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docs/pdds/pdd07_codingstd.pod - Conventions and Guidelines for Parrot Source Code
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This document describes the various rules, guidelines and advice for those wishing to contribute to the source code of Parrot, in such areas as code structure, naming conventions, comments etc.
One of the criticisms of Perl 5 is that its source code is impenetrable to newcomers, due to such things as inconsistent or obscure variable naming conventions, lack of comments in the source code, and so on. We don't intend to make the same mistake when writing Parrot. Hence this document.
We define three classes of conventions:
Note that since Parrot is substantially implemented in C, these rules apply to C language source code unless otherwise specified.
In addition,
C code may assume that any pointer value can be coerced to an integral type (no smaller than typedef INTVAL
in Parrot),
then back to its original type,
without loss.
Also C code may assume that there is a single NULL pointer representation and that it consists of a number, usually 4 or 8, of '\0' chars in memory.
C code that makes assumptions beyond these must depend on the configuration system, either to not compile an entire non-portable source where it will not work, or to provide an appropriate #ifdef macro.
Perl code may use features not available in Perl 5.8.0 only if it is not vital to Parrot,
and if it uses $^O
and $]
to degrade or fail gracefully when it is run where the features it depends on are not available.
The following must apply:
}
that closes an if
must line up with the if
.else
s are forbidden: i.e.
avoid } else {
. #define PMC_pmc_val(pmc) (pmc)->obj.u._ptrs._pmc_val
The following should apply:
Interp *foo
, but not Interp *foo
.return (x+y)*2
. There should be no space between a function name and the following open parenthesis, e.g. z = foo(x+y)*2
.
and ->
) should have at least one space on either side; there should be no space between unary operators and their operands; parentheses should not have space immediately after the opening parenthesis nor immediately before the closing parenthesis; commas should have at least one space after, but not before; e.g.: x = (a-- + b) * f(c, d / e.f)
foo = 1 + 100;
x = 100 + 1;
whatever = 100 + 100;
... to this (good):
foo = 1 + 100;
x = 100 + 1;
whatever = 100 + 100;
(Note that formatting consistency trumps this rule. For example, a long if
/else if
chain is easier to read if all (or none) of the conditional code is in blocks.)
{{ RT#45365: Modify parrot.el so this rule is no longer required. }}
if (a && (b = c)) ...
or if ((a = b)) ...
. something_long_here = something_very_long + something_else_also_long
- something_which_also_could_be_long;
z = foo(bar + baz(something_very_long_here
* something_else_very_long),
corge);
The following must apply:
/* comment */
. (Not all C compilers handle C++-style comments.)PARROT_
, followed by unique and descriptive text identifying the header file (usually the directory path and filename), and end with a _GUARD
suffix. The matching #endif
must have the guard macro name in a comment, to prevent confusion. For example, a file named parrot/foo.h might look like: #ifndef PARROT_FOO_H_GUARD
#define PARROT_FOO_H_GUARD
#include "parrot/config.h"
#ifdef PARROT_HAS_FEATURE_FOO
# define FOO_TYPE bar
typedef struct foo {
...
} foo_t;
#endif /* PARROT_HAS_FEATURE_FOO */
#endif /* PARROT_FOO_H_GUARD */
The following should apply
typedef struct Foo {
...
} Foo;
#ifndef NO_FEATURE_FOO
.if (!foo) ...
.However, the sense of the expression being checked must be a boolean. Specifically, strcmp()
and its brethren are three-state returns.
if ( !strcmp(x,y) ) # BAD, checks for if x and y match, but looks
# like it is checking that they do NOT match.
if ( strcmp(x,y) == 0 ) # GOOD, checks proper return value
if ( STREQ(x,y) ) # GOOD, uses boolean wrapper macro
(Note: PMC *
values should be checked for nullity with the PMC_IS_NULL
macro, unfortunately leading to violations of the double-negative rule.)
All developers using Emacs must ensure that their Emacs instances load the elisp source file editor/parrot.el before opening Parrot source files. See "README.pod" in editor for instructions.
All source files must end with an editor instruction coda:
/*
* Local variables:
* c-file-style: "parrot"
* End:
* vim: expandtab shiftwidth=4:
*/
# Local Variables:
# mode: cperl
# cperl-indent-level: 4
# fill-column: 100
# End:
# vim: expandtab shiftwidth=4:
Exception: Files with __END__
or __DATA__
blocks do not require the coda. This is at least until there is some consensus as to how solve the issue of using editor hints in files with such blocks.
# Local Variables:
# mode: pir
# fill-column: 100
# End:
# vim: expandtab shiftwidth=4 ft=pir:
{{ XXX - Proper formatting and syntax coloring of C code under Emacs requires that Emacs know about typedefs. We should provide a simple script to update a list of typedefs, and parrot.el should read it or contain it. }}
Parrot runs on many, many platforms, and will no doubt be ported to ever more bizarre and obscure ones over time. You should never assume an operating system, processor architecture, endian-ness, size of standard type, or anything else that varies from system to system.
Since most of Parrot's development uses GNU C, you might accidentally depend on a GNU feature without noticing. To avoid this, know what features of gcc are GNU extensions, and use them only when they're protected by #ifdefs.
C arrays, including strings, are very sharp tools without safety guards, and Parrot is a large program maintained by many people. Therefore:
Don't use a char *
when a Parrot STRING would suffice. Don't use a C array when a Parrot array PMC would suffice. If you do use a char *
or C array, check and recheck your code for even the slightest possibility of buffer overflow or memory leak.
Note that efficiency of some low-level operations may be a reason to break this rule. Be prepared to justify your choices to a jury of your peers.
unsigned char
to isxxx()
and toxxx()
Pass only values in the range of unsigned char
(and the special value -1, a.k.a. EOF
) to the isxxx() and toxxx() library functions. Passing signed characters to these functions is a very common error and leads to incorrect behavior at best and crashes at worst. And under most of the compilers Parrot targets, char
is signed.
const
keyword on argumentsUse the const
keyword as often as possible on pointers. It lets the compiler know when you intend to modify the contents of something. For example, take this definition:
int strlen(const char *p);
The const
qualifier tells the compiler that the argument will not be modified. The compiler can then tell you that this is an uninitialized variable:
char *p;
int n = strlen(p);
Without the const
, the compiler has to assume that strlen()
is actually initializing the contents of p
.
const
keyword on variablesIf you're declaring a temporary pointer, declare it const
, with the const to the right of the *
, to indicate that the pointer should not be modified.
Wango * const w = get_current_wango();
w->min = 0;
w->max = 14;
w->name = "Ted";
This prevents you from modifying w
inadvertantly.
new_wango = w++; /* Error */
If you're not going to modify the target of the pointer, put a const
to the left of the type, as in:
const Wango * const w = get_current_wango();
if (n < wango->min || n > wango->max) {
/* do something */
}
Declare variables in the innermost scope possible.
if (foo) {
int i;
for (i = 0; i < n; i++)
do_something(i);
}
Don't reuse unrelated variables. Localize as much as possible, even if the variables happen to have the same names.
if (foo) {
int i;
for (i = 0; i < n; i++)
do_something(i);
}
else {
int i;
for (i = 14; i > 0; i--)
do_something_else(i * i);
}
You could hoist the int i;
outside the test, but then you'd have an i
that's visible after it's used, which is confusing at best.
Sometimes new files will be created in the configuration and build process of Parrot. These files should not show up when checking the distribution with
svn status
or
perl tools/dev/manicheck.pl
The list of these ignore files can be set up with:
svn propedit svn:ignore <PATH>
In order to keep the two different checks synchronized, the MANIFEST and MANIFEST.SKIP files should be regenerated with:
perl tools/dev/mk_manifest_and_skip.pl
and the files then committed to the Parrot svn repository.
The svn:mime-type
property must be set to text/plain
for all test files, and may be set to text/plain
for other source code files in the repository. Using auto-props, Subversion can automatically set this property for you on test files. To enable this option, add the following to your ~/.subversion/config:
[miscellany]
enable-auto-props = yes
[auto-props]
*.t = svn:mime-type=text/plain
The t/distro/file_metadata.t test checks that the files needing this property have it set.
The svn:keywords
property should be set to:
Author Date Id Revision
on each file with a mime-type of text/plain
. Do this with the command:
svn propset svn:keywords "Author Date Id Revision" <filename>
The t/distro/file_metadata.t test checks that the files needing this property have it set.
The svn:eol-style
property makes sure that whenever a file is checked out of subversion it has the correct end-of-line characters appropriate for the given platform. Therefore, most files should have their svn:eol-style
property set to native
. However, this is not true for all files. Some input files to tests (such as the *.input
and *.output
files for PIR tests) need to have LF
as their svn:eol-style
property. The current list of such files is described in t/distro/file_metadata.t.
Set the svn:eol-style
property to native
with the command:
svn propset svn:eol-style "native" <filename>
Set the svn:eol-style
property to LF
with the command:
svn propset svn:eol-style "LF" <filename>
The t/distro/file_metadata.t test checks that the files needing this property have it set.
foo.h
PARROT_IN_CORE
.foo_private.h
PARROT_IN_FOO
so that code knows when it is being used within that subsystem. The file will also contain all the 'convenience' macros used to define shorter working names for functions without the perl prefix (see below).foo_globals.h
foo_bar.[ch]
etc.foo_
.new_foo_bar
rather than NewFooBar
or (gasp) newfoobar
.create_foo_from_bar()
in preference to ct_foo_bar()
. Avoid cryptic abbreviations wherever possible.pmc_foo()
, struct io_bar
.Parrot_foo
, and should only use typedefs with external visibility (or types defined in C89). Generally these functions should not be used inside the core, but this is not a hard and fast rule.pmc_foo
.Foo_bar
. The exception to this is when the first component is a short abbreviation, in which case the whole first component may be made uppercase for readability purposes, e.g. IO_foo
rather than Io_foo
. Structures should generally be typedefed.PMC_foo_FLAG
, PMC_bar_FLAG
, ...._FLAG
, e.g. PMC_readonly_FLAG
(although you probably want to use an enum
instead.)_TEST
, e.g. if (PMC_readonly_TEST(foo)) ...
_SET
, e.g. PMC_readonly_SET(foo);
_CLEAR
, e.g. PMC_readonly_CLEAR(foo);
_MASK
, e.g. foo &= ~PMC_STATUS_MASK
(but see notes on extensibility below)._SETALL
, _CLEARALL
, _TESTALL
or _TESTANY
suffixes as appropriate, to indicate aggregate bits, e.g. PMC_valid_CLEARALL(foo)
.HAS_
, e.g. HAS_BROKEN_FLOCK
, HAS_EBCDIC
.IN_
, e.g. PARROT_IN_CORE
, PARROT_IN_PMC
, PARROT_IN_X2P
. Individual include file visitations should be marked with PARROT_IN_FOO_H
for file foo.h
USE_
, e.g. PARROT_USE_STDIO
, USE_MULTIPLICITY
.DECL_
, e.g. DECL_SAVE_STACK
. Note that macros which implicitly declare and then use variables are strongly discouraged, unless it is essential for portability or extensibility. The following are in decreasing preference style-wise, but increasing preference extensibility-wise. { Stack sp = GETSTACK; x = POPSTACK(sp) ... /* sp is an auto variable */
{ DECL_STACK(sp); x = POPSTACK(sp); ... /* sp may or may not be auto */
{ DECL_STACK; x = POPSTACK; ... /* anybody's guess */
foo_globals
for subsystem foo
. This structure's declaration is placed in the file foo_globals.h
. Then somewhere a single compound structure will be declared which has as members the individual structures from each subsystem. Instances of this structure are then defined as a one-off global variable, or as per-thread instances, or whatever is required.GLOBAL_foo
(the name being deliberately clunky). So we might for example have the following macros: /* perl_core.h or similar */
#ifdef HAS_THREADS
# define GLOBALS_BASE (aTHX_->globals)
#else
# define GLOBALS_BASE (Parrot_globals)
#endif
/* pmc_private.h */
#define GLOBAL_foo GLOBALS_BASE.pmc.foo
#define GLOBAL_bar GLOBALS_BASE.pmc.bar
... etc ...
The importance of good code documentation cannot be stressed enough. To make your code understandable by others (and indeed by yourself when you come to make changes a year later), the following conventions apply to all source files.
del_I_foo()
/*
=item C<function(arguments)>
Description.
=cut
*/
% perl tools/docs/write_docs.pl -s
/* The loop is partially unrolled here as it makes it a lot faster.
* See the file in docs/dev for the full details
*/
if (FOO_bar_BAZ(**p+*q) <= (r-s[FOZ & FAZ_MASK]) || FLOP_2(z99)) {
/* we're in foo mode: clean up lexicals */
... (20 lines of gibberish) ...
}
else if (...) {
/* we're in bar mode: clean up globals */
... (20 more lines of gibberish) ...
}
else {
/* we're in baz mode: self-destruct */
....
}
If Perl 5 is anything to go by, the lifetime of Perl 6 will be at least seven years. During this period, the source code will undergo many major changes never envisaged by its original authors -- c.f. threads, unicode in perl 5. To this end, your code should balance out the assumptions that make things possible, fast or small, with the assumptions that make it difficult to change things in future. This is especially important for parts of the code which are exposed through APIs -- the requirements of source or binary compatibility for such things as extensions can make it very hard to change things later on.
For example, if you define suitable macros to set/test flags in a struct, then you can later add a second word of flags to the struct without breaking source compatibility. (Although you might still break binary compatibility if you're not careful.) Of the following two methods of setting a common combination of flags, the second doesn't assume that all the flags are contained within a single field:
foo->flags |= (FOO_int_FLAG | FOO_num_FLAG | FOO_str_FLAG);
FOO_valid_value_SETALL(foo);
Similarly, avoid using a char*
(or {char*,length}
) if it is feasible to later use a PMC *
at the same point: c.f. UTF-8 hash keys in Perl 5.
Of course, private code hidden behind an API can play more fast and loose than code which gets exposed.
We want Parrot to be fast. Very fast. But we also want it to be portable and extensible. Based on the 90/10 principle, (or 80/20, or 95/5, depending on who you speak to), most performance is gained or lost in a few small but critical areas of code. Concentrate your optimization efforts there.
Note that the most overwhelmingly important factor in performance is in choosing the correct algorithms and data structures in the first place. Any subsequent tweaking of code is secondary to this. Also, any tweaking that is done should as far as possible be platform independent, or at least likely to cause speed-ups in a wide variety of environments, and do no harm elsewhere.
If you do put an optimization in, time it on as many architectures as you can, and be suspicious of it if it slows down on any of them! Perhaps it will be slow on other architectures too (current and future). Perhaps it wasn't so clever after all? If the optimization is platform specific, you should probably put it in a platform-specific function in a platform-specific file, rather than cluttering the main source with zillions of #ifdefs.
And remember to document it.
Not all files can strictly fall under these guidelines as they are automatically generated by other tools, or are external files included in the Parrot repository for convenience. Such files include the C header and source files automatically generated by (f)lex and yacc/bison, and some of the Perl modules under the lib/ directory.
To exempt a file (or directory of files) from checking by the coding standards tests, one must edit the appropriate exemption list within lib/Parrot/Distribution.pm
(in either of the methods is_c_exemption()
or is_perl_exemption()
). One can use wildcards in the list to exempt, for example, all files under a given directory.
The section on coding style is based on Perl 5's "patching.pod" in Porting by Daniel Grisinger. The section on naming conventions grew from some suggestions by Paolo Molaro <lupus@lettere.unipd.it>. Other snippets came from various P5Pers.
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