Commit c8d90e7a authored by Gregor Michalicek's avatar Gregor Michalicek

Added Fe_bctXML test. Works.

parent 88e464c2
enable_testing()
set(Testdirs CuBulk CuBulkXML Fe_1l Fe_1lXML Fe-Atom CuBand CuBandXML CuDOS CuDOSXML Fe_bct_LO Fe_bct_LOXML Fe_bct NiO_ldau PTO Fe_fcc)
set(Testdirs CuBulk CuBulkXML Fe_1l Fe_1lXML Fe-Atom CuBand CuBandXML CuDOS CuDOSXML Fe_bct_LO Fe_bct_LOXML Fe_bct Fe_bctXML NiO_ldau PTO Fe_fcc)
set(Testdirs_INVS CuBulk CuBulkXML Fe_1l Fe_1lXML Fe-Atom CuBand CuBandXML CuDOS CuDOSXML)
set(Testdirs_SOC Bi2Te3 Fe_1l_SOC PTO-SOC Fe_bct_SOC)
......
<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<fleurInput fleurInputVersion="0.27">
<comment>
Fe fcc 2-atom uc
</comment>
<calculationSetup>
<cutoffs Kmax="3.40000000" Gmax="10.20000000" GmaxXC="8.50000000" numbands="0"/>
<scfLoop itmax="20" maxIterBroyd="99" imix="Anderson" alpha=".05000000" spinf="2.00000000"/>
<coreElectrons ctail="F" frcor="F" kcrel="0"/>
<magnetism jspins="2" l_noco="T" l_J="F" swsp="F" lflip="F"/>
<soc theta=".00000000" phi=".00000000" l_soc="F" spav="F" off="F" soc66="T"/>
<nocoParams l_ss="F" l_mperp="F" l_constr="F" l_disp="F" sso_opt="FFF" mix_b="0.5" thetaJ="0.0" nsh="0">
<qss>0.0 0.0 0.0</qss>
</nocoParams>
<expertModes gw="0" pot8="F" eig66="F" lpr="0" isec1="99" secvar="F"/>
<geometryOptimization l_f="F" xa="2.00000000" thetad="330.00000000" epsdisp=".00001000" epsforce=".00001000"/>
<bzIntegration valenceElectrons="16.00000000" mode="hist" fermiSmearingEnergy=".00100000">
<kPointCount count="5" gamma="F"/>
</bzIntegration>
<energyParameterLimits ellow="-.80000000" elup="1.00000000"/>
</calculationSetup>
<cell>
<symmetryFile filename="sym.out"/>
<bulkLattice scale="1.000000000000" latnam="squ">
<a1>4.82246838</a1>
<c>6.82000000</c>
</bulkLattice>
</cell>
<xcFunctional name="pbe" relativisticCorrections="F"/>
<atomSpecies>
<species name="Fe-1" element="Fe" atomicNumber="26" coreStates="7" magMom="2.20000000" flipSpin="T">
<mtSphere radius="2.35000000" gridPoints="565" logIncrement=".02100000"/>
<atomicCutoffs lmax="8" lnonsphr="6"/>
<energyParameters s="4" p="4" d="3" f="4"/>
</species>
</atomSpecies>
<atomGroups>
<atomGroup species="Fe-1">
<relPos>0.0 0.0 0.0</relPos>
<force calculate="T" relaxXYZ="TTT"/>
<nocoParams l_relax="F" l_magn="F" M="0.0" alpha="0.0" beta="0.0" b_cons_x="0.0" b_cons_y="0.0"/>
</atomGroup>
<atomGroup species="Fe-1">
<relPos>0.5 0.5 0.5</relPos>
<force calculate="T" relaxXYZ="TTT"/>
<nocoParams l_relax="F" l_magn="F" M="0.0" alpha="0.0" beta="3.1415926536" b_cons_x="0.0" b_cons_y="0.0"/>
</atomGroup>
</atomGroups>
<output dos="F" band="F" vacdos="F" slice="F">
<checks vchk="F" cdinf="F" disp="F"/>
<densityOfStates ndir="0" minEnergy="-.50000000" maxEnergy=".50000000" sigma=".01500000"/>
<vacuumDOS layers="0" integ="F" star="F" nstars="0" locx1=".00000000" locy1=".00000000" locx2=".00000000" locy2=".00000000" nstm="0" tworkf=".00000000"/>
<plotting iplot="F" score="F" plplot="F"/>
<chargeDensitySlicing numkpt="0" minEigenval=".00000000" maxEigenval=".00000000" nnne="0" pallst="F"/>
<specialOutput form66="F" eonly="F" bmt="F"/>
</output>
</fleurInput>
16 16 T ! nop,nop2,symor
! 1
1 0 0 0.00000
0 1 0 0.00000
0 0 1 0.00000
! 2
-1 0 0 0.00000
0 1 0 0.00000
0 0 1 0.00000
! 3
1 0 0 0.00000
0 -1 0 0.00000
0 0 1 0.00000
! 4
-1 0 0 0.00000
0 -1 0 0.00000
0 0 1 0.00000
! 5
0 -1 0 0.00000
-1 0 0 0.00000
0 0 1 0.00000
! 6
0 -1 0 0.00000
1 0 0 0.00000
0 0 1 0.00000
! 7
0 1 0 0.00000
-1 0 0 0.00000
0 0 1 0.00000
! 8
0 1 0 0.00000
1 0 0 0.00000
0 0 1 0.00000
! 9
1 0 0 0.00000
0 1 0 0.00000
0 0 -1 0.00000
! 10
-1 0 0 0.00000
0 1 0 0.00000
0 0 -1 0.00000
! 11
1 0 0 0.00000
0 -1 0 0.00000
0 0 -1 0.00000
! 12
-1 0 0 0.00000
0 -1 0 0.00000
0 0 -1 0.00000
! 13
0 -1 0 0.00000
-1 0 0 0.00000
0 0 -1 0.00000
! 14
0 -1 0 0.00000
1 0 0 0.00000
0 0 -1 0.00000
! 15
0 1 0 0.00000
-1 0 0 0.00000
0 0 -1 0.00000
! 16
0 1 0 0.00000
1 0 0 0.00000
0 0 -1 0.00000
$test_name="Fleur Fe bct non-collinear XML";
$test_code="Fleur";
%test_requirements=("SOC",0,"complex",1);
$test_stages=2;
$test_desc=<<EOF
Simple test of Fleur with two steps:
1.Generate a starting density
2.Run 20 iterations and compare convergence, fermi-energy & total energy
EOF
;
#juDFT Testscript
jt::copyfile("files/inp.xml",$workdir);
jt::copyfile("files/sym.out",$workdir);
jt::testrun("$executable -xmlInput",$workdir);
#now test output
$result=jt::test_fileexists("$workdir/out");
$result+=jt::test_fileexists("$workdir/cdn1");
$result+=jt::test_grepexists("$workdir/out","total charge");
$result+=jt::test_grepnumber("$workdir/out","qfix","qfix= *([^ ]*)",1.0,0.00001);
jt::stageresult($workdir,$result,"1");
#juDFT Testscript
#The following arguments are passed: executable, working directory
jt::copyfile("files/inp.xml",$workdir);
jt::copyfile("$workdir/cdn1","$workdir/rhomat_inp");
jt::copyfile("files/sym.out",$workdir);
jt::testrun("$executable -xmlInput",$workdir);
#now test output
$result=jt::test_grepexists("$workdir/out","it= 20 is completed");
$result+=jt::test_grepnumber("$workdir/out","new fermi energy",".*: *([^ ]*)",0.326,0.005);
$result+=jt::test_grepnumber("$workdir/out","total energy=",".*= *([^ ]*)",-2545.607,0.005);
$result+=jt::test_grepnumber("$workdir/out","distance of charge densities for it= 20",": *([^ ]*)",0.0000,0.09);
$result+=jt::test_grepnumber("$workdir/out","mm 2",".*mm 2 *([^ ]*)",1.73,0.03);
jt::stageresult($workdir,$result,"2");
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