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CodingGuidelines
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CodingGuidelines
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The most important coding rule is to imitate the existing code
(that is always a good idea in any project you are contributing
to). If you add or modify code in existing modules, try to match
the style of the surrounding code in the module.
First a few general rules that perhaps go without saying:
- Make sure that your code compiles without warnings.
- Make sure that there are no calls to undefined functions.
In the Wings shell, use wx(). (Use wh() to show a list of
other useful utility commands.)
- This is not really a coding guideline, but don't forget
Bjorn's Law: "If it isn't tested, it doesn't work." This law
has proved itself to be correct many times in the fifteen years
or so since I formulated it. There is no change to the code
(or Makefile) that is so trivial that it can't possibly be wrong
and does not need testing.
- Don't sacrifice clarity for efficiency, unless it is truly
needed. Make sure that you measure (use the ?TC() macro) to
find the real bottleneck before you start optimizing. Even good
programmers are usually wrong when they try to guess where the
where the bottlenecks are located.
There some hints about efficiency in the guidelines below. For
more about efficiency, see
http://www.erlang.org/doc/efficiency_guide/part_frame.html
And now over to more concrete rules:
- Indent Erlang code using a mixture of tabs and spaces,
and interpret tabs as up to 8 spaces (this is the default
settings for the Erlang mode in Emacs).
It is also OK to indent using spaces only, if you use an
editor where it is difficult to mix tabs and spaces.
What is not OK is to change the definitions of tabs in your
editor, because that will make indentation look different
for everybody else.
- Each new level should be indented 4 more positions than
the previous one (default for the Erlang mode in Emacs).
- One percent character ("%") is used for comments *only* following
a line of code. Never place single percent characters at the
beginning of a line. Example:
-record(some_record,
{bar, %List of bar objects
foo %Keep track of the foos
.
.
.
}).
- Use two percent characters ("%%") for comment blocks before
a function or inside a function. Thus the percent characters are
either at the beginning of a line or preceded by white-space.
See src/wings_va.erl for the recommend way to comment exported
API functions.
- Use three percent characters ("%%%") for comments that apply
to more than one function. For instance like this:
%%%
%%% Local functions.
%%%
to indicate that the rest of the file contain local functions.
- Try to use at most 80 characters per line.
- Never comment out deleted code. Delete it from the file. We
use Git to keep track of the history of the file. Explain in
the check-in comment why you deleted the code. (The only
acceptable exception is *frequently* used io:format/2 calls used
for debugging.)
- Place the exported functions (and no local function) at the
beginning of the module. Local functions should follow all exported
functions. (This rule apply to new modules. Do not change all modules
that break that rule at once. We will do it step-by-step when doing
other changes to avoid huge diffs in the Git repository.)
- Place one blank line between each function definition, except possibly
for related one-line functions.
- Do not use -import. Use fully qualified calls -
Module:Function(Arguments...) - instead.
- But do import functions (such as map/2, reverse/1, and foldl/3) from
the 'lists' module. Importing those functions (that can be thought
of being part of the language) improves readability so much that
it justifies breaking the general rule. Further justification:
Robert Virding does it this way. (Robert Virding is one of the
original inventors of Erlang.)
- Also import min/2 and max/2 from the 'erlang' module for the
same reason.
- Commas in function heads and function calls should be followed
by one space. Example:
g(A, B, C) ->
A + g(B, c).
- Don't use any space after commas in terms and records. Example:
{ok,[1,2,3]}
- Don't use spaces around '=' in records.
- When you want to match and bind a variable at the same time in a
function head or case clause, put the pattern before the variable,
and no spaces around the '='. Example:
foo(#edge{vs=Va,lf=Lf}=Rec) ->
...
- Never use is is_record/2. Match the record directly instead:
bar(#we{}=We) ->
...
The Erlang compiler usually generate better code if the
record is matched directly, especially if there are other
clauses that match other records or data structures.
- Prefer matching out variables from records like this
foobar(Face, #we{fs=Ftab0}=We) ->
case gb_trees:get(Face, Ftab0) of
......
instead of using the Rec#record.field syntax
foobar(Face, We) ->
case gb_trees:get(Face, We#we.fs) of
...
The Erlang compiler usually generates better code in the former
case. Especially avoid using the Rec#record.field in guards, as
the Erlang compiler usually generates terrible code. That is,
do NOT write:
bad_idea(We) when We#we.id > 0 ->
...
- Spread out record definitions on multiple lines with each field
name on separate line and comment each field with a comment
on the same line.
- Atom and function names consisting of several words should be
written in lowercase and combined with underscores ('_').
Example: long_atom_name
- Variable names consisting of several words should be written in
CamelCase, that is, the first letter of each word should be in
uppercase and the words should be joined together without spaces.
Example: VariableInCamelCase
- Frequently used variables are better kept short, to avoid having
to break too many lines. Try to use the existing conventions
instead of inventing your own. Common names to hold entire
records are:
We to hold a #we{} record
St to hold a #st{} record
Common names for record fields are:
#we{fs=Ftab,es=Etab,vp=Vtab}
#edge{vs=Va,ve=Vb,lf=Lf,rf=Rf,
ltpr=Ltpr,ltsu=Ltsu,rtpr=Rtpr,rtsu=Rtsu}
If you have no better names (more specific), use [H|T] for
matching out the head and tail of a list (there is no reason to
use longer names such as [Head|Tail] and [First|Rest]).
- When naming variables, atoms, and functions, prefer pronounceable
names. Avoid names such as "Btn" (short for "Button") and "Mnu"
(short for "Menu") which were constructed by removing vowels from
a single word.
Accepted abbreviations such as HTML is OK to use in variable names,
as are new abbreviations constructed by taking the first letter of
several words (e.g. "Lf" which stands for "Left Face").
Naming is the hardest thing in programming (at least for me) and in
the end you will just have to use your common sense to come up
with good names.
- Don't look into abstract/opaque data types. For instance, do NOT
write like this
ugly_selected_element(#st{sel=[{Id,{1,Element,_,_}}]}=St) ->
do_something(Id, Element, St);
ugly_selected_element(_) ->
wings_u:error_msg("Only select a single element.").
to implement a command that only accepts a selection containing
a single element. Breaking abstractions is not acceptable. You
will just have to bite the bullet and write:
selected_element(#st{sel=[{Id,Sel}]}=St) ->
case gb_sets:to_list(Sel) of
[Element] ->
do_something(Id, Element, St);
_ ->
mul_sel_error()
end;
selected_element(_) -> mul_sel_error().
mul_sel_error() ->
wings_u:error_msg("Only select a single element.").
Common abstract data types in the standard libraries are
gb_trees, gb_sets, array, dict, and sets. In Wings, we have
the wings_va module that must be used for all manipulation of
vertex attributes.
- Use existing APIs and libraries. Don't write new code to
manipulate common data structures before doing a serious attempt
to find out whether there is existing functionality that can
solve your problem.
- Never use size/1; use either tuple_size/1 or byte_size/1.
- Don't use lists:keysearch/3; use lists:keyfind/3 (introduced
in R13B) which eliminates the outer '{value,...}' tuple.
- Avoid 'and' and 'or'. They force you to use parenthesis around
the conditions
(A =:= B) and (C =:= D)
Instead, use comma (for 'and') or semi-colon (for 'or') in guards
f(A, B, C, D) when A =:= B, C =:= D ->
...
For Boolean expression outside of guards, prefer 'andalso'/'orelse':
case A =:= B andalso C =:= D of
false -> ...'
true -> ...
end
Only use 'and' or 'or' if it is important that the right-hand side
is evaluated. For instance, the following expression
true or length(L) > 1
will cause an exception if L is not bound to a list, while
true orelse length(B) > 1
will never cause an exception.
'and' and 'andalso' will in general only behave differently when they
are nested inside another Boolean expression or in a negated Boolean
expression. For example, the following expression
not (false and (length(L) > 42))
will behave differently from
not (false andalso length(L) > 42)
when L is not bound to a list.
- Only use 'andalso'/'orelse' in guards when ',' and ';' cannot say
what you want to say. For example, do not write
foo(A, B) when A =:= 7 orelse B =:= 42 ->
...
when
foo(A, B) when A =:= 7; B =:= 42 ->
...
will do just fine.
- When you need several variable names in order to update a data
structure, number using "0" as suffix for the first instance.
Example:
update(We0) ->
We1 = some_update(We0),
We2 = some_other_update(We1),
We = penultimate_update(We2),
final_update(We).
- Note the difference between '==' and '=:=':
2 == 2.0 returns 'true'.
2 =:= 2.0 returns 'false'.
In matching, '=:=' is used implicitly. So given the following
function definition
equal(Same, Same) -> true;
equal(_, _) -> false.
calling cmp(2, 2) will return 'true' and cmp(2, 2.0) returns
'false'. So to be consistent with matching, you must use the
'=:=' operator.
On the other hand, the '<', '>', '=<', and '>=' operators all
behave similar to '=='. Therefore, in the following function
cmp(A, B) when A < B -> less;
cmp(A, B) when A == B -> equal;
cmp(A, B when A > B -> greater.
the operator in the second clause must be '==' and not '=:='.
If the function was defined like this
bad_cmp(A, B) when A < B -> less;
bad_cmp(A, B) when A =:= B -> equal;
bad_cmp(A, B when A > B -> greater.
the call bad_cmp(2, 2.0) will cause 'function_clause' exception
because none of the clauses will match.
For non-numeric data types, '==' and '=:=' gives the same result,
but '=:=' is slightly faster.
To corresponding operators for testing non-equality are called
'/=' and '=/='.
I recommend using '=:=' and '=/=' unless there is a specific
reason not to.