%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% %% FILE: $RCSfile: 88591sca.csf,v $ %% $Revision: 1.1 $ %% $Date: 1996/08/04 20:48:52 $ %% %% CHARACTER SET: ISO 8859-1 %% %% ISO 8859-1 is the system character set used by Unix/X Windows and %% MS Windows. %% %% SORTING ORDER: Scandinavean countries %% %% The sorting order defined is a compromise between Norwegian/Danish %% and Swedish. %% %% WARNING %% %% This is a BibTeX Codepage and Sort definition file (CSF). It is %% used to define the 8-bit character set used by BibTeX and the %% order in which those characters should be sorted. The file %% format is documented below this header section. %% %% This file will only work with the 8-bit implementation of BibTeX %% written by Niel Kempson and Alejandro Aguilar-Sierra. It is %% available by anonymous FTP from these Comprehensive TeX Archive %% Network (CTAN) sites: %% %% ftp.tex.ac.uk:/tex-archive/biblio/bibtex/8-bit %% ftp.shsu.edu:/tex-archive/biblio/bibtex/8-bit %% ftp.uni-stuttgart.de:/tex-archive/biblio/bibtex/8-bit %% %% CHANGE LOG %% %% $Log: 88591sca.csf,v $ %% Revision 1.1 1996/08/04 20:48:52 kempson %% Added missing sort entries for 0..9 %% %% Revision 1.0 1995/10/21 22:10:29 kempson %% Placed under RCS control %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% %% FILE FORMAT %% %% The codepage and sorting order (CS) file defines how BibTeX will treat an %% 8-bit character set, specifically which characters are to be treated as %% letters, the upper/lower case relationships between characters, and the %% sorting order of characters. %% %% The CS file may contain a number of sections, each presented in the %% form of a TeX macro: %% %% \section-name{ %%
%% } %% %% Four sections are currently supported: \lowupcase, \lowercase, \uppercase %% and \order. The syntax of the four supported sections is summarised below. %% %% 8-bit characters may be entered naturally, but to avoid problems with %% character set translation or corruption, they can also be entered using %% the TeX-style portable notation for character codes, i.e. ^^XX, where XX %% is the hexadecimal value ofthe character code. %% %% Reading of the sections ends when the first '}' character is reached, so %% '}' can't be included in a section. You can't use ^^7d either. %% %% The percent sign ('%') is used to introduce a trailing comment - it and %% all remaining characters on a line are ignored. ^^25 has the same effect. %% %% %% \lowupcase section %% %% The \lowupcase section of the CS file is used to define the lower %% /upper and upper/lower case relationship of pairs of specified %% characters. It is only used if the relationship is symmetrical - use %% \lowercase or \upcase if it isn't. %% %% The syntax of the \lowupcase section is: %% %% \lowupcase{ %% % Comment begins with a percent sign %% %% ... %% %% } %% %% Each pair of characters defines that the upper case %% equivalent of is *and* the lower case equivalent of %% is . %% %% You cannot redefine the lower or upper case equivalent of an ASCII %% character (code < 128), so all instances of and %% (i.e. both sides of the relationship) must have codes > 127. %% %% %% \lowercase section %% %% The \lowercase section of the CS file is used to define the lower case %% equivalent of specified characters. It should normally only be used %% if the relationship isn't symmetrical - use \lowupcase if it is. %% %% The syntax of the \lowercase section is: %% %% \lowercase{ %% % Comment begins with a percent sign %% %% ... %% %% } %% %% Each pair of characters defines that the lower case %% equivalent of is . %% %% You cannot redefine the lower case equivalent of an ASCII character %% (code < 128), so all instances of (i.e. the left hand side %% of the relationship) must have codes > 127. %% %% %% \uppercase section %% %% The \uppercase section of the CS file is used to define the upper case %% equivalent of specified characters. It should normally only be used %% if the relationship isn't symmetrical - use \lowupcase if it is. %% %% The syntax of the \uppercase section is: %% %% \uppercase{ %% % Comment begins with a percent sign %% %% ... %% %% } %% %% Each pair of characters defines that the upper case %% case equivalent of is . %% %% You cannot redefine the upper case equivalent of an ASCII character %% (code < 128), so all instances of (i.e. the left hand side %% of the relationship) must have codes > 127. %% %% %% \order section %% %% The \order section of the CS file is used to define the order in which %% characters are sorted. %% %% The syntax of the \order section is: %% %% \order{ %% % Comment begins with a percent sign %% % whitespace between the chars %% - % a hyphen between the chars %% _ % an underscore between the chars %% ... %% %% } %% %% All characters on the same line are given the same sorting weight. %% %% The construct is used to denote that %% all characters in the range to should be given the %% same sorting weight. For example, "A _ Z" would cause all ASCII %% upper case alphabetical characters to have the same sorting weight %% and would be equivalent to placing all 26 characters on the same line. %% %% The construct is used to denote that all %% characters in the range to should be given an %% ascending set of sorting weights, starting with and ending %% with . For example, "A - Z" would cause all upper case ASCII %% alphabetical characters to be sorted in ascending order and would be %% equivalent to placing 'A' on the first line, 'B' on the second, %% through to 'Z' on the 26th line. %% %% The characters at the beginning of the order section are given a lower %% sorting weight than characters occuring later. When sorting %% alphabetically, characters with the lowest weight come first. %% %% All characters not in the \order section (including ASCII characters) %% are given the same very high sorting weight to ensure that they come %% last when sorting alphabetically. %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% %% CHARACTER SET %% %% The ISO 8859-1 code page contains an equal number of upper and lower %% case accented characters so we can use the \lowupcase{} section. The %% \lowercase{} and \uppercase{} sections are not used. %% \lowupcase{ % Lowercase Uppercase % Code TeX Code TeX % à À % ^^e0 \`{a} ^^c0 \`{A} á Á % ^^e1 \'{a} ^^c1 \'{A} â  % ^^e2 \^{a} ^^c2 \^{A} ã à % ^^e3 \~{a} ^^c3 \~{A} ä Ä % ^^e4 \"{a} ^^c4 \"{A} å Å % ^^e5 \aa ^^c5 \AA æ Æ % ^^e6 \ae ^^c6 \AE ç Ç % ^^e7 \c{c} ^^c7 \c{C} è È % ^^e8 \`{e} ^^c8 \`{E} é É % ^^e9 \'{e} ^^c9 \'{E} ê Ê % ^^ea \^{e} ^^ca \^{E} ë Ë % ^^eb \"{e} ^^cb \"{E} ì Ì % ^^ec \`{\i} ^^cc \`{I} í Í % ^^ed \'{\i} ^^cd \'{I} î Î % ^^ee \^{\i} ^^ce \^{I} ï Ï % ^^ef \"{\i} ^^cf \"{I} ð Ð % ^^f0 eth ^^d0 ETH ñ Ñ % ^^f1 \~{n} ^^d1 \~{N} ò Ò % ^^f2 \`{o} ^^d2 \`{O} ó Ó % ^^f3 \'{o} ^^d3 \'{O} ô Ô % ^^f4 \^{o} ^^d4 \^{O} õ Õ % ^^f5 \~{o} ^^d5 \~{O} ö Ö % ^^f6 \"{o} ^^d6 \"{O} ø Ø % ^^f8 \o ^^d8 \O ù Ù % ^^f9 \`{u} ^^d9 \`{U} ú Ú % ^^fa \'{u} ^^da \'{U} û Û % ^^fb \^{u} ^^db \^{U} ü Ü % ^^fc \"{u} ^^dc \"{U} ý Ý % ^^fd \'{y} ^^dd \'{Y} þ Þ % ^^fe thorn ^^de THORN } %% %% SORTING ORDER %% %% The sorting order defined is a compromise between Norwegian/Danish and %% Swedish. %% %% Norwegian/Danish sorting order: 0..9Aa..ZzÆæØøÅå %% Swedish sorting order: 0..9Aa..ZzÅåÄäÖö %% Compromise sorting order: 0..9Aa..ZzÆæØøÅåÄäÖö %% \order{ 0-9 A a B b C c D d E e F f G g H h I i J j K k L l M m N n O o P p Q q R r S s T t U u V v W w X x Y y Z z Æ æ Ø ø Å å Ä ä Ö ö } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% END OF FILE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%