subroutine ch_cap ( ch ) c*********************************************************************72 c cc CH_CAP capitalizes a single character. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 03 January 2007 c c Author: c c John Burkardt c c Parameters: c c Input/output, character CH, the character to capitalize. c implicit none character ch integer itemp itemp = ichar ( ch ) if ( 97 .le. itemp .and. itemp .le. 122 ) then ch = char ( itemp - 32 ) end if return end function ch_eqi ( c1, c2 ) c*********************************************************************72 c cc CH_EQI is a case insensitive comparison of two characters for equality. c c Example: c c CH_EQI ( 'A', 'a' ) is TRUE. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 03 January 2007 c c Author: c c John Burkardt c c Parameters: c c Input, character C1, C2, the characters to compare. c c Output, logical CH_EQI, the result of the comparison. c implicit none character c1 character c1_cap character c2 character c2_cap logical ch_eqi c1_cap = c1 c2_cap = c2 call ch_cap ( c1_cap ) call ch_cap ( c2_cap ) if ( c1_cap == c2_cap ) then ch_eqi = .true. else ch_eqi = .false. end if return end function ch_index_last ( s, ch ) c*********************************************************************72 c cc CH_INDEX_LAST is the last occurrence of a character in a string. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 03 April 2006 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) S, the string to be searched. c c Input, character CH, the character to be searched for. c c Output, integer CH_INDEX_LAST, the location of the last c occurrence of the character in the string, or -1 if it does not occur. c implicit none character ch integer ch_index_last integer i character * ( * ) s integer s_len_trim integer s_length ch_index_last = -1 s_length = s_len_trim ( s ) do i = s_length, 1, -1 if ( s(i:i) .eq. ch ) then ch_index_last = i return end if end do return end subroutine ch_to_digit ( c, digit ) c*********************************************************************72 c cc CH_TO_DIGIT returns the integer value of a base 10 digit. c c Example: c c C DIGIT c --- ----- c '0' 0 c '1' 1 c ... ... c '9' 9 c ' ' 0 c 'X' -1 c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 04 August 1999 c c Author: c c John Burkardt c c Parameters: c c Input, character C, the decimal digit, '0' through '9' or blank c are legal. c c Output, integer DIGIT, the corresponding integer value. If C was c 'illegal', then DIGIT is -1. c implicit none character c integer digit if ( lge ( c, '0' ) .and. lle ( c, '9' ) ) then digit = ichar ( c ) - 48 else if ( c .eq. ' ' ) then digit = 0 else digit = -1 end if return end subroutine file_column_count ( input_file_name, column_num ) c*********************************************************************72 c cc FILE_COLUMN_COUNT counts the number of columns in the first line of a file. c c Discussion: c c The file is assumed to be a simple text file. c c Most lines of the file is presumed to consist of COLUMN_NUM words, c separated by spaces. There may also be some blank lines, and some c comment lines, c which have a "#" in column 1. c c The routine tries to find the first non-comment non-blank line and c counts the number of words in that line. c c If all lines are blanks or comments, it goes back and tries to analyze c a comment line. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) INPUT_FILE_NAME, the name of the file. c c Output, integer COLUMN_NUM, the number of columns in the file. c implicit none integer column_num logical got_one character * ( * ) input_file_name integer input_unit character * ( 255 ) line integer s_len_trim c c Open the file. c call get_unit ( input_unit ) open ( unit = input_unit, file = input_file_name, & status = 'old', form = 'formatted', access = 'sequential' ) c c Read one line, but skip blank lines and comment lines. c got_one = .false. 10 continue read ( input_unit, '(a)', err = 20 ) line if ( s_len_trim ( line ) .eq. 0 ) then go to 10 end if if ( line(1:1) .eq. '#' ) then go to 10 end if got_one = .true. go to 20 go to 10 20 continue if ( .not. got_one ) then rewind ( input_unit ) 30 continue read ( input_unit, '(a)', err = 40 ) line if ( s_len_trim ( line ) .eq. 0 ) then go to 30 end if got_one = .true. go to 40 go to 30 40 continue end if close ( unit = input_unit ) if ( .not. got_one ) then write ( *, '(a)' ) ' ' write ( *, '(a)' ) 'FILE_COLUMN_COUNT - Warning.' write ( *, '(a)' ) ' The file does not contain any data.' column_num = -1 return end if call s_word_count ( line, column_num ) return end subroutine file_name_ext_get ( file_name, i, j ) c*********************************************************************72 c cc FILE_NAME_EXT_GET determines the "extension" of a file name. c c Discussion: c c The "extension" of a filename is the string of characters c that appears after the LAST period in the name. A file c with no period, or with a period as the last character c in the name, has a "null" extension. c c Blanks are unusual in filenames. This routine ignores all c trailing blanks, but will treat initial or internal blanks c as regular characters acceptable in a file name. c c Example: c c FILE_NAME I J c c bob.for 4 7 c N.B.C.D 6 7 c Naomi. 6 6 c Arthur -1 -1 c .com 1 1 c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 22 November 2011 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) FILE_NAME, a file name to be examined. c c Output, integer I, J, the indices of the first and c last characters in the file extension. c If no period occurs in FILE_NAME, then c I = J = -1; c Otherwise, c I is the position of the LAST period in FILE_NAME, and J is the c position of the last nonblank character following the period. c implicit none character * ( * ) file_name integer i integer j integer ch_index_last i = ch_index_last ( file_name, '.' ) if ( i .eq. -1 ) then j = -1 else j = len_trim ( file_name ) end if return end subroutine file_name_ext_swap ( file_name, ext ) c*********************************************************************72 c cc FILE_NAME_EXT_SWAP replaces the current "extension" of a file name. c c Discussion: c c The "extension" of a filename is the string of characters c that appears after the LAST period in the name. A file c with no period, or with a period as the last character c in the name, has a "null" extension. c c Example: c c Input Output c ================ ========= c FILE_NAME EXT FILE_NAME c c bob.for obj bob.obj c bob.bob.bob txt bob.bob.txt c bob yak bob.yak c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 04 February 2012 c c Author: c c John Burkardt c c Parameters: c c Input/output, character * ( * ) FILE_NAME, a file name. c On output, the extension of the file has been changed. c c Input, character * ( * ) EXT, the extension to be used on the output c copy of FILE_NAME, replacing the current extension if any. c implicit none character * ( * ) ext character * ( * ) file_name integer i integer j integer len_max integer len_name len_max = len ( file_name ) len_name = len_trim ( file_name ) call file_name_ext_get ( file_name, i, j ) if ( i .eq. 0 ) then if ( len_max .lt. len_name + 1 ) then return end if len_name = len_name + 1 file_name(len_name:len_name) = '.' i = len_name + 1 else i = i + 1 file_name(i:j) = ' ' end if file_name(i:) = ext return end subroutine file_row_count ( input_file_name, row_num ) c*********************************************************************72 c cc FILE_ROW_COUNT counts the number of row records in a file. c c Discussion: c c It does not count lines that are blank, or that begin with a c comment symbol '#'. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) INPUT_FILE_NAME, the name of the input file. c c Output, integer ROW_NUM, the number of rows found. c implicit none integer bad_num integer comment_num character * ( * ) input_file_name integer input_unit character * ( 255 ) line integer record_num integer row_num integer s_len_trim call get_unit ( input_unit ) open ( unit = input_unit, file = input_file_name, & status = 'old' ) comment_num = 0 row_num = 0 record_num = 0 bad_num = 0 10 continue read ( input_unit, '(a)', err = 20, end = 20 ) line record_num = record_num + 1 if ( line(1:1) .eq. '#' ) then comment_num = comment_num + 1 go to 10 end if if ( s_len_trim ( line ) .eq. 0 ) then comment_num = comment_num + 1 go to 10 end if row_num = row_num + 1 go to 10 20 continue close ( unit = input_unit ) return end subroutine get_unit ( iunit ) c*********************************************************************72 c cc GET_UNIT returns a free FORTRAN unit number. c c Discussion: c c A "free" FORTRAN unit number is a value between 1 and 99 which c is not currently associated with an I/O device. A free FORTRAN unit c number is needed in order to open a file with the OPEN command. c c If IUNIT = 0, then no free FORTRAN unit could be found, although c all 99 units were checked (except for units 5, 6 and 9, which c are commonly reserved for console I/O). c c Otherwise, IUNIT is a value between 1 and 99, representing a c free FORTRAN unit. Note that GET_UNIT assumes that units 5 and 6 c are special, and will never return those values. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 02 September 2013 c c Author: c c John Burkardt c c Parameters: c c Output, integer IUNIT, the free unit number. c implicit none integer i integer iunit logical value iunit = 0 do i = 1, 99 if ( i .ne. 5 .and. i .ne. 6 .and. i .ne. 9 ) then inquire ( unit = i, opened = value, err = 10 ) if ( .not. value ) then iunit = i return end if end if 10 continue end do return end subroutine r8mat_data_read ( input_filename, m, n, table ) c*********************************************************************72 c cc R8MAT_DATA_READ reads data from an R8MAT file. c c Discussion: c c An R8MAT is an array of R8's. c c The file may contain more than N points, but this routine will c return after reading N of them. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) INPUT_FILENAME, the name of the input file. c c Input, integer M, the spatial dimension. c c Input, integer N, the number of points. c c Output, double precision TABLE(M,N), the data. c implicit none integer m integer n integer i integer ierror character * ( * ) input_filename integer input_unit integer j character * ( 255 ) line integer s_len_trim double precision table(m,n) double precision x(m) ierror = 0 call get_unit ( input_unit ) open ( unit = input_unit, file = input_filename, & status = 'old' ) j = 0 10 continue if ( j .lt. n ) then read ( input_unit, '(a)' ) line if ( line(1:1) .eq. '#' .or. s_len_trim ( line ) .eq. 0 ) then go to 10 end if call s_to_r8vec ( line, m, x, ierror ) if ( ierror .ne. 0 ) then go to 10 end if j = j + 1 do i = 1, m table(i,j) = x(i) end do go to 10 end if close ( unit = input_unit ) return end subroutine r8mat_header_read ( input_filename, m, n ) c*********************************************************************72 c cc R8MAT_HEADER_READ reads the header from an R8MAT file. c c Discussion: c c An R8MAT is an array of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) INPUT_FILENAME, the name of the input file. c c Output, integer M, spatial dimension. c c Output, integer N, the number of points. c implicit none character * ( * ) input_filename integer m integer n call file_column_count ( input_filename, m ) if ( m .le. 0 ) then write ( *, '(a)' ) ' ' write ( *, '(a)' ) 'R8MAT_HEADER_READ - Fatal error!' write ( *, '(a)' ) ' There was an I/O problem while trying' write ( *, '(a)' ) ' to count the number of data columns in' write ( *, '(a,a,a)' ) & ' the file "', trim ( input_filename ), '".' stop end if call file_row_count ( input_filename, n ) if ( n .le. 0 ) then write ( *, '(a)' ) ' ' write ( *, '(a)' ) 'R8MAT_HEADER_READ - Fatal error!' write ( *, '(a)' ) ' There was an I/O problem while trying' write ( *, '(a)' ) ' to count the number of data rows in' write ( *, '(a,a,a)' ) & ' the file "', trim ( input_filename ), '".' stop end if return end subroutine r8mat_latinize ( m, n, table ) !*********************************************************************72 ! !! R8MAT_LATINIZE "Latinizes" a real table dataset. ! ! Discussion: ! ! On output, each row of the table will have the properties that: ! 1) the minimum and maximum row values are the same as on input; ! 2) the row contains N evenly spaced values between the ! minimum and maximum; ! 3) in each row, elements retain their ordering. ! ! Licensing: ! ! This code is distributed under the MIT license. ! ! Modified: ! ! 04 February 2012 ! ! Author: ! ! John Burkardt ! ! Parameters: ! ! Input, integer M, the spatial dimension. ! ! Input, integer N, the number of columns. ! ! Input/output, double precision TABLE(M,N). On input, the dataset to ! be "Latinized". On output, the Latinized dataset. ! implicit none integer m integer n integer i integer indx(n) integer j double precision table(m,n) double precision v(n) double precision v_max double precision v_min if ( n .le. 2 ) then return end if do i = 1, m do j = 1, n v(j) = table(i,j) end do call r8vec_min ( n, v, v_min ) call r8vec_max ( n, v, v_max ) call r8vec_sort_heap_index_a ( n, v, indx ) do j = 1, n table(i,indx(j)) = ( dble ( n - j ) * v_min & + dble ( j - 1 ) * v_max ) & / dble ( n - 1 ) end do end do return end subroutine r8mat_print_some ( m, n, a, ilo, jlo, ihi, jhi, & title ) c*********************************************************************72 c cc R8MAT_PRINT_SOME prints some of an R8MAT. c c Discussion: c c An R8MAT is an array of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 25 January 2007 c c Author: c c John Burkardt c c Parameters: c c Input, integer M, N, the number of rows and columns. c c Input, double precision A(M,N), an M by N matrix to be printed. c c Input, integer ILO, JLO, the first row and column to print. c c Input, integer IHI, JHI, the last row and column to print. c c Input, character ( len = * ) TITLE, a title. c implicit none integer incx parameter ( incx = 5 ) integer m integer n double precision a(m,n) character * ( 14 ) ctemp(incx) integer i integer i2hi integer i2lo integer ihi integer ilo integer inc integer j integer j2 integer j2hi integer j2lo integer jhi integer jlo character * ( * ) title write ( *, '(a)' ) ' ' write ( *, '(a)' ) trim ( title ) if ( m .le. 0 .or. n .le. 0 ) then write ( *, '(a)' ) ' ' write ( *, '(a)' ) ' (None)' return end if do j2lo = max ( jlo, 1 ), min ( jhi, n ), incx j2hi = j2lo + incx - 1 j2hi = min ( j2hi, n ) j2hi = min ( j2hi, jhi ) inc = j2hi + 1 - j2lo write ( *, '(a)' ) ' ' do j = j2lo, j2hi j2 = j + 1 - j2lo write ( ctemp(j2), '(i7,7x)') j end do write ( *, '('' Col '',5a14)' ) ( ctemp(j), j = 1, inc ) write ( *, '(a)' ) ' Row' write ( *, '(a)' ) ' ' i2lo = max ( ilo, 1 ) i2hi = min ( ihi, m ) do i = i2lo, i2hi do j2 = 1, inc j = j2lo - 1 + j2 write ( ctemp(j2), '(g14.6)' ) a(i,j) end do write ( *, '(i5,a,5a14)' ) i, ':', ( ctemp(j), j = 1, inc ) end do end do return end subroutine r8mat_transpose_print ( m, n, a, title ) c*********************************************************************72 c cc R8MAT_TRANSPOSE_PRINT prints an R8MAT, transposed. c c Discussion: c c An R8MAT is an array of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, integer M, N, the number of rows and columns. c c Input, double precision A(M,N), an M by N matrix to be printed. c c Input, character*(*) TITLE, a title. c implicit none integer m integer n double precision a(m,n) character*(*) title call r8mat_transpose_print_some ( m, n, a, 1, 1, m, n, title ) return end subroutine r8mat_transpose_print_some ( m, n, a, ilo, jlo, ihi, & jhi, title ) c*********************************************************************72 c cc R8MAT_TRANSPOSE_PRINT_SOME prints some of an R8MAT transposed. c c Discussion: c c An R8MAT is an array of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, integer M, N, the number of rows and columns. c c Input, double precision A(M,N), an M by N matrix to be printed. c c Input, integer ILO, JLO, the first row and column to print. c c Input, integer IHI, JHI, the last row and column to print. c c Input, character * ( * ) TITLE, a title. c implicit none integer incx parameter ( incx = 5 ) integer m integer n double precision a(m,n) character * ( 14 ) ctemp(incx) integer i integer i2 integer i2hi integer i2lo integer ihi integer ilo integer inc integer j integer j2hi integer j2lo integer jhi integer jlo character * ( * ) title write ( *, '(a)' ) ' ' write ( *, '(a)' ) trim ( title ) if ( m .le. 0 .or. n .le. 0 ) then write ( *, '(a)' ) ' ' write ( *, '(a)' ) ' (None)' return end if do i2lo = max ( ilo, 1 ), min ( ihi, m ), incx i2hi = i2lo + incx - 1 i2hi = min ( i2hi, m ) i2hi = min ( i2hi, ihi ) inc = i2hi + 1 - i2lo write ( *, '(a)' ) ' ' do i = i2lo, i2hi i2 = i + 1 - i2lo write ( ctemp(i2), '(i8,6x)') i end do write ( *, '('' Row'',5a14)' ) ctemp(1:inc) write ( *, '(a)' ) ' Col' j2lo = max ( jlo, 1 ) j2hi = min ( jhi, n ) do j = j2lo, j2hi do i2 = 1, inc i = i2lo - 1 + i2 write ( ctemp(i2), '(g14.6)' ) a(i,j) end do write ( *, '(2x,i8,a,5a14)' ) j, ':', ( ctemp(i), i = 1, inc ) end do end do return end subroutine r8mat_write ( output_filename, m, n, table ) c*********************************************************************72 c cc R8MAT_WRITE writes a R8MAT file. c c Discussion: c c An R8MAT is an array of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 22 October 2009 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) OUTPUT_FILENAME, the output file name. c c Input, integer M, the spatial dimension. c c Input, integer N, the number of points. c c Input, double precision TABLE(M,N), the data. c implicit none integer m integer n integer j character * ( * ) output_filename integer output_unit character * ( 30 ) string double precision table(m,n) c c Open the file. c call get_unit ( output_unit ) open ( unit = output_unit, file = output_filename, & status = 'replace' ) c c Create the format string. c if ( 0 .lt. m .and. 0 .lt. n ) then write ( string, '(a1,i8,a1,i8,a1,i8,a1)' ) & '(', m, 'g', 24, '.', 16, ')' c c Write the data. c do j = 1, n write ( output_unit, string ) table(1:m,j) end do end if c c Close the file. c close ( unit = output_unit ) return end subroutine r8vec_max ( n, a, amax ) c*********************************************************************72 c cc R8VEC_MAX returns the maximum value in an R8VEC. c c Discussion: c c An R8VEC is a vector of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 31 May 2009 c c Author: c c John Burkardt c c Parameters: c c Input, integer N, the number of entries in the array. c c Input, double precision A(N), the array. c c Output, double precision AMAX, the value of the largest entry. c implicit none integer n double precision a(n) double precision amax integer i amax = a(1) do i = 2, n amax = max ( amax, a(i) ) end do return end subroutine r8vec_min ( n, a, amin ) c*********************************************************************72 c cc R8VEC_MIN returns the minimum value in an R8VEC. c c Discussion: c c An R8VEC is a vector of R8's. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 31 May 2009 c c Author: c c John Burkardt c c Parameters: c c Input, integer N, the number of entries in the array. c c Input, double precision A(N), the array. c c Output, double precision AMIN, the value of the smallest entry. c implicit none integer n double precision a(n) double precision amin integer i amin = a(1) do i = 2, n amin = min ( amin, a(i) ) end do return end subroutine r8vec_sort_heap_index_a ( n, a, indx ) c*********************************************************************72 c cc R8VEC_SORT_HEAP_INDEX_A does an indexed heap ascending sort of an R8VEC. c c Discussion: c c An R8VEC is a vector of R8's. c c The sorting is not actually carried out. Rather an index array is c created which defines the sorting. This array may be used to sort c or index the array, or to sort or index related arrays keyed on the c original array. c c Once the index array is computed, the sorting can be carried out c "implicitly: c c A(INDX(I:N)) is sorted, c c or explicitly, by the call c c call r8vec_permute ( n, indx, a ) c c after which A(1:N) is sorted. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 01 June 2009 c c Author: c c John Burkardt c c Parameters: c c Input, integer N, the number of entries in the array. c c Input, double precision A(N), an array to be index-sorted. c c Output, integer INDX(N), the sort index. The c I-th element of the sorted array is A(INDX(I)). c implicit none integer n double precision a(n) double precision aval integer i integer indx(n) integer indxt integer ir integer j integer l if ( n .lt. 1 ) then return end if do i = 1, n indx(i) = i end do if ( n .eq. 1 ) then return end if l = n / 2 + 1 ir = n 10 continue if ( 1 .lt. l ) then l = l - 1 indxt = indx(l) aval = a(indxt) else indxt = indx(ir) aval = a(indxt) indx(ir) = indx(1) ir = ir - 1 if ( ir .eq. 1 ) then indx(1) = indxt go to 30 end if end if i = l j = l + l 20 continue if ( j .le. ir ) then if ( j .lt. ir ) then if ( a(indx(j)) .lt. a(indx(j+1)) ) then j = j + 1 end if end if if ( aval .lt. a(indx(j)) ) then indx(i) = indx(j) i = j j = j + j else j = ir + 1 end if go to 20 end if indx(i) = indxt go to 10 30 continue return end function s_index_last ( s, sub ) c*********************************************************************72 c cc S_INDEX_LAST finds the LAST occurrence of a given substring. c c Discussion: c c It returns the location in the string at which the substring SUB is c first found, or 0 if the substring does not occur at all. c c The routine is also trailing blank insensitive. This is very c important for those cases where you have stored information in c larger variables. If S is of length 80, and SUB is of c length 80, then if S = 'FRED' and SUB = 'RED', a match would c not be reported by the standard FORTRAN INDEX, because it treats c both variables as being 80 characters long! This routine assumes that c trailing blanks represent garbage! c c This means that this routine cannot be used to find, say, the last c occurrence of a substring 'A ', since it assumes the blank space c was not specified by the user, but is, rather, padding by the c system. However, as a special case, this routine can properly handle c the case where either S or SUB is all blanks. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 04 February 2012 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) S, the string to be searched. c c Input, character * ( * ) SUB, the substring to search for. c c Output, integer S_INDEX_LAST. 0 if SUB does not occur in c the string. Otherwise S_INDEX_LAST = I, where S(I:I+LENS-1) = SUB, c where LENS is the length of SUB, and is the last place c this happens. c implicit none integer i integer j integer llen2 character * ( * ) s integer s_index_last integer s_length character * ( * ) sub s_index_last = 0 s_length = len_trim ( s ) llen2 = len_trim ( sub ) c c In case S or SUB is blanks, use LEN. c if ( s_length .eq. 0 ) then s_length = len ( s ) end if if ( llen2 .eq. 0 ) then llen2 = len ( sub ) end if if ( s_length .lt. llen2 ) then return end if do j = 1, s_length + 1 - llen2 i = s_length + 2 - llen2 - j if ( s(i:i+llen2-1) .eq. sub ) then s_index_last = i return end if end do return end function s_len_trim ( s ) c*********************************************************************72 c cc S_LEN_TRIM returns the length of a string to the last nonblank. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 05 March 2004 c c Author: c c John Burkardt c c Parameters: c c Input, character*(*) S, a string. c c Output, integer S_LEN_TRIM, the length of the string to the last nonblank. c implicit none integer i character*(*) s integer s_len_trim do i = len ( s ), 1, -1 if ( s(i:i) .ne. ' ' ) then s_len_trim = i return end if end do s_len_trim = 0 return end subroutine s_to_r8 ( s, dval, ierror, length ) c*********************************************************************72 c cc S_TO_R8 reads an R8 from a string. c c Discussion: c c The routine will read as many characters as possible until it reaches c the end of the string, or encounters a character which cannot be c part of the number. c c Legal input is: c c 1 blanks, c 2 '+' or '-' sign, c 2.5 blanks c 3 integer part, c 4 decimal point, c 5 fraction part, c 6 'E' or 'e' or 'D' or 'd', exponent marker, c 7 exponent sign, c 8 exponent integer part, c 9 exponent decimal point, c 10 exponent fraction part, c 11 blanks, c 12 final comma or semicolon, c c with most quantities optional. c c Example: c c S DVAL c c '1' 1.0 c ' 1 ' 1.0 c '1A' 1.0 c '12,34,56' 12.0 c ' 34 7' 34.0 c '-1E2ABCD' -100.0 c '-1X2ABCD' -1.0 c ' 2E-1' 0.2 c '23.45' 23.45 c '-4.2E+2' -420.0 c '17d2' 1700.0 c '-14e-2' -0.14 c 'e2' 100.0 c '-12.73e-9.23' -12.73 * 10.0**(-9.23) c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) S, the string containing the c data to be read. Reading will begin at position 1 and c terminate at the end of the string, or when no more c characters can be read to form a legal real. Blanks, c commas, or other nonnumeric data will, in particular, c cause the conversion to halt. c c Output, double precision DVAL, the value read from the string. c c Output, integer IERROR, error flag. c 0, no errors occurred. c 1, 2, 6 or 7, the input number was garbled. The c value of IERROR is the last type of input successfully c read. For instance, 1 means initial blanks, 2 means c a plus or minus sign, and so on. c c Output, integer LENGTH, the number of characters read c to form the number, including any terminating c characters such as a trailing comma or blanks. c implicit none logical ch_eqi character c double precision dval integer ierror integer ihave integer isgn integer iterm integer jbot integer jsgn integer jtop integer length integer nchar integer ndig double precision rbot double precision rexp double precision rtop character * ( * ) s integer s_len_trim nchar = s_len_trim ( s ) ierror = 0 dval = 0.0D+00 length = -1 isgn = 1 rtop = 0 rbot = 1 jsgn = 1 jtop = 0 jbot = 1 ihave = 1 iterm = 0 10 continue length = length + 1 if ( nchar .lt. length+1 ) then go to 20 end if c = s(length+1:length+1) c c Blank character. c if ( c .eq. ' ' ) then if ( ihave .eq. 2 ) then else if ( ihave .eq. 6 .or. ihave .eq. 7 ) then iterm = 1 else if ( 1 .lt. ihave ) then ihave = 11 end if c c Comma. c else if ( c .eq. ',' .or. c .eq. ';' ) then if ( ihave .ne. 1 ) then iterm = 1 ihave = 12 length = length + 1 end if c c Minus sign. c else if ( c .eq. '-' ) then if ( ihave .eq. 1 ) then ihave = 2 isgn = -1 else if ( ihave .eq. 6 ) then ihave = 7 jsgn = -1 else iterm = 1 end if c c Plus sign. c else if ( c .eq. '+' ) then if ( ihave .eq. 1 ) then ihave = 2 else if ( ihave .eq. 6 ) then ihave = 7 else iterm = 1 end if c c Decimal point. c else if ( c .eq. '.' ) then if ( ihave .lt. 4 ) then ihave = 4 else if ( 6 .le. ihave .and. ihave .le. 8 ) then ihave = 9 else iterm = 1 end if c c Scientific notation exponent marker. c else if ( ch_eqi ( c, 'E' ) .or. ch_eqi ( c, 'D' ) ) then if ( ihave .lt. 6 ) then ihave = 6 else iterm = 1 end if c c Digit. c else if ( ihave .lt. 11 .and. lle ( '0', c ) & .and. lle ( c, '9' ) ) then if ( ihave .le. 2 ) then ihave = 3 else if ( ihave .eq. 4 ) then ihave = 5 else if ( ihave .eq. 6 .or. ihave .eq. 7 ) then ihave = 8 else if ( ihave .eq. 9 ) then ihave = 10 end if call ch_to_digit ( c, ndig ) if ( ihave .eq. 3 ) then rtop = 10.0D+00 * rtop + dble ( ndig ) else if ( ihave .eq. 5 ) then rtop = 10.0D+00 * rtop + dble ( ndig ) rbot = 10.0D+00 * rbot else if ( ihave .eq. 8 ) then jtop = 10 * jtop + ndig else if ( ihave .eq. 10 ) then jtop = 10 * jtop + ndig jbot = 10 * jbot end if c c Anything else is regarded as a terminator. c else iterm = 1 end if c c If we haven't seen a terminator, and we haven't examined the c entire string, go get the next character. c if ( iterm .eq. 1 ) then go to 20 end if go to 10 20 continue c c If we haven't seen a terminator, and we have examined the c entire string, then we're done, and LENGTH is equal to NCHAR. c if ( iterm .ne. 1 .and. length+1 .eq. nchar ) then length = nchar end if c c Number seems to have terminated. Have we got a legal number? c Not if we terminated in states 1, 2, 6 or 7. c if ( ihave .eq. 1 .or. ihave .eq. 2 .or. & ihave .eq. 6 .or. ihave .eq. 7 ) then ierror = ihave write ( *, '(a)' ) ' ' write ( *, '(a)' ) 'S_TO_R8 - Serious error!' write ( *, '(a)' ) ' Illegal or nonnumeric input:' write ( *, '(a,a)' ) ' ', s return end if c c Number seems OK. Form it. c if ( jtop .eq. 0 ) then rexp = 1.0D+00 else if ( jbot .eq. 1 ) then rexp = 10.0D+00 ** ( jsgn * jtop ) else rexp = 10.0D+00 ** ( dble ( jsgn * jtop ) / dble ( jbot ) ) end if end if dval = dble ( isgn ) * rexp * rtop / rbot return end subroutine s_to_r8vec ( s, n, rvec, ierror ) c*********************************************************************72 c cc S_TO_R8VEC reads an R8VEC from a string. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) S, the string to be read. c c Input, integer N, the number of values expected. c c Output, double precision RVEC(N), the values read from the string. c c Output, integer IERROR, error flag. c 0, no errors occurred. c -K, could not read data for entries -K through N. c implicit none integer n integer i integer ierror integer ilo integer lchar double precision rvec(n) character * ( * ) s i = 0 ierror = 0 ilo = 1 10 continue if ( i .lt. n ) then i = i + 1 call s_to_r8 ( s(ilo:), rvec(i), ierror, lchar ) if ( ierror .ne. 0 ) then ierror = -i go to 20 end if ilo = ilo + lchar go to 10 end if 20 continue return end subroutine s_word_count ( s, nword ) c*********************************************************************72 c cc S_WORD_COUNT counts the number of "words" in a string. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 28 April 2008 c c Author: c c John Burkardt c c Parameters: c c Input, character * ( * ) S, the string to be examined. c c Output, integer NWORD, the number of "words" in the string. c Words are presumed to be separated by one or more blanks. c implicit none logical blank integer i integer lens integer nword character * ( * ) s nword = 0 lens = len ( s ) if ( lens .le. 0 ) then return end if blank = .true. do i = 1, lens if ( s(i:i) .eq. ' ' ) then blank = .true. else if ( blank ) then nword = nword + 1 blank = .false. end if end do return end subroutine timestamp ( ) c*********************************************************************72 c cc TIMESTAMP prints out the current YMDHMS date as a timestamp. c c Discussion: c c This FORTRAN77 version is made available for cases where the c FORTRAN90 version cannot be used. c c Licensing: c c This code is distributed under the MIT license. c c Modified: c c 12 January 2007 c c Author: c c John Burkardt c c Parameters: c c None c implicit none character * ( 8 ) ampm integer d character * ( 8 ) date integer h integer m integer mm character * ( 9 ) month(12) integer n integer s character * ( 10 ) time integer y save month data month / & 'January ', 'February ', 'March ', 'April ', & 'May ', 'June ', 'July ', 'August ', & 'September', 'October ', 'November ', 'December ' / call date_and_time ( date, time ) read ( date, '(i4,i2,i2)' ) y, m, d read ( time, '(i2,i2,i2,1x,i3)' ) h, n, s, mm if ( h .lt. 12 ) then ampm = 'AM' else if ( h .eq. 12 ) then if ( n .eq. 0 .and. s .eq. 0 ) then ampm = 'Noon' else ampm = 'PM' end if else h = h - 12 if ( h .lt. 12 ) then ampm = 'PM' else if ( h .eq. 12 ) then if ( n .eq. 0 .and. s .eq. 0 ) then ampm = 'Midnight' else ampm = 'AM' end if end if end if write ( *, & '(i2,1x,a,1x,i4,2x,i2,a1,i2.2,a1,i2.2,a1,i3.3,1x,a)' ) & d, month(m), y, h, ':', n, ':', s, '.', mm, ampm return end