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tdelibs/dcop/dcopidlng/kalyptus

1623 lines
38 KiB

#!/usr/bin/perl -I/Users/duke/src/kde/tdebindings/kalyptus
# KDOC -- C++ and CORBA IDL interface documentation tool.
# Sirtaj Singh Kang <taj@kde.org>, Jan 1999.
# $Id$
# All files in this project are distributed under the GNU General
# Public License. This is Free Software.
require 5.000;
use Carp;
use Getopt::Long;
use File::Basename;
use strict;
use Ast;
use kdocUtil;
use kdocAstUtil;
use kdocParseDoc;
use vars qw/ %rootNodes $declNodeType @includes_list %options @formats_wanted $allow_k_dcop_accessors
$skipInternal %defines $defines $match_qt_defines
$libname $outputdir $parse_global_space $striphpath $doPrivate $readstdin
$Version $quiet $debug $debuggen $parseonly $currentfile $cSourceNode $exe
%formats %flagnames @allowed_k_dcop_accesors $allowed_k_dcop_accesors_re $rootNode
@classStack $cNode $globalSpaceClassName
$lastLine $docNode @includes $cpp $defcppcmd $cppcmd $docincluded
$inExtern $inNamespace %stats %definitions @inputqueue @codeqobject /;
## globals
%rootNodes = (); # root nodes for each file type
$declNodeType = undef; # last declaration type
@includes_list = (); # list of files included from the parsed .h
# All options
%options = (); # hash of options (set getopt below)
@formats_wanted = ();
$libname = "";
$outputdir = ".";
$striphpath = 0;
$doPrivate = 0;
$Version = "0.9";
$quiet = 0;
$debug = 0;
$debuggen = 0;
$parseonly = 0;
$globalSpaceClassName = "QGlobalSpace";
$currentfile = "";
$cpp = 0;
$defcppcmd = "g++ -Wp,-C -E";
$cppcmd = "";
$exe = basename $0;
@inputqueue = ();
@codeqobject = split "\n", <<CODE;
public:
virtual QMetaObject *metaObject() const;
virtual const char *className() const;
virtual void* tqt_cast( const char* );
virtual bool tqt_invoke( int, QUObject* );
virtual bool tqt_emit( int, QUObject* );
virtual bool tqt_property( int, int, QVariant* );
static QMetaObject* staticMetaObject();
QObject* qObject();
static QString tr( const char *, const char * = 0 );
static QString trUtf8( const char *, const char * = 0 );
private:
CODE
# Supported formats
%formats = ( "dcopidl" => "kalyptusCxxToDcopIDL" );
# these are for expansion of method flags
%flagnames = ( v => 'virtual', 's' => 'static', p => 'pure',
c => 'const', l => 'slot', i => 'inline', n => 'signal',
d => 'k_dcop', z => 'k_dcop_signals', y => 'k_dcop_hidden' );
@allowed_k_dcop_accesors = qw(k_dcop k_dcop_hidden k_dcop_signals);
$allowed_k_dcop_accesors_re = join("|", @allowed_k_dcop_accesors);
%definitions = {
_STYLE_CDE => '',
_STYLE_MOTIF => '',
_STYLE_MOTIF_PLUS => '',
PLUS => '',
_STYLE_PLATINUM => '',
_STYLE_SGI => '',
_STYLE_WINDOWS => '',
QT_STATIC_CONST => 'static const',
Q_EXPORT => '',
Q_REFCOUNT => '',
QM_EXPORT_CANVAS => '',
QM_EXPORT_DNS => '',
QM_EXPORT_ICONVIEW => '',
QM_EXPORT_NETWORK => '',
QM_EXPORT_SQL => '',
QM_EXPORT_WORKSPACE => '',
TQT_NO_REMOTE => 'TQT_NO_REMOTE',
QT_ACCESSIBILITY_SUPPORT => 'QT_ACCESSIBILITY_SUPPORT',
Q_WS_X11 => 'Q_WS_X11',
TQ_DISABLE_COPY => 'TQ_DISABLE_COPY',
Q_WS_QWS => 'undef',
Q_WS_MAC => 'undef',
Q_OBJECT => <<'CODE',
TQ_OBJECT => <<'CODE',
public:
virtual QMetaObject *metaObject() const;
virtual const char *className() const;
virtual bool tqt_invoke( int, QUObject* );
virtual bool tqt_emit( int, QUObject* );
static QString tr( const char *, const char * = 0 );
static QString trUtf8( const char *, const char * = 0 );
private:
CODE
};
=head1 KDOC -- Source documentation tool
Sirtaj Singh Kang <taj@kde.org>, Dec 1998.
=cut
# read options
Getopt::Long::config qw( no_ignore_case permute bundling auto_abbrev );
GetOptions( \%options,
"format|f=s", \@formats_wanted,
"url|u=s",
"skip-internal", \$skipInternal,
"skip-deprecated|e",
"document-all|a",
"compress|z",
# HTML options
"html-cols=i",
"html-logo=s",
"strip-h-path", \$striphpath,
"outputdir|d=s", \$outputdir,
"stdin|i", \$readstdin,
"name|n=s", \$libname,
"version|v|V", \&show_version,
"private|p", \$doPrivate,
"globspace", \$parse_global_space,
"allow_k_dcop_accessors", \$allow_k_dcop_accessors,
"cpp|P", \$cpp,
"docincluded", \$docincluded,
"cppcmd|C=s", \$cppcmd,
"includedir|I=s", \@includes,
"define=s", \%defines, # define a single preprocessing symbol
"defines=s", \$defines, # file containing preprocessing symbols, one per line
"quiet|q", \$quiet,
"debug|D", \$debug, # debug the parsing
"debuggen", \$debuggen, # debug the file generation
"parse-only", \$parseonly )
|| exit 1;
$| = 1 if $debug or $debuggen;
# preprocessor settings
if ( $cppcmd eq "" ) {
$cppcmd = $defcppcmd;
}
else {
$cpp = 1;
}
if ( $#includes >= 0 && !$cpp ) {
die "$exe: --includedir requires --cpp\n";
}
# Check output formats. HTML is the default
if( $#formats_wanted < 0 ) {
push @formats_wanted, "java";
}
foreach my $format ( @formats_wanted ) {
die "$exe: unsupported format '$format'.\n"
if !defined $formats{$format};
}
if( $defines )
{
open( DEFS, $defines ) or die "Couldn't open $defines: $!\n";
my @defs = <DEFS>;
chomp @defs;
close DEFS;
foreach (@defs)
{
$defines{ $_ } = 1 unless exists $defines{ $_ };
}
}
# Check the %defines hash for QT_* symbols and compile the corresponding RE
# Otherwise, compile the default ones. Used for filtering in readCxxLine.
if ( my @qt_defines = map { ($_=~m/^QT_(.*)/)[0] } keys %defines)
{
my $regexp = "m/^#\\s*ifn?def\\s+QT_(?:" . join('|', map { "\$qt_defines[$_]" } 0..$#qt_defines).")/o";
$match_qt_defines = eval "sub { my \$s=shift;
\$s=~/^#\\s*if(n)?def/ || return 0;
if(!\$1) { return \$s=~$regexp ? 0:1 }
else { return \$s=~$regexp ? 1:0 }
}";
die if $@;
}
else
{
$match_qt_defines = eval q<EFBFBD>
sub
{
my $s = shift;
$s =~ m/^\#\s*ifndef\s+TQT_NO_(?:REMOTE| # not in the default compile options
NIS| # ...
XINERAMA|
IMAGEIO_(?:MNG|JPEG)|
STYLE_(?:MAC|INTERLACE|COMPACT)
)/x;
}
<20>;
die if $@;
}
# Check if there any files to process.
# We do it here to prevent the libraries being loaded up first.
checkFileArgs();
######
###### main program
######
parseFiles();
if ( $parseonly ) {
print "\n\tParse Tree\n\t------------\n\n";
kdocAstUtil::dumpAst( $rootNode );
}
else {
writeDocumentation();
}
kdocAstUtil::printDebugStats() if $debug;
exit 0;
######
sub checkFileArgs
{
return unless $#ARGV < 0;
die "$exe: no input files.\n" unless $readstdin;
# read filenames from standard input
while (<STDIN>) {
chop;
$_ =~ s,\\,/,g; # back to fwd slash (for Windows)
foreach my $file ( split( /\s+/, $_ ) ) {
push @ARGV, $file;
}
}
}
sub parseFiles
{
foreach $currentfile ( @ARGV ) {
my $lang = "CXX";
if ( $currentfile =~ /\.idl\s*$/ ) {
# IDL file
$lang = "IDL";
}
# assume cxx file
if( $cpp ) {
# pass through preprocessor
my $cmd = $cppcmd;
foreach my $dir ( @includes ) {
$cmd .= " -I $dir ";
}
$cmd .= " -DQOBJECTDEFS_H $currentfile";
open( INPUT, "$cmd |" )
|| croak "Can't preprocess $currentfile";
}
else {
open( INPUT, "$currentfile" )
|| croak "Can't read from $currentfile";
}
print STDERR "$exe: processing $currentfile\n" unless $quiet;
# reset vars
$rootNode = getRoot( $lang );
# add to file lookup table
my $showname = $striphpath ? basename( $currentfile )
: $currentfile;
$cSourceNode = Ast::New( $showname );
$cSourceNode->AddProp( "NodeType", "source" );
$cSourceNode->AddProp( "Path", $currentfile );
$rootNode->AddPropList( "Sources", $cSourceNode );
# reset state
@classStack = ();
$cNode = $rootNode;
$inExtern = 0;
$inNamespace = 0;
# parse
my $k = undef;
while ( defined ($k = readDecl()) ) {
print "\nDecl: <$k>[$declNodeType]\n" if $debug;
if( identifyDecl( $k ) && $k =~ /{/ ) {
readCxxCodeBlock();
}
}
close INPUT;
}
}
sub writeDocumentation
{
foreach my $node ( values %rootNodes ) {
# postprocess
kdocAstUtil::makeInherit( $node, $node );
# write
no strict "refs";
foreach my $format ( @formats_wanted ) {
my $pack = $formats{ $format };
require $pack.".pm";
print STDERR "Generating bindings for $format ",
"language...\n" if $debug;
my $f = "$pack\::writeDoc";
&$f( $libname, $node, $outputdir, \%options );
}
}
}
###### Parser routines
=head2 readSourceLine
Returns a raw line read from the current input file.
This is used by routines outside main, since I don t know
how to share fds.
=cut
sub readSourceLine
{
return <INPUT>;
}
=head2 readCxxLine
Reads a C++ source line, skipping comments, blank lines,
preprocessor tokens and the Q_OBJECT/TQ_OBJECT macros
=cut
sub readCxxLine
{
my( $p );
my( $l );
while( 1 ) {
$p = shift @inputqueue || <INPUT>;
return undef if !defined ($p);
$p =~ s#//.*$##g; # C++ comment
$p =~ s#/\*(?!\*).*?\*/##g; # C comment
# join all multiline comments
if( $p =~ m#/\*(?!\*)#s ) {
# unterminated comment
LOOP:
while( defined ($l = <INPUT>) ) {
$l =~ s#//.*$##g; # C++ comment
$p .= $l;
$p =~ s#/\*(?!\*).*?\*/##sg; # C comment
last LOOP unless $p =~ m#(/\*(?!\*))|(\*/)#sg;
}
}
if ( $p =~ /^\s*Q_OBJECT/ ) {
push @inputqueue, @codeqobject;
next;
}
if ( $p =~ /^\s*TQ_OBJECT/ ) {
push @inputqueue, @codeqobject;
next;
}
# Hack, waiting for real handling of preprocessor defines
$p =~ s/QT_STATIC_CONST/static const/;
$p =~ s/KSVG_GET/KJS::Value get();/;
$p =~ s/KSVG_BASECLASS_GET/KJS::Value get();/;
$p =~ s/KSVG_BRIDGE/KJS::ObjectImp *bridge();/;
$p =~ s/KSVG_FORWARDGET/KJS::Value getforward();/;
$p =~ s/KSVG_PUT/bool put();/;
$p =~ s/KSVG_FORWARDPUT/bool putforward();/;
$p =~ s/KSVG_BASECLASS/virtual KJS::Value cache();/;
if ( $p =~ m/KSVG_DEFINE_PROTOTYPE\((\w+)\)/ ) {
push @inputqueue, split('\n',"namespace KSVG {\nclass $1 {\n};\n};");
}
next if ( $p =~ /^\s*$/s ); # blank lines
# || $p =~ /^\s*Q_OBJECT/ # QObject macro
# );
#
next if ( $p =~ /^\s*TQ_ENUMS/ # ignore TQ_ENUMS
|| $p =~ /^\s*TQ_PROPERTY/ # and TQ_PROPERTY
|| $p =~ /^\s*TQ_OVERRIDE/ # and TQ_OVERRIDE
|| $p =~ /^\s*TQ_SETS/
|| $p =~ /^\s*Q_DUMMY_COMPARISON_OPERATOR/
|| $p =~ /^\s*K_SYCOCATYPE/ # and K_SYCOCA stuff
|| $p =~ /^\s*K_SYCOCAFACTORY/ #
|| $p =~ /^\s*KSVG_/ # and KSVG stuff ;)
|| $p =~ /^\s*KDOM_/
);
push @includes_list, $1 if $p =~ /^#include\s+[<"]?(.*?)[>"]?\s*$/;
# remove all preprocessor macros
if( $p =~ /^\s*#\s*(\w+)/ ) {
# Handling of preprocessed sources: skip anything included from
# other files, unless --docincluded was passed.
if (!$docincluded && $p =~ /^\s*#\s*[0-9]+\s*\".*$/
&& not($p =~ /\"$currentfile\"/)) {
# include file markers
while( <INPUT> ) {
last if(/\"$currentfile\"/);
print "Overread $_" if $debug;
};
print "Cont: $_" if $debug;
}
else {
# Skip platform-specific stuff, or #if 0 stuff
# or #else of something we parsed (e.g. for QKeySequence)
if ( $p =~ m/^#\s*ifdef\s*Q_WS_/ or
$p =~ m/^#\s*if\s+defined\(Q_WS_/ or
$p =~ m/^#\s*if\s+defined\(Q_OS_/ or
$p =~ m/^#\s*if\s+defined\(Q_CC_/ or
$p =~ m/^#\s*if\s+defined\(TQT_THREAD_SUPPORT/ or
$p =~ m/^#\s*else/ or
$p =~ m/^#\s*if\s+defined\(Q_FULL_TEMPLATE_INSTANTIATION/ or
$p =~ m/^#\s*ifdef\s+CONTAINER_CUSTOM_WIDGETS/ or
&$match_qt_defines( $p ) or
$p =~ m/^#\s*if\s+0\s+/ ) {
my $if_depth = 1;
while ( defined $p && $if_depth > 0 ) {
$p = <INPUT>;
last if !defined $p;
$if_depth++ if $p =~ m/^#\s*if/;
$if_depth-- if $p =~ m/^#\s*endif/;
# Exit at #else in the #ifdef TQT_NO_ACCEL/#else/#endif case
last if $if_depth == 1 && $p =~ m/^#\s*else\s/;
#ignore elif for now
print "Skipping ifdef'ed line: $p" if $debug;
}
}
# multiline macros
while ( defined $p && $p =~ m#\\\s*$# ) {
$p = <INPUT>;
}
}
next;
}
$lastLine = $p;
return $p;
}
}
=head2 readCxxCodeBlock
Reads a C++ code block (recursive curlies), returning the last line
or undef on error.
Parameters: none
=cut
sub readCxxCodeBlock
{
# Code: begins in a {, ends in }\s*;?
# In between: cxx source, including {}
my ( $count ) = 0;
my $l = undef;
if ( defined $lastLine ) {
print "lastLine: '$lastLine'" if $debug;
my $open = kdocUtil::countReg( $lastLine, "{" );
my $close = kdocUtil::countReg( $lastLine, "}" );
$count = $open - $close;
return $lastLine if ( $open || $close) && $count == 0;
}
# find opening brace
if ( $count == 0 ) {
while( $count == 0 ) {
$l = readCxxLine();
return undef if !defined $l;
$l =~ s/\\.//g;
$l =~ s/'.?'//g;
$l =~ s/".*?"//g;
$count += kdocUtil::countReg( $l, "{" );
print "c ", $count, " at '$l'" if $debug;
}
$count -= kdocUtil::countReg( $l, "}" );
}
# find associated closing brace
while ( $count > 0 ) {
$l = readCxxLine();
croak "Confused by unmatched braces" if !defined $l;
$l =~ s/\\.//g;
$l =~ s/'.?'//g;
$l =~ s/".*?"//g;
my $add = kdocUtil::countReg( $l, "{" );
my $sub = kdocUtil::countReg( $l, "}" );
$count += $add - $sub;
print "o ", $add, " c ", $sub, " at '$l'" if $debug;
}
undef $lastLine;
return $l;
}
=head2 readDecl
Returns a declaration and sets the $declNodeType variable.
A decl starts with a type or keyword and ends with [{};]
The entire decl is returned in a single line, sans newlines.
declNodeType values: undef for error, "a" for access specifier,
"c" for doc comment, "d" for other decls.
readCxxLine is used to read the declaration.
=cut
sub readDecl
{
undef $declNodeType;
my $l = readCxxLine();
my ( $decl ) = "";
my $allowed_accesors = "private|public|protected|signals";
$allowed_accesors .= "|$allowed_k_dcop_accesors_re" if $allow_k_dcop_accessors;
if( !defined $l ) {
return undef;
}
elsif ( $l =~ /^\s*($allowed_accesors)
(\s+\w+)?\s*:/x) { # access specifier
$declNodeType = "a";
return $l;
}
elsif ( $l =~ /K_DCOP/ ) {
$declNodeType = "k";
return $l;
}
elsif ( $l =~ m#^\s*/\*\*# ) { # doc comment
$declNodeType = "c";
return $l;
}
do {
$decl .= $l;
if ( $l =~ /[{};]/ ) {
$decl =~ s/\n/ /gs;
$declNodeType = "d";
return $decl;
}
return undef if !defined ($l = readCxxLine());
} while ( 1 );
}
#### AST Generator Routines
=head2 getRoot
Return a root node for the given type of input file.
=cut
sub getRoot
{
my $type = shift;
carp "getRoot called without type" unless defined $type;
if ( !exists $rootNodes{ $type } ) {
my $node = Ast::New( "Global" ); # parent of all nodes
$node->AddProp( "NodeType", "root" );
$node->AddProp( "RootType", $type );
$node->AddProp( "Compound", 1 );
$node->AddProp( "KidAccess", "public" );
$rootNodes{ $type } = $node;
}
print "getRoot: call for $type\n" if $debug;
return $rootNodes{ $type };
}
=head2 identifyDecl
Parameters: decl
Identifies a declaration returned by readDecl. If a code block
needs to be skipped, this subroutine returns a 1, or 0 otherwise.
=cut
sub identifyDecl
{
my( $decl ) = @_;
my $newNode = undef;
my $skipBlock = 0;
# Doc comment
if ( $declNodeType eq "c" ) {
$docNode = kdocParseDoc::newDocComment( $decl );
# if it's the main doc, it is attached to the root node
if ( defined $docNode->{LibDoc} ) {
kdocParseDoc::attachDoc( $rootNode, $docNode,
$rootNode );
undef $docNode;
}
}
elsif ( $declNodeType eq "a" ) {
newAccess( $decl );
}
elsif ( $declNodeType eq "k" ) {
$cNode->AddProp( "DcopExported", 1 );
}
# Typedef struct/class
elsif ( $decl =~ /^\s*typedef
\s+(struct|union|class|enum)
\s*([_\w\:]*)
\s*([;{])
/xs ) {
my ($type, $name, $endtag, $rest ) = ($1, $2, $3, $' );
$name = "--" if $name eq "";
warn "typedef '$type' n:'$name'\n" if $debug;
if ( $rest =~ /}\s*([\w_]+(?:::[\w_])*)\s*;/ ) {
# TODO: Doesn't parse members yet!
$endtag = ";";
$name = $1;
}
$newNode = newTypedefComp( $type, $name, $endtag );
}
# Typedef
elsif ( $decl =~ /^\s*typedef\s+
(?:typename\s+)? # `typename' keyword
(.*?\s*[\*&]?) # type
\s+([-\w_\:]+) # name
\s*((?:\[[-\w_\:<>\s]*\])*) # array
\s*[{;]\s*$/xs ) {
print "Typedef: <$1 $3> <$2>\n" if $debug;
$newNode = newTypedef( $1." ".$3, $2 );
}
# Enum
elsif ( $decl =~ /^\s*enum\s+([-\w_:]*)?\s*\{(.*)/s ) {
print "Enum: <$1>\n" if $debug;
my $enumname = defined $2 ? $1 : "";
$newNode = newEnum( $enumname );
}
# Class/Struct
elsif ( $decl =~ /^\s*((?:template\s*<.*>)?) # 1 template
\s*(class|struct|union|namespace) # 2 struct type
\s*([A-Z_]*EXPORT[A-Z_]*)? # 3 export
(?:\s*TQ_PACKED)?
(?:\s*Q_REFCOUNT)?
\s+([\w_]+ # 4 name
(?:<[\w_ :,]+?>)? # maybe explicit template
# (eat chars between <> non-hungry)
(?:::[\w_]+)* # maybe nested
)
([^\(]*?) # 5 inheritance
([;{])/xs ) { # 6 rest
print "Class: => [$1]\n\t[$2]\n\t[$3]\n\t[$4]\n\t[$5]\n\t[$6]\n" if $debug;
my ( $tmpl, $ntype, $export, $name, $rest, $endtag ) =
( $1, $2, $3, $4, $5, $6 );
if ($ntype eq 'namespace') {
if ($decl =~ /}/) {
return 0;
}
# Set a flag to indicate we're in a multi-line namespace declaration
$inNamespace = 1;
}
my @inherits = ();
$tmpl =~ s/<(.*)>/$1/ if $tmpl ne "";
if( $rest =~ /^\s*:\s*/ ) {
# inheritance
$rest = $';
@inherits = parseInheritance( $rest );
}
$newNode = newClass( $tmpl, $ntype, $export,
$name, $endtag, @inherits );
}
# IDL compound node
elsif( $decl =~ /^\s*(module|interface|exception) # struct type
\s+([-\w_]+) # name
(.*?) # inheritance?
([;{])/xs ) {
my ( $type, $name, $rest, $fwd, $complete )
= ( $1, $2, $3, $4 eq ";" ? 1 : 0,
0 );
my @in = ();
print "IDL: [$type] [$name] [$rest] [$fwd]\n" if $debug;
if( $rest =~ /^\s*:\s*/ ) {
$rest = $';
$rest =~ s/\s+//g;
@in = split ",", $rest;
}
if( $decl =~ /}\s*;/ ) {
$complete = 1;
}
$newNode = newIDLstruct( $type, $name, $fwd, $complete, @in );
}
# Method
elsif ( $decl =~ /^\s*(?:(?:class|struct)\s*)?([^=]+?(?:operator\s*(?:\(\)|.?=)\s*)?) # ret+nm
\( (.*?) \) # parameters
\s*((?:const)?)\s*
(?:throw\s*\(.*?\))?
\s*((?:=\s*0(?:L?))?)\s* # Pureness. is "0L" allowed?
\s*[;{]+/xs ) { # rest
my $tpn = $1; # type + name
my $params = $2;
# Remove constructor initializer, that's not in the params
if ( $params =~ /\s*\)\s*:\s*/ ) {
# Hack: first .* made non-greedy for QSizePolicy using a?(b):c in ctor init
$params =~ s/(.*?)\s*\)\s*:\s*.*$/$1/;
}
my $const = $3 eq "" ? 0 : 1;
my $pure = $4 eq "" ? 0 : 1;
$tpn =~ s/\s+/ /g;
$params =~ s/\s+/ /g;
print "Method: R+N:[$tpn]\n\tP:[$params]\n\t[$const]\n" if $debug;
if ( $tpn =~ /((?:\w+\s*::\s*)?operator.*?)\s*$/ # operator
|| $tpn =~ /((?:\w*\s*::\s*~?)?[-\w:]+)\s*$/ ) { # normal
my $name = $1;
$tpn = $`;
$newNode = newMethod( $tpn, $name,
$params, $const, $pure );
}
$skipBlock = 1; # FIXME check end token before doing this!
}
# Using: import namespace
elsif ( $decl =~ /^\s*using\s+namespace\s+(\w+)/ ) {
newNamespace( $1 );
}
# extern block
elsif ( $decl =~ /^\s*extern\s*"(.*)"\s*{/ ) {
$inExtern = 1 unless $decl =~ /}/;
}
# Single variable
elsif ( $decl =~ /^
\s*( (?:[\w_:]+(?:\s+[\w_:]+)*? )# type
\s*(?:<.+>)? # template
\s*(?:[\&\*])? # ptr or ref
(?:\s*(?:const|volatile))* )
\s*([\w_:]+) # name
\s*( (?:\[[^\[\]]*\] (?:\s*\[[^\[\]]*\])*)? ) # array
\s*((?:=.*)?) # value
\s*([;{])\s*$/xs ) {
my $type = $1;
my $name = $2;
my $arr = $3;
my $val = $4;
my $end = $5;
$type =~ s/\s+/ /g;
if ( $type !~ /^friend\s+class\s*/ ) {
print "Var: [$name] type: [$type$arr] val: [$val]\n"
if $debug;
$newNode = newVar( $type.$arr, $name, $val );
}
$skipBlock = 1 if $end eq '{';
}
# Multi variables
elsif ( $decl =~ m/^
\s*( (?:[\w_:]+(?:\s+[\w_:]+)*? ) # type
\s*(?:<.+>)?) # template
\s*( (?:\s*(?: [\&\*][\&\*\s]*)? # ptr or ref
[\w_:]+) # name
\s*(?:\[[^\[\]]*\] (?:\s*\[[^\[\]]*\])*)? # array
\s*(?:, # extra vars
\s*(?: [\&\*][\&\*\s]*)? # ptr or ref
\s*(?:[\w_:]+) # name
\s*(?:\[[^\[\]]*\] (?:\s*\[[^\[\]]*\])*)? # array
)*
\s*(?:=.*)?) # value
\s*[;]/xs ) {
my $type = $1;
my $names = $2;
my $end = $3;
my $doc = $docNode;
print "Multivar: type: [$type] names: [$names] \n" if $debug;
foreach my $vardecl ( split( /\s*,\s*/, $names ) ) {
next unless $vardecl =~ m/
\s*((?: [\&\*][\&\*\s]*)?) # ptr or ref
\s*([\w_:]+) # name
\s*( (?:\[[^\[\]]*\] (?:\s*\[[^\[\]]*\])*)? ) # array
\s*((?:=.*)?) # value
/xs;
my ($ptr, $name, $arr, $val) = ($1, $2, $3, $4);
print "Split: type: [$type$ptr$arr] ",
" name: [$name] val: [$val] \n" if $debug;
my $node = newVar( $type.$ptr.$arr, $name, $val );
$docNode = $doc; # reuse docNode for each
postInitNode( $node ) unless !defined $node;
}
$skipBlock = 1 if $end eq '{';
}
# end of an "extern" block
elsif ( $decl =~ /^\s*}\s*$/ && $inExtern ) {
$inExtern = 0;
}
# end of an in-block declaration
elsif ( $decl =~ /^\s*}\s*(.*?)\s*;\s*$/ || ($decl =~ /^\s*}\s*$/ && $inNamespace) ) {
if ( $cNode->{astNodeName} eq "--" ) {
# structure typedefs should have no name preassigned.
# If they do, then the name in
# "typedef struct <name> { ..." is kept instead.
# TODO: Buglet. You should fix YOUR code dammit. ;)
$cNode->{astNodeName} = $1;
my $siblings = $cNode->{Parent}->{KidHash};
undef $siblings->{"--"};
$siblings->{ $1 } = $cNode;
}
# C++ namespaces end with a '}', and not '};' like classes
if ($decl =~ /^\s*}\s*$/ ) {
$inNamespace = 0;
}
if ( $#classStack < 0 ) {
confess "close decl found, but no class in stack!" ;
$cNode = $rootNode;
}
else {
$cNode = pop @classStack;
print "end decl: popped $cNode->{astNodeName}\n"
if $debug;
}
}
# unidentified block start
elsif ( $decl =~ /{/ ) {
print "Unidentified block start: $decl\n" if $debug;
$skipBlock = 1;
}
# explicit template instantiation, or friend template
elsif ( $decl =~ /(template|friend)\s+class\s+(?:Q[A-Z_]*EXPORT[A-Z_]*\s*)?\w+\s*<.*>\s*;/x ) {
# Nothing to be done with those.
}
else {
## decl is unidentified.
warn "Unidentified decl: $decl\n";
}
# once we get here, the last doc node is already used.
# postInitNode should NOT be called for forward decls
postInitNode( $newNode ) unless !defined $newNode;
return $skipBlock;
}
sub postInitNode
{
my $newNode = shift;
carp "Cannot postinit undef node." if !defined $newNode;
# The reasoning here:
# Forward decls never get a source node.
# Once a source node is defined, don't assign another one.
if ( $newNode->{NodeType} ne "Forward" && !defined $newNode->{Source}) {
$newNode->AddProp( "Source", $cSourceNode );
} elsif ( $newNode->{NodeType} eq "Forward" ) {
if ($debug) {
print "postInit: skipping fwd: $newNode->{astNodeName}\n";
}
undef $docNode;
return;
}
if( defined $docNode ) {
kdocParseDoc::attachDoc( $newNode, $docNode, $rootNode );
undef $docNode;
}
}
##### Node generators
=head2 newEnum
Reads the parameters of an enumeration.
Returns the parameters, or undef on error.
=cut
sub newEnum
{
my ( $enum ) = @_;
my $k = undef;
my $params = "";
$k = $lastLine if defined $lastLine;
if( defined $lastLine && $lastLine =~ /{/ ) {
$params = $';
if ( $lastLine =~ /}(.*?);/ ) {
return initEnum( $enum, $1, $params );
}
}
while ( defined ( $k = readCxxLine() ) ) {
$params .= $k;
if ( $k =~ /}(.*?);/ ) {
return initEnum( $enum, $1, $params );
}
}
return undef;
}
=head2 initEnum
Parameters: name, (ref) params
Returns an initialized enum node.
=cut
sub initEnum
{
my( $name, $end, $params ) = @_;
($name = $end) if $name eq "" && $end ne "";
$params =~ s#\s+# #sg; # no newlines
$params =~ s#\s*/\*([^\*]/|\*[^/]|[^\*/])*\*/##g; # strip out comments
$params = $1 if $params =~ /^\s*{?(.*)}/;
print "$name params: [$params]\n" if $debug;
my ( $node ) = Ast::New( $name );
$node->AddProp( "NodeType", "enum" );
$node->AddProp( "Params", $params );
makeParamList( $node, $params, 1 ); # Adds the ParamList property containing the list of param nodes
kdocAstUtil::attachChild( $cNode, $node );
return $node;
}
=head2 newIDLstruct
Parameters: type, name, forward, complete, inherits...
Handles an IDL structure definition (ie module, interface,
exception).
=cut
sub newIDLstruct
{
my ( $type, $name, $fwd, $complete ) = @_;
my $node = exists $cNode->{KidHash} ?
$cNode->{KidHash}->{ $name } : undef;
if( !defined $node ) {
$node = Ast::New( $name );
$node->AddProp( "NodeType", $fwd ? "Forward" : $type );
$node->AddProp( "KidAccess", "public" );
$node->AddProp( "Compound", 1 ) unless $fwd;
kdocAstUtil::attachChild( $cNode, $node );
}
elsif ( $fwd ) {
# If we have a node already, we ignore forwards.
return undef;
}
elsif ( $node->{NodeType} eq "Forward" ) {
# we are defining a previously forward node.
$node->AddProp( "NodeType", $type );
$node->AddProp( "Compound", 1 );
$node->AddProp( "Source", $cSourceNode );
}
# register ancestors.
foreach my $ances ( splice ( @_, 4 ) ) {
my $n = kdocAstUtil::newInherit( $node, $ances );
}
if( !( $fwd || $complete) ) {
print "newIDL: pushing $cNode->{astNodeName},",
" new is $node->{astNodeName}\n"
if $debug;
push @classStack, $cNode;
$cNode = $node;
}
return $node;
}
=head2 newClass
Parameters: tmplArgs, cNodeType, export, name, endTag, @inheritlist
Handles a class declaration (also fwd decls).
=cut
sub newClass
{
my( $tmplArgs, $cNodeType, $export, $name, $endTag ) = @_;
my $access = "private";
$access = "public" if $cNodeType ne "class";
# try to find an exisiting node, or create a new one
# We need to make the fully-qualified-name otherwise findRef will look
# for that classname in the global namespace
# testcase: class Foo; namespace Bar { class Foo { ... } }
my @parents;
push @parents, kdocAstUtil::heritage($cNode) if (defined $cNode->{Parent});
push @parents, $name;
my $fullyQualifiedName = join "::", @parents;
print "looking for $fullyQualifiedName\n" if($debug);
my $oldnode = kdocAstUtil::findRef( $cNode, $fullyQualifiedName );
my $node = defined $oldnode ? $oldnode : Ast::New( $name );
if ( $endTag ne "{" ) {
# forward
if ( !defined $oldnode ) {
# new forward node
$node->AddProp( "NodeType", "Forward" );
$node->AddProp( "KidAccess", $access );
print "newClass: Attaching $node->{astNodeName} to $cNode->{astNodeName}\n" if $debug;
kdocAstUtil::attachChild( $cNode, $node );
}
return $node;
}
# this is a class declaration
print "ClassName: $name\n" if $debug;
$node->AddProp( "NodeType", $cNodeType );
$node->AddProp( "Compound", 1 );
$node->AddProp( "Source", $cSourceNode );
if ($cNodeType eq 'namespace') {
$node->AddPropList( "Sources", $cSourceNode );
}
$node->AddProp( "KidAccess", $access );
$node->AddProp( "Export", $export ) unless $export eq "";
$node->AddProp( "Tmpl", $tmplArgs ) unless $tmplArgs eq "";
if ( !defined $oldnode ) {
print "newClass: Attaching $node->{astNodeName} to $cNode->{astNodeName}\n" if $debug;
kdocAstUtil::attachChild( $cNode, $node );
} else {
print "newClass: Already found $node->{astNodeName} in $cNode->{astNodeName}\n" if $debug;
}
# inheritance
foreach my $ances ( splice (@_, 5) ) {
my $type = "";
my $name = $ances;
my $intmpl = undef;
WORD:
foreach my $word ( split ( /([\w:]+(:?\s*<.*>)?)/, $ances ) ) {
next WORD unless $word =~ /^[\w:]/;
if ( $word =~ /(private|public|protected|virtual)/ ) {
$type .= "$1 ";
}
else {
if ( $word =~ /<(.*)>/ ) {
# FIXME: Handle multiple tmpl args
$name = $`;
$intmpl = $1;
}
else {
$name = $word;
}
last WORD;
}
}
# set inheritance access specifier if none specified
if ( $type eq "" ) {
$type = $cNodeType eq "class" ? "private ":"public ";
}
chop $type;
# attach inheritance information
my $n = kdocAstUtil::newInherit( $node, $name );
$n->AddProp( "Type", $type );
$n->AddProp( "TmplType", $intmpl ) if defined $intmpl;
print "In: $name type: $type, tmpl: $intmpl\n" if $debug;
}
# new current node
print "newClass: Pushing $cNode->{astNodeName}, new current node is $node->{astNodeName}\n" if $debug;
push ( @classStack, $cNode );
$cNode = $node;
return $node;
}
=head3 parseInheritance
Param: inheritance decl string
Returns: list of superclasses (template decls included)
This will fail if < and > appear in strings in the decl.
=cut
sub parseInheritance
{
my $instring = shift;
my @inherits = ();
my $accum = "";
foreach $instring ( split (/\s*,\s*/, $instring) ) {
$accum .= $instring.", ";
next unless (kdocUtil::countReg( $accum, "<" )
- kdocUtil::countReg( $accum, ">" ) ) == 0;
# matching no. of < and >, so assume the parent is
# complete
$accum =~ s/,\s*$//;
print "Inherits: '$accum'\n" if $debug;
push @inherits, $accum;
$accum = "";
}
return @inherits;
}
=head2 newNamespace
Param: namespace name.
Returns nothing.
Imports a namespace into the current node, for ref searches etc.
Triggered by "using namespace ..."
=cut
sub newNamespace
{
$cNode->AddPropList( "ImpNames", shift );
}
=head2 newTypedef
Parameters: realtype, name
Handles a type definition.
=cut
sub newTypedef
{
my ( $realtype, $name ) = @_;
my ( $node ) = Ast::New( $name );
$node->AddProp( "NodeType", "typedef" );
$node->AddProp( "Type", $realtype );
kdocAstUtil::attachChild( $cNode, $node );
return $node;
}
=head2 newTypedefComp
Params: realtype, name endtoken
Creates a new compound type definition.
=cut
sub newTypedefComp
{
my ( $realtype, $name, $endtag ) = @_;
my ( $node ) = Ast::New( $name );
$node->AddProp( "NodeType", "typedef" );
$node->AddProp( "Type", $realtype );
kdocAstUtil::attachChild( $cNode, $node );
if ( $endtag eq '{' ) {
print "newTypedefComp: Pushing $cNode->{astNodeName}\n"
if $debug;
push ( @classStack, $cNode );
$cNode = $node;
}
return $node;
}
=head2 newMethod
Parameters: retType, name, params, const, pure?
Handles a new method declaration or definition.
=cut
BEGIN {
my $theSourceNode = $cSourceNode;
sub newMethod
{
my ( $retType, $name, $params, $const, $pure ) = @_;
my $parent = $cNode;
my $class;
print "Cracked: [$retType] [$name]\n\t[$params]\n\t[$const]\n"
if $debug;
if ( $retType =~ /([\w\s_<>,]+)\s*::\s*$/ ) {
# check if stuff before :: got into rettype by mistake.
$retType = $`;
($name = $1."::".$name);
$name =~ s/\s+/ /g;
print "New name = \"$name\" and type = '$retType'\n" if $debug;
}
# A 'friend method' declaration isn't a real method declaration
return undef if ( $retType =~ /^friend\s+/ || $retType =~ /^friend\s+class\s+/ );
my $isGlobalSpace = 0;
if( $name =~ /^\s*(.*?)\s*::\s*(.*?)\s*$/ ) {
# Fully qualified method name.
$name = $2;
$class = $1;
if( $class =~ /^\s*$/ ) {
$parent = $rootNode;
}
elsif ( $class eq $cNode->{astNodeName} ) {
$parent = $cNode;
}
else {
# ALWAYS IGNORE...
return undef;
my $node = kdocAstUtil::findRef( $cNode, $class );
if ( !defined $node ) {
# if we couldn't find the name, try again with
# all template parameters stripped off:
my $strippedClass = $class;
$strippedClass =~ s/<[^<>]*>//g;
$node = kdocAstUtil::findRef( $cNode, $strippedClass );
# if still not found: give up
if ( !defined $node ) {
warn "$exe: Unidentified class: $class ".
"in $currentfile\:$.\n";
return undef;
}
}
$parent = $node;
}
}
# TODO fix for $retType =~ /template<.*?>/
elsif( $parse_global_space && $parent->{NodeType} eq "root" && $name !~ /\s*qt_/ && $retType !~ /template\s*<.*?>/ ) {
$class = $globalSpaceClassName; # FIXME - sanitize the naming system?
$isGlobalSpace = 1;
my $opsNode = kdocAstUtil::findRef( $cNode, $class );
if (!$opsNode) {
# manually create a "GlobalSpace" class
$opsNode = Ast::New( $class );
$opsNode->AddProp( "NodeType", "class" );
$opsNode->AddProp( "Compound", 1 );
$opsNode->AddProp( "Source", $cSourceNode ); # dummy
$opsNode->AddProp( "KidAccess", "public" );
kdocAstUtil::attachChild( $cNode, $opsNode );
}
# Add a special 'Source' property for methods in global space
$cNode->AddProp( "Source", $theSourceNode );
unless( $theSourceNode == $cSourceNode ) {
$theSourceNode = $cSourceNode;
$opsNode->AddPropList( "Sources", $theSourceNode ); # sources are scattered across Qt
}
$parent = $opsNode;
}
# flags
my $flags = "";
if( $retType =~ /static/ || $isGlobalSpace ) {
$flags .= "s";
$retType =~ s/static//g;
}
if( $const && !$isGlobalSpace ) {
$flags .= "c";
}
if( $pure ) {
$flags .= "p";
}
if( $retType =~ /virtual/ ) {
$flags .= "v";
$retType =~ s/virtual//g;
}
print "\n" if $flags ne "" && $debug;
if ( !defined $parent->{KidAccess} ) {
warn "'", $parent->{astNodeName}, "' has no KidAccess ",
exists $parent->{Forward} ? "(forward)\n" :"\n";
}
# NB, these are =~, so make sure they are listed in correct order
if ( $parent->{KidAccess} =~ /slot/ ) {
$flags .= "l";
}
elsif ( $parent->{KidAccess} =~ /k_dcop_signals/ ) {
$flags .= "z";
}
elsif ( $parent->{KidAccess} =~ /k_dcop_hidden/ ) {
$flags .= "y";
}
elsif ( $parent->{KidAccess} =~ /k_dcop/ ) {
$flags .= "d";
}
elsif ( $parent->{KidAccess} =~ /signal/ ) {
$flags .= "n";
}
$retType =~ s/QM?_EXPORT[_A-Z]*\s*//;
$retType =~ s/inline\s+//;
$retType =~ s/extern\s+//;
$retType =~ s/^\s*//g;
$retType =~ s/\s*$//g;
$retType =~ s/^class\s/ /; # Remove redundant class forward decln's
$retType =~ s/<class\s/</;
# node
my $node = Ast::New( $name );
$node->AddProp( "NodeType", "method" );
$node->AddProp( "Flags", $flags );
$node->AddProp( "ReturnType", $retType );
$node->AddProp( "Params", $params ); # The raw string with the whole param list
makeParamList( $node, $params, 0 ); # Adds the ParamList property containing the list of param nodes
$parent->AddProp( "Pure", 1 ) if $pure;
kdocAstUtil::attachChild( $parent, $node );
return $node;
}
}
=head2 makeParamList
Parameters:
* method (or enum) node
* string containing the whole param list
* 1 for enums
Adds a property "ParamList" to the method node.
This property contains a list of nodes, one for each parameter.
Each parameter node has the following properties:
* ArgType the type of the argument, e.g. const QString&
* ArgName the name of the argument - optionnal
* DefaultValue the default value of the argument - optionnal
For enum values, ArgType is unset, ArgName is the name, DefaultValue its value.
Author: David Faure <faure@kde.org>
=cut
sub makeParamList($$$)
{
my ( $methodNode, $params, $isEnum ) = @_;
$params =~ s/\s+/ /g; # normalize multiple spaces/tabs into a single one
$params =~ s/\s*([\*\&])\s*/$1 /g; # normalize spaces before and after *, &
$params =~ s/\s*(,)([^'\s])\s*/$1 $2/g; # And after ',', but not if inside single quotes
$params =~ s/^\s*void\s*$//; # foo(void) ==> foo()
$params =~ s/^\s*$//;
# Make sure the property always exists, makes iteration over it easier
$methodNode->AddProp( "ParamList", [] );
my @args = kdocUtil::splitUnnested( ',', $params);
my $argId = 0;
foreach my $arg ( @args ) {
my $argType;
my $argName;
my $defaultparam;
$arg =~ s/\s*([^\s].*[^\s])\s*/$1/; # stripWhiteSpace
$arg =~ s/(\w+)\[\]/\* $1/; # Turn [] array into *
$arg =~ s/^class //; # Remove any redundant 'class' forward decln's
# The RE below reads as: = ( string constant or char or cast to numeric literal
# or some word/number, with optional bitwise shifts, OR'ed or +'ed flags, and/or function call ).
if ( $arg =~ s/\s*=\s*(("[^\"]*")|\([^)]*\)\s*[\+-]?\s*[0-9]+|(\'.\')|(([-\w:~]*)\s*([<>\|\+-]*\s*[\w._]*\s*)*(\([^(]*\))?))// ) {
$defaultparam = $1;
}
if (defined $defaultparam && $isEnum) {
# Remove any casts in enum values, for example this in tdefileitem.h:
# 'enum { Unknown = (mode_t) - 1 };'
$defaultparam =~ s/\([^\)]+\)(.*[0-9].*)/$1/;
}
# Separate arg type from arg name, if the latter is specified
if ( $arg =~ /(.*)\s+([\w_]+)\s*$/ || $arg =~ /(.*)\(\s*\*\s([\w_]+)\)\s*\((.*)\)\s*$/ ) {
if ( $1 eq "const" || $2 eq "long" || $2 eq "short" || $2 eq "int" || $2 eq "char" ) {
# const qualifier or long notation of numeric type
# without argument name
$argType = "$1 $2";
} else {
$argType = $1;
$argName = $2;
}
if ( defined $3 ) {
# function pointer
$argType .= "(*)($3)";
}
} else {
# unnamed arg - or enum value
$argType = $arg if (!$isEnum);
$argName = $arg if ($isEnum);
}
$argId++;
my $node = Ast::New( $argId ); # let's make the arg index the node "name"
$node->AddProp( "NodeType", "param" );
$node->AddProp( "ArgType", $argType );
$node->AddProp( "ArgName", $argName ) if (defined $argName);
$node->AddProp( "DefaultValue", $defaultparam ) if (defined $defaultparam);
$methodNode->AddPropList( "ParamList", $node );
#print STDERR "ArgType: $argType ArgName: $argName\n" if ($debug);
}
}
=head2 newAccess
Parameters: access
Sets the default "Access" specifier for the current class node. If
the access is a "slot" type, "_slots" is appended to the access
string.
=cut
sub newAccess
{
my ( $access ) = @_;
return undef unless ($access =~ /^\s*(\w+)\s*(slots|$allowed_k_dcop_accesors_re)?/);
print "Access: [$1] [$2]\n" if $debug;
$access = $1;
if ( defined $2 && $2 ne "" ) {
$access .= "_" . $2;
}
$cNode->AddProp( "KidAccess", $access );
return $cNode;
}
=head2 newVar
Parameters: type, name, value
New variable. Value is ignored if undef
=cut
sub newVar
{
my ( $type, $name, $val ) = @_;
my $node = Ast::New( $name );
$node->AddProp( "NodeType", "var" );
my $static = 0;
if ( $type =~ /static/ ) {
# $type =~ s/static//;
$static = 1;
}
$node->AddProp( "Type", $type );
$node->AddProp( "Flags", 's' ) if $static;
$node->AddProp( "Value", $val ) if defined $val;
kdocAstUtil::attachChild( $cNode, $node );
return $node;
}
=head2 show_version
Display short version information and quit.
=cut
sub show_version
{
die "$exe: $Version (c) Sirtaj S. Kang <taj\@kde.org>\n";
}