!---------------------------------------------------------------------------------------------------- !> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH !> @author Sharan Roongta, Max-Planck-Institut für Eisenforschung GmbH !> @brief Parser for YAML files !> @details module converts a YAML input file to an equivalent YAML flow style which is then parsed. !---------------------------------------------------------------------------------------------------- module YAML_parse use prec use IO use YAML_types implicit none private public :: & YAML_parse_init, & YAML_parse_file contains !-------------------------------------------------------------------------------------------------- !> @brief Do sanity checks. !-------------------------------------------------------------------------------------------------- subroutine YAML_parse_init call selfTest end subroutine YAML_parse_init !-------------------------------------------------------------------------------------------------- !> @brief Parse a YAML file into a a structure of nodes. !-------------------------------------------------------------------------------------------------- function YAML_parse_file(fname) result(node) character(len=*), intent(in) :: fname class (tNode), pointer :: node node => parse_flow(to_flow(IO_read(fname))) end function YAML_parse_file !-------------------------------------------------------------------------------------------------- !> @brief reads the flow style string and stores it in the form of dictionaries, lists and scalars. !> @details A node type pointer can either point to a dictionary, list or scalar type entities. !-------------------------------------------------------------------------------------------------- recursive function parse_flow(YAML_flow) result(node) character(len=*), intent(in) :: YAML_flow !< YAML file in flow style class (tNode), pointer :: node class (tNode), pointer :: & myVal character(len=:), allocatable :: & flow_string, & key integer :: & e, & ! end position of dictionary or list s, & ! start position of dictionary or list d ! position of key: value separator (':') flow_string = trim(adjustl(YAML_flow(:))) if (len_trim(flow_string) == 0) then node => emptyDict return elseif (flow_string(1:1) == '{') then ! start of a dictionary e = 1 allocate(tDict::node) do while (e < len_trim(flow_string)) s = e d = s + scan(flow_string(s+1:),':') e = d + find_end(flow_string(d+1:),'}') key = trim(adjustl(flow_string(s+1:d-1))) myVal => parse_flow(flow_string(d+1:e-1)) ! parse items (recursively) select type (node) class is (tDict) call node%set(key,myVal) end select end do elseif (flow_string(1:1) == '[') then ! start of a list e = 1 allocate(tList::node) do while (e < len_trim(flow_string)) s = e e = s + find_end(flow_string(s+1:),']') myVal => parse_flow(flow_string(s+1:e-1)) ! parse items (recursively) select type (node) class is (tList) call node%append(myVal) end select end do else ! scalar value allocate(tScalar::node) select type (node) class is (tScalar) node = trim(adjustl(flow_string)) end select endif end function parse_flow !-------------------------------------------------------------------------------------------------- !> @brief finds location of chunk end: ',' or '}' or ']' !> @details leaves nested lists ( '[...]' and dicts '{...}') intact !-------------------------------------------------------------------------------------------------- integer function find_end(str,e_char) character(len=*), intent(in) :: str !< chunk of YAML flow string character, intent(in) :: e_char !< end of list/dict ( '}' or ']') integer :: N_sq, & !< number of open square brackets N_cu, & !< number of open curly brackets i N_sq = 0 N_cu = 0 do i = 1, len_trim(str) if (N_sq==0 .and. N_cu==0 .and. scan(str(i:i),e_char//',') == 1) exit N_sq = N_sq + merge(1,0,str(i:i) == '[') N_cu = N_cu + merge(1,0,str(i:i) == '{') N_sq = N_sq - merge(1,0,str(i:i) == ']') N_cu = N_cu - merge(1,0,str(i:i) == '}') enddo find_end = i end function find_end !-------------------------------------------------------------------------------------------------- ! @brief Returns Indentation. ! @details It determines the indentation level for a given block/line. ! In cases for nested lists, an offset is added to determine the indent of the item block (skip ! leading dashes) !-------------------------------------------------------------------------------------------------- integer function indentDepth(line,offset) character(len=*), intent(in) :: line integer, optional,intent(in) :: offset indentDepth = verify(line,IO_WHITESPACE) -1 if(present(offset)) indentDepth = indentDepth + offset end function indentDepth !-------------------------------------------------------------------------------------------------- ! @brief check whether a string is in flow style, i.e. starts with '{' or '[' !-------------------------------------------------------------------------------------------------- logical function isFlow(line) character(len=*), intent(in) :: line isFlow = index(adjustl(line),'[') == 1 .or. index(adjustl(line),'{') == 1 end function isFlow !-------------------------------------------------------------------------------------------------- ! @brief check whether a string is a scalar item, i.e. starts without any special symbols !-------------------------------------------------------------------------------------------------- logical function isScalar(line) character(len=*), intent(in) :: line isScalar = (.not.isKeyValue(line) .and. .not.isKey(line) .and. .not.isListItem(line) & .and. .not.isFlow(line)) end function isScalar !-------------------------------------------------------------------------------------------------- ! @brief check whether a string is a list item, i.e. starts with '-' !-------------------------------------------------------------------------------------------------- logical function isListItem(line) character(len=*), intent(in) :: line isListItem = .false. if(len_trim(adjustl(line))> 2 .and. index(trim(adjustl(line)), '-') == 1) then isListItem = scan(trim(adjustl(line)),' ') == 2 else isListItem = trim(adjustl(line)) == '-' endif end function isListItem !-------------------------------------------------------------------------------------------------- ! @brief check whether a string contains a key value pair of the for ': ' !-------------------------------------------------------------------------------------------------- logical function isKeyValue(line) character(len=*), intent(in) :: line isKeyValue = .false. if( .not. isKey(line) .and. index(IO_rmComment(line),':') > 0 .and. .not. isFlow(line)) then if(index(IO_rmComment(line),': ') > 0) then isKeyValue = .true. else call IO_error(704,ext_msg=line) endif endif end function isKeyValue !-------------------------------------------------------------------------------------------------- ! @brief check whether a string contains a key without a value, i.e. it ends with ':' ! ToDo: check whether this is safe for trailing spaces followed by a new line character !-------------------------------------------------------------------------------------------------- logical function isKey(line) character(len=*), intent(in) :: line if(len(IO_rmComment(line)) == 0) then isKey = .false. else isKey = IO_rmComment(line(len(IO_rmComment(line)):len(IO_rmComment(line)))) == ':' & .and. .not. isFlow(line) isKey = isKey .and. index(IO_rmComment(line),':') == index(IO_rmComment(line),':',back =.true.) endif end function isKey !-------------------------------------------------------------------------------------------------- ! @brief check whether a string is a list in flow style !-------------------------------------------------------------------------------------------------- logical function isFlowList(line) character(len=*), intent(in) :: line isFlowList = index(adjustl(line),'[') == 1 end function isFlowList !-------------------------------------------------------------------------------------------------- ! @brief skip empty lines ! @details update start position in the block by skipping empty lines if present. !-------------------------------------------------------------------------------------------------- subroutine skip_empty_lines(blck,s_blck) character(len=*), intent(in) :: blck integer, intent(inout) :: s_blck logical :: empty empty = .true. do while(empty .and. len_trim(blck(s_blck:)) /= 0) empty = len_trim(IO_rmComment(blck(s_blck:s_blck + index(blck(s_blck:),IO_EOL) - 2))) == 0 if(empty) s_blck = s_blck + index(blck(s_blck:),IO_EOL) enddo end subroutine skip_empty_lines !-------------------------------------------------------------------------------------------------- ! @brief skip file header ! @details update start position in the block by skipping file header if present. !-------------------------------------------------------------------------------------------------- subroutine skip_file_header(blck,s_blck) character(len=*), intent(in) :: blck integer, intent(inout) :: s_blck character(len=:), allocatable :: line line = IO_rmComment(blck(s_blck:s_blck + index(blck(s_blck:),IO_EOL) - 2)) if(index(adjustl(line),'%YAML') == 1) then s_blck = s_blck + index(blck(s_blck:),IO_EOL) call skip_empty_lines(blck,s_blck) if(trim(IO_rmComment(blck(s_blck:s_blck + index(blck(s_blck:),IO_EOL) - 2))) == '---') then s_blck = s_blck + index(blck(s_blck:),IO_EOL) else call IO_error(708,ext_msg = line) endif endif end subroutine skip_file_header !-------------------------------------------------------------------------------------------------- !> @brief check if a line in flow YAML starts and ends in the same line !-------------------------------------------------------------------------------------------------- logical function flow_is_closed(str,e_char) character(len=*), intent(in) :: str character, intent(in) :: e_char !< end of list/dict ( '}' or ']') integer :: N_sq, & !< number of open square brackets N_cu, & !< number of open curly brackets i character(len=:), allocatable:: line flow_is_closed = .false. N_sq = 0 N_cu = 0 if(e_char == ']') line = str(index(str(:),'[')+1:) if(e_char == '}') line = str(index(str(:),'{')+1:) do i = 1, len_trim(line) flow_is_closed = (N_sq==0 .and. N_cu==0 .and. scan(line(i:i),e_char) == 1) N_sq = N_sq + merge(1,0,line(i:i) == '[') N_cu = N_cu + merge(1,0,line(i:i) == '{') N_sq = N_sq - merge(1,0,line(i:i) == ']') N_cu = N_cu - merge(1,0,line(i:i) == '}') enddo end function flow_is_closed !-------------------------------------------------------------------------------------------------- !> @brief return the flow YAML line without line break !-------------------------------------------------------------------------------------------------- subroutine remove_line_break(blck,s_blck,e_char,flow_line) character(len=*), intent(in) :: blck !< YAML in mixed style integer, intent(inout) :: s_blck character, intent(in) :: e_char !< end of list/dict ( '}' or ']') character(len=:), allocatable, intent(out) :: flow_line logical :: line_end line_end =.false. flow_line = '' do while(.not.line_end) flow_line = flow_line//IO_rmComment(blck(s_blck:s_blck + index(blck(s_blck:),IO_EOL) - 2))//' ' line_end = flow_is_closed(flow_line,e_char) s_blck = s_blck + index(blck(s_blck:),IO_EOL) enddo end subroutine remove_line_break !-------------------------------------------------------------------------------------------------- ! @brief reads a line of YAML block which is already in flow style ! @details Dicts should be enlcosed within '{}' for it to be consistent with DAMASK YAML parser !-------------------------------------------------------------------------------------------------- recursive subroutine line_isFlow(flow,s_flow,line) character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_flow !< start position in flow character(len=*), intent(in) :: line integer :: & s, & list_chunk, & dict_chunk if(index(adjustl(line),'[') == 1) then s = index(line,'[') flow(s_flow:s_flow) = '[' s_flow = s_flow +1 do while(s < len_trim(line)) list_chunk = s + find_end(line(s+1:),']') if(iskeyValue(line(s+1:list_chunk-1))) then flow(s_flow:s_flow) = '{' s_flow = s_flow +1 call keyValue_toFlow(flow,s_flow,line(s+1:list_chunk-1)) flow(s_flow:s_flow) = '}' s_flow = s_flow +1 elseif(isFlow(line(s+1:list_chunk-1))) then call line_isFlow(flow,s_flow,line(s+1:list_chunk-1)) else call line_toFlow(flow,s_flow,line(s+1:list_chunk-1)) endif flow(s_flow:s_flow+1) = ', ' s_flow = s_flow +2 s = s + find_end(line(s+1:),']') enddo s_flow = s_flow - 1 if (flow(s_flow-1:s_flow-1) == ',') s_flow = s_flow - 1 flow(s_flow:s_flow) = ']' s_flow = s_flow+1 elseif(index(adjustl(line),'{') == 1) then s = index(line,'{') flow(s_flow:s_flow) = '{' s_flow = s_flow +1 do while(s < len_trim(line)) dict_chunk = s + find_end(line(s+1:),'}') if( .not. iskeyValue(line(s+1:dict_chunk-1))) call IO_error(705,ext_msg=line) call keyValue_toFlow(flow,s_flow,line(s+1:dict_chunk-1)) flow(s_flow:s_flow+1) = ', ' s_flow = s_flow +2 s = s + find_end(line(s+1:),'}') enddo s_flow = s_flow -1 if(flow(s_flow-1:s_flow-1) == ',') s_flow = s_flow -1 flow(s_flow:s_flow) = '}' s_flow = s_flow +1 else call line_toFlow(flow,s_flow,line) endif end subroutine line_isFlow !------------------------------------------------------------------------------------------------- ! @brief reads a line of YAML block of type : and places it in the YAML flow style structure ! @details Makes sure that the is consistent with the input required in DAMASK YAML parser !------------------------------------------------------------------------------------------------- recursive subroutine keyValue_toFlow(flow,s_flow,line) character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_flow !< start position in flow character(len=*), intent(in) :: line character(len=:), allocatable :: line_asStandard ! standard form of : integer :: & d_flow, & col_pos, & offset_value col_pos = index(line,':') if(isFlow(line(col_pos+1:))) then d_flow = len_trim(adjustl(line(:col_pos))) flow(s_flow:s_flow+d_flow+1) = trim(adjustl(line(:col_pos)))//' ' s_flow = s_flow + d_flow+1 call line_isFlow(flow,s_flow,line(col_pos+1:)) else offset_value = indentDepth(line(col_pos+2:)) line_asStandard = line(:col_pos+1)//line(col_pos+2+offset_value:) call line_toFlow(flow,s_flow,line_asStandard) endif end subroutine keyValue_toFlow !------------------------------------------------------------------------------------------------- ! @brief reads a line of YAML block and places it in the YAML flow style structure !------------------------------------------------------------------------------------------------- subroutine line_toFlow(flow,s_flow,line) character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_flow !< start position in flow character(len=*), intent(in) :: line integer :: & d_flow d_flow = len_trim(adjustl(line)) flow(s_flow:s_flow+d_flow) = trim(adjustl(line)) s_flow = s_flow + d_flow end subroutine line_toFlow !------------------------------------------------------------------------------------------------- ! @brief convert a yaml list in block style to a yaml list in flow style ! @details enters the function when encountered with the list indicator '- ' ! reads each scalar list item and separates each other with a ',' ! If list item is non scalar, it stores the offset for that list item block ! Increase in the indentation level or when list item is not scalar -> 'decide' function is called. ! decrease in indentation level indicates the end of an indentation block !------------------------------------------------------------------------------------------------- recursive subroutine lst(blck,flow,s_blck,s_flow,offset) character(len=*), intent(in) :: blck !< YAML in mixed style character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_blck, & !< start position in blck s_flow, & !< start position in flow offset !< stores leading '- ' in nested lists character(len=:), allocatable :: line,flow_line integer :: e_blck,indent indent = indentDepth(blck(s_blck:),offset) do while (s_blck <= len_trim(blck)) e_blck = s_blck + index(blck(s_blck:),IO_EOL) - 2 line = IO_rmComment(blck(s_blck:e_blck)) if(trim(line) == '---' .or. trim(line) == '...') then exit elseif (len_trim(line) == 0) then s_blck = e_blck + 2 ! forward to next line cycle elseif(indentDepth(line,offset) > indent) then call decide(blck,flow,s_blck,s_flow,offset) offset = 0 flow(s_flow:s_flow+1) = ', ' s_flow = s_flow + 2 elseif(indentDepth(line,offset) < indent .or. .not. isListItem(line)) then offset = 0 exit ! job done (lower level) else if(trim(adjustl(line)) == '-') then ! list item in next line s_blck = e_blck + 2 call skip_empty_lines(blck,s_blck) e_blck = s_blck + index(blck(s_blck:),IO_EOL) - 2 line = IO_rmComment(blck(s_blck:e_blck)) if(trim(line) == '---') call IO_error(707,ext_msg=line) if(indentDepth(line) < indent .or. indentDepth(line) == indent) & call IO_error(701,ext_msg=line) if(isScalar(line)) then call line_toFlow(flow,s_flow,line) s_blck = e_blck +2 offset = 0 elseif(isFlow(line)) then if(isFlowList(line)) then call remove_line_break(blck,s_blck,']',flow_line) else call remove_line_break(blck,s_blck,'}',flow_line) endif call line_isFlow(flow,s_flow,flow_line) offset = 0 endif else ! list item in the same line line = line(indentDepth(line)+3:) if(isScalar(line)) then call line_toFlow(flow,s_flow,line) s_blck = e_blck +2 offset = 0 elseif(isFlow(line)) then s_blck = s_blck + index(blck(s_blck:),'-') if(isFlowList(line)) then call remove_line_break(blck,s_blck,']',flow_line) else call remove_line_break(blck,s_blck,'}',flow_line) endif call line_isFlow(flow,s_flow,flow_line) offset = 0 else ! non scalar list item offset = offset + indentDepth(blck(s_blck:))+1 ! offset in spaces to be ignored s_blck = s_blck + index(blck(s_blck:e_blck),'-') ! s_blck after '-' symbol endif end if end if if(isScalar(line) .or. isFlow(line)) then flow(s_flow:s_flow+1) = ', ' s_flow = s_flow + 2 endif end do s_flow = s_flow - 1 if (flow(s_flow-1:s_flow-1) == ',') s_flow = s_flow - 1 end subroutine lst !-------------------------------------------------------------------------------------------------- ! @brief convert a yaml dict in block style to a yaml dict in flow style ! @details enters the function when encountered with the dictionary indicator ':' ! parses each line in the block and compares indentation of a line with the preceding line ! upon increase in indentation level -> 'decide' function decides if the line is a list or dict ! decrease in indentation indicates the end of an indentation block !-------------------------------------------------------------------------------------------------- recursive subroutine dct(blck,flow,s_blck,s_flow,offset) character(len=*), intent(in) :: blck !< YAML in mixed style character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_blck, & !< start position in blck s_flow, & !< start position in flow offset character(len=:), allocatable :: line,flow_line integer :: e_blck,indent,col_pos logical :: previous_isKey previous_isKey = .false. indent = indentDepth(blck(s_blck:),offset) do while (s_blck <= len_trim(blck)) e_blck = s_blck + index(blck(s_blck:),IO_EOL) - 2 line = IO_rmComment(blck(s_blck:e_blck)) if(trim(line) == '---' .or. trim(line) == '...') then exit elseif (len_trim(line) == 0) then s_blck = e_blck + 2 ! forward to next line cycle elseif(indentDepth(line,offset) < indent) then if(isScalar(line) .or. isFlow(line) .and. previous_isKey) & call IO_error(701,ext_msg=line) offset = 0 exit ! job done (lower level) elseif(indentDepth(line,offset) > indent .or. isListItem(line)) then offset = 0 call decide(blck,flow,s_blck,s_flow,offset) else if(isScalar(line)) call IO_error(701,ext_msg=line) if(isFlow(line)) call IO_error(702,ext_msg=line) line = line(indentDepth(line)+1:) if(previous_isKey) then flow(s_flow-1:s_flow) = ', ' s_flow = s_flow + 1 endif if(isKeyValue(line)) then col_pos = index(line,':') if(isFlow(line(col_pos+1:))) then if(isFlowList(line(col_pos+1:))) then call remove_line_break(blck,s_blck,']',flow_line) else call remove_line_break(blck,s_blck,'}',flow_line) endif call keyValue_toFlow(flow,s_flow,flow_line) else call keyValue_toFlow(flow,s_flow,line) s_blck = e_blck + 2 endif else call line_toFlow(flow,s_flow,line) s_blck = e_blck + 2 endif end if if(isScalar(line) .or. isKeyValue(line)) then flow(s_flow:s_flow) = ',' s_flow = s_flow + 1 previous_isKey = .false. else previous_isKey = .true. endif flow(s_flow:s_flow) = ' ' s_flow = s_flow + 1 offset = 0 end do s_flow = s_flow - 1 if (flow(s_flow-1:s_flow-1) == ',') s_flow = s_flow - 1 end subroutine dct !-------------------------------------------------------------------------------------------------- ! @brief decide whether next block is list or dict !-------------------------------------------------------------------------------------------------- recursive subroutine decide(blck,flow,s_blck,s_flow,offset) character(len=*), intent(in) :: blck !< YAML in mixed style character(len=*), intent(inout) :: flow !< YAML in flow style only integer, intent(inout) :: s_blck, & !< start position in blck s_flow, & !< start position in flow offset integer :: e_blck character(len=:), allocatable :: line,flow_line if(s_blck <= len(blck)) then call skip_empty_lines(blck,s_blck) e_blck = s_blck + index(blck(s_blck:),IO_EOL) - 2 line = IO_rmComment(blck(s_blck:e_blck)) if(trim(line) == '---' .or. trim(line) == '...') then continue ! end parsing at this point but not stop the simulation elseif(len_trim(line) == 0) then s_blck = e_blck +2 call decide(blck,flow,s_blck,s_flow,offset) elseif (isListItem(line)) then flow(s_flow:s_flow) = '[' s_flow = s_flow + 1 call lst(blck,flow,s_blck,s_flow,offset) flow(s_flow:s_flow) = ']' s_flow = s_flow + 1 elseif(isKey(line) .or. isKeyValue(line)) then flow(s_flow:s_flow) = '{' s_flow = s_flow + 1 call dct(blck,flow,s_blck,s_flow,offset) flow(s_flow:s_flow) = '}' s_flow = s_flow + 1 elseif(isFlow(line)) then if(isFlowList(line)) then call remove_line_break(blck,s_blck,']',flow_line) else call remove_line_break(blck,s_blck,'}',flow_line) endif call line_isFlow(flow,s_flow,line) else line = line(indentDepth(line)+1:) call line_toFlow(flow,s_flow,line) s_blck = e_blck +2 endif endif end subroutine !-------------------------------------------------------------------------------------------------- ! @brief convert all block style YAML parts to flow style !-------------------------------------------------------------------------------------------------- function to_flow(blck) character(len=:), allocatable :: to_flow character(len=*), intent(in) :: blck !< YAML mixed style character(len=:), allocatable :: line integer :: s_blck, & !< start position in blck s_flow, & !< start position in flow offset, & !< counts leading '- ' in nested lists end_line allocate(character(len=len(blck)*2)::to_flow) s_flow = 1 s_blck = 1 offset = 0 if(len_trim(blck) /= 0) then call skip_empty_lines(blck,s_blck) call skip_file_header(blck,s_blck) line = IO_rmComment(blck(s_blck:s_blck + index(blck(s_blck:),IO_EOL) - 2)) if(trim(line) == '---') s_blck = s_blck + index(blck(s_blck:),IO_EOL) call decide(blck,to_flow,s_blck,s_flow,offset) endif line = IO_rmComment(blck(s_blck:s_blck+index(blck(s_blck:),IO_EOL)-2)) if(trim(line)== '---') call IO_warning(709,ext_msg=line) to_flow = trim(to_flow(:s_flow-1)) end_line = index(to_flow,IO_EOL) if(end_line > 0) to_flow = to_flow(:end_line-1) end function to_flow !-------------------------------------------------------------------------------------------------- !> @brief Check correctness of some YAML functions. !-------------------------------------------------------------------------------------------------- subroutine selfTest if (indentDepth(' a') /= 1) error stop 'indentDepth' if (indentDepth('a') /= 0) error stop 'indentDepth' if (indentDepth('x ') /= 0) error stop 'indentDepth' if ( isFlow(' a')) error stop 'isFLow' if (.not. isFlow('{')) error stop 'isFlow' if (.not. isFlow(' [')) error stop 'isFlow' if ( isListItem(' a')) error stop 'isListItem' if ( isListItem(' -b')) error stop 'isListItem' if (.not. isListItem('- a ')) error stop 'isListItem' if (.not. isListItem('- -a ')) error stop 'isListItem' if ( isKeyValue(' a')) error stop 'isKeyValue' if ( isKeyValue(' a: ')) error stop 'isKeyValue' if (.not. isKeyValue(' a: b')) error stop 'isKeyValue' if ( isKey(' a')) error stop 'isKey' if ( isKey('{a:b}')) error stop 'isKey' if ( isKey(' a:b')) error stop 'isKey' if (.not. isKey(' a: ')) error stop 'isKey' if (.not. isKey(' a:')) error stop 'isKey' if (.not. isKey(' a: #')) error stop 'isKey' if( isScalar('a: ')) error stop 'isScalar' if( isScalar('a: b')) error stop 'isScalar' if( isScalar('{a:b}')) error stop 'isScalar' if( isScalar('- a:')) error stop 'isScalar' if(.not. isScalar(' a')) error stop 'isScalar' basic_list: block character(len=*), parameter :: block_list = & " - Casablanca"//IO_EOL//& " - North by Northwest"//IO_EOL character(len=*), parameter :: block_list_newline = & " -"//IO_EOL//& " Casablanca"//IO_EOL//& " -"//IO_EOL//& " North by Northwest"//IO_EOL character(len=*), parameter :: flow_list = & "[Casablanca, North by Northwest]" if (.not. to_flow(block_list) == flow_list) error stop 'to_flow' if (.not. to_flow(block_list_newline) == flow_list) error stop 'to_flow' end block basic_list basic_dict: block character(len=*), parameter :: block_dict = & " aa: Casablanca"//IO_EOL//& " bb: North by Northwest"//IO_EOL character(len=*), parameter :: block_dict_newline = & " aa:"//IO_EOL//& " Casablanca"//IO_EOL//& " bb:"//IO_EOL//& " North by Northwest"//IO_EOL character(len=*), parameter :: flow_dict = & "{aa: Casablanca, bb: North by Northwest}" if (.not. to_flow(block_dict) == flow_dict) error stop 'to_flow' if (.not. to_flow(block_dict_newline) == flow_dict) error stop 'to_flow' end block basic_dict only_flow: block character(len=*), parameter :: flow_dict = & " {a: [b,c: {d: e}, f: g, e]}"//IO_EOL character(len=*), parameter :: flow_list = & " [a,b: c, d,e: {f: g}]"//IO_EOL character(len=*), parameter :: flow_1 = & "{a: [b, {c: {d: e}}, {f: g}, e]}" character(len=*), parameter :: flow_2 = & "[a, {b: c}, d, {e: {f: g}}]" if (.not. to_flow(flow_dict) == flow_1) error stop 'to_flow' if (.not. to_flow(flow_list) == flow_2) error stop 'to_flow' end block only_flow basic_flow: block character(len=*), parameter :: flow_braces = & " source: [{param: 1}, {param: 2}, {param: 3}, {param: 4}]"//IO_EOL character(len=*), parameter :: flow_mixed_braces = & " source: [param: 1, {param: 2}, param: 3, {param: 4}]"//IO_EOL character(len=*), parameter :: flow = & "{source: [{param: 1}, {param: 2}, {param: 3}, {param: 4}]}" if (.not. to_flow(flow_braces) == flow) error stop 'to_flow' if (.not. to_flow(flow_mixed_braces) == flow) error stop 'to_flow' end block basic_flow multi_line_flow1: block character(len=*), parameter :: flow_multi = & "%YAML 1.1"//IO_EOL//& "---"//IO_EOL//& "a: [b,"//IO_EOL//& "c: "//IO_EOL//& "d, e]"//IO_EOL character(len=*), parameter :: flow = & "{a: [b, {c: d}, e]}" if( .not. to_flow(flow_multi) == flow) error stop 'to_flow' end block multi_line_flow1 multi_line_flow2: block character(len=*), parameter :: flow_multi = & "%YAML 1.1"//IO_EOL//& "---"//IO_EOL//& "-"//IO_EOL//& " a: {b:"//IO_EOL//& "[c,"//IO_EOL//& "d"//IO_EOL//& "e, f]}"//IO_EOL character(len=*), parameter :: flow = & "[{a: {b: [c, d e, f]}}]" if( .not. to_flow(flow_multi) == flow) error stop 'to_flow' end block multi_line_flow2 basic_mixed: block character(len=*), parameter :: block_flow = & "%YAML 1.1"//IO_EOL//& " "//IO_EOL//& " "//IO_EOL//& "---"//IO_EOL//& " aa:"//IO_EOL//& " - "//IO_EOL//& " "//IO_EOL//& " "//IO_EOL//& " param_1: [a: b, c, {d: {e: [f: g, h]}}]"//IO_EOL//& " - c: d"//IO_EOL//& " bb:"//IO_EOL//& " "//IO_EOL//& " - "//IO_EOL//& " {param_1: [{a: b}, c, {d: {e: [{f: g}, h]}}]}"//IO_EOL//& "..."//IO_EOL character(len=*), parameter :: mixed_flow = & "{aa: [{param_1: [{a: b}, c, {d: {e: [{f: g}, h]}}]}, {c: d}], bb: [{param_1: [{a: b}, c, {d: {e: [{f: g}, h]}}]}]}" if(.not. to_flow(block_flow) == mixed_flow) error stop 'to_flow' end block basic_mixed end subroutine selfTest end module YAML_parse