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https://github.com/triqs/dft_tools
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411 lines
15 KiB
Fortran
411 lines
15 KiB
Fortran
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c ******************************************************************************
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c
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c TRIQS: a Toolbox for Research in Interacting Quantum Systems
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c
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c Copyright (C) 2011 by L. Pourovskii, V. Vildosola, C. Martins, M. Aichhorn
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c
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c TRIQS is free software: you can redistribute it and/or modify it under the
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c terms of the GNU General Public License as published by the Free Software
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c Foundation, either version 3 of the License, or (at your option) any later
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c version.
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c
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c TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
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c WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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c FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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c details.
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c
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c You should have received a copy of the GNU General Public License along with
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c TRIQS. If not, see <http://www.gnu.org/licenses/>.
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c
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c *****************************************************************************/
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C--------------------
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C MODULE almblm_data
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C--------------------
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MODULE almblm_data
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INTEGER :: nk, nloat
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INTEGER, DIMENSION(:,:), ALLOCATABLE :: nLO
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REAL(KIND=8), DIMENSION(:,:,:), ALLOCATABLE :: u_dot_norm
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REAL(KIND=8), DIMENSION(:,:,:,:), ALLOCATABLE :: ovl_LO_u
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REAL(KIND=8), DIMENSION(:,:,:,:), ALLOCATABLE :: ovl_LO_udot
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TYPE kp_data
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LOGICAL :: included
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INTEGER :: nb_bot, nb_top
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INTEGER :: nbmin,nbmax
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REAL(KIND=8) :: weight
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COMPLEX(KIND=8), DIMENSION(:), ALLOCATABLE :: tetrweight
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REAL(KIND=8),DIMENSION(:), ALLOCATABLE :: eband
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COMPLEX(KIND=8),DIMENSION(:,:,:), ALLOCATABLE :: Alm, Blm
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COMPLEX(KIND=8),DIMENSION(:,:,:,:), ALLOCATABLE :: Clm
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ENDTYPE
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TYPE(kp_data), DIMENSION(:,:), ALLOCATABLE :: kp
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ENDMODULE almblm_data
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C
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C--------------
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C MODULE bands
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C--------------
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MODULE bands
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INTEGER :: nlab, nkband
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TYPE label
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CHARACTER(len=20) :: kname
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INTEGER :: pos
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ENDTYPE
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TYPE(label), DIMENSION(:), ALLOCATABLE :: labels
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ENDMODULE
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C
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C--------------------
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C MODULE common_data
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C--------------------
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MODULE common_data
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C 11/03/10 : Modification of the fullpath for myDMFTproj-2
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C CHARACTER(len=*), PARAMETER :: wien_path=
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C & '/workpmc/martins/DMFTprojectors/newDMFTproj'
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CHARACTER(len=250) :: wien_path
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INTEGER :: natom, nsort, lmax, nlm, ns, nsp
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INTEGER, DIMENSION(:), ALLOCATABLE :: isort
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INTEGER, DIMENSION(:), ALLOCATABLE :: nmult
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INTEGER, DIMENSION(:,:), ALLOCATABLE :: lsort
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INTEGER, DIMENSION(:), ALLOCATABLE :: ifSOflag
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INTEGER, DIMENSION(:), ALLOCATABLE :: timeflag
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LOGICAL :: ifSO, ifSP, ifBAND
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LOGICAL, DIMENSION(:), ALLOCATABLE :: notinclude
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REAL(KIND=8) :: eferm
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REAL(KIND=8) :: e_bot, e_top
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REAL(KIND=8), PARAMETER :: PI=3.1415926535898d0
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C New type structure basistrans
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TYPE deftrans
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CHARACTER(len=8) :: typebasis
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C The size of typebasis is limited to 8 characters !
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CHARACTER(len=25) :: sourcefile
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C The size of sourcefile is limited to 25 characters !
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ENDTYPE
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TYPE(deftrans), DIMENSION(:), ALLOCATABLE :: defbasis
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C Type structure orbital
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TYPE orbital
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INTEGER :: atom
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INTEGER :: sort
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INTEGER :: l
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LOGICAL :: first
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LOGICAL :: ifsplit
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INTEGER :: ifSOat
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LOGICAL,DIMENSION(:), ALLOCATABLE :: correp
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ENDTYPE
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TYPE(orbital), DIMENSION(:), ALLOCATABLE :: orb, crorb
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INTEGER :: norb, ncrorb
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ENDMODULE common_data
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C
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C------------------
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C MODULE factorial
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C------------------
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MODULE factorial
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REAL(KIND=8), DIMENSION(:), ALLOCATABLE :: fac
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INTEGER :: nfctrl
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CONTAINS
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SUBROUTINE setfact(n)
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C %% %%
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C %% This subroutine sets the factorial array %%
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C %% FAC(I+1) = I! for I=0,...,N-1 %%
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C %% %%
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C Definiton of the variables :
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C ----------------------------
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IMPLICIT NONE
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INTEGER :: n, i
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C
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nfctrl=n
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ALLOCATE(fac(nfctrl))
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C I! = FAC(I+1)
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fac(1)=1.0d00
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DO i=1,nfctrl-1
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fac(i+1)=i*fac(i)
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ENDDO
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RETURN
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END SUBROUTINE setfact
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END MODULE factorial
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C
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C-------------------
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C MODULE file_names
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C-------------------
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MODULE file_names
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INTEGER :: iudef, iuinp, iusym, iualmblm, iumatfile, iuradwf
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INTEGER :: iuklist
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INTEGER :: ouproj, ouprn, ouctqmc, oupartial,ousymqmc, ousympar
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INTEGER :: ouband, oubwinup, oubwindn, oubwin
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INTEGER :: outw2kpath
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CHARACTER(len=25) :: jobname
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CHARACTER(len=35) :: inp_file, sym_file, almblm_file
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CHARACTER(len=35) :: almblm_file_sp2
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CHARACTER(len=35) :: radwf_file, radwf_file_sp2
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CHARACTER(len=35) :: prn_file, ctqmc_file, partial_file
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CHARACTER(len=35) :: klist_file
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CHARACTER(len=35) :: symqmc_file, sympar_file, outband_file
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CHARACTER(len=35) :: oubwin_file, oubwinup_file, oubwindn_file
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CHARACTER(len=8), PARAMETER :: inp_ext='indmftpr'
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CHARACTER(len=7), PARAMETER :: sym_ext='dmftsym'
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CHARACTER(len=6), PARAMETER :: almblm_ext='almblm'
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CHARACTER(len=8), PARAMETER :: almblmup_ext='almblmup'
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CHARACTER(len=8), PARAMETER :: almblmdn_ext='almblmdn'
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CHARACTER(len=9), PARAMETER :: prn_ext='outdmftpr'
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CHARACTER(len=8), PARAMETER :: ctqmc_ext='ctqmcout'
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CHARACTER(len=7), PARAMETER :: partial_ext='parproj'
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CHARACTER(len=6), PARAMETER :: symqmc_ext='symqmc'
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CHARACTER(len=6), PARAMETER :: sympar_ext='sympar'
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CHARACTER(len=7), PARAMETER :: radwfup_ext='radwfup'
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CHARACTER(len=7), PARAMETER :: radwfdn_ext='radwfdn'
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CHARACTER(len=10), PARAMETER :: klist_ext='klist_band'
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CHARACTER(len=7), PARAMETER :: outband_ext='outband'
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CHARACTER(len=6), PARAMETER :: oubwin_ext='oubwin'
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CHARACTER(len=8), PARAMETER :: oubwinup_ext='oubwinup'
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CHARACTER(len=8), PARAMETER :: oubwindn_ext='oubwindn'
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CONTAINS
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SUBROUTINE set_file_name(filename,exten)
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C %% %%
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C %% This subroutine sets the file name %%
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C %% %%
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C Definiton of the variables :
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C ----------------------------
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IMPLICIT NONE
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CHARACTER(len=*) :: filename, exten
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INTEGER :: i1, i2, i
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i1=LEN_TRIM(jobname)
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i2=LEN(exten)
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i=i1+i2+1
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IF(LEN(filename) < i) THEN
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WRITE(*,'(i3,3a)')
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& i,' characters required for the $case.',exten,
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& ' filename, too long'
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STOP
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ENDIF
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filename=' '
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filename(1:i)=jobname(1:i1)//'.'//exten(1:i2)
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END SUBROUTINE set_file_name
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C
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SUBROUTINE openfiles
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C %% %%
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C %% This subroutine opens the input and output units for dmftproj %%
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C %% %%
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C Definiton of the variables :
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C ----------------------------
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USE common_data, ONLY: ifSP, ifSO, ifBAND, wien_path
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IMPLICIT NONE
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CHARACTER(len=120) :: buf
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INTEGER :: i1, i2
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C initialize input/output channels
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CALL setchannels
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C Get working directory name:
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CALL system('pwd > dir_name.tmp')
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OPEN(outw2kpath,file='dir_name.tmp',status='old')
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READ(outw2kpath,'(a)')buf
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CLOSE(outw2kpath,status='delete')
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i1=INDEX(buf,'/',.TRUE.)
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i2=LEN_TRIM(buf)
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jobname(1:i2-i1)=buf(i1+1:i2)
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jobname(i2-i1+1:)=' '
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C Construct file names
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CALL set_file_name(inp_file,inp_ext)
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CALL set_file_name(sym_file,sym_ext)
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IF(.NOT.ifSP) THEN
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CALL set_file_name(almblm_file,almblm_ext)
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ELSE
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CALL set_file_name(almblm_file,almblmup_ext)
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CALL set_file_name(almblm_file_sp2,almblmdn_ext)
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ENDIF
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CALL set_file_name(prn_file,prn_ext)
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CALL set_file_name(ctqmc_file,ctqmc_ext)
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CALL set_file_name(partial_file,partial_ext)
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CALL set_file_name(symqmc_file,symqmc_ext)
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CALL set_file_name(sympar_file,sympar_ext)
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IF(ifSP.AND.ifSO) THEN
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CALL set_file_name(radwf_file,radwfup_ext)
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CALL set_file_name(radwf_file_sp2,radwfdn_ext)
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ENDIF
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IF(ifBAND) THEN
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CALL set_file_name(klist_file,klist_ext)
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CALL set_file_name(outband_file,outband_ext)
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ENDIF
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IF(ifSP) THEN
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CALL set_file_name(oubwinup_file,oubwinup_ext)
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CALL set_file_name(oubwindn_file,oubwindn_ext)
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ELSE
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CALL set_file_name(oubwin_file,oubwin_ext)
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ENDIF
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C Open units
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OPEN(iuinp,file=inp_file,status='old')
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OPEN(iusym,file=sym_file,status='old')
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OPEN(iualmblm,file=almblm_file,status='old')
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OPEN(ouprn,file=prn_file)
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OPEN(ouctqmc,file=ctqmc_file)
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OPEN(oupartial,file=partial_file)
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OPEN(ousymqmc,file=symqmc_file)
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OPEN(ousympar,file=sympar_file)
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IF(ifBAND) THEN
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OPEN(iuklist,file=klist_file,status='old')
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OPEN(ouband,file=outband_file)
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ENDIF
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IF(ifSP) THEN
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OPEN(oubwinup,file=oubwinup_file)
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OPEN(oubwindn,file=oubwindn_file)
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ELSE
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OPEN(oubwin,file=oubwin_file)
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ENDIF
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C
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C Set path to Wien2k
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CALL system('echo $WIENROOT > path_wienroot.tmp')
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OPEN(outw2kpath,file='path_wienroot.tmp',status='old')
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READ(outw2kpath,'(a)')wien_path
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CLOSE(outw2kpath,status='delete')
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C
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RETURN
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END SUBROUTINE
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C
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SUBROUTINE setchannels
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C %% %%
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C %% This subroutine opens the input and output channels %%
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C %% %%
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C Definiton of the variables :
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C ----------------------------
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USE common_data, ONLY: ifSP
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IMPLICIT NONE
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C Channels
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C input
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iudef=5 ! def-file
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iuinp=7 ! input data
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iusym=8 ! symmetries
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iualmblm=9 ! almblm matrices from Wien
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iumatfile=15 !transformation matrices between different angular basises
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iuradwf=16 !radial mesh and wave functions
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iuklist=20 !bands
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C output
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ouprn=10 ! print-out file
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ouproj=11 ! projection matrices and other data for DMFT run
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ouctqmc=12 ! output for ctqmc
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oupartial=13 ! output for partial charges projectors for ctqmc
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ousymqmc=14 ! output for permutations and rotation matrices
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ousympar=19 ! output for permutations and rotation matrices
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! for partial charges analisis
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ouband=21 ! bands
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IF(ifSP) THEN
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oubwinup=22 ! included bands information for lapw2(up)
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oubwindn=23 ! included bands information for lapw2(dn)
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ELSE
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oubwin=22 ! included bands information for lapw2
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ENDIF
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C
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RETURN
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END SUBROUTINE
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C
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C
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ENDMODULE file_names
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C
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MODULE prnt
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CHARACTER(len=250) :: buf
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CONTAINS
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SUBROUTINE printout(newline)
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C %% %%
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C %% This subroutine prints the string in buf to the screen %%
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C %% and to the output file and renitializes buf %%
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C %% %%
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C %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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C Definiton of the variables :
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C ----------------------------
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USE file_names
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IMPLICIT NONE
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INTEGER :: newline, i
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i=LEN_TRIM(buf)
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WRITE(ouprn,'(a)')buf(1:i)
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WRITE(*,'(a)')buf(1:i)
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buf=' '
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IF(newline==1) THEN
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WRITE(ouprn,'(/)')
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WRITE(*,'(/)')
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ENDIF
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RETURN
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END subroutine
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ENDMODULE prnt
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C
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C--------------------
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C MODULE projections
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C--------------------
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MODULE projections
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TYPE proj_mat
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COMPLEX(KIND=8), DIMENSION(:,:), ALLOCATABLE :: mat
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COMPLEX(KIND=8), DIMENSION(:,:), ALLOCATABLE :: mat_rep
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ENDTYPE
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TYPE(proj_mat), DIMENSION(:,:,:), ALLOCATABLE :: pr_crorb
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C
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TYPE proj_mat_n
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COMPLEX(KIND=8), DIMENSION(:,:,:), ALLOCATABLE :: matn
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COMPLEX(KIND=8), DIMENSION(:,:,:), ALLOCATABLE :: matn_rep
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ENDTYPE
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TYPE(proj_mat_n), DIMENSION(:,:,:), ALLOCATABLE :: pr_orb
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C
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TYPE ortfunc
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INTEGER :: n
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REAL(KIND=8), DIMENSION(:,:,:), ALLOCATABLE :: s12
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ENDTYPE
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TYPE(ortfunc), DIMENSION(:), ALLOCATABLE :: norm_radf
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ENDMODULE projections
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C
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C-------------
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C MODULE reps
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C-------------
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MODULE reps
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TYPE ang_bas
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INTEGER :: nreps
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INTEGER, DIMENSION(:), ALLOCATABLE :: dreps
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LOGICAL :: ifmixing
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COMPLEX(KIND=8),DIMENSION(:,:), ALLOCATABLE :: transmat
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ENDTYPE
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TYPE(ang_bas), DIMENSION(:,:), ALLOCATABLE :: reptrans
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ENDMODULE
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C
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C-------------
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C MODULE symm
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C-------------
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MODULE symm
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TYPE matrix
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COMPLEX(KIND=8),DIMENSION(:,:),ALLOCATABLE :: mat
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ENDTYPE
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TYPE symop
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LOGICAL :: timeinv
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INTEGER, DIMENSION(:), ALLOCATABLE :: perm
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INTEGER :: iprop
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REAL(KIND=8) :: a, b, g
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REAL(KIND=8) :: phase
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REAL(KIND=8) :: krotm(3,3)
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COMPLEX(KIND=8),DIMENSION(:,:,:),ALLOCATABLE ::rotl
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TYPE(matrix),DIMENSION(:,:),ALLOCATABLE ::rotrep
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ENDTYPE
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TYPE symoploc
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LOGICAL :: timeinv
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INTEGER :: iprop
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INTEGER :: srotnum
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REAL(KIND=8) :: a, b, g
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REAL(KIND=8) :: phase
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REAL(KIND=8) :: krotm(3,3)
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COMPLEX(KIND=8),DIMENSION(:,:,:),ALLOCATABLE ::rotl
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TYPE(matrix),DIMENSION(:),ALLOCATABLE ::rotrep
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ENDTYPE
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INTEGER :: nsym
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INTEGER :: lsym, nlmsym
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TYPE(symop), DIMENSION(:), ALLOCATABLE :: srot
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TYPE(symoploc), DIMENSION(:), ALLOCATABLE :: rotloc
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TYPE(matrix), DIMENSION(:,:), ALLOCATABLE :: densmat
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TYPE(matrix), DIMENSION(:,:), ALLOCATABLE :: crdensmat
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END MODULE symm
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