In GAPDoc there are facilities to distribute a single document over several files. This is for example interesting, if one wants to store the documentation of some code in the same file as the code itself. Or, if one just wants to store chapters of a document in separate files. There is a set of conventions how this is done and some tools to collect the text for further processing.
The technique can also be used to distribute and collect other types of documents into respectively from several files (e.g., source code, examples).
In this description we use the string GAPDoc
for marking pieces of a document to collect.
Pieces of documentation that shall be incorporated into another document are marked as follows:
## <#GAPDoc Label="MyPiece"> ## <E>This</E> is the piece. ## The hash characters are removed. ## <#/GAPDoc>
This piece is then included into another file by a statement like: <#Include Label="MyPiece">
Here are the exact rules, how pieces are gathered:
All lines up to a line containing the character sequence "<#GAPDoc Label="
" (exactly one space character) are ignored. The characters on the same line before this sequence are stored as "prefix". The characters after the sequence up to the next double quotes character (which should not contain whitespace) are stored as "label". All other characters in the line are ignored.
The following lines up to a line containing the character sequence "<#/GAPDoc>
" are stored under the label. These lines are processed as follows: The longest possible substring from the beginning of the line that equals the corresponding substring of the prefix is removed.
Having stored a list of labels and pieces of text gathered as above this can be used as follows.
In GAPDoc documentation files all statements of the form "<#Include Label="Key">
" are replaced by the sequence of lines stored under the label Key
.
Additionally, every occurrence of a statement of the form "<#Include SYSTEM "Filename">
" is replaced by the whole file stored under the name Filename
in the file system.
These substitutions are done recursively (although one should probably avoid to use this extensively).
Here is another example:
# # <#GAPDoc Label="AnotherPiece"> some characters # # This text is not indented. # This text is indented by one blank. #Not indented. #<#/GAPDoc>
replaces <#Include Label="AnotherPiece">
by
This text is not indented. This text is indented by one blank. Not indented.
Since these rules are very simple it is quite easy to write a program in almost any programming language which does this gathering of text pieces and the substitutions. In GAPDoc there is the GAP function ComposedDocument
(4.2-1) which does this.
Note that the XML-tag-like markup we have used here is not a legal XML markup, since the hash character is not allowed in element names. The mechanism described here is a preprocessing step which composes a document.
‣ ComposedDocument ( tagname, path, main, source[, info] ) | ( function ) |
‣ ComposedXMLString ( path, main, source[, info] ) | ( function ) |
Returns: a document as string, or a list with this string and information about the source positions
The argument tagname is the string used for the pseudo elements which mark the pieces of a document to collect. (In 4.1 we used GAPDoc
as tagname. The second function ComposedXMLString
( ... )
is an abbreviation for ComposedDocument
("GAPDoc", ... )
.
The argument path must be a path to some directory (as string or directory object), main the name of a file and source a list of file names. These file names are relative to path, except they start with "/"
to specify an absolute path or they start with "gap://"
to specify a file relative to the GAP roots (see FilenameGAP
(4.2-3)). The document is constructed via the mechanism described in Section 4.1.
First the files given in source are scanned for chunks of the document marked by <#tagname Label="...">
and </#tagname>
pairs. Then the file main is read and all <#Include ... >
-tags are substituted recursively by other files or chunks of documentation found in the first step, respectively.
If the optional argument info is given and set to true
this function returns a list [str, origin]
, where str
is a string containing the composed document and origin
is a sorted list of entries of the form [pos, filename, line]
. Here pos
runs through all character positions of starting lines or text pieces from different files in str
. The filename
and line
describe the origin of this part of the collected document.
Without the fourth argument only the string str
is returned.
By default ComposedDocument
runs into an error if an <#Include ...>
-tag cannot be substituted (because a file or chunk is missing). This behaviour can be changed by setting DOCCOMPOSEERROR := false;
. Then the missing parts are substituted by a short note about what is missing. Of course, this feature is only useful if the resulting document is a valid XML document (e.g., when the missing pieces are complete paragraphs or sections).
gap> doc := ComposedDocument("GAPDoc", "/my/dir", "manual.xml", > ["../lib/func.gd", "../lib/func.gi"], true);;
‣ OriginalPositionDocument ( srcinfo, pos ) | ( function ) |
Returns: A pair [filename, linenumber]
.
Here srcinfo must be a data structure as returned as second entry by ComposedDocument
(4.2-1) called with info=true
. It returns for a given position pos in the composed document the file name and line number from which that text was collected.
‣ FilenameGAP ( fname ) | ( function ) |
Returns: file name as string or fail
This functions returns the full path of a file with name fname relative to a GAP root path, or fail
if such a file does not exist. The argument fname can optionally start with the prefix "gap://"
which will be removed.
gap> FilenameGAP("hsdkfhs.g"); fail gap> FilenameGAP("lib/system.g"); "/usr/local/gap4/lib/system.g" gap> FilenameGAP("gap://lib/system.g"); "/usr/local/gap4/lib/system.g"
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