if the pivot is the selection center of mass, it passes through that COM.
Case 4: Bonds, Periodicity, and Supercells
Bonding can be automatic, element-pair based, or manually specified.
- Auto cutoff uses covalent radii and respects periodic minimum-image distances.
- Element-pair mode exposes pair-specific
rcutrows. - Manual mode accepts pair strings such as
Na-Cl: 3.2or0-1, 1-2. - Supercell preview shows repeated atoms and repeated unit-cell lines.
Set Supercell as Cellconverts the preview into real editable atoms.Cell Transformaccepts a full integermake_supercell(P)matrix.
For 2D periodic supercell/twist workflows, the cell transform applies:
H' = P H
to every trajectory frame. Non-periodic axes are protected from accidental mixing, tilting, or repetition.
Case 5: Trajectories
Multi-frame Atoms lists and ASE-readable trajectory files can be played as a
movie.
v_ase gui relaxation.traj
v_ase gui movie.extxyz --index :
Controls:
- frame slider updates live while dragging
- play/pause button
Space: play or pause- FPS control updates immediately while playback is running
- export image and export video
Case 6: Custom Atom Types in extxyz
Some workflows store type labels such as H_type5, O_type2, or Si_type1
inside the species column. ASE itself cannot treat these strings as chemical
elements, so v_ase reads them as GUI atom types while mapping them internally to
valid ASE base elements.
Example extxyz line:
H_type5 82.30128 7.97802 11.47478
In v_ase:
- ASE backend uses base element
H. - GUI labels remain
H_type5. - type-specific color variants are generated.
- Appearance radius controls are grouped by
H_type5,O_type2, etc. - Bond cutoff pair tables also use the preserved type labels.
Case 7: Export
From the right panel:
Export POSCARExport PickleExport BlenderExport ImageExport Video
Blender export downloads v_ase_blender_scene.py:
blender --python v_ase_blender_scene.py
The generated scene keeps atoms and constraint graphics as editable Blender objects where practical.
Python API
from v_ase import view_edit, view_file
edited_atoms = view_edit(
atoms,
notebook=False,
block=True,
show_cell=True,
show_axes=True,
show_bonds=False,
respect_constraints=True,
allow_relax=True,
return_mode="atoms",
)
view_file("trajectory.extxyz")
return_mode can be:
"atoms": edited ASEAtoms"positions": editedNx3positions array"none": no return value
Controls
| Input | Action |
|---|---|
| Left click | Select atom or confirm transform |
| Shift + left click | Add/remove selection |
| Left drag | Box select |
| Middle drag | Orbit viewport |
| Shift + middle drag | Pan viewport |
| Mouse wheel | Zoom |
G |
Move selected atoms |
R |
Rotate selected atoms |
X, Y, Z |
Align view in select mode, lock axis in transform mode |
| Number keys | Numeric transform input |
Enter |
Confirm transform |
Esc |
Cancel transform |
Ctrl+C / Ctrl+V |
Copy / paste atoms |
Ctrl+Z / Ctrl+Shift+Z |
Undo / redo |
Delete / Backspace |
Delete selected atoms |
Space |
Play/pause trajectory |
Notes
- The local editor server binds to
127.0.0.1. - Relaxation uses the calculator already attached to the
Atomsobject. - POSCAR export stores structural data. Pickle export can include the ASE object; calculators may not always be pickleable.
- The bundled browser UI is local-first; no Node.js build step is required.
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