Perl Style Guide: Difference between revisions
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The vim configuration would be <code>:set ts=8 sts=4 sw=4 noet</code> | The vim configuration would be <code>:set ts=8 sts=4 sw=4 noet</code> | ||
== Casing == | |||
Use '''PascalCase''' for module names and '''snake_case''' for variables and functions/methods. | |||
my $first_line = PVE::SomeModule::get_first_line($argument_one); | |||
== Breaking long lines and strings == | == Breaking long lines and strings == | ||
Line 49: | Line 55: | ||
=== Wrapping Arguments === | === Wrapping Arguments === | ||
Once you need to wrap a function call, wrap each argument, including the first, on a separate line. Keep the trailing comma for the last argument too. | Once you need to wrap a function call, wrap each argument, including the first, on a separate line. Keep the trailing comma for the last argument too. An alternative inspired by rustfmt is to put all arguments and the closing parenthesis on the next line with one additional indentation. | ||
# GOOD! Wrapped nicely, trailing commas added | # GOOD! Wrapped nicely, trailing commas added | ||
Line 62: | Line 68: | ||
# GOOD! Not too long, so there must not be any wrap | # GOOD! Not too long, so there must not be any wrap | ||
my $result = PVE::Some::Long::Module::Name::short($a); | my $result = PVE::Some::Long::Module::Name::short($a); | ||
# GOOD! Intermediate step inspired by rustfmt | |||
PVE::Tools::foo( | |||
$bar, $baz, $very_long_argument_bla_bla); | |||
# BAD! First argument needs to be on its own line | # BAD! First argument needs to be on its own line | ||
Line 77: | Line 87: | ||
... | ... | ||
$argument_last); | $argument_last); | ||
=== Wrapping Strings === | |||
Continued lines for multi-line strings should be indented one level more than the first line. The dot for concatenation and the space separating words within the string should be at the beginning of each continued line. | |||
# GOOD! Dot and space at the beginning, continuation indented once more | |||
description => "Enable backup fleecing. Cache backup data from blocks where new guest writes happen" | |||
." on specified storage instead of copying them directly to the backup target. This can help" | |||
." guest IO performance and even prevent hangs, at the cost of requiring more storage space.", | |||
# BAD! Dot and space at the end | |||
description => "Enable backup fleecing. Cache backup data from blocks where new guest writes ". | |||
"happen on specified storage instead of copying them directly to the backup target. This can ". | |||
"help guest IO performance and even prevent hangs, at the cost of requiring more storage ". | |||
"space.", | |||
# BAD! Do not move indentation over to match opening line, but add a single level | |||
description => "Enable backup fleecing. Cache backup data from blocks where new guest writes happen" | |||
." on specified storage instead of copying them directly to the backup target. This" | |||
." can help guest IO performance and even prevent hangs, at the cost of requiring" | |||
." more storage space.", | |||
=== Wrapping Post-If === | === Wrapping Post-If === | ||
Line 116: | Line 147: | ||
# GOOD: more fine-grained expression wrap is OK, can help readability | # GOOD: more fine-grained expression wrap is OK, can help readability | ||
# orient on surrounding code for what to use | # orient on surrounding code for what to use. Placing the logical | ||
# connectives in front is preferred. | |||
if ( | if ( | ||
!defined($another_variable_name) | !defined($another_variable_name) | ||
Line 241: | Line 273: | ||
While there certainly are way-too-long lines in our code already, please try to avoid adding more of them. | While there certainly are way-too-long lines in our code already, please try to avoid adding more of them. | ||
Generally, when a line is long, try to split it up | Generally, when a line is long, try to split it up reasonably, and when there's a followup block or statement afterwards (e.g. the contents of an <code>if</code> or <code>while</code>-loop), please *separate* the block visually: | ||
<pre> | <pre> | ||
Line 248: | Line 280: | ||
# Good: | # Good: | ||
if ($arg1->{foo}->{bar} && $arg2 * $arg1->{xzy} > $arg3->{baz} | if ( | ||
defined($arg1->{foo}->{bar}) && $arg2 * $arg1->{xzy} > $arg3->{baz} | |||
&& $arg3->{more} | && $arg3->{more} | ||
) { | ) { | ||
Line 259: | Line 292: | ||
} | } | ||
# Good: | # Good (enough): | ||
if ($arg1->{foo}->{bar} | if ($arg1->{foo}->{bar} | ||
&& $arg2 * $arg1->{xzy} > $arg3->{baz} | && $arg2 * $arg1->{xzy} > $arg3->{baz} | ||
Line 321: | Line 354: | ||
Setup the following configuration in <code>~/.perlcriticrc</code> to fine tune the policies: | Setup the following configuration in <code>~/.perlcriticrc</code> to fine tune the policies: | ||
<pre> | |||
severity = 5 | |||
[TestingAndDebugging::RequireUseStrict] | |||
severity = 5 | |||
[TestingAndDebugging::RequireUseWarnings] | |||
severity = 5 | |||
# we allow and use octals | |||
[Perl::Critic::Policy::ValuesAndExpressions::ProhibitLeadingZeros] | |||
severity = 2 | |||
# sub prototypes can be handy, even only sometimes | |||
[Perl::Critic::Policy::Subroutines::ProhibitSubroutinePrototypes] | |||
severity = 2 | |||
[Perl::Critic::Policy::BuiltinFunctions::RequireGlobFunction] | |||
severity = 2 | |||
[Perl::Critic::Policy::Freenode::DollarAB] | |||
severity = 2 | |||
# mostly for test, but also for very short module childs which live in the parent file | |||
[Perl::Critic::Policy::Modules::RequireFilenameMatchesPackage] | |||
severity = 4 | |||
# `return undef;` vs. `return;` - while the latter is tidier, it's not the highest severity! | |||
[Perl::Critic::Policy::Subroutines::ProhibitExplicitReturnUndef] | |||
severity = 4 | severity = 4 | ||
[Perl::Critic::Policy::InputOutput::ProhibitInteractiveTest] | |||
severity = 4 | |||
[Perl::Critic::Policy::Subroutines::RequireFinalReturn] | |||
severity = 3 | |||
[Perl::Critic::Policy::Variables::RequireLocalizedPunctuationVars] | |||
severity = 3 | |||
[Perl::Critic::Policy::ErrorHandling::RequireCheckingReturnValueOfEval] | |||
severity = 2 | |||
[Perl::Critic::Policy::RegularExpressions::RequireExtendedFormatting] | |||
severity = 2 | |||
# Discouraged because "author refuses to use public bugtracking and actively breaks | |||
# interoperability". Proxmox VE uses the Debian package so the former reason is not fully relevant | |||
# and the latter means being careful about incompatible dependencies, but it's the better option | |||
# than rewriting the Proxmox VE code that depends on AnyEvent. | |||
[Perl::Critic::Policy::Community::DiscouragedModules] | |||
allowed_modules = AnyEvent | |||
[Perl::Critic::Policy::Freenode::DiscouragedModules] | |||
allowed_modules = AnyEvent | |||
</pre> | |||
=== Usage === | === Usage === | ||
After installation and configuration you can use it by setting a directory or file as first argument, without that perlcritic waits on STDIN for code to check. | After installation and configuration you can use it by setting a directory or file as first argument, without that <code>perlcritic</code> waits on STDIN for code to check. | ||
perlcritic PVE/ | perlcritic PVE/ | ||
You can also set another | You can also set another severity to check by passing <code>-X</code> where X is the integer level: | ||
perlcritic -4 PVE/ | perlcritic -4 PVE/ | ||
Note that | Note that <code>perlcritic</code> does not enforce strict linting checks, so a | ||
perl -wc PVE/File.pm | perl -wc PVE/File.pm | ||
would be still required for some other checks - | would be still required for some other checks - in other words, those two tools complement each other. | ||
[[Category:Development]] |
Latest revision as of 08:36, 12 April 2024
PVE Perl Style Guide
Various of our files have inconsistent styles due to historical growth as well as because of the mixed styles we got from various contributors.
Please try to follow this guide if you're working on code for PVE to avoid adding to the style mess.
Here's a summary of our style (which is somewhat unusual at least when it comes to the mixed indentation).
Indentation
We indent by 4 spaces, assume tabs to be 8 spaces and convert all groups of 8 spaces into tabs at the beginning of a line. Here's an example, with tabs represented via '>........'
sub foo { my ($arg1, $arg2, $arg3) = @_; if ($arg1) { >.......print($arg2, "\n"); >.......if ($arg3) { >....... die "Exceptions should end with a newline in most cases\n" >.......>.......if $arg3 ne $arg2; >....... print("Another line\n"); >.......} } }
Like all editors for some reason I'll never understand we do not distinguish between indentation and alignment, so if you split up an expression over multiple lines we still use the same "all 8 spaces are 1 tab" pattern.
The vim configuration would be :set ts=8 sts=4 sw=4 noet
Casing
Use PascalCase for module names and snake_case for variables and functions/methods.
my $first_line = PVE::SomeModule::get_first_line($argument_one);
Breaking long lines and strings
The preferred limit on the length of a single line is 100 columns.
Statements longer than 80 columns may benefit readability if broken into sensible chunks, but often exceeding 80 columns avoids line-bloat or significantly increases readability while not hiding information. The maximal line length tolerated for those exceptions is 100 columns.
The vim configuration would be :set cc=81
or, to show both soft and hard limit: :set cc=81,101
See also Linus' mail on line-breaks: https://lkml.org/lkml/2020/5/29/1038
Wrapping Arguments
Once you need to wrap a function call, wrap each argument, including the first, on a separate line. Keep the trailing comma for the last argument too. An alternative inspired by rustfmt is to put all arguments and the closing parenthesis on the next line with one additional indentation.
# GOOD! Wrapped nicely, trailing commas added my $result = PVE::Some::Long::Module::Name::get_foo_bar_baz( $argument_one, $argument_two, $argument_three, ... $argument_last, );
# GOOD! Not too long, so there must not be any wrap my $result = PVE::Some::Long::Module::Name::short($a);
# GOOD! Intermediate step inspired by rustfmt PVE::Tools::foo( $bar, $baz, $very_long_argument_bla_bla);
# BAD! First argument needs to be on its own line my $result = PVE::Some::Long::Module::Name::get_foo_bar_baz($argument_one, $argument_two, ... $argument_last, );
# BAD! Do not move indentation over to match opening line, but add a single level # (or 4 spaces, depending on how other code in the module handles this). my $result = PVE::Some::Long::Module::Name::get_foo_bar_baz( $argument_one, $argument_two, ... $argument_last);
Wrapping Strings
Continued lines for multi-line strings should be indented one level more than the first line. The dot for concatenation and the space separating words within the string should be at the beginning of each continued line.
# GOOD! Dot and space at the beginning, continuation indented once more description => "Enable backup fleecing. Cache backup data from blocks where new guest writes happen" ." on specified storage instead of copying them directly to the backup target. This can help" ." guest IO performance and even prevent hangs, at the cost of requiring more storage space.",
# BAD! Dot and space at the end description => "Enable backup fleecing. Cache backup data from blocks where new guest writes ". "happen on specified storage instead of copying them directly to the backup target. This can ". "help guest IO performance and even prevent hangs, at the cost of requiring more storage ". "space.",
# BAD! Do not move indentation over to match opening line, but add a single level description => "Enable backup fleecing. Cache backup data from blocks where new guest writes happen" ." on specified storage instead of copying them directly to the backup target. This" ." can help guest IO performance and even prevent hangs, at the cost of requiring" ." more storage space.",
Wrapping Post-If
Always wrap the whole if EXPR
to a new line and intend with four (4) spaces once it gets too long.
post-if's allow concise error handling, so you can always assume that having only one line increases readability significantly. That means you can normally assume 100 columns as (preferred) text-width limit for post-if statements.
# GOOD: wrapped correctly $a_longer_variable_name = $some_hash->{value_foo} if !defined($another_variable_name) && defined($some_hash->{value_foo});
# GOOD: short enough, so one line it is $foo = $bar if defined($bar);
# BAD: once wrapping is required, the whole if condition needs to be ALWAYS on its own line $a_longer_variable_name = $some_hash->{value_foo} if !defined($another_variable_name) && defined($some_hash->{value_foo});
# BAD: wrap correctly but indentation is missing! $a_longer_variable_name = $some_hash->{value_foo} if !defined($another_variable_name) && defined($some_hash->{value_foo});
If a post-if has such a long expression where one would need to wrap that too, consider using a normal if (EXPR) {
instead.
In other words, a post-if should (generally) not be used if more than two lines are required to ensure the code uses not more than 100cc text-width.
# BAD: wrapping the actual post-if over multiple lines makes it very hard to read $a_longer_variable_name = $some_hash->{value_foo} if !defined($another_variable_name) && defined($some_hash->{value_foo}) && $another_condition && defined($yet_another_check);
# GOOD: use a "regular" if instead. Expression-wrapping is more flexible there, but # place the `) {` (closing `)` of `if` & start of block) on a separate line if wrapped if (!defined($another_variable_name) && defined($some_hash->{value_foo}) && $another_condition && defined($yet_another_check) ) { $a_longer_variable_name = $some_hash->{value_foo}; }
# GOOD: more fine-grained expression wrap is OK, can help readability # orient on surrounding code for what to use. Placing the logical # connectives in front is preferred. if ( !defined($another_variable_name) && defined($some_hash->{value_foo}) && $another_condition && defined($yet_another_check) ) { $a_longer_variable_name = $some_hash->{value_foo}; }
Also remember that you must NOT use post if when declaring the variable for the first time with my
!
# ERROR: declaration behind post-if is undefined and always a BUG! my $foo = $bar if defined($bar); # BAD!!!
Spacing and syntax usage
Spaces around parenthesis with syntactical words are inserted as you would in regular text (one before the opening parenthesis, one after the closing parenthesis). Similarly for curly braces:
- use
if (cond) {
- use
while (cond) {
- not
if(cond) {
- not
if (cond){
- not
if(cond){
BUT: no space between a function`s name and its parameter list:
func(params)
- not
func (params)
Use spaces around braces of lists:
- use
my $list = [ 1, 2, 3 ];
- use
my $hash = { one => 1, two => 2 };
No spaces for unary operators or sigils which are directly connected to one another, or in array/hash accesses (here the contents of the brackets or curly braces represent content of the expression/variable to its left, so it makes sense to "group" them):
- use
!$foo
- not
! $foo
- use
$foo->{text}
- use
$foo{text}
- use
$foo->[index]
- use
$foo[index]
- use
$foo->(index)
- not
&$foo(args)
- not
& $foo(args)
In general: use spaces in arithmetic expressions in a way which makes sense, eg. you can skip them on a short single binary operation, or if it helps reading the expression by grouping it so that the operator precedence is emphasized. Do not add spaces in a way which conflicts with the operators' precedences:
- use
a + b
- not
a+b
- may use
a*3 + b*4
- must not use
a+3 * b+4
In if-else blocks a else or elsif should be on it's own line together with its curly braces.
# Good if (expr) { code(); } else { code(); } # Bad if (expr) { code(); } else { code(); } # Bad if (expr) { code(); } else { code(); }
Perl syntax choices
Most of these are chosen for semantic clarity and should make it easier to understand the code for people who don't use much perl or simply aren't used to our code base:
- use
$foo->(args)
instead of&$foo(args)
- use
$foo->[subscript]
instead of$$foo[subscript]
- use
$foo->{subscript}
instead of$$foo{subscript}
When not accessing an element but simply dereferencing *once*, the dereferencing sigil can be put in front with braces, eg. ${stuff}
or @{stuff}
, provided stuff
is easy enough to read. Otherwise, pull stuff
out into a local variable first.
- prefer
$foo = value if !defined($foo);
- over
$foo //= value;
- over
- use
if (!cond) {
- over
unless (cond) {
- over
- use
for
when looping over a list of elements- over
foreach
- over
- prefer
foo($a, $b);
- over
foo $a, $b
- over
Function calls should favor the use of parentheses. Omitting them is only allowed in simple cases.
foo($a, $b); # ok foo $a, $b; # okay, but discouraged print $a, $b; # okay, print is commonly used this way print($a, $b); # preferred delete $a->{b}; # okay, common my $var = delete($hash->{key}) // "default"; # ok my $var = delete $hash->{key} // "default"; # NOT ok!
As a rule of thumb, when operators are involved, or when calling functions other than print, map
or grep
, always use parentheses for function calls.
Blocks and multi-line statements
While there certainly are way-too-long lines in our code already, please try to avoid adding more of them.
Generally, when a line is long, try to split it up reasonably, and when there's a followup block or statement afterwards (e.g. the contents of an if
or while
-loop), please *separate* the block visually:
sub foo { my ($arg1, $arg2, $arg3) = @_; # Good: if ( defined($arg1->{foo}->{bar}) && $arg2 * $arg1->{xzy} > $arg3->{baz} && $arg3->{more} ) { >.......code(); } # Bad: (block not visually distinct from the code()) if ($arg1->{foo}->{bar} && $arg2 * $arg1->{xzy} > $arg3->{baz} && $arg3->{more}) { >.......code(); } # Good (enough): if ($arg1->{foo}->{bar} && $arg2 * $arg1->{xzy} > $arg3->{baz} && $arg3->{more} ) { >.......code(); } # Bad: (inconsistent '&&' placement) if ($arg1->{foo}->{bar} && $arg2 * $arg1->{xzy} > $arg3->{baz} && $arg3->{more}) { >.......code(); } }
If a language permits leaving out braces for single statements in an if
for example, *do* use braces when the condition spans multiple lines.
Comments
Besides the fact that your comments should not explain what happens for a code hunk, but rather why it is they way it is, or why it even exists if one could question that, you should adhere to the following rules:
- at least a single space after the initial comment hash symbol (#), more can be added for formatting purposes
- try to stay below the 80 or 100 character per line length limit, whatever limit the surrounding codes uses
- do not add newlines early, use the full width (80 to 100 cc) available
- short comments can stay in the same line as the to-be-commented statement
- try to keep comment and its related statement(s) together location-wise, so that it's clear what the comment target is.
Regular Expressions
Matching Digits Fallacy
For matching digits normally \d
is used, but this has some implications which may not be expected.
Namely, it matches all "Unicode Characters" (code points) from the 'Number, Decimal Digit' Category.
If you think that this could have any implication on security or long term functionality then do not use \d
but use the [0-9]
character class.
Non-Capturing Groups
Normally you should use non capturing groups (?:)
as long as you do not need to use the value in parenthesis.
They can make the regex execution faster and simpler to understand.
Basic Linting with perlcritic
You can use perlcritic
to avoid some runtime errors and style issues, it's far from perfect or fixing the issues dynamic languages have in general, but it's also better than nothing by a lot.
Note that when perlcritic
outputs something like "See page 207 of PBP." it means Damian Conway's Perl Best Practice, an good reference in general. You may be able to obtain that book as PDF if you search a bit.
Installation
You can install it from the Debian package repositories:
apt update apt install libperl-critic-perl libperl-critic-freenode-perl
Configuration
We target the highest severity level 5 only for now, albeit you can also try the level 4 to see if some other sensible style nits pop up, but that level may already get a bit noisy.
Setup the following configuration in ~/.perlcriticrc
to fine tune the policies:
severity = 5 [TestingAndDebugging::RequireUseStrict] severity = 5 [TestingAndDebugging::RequireUseWarnings] severity = 5 # we allow and use octals [Perl::Critic::Policy::ValuesAndExpressions::ProhibitLeadingZeros] severity = 2 # sub prototypes can be handy, even only sometimes [Perl::Critic::Policy::Subroutines::ProhibitSubroutinePrototypes] severity = 2 [Perl::Critic::Policy::BuiltinFunctions::RequireGlobFunction] severity = 2 [Perl::Critic::Policy::Freenode::DollarAB] severity = 2 # mostly for test, but also for very short module childs which live in the parent file [Perl::Critic::Policy::Modules::RequireFilenameMatchesPackage] severity = 4 # `return undef;` vs. `return;` - while the latter is tidier, it's not the highest severity! [Perl::Critic::Policy::Subroutines::ProhibitExplicitReturnUndef] severity = 4 [Perl::Critic::Policy::InputOutput::ProhibitInteractiveTest] severity = 4 [Perl::Critic::Policy::Subroutines::RequireFinalReturn] severity = 3 [Perl::Critic::Policy::Variables::RequireLocalizedPunctuationVars] severity = 3 [Perl::Critic::Policy::ErrorHandling::RequireCheckingReturnValueOfEval] severity = 2 [Perl::Critic::Policy::RegularExpressions::RequireExtendedFormatting] severity = 2 # Discouraged because "author refuses to use public bugtracking and actively breaks # interoperability". Proxmox VE uses the Debian package so the former reason is not fully relevant # and the latter means being careful about incompatible dependencies, but it's the better option # than rewriting the Proxmox VE code that depends on AnyEvent. [Perl::Critic::Policy::Community::DiscouragedModules] allowed_modules = AnyEvent [Perl::Critic::Policy::Freenode::DiscouragedModules] allowed_modules = AnyEvent
Usage
After installation and configuration you can use it by setting a directory or file as first argument, without that perlcritic
waits on STDIN for code to check.
perlcritic PVE/
You can also set another severity to check by passing -X
where X is the integer level:
perlcritic -4 PVE/
Note that perlcritic
does not enforce strict linting checks, so a
perl -wc PVE/File.pm
would be still required for some other checks - in other words, those two tools complement each other.