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# Author: #
# ------ #
# Anton Kokalj Email: Tone.Kokalj@ijs.si #
# Department of Physical and Organic Chemistry Phone: x 386 1 477 3523 #
# Jozef Stefan Institute Fax: x 386 1 477 3811 #
# Jamova 39, SI-1000 Ljubljana #
# SLOVENIA #
# #
# Source: $XCRYSDEN_TOPDIR/Tcl/kLabels.tcl #
# ------ #
# Copyright (c) 2005 by Anton Kokalj #
# #
# The labelling of k-labels is based on the idea and lookup table of Peter Blaha.
# --------------------------------------------------------------------------
# Peter BLAHA, Inst.f.Techn.Elektrochemie, TU Vienna, A-1060 Vienna
# Phone: +43-1-58801-5187 FAX: +43-1-5868937
# Email: pblaha@email.tuwien.ac.at WWW: http://www.tuwien.ac.at/theochem/
# --------------------------------------------------------------------------
#############################################################################
#
# This proc determines the Bravais lattice type on the basis of XSF's
# igroup and primitive and convetional lattice vectors. The following
# lattices are currently supported for k-point labelling:
#
# P-cubic, F-cubic, I-cubic
# hexagonal
# P-tetragonal, I-tetragonal
# P-orthorhombic
#
# The proc returns one among above string or the "not-supported" string.
#
proc igroup2BravaisLattice {igroup} {
global kLabels
# dummy defs, so that these vars exists
set vec(0,0) 0.0
set vec_len(0) 0.0
set dot(0,0) 0.0
switch -- $igroup {
1 {
# P-lattice, possibilities: cubic, tetragonal, orthorhombic
getLatticeVec_ primvec vec vec_len dot
# check if lattice is orthogonal
if { [IsEqual 1e-6 0.0 $dot(0,1) $dot(0,2) $dot(1,2)] } {
# check the lengths of lattice vectors
if { [IsEqual 1e-6 $vec_len(0) $vec_len(1) $vec_len(2)] } {
set lattice "P-cubic"
} elseif { [IsEqual 1e-6 $vec_len(0) $vec_len(1)] } {
set lattice "P-tetragonal"
} else {
set lattice "not-supported"
}
} else {
set lattice "not-supported"
}
}
2 { set lattice "not-supported" }
3 { set lattice "not-supported" }
4 { set lattice "not-supported" }
5 { set lattice "F-cubic" }
6 {
# I-lattice, possibilities: cubic, tetragonal
# made a similar check as for P-lattice, but with conventional vectors
getLatticeVec_ convvec vec vec_len dot
# check if lattice is orthogonal
if { [IsEqual 1e-6 0.0 $dot(0,1) $dot(0,2) $dot(1,2)] } {
# check the lengths of lattice vectors
if { [IsEqual 1e-6 $vec_len(0) $vec_len(1) $vec_len(2)] } {
set lattice "I-cubic"
} elseif { [IsEqual 1e-6 $vec_len(0) $vec_len(1)] } {
set lattice "I-tetragonal"
} else {
xcDebug -stderr "*** igroup2BravaisLattice: impossible Bravais lattice (I); check code"
set lattice "not-supported"
}
} else {
set lattice "not-supported"
}
}
7 { set lattice "not-supported" }
8 { set lattice "hexagonal" }
9 { set lattice "not-supported" }
default { set lattice "not-supported" }
}
return $lattice
}
#
# Private proc used by igroup2BravaisLattice, to get the attributes
# of primitive or conventional.
#
proc getLatticeVec_ {type vec_ vec_len_ dot_} {
global sInfo
upvar $vec_ vec
upvar $vec_len_ vec_len
upvar $dot_ dot
#xcDebug -stderr "tk: SINFO(primvec) == $sInfo(primvec)"
#xcDebug -stderr "tk: SINFO(convvec) == $sInfo(convvec)"
# get the primitive lattice vectors and its lengths
for {set i 0} {$i < 3} {incr i} {
for {set j 0} {$j < 3} {incr j} {
set ind [expr $i*3 + $j]
set vec($i,$j) [lindex $sInfo($type) $ind]
}
set vec_len($i) [expr sqrt($vec($i,0)*$vec($i,0) + $vec($i,1)*$vec($i,1) + $vec($i,2)*$vec($i,2))]
#xcDebug -stderr "tk: VEC_LEN($i) == $vec_len($i)"
}
set dot(0,1) [expr $vec(0,0)*$vec(1,0) + $vec(0,1)*$vec(1,1) + $vec(0,2)*$vec(1,2)]
set dot(0,2) [expr $vec(0,0)*$vec(2,0) + $vec(0,1)*$vec(2,1) + $vec(0,2)*$vec(2,2)]
set dot(1,2) [expr $vec(1,0)*$vec(2,0) + $vec(1,1)*$vec(2,1) + $vec(1,2)*$vec(2,2)]
#xcDebug -stderr "tk: $type DOT:: $dot(0,1) $dot(0,2) $dot(1,2)"
}
#
# This proc tries to return the label of selected k-point based on
# table-lookup.
#
proc getKLabel {latticeType kx ky kz} {
global kLabels
if { $latticeType == "not-supported" } {
return ""
}
if { ! [info exists kLabels($latticeType)] } {
return ""
}
foreach {kxx kyy kzz label} $kLabels($latticeType) {
#xcDebug -stderr "tk: PREDIFINED: $kxx $kyy $kzz <--- SELECTED: $kx $ky $kz"
if { [IsEqual 1e-5 $kx $kxx] && [IsEqual 1e-5 $ky $kyy] && [IsEqual 1e-5 $kz $kzz] } {
#xcDebug -stderr "tk: LABEL == $label"
return $label
}
}
return ""
}
proc kLabels_Note {} {
global Bz periodic kLabels
# WARNING: since labeling of the k-points is a new feature, read carefully
# below warnings:
set msg {
NEW FEATURE: automatic labeling of the k-points
-----------------------------------------------
1. For a few "supported" Bravais lattices several k-points will be
labeled automatically
(Ref: http://www.cryst.ehu.es/cryst/get_kvec.html)
2. The information within the XSF file are sometimes insufficient
to determine the Bravais lattice type. The labelling of the k-points
will be hopefully correct only if correct Bravais lattice type was
determined
*** CHECK THIS DATA:
- the guessed BRAVAIS LATTICE TYPE : $Bz(lattice_type)
((the XSF's group number is $periodic(igroup)))
}
set Msg [subst -nocommands $msg]
set t [xcDisplayVarText $Msg "Automatic labeling of k-points"]
tkwait window $t
#if { ! [info exists kLabels(warning_window)] } {
# set t [xcDisplayVarText $Msg "Automatic labeling of k-points"]
#} elseif { ! [winfo exists $kLabels(warning_window)] } {
# set kLabels(warning_window) [xcDisplayVarText $Msg "Automatic labeling of k-points"]
#}
}
#
# this proc loads the k-label's lookup table
#
proc load_kLabels {} {
global kLabels
# not supported lattices
set kLabels(not-supported) {}
# lattice type: P cubic (eg. SG 221 Pm-3m)
set kLabels(P-cubic) {
0.0 0.0 0.0 GAMMA
0.5 0.5 0.5 R
-.5 0.5 0.5 R
0.5 -.5 0.5 R
0.5 0.5 -.5 R
0.5 -.5 -.5 R
-.5 -.5 0.5 R
-.5 0.5 -.5 R
-.5 -.5 -.5 R
0.5 0.0 0.0 X
0.0 0.5 0.0 X
0.0 0.0 0.5 X
-.5 0.0 0.0 X
0.0 -.5 0.0 X
0.0 0.0 -.5 X
0.5 0.5 0.0 M
-.5 0.5 0.0 M
0.5 -.5 0.0 M
-.5 -.5 0.0 M
0.5 0.0 0.5 M
-.5 0.0 0.5 M
0.5 0.0 -.5 M
-.5 0.0 -.5 M
0.0 0.5 0.5 M
0.0 -.5 0.5 M
0.0 0.5 -.5 M
0.0 -.5 -.5 M
}
# lattice type: F cubic (eg. SG 225 Fm-3m)
set kLabels(F-cubic) {
0.0 0.0 0.0 GAMMA
0.5 0.5 0.5 L
-0.5 -0.5 -0.5 L
0.5 0.0 0.0 L
0.0 0.5 0.0 L
0.0 0.0 0.5 L
-.5 0.0 0.0 L
0.0 -.5 0.0 L
0.0 0.0 -.5 L
0.5 0.5 0.0 X
0.5 0.0 0.5 X
0.0 0.5 0.5 X
-0.5 -0.5 0.0 X
-0.5 0.0 -0.5 X
0.0 -0.5 -0.5 X
0.25000 0.50000 0.75000 W
-0.25000 0.25000 0.50000 W
-0.25000 0.50000 0.25000 W
0.25000 0.75000 0.50000 W
-0.50000 0.25000 -0.25000 W
-0.75000 -0.25000 -0.50000 W
-0.50000 -0.25000 -0.75000 W
-0.25000 0.25000 -0.50000 W
-0.25000 -0.50000 -0.75000 W
-0.25000 -0.75000 -0.50000 W
0.25000 -0.50000 -0.25000 W
0.25000 -0.25000 -0.50000 W
0.50000 -0.25000 0.25000 W
0.25000 -0.25000 0.50000 W
0.50000 0.25000 0.75000 W
0.75000 0.25000 0.50000 W
0.75000 0.50000 0.25000 W
0.50000 0.75000 0.25000 W
0.25000 0.50000 -0.25000 W
0.50000 0.25000 -0.25000 W
-0.50000 -0.75000 -0.25000 W
-0.25000 -0.50000 0.25000 W
-0.50000 -0.25000 0.25000 W
-0.75000 -0.50000 -0.25000 W
0.75000 0.37500 0.37500 K
0.37500 0.00000 -0.37500 K
0.37500 -0.37500 0.00000 K
-0.37500 -0.75000 -0.37500 K
0.00000 -0.37500 0.37500 K
-0.75000 -0.37500 -0.37500 K
-0.37500 -0.37500 -0.75000 K
0.00000 0.37500 -0.37500 K
-0.37500 0.37500 0.00000 K
0.37500 0.75000 0.37500 K
0.37500 0.37500 0.75000 K
-0.37500 0.00000 0.37500 K
}
# lattice type: I cubic (eg. SG 230 Ia-3d) (I == body-centered)
set kLabels(I-cubic) {
0.0 0.0 0.0 GAMMA
.5 .5 -.5 H
.5 -.5 .5 H
-.5 .5 .5 H
-.5 -.5 .5 H
.5 -.5 -.5 H
-.5 .5 -.5 H
-0.25000 0.75000 -0.25000 P
-0.75000 0.25000 0.25000 P
-0.25000 -0.25000 -0.25000 P
-0.25000 -0.25000 0.75000 P
0.25000 -0.75000 0.25000 P
0.75000 -0.25000 -0.25000 P
0.25000 0.25000 0.25000 P
0.25000 0.25000 -0.75000 P
0.5 0.0 0.0 N
0.0 0.5 0.0 N
0.0 0.0 0.5 N
-.5 0.0 0.0 N
0.0 -.5 0.0 N
0.0 0.0 -.5 N
0.50000 0.00000 -0.50000 N
0.00000 0.50000 -0.50000 N
-0.50000 0.50000 0.00000 N
-0.50000 0.00000 0.50000 N
0.00000 -0.50000 0.50000 N
0.50000 -0.50000 0.00000 N
}
# Hexagonal lattice (eg. 194 P63/mMc)
set kLabels(hexagonal) {
0.0 0.0 0.0 GAMMA
0.0 0.0 0.5 A
0.0 0.0 -.5 A
0.5 0.0 0.0 M
-.5 0.0 0.0 M
0.0 0.5 0.0 M
0.0 -.5 0.0 M
0.5 -.5 0.0 M
-.5 0.5 0.0 M
0.5 0.0 0.5 L
-.5 0.0 0.5 L
0.0 0.5 0.5 L
0.0 -.5 0.5 L
0.5 -.5 0.5 L
-.5 0.5 0.5 L
0.5 0.0 -.5 L
-.5 0.0 -.5 L
0.0 0.5 -.5 L
0.0 -.5 -.5 L
0.5 -.5 -.5 L
-.5 0.5 -.5 L
0.333333 0.333333 0.0 K
-.333333 -.333333 0.0 K
0.333333 -.666667 0.0 K
0.666667 -.333333 0.0 K
-.333333 0.666667 0.0 K
-.666667 0.333333 0.0 K
0.333333 0.333333 0.5 H
-.333333 -.333333 0.5 H
0.333333 -.666667 0.5 H
0.666667 -.333333 0.5 H
-.333333 0.666667 0.5 H
-.666667 0.333333 0.5 H
0.333333 0.333333 -.5 H
-.333333 -.333333 -.5 H
0.333333 -.666667 -.5 H
0.666667 -.333333 -.5 H
-.333333 0.666667 -.5 H
-.666667 0.333333 -.5 H
}
# P tetragonal (123 P4/mmm) Coordinates require a=b ne c ! (not guaranteed)
set kLabels(P-tetragonal) {
0.0 0.0 0.0 GAMMA
0.0 0.0 0.5 Z
0.0 0.0 -.5 Z
0.5 0.0 0.0 X
0.0 0.5 0.0 X
-.5 0.0 0.0 X
0.0 -.5 0.0 X
0.5 0.5 0.0 M
-.5 0.5 0.0 M
0.5 -.5 0.0 M
-.5 -.5 0.0 M
0.5 0.0 0.5 R
0.0 0.5 0.5 R
-.5 0.0 0.5 R
0.0 -.5 0.5 R
0.5 0.0 -.5 R
0.0 0.5 -.5 R
-.5 0.0 -.5 R
0.0 -.5 -.5 R
0.5 0.5 0.5 A
-.5 0.5 0.5 A
0.5 -.5 0.5 A
-.5 -.5 0.5 A
0.5 0.5 -.5 A
-.5 0.5 -.5 A
0.5 -.5 -.5 A
-.5 -.5 -.5 A
}
# I-tetragonal, (c is "tetragonal") (139 I4/mmm) (I == body-centered)
set kLabels(I-tetragonal) {
0.0 0.0 0.0 GAMMA
0.0 0.0 0.5 X
0.0 0.0 -.5 X
0.5 -.5 0.0 X
-.5 0.5 0.0 X
0.5 0.0 0.0 N
0.0 0.5 0.0 N
-.5 0.0 0.0 N
0.0 -.5 0.0 N
0.5 0.0 -.5 N
0.0 0.5 -.5 N
-.5 0.0 0.5 N
0.0 -.5 0.5 N
0.25 0.25 0.25 P
-.25 0.75 -.25 P
0.75 -.25 -.25 P
0.25 0.25 -.75 P
-.25 -.25 -.25 P
0.25 -.75 0.25 P
-.75 0.25 0.25 P
-.25 -.25 0.75 P
-.5 0.5 -.5 M
-.5 0.5 0.5 M
0.5 -.5 0.5 M
0.5 -.5 -.5 M
0.5 0.5 -.5 Z
-.5 -.5 0.5 Z
}
# Note: for above M and Z points "acessibility depends on c/a"
# P orthorhombic (47 Pmmm)
set kLabels(P-orthorhombic) {
0.0 0.0 0.0 GAMMA
0.0 0.0 0.5 Z
0.0 0.0 -.5 Z
0.5 0.0 0.0 X
0.0 0.5 0.0 Y
-.5 0.0 0.0 X
0.0 -.5 0.0 Y
0.5 0.5 0.0 S
-.5 0.5 0.0 S
0.5 -.5 0.0 S
-.5 -.5 0.0 S
0.5 0.0 0.5 U
0.0 0.5 0.5 T
-.5 0.0 0.5 U
0.0 -.5 0.5 T
0.5 0.0 -.5 U
0.0 0.5 -.5 T
-.5 0.0 -.5 U
0.0 -.5 -.5 T
0.5 0.5 0.5 R
-.5 0.5 0.5 R
0.5 -.5 0.5 R
-.5 -.5 0.5 R
0.5 0.5 -.5 R
-.5 0.5 -.5 R
0.5 -.5 -.5 R
-.5 -.5 -.5 R
}
# additional comments (PB):
# --------------------------
# Trigonal (Rhombohedral) case (2 cases, a,c)
#
# B orthorhombic case (2 cases, depending on a,b,c)
#
# F orthorhombic cases (3 different cases, depending on a,b,c)
#
# C orthorhombic lattice (CXY, and a<>b, CXZ, CYZ, ...)
#
# C monoclinic lattice (with monoclinic angle gamma, depends on a,b,c and gamma)
#
# P monoclinic lattice (with monoclinic angle gamma, depends on a,b, and gamma)
#
# triclinic
}
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