!-------------------------------------------------------------------------------------------------- !> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH !> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH !> @author Christoph Kords, Max-Planck-Institut für Eisenforschung GmbH !> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH !> @brief input/output functions !-------------------------------------------------------------------------------------------------- module IO use, intrinsic :: ISO_fortran_env, only: & IO_STDOUT => OUTPUT_UNIT, & IO_STDERR => ERROR_UNIT use prec use misc implicit none(type,external) private character(len=*), parameter, public :: & IO_WHITESPACE = achar(44)//achar(32)//achar(9)//achar(10)//achar(13), & !< whitespace characters IO_QUOTES = "'"//'"' character, parameter, public :: & IO_EOL = new_line('DAMASK'), & !< end of line character IO_COMMENT = '#' character, parameter :: & CR = achar(13), & LF = IO_EOL public :: & IO_init, & IO_read, & IO_readlines, & IO_isBlank, & IO_wrapLines, & IO_stringPos, & IO_stringValue, & IO_intValue, & IO_floatValue, & IO_lc, & IO_rmComment, & IO_intAsString, & IO_stringAsInt, & IO_stringAsFloat, & IO_stringAsBool, & IO_error, & IO_warning, & IO_STDOUT contains !-------------------------------------------------------------------------------------------------- !> @brief Do self test. !-------------------------------------------------------------------------------------------------- subroutine IO_init() print'(/,1x,a)', '<<<+- IO init -+>>>'; flush(IO_STDOUT) call selfTest() end subroutine IO_init !-------------------------------------------------------------------------------------------------- !> @brief Read ASCII file and split at EOL. !-------------------------------------------------------------------------------------------------- function IO_readlines(fileName) result(fileContent) character(len=*), intent(in) :: fileName character(len=pStringLen), dimension(:), allocatable :: fileContent !< file content, separated per lines character(len=pStringLen) :: line character(len=:), allocatable :: rawData integer :: & startPos, endPos, & N_lines, & !< # lines in file l logical :: warned rawData = IO_read(fileName) N_lines = count([(rawData(l:l) == IO_EOL,l=1,len(rawData))]) allocate(fileContent(N_lines)) !-------------------------------------------------------------------------------------------------- ! split raw data at end of line warned = .false. startPos = 1 l = 1 do while (l <= N_lines) endPos = startPos + scan(rawData(startPos:),IO_EOL) - 2 if (endPos - startPos > pStringLen-1) then line = rawData(startPos:startPos+pStringLen-1) if (.not. warned) then call IO_warning(207,trim(fileName),label1='line',ID1=l) warned = .true. end if else line = rawData(startPos:endpos) end if startPos = endPos + 2 ! jump to next line start fileContent(l) = trim(line)//'' l = l + 1 end do end function IO_readlines !-------------------------------------------------------------------------------------------------- !> @brief Read ASCII file. !> @details Proper Unix style (LF line endings and LF at EOF) is ensured. !-------------------------------------------------------------------------------------------------- function IO_read(fileName) result(fileContent) character(len=*), intent(in) :: fileName character(len=:), allocatable :: fileContent integer :: & fileUnit, & myStat integer(pI64) :: & fileLength inquire(file = fileName, size=fileLength) open(newunit=fileUnit, file=fileName, access='stream',& status='old', position='rewind', action='read',iostat=myStat) if (myStat /= 0) call IO_error(100,trim(fileName)) allocate(character(len=fileLength)::fileContent) if (fileLength==0) then close(fileUnit) return end if read(fileUnit,iostat=myStat) fileContent if (myStat /= 0) call IO_error(102,trim(fileName)) close(fileUnit) if (index(fileContent,CR//LF,kind=pI64) /= 0) fileContent = CRLF2LF(fileContent) if (fileContent(fileLength:fileLength) /= IO_EOL) fileContent = fileContent//IO_EOL ! ensure EOL@EOF end function IO_read !-------------------------------------------------------------------------------------------------- !> @brief Identifiy strings without content. !-------------------------------------------------------------------------------------------------- logical pure function IO_isBlank(string) character(len=*), intent(in) :: string !< string to check for content integer :: posNonBlank posNonBlank = verify(string,IO_WHITESPACE) IO_isBlank = posNonBlank == 0 .or. posNonBlank == scan(string,IO_COMMENT) end function IO_isBlank !-------------------------------------------------------------------------------------------------- !> @brief Insert EOL at separator trying to keep line length below limit. !-------------------------------------------------------------------------------------------------- function IO_wrapLines(string,separator,filler,length) character(len=*), intent(in) :: string !< string to split character, optional, intent(in) :: separator !< line breaks are possible after this character, defaults to ',' character(len=*), optional, intent(in) :: filler !< character(s) to insert after line break, defaults to none integer, optional, intent(in) :: length !< (soft) line limit, defaults to 80 character(len=:), allocatable :: IO_wrapLines integer, dimension(:), allocatable :: pos_sep, pos_split integer :: i,s,e character :: sep character(len=:), allocatable :: fill sep = misc_optional(separator,',') fill = misc_optional(filler,'') i = index(string,sep) if (i == 0) then IO_wrapLines = string else pos_sep = [0] s = i do while (i /= 0 .and. s < len(string)) pos_sep = [pos_sep,s] i = index(string(s+1:),sep) s = s + i end do pos_sep = [pos_sep,len(string)] pos_split = emptyIntArray s = 1 e = 2 IO_wrapLines = '' do while (e < size(pos_sep)) if (pos_sep(e+1) - pos_sep(s) >= misc_optional(length,80)) then IO_wrapLines = IO_wrapLines//adjustl(string(pos_sep(s)+1:pos_sep(e)))//IO_EOL//fill s = e end if e = e + 1 end do IO_wrapLines = IO_wrapLines//adjustl(string(pos_sep(s)+1:)) end if end function IO_wrapLines !-------------------------------------------------------------------------------------------------- !> @brief Locate all whitespace-separated chunks in given string and returns array containing !! number them and the left/right position to be used by IO_xxxVal. !! Array size is dynamically adjusted to number of chunks found in string !! IMPORTANT: first element contains number of chunks! !-------------------------------------------------------------------------------------------------- pure function IO_stringPos(string) character(len=*), intent(in) :: string !< string in which chunk positions are searched for integer, dimension(:), allocatable :: IO_stringPos integer :: left, right allocate(IO_stringPos(1), source=0) right = 0 do while (verify(string(right+1:),IO_WHITESPACE)>0) left = right + verify(string(right+1:),IO_WHITESPACE) right = left + scan(string(left:),IO_WHITESPACE) - 2 if ( string(left:left) == IO_COMMENT) exit IO_stringPos = [IO_stringPos,left,right] IO_stringPos(1) = IO_stringPos(1)+1 endOfString: if (right < left) then IO_stringPos(IO_stringPos(1)*2+1) = len_trim(string) exit end if endOfString end do end function IO_stringPos !-------------------------------------------------------------------------------------------------- !> @brief Read string value at myChunk from string. !-------------------------------------------------------------------------------------------------- function IO_stringValue(string,chunkPos,myChunk) character(len=*), intent(in) :: string !< raw input with known start and end of each chunk integer, dimension(:), intent(in) :: chunkPos !< positions of start and end of each tag/chunk in given string integer, intent(in) :: myChunk !< position number of desired chunk character(len=:), allocatable :: IO_stringValue validChunk: if (myChunk > chunkPos(1) .or. myChunk < 1) then IO_stringValue = '' call IO_error(110,'IO_stringValue: "'//trim(string)//'"',label1='chunk',ID1=myChunk) else validChunk IO_stringValue = string(chunkPos(myChunk*2):chunkPos(myChunk*2+1)) end if validChunk end function IO_stringValue !-------------------------------------------------------------------------------------------------- !> @brief Read integer value at myChunk from string. !-------------------------------------------------------------------------------------------------- integer function IO_intValue(string,chunkPos,myChunk) character(len=*), intent(in) :: string !< raw input with known start and end of each chunk integer, dimension(:), intent(in) :: chunkPos !< positions of start and end of each tag/chunk in given string integer, intent(in) :: myChunk !< position number of desired chunk IO_intValue = IO_stringAsInt(IO_stringValue(string,chunkPos,myChunk)) end function IO_intValue !-------------------------------------------------------------------------------------------------- !> @brief Read float value at myChunk from string. !-------------------------------------------------------------------------------------------------- real(pReal) function IO_floatValue(string,chunkPos,myChunk) character(len=*), intent(in) :: string !< raw input with known start and end of each chunk integer, dimension(:), intent(in) :: chunkPos !< positions of start and end of each tag/chunk in given string integer, intent(in) :: myChunk !< position number of desired chunk IO_floatValue = IO_stringAsFloat(IO_stringValue(string,chunkPos,myChunk)) end function IO_floatValue !-------------------------------------------------------------------------------------------------- !> @brief Convert characters in string to lower case. !-------------------------------------------------------------------------------------------------- pure function IO_lc(string) character(len=*), intent(in) :: string !< string to convert character(len=len(string)) :: IO_lc character(len=*), parameter :: LOWER = 'abcdefghijklmnopqrstuvwxyz' character(len=len(LOWER)), parameter :: UPPER = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' integer :: i,n do i = 1,len(string) n = index(UPPER,string(i:i)) if (n==0) then IO_lc(i:i) = string(i:i) else IO_lc(i:i) = LOWER(n:n) end if end do end function IO_lc !-------------------------------------------------------------------------------------------------- ! @brief Remove comments (characters beyond '#') and trailing space. ! ToDo: Discuss name (the trim aspect is not clear) !-------------------------------------------------------------------------------------------------- function IO_rmComment(line) character(len=*), intent(in) :: line character(len=:), allocatable :: IO_rmComment integer :: split split = index(line,IO_COMMENT) if (split == 0) then IO_rmComment = trim(line) else IO_rmComment = trim(line(:split-1)) end if end function IO_rmComment !-------------------------------------------------------------------------------------------------- !> @brief Return given int value as string. !-------------------------------------------------------------------------------------------------- function IO_intAsString(i) integer, intent(in) :: i character(len=:), allocatable :: IO_intAsString allocate(character(len=merge(2,1,i<0) + floor(log10(real(abs(merge(1,i,i==0))))))::IO_intAsString) write(IO_intAsString,'(i0)') i end function IO_intAsString !-------------------------------------------------------------------------------------------------- !> @brief Return integer value from given string. !-------------------------------------------------------------------------------------------------- integer function IO_stringAsInt(string) character(len=*), intent(in) :: string !< string for conversion to int value integer :: readStatus character(len=*), parameter :: VALIDCHARS = '0123456789+- ' valid: if (verify(string,VALIDCHARS) == 0) then read(string,*,iostat=readStatus) IO_stringAsInt if (readStatus /= 0) call IO_error(111,string) else valid IO_stringAsInt = 0 call IO_error(111,string) end if valid end function IO_stringAsInt !-------------------------------------------------------------------------------------------------- !> @brief Return float value from given string. !-------------------------------------------------------------------------------------------------- real(pReal) function IO_stringAsFloat(string) character(len=*), intent(in) :: string !< string for conversion to float value integer :: readStatus character(len=*), parameter :: VALIDCHARS = '0123456789eE.+- ' valid: if (verify(string,VALIDCHARS) == 0) then read(string,*,iostat=readStatus) IO_stringAsFloat if (readStatus /= 0) call IO_error(112,string) else valid IO_stringAsFloat = 0.0_pReal call IO_error(112,string) end if valid end function IO_stringAsFloat !-------------------------------------------------------------------------------------------------- !> @brief Return logical value from given string. !-------------------------------------------------------------------------------------------------- logical function IO_stringAsBool(string) character(len=*), intent(in) :: string !< string for conversion to int value if (trim(adjustl(string)) == 'True' .or. trim(adjustl(string)) == 'true') then IO_stringAsBool = .true. elseif (trim(adjustl(string)) == 'False' .or. trim(adjustl(string)) == 'false') then IO_stringAsBool = .false. else IO_stringAsBool = .false. call IO_error(113,string) end if end function IO_stringAsBool !-------------------------------------------------------------------------------------------------- !> @brief Write error statements and terminate the run with exit #9xxx. !-------------------------------------------------------------------------------------------------- subroutine IO_error(error_ID,ext_msg,label1,ID1,label2,ID2) integer, intent(in) :: error_ID character(len=*), optional, intent(in) :: ext_msg,label1,label2 integer, optional, intent(in) :: ID1,ID2 external :: quit character(len=:), allocatable :: msg select case (error_ID) !-------------------------------------------------------------------------------------------------- ! file handling errors case (100) msg = 'could not open file:' case (102) msg = 'could not read file:' !-------------------------------------------------------------------------------------------------- ! file parsing errors case (110) msg = 'invalid chunk selected' case (111) msg = 'invalid character for int:' case (112) msg = 'invalid character for float:' case (113) msg = 'invalid character for logical:' case (114) msg = 'cannot decode base64 string:' !-------------------------------------------------------------------------------------------------- ! lattice error messages case (130) msg = 'unknown lattice structure encountered' case (131) msg = 'hex lattice structure with invalid c/a ratio' case (132) msg = 'trans_lattice_structure not possible' case (134) msg = 'negative lattice parameter' case (135) msg = 'zero entry on stiffness diagonal' case (137) msg = 'not defined for lattice structure' case (138) msg = 'not enough interaction parameters given' !-------------------------------------------------------------------------------------------------- ! errors related to the parsing of material.yaml case (140) msg = 'key not found' case (141) msg = 'number of chunks in string differs' case (142) msg = 'empty list' case (143) msg = 'no value found for key' case (144) msg = 'negative number systems requested' case (145) msg = 'too many systems requested' case (146) msg = 'number of values does not match' case (147) msg = 'V_e needs to be symmetric' case (148) msg = 'Nconstituents mismatch between homogenization and material' !-------------------------------------------------------------------------------------------------- ! material error messages and related messages in geometry case (150) msg = 'index out of bounds' case (153) msg = 'sum of phase fractions differs from 1' case (155) msg = 'material index out of bounds' case (180) msg = 'missing/invalid material definition' case (190) msg = 'unknown element type:' case (191) msg = 'mesh contains more than one element type' !-------------------------------------------------------------------------------------------------- ! plasticity error messages case (200) msg = 'unknown elasticity specified:' case (201) msg = 'unknown plasticity specified:' case (211) msg = 'material parameter out of bounds:' case (212) msg = 'nonlocal model not supported' !-------------------------------------------------------------------------------------------------- ! numerics error messages case (301) msg = 'numerics parameter out of bounds:' !-------------------------------------------------------------------------------------------------- ! math errors case (402) msg = 'invalid orientation specified' !------------------------------------------------------------------------------------------------- ! homogenization errors case (500) msg = 'unknown homogenization specified' case (501) msg = 'homogenization description absent' !-------------------------------------------------------------------------------------------------- ! user errors case (603) msg = 'invalid data for table' !------------------------------------------------------------------------------------------------ ! errors related to YAML data case (701) msg = 'incorrect indent/Null value not allowed' case (702) msg = 'invalid use of flow YAML' case (703) msg = 'invalid YAML' case (704) msg = 'space expected after a colon for : pair' case (705) msg = 'unsupported feature' case (706) msg = 'type mismatch in YAML data node' case (707) msg = 'abrupt end of file' case (708) msg = '"---" expected after YAML file header' case (709) msg = 'length mismatch' case (710) msg = 'closing quotation mark missing in string' case (711) msg = 'incorrect type' !------------------------------------------------------------------------------------------------- ! errors related to the mesh solver case (821) msg = 'order not supported' !------------------------------------------------------------------------------------------------- ! errors related to the grid solver case (831) msg = 'mask consistency violated in grid load case' case (833) msg = 'non-positive ratio for geometric progression' case (834) msg = 'negative time increment in grid load case' case (835) msg = 'non-positive increments in grid load case' case (836) msg = 'non-positive result frequency in grid load case' case (837) msg = 'incomplete loadcase' case (838) msg = 'mixed boundary conditions allow rotation' case (839) msg = 'non-positive restart frequency in grid load case' case (844) msg = 'invalid VTI file' case (891) msg = 'unknown solver type selected' case (892) msg = 'unknown filter type selected' case (894) msg = 'MPI error' case (950) msg = 'max number of cutbacks exceeded, terminating' case default error stop 'invalid error number' end select call panel('error',error_ID,msg, & ext_msg=ext_msg, & label1=label1,ID1=ID1, & label2=label2,ID2=ID2) call quit(9000+error_ID) end subroutine IO_error !-------------------------------------------------------------------------------------------------- !> @brief Write warning statements. !-------------------------------------------------------------------------------------------------- subroutine IO_warning(warning_ID,ext_msg,label1,ID1,label2,ID2) integer, intent(in) :: warning_ID character(len=*), optional, intent(in) :: ext_msg,label1,label2 integer, optional, intent(in) :: ID1,ID2 character(len=:), allocatable :: msg select case (warning_ID) case (47) msg = 'invalid parameter for FFTW' case (207) msg = 'line truncated' case (600) msg = 'crystallite responds elastically' case (601) msg = 'stiffness close to zero' case (709) msg = 'read only the first document' case default error stop 'invalid warning number' end select call panel('warning',warning_ID,msg, & ext_msg=ext_msg, & label1=label1,ID1=ID1, & label2=label2,ID2=ID2) end subroutine IO_warning !-------------------------------------------------------------------------------------------------- !> @brief Convert Windows (CRLF) to Unix (LF) line endings. !-------------------------------------------------------------------------------------------------- pure function CRLF2LF(string) character(len=*), intent(in) :: string character(len=:), allocatable :: CRLF2LF integer(pI64) :: c,n allocate(character(len=len_trim(string,pI64))::CRLF2LF) if (len(CRLF2LF,pI64) == 0) return n = 0_pI64 do c=1_pI64, len_trim(string,pI64) CRLF2LF(c-n:c-n) = string(c:c) if (c == len_trim(string,pI64)) exit if (string(c:c+1_pI64) == CR//LF) n = n + 1_pI64 end do CRLF2LF = CRLF2LF(:c-n) end function CRLF2LF !-------------------------------------------------------------------------------------------------- !> @brief Write statements to standard error. !-------------------------------------------------------------------------------------------------- subroutine panel(paneltype,ID,msg,ext_msg,label1,ID1,label2,ID2) character(len=*), intent(in) :: paneltype,msg character(len=*), optional, intent(in) :: ext_msg,label1,label2 integer, intent(in) :: ID integer, optional, intent(in) :: ID1,ID2 character(len=pStringLen) :: formatString integer, parameter :: panelwidth = 69 character(len=*), parameter :: DIVIDER = repeat('─',panelwidth) if (.not. present(label1) .and. present(ID1)) error stop 'missing label for value 1' if (.not. present(label2) .and. present(ID2)) error stop 'missing label for value 2' if ( present(label1) .and. .not. present(ID1)) error stop 'missing value for label 1' if ( present(label2) .and. .not. present(ID2)) error stop 'missing value for label 2' !$OMP CRITICAL (write2out) write(IO_STDERR,'(/,a)') ' ┌'//DIVIDER//'┐' write(formatString,'(a,i2,a)') '(a,24x,a,',max(1,panelwidth-24-len_trim(paneltype)),'x,a)' write(IO_STDERR,formatString) ' │',trim(paneltype), '│' write(formatString,'(a,i2,a)') '(a,24x,i3,',max(1,panelwidth-24-3),'x,a)' write(IO_STDERR,formatString) ' │',ID, '│' write(IO_STDERR,'(a)') ' ├'//DIVIDER//'┤' write(formatString,'(a,i3.3,a,i3.3,a)') '(1x,a4,a',max(1,len_trim(msg)),',',& max(1,panelwidth+3-len_trim(msg)-4),'x,a)' write(IO_STDERR,formatString) '│ ',trim(msg), '│' if (present(ext_msg)) then write(formatString,'(a,i3.3,a,i3.3,a)') '(1x,a4,a',max(1,len_trim(ext_msg)),',',& max(1,panelwidth+3-len_trim(ext_msg)-4),'x,a)' write(IO_STDERR,formatString) '│ ',trim(ext_msg), '│' end if if (present(label1)) then write(formatString,'(a,i3.3,a,i3.3,a)') '(1x,a7,a',max(1,len_trim(label1)),',i9,',& max(1,panelwidth+3-len_trim(label1)-9-7),'x,a)' write(IO_STDERR,formatString) '│ at ',trim(label1),ID1, '│' end if if (present(label2)) then write(formatString,'(a,i3.3,a,i3.3,a)') '(1x,a7,a',max(1,len_trim(label2)),',i9,',& max(1,panelwidth+3-len_trim(label2)-9-7),'x,a)' write(IO_STDERR,formatString) '│ at ',trim(label2),ID2, '│' end if write(formatString,'(a,i2.2,a)') '(a,',max(1,panelwidth),'x,a)' write(IO_STDERR,formatString) ' │', '│' write(IO_STDERR,'(a)') ' └'//DIVIDER//'┘' flush(IO_STDERR) !$OMP END CRITICAL (write2out) end subroutine panel !-------------------------------------------------------------------------------------------------- !> @brief Check correctness of some IO functions. !-------------------------------------------------------------------------------------------------- subroutine selfTest() integer, dimension(:), allocatable :: chunkPos character(len=:), allocatable :: str,out if (dNeq(1.0_pReal, IO_stringAsFloat('1.0'))) error stop 'IO_stringAsFloat' if (dNeq(1.0_pReal, IO_stringAsFloat('1e0'))) error stop 'IO_stringAsFloat' if (dNeq(0.1_pReal, IO_stringAsFloat('1e-1'))) error stop 'IO_stringAsFloat' if (dNeq(0.1_pReal, IO_stringAsFloat('1.0e-1'))) error stop 'IO_stringAsFloat' if (dNeq(0.1_pReal, IO_stringAsFloat('1.00e-1'))) error stop 'IO_stringAsFloat' if (dNeq(10._pReal, IO_stringAsFloat(' 1.0e+1 '))) error stop 'IO_stringAsFloat' if (3112019 /= IO_stringAsInt( '3112019')) error stop 'IO_stringAsInt' if (3112019 /= IO_stringAsInt(' 3112019')) error stop 'IO_stringAsInt' if (-3112019 /= IO_stringAsInt('-3112019')) error stop 'IO_stringAsInt' if (3112019 /= IO_stringAsInt('+3112019 ')) error stop 'IO_stringAsInt' if (3112019 /= IO_stringAsInt('03112019 ')) error stop 'IO_stringAsInt' if (3112019 /= IO_stringAsInt('+03112019')) error stop 'IO_stringAsInt' if (.not. IO_stringAsBool(' true')) error stop 'IO_stringAsBool' if (.not. IO_stringAsBool(' True ')) error stop 'IO_stringAsBool' if ( IO_stringAsBool(' false')) error stop 'IO_stringAsBool' if ( IO_stringAsBool('False')) error stop 'IO_stringAsBool' if ('1234' /= IO_intAsString(1234)) error stop 'IO_intAsString' if ('-12' /= IO_intAsString(-0012)) error stop 'IO_intAsString' if (any([1,1,1] /= IO_stringPos('a'))) error stop 'IO_stringPos' if (any([2,2,3,5,5] /= IO_stringPos(' aa b'))) error stop 'IO_stringPos' str = ' 1.0 xxx' chunkPos = IO_stringPos(str) if (dNeq(1.0_pReal,IO_floatValue(str,chunkPos,1))) error stop 'IO_floatValue' str = 'M 3112019 F' chunkPos = IO_stringPos(str) if (3112019 /= IO_intValue(str,chunkPos,2)) error stop 'IO_intValue' if (CRLF2LF('') /= '') error stop 'CRLF2LF/0' if (CRLF2LF(LF) /= LF) error stop 'CRLF2LF/1a' if (CRLF2LF(CR//LF) /= LF) error stop 'CRLF2LF/1b' if (CRLF2LF(' '//LF) /= ' '//LF) error stop 'CRLF2LF/2a' if (CRLF2LF(' '//CR//LF) /= ' '//LF) error stop 'CRLF2LF/2b' if (CRLF2LF('A'//CR//LF//'B') /= 'A'//LF//'B') error stop 'CRLF2LF/3' if (CRLF2LF('A'//CR//LF//'B'//CR//LF) /= & 'A'//LF//'B'//LF) error stop 'CRLF2LF/4' if (CRLF2LF('A'//LF//CR//'B') /= 'A'//LF//CR//'B') error stop 'CRLF2LF/5' str=' '; if (.not. IO_isBlank(str)) error stop 'IO_isBlank/1' str=' #isBlank';if (.not. IO_isBlank(str)) error stop 'IO_isBlank/2' str=' i#s'; if ( IO_isBlank(str)) error stop 'IO_isBlank/3' str='*(HiU!)3';if ('*(hiu!)3' /= IO_lc(str)) error stop 'IO_lc' str='#';out=IO_rmComment(str) if (out /= '' .or. len(out) /= 0) error stop 'IO_rmComment/1' str=' #';out=IO_rmComment(str) if (out /= '' .or. len(out) /= 0) error stop 'IO_rmComment/2' str=' # ';out=IO_rmComment(str) if (out /= '' .or. len(out) /= 0) error stop 'IO_rmComment/3' str=' # a';out=IO_rmComment(str) if (out /= '' .or. len(out) /= 0) error stop 'IO_rmComment/4' str=' a#';out=IO_rmComment(str) if (out /= ' a' .or. len(out) /= 2) error stop 'IO_rmComment/5' str=' ab #';out=IO_rmComment(str) if (out /= ' ab'.or. len(out) /= 3) error stop 'IO_rmComment/6' if ('abc, def' /= IO_wrapLines('abc, def')) & error stop 'IO_wrapLines/1' if ('abc,'//IO_EOL//'def' /= IO_wrapLines('abc,def',length=3)) & error stop 'IO_wrapLines/2' if ('abc,'//IO_EOL//'def' /= IO_wrapLines('abc,def',length=5)) & error stop 'IO_wrapLines/3' if ('abc, def' /= IO_wrapLines('abc, def',length=3,separator='.')) & error stop 'IO_wrapLines/4' if ('abc.'//IO_EOL//'def' /= IO_wrapLines('abc. def',length=3,separator='.')) & error stop 'IO_wrapLines/5' if ('abc,'//IO_EOL//'defg,'//IO_EOL//'hij' /= IO_wrapLines('abc,defg,hij',length=4)) & error stop 'IO_wrapLines/6' if ('abc,'//IO_EOL//'xxdefg,'//IO_EOL//'xxhij' /= IO_wrapLines('abc,defg, hij',filler='xx',length=4)) & error stop 'IO_wrapLines/7' end subroutine selfTest end module IO