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PivotPy
A Python Processing Tool for Vasp Input/Output. A CLI is available in Powershell, see Vasp2Visual.
Install
pip install pivotpy
How to use
- See Full Documentation.
- For CLI, use Vasp2Visual.
- Run in Azure
import pivotpy as pp
print(', '.join(pp.__all__))
Dic2Dot, read_asxml, exclude_kpts, get_ispin, get_summary, get_kpts, get_tdos, get_evals, get_bands_pro_set, get_dos_pro_set, get_structure, export_vasprun, load_export, make_dot_dict, dump_dict, get_file_size, interpolate_data, ps_to_py, ps_to_std, select_dirs, select_files, get_child_items, invert_color, printr, printg, printb, printy, printm, printc, EncodeFromNumpy, DecodeToNumpy, link_to_class, plot_bands, modify_axes, quick_bplot, add_text, add_legend, add_colorbar, create_rgb_lines, quick_rgb_lines, quick_color_lines, init_figure, select_pdos, collect_dos, quick_dos_lines, plt_to_html, get_rgb_data, rgb_to_plotly, plotly_to_html, plotly_rgb_lines, plotly_dos_lines, iplotfromtxt, save_mp_API, load_mp_data, get_crystal, get_poscar, trace_kpath, get_kmesh, intersect_3p_p_3v, centroid, order, in_vol_sector, out_bz_plane, to_xy, rad_angle, arctan_full, get_bz, plot_bz, show, savefig
import os
os.chdir('E:/Research/graphene_example/ISPIN_1/bands')
xml_data=pp.read_asxml()
vr=pp.export_vasprun(elim=[-5,5])
vr.keys()
dict_keys(['sys_info', 'dim_info', 'kpoints', 'kpath', 'bands', 'tdos', 'pro_bands', 'pro_dos', 'poscar', 'xml'])
from pivotpy import vr_parser as vp
xml_data=vp.read_asxml()
vr=vp.export_vasprun(elim=[-5,5])
vr.keys()
dict_keys(['sys_info', 'dim_info', 'kpoints', 'kpath', 'bands', 'tdos', 'pro_bands', 'pro_dos', 'poscar', 'xml'])
import pivotpy as pp
import matplotlib.pyplot as plt
vr1=pp.export_vasprun('E:/Research/graphene_example/ISPIN_2/bands/vasprun.xml')
vr2=pp.export_vasprun('E:/Research/graphene_example/ISPIN_2/dos/vasprun.xml')
axs=pp.init_figure(ncols=3,widths=[1,1,1],sharey=True,wspace=0.05,figsize=(10,2.6))
elements=[0,0,[0,1]]
orbs=[[0],[1],[2,3]]
orblabels=['s','p_z','(p_x+p_y)']
colors=['r',(0,0.9,0),'b']
ti_cks=dict(xt_indices=[0,30,60,-1],xt_labels=['Γ','M','K','Γ'])
args_dict=dict(elements=elements,orbs=orbs,orblabels=orblabels,elim=[-20,15])
pp.quick_bplot(path_evr=vr1,ax=axs[0],**ti_cks,elim=[-20,15])
pp.quick_rgb_lines(path_evr=vr1,ax=axs[1],**args_dict,**ti_cks)
lg_k={'ncol': 3}
pp.quick_dos_lines(path_evr=vr2,ax=axs[2],vertical=True,include_dos='pdos',**args_dict,colors=colors,legend_kwargs=lg_k)
pp.add_colorbar(ax=plt.gcf().add_axes([0.399,1.02,0.23,0.05]),ticklabels=[r'$s^{⇅}$',r'$p_z^{⇅}$',r'$(p_x+p_y)^{⇅}$'])
pp.show()
Brillouin Zone (BZ) Processing
- Look in
pivotpy.sio
module for details on generating mesh and path of KPOINTS as well as using Materials Projects' API to get POSCAR right in the working folder with commandget_poscar
. Below is a screenshot of interactive BZ plot. You candouble click
on blue points and hitCtrl + C
to copy the high symmetry points relative to reciprocal lattice basis vectors. (You will be able to draw kpath inPivotpy-Dash
application and generate KPOINTS automatically from a web interface later on!). - Same color points lie on a sphere, with radius decreasing as red to blue and gamma point in gold color. These color help distinguishing points but the points not always be equivalent, for example in FCC, there are two points on mid of edges connecting square-hexagon and hexagon-hexagon at equal distance from center but not the same points.
- Any colored point's hover text is in gold background.
from IPython.display import Image
Image(url="docs/images/plot_bz.jpg")
Plotting Two Calculations Side by Side
- Here we will use
shift_kpath
to demonstrate plot of two calculations on same axes side by side
import matplotlib.pyplot as plt
import pivotpy as pp
plt.style.use('bmh')
vr1=pp.export_vasprun('E:/Research/graphene_example/ISPIN_1/bands/vasprun.xml')
shift_kpath=vr1.kpath[-1] # Add last point from first export in second one.
vr2=pp.export_vasprun('E:/Research/graphene_example/ISPIN_2/bands/vasprun.xml',shift_kpath=shift_kpath)
last_k=vr2.kpath[-1]
axs=pp.init_figure(figsize=(5,2.6))
K_all=[*vr1.kpath,*vr2.kpath] # Merge kpath for ticks
kticks=[K_all[i] for i in [0,30,60,90,120,150,-1]]
ti_cks=dict(xticks=kticks,xt_labels=['Γ','M','K','Γ','M','K','Γ'])
pp.quick_bplot(path_evr=vr1,ax=axs)
pp.quick_bplot(path_evr=vr2,ax=axs,txt='Graphene(Left: ISPIN=1, Right: ISPIN=2)',ctxt='m')
pp.modify_axes(ax=axs,xlim=[0,last_k],ylim=[-10,10],**ti_cks)
Interpolation
import pivotpy as pp
plt.style.use('ggplot')
k=vr1.kpath
ef=vr1.bands.E_Fermi
evals=vr1.bands.evals-ef
#Let's interpolate our graph to see effect. It is useful for colored graphs.
knew,enew=pp.interpolate_data(x=k,y=evals,n=10,k=3)
plot=plt.plot(k,evals,'m',lw=5,label='real data')
plot=plt.plot(k,evals,'w',lw=1,label='interpolated',ls='dashed')
pp.add_text(ax=plt.gca(),txts='Graphene')
Running powershell commands from python.
Some tasks are very tideious in python while just a click way in powershell. See below, and try to list processes in python yourself to see the difference!
pp.ps_to_std(ps_command='(Get-Process)[0..4]')
NPM(K) PM(M) WS(M) CPU(s) Id SI ProcessName
------ ----- ----- ------ -- -- -----------
53 39.77 18.03 901.41 13988 1 AltC
38 40.05 33.10 45.00 792 1 ApplicationFrameHost
8 1.64 4.39 0.00 7532 0 AppVShNotify
8 1.88 4.60 0.09 18180 1 AppVShNotify
19 4.77 4.37 0.00 4992 0 armsvc
Using Plotly in pivotpy
- See video!
<iframe width="560" height="315" src="https://www.youtube.com/embed/uda0ubF-cnQ" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe>
- Interact with chart below, hover, zoom, pan and more!
<iframe width="700" height="400" frameborder="0" scrolling="no" src="//plotly.com/~massgh/36.embed"></iframe>
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