! Copyright 2011 Max-Planck-Institut für Eisenforschung GmbH ! ! This file is part of DAMASK, ! the Düsseldorf Advanced MAterial Simulation Kit. ! ! DAMASK is free software: you can redistribute it and/or modify ! it under the terms of the GNU General Public License as published by ! the Free Software Foundation, either version 3 of the License, or ! (at your option) any later version. ! ! DAMASK is distributed in the hope that it will be useful, ! but WITHOUT ANY WARRANTY; without even the implied warranty of ! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ! GNU General Public License for more details. ! ! You should have received a copy of the GNU General Public License ! along with DAMASK. If not, see . ! !############################################################## !* $Id$ !############################################################## module IO !############################################################## use prec, only: pInt, pReal implicit none private public :: IO_init, & IO_open_file_stat, & IO_open_jobFile_stat, & IO_open_file, & IO_open_jobFile, & IO_open_inputFile, & IO_open_logFile, & IO_write_jobFile, & IO_write_jobBinaryFile, & IO_read_jobBinaryFile, & IO_abaqus_hasNoPart, & IO_hybridIA, & IO_isBlank, & IO_getTag, & IO_countSections, & IO_countTagInPart, & IO_spotTagInPart, & IO_stringPos, & IO_stringValue, & IO_fixedStringValue ,& IO_floatValue, & IO_fixedNoEFloatValue, & IO_intValue, & IO_fixedIntValue, & IO_lc, & IO_skipChunks, & IO_extractValue, & IO_countDataLines, & IO_countContinousIntValues, & IO_continousIntValues, & IO_error, & IO_warning private :: IO_fixedFloatValue, & IO_lcInplace ,& abaqus_assembleInputFile, & hybridIA_reps contains !******************************************************************** ! output version number !******************************************************************** subroutine IO_init use, intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment) !$OMP CRITICAL (write2out) write(6,*) write(6,*) '<<<+- IO init -+>>>' write(6,*) '$Id$' #include "compilation_info.f90" flush(6) !$OMP END CRITICAL (write2out) end subroutine IO_init !******************************************************************** ! open existing file to given myUnit ! path to file is relative to working directory !******************************************************************** logical function IO_open_file_stat(myUnit,relPath) use DAMASK_interface, only: getSolverWorkingDirectoryName implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: relPath integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//relPath open(myUnit,status='old',iostat=myStat,file=path) IO_open_file_stat = (myStat == 0_pInt) end function IO_open_file_stat !******************************************************************** ! open (write) file related to current job ! but with different extension to given myUnit !******************************************************************** logical function IO_open_jobFile_stat(myUnit,newExt) use DAMASK_interface, only: getSolverWorkingDirectoryName, & getSolverJobName implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: newExt integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//newExt open(myUnit,status='old',iostat=myStat,file=path) IO_open_jobFile_stat = (myStat == 0_pInt) end function IO_open_JobFile_stat !******************************************************************** ! open existing file to given unit ! path to file is relative to working directory !******************************************************************** subroutine IO_open_file(myUnit,relPath) use DAMASK_interface, only: getSolverWorkingDirectoryName implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: relPath integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//relPath open(myUnit,status='old',iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) end subroutine IO_open_file !******************************************************************** ! open (write) file related to current job ! but with different extension to given unit !******************************************************************** subroutine IO_open_jobFile(myUnit,newExt) use DAMASK_interface, only: getSolverWorkingDirectoryName, & getSolverJobName implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: newExt integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//newExt open(myUnit,status='old',iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) end subroutine IO_open_jobFile !******************************************************************** ! open FEM inputfile to given myUnit ! AP: 12.07.10 ! : changed the function to open *.inp_assembly, which is basically ! the input file without comment lines and possibly assembled includes !******************************************************************** subroutine IO_open_inputFile(myUnit,model) use DAMASK_interface, only: getSolverWorkingDirectoryName,& getSolverJobName, & inputFileExtension, & FEsolver implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: model integer(pInt) :: myStat character(len=1024) :: path if (FEsolver == 'Abaqus') then path = trim(getSolverWorkingDirectoryName())//trim(model)//InputFileExtension open(myUnit+1,status='old',iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) path = trim(getSolverWorkingDirectoryName())//trim(model)//InputFileExtension//'_assembly' open(myUnit,iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) if (abaqus_assembleInputFile(myUnit,myUnit+1_pInt)) call IO_error(103_pInt) ! strip comments and concatenate any "include"s close(myUnit+1_pInt) else path = trim(getSolverWorkingDirectoryName())//trim(model)//InputFileExtension open(myUnit,status='old',iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) endif end subroutine IO_open_inputFile !******************************************************************** ! open FEM logfile to given myUnit !******************************************************************** subroutine IO_open_logFile(myUnit) use DAMASK_interface, only: getSolverWorkingDirectoryName, & getSolverJobName, & LogFileExtension implicit none integer(pInt), intent(in) :: myUnit integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//LogFileExtension open(myUnit,status='old',iostat=myStat,file=path) if (myStat /= 0) call IO_error(100_pInt,ext_msg=path) end subroutine IO_open_logFile !******************************************************************** ! open (write) file related to current job ! but with different extension to given myUnit !******************************************************************** subroutine IO_write_jobFile(myUnit,newExt) use DAMASK_interface, only: getSolverWorkingDirectoryName,& getSolverJobName implicit none integer(pInt), intent(in) :: myUnit character(len=*), intent(in) :: newExt integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//newExt open(myUnit,status='replace',iostat=myStat,file=path) if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) end subroutine IO_write_jobFile !******************************************************************** ! open (write) binary file related to current job ! but with different extension to given myUnit !******************************************************************** subroutine IO_write_jobBinaryFile(myUnit,newExt,recMultiplier) use DAMASK_interface, only: getSolverWorkingDirectoryName, & getSolverJobName implicit none integer(pInt), intent(in) :: myUnit integer(pInt), intent(in), optional :: recMultiplier character(len=*), intent(in) :: newExt integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//newExt if (present(recMultiplier)) then open(myUnit,status='replace',form='unformatted',access='direct', & recl=pReal*recMultiplier,iostat=myStat,file=path) else open(myUnit,status='replace',form='unformatted',access='direct', & recl=pReal,iostat=myStat,file=path) endif if (myStat /= 0_pInt) call IO_error(100_pInt,ext_msg=path) end subroutine IO_write_jobBinaryFile !******************************************************************** ! open (read) binary file related to restored job ! and with different extension to given myUnit !******************************************************************** subroutine IO_read_jobBinaryFile(myUnit,newExt,jobName,recMultiplier) use DAMASK_interface, only: getSolverWorkingDirectoryName implicit none integer(pInt), intent(in) :: myUnit integer(pInt), intent(in), optional :: recMultiplier character(len=*), intent(in) :: newExt, jobName integer(pInt) :: myStat character(len=1024) :: path path = trim(getSolverWorkingDirectoryName())//trim(jobName)//'.'//newExt if (present(recMultiplier)) then open(myUnit,status='old',form='unformatted',access='direct', & recl=pReal*recMultiplier,iostat=myStat,file=path) else open(myUnit,status='old',form='unformatted',access='direct', & recl=pReal,iostat=myStat,file=path) endif if (myStat /= 0) then call IO_error(100_pInt,ext_msg=path) endif end subroutine IO_read_jobBinaryFile !*********************************************************** ! check if the input file for Abaqus contains part info !*********************************************************** logical function IO_abaqus_hasNoPart(myUnit) implicit none integer(pInt), intent(in) :: myUnit integer(pInt), parameter :: maxNchunks = 1_pInt integer(pInt), dimension(1+2*maxNchunks) :: myPos character(len=300) :: line IO_abaqus_hasNoPart = .true. 610 FORMAT(A300) rewind(myUnit) do read(myUnit,610,END=620) line myPos = IO_stringPos(line,maxNchunks) if (IO_lc(IO_stringValue(line,myPos,1_pInt)) == '*part' ) then IO_abaqus_hasNoPart = .false. exit endif enddo 620 end function IO_abaqus_hasNoPart !******************************************************************** ! hybrid IA sampling of ODFfile !******************************************************************** function IO_hybridIA(Nast,ODFfileName) implicit none integer(pInt), intent(in) :: Nast real(pReal), dimension(3,Nast) :: IO_hybridIA character(len=*), intent(in) :: ODFfileName real(pReal), parameter :: PI = 3.14159265358979323846264338327950288419716939937510_pReal real(pReal), parameter :: INRAD = PI/180.0_pReal character(len=*), parameter :: fileFormat = '(A80)' integer(pInt) :: i,j,bin,NnonZero,Nset,Nreps,reps,phi1,Phi,phi2 integer(pInt), dimension(7) :: myPos integer(pInt), dimension(3) :: steps integer(pInt), dimension(:), allocatable :: binSet real(pReal) :: center,sum_dV_V,prob,dg_0,C,lowerC,upperC,rnd real(pReal), dimension(3) :: limits, & deltas real(pReal), dimension(:,:,:), allocatable :: dV_V character(len=80) :: line call IO_open_file(999_pInt,ODFfileName) !--- parse header of ODF file --- !--- limits in phi1, Phi, phi2 --- read(999,fmt=fileFormat,end=100) line myPos = IO_stringPos(line,3_pInt) if (myPos(1).ne.3) goto 100 do i=1_pInt,3_pInt limits(i) = IO_floatValue(line,myPos,i)*INRAD enddo !--- deltas in phi1, Phi, phi2 --- read(999,fmt=fileFormat,end=100) line myPos = IO_stringPos(line,3_pInt) if (myPos(1).ne.3) goto 100 do i=1_pInt,3_pInt deltas(i) = IO_floatValue(line,myPos,i)*INRAD enddo steps = nint(limits/deltas,pInt) allocate(dV_V(steps(3),steps(2),steps(1))) !--- box boundary/center at origin? --- read(999,fmt=fileFormat,end=100) line if (index(IO_lc(line),'bound')>0) then center = 0.5_pReal else center = 0.0_pReal endif !--- skip blank line --- read(999,fmt=fileFormat,end=100) line sum_dV_V = 0.0_pReal dV_V = 0.0_pReal dg_0 = deltas(1)*deltas(3)*2.0_pReal*sin(deltas(2)/2.0_pReal) NnonZero = 0_pInt do phi1=1_pInt,steps(1) do Phi=1_pInt,steps(2) do phi2=1_pInt,steps(3) read(999,fmt=*,end=100) prob if (prob > 0.0_pReal) then NnonZero = NnonZero+1_pInt sum_dV_V = sum_dV_V+prob else prob = 0.0_pReal endif dV_V(phi2,Phi,phi1) = prob*dg_0*sin((Phi-1.0_pReal+center)*deltas(2)) enddo enddo enddo dV_V = dV_V/sum_dV_V ! normalize to 1 !--- now fix bounds --- Nset = max(Nast,NnonZero) ! if less than non-zero voxel count requested, sample at least that much lowerC = 0.0_pReal upperC = real(Nset, pReal) do while (hybridIA_reps(dV_V,steps,upperC) < Nset) lowerC = upperC upperC = upperC*2.0_pReal enddo !--- binary search for best C --- do C = (upperC+lowerC)/2.0_pReal Nreps = hybridIA_reps(dV_V,steps,C) if (abs(upperC-lowerC) < upperC*1.0e-14_pReal) then C = upperC Nreps = hybridIA_reps(dV_V,steps,C) exit elseif (Nreps < Nset) then lowerC = C elseif (Nreps > Nset) then upperC = C else exit endif enddo allocate(binSet(Nreps)) bin = 0_pInt ! bin counter i = 1_pInt ! set counter do phi1=1_pInt,steps(1) do Phi=1_pInt,steps(2) do phi2=1_pInt,steps(3) reps = nint(C*dV_V(phi2,Phi,phi1), pInt) binSet(i:i+reps-1) = bin bin = bin+1_pInt ! advance bin i = i+reps ! advance set enddo enddo enddo do i=1_pInt,Nast if (i < Nast) then call random_number(rnd) j = nint(rnd*(Nreps-i)+i+0.5_pReal,pInt) else j = i endif bin = binSet(j) IO_hybridIA(1,i) = deltas(1)*(real(mod(bin/(steps(3)*steps(2)),steps(1)),pReal)+center) ! phi1 IO_hybridIA(2,i) = deltas(2)*(real(mod(bin/ steps(3) ,steps(2)),pReal)+center) ! Phi IO_hybridIA(3,i) = deltas(3)*(real(mod(bin ,steps(3)),pReal)+center) ! phi2 binSet(j) = binSet(i) enddo close(999) return ! on error 100 IO_hybridIA = -1.0_pReal close(999) end function IO_hybridIA !******************************************************************** ! identifies lines without content !******************************************************************** logical pure function IO_isBlank(line) implicit none character(len=*), intent(in) :: line character(len=*), parameter :: blankChar = achar(32)//achar(9)//achar(10)//achar(13) ! whitespaces character(len=*), parameter :: comment = achar(35) ! comment id '#' integer :: posNonBlank, posComment ! no pInt posNonBlank = verify(line,blankChar) posComment = scan(line,comment) IO_isBlank = posNonBlank == 0 .or. posNonBlank == posComment end function IO_isBlank !******************************************************************** ! get tagged content of line !******************************************************************** pure function IO_getTag(line,openChar,closeChar) implicit none character(len=*), intent(in) :: line character(len=len_trim(line)) :: IO_getTag character(len=*), intent(in) :: openChar, & closeChar character(len=*), parameter :: sep=achar(32)//achar(9)//achar(10)//achar(13) ! whitespaces integer :: left,right ! no pInt IO_getTag = '' left = scan(line,openChar) right = scan(line,closeChar) if (left == verify(line,sep) .and. right > left) & ! openChar is first and closeChar occurs IO_getTag = line(left+1:right-1) end function IO_getTag !********************************************************************* ! !********************************************************************* integer(pInt) function IO_countSections(myFile,part) implicit none integer(pInt), intent(in) :: myFile character(len=*), intent(in) :: part character(len=1024) :: line IO_countSections = 0_pInt rewind(myFile) do while (IO_getTag(line,'<','>') /= part) ! search for part read(myFile,'(a1024)',END=100) line enddo do read(myFile,'(a1024)',END=100) line if (IO_isBlank(line)) cycle ! skip empty lines if (IO_getTag(line,'<','>') /= '') exit ! stop at next part if (IO_getTag(line,'[',']') /= '') & ! found [section] identifier IO_countSections = IO_countSections + 1_pInt enddo 100 end function IO_countSections !********************************************************************* ! return array of myTag counts within for at most N[sections] !********************************************************************* function IO_countTagInPart(myFile,part,myTag,Nsections) implicit none integer(pInt), intent(in) :: Nsections integer(pInt), dimension(Nsections) :: IO_countTagInPart integer(pInt), intent(in) :: myFile character(len=*),intent(in) :: part, & myTag integer(pInt), parameter :: maxNchunks = 1_pInt integer(pInt), dimension(Nsections) :: counter integer(pInt), dimension(1+2*maxNchunks) :: positions integer(pInt) :: section character(len=1024) :: line, & tag rewind(myFile) counter = 0_pInt section = 0_pInt do while (IO_getTag(line,'<','>') /= part) ! search for part read(myFile,'(a1024)',END=100) line enddo do read(myFile,'(a1024)',END=100) line if (IO_isBlank(line)) cycle ! skip empty lines if (IO_getTag(line,'<','>') /= '') exit ! stop at next part if (IO_getTag(line,'[',']') /= '') & ! found [section] identifier section = section + 1_pInt if (section > 0) then positions = IO_stringPos(line,maxNchunks) tag = IO_lc(IO_stringValue(line,positions,1_pInt)) ! extract key if (tag == myTag) & ! match counter(section) = counter(section) + 1_pInt endif enddo 100 IO_countTagInPart = counter end function IO_countTagInPart !********************************************************************* ! return array of myTag presence within for at most N[sections] !********************************************************************* function IO_spotTagInPart(myFile,part,myTag,Nsections) implicit none integer(pInt), intent(in) :: Nsections logical, dimension(Nsections) :: IO_spotTagInPart integer(pInt), intent(in) :: myFile character(len=*), intent(in) :: part, & myTag integer(pInt), parameter :: maxNchunks = 1_pInt integer(pInt), dimension(1+2*maxNchunks) :: positions integer(pInt) :: section character(len=1024) :: line, & tag IO_spotTagInPart = .false. ! assume to nowhere spot tag section = 0_pInt rewind(myFile) do while (IO_getTag(line,'<','>') /= part) ! search for part read(myFile,'(a1024)',END=100) line enddo do read(myFile,'(a1024)',END=100) line if (IO_isBlank(line)) cycle ! skip empty lines if (IO_getTag(line,'<','>') /= '') exit ! stop at next part if (IO_getTag(line,'[',']') /= '') & ! found [section] identifier section = section + 1_pInt if (section > 0_pInt) then positions = IO_stringPos(line,maxNchunks) tag = IO_lc(IO_stringValue(line,positions,1_pInt)) ! extract key if (tag == myTag) & ! match IO_spotTagInPart(section) = .true. endif enddo 100 end function IO_spotTagInPart !******************************************************************** ! locate at most N space-separated parts in line ! return array containing number of parts in line and ! the left/right positions of at most N to be used by IO_xxxVal !******************************************************************** pure function IO_stringPos(line,N) implicit none integer(pInt), intent(in) :: N integer(pInt) :: IO_stringPos(1_pInt+N*2_pInt) character(len=*), intent(in) :: line character(len=*), parameter :: sep=achar(44)//achar(32)//achar(9)//achar(10)//achar(13) ! comma and whitespaces integer :: left, right !no pInt (verify and scan return default integer) IO_stringPos = -1_pInt IO_stringPos(1) = 0_pInt right = 0 do while (verify(line(right+1:),sep)>0) left = right + verify(line(right+1:),sep) right = left + scan(line(left:),sep) - 2 if ( line(left:left) == '#' ) then exit endif if ( IO_stringPos(1) 1) then read(UNIT=line(ends(myPos)+1:ends(myPos)+pos_exp-1),ERR=100,FMT=*) base read(UNIT=line(ends(myPos)+pos_exp:ends(myPos+1)),ERR=100,FMT=*) expon else read(UNIT=line(ends(myPos)+1:ends(myPos+1)),ERR=100,FMT=*) base expon = 0_pInt endif IO_fixedNoEFloatValue = base*10.0_pReal**expon return 100 IO_fixedNoEFloatValue = huge(1.0_pReal) end function IO_fixedNoEFloatValue !******************************************************************** ! read int value at myPos from line !******************************************************************** integer(pInt) pure function IO_intValue(line,positions,myPos) implicit none character(len=*), intent(in) :: line integer(pInt), intent(in) :: positions(*), & myPos if (positions(1) < myPos) then IO_intValue = 0_pInt else read(UNIT=line(positions(myPos*2):positions(myPos*2+1)),ERR=100,FMT=*) IO_intValue endif return 100 IO_intValue = huge(1_pInt) end function IO_intValue !******************************************************************** ! read int value at myPos from fixed format line !******************************************************************** integer(pInt) pure function IO_fixedIntValue(line,ends,myPos) implicit none character(len=*), intent(in) :: line integer(pInt), intent(in) :: ends(*), & myPos read(UNIT=line(ends(myPos)+1:ends(myPos+1)),ERR=100,FMT=*) IO_fixedIntValue return 100 IO_fixedIntValue = huge(1_pInt) end function IO_fixedIntValue !******************************************************************** ! change character in line to lower case !******************************************************************** pure function IO_lc(line) implicit none character(len=*), intent(in) :: line character(len=len(line)) :: IO_lc integer :: i ! no pInt (len returns default integer) IO_lc = line do i=1,len(line) if(64 0) read(myUnit,'(A300)',end=100) line myPos = IO_stringPos(line,maxNchunks) remainingChunks = remainingChunks - myPos(1) enddo 100 end subroutine IO_skipChunks !******************************************************************** ! extract value from key=value pair and check whether key matches !******************************************************************** character(len=300) pure function IO_extractValue(line,key) implicit none character(len=*), intent(in) :: line, & key character(len=*), parameter :: sep = achar(61) ! '=' integer :: myPos ! no pInt (scan returns default integer) IO_extractValue = '' myPos = scan(line,sep) if (myPos > 0 .and. line(:myPos-1) == key(:myPos-1)) & ! key matches expected key IO_extractValue = line(myPos+1:) ! extract value end function IO_extractValue !******************************************************************** ! count lines containig data up to next *keyword ! AP: changed the function to neglect comment lines between keyword definitions. ! : is not changed back to the original version since *.inp_assembly does not ! : contain any comment lines (12.07.2010) !******************************************************************** integer(pInt) function IO_countDataLines(myUnit) implicit none integer(pInt), intent(in) :: myUnit integer(pInt), parameter :: maxNchunks = 1_pInt integer(pInt), dimension(1+2*maxNchunks) :: myPos character(len=300) :: line, & tmp IO_countDataLines = 0_pInt do read(myUnit,'(A300)',end=100) line myPos = IO_stringPos(line,maxNchunks) tmp = IO_lc(IO_stringValue(line,myPos,1_pInt)) if (tmp(1:1) == '*' .and. tmp(2:2) /= '*') then ! found keyword exit else if (tmp(2:2) /= '*') IO_countDataLines = IO_countDataLines + 1_pInt endif enddo 100 backspace(myUnit) end function IO_countDataLines !******************************************************************** ! count items in consecutive lines ! Marc: ints concatenated by "c" as last char or range of values a "to" b ! Abaqus: triplet of start,stop,inc !******************************************************************** integer(pInt) function IO_countContinousIntValues(myUnit) use DAMASK_interface, only: FEsolver implicit none integer(pInt), intent(in) :: myUnit integer(pInt), parameter :: maxNchunks = 8192_pInt integer(pInt) :: l,c integer(pInt), dimension(1+2*maxNchunks) :: myPos character(len=65536) :: line IO_countContinousIntValues = 0_pInt select case (FEsolver) case ('Marc','Spectral') do read(myUnit,'(A300)',end=100) line myPos = IO_stringPos(line,maxNchunks) if (IO_lc(IO_stringValue(line,myPos,2_pInt)) == 'to' ) then ! found range indicator IO_countContinousIntValues = 1_pInt + IO_intValue(line,myPos,3_pInt) - IO_intValue(line,myPos,1_pInt) exit ! only one single range indicator allowed else IO_countContinousIntValues = IO_countContinousIntValues+myPos(1)-1_pInt ! add line's count when assuming 'c' if ( IO_lc(IO_stringValue(line,myPos,myPos(1))) /= 'c' ) then ! line finished, read last value IO_countContinousIntValues = IO_countContinousIntValues+1_pInt exit ! data ended endif endif enddo case('Abaqus') c = IO_countDataLines(myUnit) do l = 1_pInt,c backspace(myUnit) enddo do l = 1_pInt,c read(myUnit,'(A300)',end=100) line myPos = IO_stringPos(line,maxNchunks) IO_countContinousIntValues = IO_countContinousIntValues + 1_pInt + & ! assuming range generation (IO_intValue(line,myPos,2_pInt)-IO_intValue(line,myPos,1_pInt))/& max(1_pInt,IO_intValue(line,myPos,3_pInt)) enddo end select 100 end function IO_countContinousIntValues !******************************************************************** ! return integer list corrsponding to items in consecutive lines ! Marc: ints concatenated by "c" as last char, range of a "to" b, or named set ! Abaqus: triplet of start,stop,inc or named set !******************************************************************** function IO_continousIntValues(myUnit,maxN,lookupName,lookupMap,lookupMaxN) use DAMASK_interface, only: FEsolver implicit none integer(pInt), intent(in) :: maxN integer(pInt), dimension(1+maxN) :: IO_continousIntValues integer(pInt), intent(in) :: myUnit, & lookupMaxN integer(pInt), dimension(:,:), intent(in) :: lookupMap character(len=64), dimension(:), intent(in) :: lookupName integer(pInt), parameter :: maxNchunks = 8192_pInt integer(pInt) :: i,j,l,c,first,last integer(pInt), dimension(1+2*maxNchunks) :: myPos character(len=65536) line logical rangeGeneration IO_continousIntValues = 0_pInt rangeGeneration = .false. select case (FEsolver) case ('Marc','Spectral') do read(myUnit,'(A65536)',end=100) line myPos = IO_stringPos(line,maxNchunks) if (verify(IO_stringValue(line,myPos,1_pInt),'0123456789') > 0) then ! a non-int, i.e. set name do i = 1_pInt, lookupMaxN ! loop over known set names if (IO_stringValue(line,myPos,1_pInt) == lookupName(i)) then ! found matching name IO_continousIntValues = lookupMap(:,i) ! return resp. entity list exit endif enddo exit else if (myPos(1) > 2_pInt .and. IO_lc(IO_stringValue(line,myPos,2_pInt)) == 'to' ) then ! found range indicator do i = IO_intValue(line,myPos,1_pInt),IO_intValue(line,myPos,3_pInt) IO_continousIntValues(1) = IO_continousIntValues(1) + 1_pInt IO_continousIntValues(1+IO_continousIntValues(1)) = i enddo exit else do i = 1_pInt,myPos(1)-1_pInt ! interpret up to second to last value IO_continousIntValues(1) = IO_continousIntValues(1) + 1_pInt IO_continousIntValues(1+IO_continousIntValues(1)) = IO_intValue(line,myPos,i) enddo if ( IO_lc(IO_stringValue(line,myPos,myPos(1))) /= 'c' ) then ! line finished, read last value IO_continousIntValues(1) = IO_continousIntValues(1) + 1_pInt IO_continousIntValues(1+IO_continousIntValues(1)) = IO_intValue(line,myPos,myPos(1)) exit endif endif enddo case('Abaqus') c = IO_countDataLines(myUnit) do l = 1_pInt,c backspace(myUnit) enddo ! check if the element values in the elset are auto generated backspace(myUnit) read(myUnit,'(A65536)',end=100) line myPos = IO_stringPos(line,maxNchunks) do i = 1_pInt,myPos(1) if (IO_lc(IO_stringValue(line,myPos,i)) == 'generate') rangeGeneration = .true. enddo do l = 1_pInt,c read(myUnit,'(A65536)',end=100) line myPos = IO_stringPos(line,maxNchunks) if (verify(IO_stringValue(line,myPos,1_pInt),'0123456789') > 0) then ! a non-int, i.e. set names follow on this line do i = 1_pInt,myPos(1) ! loop over set names in line do j = 1_pInt,lookupMaxN ! look thru known set names if (IO_stringValue(line,myPos,i) == lookupName(j)) then ! found matching name first = 2_pInt + IO_continousIntValues(1) ! where to start appending data last = first + lookupMap(1,j) - 1_pInt ! up to where to append data IO_continousIntValues(first:last) = lookupMap(2:1+lookupMap(1,j),j) ! add resp. entity list IO_continousIntValues(1) = IO_continousIntValues(1) + lookupMap(1,j) ! count them endif enddo enddo else if (rangeGeneration) then ! range generation do i = IO_intValue(line,myPos,1_pInt),IO_intValue(line,myPos,2_pInt),max(1_pInt,IO_intValue(line,myPos,3_pInt)) IO_continousIntValues(1) = IO_continousIntValues(1) + 1_pInt IO_continousIntValues(1+IO_continousIntValues(1)) = i enddo else ! read individual elem nums do i = 1_pInt,myPos(1) ! write(*,*)'IO_CIV-int',IO_intValue(line,myPos,i) IO_continousIntValues(1) = IO_continousIntValues(1) + 1_pInt IO_continousIntValues(1+IO_continousIntValues(1)) = IO_intValue(line,myPos,i) enddo endif enddo endselect 100 end function IO_continousIntValues !******************************************************************** ! write error statements to standard out ! and terminate the Marc run with exit #9xxx ! in ABAQUS either time step is reduced or execution terminated !******************************************************************** subroutine IO_error(error_ID,e,i,g,ext_msg) implicit none integer(pInt), intent(in) :: error_ID integer(pInt), optional, intent(in) :: e,i,g character(len=*), optional, intent(in) :: ext_msg character(len=1024) :: msg select case (error_ID) !* file handling errors case (100_pInt) msg = 'could not open file:' case (101_pInt) msg = 'write error for file:' case (102_pInt) msg = 'could not read file:' case (103_pInt) msg = 'could not assemble input files' !* material error messages and related messages in mesh case (150_pInt) msg = 'crystallite index out of bounds' case (151_pInt) msg = 'phase index out of bounds' case (152_pInt) msg = 'texture index out of bounds' case (153_pInt) msg = 'sum of phase fractions differs from 1' case (154_pInt) msg = 'homogenization index out of bounds' case (155_pInt) msg = 'microstructure index out of bounds' case (156_pInt) msg = 'reading from ODF file' case (160_pInt) msg = 'no entries in config part' case (170_pInt) msg = 'no homogenization specified via State Variable 2' case (180_pInt) msg = 'no microstructure specified via State Variable 3' !* constitutive error messages case (200_pInt) msg = 'unknown constitution specified' case (205_pInt) msg = 'unknown lattice structure encountered' case (210_pInt) msg = 'unknown material parameter for j2 constitutive phase:' case (211_pInt) msg = 'material parameter for j2 constitutive phase out of bounds:' case (212_pInt) msg = 'unknown constitutive output for j2 constitution:' case (220_pInt) msg = 'unknown material parameter for phenopowerlaw constitutive phase:' case (221_pInt) msg = 'material parameter for phenopowerlaw constitutive phase out of bounds:' case (222_pInt) msg = 'unknown constitutive output for phenopowerlaw constitution:' case (230_pInt) msg = 'unknown material parameter for titanmod constitutive phase:' case (231_pInt) msg = 'material parameter for titanmod constitutive phase out of bounds:' case (232_pInt) msg = 'unknown constitutive output for titanmod constitution:' case (240_pInt) msg = 'unknown material parameter for dislotwin constitutive phase:' case (241_pInt) msg = 'material parameter for dislotwin constitutive phase out of bounds:' case (242_pInt) msg = 'unknown constitutive output for dislotwin constitution:' case (243_pInt) msg = 'zero stacking fault energy' case (250_pInt) msg = 'unknown material parameter for nonlocal constitutive phase:' case (251_pInt) msg = 'material parameter for nonlocal constitutive phase out of bounds:' case (252_pInt) msg = 'unknown constitutive output for nonlocal constitution:' case (253_pInt) msg = 'element type not supported for nonlocal constitution' !* numerics error messages case (300_pInt) msg = 'unknown numerics parameter:' case (301_pInt) msg = 'numerics parameter out of bounds:' !* math errors case (400_pInt) msg = 'matrix inversion error' case (401_pInt) msg = 'math_check: quat -> axisAngle -> quat failed' case (402_pInt) msg = 'math_check: quat -> R -> quat failed' case (403_pInt) msg = 'math_check: quat -> euler -> quat failed' case (404_pInt) msg = 'math_check: R -> euler -> R failed' case (405_pInt) msg = 'I_TO_HALTON-error: An input base BASE is <= 1' case (406_pInt) msg = 'Prime-error: N must be between 0 and PRIME_MAX' case (450_pInt) msg = 'unknown symmetry type specified' case (460_pInt) msg = 'kdtree2 error' !* homogenization errors case (500_pInt) msg = 'unknown homogenization specified' !* DAMASK_marc errors case (700_pInt) msg = 'invalid materialpoint result requested' !* errors related to spectral solver case (802_pInt) msg = 'non-positive dimension' case (803_pInt) msg = 'odd resolution given' case (808_pInt) msg = 'precision not suitable for FFTW' case (809_pInt) msg = 'initializing FFTW' case (831_pInt) msg = 'mask consistency violated in spectral loadcase' case (832_pInt) msg = 'ill-defined L (each line should be either fully or not at all defined) in spectral loadcase' case (834_pInt) msg = 'negative time increment in spectral loadcase' case (835_pInt) msg = 'non-positive increments in spectral loadcase' case (836_pInt) msg = 'non-positive result frequency in spectral loadcase' case (837_pInt) msg = 'incomplete loadcase' case (838_pInt) msg = 'mixed boundary conditions allow rotation' case (842_pInt) msg = 'missing header info in spectral mesh' case (843_pInt) msg = 'resolution in spectral mesh' case (844_pInt) msg = 'dimension in spectral mesh' case (845_pInt) msg = 'incomplete information in spectral mesh header' case (846_pInt) msg = 'not a rotation defined for loadcase rotation' case (847_pInt) msg = 'updating of gamma operator not possible if it is pre calculated' case (880_pInt) msg = 'mismatch of microstructure count and a*b*c in geom file' !* Error messages related to parsing of Abaqus input file case (900_pInt) msg = 'PARSE ERROR: Improper definition of nodes in input file (Nnodes < 2)' case (901_pInt) msg = 'PARSE ERROR: No Elements defined in input file (Nelems = 0)' case (902_pInt) msg = 'PARSE ERROR: No Element sets defined in input file (Atleast one *Elset must exist)' case (903_pInt) msg = 'PARSE ERROR: No Materials defined in input file (Look into section assigments)' case (904_pInt) msg = 'PARSE ERROR: No elements could be assigned for Elset: ' case (905_pInt) msg = 'PARSE ERROR: Error in mesh_abaqus_map_materials' case (906_pInt) msg = 'PARSE ERROR: Error in mesh_abaqus_count_cpElements' case (907_pInt) msg = 'PARSE ERROR: Incorrect size of mesh_mapFEtoCPelem in mesh_abaqus_map_elements; Size cannot be zero' case (908_pInt) msg = 'PARSE ERROR: Incorrect size of mesh_mapFEtoCPnode in mesh_abaqus_map_nodes; Size cannot be zero' case (909_pInt) msg = 'PARSE ERROR: Incorrect size of mesh_node in mesh_abaqus_build_nodes; must be equal to mesh_Nnodes' case (910_pInt) msg = 'PARSE ERROR: Incorrect element type mapping in ' !* general error messages case (666_pInt) msg = 'memory leak detected' case default msg = 'Unknown error number...' end select !$OMP CRITICAL (write2out) write(6,*) write(6,'(a38)') '+------------------------------------+' write(6,'(a38)') '+ error +' write(6,'(a17,i3,a18)') '+ ',error_ID,' +' write(6,'(a38)') '+ +' write(6,'(a2,a)') '+ ', trim(msg) if (present(ext_msg)) write(6,'(a2,a)') '+ ', trim(ext_msg) if (present(e)) then if (present(i) .and. present(g)) then write(6,'(a13,i6,a4,i2,a7,i4,a2)') '+ at element ',e,' IP ',i,' grain ',g,' +' else write(6,'(a18,i6,a14)') '+ at ',e,' +' endif endif write(6,'(a38)') '+------------------------------------+' flush(6) call quit(9000_pInt+error_ID) !$OMP END CRITICAL (write2out) ! ABAQUS returns in some cases end subroutine IO_error !******************************************************************** ! write warning statements to standard out !******************************************************************** subroutine IO_warning(warning_ID,e,i,g,ext_msg) implicit none integer(pInt), intent(in) :: warning_ID integer(pInt), optional, intent(in) :: e,i,g character(len=*), optional, intent(in) :: ext_msg character(len=1024) :: msg select case (warning_ID) case (34_pInt) msg = 'invalid restart increment given' case (35_pInt) msg = 'could not get $DAMASK_NUM_THREADS' case (47_pInt) msg = 'No valid parameter for FFTW given, using FFTW_PATIENT' case (101_pInt) msg = '+ crystallite debugging off... +' case (600_pInt) msg = '+ crystallite responds elastically +' case (601_pInt) msg = '+ stiffness close to zero +' case (650_pInt) msg = '+ polar decomposition failed +' case (700_pInt) msg = '+ unknown crystal symmetry +' case default msg = '+ unknown warning number... +' end select !$OMP CRITICAL (write2out) write(6,*) write(6,'(a38)') '+------------------------------------+' write(6,'(a38)') '+ warning +' write(6,'(a38)') '+ +' write(6,'(a17,i3,a18)') '+ ',warning_ID,' +' write(6,'(a2,a)') '+ ', trim(msg) if (present(ext_msg)) write(6,'(a2,a)') '+ ', trim(ext_msg) if (present(e)) then if (present(i)) then if (present(g)) then write(6,'(a12,1x,i6,1x,a2,1x,i2,1x,a5,1x,i4,a2)') '+ at element',e,'IP',i,'grain',g,' +' else write(6,'(a12,1x,i6,1x,a2,1x,i2,a13)') '+ at element',e,'IP',i,' +' endif else write(6,'(a12,1x,i6,a19)') '+ at element',e,' +' endif endif write(6,'(a38)') '+------------------------------------+' flush(6) !$OMP END CRITICAL (write2out) end subroutine IO_warning ! INTERNAL (HELPER) FUNCTIONS: !******************************************************************** ! AP: 12.07.10 ! create a new input file for abaqus simulations ! by removing all comment lines and including "include"s !******************************************************************** recursive function abaqus_assembleInputFile(unit1,unit2) result(createSuccess) use DAMASK_interface, only: getSolverWorkingDirectoryName implicit none integer(pInt), intent(in) :: unit1, & unit2 integer(pInt), parameter :: maxNchunks = 6_pInt integer(pInt), dimension(1+2*maxNchunks) :: positions character(len=300) :: line,fname logical :: createSuccess,fexist do read(unit2,'(A300)',END=220) line positions = IO_stringPos(line,maxNchunks) ! call IO_lcInPlace(line) if (IO_lc(IO_StringValue(line,positions,1_pInt))=='*include') then fname = trim(getSolverWorkingDirectoryName())//trim(line(9+scan(line(9:),'='):)) inquire(file=fname, exist=fexist) if (.not.(fexist)) then !$OMP CRITICAL (write2out) write(6,*)'ERROR: file does not exist error in abaqus_assembleInputFile' write(6,*)'filename: ', trim(fname) !$OMP END CRITICAL (write2out) createSuccess = .false. return endif open(unit2+1,err=200,status='old',file=fname) if (abaqus_assembleInputFile(unit1,unit2+1_pInt)) then createSuccess=.true. close(unit2+1) else createSuccess=.false. return endif else if (line(1:2) /= '**') then write(unit1,'(A)') trim(line) endif enddo 220 createSuccess = .true. return 200 createSuccess =.false. end function abaqus_assembleInputFile !******************************************************************** ! hybrid IA repetition counter !******************************************************************** integer(pInt) function hybridIA_reps(dV_V,steps,C) implicit none integer(pInt), intent(in), dimension(3) :: & steps real(pReal), intent(in), dimension(steps(3),steps(2),steps(1)) :: & dV_V real(pReal), intent(in) :: & C integer(pInt) :: phi1,Phi,phi2 hybridIA_reps = 0_pInt do phi1=1_pInt,steps(1) do Phi =1_pInt,steps(2) do phi2=1_pInt,steps(3) hybridIA_reps = hybridIA_reps+nint(C*dV_V(phi2,Phi,phi1), pInt) enddo enddo enddo end function hybridIA_reps end module IO