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|
%D \module
%D [ file=supp-fil,
%D version=1995.10.10,
%D title=\CONTEXT\ Support Macros,
%D subtitle=Files,
%D author=Hans Hagen,
%D date=\currentdate,
%D copyright={PRAGMA / Hans Hagen \& Ton Otten}]
%C
%C This module is part of the \CONTEXT\ macro||package and is
%C therefore copyrighted by \PRAGMA. See mreadme.pdf for
%C details.
%D \TEX\ operates on files, so one wouldn't wonder that there
%D is a separate module for file support. In \CONTEXT\ files
%D are used for several purposes:
%D
%D \startitemize[packed]
%D \item general textual input
%D \item logging status information
%D \item saving registers, lists and references
%D \item buffering defered textual input
%D \stopitemize
%D
%D When dealing with files we can load them as a whole, using
%D the \type{\input} primitive or load them on a line||by||line
%D basis, using \type{\read}. Writing is always done line by
%D line, using \type{\write}.
\writestatus{loading}{ConTeXt Support Macros / Files}
\unprotect
\ifx\undefined\f!pathseparator
\def\f!pathseparator{/}
\def\f!currentpath {.}
\def\f!parentpath {..}
\fi
\def\openinputfile #1#2{\immediate\openin #1="#2"\relax} \def\closeinputfile #1{\immediate\closein #1}
\def\openoutputfile#1#2{\immediate\openout#1="#2"\relax} \def\closeoutputfile#1{\immediate\closeout#1}
%D \macros
%D {pushendofline,popendofline}
%D
%D When we are loading files in the middle of the typesetting
%D process, for instance when we load references, we have to be
%D sure that the reading process does not generate so called
%D 'spurious spaces'. This can be prevented by assigning the
%D line ending character the \CATCODE\ comment. This is
%D accomplished by
%D
%D \starttyping
%D \pushendofline
%D ... reading ...
%D \popendofline
%D \stoptyping
%D
%D Just to be sure, we save the current meaning of \type{^^M}
%D in \type{\poppedendofline}.
% \chardef\poppedendofline\catcode`\^^M
%
% \def\pushendofline
% {\chardef\poppedendofline\catcode`\^^M\relax
% \catcode`\^^M\@@comment\relax}
%
% \def\popendofline
% {\catcode`\^^M\poppedendofline}
%
% support for nested usage:
\newcount \endoflinelevel
\ifx\newlinecode\undefined \chardef\newlinecode=`\^^M \fi
\def\pushendofline
{\advance\endoflinelevel\plusone
\expandafter\chardef\csname :eol:\number\endoflinelevel\endcsname\catcode\newlinecode
\catcode\newlinecode\@@comment\relax}
\def\popendofline
{\catcode\newlinecode\csname :eol:\number\endoflinelevel\endcsname
\advance\endoflinelevel\minusone}
\def\restoreendofline
{\catcode\newlinecode\@@endofline}
%D \macros
%D {scratchread, scratchwrite}
%D
%D We define a scratch file for reading. Keep in mind that
%D the number of files is limited to~16, so use this one when
%D possible. We also define a scratch output file.
\ifx\undefined\scratchread \newread \scratchread \fi
\ifx\undefined\scratchwrite \newwrite\scratchwrite \fi
%D \macros
%D {unlinkfile}
%D
%D Sometimes we want to make sure a file is deleted, so here
%D is a macro that does the job. It's named after the \PERL\
%D one.
\def\unlinkfile#1%
{\openoutputfile \scratchwrite{#1}%
\closeoutputfile\scratchwrite}
%D \macros
%D {writeln}
%D
%D This saves a few tokens:
\def\writeln#1{\write#1{}}
\def\doiffileexistselse#1%
{\doifelsenothing{#1}
{\secondoftwoarguments}
{\openinputfile\scratchread{#1}%
\ifeof\scratchread
\closeinputfile\scratchread
\expandafter\secondoftwoarguments
\else
\closeinputfile\scratchread
\expandafter\firstoftwoarguments
\fi}}
%D \macros
%D {doprocessfile,fileline,fileprocessedtrue,dofinishfile}
%D
%D The next macro offers a framework for processing files on a
%D line by line basis.
%D
%D \starttyping
%D \doprocessfile \identifier {name} \action
%D \stoptyping
%D
%D The first argument can for instance be \type{\scratchread}.
%D The action must do something with \type{\fileline}, which
%D holds the current line. One can halfway step out using
%D \type{\dofinishfile} and ise \type{\iffileprocessed} to
%D see if indeed some content was found.
\newif\iffileprocessed
\let\fileline\empty
\def\doprocessfile#1#2#3%
{\openinputfile{#1}{#2}%
\ifeof#1%
\fileprocessedfalse
\closeinputfile#1%
\else
\fileprocessedtrue
\gdef\dofinishfile
{\closeinputfile#1%
\global\let\doprocessline\relax}%
\gdef\doprocessline
{\ifeof#1%
\expandafter\dofinishfile
\else
\global\read#1 to \fileline
#3\relax
\expandafter\doprocessline
\fi}%
\expandafter\doprocessline
\fi}
%D \macros
%D {pathplusfile,assignfullfilename,sanitizefilename}
%D
%D Use \type{\pathplusfile} to compose a full file name, like
%D in:
%D
%D \starttyping
%D \pathplusfile{path}{file}
%D \stoptyping
%D
%D By default, this expands into {\tt \pathplusfile{path}{file}}.
\def\pathplusfile#1#2{#1\f!pathseparator#2}
%D This one constructs a filename from a (possible empty)
%D path and filename.
\def\assignfullfilename#1#2\to#3%
{\doifelsenothing{#1}
{\edef#3{#2}}
{\edef#3{#1\f!pathseparator#2}}}
%D For the moment, we limit sanitizing to taking care of
%D active \type {/}.
\bgroup % todo: _ cleanup
\catcode`\/=\@@active
\catcode`\:=\@@active
\catcode`\~=\@@active
\catcode`\_=\@@active
\gdef\sanitizefilename#1\to#2%
{\bgroup
\edef/{\string/}%
\edef:{\string:}%
\edef~{\string~}%
\edef_{\string_}%
\retainlccodes
\lccode`\\=`\/
\lowercase{\expanded{\xdef\noexpand\sanitizedfilename{#1}}}%
\egroup
\let#2\sanitizedfilename}
\egroup
%D NEW:
\chardef\kindoffile=0 % 0=normal 1=full path spec (or http)
\def\checkfilename#1%
{\doifinstringelse{@@/}{@@#1}% unix: /full/path
{\chardef\kindoffile\plusone}
{\doifinstringelse{:/}{#1}% windows: e:/full/path or http://
{\chardef\kindoffile\plusone}
{\chardef\kindoffile\zerocount}}}
%D \macros
%D {input, normalinput}
%D
%D Sometimes we run into troubles when \type {\input} wants to get
%D expanded, e.g. in a \type {\write} (which happens in the metafun
%D manual when we permit long MP lines). So, instead of fixing that,
%D we go for a redefinition of \type {\input}. Of course it's better
%D to use \type {\readfile} or \type {\processfile}.
\unexpanded\def\input{\normalinput}
\def\inputgivenfile#1{\normalinput"#1"\relax}
%D \macros
%D {readfile,ReadFile,maxreadlevel}
%D
%D One cannot be sure if a file exists. When no file can be
%D found, the \type{\input} primitive gives an error message
%D and switches to interactive mode. The macro \type{\readfile}
%D takes care of non||existing files. This macro has two faces.
%D
%D \starttyping
%D \ReadFile {filename}
%D \readfile {filename} {before loading} {not found}
%D \stoptyping
%D
%D Many \TEX\ implementations have laid out some strategy for
%D locating files. This can lead to unexpected results,
%D especially when one loads files that are not found in the
%D current directory. Let's give an example of this. In
%D \CONTEXT\ illustrations can be defined in an external file.
%D The resizing macro first looks if an illustration is defined
%D in the local definitions file. When no such file is found,
%D it searches for a global file and when this file is not
%D found either, the illustration itself is scanned for
%D dimensions. One can imagine what happens if an adapted,
%D localy stored illustration, is scaled according to
%D dimensions stored somewhere else.
%D
%D When some \TEX\ implementation starts looking for a file, it
%D normally first looks in the current directory. When no file
%D is found, \TEX\ starts searching on the path where format
%D and|/|or style files are stored. Depending on the implementation
%D this can considerably slow down processing speed.
%D
%D In \CONTEXT, we support a project||wise ordening of files.
%D In such an approach it seems feasible to store common files
%D in a lower directory. When for instance searching for a
%D general layout file, we therefore have to backtrack.
%D
%D These three considerations have lead to a more advanced
%D approach for loading files.
%D
%D We first present an earlier implementation of
%D \type{\readfile}. This command backtracks parent
%D directories, upto a predefined level. Users can change this
%D level, but we default to~3.
%D
%D \starttyping
%D \def\maxreadlevel {3}
%D \stoptyping
%D
%D This is a pseudo \COUNTER.
%D
%D We use \type{\normalinput} instead of \type{\input}
%D because we want to be able to redefine the original
%D \type{\input} when needed, for instance when loading third
%D party libraries.
\newevery \everybeforereadfile \EveryBeforeReadFile
\newevery \everyafterreadfile \EveryAfterReadFile
\let \everyreadfile \everybeforereadfile
\newif\iftracefiles
\newcount\readlevel
\def\maxreadlevel{3}
\newconditional\trackfilenames
\let\trackedfilename\empty
% We need to postpone loading, else we got frozen type-* files and so when
% a format is generated on a source path.
\def\doreadfile#1#2#3#4%
{\sanitizefilename#2\to\readfilename
\ifx\readfilename\empty
% silently ignore
\else
\let\trackedfilename\readfilename
\ifconditional\trackfilenames
\doifundefinedelse{fn..\trackedfilename}\donetrue\donefalse
\else
\donetrue
\fi
\ifdone
\checkfilename\readfilename
\ifcase\kindoffile
\iftracefiles\writestatus\m!systems{searching for \readfilename\space on #1}\fi
% not a full path or url, check for existence
\doifelsenothing{#1}
{\def\next{\redoreadfile\readfilename{#3}{#4}}}%
{\def\next{\redoreadfile{\pathplusfile{#1}{\readfilename}}{#3}{#4}}}%
\else
% a full path or url, no further checking done
\doiffileexistselse\readfilename
{\iftracefiles\writestatus\m!systems{located \readfilename}\fi
\def\next{#3\dodoreadfile}}%
{\iftracefiles\writestatus\m!systems{not found \readfilename}\fi
\def\next{#4}}%
\fi
\else
\edef\readfilename{\getvalue{fn..\readfilename}}%
\iftracefiles\writestatus\m!systems{already located \readfilename}\fi
\def\next{#3\dodoreadfile}%
\fi
\expandafter\next
\fi}
\def\redoreadfile#1#2#3%
{\doiffileexistselse{#1}%
{\edef\readfilename{#1}%
\iftracefiles\writestatus\m!systems{#1 located}\fi
\def\next{#2\dodoreadfile}}%
{\iftracefiles\writestatus\m!systems{cannot locate #1}\fi
\advance\readlevel\minusone
\ifnum\readlevel>\zerocount
\edef\readfilename{\pathplusfile{\f!parentpath}{\readfilename}}%
\def\next{\redoreadfile\readfilename{#2}{#3}}%
\else
\def\next{#3}%
\fi}%
\next}
\def\dodoreadfile % we provide hooks, for instance for \enableXML
{\ifconditional\trackfilenames
\setxvalue{fn..\trackedfilename}{\readfilename}%
\fi
\the\everybeforereadfile
% \normalinput\readfilename\relax
\relax\inputgivenfile\readfilename\relax
\the\everyafterreadfile}
% too less:
%
% \unexpanded\def\readfile% #1%
% {\readlevel\maxreadlevel
% \doreadfile\empty} % {#1}
%
% too much:
%
% \unexpanded\def\readfile#1#2#3%
% {\readlocfile{#1}{#2}
% {\readjobfile{#1}{#2}
% {\readsysfile{#1}{#2}{#3}}}}
%
% just ok:
\unexpanded\def\readfile#1#2#3%
{\readlocfile{#1}{#2}{\readsysfile{#1}{#2}{#3}}}
\def\readtexfile#1#2#3%
{\pushcatcodetable \catcodetable \ctxcatcodes
\readfile{#1}{#2}{#3}%
\popcatcodetable}
\def\readxmlfile#1#2#3%
{\pushcatcodetable \catcodetable \xmlcatcodes
\readfile{#1}{#2}{#3}%
\popcatcodetable}
\unexpanded\def\ReadFile#1%
{\readfile{#1}\donothing\donothing}
%D \macros
%D {readjobfile,readlocfile,readsysfile,
%D readfixfile,readsetfile}
%D
%D This implementation honnors the third situation, but we
%D still can get unwanted files loaded and/or can get involved
%D in extensive searching.
%D
%D Due to different needs, we decided to offer four alternative
%D loading commands. With \type{\readjobfile} we load a local
%D file and do no backtracking, while \type{\readlocfile}
%D backtracks~\number\readlevel\ directories, including the current
%D one.
\unexpanded\def\readjobfile % #1% current path, no backtracking
{\readlevel\zerocount
\doreadfile\f!currentpath} % {#1}}
\unexpanded\def\readlocfile % #1% current path, backtracking
{\readlevel\maxreadlevel
\doreadfile\f!currentpath} % {#1}}
%D System files can be anywhere and therefore
%D \type{\readsysfile} is not bound to the current directory
%D and obeys the \TEX\ implementation.
\unexpanded\def\readsysfile % #1% current path, obeys tex search
{\readlevel\zerocount
\doreadfile\empty} % {#1}}
%D Of the last two, \type{\readfixfile} searches on the
%D directory specified and backtracks too, while
%D \type{\readsetfile} does only search on the specified path.
\unexpanded\def\readfixfile % #1#2% specified path, backtracking
{\readlevel\maxreadlevel
\doreadfile} % {#1}{#2}}
\unexpanded\def\readsetfile % #1#2% specified path, no backtracking
{\readlevel\zerocount
\doreadfile} % {#1}{#2}}
%D After having defined this commands, we reconsidered the
%D previously defined \type{\readfile}. This time we more or
%D less impose the search order.
\unexpanded\def\readfile#1#2#3%
{\readlocfile{#1}{#2}
{\readjobfile{#1}{#2}
{\readsysfile{#1}{#2}{#3}}}}
%D So now we've got ourselves five file loading commands:
%D
%D \starttyping
%D \readfile {filename} {before loading} {not found}
%D
%D \readjobfile {filename} {before loading} {not found}
%D \readlocfile {filename} {before loading} {not found}
%D \readfixfile {filename} {before loading} {not found}
%D \readsysfile {directory} {filename} {before loading} {not found}
%D \stoptyping
%D \macros
%D {readjobfile,readlocfile,readsysfile,readfixfile}
%D
%D The next four alternatives can be used for opening files
%D for reading on a line||by||line basis. These commands get
%D an extra argument, the filetag. Explicit closing is done
%D in the normal way by \type{\closein}.
\def\doopenin#1#2%
{\sanitizefilename#2\to\readfilename
\checkfilename\readfilename
\ifcase\kindoffile
\advance\readlevel\plusone
\openinputfile{#1}\readfilename
\ifeof#1% \relax
\ifnum\readlevel>\maxreadlevel % \relax
\else
\closeinputfile#1% \relax
\doopenin{#1}{\pathplusfile\f!parentpath{#2}}%
\fi
\fi
\fi}
\def\openjobin#1#2%
{\readlevel\zerocount
\doopenin{#1}{\pathplusfile\f!currentpath{#2}}}
\def\opensysin % #1#2%
{\readlevel\maxreadlevel
\doopenin} % {#1}{#2}}
\def\openlocin#1#2%
{\readlevel\maxreadlevel
\doopenin{#1}{\pathplusfile\f!currentpath{#2}}}
\def\openfixin#1#2#3%
{\readlevel\maxreadlevel
\doopenin{#1}{\pathplusfile{#2}{#3}}}
%D \macros
%D {doiffileelse,doiflocfileelse}
%D
%D The next alternative only looks if a file is present. No
%D loading is done. This one obeys the standard \TEX\
%D implementation method.
%D
%D \starttyping
%D \doiffileelse {filename} {found} {not found}
%D \stoptyping
%D
%D \starttyping
%D \doiflocfileelse {filename} {before loading} {not found}
%D \stoptyping
\def\doiffileelse {\doiffileexistselse}
\def\doiffile #1{\doiffileexistselse{#1}\firstofoneargument\gobbleoneargument}
\def\doifnotfile #1{\doiffileexistselse{#1}\gobbleoneargument\firstofoneargument}
\def\doiflocfileelse#1%
{\makelocreadfilename{#1}%
\doiffileelse\readfilename}
\def\makelocreadfilename#1%
{\sanitizefilename#1\to\readfilename
\checkfilename\readfilename
\ifcase\kindoffile
\edef\readfilename{\pathplusfile\f!currentpath{#1}}%
\fi}
%D \macros
%D {doonlyonce, doinputonce, doendinputonce}
%D
%D Especially macropackages need only be loaded once.
%D Repetitive loading not only costs time, relocating registers
%D often leads to abortion of the processing because \TEX's
%D capacity is limited. One can prevent multiple execution and
%D loading by using one of both:
%D
%D \starttyping
%D \doonlyonce{actions}
%D \doinputonce{filename}
%D \doendinputonce{filename}
%D \stoptyping
%D
%D This command obeys the standard method for locating files.
\long\def\doonlyonce#1%
{\doifundefinedelse{@@@#1@@@}
{\letgvalue{@@@#1@@@}\empty
\firstofoneargument}
{\gobbleoneargument}}
\def\doinputonce#1%
% {\doonlyonce{#1}{\doiffileelse{#1}{\normalinput#1\relax}\donothing}}
{\doonlyonce{#1}{\doiffileelse{#1}{\inputgivenfile{#1}}\donothing}}
\def\doendinputonce#1%
{\doifdefined{@@@#1@@@}\endinput}
\def\forgetdoingonce#1%
{\global\letbeundefined{@@@#1@@@}}
%D \macros
%D {doifparentfileelse}
%D
%D The test \type{\doifelse{\jobname}{filename}} does not give
%D the desired result, simply because \type{\jobname} expands
%D to characters with \CATCODE~12, while the characters in
%D \type{filename} have \CATCODE~11. So we can better use:
%D
%D \starttyping
%D \doifparentfileelse{filename}{yes}{no}
%D \stoptyping
%D
%D Since \TEXEXEC\ (and thereby \CONTEXT) supports renaming of
%D the outputfile, we also need to check on that alternative
%D name.
\ifx\outputfilename\undefined \def\outputfilename{\jobname} \fi
\def\doifparentfileelse#1%
{\doifsamestringelse{#1}{\jobname }\firstoftwoarguments
{\doifsamestringelse{#1}{\jobname.\c!tex}\firstoftwoarguments
{\doifsamestringelse{#1}{\outputfilename}\firstoftwoarguments\secondoftwoarguments}}}
\def\normalless {<} % geen \let !
\def\normalmore {>} % geen \let !
\def\normalequal {=} % geen \let !
\def\normaldblquote{"} % geen \let !
\newcount\readingfilelevel
\def\popfilecharacter#1#2%
{\ifnum\catcode`#1=\@@other \ifnum#2=\@@other \else
%\message{[popping catcode #1 to #2]}%
\catcode`#1=#2\relax
\fi \fi}
\ifx\\\undefined \let\\\relax \fi
%D This changing catcodes is a direct result from the fact
%D that we support some long standing conventions with
%D regards to active characters (german ", polish /,
%D french : and ;).
%D We need to redo this: catcode sets and such
\newtoks \everystartreadingfile
\newtoks \everystopreadingfile
\def\startreadingfile% beter een every en \setnormalcatcodes
{\global\advance\readingfilelevel\plusone
\the\everystartreadingfile
\beginrestorecatcodes
\setcatcodetable\prtcatcodes}
\def\stopreadingfile
{\endrestorecatcodes
\the\everystopreadingfile
\global\advance\readingfilelevel\minusone}
\let\normalstartreadingfile\startreadingfile
\let\normalstopreadingfile \stopreadingfile
%D \macros
%D {splitfilename}
%D
%D I should have made this one sooner. This macro was first needed when
%D ran into graphic with a period in the pathpart.
%D
%D \startbuffer
%D \def\showfilesplit
%D {\bgroup \tttf
%D \hbox{(full: \splitofffull)}\space
%D \hbox{(path: \splitoffpath)}\space
%D \hbox{(base: \splitoffbase)}\space
%D \hbox{(name: \splitoffname)}\space
%D \hbox{(type: \splitofftype)}\space
%D \egroup}
%D
%D \splitfilename{c:/aa/bb/cc/dd.ee.ff} \showfilesplit \endgraf
%D \splitfilename{c:/aa/bb/cc/dd.ee} \showfilesplit \endgraf
%D \splitfilename{c:/aa/bb/cc/dd} \showfilesplit \endgraf
%D
%D \splitfilename{dd.ee.ff} \showfilesplit \endgraf
%D \splitfilename{dd.ee} \showfilesplit \endgraf
%D \splitfilename{dd} \showfilesplit \endgraf
%D \stopbuffer
%D
%D \start \typebuffer \getbuffer \stop
\def\splitoffroot{.} \chardef\splitoffkind\zerocount
\let\splitofffull\empty
\let\splitoffpath\empty
\let\splitoffbase\empty
\let\splitoffname\empty
\let\splitofftype\empty
% \def\splitfilename#1%
% {\edef\splitofffull{#1}% normally outside this call: \sanitizefilename#1\to\sanitizedfilename
% \greedysplitstring\splitofffull\at/\to\splitoffpath\and\splitoffbase
% \ifx\splitoffbase\empty
% \let\splitoffpath\empty
% \let\splitoffbase\splitofffull
% \fi
% \greedysplitstring\splitoffbase\at.\to\splitoffname\and\splitofftype
% \chardef\splitoffkind % can be used to test if pathpart was empty
% \ifx\splitoffpath\empty \zerocount \else
% \ifx\splitoffpath\splitoffroot \plusone \else
% \plustwo \fi\fi
% \ifx\splitoffname\empty\let\splitoffname\splitoffbase\fi
% \ifx\splitoffpath\empty\let\splitoffpath\splitoffroot\fi}
%
% better, since it also handles leading /'s
%
% \splitfilename{oeps/test.pdf} [\splitoffpath\quad\splitoffname\quad\splitofftype]
% \splitfilename{/oeps/test.pdf} [\splitoffpath\quad\splitoffname\quad\splitofftype]
% \splitfilename{/test.pdf} [\splitoffpath\quad\splitoffname\quad\splitofftype]
\def\splitfilename#1%
{\edef\splitofffull{#1}% normally outside this call: \sanitizefilename#1\to\sanitizedfilename
\greedysplitstring\splitofffull\at/\to\splitoffpath\and\splitoffbase
\ifx\splitoffpath\splitofffull
\let\splitoffpath\empty
\fi
\ifx\splitoffbase\empty
\let\splitoffpath\empty
\let\splitoffbase\splitofffull
\fi
\greedysplitstring\splitoffbase\at.\to\splitoffname\and\splitofftype
\chardef\splitoffkind % can be used to test if pathpart was empty
\ifx\splitoffpath\empty \zerocount \else
\ifx\splitoffpath\splitoffroot \plusone \else
\plustwo \fi\fi
\ifx\splitoffname\empty\let\splitoffname\splitoffbase\fi
\ifx\splitoffpath\empty\let\splitoffpath\splitoffroot\fi}
\def\splitfiletype#1%
{\edef\splitofffull{#1}% normally outside this call: \sanitizefilename#1\to\sanitizedfilename
\let\splitoffpath\empty
\greedysplitstring\splitofffull\at.\to\splitoffname\and\splitofftype}
\protect \endinput
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