mirror of
https://github.com/triqs/dft_tools
synced 2024-11-06 22:23:52 +01:00
Fixed band selection indices for projectors
There was an inconsistency in the convention on the position of the subarray corresponding to projectors within the selected window. In some cases the subarray was defined from 0 to ib_max, in other cases it was from 'ib1 - ib_min' to 'ib2 - ib_min'. Now the global convention is that the projectors for a given window are stored in a slice '0:ib_max', where 'ib_max = ib2 - ib1 + 1'.
This commit is contained in:
parent
8a71cbe6b0
commit
99713edbc4
@ -266,13 +266,15 @@ class ProjectorGroup:
|
||||
p_mat[i1:i2, :nb] = shell.proj_win[ion, isp, ik, :nlm, :nb]
|
||||
# Now orthogonalize the obtained block projector
|
||||
p_orth, overl, eig = orthogonalize_projector_matrix(p_mat)
|
||||
print "ik = ", ik
|
||||
print overl.real
|
||||
# Distribute back projectors in the same order
|
||||
for ish in self.ishells:
|
||||
shell = self.shells[ish]
|
||||
blocks = bl_map[ish]['bmat_blocks']
|
||||
for ion in xrange(nion):
|
||||
i1, i2 = blocks[ion]
|
||||
shell.proj_win[ion, isp, ik, :nlm, :nb] = p_mat[i1:i2, :nb]
|
||||
shell.proj_win[ion, isp, ik, :nlm, :nb] = p_orth[i1:i2, :nb]
|
||||
|
||||
|
||||
################################################################################
|
||||
@ -365,9 +367,8 @@ class ProjectorShell:
|
||||
is_b = min(isp, ns_band)
|
||||
ib1 = self.ib_win[ik, is_b, 0]
|
||||
ib2 = self.ib_win[ik, is_b, 1] + 1
|
||||
ib1_win = ib1 - self.ib_min
|
||||
ib2_win = ib2 - self.ib_min
|
||||
self.proj_win[:, isp, ik, :, ib1_win:ib2_win] = self.proj_arr[:, isp, ik, :, ib1:ib2]
|
||||
ib_win = ib2 - ib1
|
||||
self.proj_win[:, isp, ik, :, :ib_win] = self.proj_arr[:, isp, ik, :, ib1:ib2]
|
||||
|
||||
################################################################################
|
||||
#
|
||||
@ -438,13 +439,13 @@ def generate_plo(conf_pars, el_struct):
|
||||
pgroups = []
|
||||
for gr_par in conf_pars.groups:
|
||||
pgroup = ProjectorGroup(gr_par, pshells, eigvals, el_struct.ferw)
|
||||
pgroup.orthogonalize()
|
||||
print "Density matrix:"
|
||||
dm, ov = pshells[pgroup.ishells[0]].density_matrix(el_struct)
|
||||
print dm
|
||||
print
|
||||
print "Overlap:"
|
||||
print ov
|
||||
# pgroup.orthogonalize()
|
||||
pgroups.append(pgroup)
|
||||
|
||||
return pshells, pgroups
|
||||
@ -630,9 +631,8 @@ def plo_output(conf_pars, el_struct, pshells, pgroups):
|
||||
for ion in xrange(nion):
|
||||
for ilm in xrange(nlm):
|
||||
ib1, ib2 = pgroup.ib_win[ik, isp, 0], pgroup.ib_win[ik, isp, 1]
|
||||
ib1_win = ib1 - shell.ib_min
|
||||
ib2_win = ib2 - shell.ib_min
|
||||
for ib in xrange(ib1_win, ib2_win + 1):
|
||||
ib_win = ib2 - ib1 + 1
|
||||
for ib in xrange(ib_win):
|
||||
p = shell.proj_win[ion, isp, ik, ilm, ib]
|
||||
f.write("{0:16.10f}{1:16.10f}\n".format(p.real, p.imag))
|
||||
f.write("\n")
|
||||
|
Loading…
Reference in New Issue
Block a user