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import gradio as gr | |
from slices.core import SLICES | |
from pymatgen.core.structure import Structure | |
from pymatgen.io.cif import CifWriter | |
from pymatgen.io.ase import AseAtomsAdaptor | |
from ase.io import write as ase_write | |
import tempfile | |
from pymatgen.symmetry.analyzer import SpacegroupAnalyzer | |
import os | |
# Initialize SLICES backend | |
backend = SLICES(relax_model="chgnet", fmax=0.4, steps=25) | |
def wrap_structure(structure): | |
"""Wrap all atoms back into the unit cell.""" | |
for i, site in enumerate(structure): | |
frac_coords = site.frac_coords % 1.0 | |
structure.replace(i, species=site.species, coords=frac_coords, coords_are_cartesian=False) | |
return structure | |
def get_primitive_structure(structure): | |
"""Convert the structure to its primitive cell.""" | |
analyzer = SpacegroupAnalyzer(structure) | |
return analyzer.get_primitive_standard_structure() | |
def visualize_structure(structure): | |
"""Generate an image of the structure.""" | |
atoms = AseAtomsAdaptor.get_atoms(structure) | |
with tempfile.NamedTemporaryFile(suffix='.png', delete=False) as temp_file: | |
ase_write(temp_file.name, atoms, format='png', rotation='10x,10y,10z') | |
return temp_file.name | |
def process_structure(structure): | |
"""Wrap and convert to primitive cell.""" | |
structure = wrap_structure(structure) | |
return get_primitive_structure(structure) | |
def cif_to_slices(cif_file): | |
try: | |
structure = Structure.from_file(cif_file.name) | |
structure = process_structure(structure) | |
slices_string = backend.structure2SLICES(structure) | |
image_file = visualize_structure(structure) | |
return slices_string, image_file, None, slices_string, slices_string # Added another slices_string for aug_slices_input | |
except Exception as e: | |
return str(e), None, None, "", "" | |
def slices_to_cif(slices_string): | |
try: | |
structure, energy = backend.SLICES2structure(slices_string) | |
structure = process_structure(structure) | |
with tempfile.NamedTemporaryFile(mode='w', suffix='.cif', delete=False) as temp_file: | |
CifWriter(structure).write_file(temp_file.name) | |
image_file = visualize_structure(structure) | |
return temp_file.name, image_file, f"Conversion successful. Energy: {energy:.4f} eV/atom" | |
except Exception as e: | |
return None, None, f"Conversion failed. Error: {str(e)}" | |
def augment_and_canonicalize_slices(slices_string, num_augmentations): | |
try: | |
augmented_slices = backend.SLICES2SLICESAug_atom_order(slices_string,num=num_augmentations) | |
unique_augmented_slices = list(set(augmented_slices)) | |
canonical_slices = list(set([backend.get_canonical_SLICES(s) for s in unique_augmented_slices])) | |
return augmented_slices, canonical_slices | |
except Exception as e: | |
return [], [], str(e) | |
# Gradio interface | |
with gr.Blocks() as iface: | |
gr.Markdown("# Crystal Structure and SLICES Converter", elem_classes=["center"]) | |
with gr.Row(elem_classes=["center"]): | |
gr.Image("1.png", label="SLICES Representation", show_label=False, width=600, height=250) | |
gr.Markdown("SLICES provides a text-based encoding of crystal structures, allowing for efficient manipulation and generation of new materials.", elem_classes=["center"]) | |
with gr.Tab("CIF-SLICES Conversion"): | |
with gr.Row(): | |
with gr.Column(): | |
cif_input = gr.File(label="Upload CIF file", file_types=[".cif"], value="NdSiRu.cif") | |
convert_cif_button = gr.Button("Convert CIF to SLICES") | |
slices_input = gr.Textbox(label="Enter SLICES String") | |
convert_slices_button = gr.Button("Convert SLICES to CIF") | |
with gr.Column(): | |
slices_output = gr.Textbox(label="SLICES String") | |
cif_output = gr.File(label="Download CIF", file_types=[".cif"]) | |
conversion_status = gr.Textbox(label="Conversion Status") | |
with gr.Row(): | |
cif_image = gr.Image(label="Original Structure") | |
slices_image = gr.Image(label="Converted Structure") | |
with gr.Tab("SLICES Augmentation and Canonicalization"): | |
aug_slices_input = gr.Textbox(label="Enter SLICES String") | |
num_augmentations = gr.Slider(minimum=1, maximum=50, step=1, value=10, label="Number of Augmentations") | |
augment_button = gr.Button("Augment and Canonicalize") | |
aug_slices_output = gr.Textbox(label="Augmented SLICES Strings") | |
canon_slices_output = gr.Textbox(label="Canonical SLICES Strings") | |
# Event handlers | |
convert_cif_button.click( | |
cif_to_slices, | |
inputs=[cif_input], | |
outputs=[slices_output, cif_image, conversion_status, slices_input, aug_slices_input] | |
) | |
convert_slices_button.click( | |
slices_to_cif, | |
inputs=[slices_input], | |
outputs=[cif_output, slices_image, conversion_status] | |
) | |
augment_button.click( | |
augment_and_canonicalize_slices, | |
inputs=[aug_slices_input, num_augmentations], | |
outputs=[aug_slices_output, canon_slices_output] | |
) | |
# Launch the interface | |
iface.launch(share=True) |