package C::Scan;
require Exporter;
use Config '%Config';
use File::Basename;
use Data::Flow qw(0.05);
use strict; # Earlier it catches ISA and EXPORT.
@C::Scan::ISA = qw(Exporter Data::Flow);
# Items to export into callers namespace by default. Note: do not export
# names by default without a very good reason. Use EXPORT_OK instead.
# Do not simply export all your public functions/methods/constants.
@C::Scan::EXPORT = qw(
);
@C::Scan::EXPORT_OK = qw(
);
# this flag tells cpp to only output macros
$C::Scan::MACROS_ONLY = '-dM';
$C::Scan::VERSION = '0.74';
my (%keywords,%style_keywords);
for (qw(asm auto break case char continue default do double else enum
extern float for fortran goto if int long register return short
sizeof static struct switch typedef union unsigned signed while void)) {
$keywords{$_}++;
}
for (qw(bool class const delete friend inline new operator overload private
protected public virtual)) {
$style_keywords{'C++'}{$_}++;
}
for (qw(__func__ _Complex _Imaginary _Bool inline restrict)) {
$style_keywords{'C9X'}{$_}++;
}
for (qw(inline const asm noreturn format section
constructor destructor unused weak)) {
$style_keywords{'GNU'}{$_}++;
$style_keywords{'GNU'}{"__$ {_}__"}++;
}
$style_keywords{'GNU'}{__attribute__}++;
$style_keywords{'GNU'}{__extension__}++;
$style_keywords{'GNU'}{__consts}++;
$style_keywords{'GNU'}{__const}++;
my $recipes
= { Defines => { default => '' },
cppstdin => { default => $Config{cppstdin} },
cppflags => { default => $Config{cppflags} },
cppminus => { default => $Config{cppminus} },
c_styles => { default => [qw(C++ GNU C9X)] },
add_cppflags => { default => '' },
keywords => { prerequisites => ['c_styles'],
output => sub {
my %kw = %keywords;
my %add;
for ( @{ shift->{c_styles} } ) {
%add = %{ $style_keywords{$_} };
%kw = (%kw, %add);
}
\%kw;
}, },
'undef' => { default => undef },
filename_filter => { default => undef },
full_text => { class_filter => [ 'text', 'C::Preprocessed',
qw(undef filename Defines includeDirs Cpp)] },
text => { class_filter => [ 'text', 'C::Preprocessed',
qw(filename_filter filename Defines includeDirs Cpp)] },
text_only_from => { class_filter => [ 'text_only_from', 'C::Preprocessed',
qw(filename_filter filename Defines includeDirs Cpp)] },
includes => { filter => [ \&includes,
qw(filename Defines includeDirs Cpp) ], },
includeDirs => { prerequisites => ['filedir'],
output => sub {
my $data = shift;
[ $data->{filedir}, '/usr/local/include', '.'];
} },
Cpp => { prerequisites => [qw(cppminus add_cppflags cppflags cppstdin)],
output => sub {
my $data = shift;
return { cppstdin => $data->{cppstdin},
cppflags => "$data->{cppflags} $data->{add_cppflags}",
cppminus => $data->{cppminus} };
} },
filedir => { output => sub { dirname ( shift->{filename} || '.' ) } },
sanitized => { filter => [ \&sanitize, 'text'], },
toplevel => { filter => [ \&top_level, 'sanitized'], },
full_sanitized => { filter => [ \&sanitize, 'full_text'], },
full_toplevel => { filter => [ \&top_level, 'full_sanitized'], },
no_type_decl => { filter => [ \&remove_type_decl, 'toplevel'], },
typedef_chunks => { filter => [ \&typedef_chunks, 'full_toplevel'], },
typedefs_maybe => { filter => [ sub {[keys %{+shift}]}, 'typedef_hash'], },
typedefs_whited => { filter => [ \&typedefs_whited,
'full_sanitized', 'typedef_chunks',
'keywords_rex'], },
typedef_texts => { filter => [ \&typedef_texts,
'full_text', 'typedef_chunks'], },
typedef_hash => { filter => [ \&typedef_hash,
'typedef_texts', 'typedefs_whited'], },
typedef_structs => { filter => [ \&typedef_structs,
'typedef_hash'], },
defines_maybe => { filter => [ \&defines_maybe, 'filename'], },
defines_no_args => { prerequisites => ['defines_maybe'],
output => sub { shift->{defines_maybe}->[0] }, },
defines_args => { prerequisites => ['defines_maybe'],
output => sub { shift->{defines_maybe}->[1] }, },
defines_full => { filter => [ \&defines_full,
qw(filename Defines includeDirs Cpp) ], },
defines_no_args_full => { prerequisites => ['defines_full'],
output => sub { shift->{defines_full}->[0] }, },
defines_args_full => { prerequisites => ['defines_full'],
output => sub { shift->{defines_full}->[1] }, },
decl_inlines => { filter => [ \&functions_in, 'no_type_decl'], },
inline_chunks => { filter => [ sub { shift->[0] }, 'decl_inlines'], },
inlines => { filter => [ \&from_chunks, 'inline_chunks', 'text'], },
decl_chunks => { filter => [ sub { shift->[1] }, 'decl_inlines'], },
decls => { filter => [ \&from_chunks, 'decl_chunks', 'text'], },
fdecl_chunks => { filter => [ sub { shift->[4] }, 'decl_inlines'], },
fdecls => { filter => [ \&from_chunks, 'fdecl_chunks', 'text'], },
mdecl_chunks => { filter => [ sub { shift->[2] }, 'decl_inlines'], },
mdecls => { filter => [ \&from_chunks, 'mdecl_chunks', 'text'], },
vdecl_chunks => { filter => [ sub { shift->[3] }, 'decl_inlines'], },
vdecls => { filter => [ \&from_chunks, 'vdecl_chunks', 'text'], },
vdecl_hash => { filter => [ \&vdecl_hash, 'vdecls', 'mdecls' ], },
parsed_fdecls => { filter => [ \&do_declarations, 'fdecls',
'typedef_hash', 'keywords'], },
keywords_rex => { filter => [ sub { my @k = keys %{ shift() };
local $" = '|';
my $r = "(?:@k)";
eval 'qr/$r/' or $r # Older Perls
}, 'keywords'], },
};
sub from_chunks {
my $chunks = shift;
my $txt = shift;
my @out;
my $i = 0;
while ($i < @$chunks) {
push @out, substr $txt, $chunks->[$i], $chunks->[ $i + 1 ] - $chunks->[$i];
$i += 2;
}
\@out;
}
#sub process { request($recipes, @_) }
# Preloaded methods go here.
sub includes {
my %seen;
my $stream = new C::Preprocessed (@_)
or die "Cannot open pipe from cppstdin: $!\n";
while (<$stream>) {
next unless m(^\s*\#\s* # Leading hash
(line\s*)? # 1: Optional line
([0-9]+)\s* # 2: Line number
(.*) # 3: The rest
)x;
my $include = $3;
$include = $1 if $include =~ /"(.*)"/; # Filename may be in quotes
$include =~ s,\\\\,/,g if $^O eq 'os2';
$seen{$include}++ if $include ne "";
}
[keys %seen];
}
sub defines_maybe {
my $file = shift;
my ($mline,$line,%macros,%macrosargs,$sym,$args);
open(C, $file) or die "Cannot open file $file: $!\n";
while (not eof(C) and $line = <C>) {
next unless
( $line =~ s[
^ \s* \# \s* # Start of directive
define \s+
(\w+) # 1: symbol
(?:
\( (.*?) \s* \) # 2: Minimal match for arguments
# in parenths (without trailing
# spaces)
)? # optional, no grouping
\s* # rest is the definition
([\s\S]*) # 3: the rest
][]x );
($sym, $args, $mline) = ($1, $2, $3);
$mline .= <C> while not eof(C) and $mline =~ s/\\\n/\n/;
chomp $mline;
#print "sym: `$sym', args: `$args', mline: `$mline'\n";
if (defined $args) {
$macrosargs{$sym} = [ [split /\s*,\s*/, $args], $mline];
} else {
$macros{$sym} = $mline;
}
}
close(C) or die "Cannot close file $file: $!\n";
[\%macros, \%macrosargs];
}
sub defines_full {
my $Cpp = $_[3];
my ($mline,$line,%macros,%macrosargs,$sym,$args);
# save the old cppflags and add the flag for only ouputting macro definitions
my $old_cppstdin = $Cpp->{'cppstdin'};
$Cpp->{'cppstdin'} = $old_cppstdin . " " . $C::Scan::MACROS_ONLY;
my $stream = new C::Preprocessed (@_)
or die "Cannot open pipe from cppstdin: $!\n";
while (defined ($line = <$stream>)) {
next unless
( $line =~ s[
^ \s* \# \s* # Start of directive
define \s+
(\w+) # 1: symbol
(?:
\( (.*?) \s* \) # 2: Minimal match for arguments
# in parenths (without trailing
# spaces)
)? # optional, no grouping
\s* # rest is the definition
([\s\S]*) # 3: the rest
][]x );
($sym, $args, $mline) = ($1, $2, $3);
$mline .= <$stream> while ($mline =~ s/\\\n/\n/);
chomp $mline;
#print STDERR "sym: `$sym', args: `$args', mline: `$mline'\n";
if (defined $args) {
$macrosargs{$sym} = [ [split /\s*,\s*/, $args], $mline];
} else {
$macros{$sym} = $mline;
}
}
# restore the original cppflags
$Cpp->{'cppstdin'} = $old_cppstdin;
[\%macros, \%macrosargs];
}
# sub nexttypedef {
# return unless $_[0] =~ /(\G|^|;)\s*typedef\b/g;
# my $start = pos($_[0]) - 7;
# nextsemi($_[0]);
# my $end = pos $_[0];
# # warn "Found `", substr($_[0], $start, $end - $start), "'\n" if $debug;
# return $start, $end;
# }
# sub nextsemi {
# my $n = 0;
# while ($_[0] =~ /([\(\{\[])|([\]\)\}])|(\;)/g) {
# $n++ if defined $1;
# $n-- if defined $2;
# return if defined $3 and $n == 0;
# }
# die "No semicolon on the outer level";
# }
sub typedef_texts {
my ($txt, $chunks) = (shift, shift);
my ($b, $e, $in, @out);
my @in = @$chunks;
while (($b, $e) = splice @in, 0, 2) {
$in = substr($txt, $b, $e - $b);
# remove any remaining directives
$in =~ s/^ ( \s* \# .* ( \\ $ \n .* )* ) / ' ' x length($1)/xgem;
push @out, $in;
}
\@out;
}
sub typedef_hash_old {
+{ map {($_,1)} map /(\w+)/, @{$_[0]} };
}
sub typedef_hash {
my ($typedefs, $whited) = (shift,shift);
my %out;
loop:
for my $o (0..$#$typedefs) {
my $wh = $whited->[$o];
my $td = $typedefs->[$o];
if ($wh =~ /,/ or not $wh =~ /\w/) { # Hard case, guessimates ...
# Determine whether the new thingies are inside parens
$wh =~ /,/g;
my $p = pos $wh;
my ($s, $e);
if (matchingbrace($wh)) { # Inside. Easy part: just split on /,/...
$e = pos($wh) - 1;
$s = $e;
my $d = 0;
# Skip back
while (--$s >= 0) {
my $c = substr $wh, $s, 1;
if ($c =~ /[\(\{\[]/) {
$d--;
} elsif ($c =~ /[\)\]\}]/) {
$d++;
}
last if $d < 0;
}
if ($s < 0) { # Should not happen
warn("panic: could not match braces in\n\t$td\nwhited as\n\t$wh\n");
next loop;
}
$s++;
} else { # We are at toplevel
# We need to skip back all the modifiers attached to the first thingy
# Guesstimates: everything after the first '*' (inclusive)
pos $wh = 0;
$wh = /(?=\w)/g;
my $ws = pos $wh;
my $pre = substr $wh, 0, $ws;
$s = $ws;
$s = pos $pre if $pre =~ /(?=\*)/g;
$e = length $wh;
}
# Now: need to split $td based on commas in $wh!
# And need to split each chunk of $td based on word in the chunk of $wh!
my $td_decls = substr($td, $s, $e - $s);
my ($pre, $post) = (substr($td, 0, $s), substr($td, $e));
my $wh_decls = substr($wh, $s, $e - $s);
my @wh_decls = split /,/, $wh_decls;
my $td_s = 0;
my (@td_decl, @td_pre, @td_post, @td_word);
for my $wh_d (@wh_decls) {
my $td_d = substr $td, $td_s, length $wh_d;
push @td_decl, $td_d;
$wh_d =~ /(\w+)/g;
push @td_word, $1;
push @td_post, substr $td_d, pos($wh_d);
push @td_pre, substr $td_d, pos($wh_d) - length $1, length $1;
$td_s += 1 + length $wh_d; # Skip over ','
}
for my $i (0..$#wh_decls) {
my $p = "$td_post[$i]$post";
$p = '' unless $p =~ /\S/;
$out{$td_word[$i]} = ["$pre$td_pre[$i]", $p];
}
} else { # Only one thing defined...
$wh =~ /(\w+)/g;
my $e = pos $wh;
my $s = $e - length $1;
my $type = $1;
my $pre = substr $td, 0, $s;
my $post = substr $td, $e, length($td) - $e;
$post = '' unless $post =~ /\S/;
$out{$type} = [$pre, $post];
}
}
\%out;
}
sub typedef_chunks { # Input is toplevel, output: starts and ends
my $txt = shift;
pos $txt = 0;
my ($b, $e, @out);
while ($txt =~ /\btypedef\b/g) {
push @out, pos $txt;
$txt =~ /(?=;)|\Z/g;
push @out, pos $txt;
}
\@out;
}
sub typedef_structs {
my $typehash = shift;
my %structs;
while (my($key, $text) = each %$typehash) {
my $name = parse_struct($text->[0], \%structs);
$structs{$key} = defined($name) ? $structs{$name} : undef;
}
\%structs;
}
sub parse_struct {
my($in, $structs) = @_;
my($b, $e, $chunk, $vars, $struct, $structname);
($structname, $in) = $in =~ /
^ \s* ( (?: struct | union ) (?: \s+ \w+ )? ) \s* { \s* (.*?) \s* } \s* $
/gisx or return;
$structname .= " _ANON" unless $structname =~ /\s/;
$structname .= " 0" if exists $structs->{$structname};
$structname =~ s/(\d+$)/$1 + 1/e while exists $structs->{$structname};
$b = 0;
while ($in =~ /(\{|;|$)/g) {
matchingbrace($in), next if $1 eq '{';
$e = pos($in);
next if $b == $e;
$chunk = substr($in, $b, $e - $b);
$b = $e;
if ($chunk =~ /\G\s*(struct|union).*\}/gs) {
my $term = pos $chunk;
my $name = parse_struct(substr($chunk, 0, $term), $structs);
$vars = parse_vars(join ' ', $name, substr $chunk, $term);
} else {
$vars = parse_vars($chunk);
}
push @$struct, @$vars;
}
$structs->{$structname} = $struct;
$structname;
}
sub parse_vars {
my $in = shift;
my($vars, $type, $word, $id, $post);
while ($in =~ /\G\s*([\[;,]|\S+?\b|$)\s*/g) {
$word = $1;
if ($word eq ';' || $word eq '') {
next unless defined $id;
$type = 'int' unless defined $type; # or is this an error?
push @$vars, [ $type, $post, $id ];
($type, $post, $id) = (undef, undef, undef);
} elsif ($word eq ',') {
warn "panic: expecting name before comma in '$in'\n" unless defined $id;
$type = 'int' unless defined $type; # or is this an error?
push @$vars, [ $type, $post, $id ];
$type =~ s/[ *]*$//;
$id = undef;
} elsif ($word eq '[') {
warn "panic: expecting name before '[' in '$in'\n" unless defined $id;
$type = 'int' unless defined $type; # or is this an error?
my $b = pos $in;
matchingbrace($in);
$post .= $word . substr $in, $b, pos($in) - $b;
} else {
if (defined $post) {
warn "panic: not expecting '$word' after array bounds in '$in'\n";
} else {
$type = join ' ', grep defined, $type, $id if defined $id;
$id = $word;
}
}
}
$vars;
}
sub vdecl_hash {
my($vdecls, $mdecls) = @_;
my %vdecl_hash;
for (@$vdecls, @$mdecls) {
next if /[()]/; # ignore functions, and function pointers
my $copy = $_;
next unless $copy =~ s/^\s*extern\s*//;
my $vars = parse_vars($copy);
$vdecl_hash{$_->[2]} = [ @$_[0, 1] ] for @$vars;
}
\%vdecl_hash;
}
# The output is the list of list of inline chunks and list of
# declaration chunks.
sub functions_in { # The arg is text without type declarations.
my $in = shift; # remove_type_decl(top_level(sanitize($txt)));
# What remains now consists of variable and function declarations,
# and inline functions.
$in =~ /(?=\S)/g;
my ($b, $e, $b1, $e1, @inlines, @decls, @mdecls, @fdecls, @vdecls);
$b = pos $in;
my $chunk;
while ($b != length $in) {
$in =~ /;/g or pos $in = $b, $in =~ /.*\S|\Z/g ; # Or last non-space
$e = pos $in;
$chunk = substr $in, $b, $e - $b;
# Now subdivide the chunk.
#
# What we got is one chunk, probably finished by `;'. Whoever, it
# may start with several inline functions.
#
# Note that inline functions contain ( ) { } in the stripped version.
$b1 = 0;
while ($chunk =~ /\(\s*\)\s*\{\s*\}/g) {
$e1 = pos $chunk;
push @inlines, $b + $b1, $b + $e1;
$chunk =~ /(?=\S)/g;
$b1 = pos $chunk;
$b1 = length $chunk, last unless defined $b1;
}
if ($e - $b - $b1 > 0) {
push @decls, $b + $b1, $e;
substr ($chunk, 0, $b1) = '';
if ($chunk =~ /,/) { # Contains multiple declarations.
push @mdecls, $b + $b1, $e;
} else { # Non-multiple.
my $isvar = 1;
# Since leading \s* is not optimized, this is quadratic!
$chunk =~ s{
( ( const
| __attribute__ \s* \( \s* \)
) \s* )* ( ; \s* )? \Z # Strip from the end
}()x;
$chunk =~ s/\s*\Z//;
if ($chunk =~ /\)\Z/) { # Function declaration ends on ")"!
if ($chunk !~ m{
\( .* \( # Multiple parenths
}x
and $chunk =~ / \w \s* \( /x) { # Most probably pointer to a function?
$isvar = 0;
}
}
if ($isvar) { # Heuristically variable
push @vdecls, $b + $b1, $e;
} else {
push @fdecls, $b + $b1, $e;
}
}
}
$in =~ /\G\s*/g ;
$b = pos $in;
}
[\@inlines, \@decls, \@mdecls, \@vdecls, \@fdecls];
}
sub typedefs_whited { # Input is sanitized text, and list of beg/end.
my @lst = @{$_[1]};
my @out;
my ($b, $e);
while ($b = shift @lst) {
$e = shift @lst;
push @out, whited_decl($_[2], substr $_[0], $b, $e - $b);
}
\@out;
}
# XXXX This is heuristical in many respects...
# Recipe: remove all struct-ish chunks. Remove all array specifiers.
# Remove GCC attribute specifiers.
# What remains may contain function's arguments, old types, and newly
# defined types.
# Remove function arguments using heuristics methods.
# Now out of several words in a row the last one is a newly defined type.
sub whited_decl { # Input is sanitized.
my $keywords_rex = shift;
my $in = shift; # Text of a declaration
my $rest = $in;
my $out = $in; # Whited out $in
# Remove all the structs
while ($out =~ /(\b(struct|union|class|enum)(\s+\w+)?\s*\{)/g) {
my $pos_start = pos($out) - length $1;
matchingbrace($out);
my $pos_end = pos $out;
substr($out, $pos_start, $pos_end - $pos_start) =
' ' x ($pos_end - $pos_start);
pos $out = $pos_end;
}
# Deal with glibc's wierd ass __attribute__ tag. Just dump it.
# Maaaybe this should check to see if you're using GCC, but I don't
# think so since glibc is nice enough to do that for you. [MGS]
while ( $out =~ m/(\b(__attribute__|attribute)\s*\((?=\s*\())/g ) {
my $att_pos_start = pos($out) - length($1);
# Need to figure out where ((..)) ends.
matchingbrace($out);
my $att_pos_end = pos $out;
# Remove the __attribute__ tag.
substr($out, $att_pos_start, $att_pos_end - $att_pos_start) =
' ' x ($att_pos_end - $att_pos_start);
pos $out = $att_pos_end;
}
# Remove arguments of functions (heuristics only).
# These things (start) arglist of a declared function:
# paren word comma
# paren word space non-paren
# paren keyword paren
# start a list of arguments. (May be "cdecl *myfunc"?) XXXXX ?????
while ( $out =~ /(\(\s*(\w+(,|\s+[^\)\s])|$keywords_rex\s*\)))/g ) {
my $pos_start = pos($out) - length($1);
pos $out = $pos_start + 1;
matchingbrace($out);
substr ($out, $pos_start + 1, pos($out) - 2 - $pos_start)
= ' ' x (pos($out) - 2 - $pos_start);
}
# Remove array specifiers
$out =~ s/(\[[\w\s\+]*\])/ ' ' x length $1 /ge;
my $tout = $out;
# Several words in a row cannot be new typedefs, but the last one.
$out =~ s/((\w+\s+)+(?=[^\s,;\[\{\)]))/ ' ' x length $1 /ge;
unless ($out =~ /\w/) {
# Probably a function-type declaration: typedef int f(int);
# Redo scan leaving the last word of the first group of words:
$tout =~ /(\w+\s+)*(\w+)/g;
$out = ' ' x (pos($tout) - length $2)
. $2 . ' ' x (length($tout) - pos($tout));
# warn "function typedef\n\t'$in'\nwhited-out as\n\t'$out'\n";
}
warn "panic: length mismatch\n\t'$in'\nwhited-out as\n\t'$out'\n"
if length($in) != length $out;
# Sanity check
warn "panic: multiple types without intervening comma in\n\t$in\nwhited-out as\n\t$out\n"
if $out =~ /\w[^\w,]+\w/;
warn "panic: no types found in\n\t$in\nwhited-out as\n\t$out\n"
unless $out =~ /\w/;
$out
}
sub matchingbrace {
# pos($_[0]) is after the opening brace now
my $n = 0;
while ($_[0] =~ /([\{\[\(])|([\]\)\}])/g) {
$1 ? $n++ : $n-- ;
return 1 if $n < 0;
}
# pos($_[0]) is after the closing brace now
return; # false
}
sub remove_Comments_no_Strings { # We expect that no strings are around
my $in = shift;
$in =~ s,/(/.*|\*[\s\S]*?\*/),,g ; # C and C++
die "Unfinished comment" if $in =~ m,/\*, ;
$in;
}
sub sanitize { # We expect that no strings are around
my $in = shift;
# C and C++, strings and characters
$in =~ s{ / (
/ .* # C++ style
|
\* [\s\S]*? \*/ # C style
) # (1)
| '((?:[^\\\']|\\.)+)' # (2) Character constants
| "((?:[^\\\"]|\\.)*)" # (3) Strings
| ( ^ \s* \# .* # (4) Preprocessor
( \\ $ \n .* )* ) # and continuation lines
} {
# We want to preserve the length, so that one may go back
defined $1 ? ' ' x (1 + length $1) :
defined $4 ? ' ' x length $4 :
defined $2 ? "'" . ' ' x length($2) . "'" :
defined $3 ? '"' . ' ' x length($3) . '"' : '???'
}xgem ;
die "Unfinished comment" if $in =~ m{ /\* }x;
$in;
}
sub top_level { # We expect argument is sanitized
# Note that this may remove the variable in declaration: int (*func)();
my $in = shift;
my $start;
my $out = $in;
while ($in =~ /[\[\{\(]/g ) {
$start = pos $in;
matchingbrace($in);
substr($out, $start, pos($in) - 1 - $start)
= ' ' x (pos($in) - 1 - $start);
}
$out;
}
sub remove_type_decl { # We suppose that the arg is top-level only.
my $in = shift;
$in =~ s/(\b__extension__)(\s+typedef\b)/(' ' x length $1) . $2/gse;
$in =~ s/(\btypedef\b.*?;)/' ' x length $1/gse;
# The following form may appear only in the declaration of the type itself:
$in =~
s/(\b(enum|struct|union|class)\b[\s\w]*\{\s*\}\s*;)/' ' x length $1/gse;
# Pre-declarations:
$in =~
s/(\b(enum|struct|union|class)\b[\s\w]*;)/' ' x length $1/gse;
$in;
}
sub new {
my $class = shift;
my $out = SUPER::new $class $recipes;
$out->set(@_);
$out;
}
sub do_declarations {
my @d = map do_declaration($_, $_[1], $_[2]), @{ $_[0] };
\@d;
}
# Forth argument: if defined, there maybe no identifier. Generate one
# basing on this argument.
sub do_declaration {
my ($decl, $typedefs, $keywords, $argnum) = @_;
$decl =~ s/;?\s*$//;
my ($type, $typepre, $typepost, $ident, $args, $w, $pos, $repeater);
$decl =~ s/^\s*extern\b\s*//;
$pos = 0;
while ($decl =~ /(\w+)/g and ($typedefs->{$1} or $keywords->{$1})) {
$w = $1;
if ($w =~ /^(struct|class|enum|union)$/) {
$decl =~ /\G\s+\w+/g or die "`$w' is not followed by word in `$decl'";
}
$pos = pos $decl;
}
pos $decl = $pos;
$decl =~ /\G[\s*]*\*/g or pos $decl = $pos;
$type = substr $decl, 0, pos $decl;
$decl =~ /\G\s*/g or pos $decl = length $type; # ????
$pos = pos $decl;
if (defined $argnum) {
if ($decl =~ /\G(\w+)((\s*\[[^][]*\])*)/g) { # The best we can do with [2]
$ident = $1;
$repeater = $2;
$pos = pos $decl;
} else {
pos $decl = $pos = length $decl;
$type = $decl;
$ident = "arg$argnum";
}
} else {
die "Cannot process declaration `$decl' without an identifier"
unless $decl =~ /\G(\w+)/g;
$ident = $1;
$pos = pos $decl;
}
$decl =~ /\G\s*/g or pos $decl = $pos;
$pos = pos $decl;
if (pos $decl != length $decl) {
pos $decl = $pos;
die "Expecting parenth after identifier in `$decl'\nafter `",
substr($decl, 0, $pos), "'"
unless $decl =~ /\G\(/g;
my $argstring = substr($decl, pos($decl) - length $decl);
matchingbrace($argstring) or die "Cannot find matching parenth in `$decl'";
$argstring = substr($argstring, 0, pos($argstring) - 1);
$argstring =~ s/ ^ ( \s* void )? \s* $ //x;
$args = [];
my @args;
if ($argstring ne '') {
my $top = top_level $argstring;
my $p = 0;
my $arg;
while ($top =~ /,/g) {
$arg = substr($argstring, $p, pos($top) - 1 - $p);
$arg =~ s/^\s+|\s+$//gs;
push @args, $arg;
$p = pos $top;
}
$arg = substr $argstring, $p;
$arg =~ s/^\s+|\s+$//gs;
push @args, $arg;
}
my $i = 0;
for (@args) {
push @$args, do_declaration1($_, $typedefs, $keywords, $i++);
}
}
[$type, $ident, $args, $decl, $repeater];
}
sub do_declaration1 {
my ($decl, $typedefs, $keywords, $argnum) = @_;
$decl =~ s/;?\s*$//;
my ($type, $typepre, $typepost, $ident, $args, $w, $pos, $repeater);
$pos = 0;
while ($decl =~ /(\w+)/g and ($typedefs->{$1} or $keywords->{$1})) {
$w = $1;
if ($w =~ /^(struct|class|enum|union)$/) {
$decl =~ /\G\s+\w+/g or die "`$w' is not followed by word in `$decl'";
}
$pos = pos $decl;
}
pos $decl = $pos;
$decl =~ /\G[\s*]*\*/g or pos $decl = $pos;
$type = substr $decl, 0, pos $decl;
$decl =~ /\G\s*/g or pos $decl = length $type; # ????
$pos = pos $decl;
if (defined $argnum) {
if ($decl =~ /\G(\w+)((\s*\[[^][]*\])*)/g) { # The best we can do with [2]
$ident = $1;
$repeater = $2;
$pos = pos $decl;
} else {
pos $decl = $pos = length $decl;
$type = $decl;
$ident = "arg$argnum";
}
} else {
die "Cannot process declaration `$decl' without an identifier"
unless $decl =~ /\G(\w+)/g;
$ident = $1;
$pos = pos $decl;
}
$decl =~ /\G\s*/g or pos $decl = $pos;
$pos = pos $decl;
if (pos $decl != length $decl) {
pos $decl = $pos;
die "Expecting parenth after identifier in `$decl'\nafter `",
substr($decl, 0, $pos), "'"
unless $decl =~ /\G\(/g;
my $argstring = substr($decl, pos($decl) - length $decl);
matchingbrace($argstring) or die "Cannot find matching parenth in `$decl'";
$argstring = substr($argstring, 0, pos($argstring) - 1);
$argstring =~ s/ ^ ( \s* void )? \s* $ //x;
$args = [];
my @args;
if ($argstring ne '') {
my $top = top_level $argstring;
my $p = 0;
my $arg;
while ($top =~ /,/g) {
$arg = substr($argstring, $p, pos($top) - 1 - $p);
$arg =~ s/^\s+|\s+$//gs;
push @args, $arg;
$p = pos $top;
}
$arg = substr $argstring, $p;
$arg =~ s/^\s+|\s+$//gs;
push @args, $arg;
}
my $i = 0;
for (@args) {
push @$args, do_declaration2($_, $typedefs, $keywords, $i++);
}
}
[$type, $ident, $args, $decl, $repeater];
}
############################################################
package C::Preprocessed;
use Symbol;
use File::Basename;
use Config;
sub new {
die "usage: C::Preprocessed->new(filename[, defines[, includes[, cpp]]])"
if @_ < 2 or @_ > 5;
my ($class, $filename, $Defines, $Includes, $Cpp)
= (shift, shift, shift, shift, shift);
$Cpp ||= \%Config::Config;
my $filedir = dirname $filename || '.';
$Includes ||= [$filedir, '/usr/local/include', '.'];
my $addincludes = "";
$addincludes = "-I" . join(" -I", @$Includes)
if defined $Includes and @$Includes;
my($sym) = gensym;
my $cmd = "echo '\#include \"$filename\"' | $Cpp->{cppstdin} $Defines $addincludes $Cpp->{cppflags} $Cpp->{cppminus} |";
#my $cmd = "$Cpp->{cppstdin} $Defines $addincludes $Cpp->{cppflags} $Cpp->{cppminus} < $filename |";
#my $cmd = "echo '\#include <$filename>' | $Cpp->{cppstdin} $Defines $addincludes $Cpp->{cppflags} $Cpp->{cppminus} |";
(open($sym, $cmd) or die "Cannot open pipe from `$cmd': $!")
and bless $sym => $class;
}
sub text {
my $class = shift;
my $filter = shift;
if (defined $filter) {
return text_only_from($class, $filter, @_);
}
my $stream = $class->new(@_);
my $oh = select $stream;
$/ = undef;
select $oh;
<$stream>;
}
sub text_only_from {
my $class = shift;
my $from = shift || die "Expecting argument in `text_only_from'";
my $stream = $class->new(@_);
my $on = $from eq $_[0];
my $eqregexp = $on ? '\"\"|' : '';
my @out;
while (<$stream>) {
#print;
$on = /$eqregexp[\"\/]\Q$from\"/ if /^\#/;
push @out, $_ if $on;
}
join '', @out;
}
sub DESTROY {
close($_[0])
or die "Cannot close pipe from `$Config::Config{cppstdin}': err $?, $!\n";
}
# Autoload methods go after __END__, and are processed by the autosplit program.
# Return to the principal package.
package C::Scan;
1;
__END__
=head1 NAME
C::Scan - scan C language files for easily recognized constructs.
=head1 SYNOPSIS
$c = new C::Scan 'filename' => $filename, 'filename_filter' => $filter,
'add_cppflags' => $addflags;
$c->set('includeDirs' => [$Config::Config{shrpdir}]);
my $fdec = $c->get('parsed_fdecls');
=head1 DESCRIPTION
B<This description is I<VERY> incomplete.>
This module uses C<Data::Flow> interface, thus one uses it in the
following fashion:
$c = new C::Scan(attr1 => $value1, attr2 => $value2);
$c->set( attr3 => $value3 );
$value4 = $c->get('attr4');
Attributes are depending on some other attributes. The only
I<required> attribute, i.e., the attribute which I<should> be set, is
C<filename>, which denotes which file to parse.
All other attributes are either optional, or would be calculated basing on values of required and optional attributes.
=head2 Output attributes
=over 14
=item C<includes>
Value: reference to a list of included files.
=item C<defines_args>
Value: reference to hash of macros with arguments. The values are
references to an array of length 2, the first element is a reference
to the list of arguments, the second one being the expansion.
Newlines are not unescaped, thus
#define C(x,y) E\
F
will finish with C<("C" =E<gt> [ ["x", "y"], "E\nF"])>.
=item C<defines_no_args>
Value: reference to hash of macros without arguments. Newlines are
not escaped, thus
#define A B
will finish with C<("A" =E<gt> "B")>.
=item C<fdecls>
Value: reference to list of declarations of functions.
=item C<inlines>
Value: reference to list of definitions of functions.
=item C<parsed_fdecls>
Value: reference to list of parsed declarations of functions.
A parsed declaration is a reference to a list of C<(rt, nm, args, ft,
mod)>. Here C<rt> is return type of a function, C<nm> is the name,
C<args> is the list of arguments, C<ft> is the full text of the
declaration, and C<mod> is the modifier (which is always C<undef>).
Each entry in the list C<args> is of the same form C<(ty, nm, args,
ft, mod)>, here C<ty> is the type of an argument, C<nm> is the name (a
generated one if missing in the declaration), C<args> is C<undef>, and
C<mod> is the string of array modifiers.
=item C<typedef_hash>
Value: a reference to a hash which contains known C<typedef>s as keys.
Values of the hash are array references of length 2, with what should
be put before/after the type for a standalone typedef declaration (but
without the C<typedef> substring).
Parse uses naive heuristics.
=item C<typedef_texts>
Value: a reference to a list which contains known expansions of
C<typedef>s.
=item C<typedefs_maybe>
Value: a reference to a list of C<typedef>ed names. Heuristics are used.
=item C<vdecls>
Value: a reference to a list of C<extern> variable declarations.
=item C<vdecl_hash>
Value: a reference to a hash of parsed C<extern> variable declarations,
containing the variable names as keys. Values of the hash are array
references of length 2, with what should be put before/after the name
for a standalone extern variable declaration (but without the C<extern>
substring).
=item C<typedef_structs>
Value: a reference to a hash of parsed struct declarations from typedefs.
Keys are typedefed names, values are C<undef> if not a struct or union,
else an array reference of definitions of the elements of the structure;
each definition is itself an array reference of length 3, consisting of
what should be put before/after the name for a standalone variable
declaration, followed by the name of the element. Anonymous structs and
unions used within the definitions are given an arbitrary name including
the string C<ANON>, and referred to using that name.
=back
=cut