I've got to prepare a documentation guide for developers of a software project. We use a variety of languages (PHP and Java). I'm looking for some sort of language agnostic, high level, "this is what (or why) you should document" guide. Some heuristics and rules of thumbs that I can give to people to read in the hope that they will produce better documentation.
When it comes to APIs and their documentation (JavaDocs and the equivalents in other languages), the rule should be:
The reason for this behavior is that as developers we are inherently lazy and optimistic. If we see a class and a method that seems to fit what we want, we're quite content to assume that it delivers on what we expect. In fact, the more intuitive a call is (clear name and no or few parametes vs. old win-api style monsters) the less incentive we have to bother and read its documentation.
See also my reply to "tips for writing great javadocs", or the information from my homepage.
Also, in general you need to pick between two philosophies: traditional documentation and agile/lean documentation. It is much easier to get developers to produce and use the latter (since less investment is required for writing and reading "only the important stuff"). However, the "important stuff" is subjective, so you risk losing some critical information. In addition, depending on your industry, you may be required to produce traditional documentation and specifications.
Key things to document:
Comments should have some high level breaks to show major points or sections of interest. They can be useful for visually breaking up the code to make it easier to navigate. For example, even if it doesn't contain much useful information, a banner comment on procedure/method definitions provides a visual cue that helps show the structure of a file and makes it quicker to navigate. However, over-commenting the code can bury this structure.
The real strength of comments is in more detailed discussion of non-obvious items. Some examples of this type of item are:
Explaining a variable:
doesn't really add value, but something like:
Tells us something useful about the variable and what circumstances certain values might be expected.
I believe there's no such thing as generic documentations for all methodologies. You probably have chosen one already. Each methodology has a set of recommended documentations, and these are usually language agnostic.
If you haven't chosen a methodology yet, IMHO this should be done before worrying about documentation guidelines.
However, if you want generic documentation info, you could check the wikipedia entry on the subject.
I think that how you document isn't as much of a concern as long as you're doing it in a way that works for you and you're consistent in how you do it. After all, people can adapt to something that's consistently wrong much better than they can adapt to something that's inconsistently right.
The only piece of advice that I have is to use doctests if your platform supports them. They can be tremendously helpful at finding inaccurate documentation.
Depending strictly on how much time you have (and stealing vigorously from ConcernedOfTunbridge's excellent answer) also on what state the project is in, here are a few critical things to document.
What it is: This section of your document should be written in 'client-speak'. That is, it should describe exactly what the application is supposed to do and include (for GUI related apps) "screenshots" or wireframes (they don't have to be pretty, MSPaint, GIMP, even WordArt would be acceptable) with arrows pointing out the functionality of each piece. It should be unambiguous, and the doc that you hand to the developers should be the exact doc that was signed by the client.
Why its good: This section should (hopefully) highlight any areas that are not fleshed out enough, because if they haven't been designed yet, you'll be forced to leave blanks in this section. Blanks at this stage are bad because they lead to scope creep, missed deliverables, and possibly death.
At this point you can choose to elaborate on why certain design decisions were made, but this document should be explicit about what is expected. At this point, you should beyond the stage of having the individual devs asking "why does it do that instead of XYZ?". However, for anything that is obscure and/or very unusual in its execution, you may want to add a note that explains why the design decision was made to go against typical functionality.
What it is: The architectural overview is not necessarily client facing. Obviously, you shouldn't make disparaging comments about them, because it IS a professional document, but this is expected to be a much lower level section than the previous one. Again, diagrams are very useful here.
This document should be arranged in some consistent format that follows a particular execution flow. A sample for a web application could be.
1. High Level Overview:
Front End Tier, Middle Tier (Services), Data Access Layer, Database
2. Overview of Each Tier
E.g. Front End Tier is split up into four applications. X does x, Y does y, Z does z, and ABBA prints lyrics to screen. You'll want to explain your interfaces at this level, so that the developers know what format their cross-over data will need to be in.
3. Overview of Each Application Within the Tiers
Detailed breakdown of how each application is expected to work in the back end, and how it is expected to interact with the other tiers. Code samples should be showing up at this level.
Across this information you can do depth first or breadth first, but it is critically important that it follow some sort of consistent flow, otherwise the developers will get confused and immediately disregard the document.
This should be a document which starts with your testing methodology (which should be company wide anyway) and drills down more specifically into how/what you will be testing. This step is often overlooked, even when there are testing structures in place, there usually is not a solid baseline of documentation to refer back to.
This should highlight areas that have come out in design discussions about areas that are likely to be more prone to error, as well as the areas that are critically common and will possibly be performance bottlenecks. Even if the picture is not perfect, it is still vitally important that you lay out the type of situations whi