Based on the answer to this question, I was able to get 2-column papaja with listings wrapping (rather than overflowing column width). But the listings package turns off various features that help code listings and R output stand out relative to the main text.
A simple solution would be if I could globally change the font faces and/or sizes selectively for code and R output. Is there a way to do that in papaja? I haven't been able to figure this out from papaja or Rmarkdown documentation. Thank you!
When you use the listings package in a papaja (or bookdown) document, what is technically happening is that all code is wrapped into an lstlisting LaTeX environment that comes with its own capabilities of customizing code appearance. Hence, you don't see the syntax highlighting that you would otherwise see if you would not use the listings package. The documentation of the listings package with instructions how to style your code can be found here.
To make use of this, you can extend the YAML header of your papaja document like this:
documentclass : "apa6"
classoption : "jou"
output :
papaja::apa6_pdf:
pandoc_args: --listings
header-includes:
- \lstset{breaklines=true,language=R,basicstyle=\tiny\ttfamily,frame=trB,commentstyle=\color{darkgray}\textit}
Here, I first specify the code's language, and use a tiny monospace font. With frame, I add a frame around the code block, and with commentstyle I set comments in italic and gray.
I'm trying to have doxygen show a brief summary of the function in `Files->File Members->Functions'
For Example:
I want this:
Box_The_Function_Name() : doxygen_c.h
to look like this
Box_The_Function_Name() : doxygen_c.h : brief explanation
Doxygen does this automatically for structs but not functions.
Any ideas ?
Doxygen does this automatically for structs but not functions.
No, it doesn't. Classes/types are not represented on this page at all, but instead in the list of classes, which is a completely different page with a different paradigm.
On this page, where functions, variables and defines are listed, the nature of translation units means that the same name could be found in multiple files, e.g.:
Box_The_Function_Name() : A.h , B.h, C.h
Here's a real-world example from my commercial project (don't tell anyone):
parse_options() : debug-register-reader.cpp , main.cpp , metrics-converter.cpp , debug-register-writer.cpp
The function parse_options() in each file is different, and may have a different summary text. It would not be very user-friendly if Doxygen tried to cram each summary text into a list here.
So, no, you can't do this.
However, you can simply click on the filename to go to the documentation for the function as found in that file.
I wonder if it is possible to use the current date when documenting a C++ function with doxygen. For example
/**
* This function is really boring. Documentation generated on __DATE__
*/
void f()
{}
Is there such a command? The __ DATE __ C++ macro doesn't work as it is inside a comment, so the pre-processor does not expand it. I can use a LaTeX macro such as \f$\mathrm{\today}\f$ but it looks ugly.
You may add a custom command for that… let it be \today for example :)
Unfortunately there is no builtin command to get a current date (it is available only for HTML header/footer templates as $date variable). But if you have (use) a build system (like CMake, autotools & etc), you may generate the Doxyfile (from, say Doxyfile.in) and render a current date. E.g. something like this
ALIASES += today="#TODAY#"
so #TODAY# will be replaced w/ actual date of build.
I wanted to document a Fortran module containing functions with doxygen.
My problem is, that I can't find a way to include the body of my functions in the documentation of the functions. There is only a link to the position, but not the actual source code.
At the moment, my source code looks e.g. like this:
!> #brief Get a starting time.
!> #details Get an object with time information.
!> #return returns the time with high precision
FUNCTION get_start_time() RESULT(stime)
TYPE (time) :: stime
CALL SYSTEM_CLOCK(stime%count, stime%rate, stime%max)
END FUNCTION
My doxygen configuration (the SOURCES part) looks like this:
SOURCE_BROWSER = YES
INLINE_SOURCES = YES
STRIP_CODE_COMMENTS = YES
REFERENCED_BY_RELATION = YES
REFERENCES_RELATION = YES
REFERENCES_LINK_SOURCE = YES
SOURCE_TOOLTIPS = YES
USE_HTAGS = NO
VERBATIM_HEADERS = YES
I also tried to use the #code and #endcode flags to mark the source, but this doesn't work, too.
What should I do, to get the source code directly to the documentation?
1st EDIT: I tried #cheeseminer's solution. So the code above now looks like
!> #brief Get a starting time.
!> #details Get an object with time information.
!> #return returns the time with high precision
!> #par Code
!> #snippet folder/file.F90 get_start_time
!! [get_start_time]
FUNCTION get_start_time() RESULT(stime)
TYPE (time) :: stime
CALL SYSTEM_CLOCK(stime%count, stime%rate, stime%max)
END FUNCTION
!! [get_start_time]
Unfortunately, the block-id commands (those with !! in front) appear in the documentation and/or the full source code. What is the correct way, to do this in Fortran?
Or is there a better way to solve my initial question?
2nd EDIT: I found a workaround which hides the block-id. I wrapped them in an #internal command.
!> #internal [get_start_time]
3rd EDIT: I'm now using #Michael's suggestion to include the block-id as HTML-Comment.
!> <!-- [get_start_time] -->
4th EDIT: I posted a follow-up question concerning aliases.
I think what you are looking for is #snippet. The relevant manual page is here. You'll need to provide a path to the 'example' code in the doxyfile too.
#code is more of a formatting command. If you have only a few short such sections you might be better to copy to code into the comment and use #code to format it, but if the code sample is liable to change then you probably should use snippet despite the clutter that it introduces into the source.
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My team is starting to document our C code using doxygen, paying particular attention to our public API headers. There appears to be a lot of flexibility and different special commands in doxygen, which is great, but it's not clear what's a good thing and what's a bad thing without trial and error.
What are your favourite ways to mark up your code, what are your MUST DOs and DO NOTs?
Please provide your top tips, one per answer to facilitate voting.
I am looking to define our whole approach to API documentation, including providing a template to get the rest of the team started. So far I have something like this:
/**
* #file example_action.h
* #Author Me (me#example.com)
* #date September, 2008
* #brief Brief description of file.
*
* Detailed description of file.
*/
/**
* #name Example API Actions
* #brief Example actions available.
* #ingroup example
*
* This API provides certain actions as an example.
*
* #param [in] repeat Number of times to do nothing.
*
* #retval TRUE Successfully did nothing.
* #retval FALSE Oops, did something.
*
* Example Usage:
* #code
* example_nada(3); // Do nothing 3 times.
* #endcode
*/
boolean example(int repeat);
You don't need and should not write the name of the file in the #file directive, doxygen reads the name of the file automatically. The problem with writing the name of the file is that when you rename the file you will have to change the #file directive as well.
Providing #author and #date information is also useless most of the time since the source control system does it a lot better than someone editing the files manually.
You also don't have to write #brief if you use the following Doxygen syntax and enable JAVADOC_AUTOBRIEF in doxygen's configuration:
/*! Short Description on the first line
Detailed description...
...
*/
void foo(void) {}
The #name directive for functions is also 100% redundant most of the time and completely useless. It only brings errors when someone modifies the name of the function and not the doxygen #name.
Write a descriptive home page using #mainpage (in a separate header file just for this purpose). Consider, as shown in my example, making it a guide to your main classes/functions and modules.
Another Sample
Whilst I was getting the above-linked main oofile doxygen content back online, here's an example from some current client work using Markdown format. Using Markdown you can refer to a mainpage in markdown (in the Doxygen settings) which is great for the typical readme.md file included in open-source projects.
Lingopal
========
Developer Documentation started when Andy Dent took over support in May 2014.
There are a number of pages in Markdown format which explain key aspects:
- #ref doc/LingopalBuilding.md
- #ref doc/LingopalSigning.md
- #ref doc/LingopalDatabases.md
- #ref doc/LingopalExternals.md
See the Related Pages list for more.
-------------
_Note_
These pages, whilst readable by themselves, are designed to be run through the [Doxygen](http://www.doxygen.com) code documentation engine which builds an entire local cross-referenced set of docs. It uses a minor [extension of Markdown formatting.](http://www.stack.nl/~dimitri/doxygen/manual/markdown.html)
The settings to generate the documentation are `Lingopal.doxy` and `LingopalDocOnly.doxy`. The latter is used for quick re-generation of just these additional pages.
Use Groups to organise your code into modules.
Remember that you can put almost everything into multiple groups so they can be used to provide semantic tagging like the tags in Stack Overflow. For example, you might tag things as specific to a given platform.
You can also use groups to match a folder hierarchy within an IDE, as shown in my RB2Doxy sample output.
Groups work well when nested - I have a large example for the OOFILE source.
Some commands i use in my code :
\todo { paragraph describing what is to be done } Useful to keep track of todos, a page will be created in final documentation containing your todo list.
\c <word> Displays the argument using a typewriter font. Use this to refer to a word of code. I would use it before "TRUE" and "FALSE" in your example.
\a , \warning , \see : see http://www.stack.nl/~dimitri/doxygen/commands.html#cmdc for description
A good "best practice" (though not always achievable) is to provide short, working examples for every API, and pull them into the help using \includelineno (or \include for no line numbers). These can be unit tests, if they're written so users can understand them (ie, not hooked into a larger test harness). As a nice side effect, changes to the API will break the samples, so they have to be kept up to date.
You can describe an API in words, but there's nothing like seeing the actual code to understand how to use it.
As I find myself editing code on higher-resolution screens I've moved from using the backslash to the # prefix on Doxygen commands. Not so noisy backslash has found itself now too damned hard to make out the Doxygen commands.
If you are sure your team will follow such a heavyweight template, fine, use it as shown.
Otherwise, it looks like JavaDoc. One of the nice things about Doxygen is how good a job it does without having to use use such strong markup. You don't need to use #name and with the JAVADOC_AUTOBRIEF setting you can skip #brief - just make sure the first line of the comment is a reasonable brief description.
I prefer descriptive names over enforcing documentation and encouraging people to add comments only when they add significant value. That way, the valuable comments aren't drowned out by all the noise.
If you have bugs located in the code or you find bugs you can also tag in the code like this:
/** #bug The text explaining the bug */
When you then run doxygen you get a seperate Bug List alongside lists like Todo List
If you have a really, really big project -- big enough that Doxygen runs take over an hour -- you can cut it up into multiple modules that Doxygen later links together using tag files.
For example, if you have a big MSVC solution with twenty projects in it, you can make directory be its own Doxygen run, and then use tag-files to glue together the output the same way a linker glues together .libs to make an executable.
You can even take the linking metaphor more literally and make each Doxy config file correspond to a .vcproj file, so that each project (eg .lib or .dll) gets its own Doxy output.
I use a subversion post-commit hook to pull out the directories that have changed, write them to a file and then every night I automatically re-generate the doxygen html on our webserver so we always have up-to-date docco.
Every project I want documented has a little project.doxy file that contains the per-project settings and an include to the main doxygen settings - eg:
PROJECT_NAME = "AlertServer"
PROJECT_NUMBER = 8.1.2
INPUT = "C:/Dev/src/8.1.2/Common/AlertServer"
HTML_OUTPUT = "AlertServer"
#INCLUDE = "c:\dev\CommonConfig.doxy"
For Windows SVN server, use the hook:
#echo off
for /F "eol=¬ delims=¬" %%A in ('svnlook dirs-changed %1 -r %2') do echo %%A >> c:\svn_exports\export.txt
and then run this nightly:
#echo off
rem ---------------
rem remove duplicates.
type nul> %TEMP%.\TEMP.txt
for /F "eol=¬ delims=¬" %%a in (c:\svn_exports\export.txt) do (
findstr /L /C:"%%a" < %TEMP%.\TEMP.txt > nul
if errorlevel=1 echo %%a>> %TEMP%.\TEMP.txt
)
copy /y %TEMP%.\TEMP.txt export_uniq.cmd >nul
if exist %TEMP%.\TEMP.txt del %TEMP%.\TEMP.txt
rem ---------------
rem fetch all the recently changed directories into the svn_exports directory
for /F "eol=¬ delims=¬" %%A in (c:\svn_exports\export_uniq.cmd) do (
svn export "file:///d:/repos/MyRepo/%%A" "c:/svn_exports/%%A" --force
)
rem ---------------
rem search through all dirs for any config files, if found run doxygen
for /R c:\svn_exports %%i in (*.doxy) do c:\tools\doxygen\bin\doxygen.exe "%i"
rem ---------------
rem now remove the directories to be generated.
del /F c:\svn_exports
this removes duplicate entries, finds all projects that have a .doxy project file, and runs doxygen on them. Voila: fully documented, always up-to-date code on a webserver.
For complex projects it may be useful to have a separate file for module management, which controls the groups and subgroups. The whole hierarchy can be in one place and then each file can simply stuff to the child groups. e.g.:
/**
* #defgroup example Top Level Example Group
* #brief The Example module.
*
* #{
*/
/**
* #defgroup example_child1 First Child of Example
* #brief 1st of 2 example children.
*/
/**
* #defgroup example_child2 Second Child of Example
* #brief 2nd of 2 example children.
*/
// #}
Simply including the definition of a group within the { } of another group makes it a child of that group. Then in the code and header files functions can just be tagged as part of whatever group they are in and it all just works in the finished documentation. It makes refactoring the documentation to match the refactor code much easier.
Uses lots and lots of links. This can be done using see also links (\see or #see if you prefer), and making sure that you use any references to other class names in documentation by their correct class name. For example if you refer to class FUZZYObject as an "object", then write immediately after it the name of the class (e.g. "frazzle the objects (FUZZYObject)").
Automatically build and publish your documentation. As part of automatically building the documentation, pay attention to the warnings, its very easy to write badly structure doxygen comments.
Use \example as much as you can. It auto-links API elements to example code.
Don't bother with #author or #date (#date was mentioned in another post). These are both handled by a revision control system.
Always include a description with your classes. Try to say how a class is used, or why it is used, not just what it is (which usually just reflects the name anyway).
Group your member functions and fields if it makes sense to do so with \defgroup. This is very helpful, even if you don't say much.
If you are worried that some team members will avoid documenting or you just want a working minimal sets of documentation, you can enable these in your doxygen configuration.
WARNINGS = YES
WARN_IF_UNDOCUMENTED = YES
WARN_IF_DOC_ERROR = YES
As part of your doxygen build process save the warnings to a file and try to get and keep the warning count as low as possible (0 if that is reasonable). If you do this, every public and protected class member will need at least an #brief, #param for each function argument and an #return. This is good enough to describe most APIs and not too much to encumber other living codebases.
You should, of course, encourage people to document as much as they feel is required on a case by case basis, as long as they meet the minimum project standards. Don't set the minimum too high though, then you may not get useful documentation in the end.
For example, in our project, everything another coder is likely to touch should be documented. Enabling the warnings let see how close that goal we are. We also try to use #internal to describe what/why we do what we do with some of our private members.
If you find that the configuration directive INLINE_SOURCES puts too much code in the documentation, you can manually quote specific portions of the code using the \snippet command.
/**
* Requirment XYZ is implemented by the following code.
*
* \snippet file.c CODE_LABEL
*/
int D()
{
//[CODE_LABEL]
if( A )
{
B= C();
}
//[CODE_LABEL]
}
note: snippet gets its files from the EXAMPLE_PATH, not where the source path is. You will have to put the same list of files and paths from INPUT directive on the EXAMPLE_PATH directive.
For larger projects taking 5+min to generate, I found it useful to quicly be able to generate doxygen for a single file and view it in a web browser.
While references to anything outside the file won't resolve, it can still useful to see the basic formatting is ok.
This script takes a single file and the projects doxy config and runs doxygen, I've set this up to run from my IDE.
#!/usr/bin/env python3
"""
This script takes 2-3 args: [--browse] <Doxyfile> <sourcefile>
--browse will open the resulting docs in a web browser.
"""
import sys
import os
import subprocess
import tempfile
doxyfile, sourcefile = sys.argv[-2:]
tempfile = tempfile.NamedTemporaryFile(mode='w+b')
doxyfile_tmp = tempfile.name
tempfile.write(open(doxyfile, "r+b").read())
tempfile.write(b'\n\n')
tempfile.write(b'INPUT=' + os.fsencode(sourcefile) + b'\n')
tempfile.flush()
subprocess.call(("doxygen", doxyfile_tmp))
del tempfile
# Maybe handy, but also annoying as default.
if "--browse" in sys.argv:
import webbrowser
webbrowser.open("html/files.html")