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208 lines
6.7 KiB
Perl
208 lines
6.7 KiB
Perl
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% Prolog
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%
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% Shortcut generator v1.0
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%
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% This program is known to work with SWI-Prolog version 2.9.5, which you
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% can find at
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%
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% http://www.swi.psy.uva.nl/usr/jan/SWI-Prolog.html
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%
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% Purpose: to generate shortcuts for labels in menus and dialogs that are
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% guaranteed to be unique within a set of labels. The shortcuts are
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% generated in a prioritized manner, such that characters at the beginning
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% of words are preferred to characters in the middle of words.
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%
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% You might find this progam useful if you are translating LyX.
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%
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% Don't use this file in the development/tools-directory; copy it
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% somewhere out of the LyX-distribution tree, unless you're improving
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% the tool itself. The input is to be hard-coded into the file and that
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% may cause unnecessary garbage to appear in any patch you're putting
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% together.
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%
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% The labels are supposed to be entered at "LABELS" below,
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% and you get one solution (hopefully) with "go.".
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% If there are no solutions, the Prolog-interpretator will reply with a
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% "No."
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%
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% You can get all candidate solutions with "all.", but this requires
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% lots of memory.
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%
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% You can inspect the correspondance between the original strings and
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% the prioritized ones with "inspect.".
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%
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% I have no idea what the big O for the algorithm is, but I suspect it's
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% rather steep.
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% Asger speculates that the algorithm is O(n^m), where n is the cardinality
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% of the candidate sets, while m is the number of sets. Since we do an
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% exhausitive search, this has to be the case.
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% Predicates:
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% print out one solution, i.e. a set of label/shortcut's
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% writef/2 may be specific for SWI-prolog
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show_one_alternative([]).
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show_one_alternative([L/_/C|Rest]):-
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writef('%s|#%n\n',[L,C]),
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show_one_alternative(Rest).
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% printout predicate for "all."
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show_solutions([]).
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show_solutions([H|T]):-
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write('-----------\n'),
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show_one_alternative(H),
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show_solutions(T).
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% print out correspondance between original strings and prioritized ones.
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show_priority([]).
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show_priority([L/P/_|Rest]):-
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writef('%s|%n\n',[L,P]),
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show_priority(Rest).
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% character is from a set of allowed characters.
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% "AZaz09"=[65, 90, 97, 122, 48, 57]
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allowed_char(C):-
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C >= 97, C =< 122. % a-z
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allowed_char(C):-
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C >= 65, C =< 90. % A-Z
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allowed_char(C):-
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C >= 48, C =< 57. % 0-9
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% turn lowercase to uppercase; alt-<key> is case insensitive
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uppercase(L,U):-
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(L >= 97, L =< 122) -> U is L - 32;
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U is L.
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% possible_char/2: Gets all characters in label, one after one.
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possible_char(_/Label,Char):-
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member(Char,Label). % the character is part of the label
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% prepare_labels/2: Prepares all labels. Constructs a new list of pairs
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% where the original string is coupled with the prepared string.
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prepare_labels([], []).
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prepare_labels([H1|T1], [H1/H2|T2]):-
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prepare_string(H1, H2),
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prepare_labels(T1, T2).
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% prepare_string/2: Prepares a string by removing duplicate characters,
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% prioritizing initials letters, removing illegal characters and turning
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% lowercase to uppercase characters.
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prepare_string(Label,Result):-
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string_to_list(Label,List1), % make a list of the string
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prioritize(List1, List2), % Prioritize string
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filter_chars(List2, List3), % Filter out unwanted chars
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unique(List3, Result). % Remove duplicates
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% prioritize/2: This predicate rearranges a list, such that
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% chars at the beginning of words are put first in the list.
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% i.e. prioritize("Foo bar", "Fboo ar")" is true.
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prioritize(L1,L2):-
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initial_chars(L1, I), % Find all initial characters
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subtract(L1, I, Rest), % and the others
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append(I, Rest, L2). % and we have the result.
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% initial_chars/2: Returns a list of characters that appear at the beginning
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% of words. i.e. initial_chars("Foo bar", "Fb") is true.
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initial_chars([],[]).
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initial_chars([A|T1], [A|T3]):-
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rest_after_space(T1, T2), % Return rest of list after space
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initial_chars(T2, T3).
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% rest_after_space/2: Returns the list after the first space.
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% i.e. "rest_after_space("Foo bar", "bar") is true.
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rest_after_space([], []).
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rest_after_space([32, H1|T1], [H1|T1]):- !.
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rest_after_space([_|T1], T2):-
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rest_after_space(T1, T2).
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% filterchars/2: Filter outs non-allowed characters from list, and turns
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% lowercase to uppercase.
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filter_chars([], []).
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filter_chars([H|T1], [C|T2]):-
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allowed_char(H), !, uppercase(H, C),
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filter_chars(T1, T2).
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filter_chars([_|T1], T2):-
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filter_chars(T1, T2).
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% unique/2: This predicate removes duplicate characters without reordering.
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% i.e. unique("Foo bar", "Fo bar") is true.
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unique([], []).
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unique([H|T1], [H|T3]):-
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delete(T1, H, T2), % Remove duplicates.
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unique(T2,T3).
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% working_shortcuts/2 instantiates Char in the first argument for a whole
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% menu/dialog.
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working_shortcuts([],_). % end of the list
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working_shortcuts([Label/Char|Rest],Used):-
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possible_char(Label,Char), % i.e. part of the label string
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\+member(Char,Used), % not used by any other shortcut
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working_shortcuts(Rest,[Char|Used]). % and all the other labels have
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% shortcuts
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% The prolog motor will backtrack up and down the list of labels
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% until it finds a set with unique characters for each label
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% Label strings goes here.
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% Just cut&paste the strings from the LyX-source, and remove any
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% control sequences for menus. We could add a couple of predicates to scan
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% a file, but re-consulting this file takes only a fraction of a second
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% so I didn't bother to add a fancy user interface here. The solution is
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% printed like <label> '|#' <key>, allthough this isn't nessecarily useful,
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% for menus for instance.
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%
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% The characters are picked with priority from left to right within
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% strings, and the labels are listed in falling priority.
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% If you want a certain label to have a certain shortcut, try adding that
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% character in front of the string (like 'Exit' -> 'xExit') and move it
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% higher up in the list.
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% If this doesn't work, replace the string with only that character
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% ('Exit' -> 'x'). If you get a "No." then, you lose.
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% Use "inspect." to inspect the resulting priotized strings.
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% LABELS
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lab(Labels):-
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Strings = [
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"New...",
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"New from template...",
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"Open...",
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"Close",
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"Save",
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"Save As...",
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"Revert to saved",
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"View dvi",
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"View PostScript",
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"Update dvi",
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"Update PostScript",
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"Print...",
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"Fax...",
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"Export",
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"Exit"
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% NB, no comma on the last one. Easy to forget.
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],
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prepare_labels(Strings, Str),
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bagof(L/_,member(L,Str),Labels).
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% Inspect mapping between original string and prioritized ones.
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inspect:-
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lab(Labels),
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show_priority(Labels).
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% Find ALL solutions (they are often legion - don't bother ;)
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all:- % May (probably, on large dialogs) run out on memory.
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lab(Labels),
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setof(Labels,working_shortcuts(Labels,[]),Solutions),
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show_solutions(Solutions).
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% Find one solution
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one:-
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lab(Labels),
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working_shortcuts(Labels,[]),
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show_one_alternative(Labels).
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% Entry point.
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go:-
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one.
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