# gtkmm - DocsParser module
#
# Copyright 2001 Free Software Foundation
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
#
# Based on XML::Parser tutorial found at http://www.devshed.com/Server_Side/Perl/PerlXML/PerlXML1/page1.html
# This module isn't properly Object Orientated because the XML Parser needs global callbacks.
package DocsParser;
use XML::Parser;
use strict;
use warnings;
use feature 'state';
use Util;
use Function;
use GtkDefs;
use Object;
BEGIN {
use Exporter ();
our ($VERSION, @ISA, @EXPORT, @EXPORT_OK, %EXPORT_TAGS);
# set the version for version checking
$VERSION = 1.00;
@ISA = qw(Exporter);
@EXPORT = ( );
%EXPORT_TAGS = ( );
# your exported package globals go here,
# as well as any optionally exported functions
@EXPORT_OK = ( );
}
our @EXPORT_OK;
#####################################
use strict;
use warnings;
#####################################
$DocsParser::CurrentFile = "";
$DocsParser::refAppendTo = undef; # string reference to store the data into
$DocsParser::currentParam = undef;
$DocsParser::objCurrentFunction = undef; #Function
%DocsParser::hasharrayFunctions = (); #Function elements
%DocsParser::type_names = (); # Type names (e.g. enums) with non-standard C-to-C++ translation.
%DocsParser::enumerator_name_prefixes = (); # Enumerator name prefixes with non-standard C-to-C++ translation.
%DocsParser::enumerator_names = (); # Enumerator names with non-standard C-to-C++ translation.
$DocsParser::commentStart = " /** ";
$DocsParser::commentMiddleStart = " * ";
$DocsParser::commentEnd = " */";
sub read_defs($$$)
{
my ($path, $filename, $filename_override) = @_;
my $objParser = new XML::Parser(ErrorContext => 0);
$objParser->setHandlers(Start => \&parse_on_start, End => \&parse_on_end, Char => \&parse_on_cdata);
# C documentation:
$DocsParser::CurrentFile = "$path/$filename";
if ( ! -r $DocsParser::CurrentFile)
{
print STDERR "DocsParser.pm: Warning: Can't read file \"" . $DocsParser::CurrentFile . "\".\n";
return;
}
# Parse
eval { $objParser->parsefile($DocsParser::CurrentFile) };
if( $@ )
{
$@ =~ s/at \/.*?$//s;
print STDERR "\nError in \"" . $DocsParser::CurrentFile . "\":$@\n";
return;
}
# C++ override documentation:
$DocsParser::CurrentFile = $path . '/' . $filename_override;
# It is not an error if the documentation override file does not exist.
return unless (-r $DocsParser::CurrentFile);
# Parse
eval { $objParser->parsefile($DocsParser::CurrentFile) };
if( $@ )
{
$@ =~ s/at \/.*?$//s;
print STDERR "\nError in \"" . $DocsParser::CurrentFile . "\":$@";
return;
}
}
sub parse_on_start($$%)
{
my ($objParser, $tag, %attr) = @_;
$tag = lc($tag);
if($tag eq "function" or $tag eq "signal" or $tag eq "property" or $tag eq "enum")
{
if(defined $DocsParser::objCurrentFunction)
{
$objParser->xpcroak(
"\nClose a function, signal, property or enum tag before you open another one.");
}
my $functionName = $attr{name};
# Change signal name from Class::a-signal-name to Class::a_signal_name
# and property name from Class:a-property-name to Class:a_property_name
$functionName =~ s/-/_/g if ($tag eq "signal" or $tag eq "property");
#Reuse existing Function, if it exists:
#(For instance, if this is the override parse)
$DocsParser::objCurrentFunction = $DocsParser::hasharrayFunctions{$functionName};
if(!$DocsParser::objCurrentFunction)
{
#Make a new one if necessary:
$DocsParser::objCurrentFunction = Function::new_empty();
# The idea is to change the policy a bit:
# If a function is redefined in a later parsing run only values which are redefined
# will be overwritten. For the name this is trivial. The description is simply rewritten.
# Same goes for the return description and the class mapping. Only exception is the
# parameter list. Everytime we enter a tag the list is emptied again.
$$DocsParser::objCurrentFunction{name} = $functionName;
$$DocsParser::objCurrentFunction{description} = "";
$$DocsParser::objCurrentFunction{param_names} = [];
$$DocsParser::objCurrentFunction{param_descriptions} = ();
$$DocsParser::objCurrentFunction{return_description} = "";
$$DocsParser::objCurrentFunction{mapped_class} = "";
}
}
elsif($tag eq "parameters")
{
$$DocsParser::objCurrentFunction{param_names} = [];
$$DocsParser::objCurrentFunction{param_descriptions} = ();
}
elsif($tag eq "parameter")
{
$DocsParser::currentParam = $attr{name};
$$DocsParser::objCurrentFunction{param_descriptions}->{$DocsParser::currentParam} = "";
}
elsif($tag eq "description")
{
$$DocsParser::objCurrentFunction{description} = "";
# Set destination for parse_on_cdata().
$DocsParser::refAppendTo = \$$DocsParser::objCurrentFunction{description};
}
elsif($tag eq "parameter_description")
{
# Set destination for parse_on_cdata().
my $param_desc = \$$DocsParser::objCurrentFunction{param_descriptions};
$DocsParser::refAppendTo = \$$param_desc->{$DocsParser::currentParam};
}
elsif($tag eq "return")
{
$$DocsParser::objCurrentFunction{return_description} = "";
# Set destination for parse_on_cdata().
$DocsParser::refAppendTo = \$$DocsParser::objCurrentFunction{return_description};
}
elsif($tag eq "mapping")
{
$$DocsParser::objCurrentFunction{mapped_class} = $attr{class};
}
elsif($tag eq "substitute_type_name")
{
$DocsParser::type_names{$attr{from}} = $attr{to};
}
elsif($tag eq "substitute_enumerator_name")
{
if (exists $attr{from_prefix})
{
$DocsParser::enumerator_name_prefixes{$attr{from_prefix}} = $attr{to_prefix};
}
if (exists $attr{from})
{
$DocsParser::enumerator_names{$attr{from}} = $attr{to};
}
}
elsif($tag ne "root")
{
$objParser->xpcroak("\nUnknown tag \"$tag\".");
}
}
sub parse_on_end($$)
{
my ($parser, $tag) = @_;
# Clear destination for parse_on_cdata().
$DocsParser::refAppendTo = undef;
$tag = lc($tag);
if($tag eq "function" or $tag eq "signal" or $tag eq "property" or $tag eq "enum")
{
# Store the Function structure in the array:
my $functionName = $$DocsParser::objCurrentFunction{name};
$DocsParser::hasharrayFunctions{$functionName} = $DocsParser::objCurrentFunction;
$DocsParser::objCurrentFunction = undef;
}
elsif($tag eq "parameter")
{
# and means the same.
if($DocsParser::currentParam eq "returns")
{
my $param_descriptions = \$$DocsParser::objCurrentFunction{param_descriptions};
my $return_description = \$$DocsParser::objCurrentFunction{return_description};
$$return_description = delete $$param_descriptions->{"returns"};
}
else
{
# Append to list of parameters.
push(@{$$DocsParser::objCurrentFunction{param_names}}, $DocsParser::currentParam);
}
$DocsParser::currentParam = undef;
}
}
sub parse_on_cdata($$)
{
my ($parser, $data) = @_;
if(defined $DocsParser::refAppendTo)
{
# Dispatch $data to the current destination string.
$$DocsParser::refAppendTo .= $data;
}
}
sub lookup_enum_documentation($$$$$$$)
{
my ($c_enum_name, $cpp_enum_name, $indent, $ref_subst_in, $ref_subst_out,
$deprecation_docs, $newin) = @_;
my $objFunction = $DocsParser::hasharrayFunctions{$c_enum_name};
if(!$objFunction)
{
#print "DocsParser.pm: Warning: enum not found: $enum_name\n";
return ""
}
my $docs = "";
my @param_names = @{$$objFunction{param_names}};
my $param_descriptions = \$$objFunction{param_descriptions};
# Append the param docs first so that the enum description can come last and
# the possible flag docs that the m4 _ENUM() macro appends goes in the right
# place.
foreach my $param (@param_names)
{
my $desc = $$param_descriptions->{$param};
# Remove the initial prefix in the name of the enum constant. Would be something like GTK_.
$param =~ s/\b[A-Z]+_//;
# Now apply custom substitutions.
for(my $i = 0; $i < scalar(@$ref_subst_in); ++$i)
{
$param =~ s/$$ref_subst_in[$i]/$$ref_subst_out[$i]/;
$desc =~ s/$$ref_subst_in[$i]/$$ref_subst_out[$i]/;
}
# Skip this element, if its name has been deleted.
next if($param eq "");
$param =~ s/([a-zA-Z0-9]*(_[a-zA-Z0-9]+)*)_?/$1/g;
if(length($desc) > 0)
{
# Chop off leading and trailing whitespace.
$desc =~ s/^\s+//;
$desc =~ s/\s+$//;
$desc .= '.' unless($desc =~ /(?:^|\.)$/);
$docs .= "\@var $cpp_enum_name ${param}\n\u${desc}\n\n"; # \u = Convert next char to uppercase
}
}
# Replace @newin in the enum description, but don't in the element descriptions.
my $description = "\@enum $cpp_enum_name\n";
$description .= $$objFunction{description};
DocsParser::convert_docs_to_cpp($c_enum_name, \$description);
DocsParser::replace_or_add_newin(\$description, $newin);
# Add note about deprecation if we have specified that in our _WRAP_ENUM(),
# _WRAP_ENUM_DOCS_ONLY() or _WRAP_GERROR() call:
if($deprecation_docs ne "")
{
$description .= "\n\@deprecated $deprecation_docs\n";
}
# Append the enum description docs.
DocsParser::convert_docs_to_cpp($c_enum_name, \$docs);
$docs .= "\n\n$description";
DocsParser::add_m4_quotes(\$docs);
# Escape the space after "i.e." or "e.g." in the brief description.
$docs =~ s/^([^.]*\b(?:i\.e\.|e\.g\.))\s/$1\\ /;
remove_example_code($c_enum_name, \$docs);
# Add indentation and an asterisk on all lines except the first.
# $docs does not contain leading "/**" and trailing "*/".
$docs =~ s/\n/\n${indent}\* /g;
return $docs;
}
# $strCommentBlock lookup_documentation($strFunctionName, $deprecation_docs,
# $newin, $objCppfunc, $errthrow, $voidreturn)
# The parameters from objCppfunc are optional. If objCppfunc is passed, it is used for
# - deciding if the final C parameter shall be omitted if the C++ method
# has a slot parameter,
# - converting C parameter names to C++ parameter names in the documentation,
# if they differ,
# - deciding if the @return section shall be omitted.
sub lookup_documentation($$$;$$$)
{
my ($functionName, $deprecation_docs, $newin, $objCppfunc, $errthrow, $voidreturn) = @_;
my $objFunction = $DocsParser::hasharrayFunctions{$functionName};
if(!$objFunction)
{
#print "DocsParser.pm: Warning: function not found: $functionName\n";
return ""
}
my $text = $$objFunction{description};
if(length($text) eq 0)
{
print "DocsParser.pm: Warning: No C docs for: \"$functionName\"\n";
}
DocsParser::convert_docs_to_cpp($functionName, \$text);
DocsParser::replace_or_add_newin(\$text, $newin);
# A blank line, marking the end of a paragraph, is needed after @newin.
# Most @newins are at the end of a function description.
$text .= "\n";
# Add note about deprecation if we have specified that in our _WRAP_METHOD(),
# _WRAP_SIGNAL(), _WRAP_PROPERTY() or _WRAP_CHILD_PROPERTY() call:
if($deprecation_docs ne "")
{
$text .= "\n\@deprecated $deprecation_docs\n";
}
my %param_name_mappings = DocsParser::append_parameter_docs($objFunction, \$text, $objCppfunc);
unless ((defined($objCppfunc) && $$objCppfunc{rettype} eq "void") || $voidreturn)
{
DocsParser::append_return_docs($objFunction, \$text);
}
DocsParser::add_throws(\$text, $errthrow);
# Convert C parameter names to C++ parameter names where they differ.
foreach my $key (keys %param_name_mappings)
{
$text =~ s/\@(param|a) $key\b/\@$1 $param_name_mappings{$key}/g;
}
# Remove leading and trailing white space.
$text = string_trim($text);
DocsParser::add_m4_quotes(\$text);
# Escape the space after "i.e." or "e.g." in the brief description.
$text =~ s/^([^.]*\b(?:i\.e\.|e\.g\.))\s/$1\\ /;
remove_example_code($functionName, \$text);
# Convert to Doxygen-style comment.
$text =~ s/\n/\n${DocsParser::commentMiddleStart}/g;
$text = $DocsParser::commentStart . $text;
$text .= "\n${DocsParser::commentEnd}\n";
return $text;
}
# void convert_value_to_cpp(\$text)
# Converts e.g. a property's default value.
sub convert_value_to_cpp($)
{
my ($text) = @_;
$$text =~ s"\bFALSE\b"false"g;
$$text =~ s"\bTRUE\b"true"g;
$$text =~ s"\bNULL\b"nullptr"g;
# Enumerator names
$$text =~ s/\b([A-Z]+)_([A-Z\d_]+)\b/&DocsParser::substitute_enumerator_name($1, $2)/eg;
}
# void remove_example_code($obj_name, \$text)
# Removes example code from the text of docs (passed by reference).
sub remove_example_code($$)
{
my ($obj_name, $text) = @_;
# Remove C example code.
my $example_removals =
($$text =~ s".*?"[C example ellipted]"sg);
$example_removals +=
($$text =~ s".*?"\n[C example ellipted]"sg);
$example_removals += ($$text =~ s"\|\[.*?]\|"\n[C example ellipted]"sg);
# See "MS Visual Studio" comment in gmmproc.in.
print STDERR "gmmproc, $main::source, $obj_name: Example code discarded.\n"
if ($example_removals);
}
sub add_m4_quotes($)
{
my ($text) = @_;
# __BT__ and __FT__ are M4 macros defined in the base.m4 file that produce
# a "`" and a "'" resp. without M4 errors.
my %m4_quotes = (
"`" => "'__BT__`",
"'" => "'__FT__`",
);
$$text =~ s/([`'])/$m4_quotes{$1}/g;
$$text = "`" . $$text . "'";
}
# The final objCppfunc is optional. If passed, it is used to determine
# if the final C parameter should be omitted if the C++ method has a
# slot parameter. It is also used for converting C parameter names to
# C++ parameter names in the documentation, if they differ.
sub append_parameter_docs($$;$)
{
my ($obj_function, $text, $objCppfunc) = @_;
my @docs_param_names = @{$$obj_function{param_names}};
my $param_descriptions = \$$obj_function{param_descriptions};
my $defs_method = GtkDefs::lookup_method_dont_mark($$obj_function{name});
my @c_param_names = $defs_method ? @{$$defs_method{param_names}} : @docs_param_names;
# The information in
# $obj_function comes from the docs.xml file,
# $objCppfunc comes from _WRAP_METHOD() or _WRAP_SIGNAL() in the .hg file,
# $defs_method comes from the methods.defs file.
# Ideally @docs_param_names and @c_param_names are identical.
# In the real world the parameters in the C documentation are sometimes not
# listed in the same order as the arguments in the C function declaration.
# We try to handle that case to some extent. If no argument name is misspelt
# in either the docs or the C function declaration, it usually succeeds for
# methods, but not for signals. For signals there is no C function declaration
# to compare with. If the docs of some method or signal get badly distorted
# due to imperfections in the C docs, and it's difficult to get the C docs
# corrected, correct docs can be added to the docs_override.xml file.
# Skip first param if this is a signal.
if ($$obj_function{name} =~ /\w+::/)
{
shift(@docs_param_names);
shift(@c_param_names);
}
# Skip first parameter if this is a non-static method.
elsif (defined($objCppfunc))
{
if (!$$objCppfunc{static})
{
shift(@docs_param_names);
shift(@c_param_names);
}
}
# The second alternative is for use with method-mappings meaning:
# this function is mapped into this Gtk::class.
elsif (($defs_method && $$defs_method{class} ne "") ||
$$obj_function{mapped_class} ne "")
{
shift(@docs_param_names);
shift(@c_param_names);
}
# Skip the last param if there is a slot because it would be a
# gpointer user_data parameter.
if (defined($objCppfunc) && $$objCppfunc{slot_name})
{
pop(@docs_param_names);
pop(@c_param_names);
}
# Skip the last param if it's an error output param.
if (scalar @docs_param_names && $docs_param_names[-1] eq "error")
{
pop(@docs_param_names);
pop(@c_param_names);
}
my $cpp_param_names;
my $param_mappings;
my $out_param_index = 1000; # No method has that many arguments, hopefully.
if (defined($objCppfunc))
{
$cpp_param_names = $$objCppfunc{param_names};
$param_mappings = $$objCppfunc{param_mappings}; # C name -> C++ index
if (exists $$param_mappings{OUT})
{
$out_param_index = $$param_mappings{OUT};
}
}
my %param_name_mappings; # C name -> C++ name
for (my $i = 0; $i < @docs_param_names; ++$i)
{
my $param = $docs_param_names[$i];
my $desc = $$param_descriptions->{$param};
my $param_without_trailing_underscore = $param;
$param_without_trailing_underscore =~ s/([a-zA-Z0-9]*(_[a-zA-Z0-9]+)*)_?/$1/g;
if (defined($objCppfunc))
{
# If the C++ name is not equal to the C name, mark that the name
# shall be changed in the documentation.
my $cpp_name = $param;
if (exists $$param_mappings{$param})
{
# Rename and/or reorder declaration ({c_name} or {.}) in _WRAP_*().
$cpp_name = $$cpp_param_names[$$param_mappings{$param}];
}
elsif ($c_param_names[$i] eq $param)
{
# Location in docs coincides with location in C declaration.
my $cpp_index = $i;
$cpp_index++ if ($i >= $out_param_index);
$cpp_name = $$cpp_param_names[$cpp_index];
}
else
{
# Search for the param in the C declaration.
for (my $j = 0; $j < @c_param_names; ++$j)
{
if ($c_param_names[$j] eq $param)
{
my $cpp_index = $j;
$cpp_index++ if ($j >= $out_param_index);
$cpp_name = $$cpp_param_names[$cpp_index];
last;
}
}
}
if ($cpp_name ne $param)
{
$param_name_mappings{$param_without_trailing_underscore} = $cpp_name;
}
}
elsif ($param eq "callback")
{
# Deal with callback parameters converting the docs to a slot
# compatible format.
$param_name_mappings{$param} = "slot";
}
DocsParser::convert_docs_to_cpp($$obj_function{name}, \$desc);
if(length($desc) > 0)
{
$desc .= '.' unless($desc =~ /(?:^|\.)$/);
$$text .= "\n\@param ${param_without_trailing_underscore} \u${desc}";
}
}
return %param_name_mappings;
}
sub append_return_docs($$)
{
my ($obj_function, $text) = @_;
my $desc = $$obj_function{return_description};
DocsParser::convert_docs_to_cpp($$obj_function{name}, \$desc);
$desc =~ s/\.$//;
$$text .= "\n\@return \u${desc}." unless($desc eq "");
}
sub convert_docs_to_cpp($$)
{
my ($doc_func, $text) = @_;
# Chop off leading and trailing whitespace.
$$text =~ s/^\s+//;
$$text =~ s/\s+$//;
# Convert C documentation to C++.
DocsParser::remove_c_memory_handling_info($text);
DocsParser::convert_tags_to_doxygen($text);
DocsParser::substitute_identifiers($doc_func, $text);
$$text =~ s/\bX\s+Window\b/X \%Window/g;
$$text =~ s/\bWindow\s+manager/\%Window manager/g;
}
sub remove_c_memory_handling_info($)
{
my ($text) = @_;
# These C memory handling functions are removed, in most cases:
# g_free, g_strfreev, g_list_free, g_slist_free
my $mem_funcs = '\\bg_(?:free|strfreev|s?list_free)\\b';
return if ($$text !~ /$mem_funcs/);
# The text contains $mem_funcs. That's usually not relevant to C++ programmers.
# Try to remove irrelevant text without removing too much.
# This function is called separately for the description of each method,
# parameter and return value. Let's assume that only one removal is necessary.
# Don't modify the text, if $mem_funcs is part of example code.
# remove_c_memory_handling_info() is called before remove_example_code().
return if ($$text =~ m"(?:||\|\[).*?$mem_funcs.*?(?:||]\|)"s);
# First try to remove the sentence containing $mem_funcs.
# For simplicity, assume that a sentence is any string ending with a period.
my $tmp = $$text;
if ($tmp =~ s/[^.]*$mem_funcs.*?(?:\.|$)//s)
{
if ($tmp =~ /\w/)
{
# A sentence contains $mem_funcs, and it's not the only sentence in the text.
# Remove that sentence.
$$text = $tmp;
return;
}
}
$tmp = $$text;
if ($tmp =~ s/[^.,]*$mem_funcs.*?(?:\.|,|$)//s)
{
if ($tmp =~ /\w/)
{
# A clause, delimited by comma or period, contains $mem_funcs,
# and it's not the only clause in the text. Remove that clause.
$tmp =~ s/,\s*$/./;
$$text = $tmp;
return;
}
}
# Last attempt. If this doesn't remove anything, don't modify the text.
$$text =~ s/ that (?:must|should) be freed with g_free(?:\(\))?//;
}
sub convert_tags_to_doxygen($)
{
my ($text) = @_;
for($$text)
{
# Replace format tags.
s"<(/?)(?:emphasis|replaceable)>"<$1em>"g;
s"<(/?)(?:constant|envar|filename|function|guimenuitem|literal|option|structfield|varname)>"<$1tt>"g;
# Some argument names are suffixed by "_" -- strip this.
# gtk-doc uses @thearg, but doxygen uses @a thearg.
s" ?\@([a-zA-Z0-9]*(_[a-zA-Z0-9]+)*)_?\b" \@a $1"g;
# Don't convert Doxygen's $throw, @throws and @param, so these can be used
# in the docs_override.xml.
# Also don't convert @enum and @var which are used for enum documentation.
s" \@a (throws?|param|enum|var)\b" \@$1"g;
s"^Note ?\d?: "\@note "mg;
s"?programlisting>""g;
s"""g;
# Remove all link tags.
s"?u?link[^&]*?>""g;
# Remove all para tags and simpara tags (simple paragraph).
s"?(sim)?para>""g;
# Convert , and to something that
# Doxygen understands.
s"\n?(.*?)\n?"&DocsParser::convert_simplelist($1)"esg;
s"\n?(.*?)\n?"&DocsParser::convert_itemizedlist($1)"esg;
s"\n?(.*?)\n?"&DocsParser::convert_variablelist($1)"esg;
# Use our Doxygen @newin alias.
# Accept "Since" with or without a following colon.
# Require the Since clause to be
# - at the end of the string,
# - at the end of a line and followed by a blank line, or
# - followed by "Deprecated".
# If none of these requirements is met, "Since" may be embedded inside
# a function description, referring to only a part of the description.
# See e.g. g_date_time_format() and gdk_cursor_new_from_pixbuf().
# Doxygen assumes that @newin is followed by a paragraph that describes
# what is new, but we don't use it that way.
my $first_part = '\bSince[:\h]\h*(\d+)\.(\d+)'; # \h == [\t ] (horizontal whitespace)
my $last_part = '\.?(\s*$|\h*\n\h*\n|\s+Deprecated)';
s/$first_part\.(\d+)$last_part/\@newin{$1,$2,$3}$4/g;
s/$first_part$last_part/\@newin{$1,$2}$3/g;
# Doxygen is too dumb to handle —
s"—" \@htmlonly—\@endhtmlonly "g;
s"\%?\bFALSE\b"false"g;
s"\%?\bTRUE\b"true"g;
s"\%?\bNULL\b"nullptr"g;
s"#?\bgboolean\b"bool"g;
s"#?\bg(int|short|long)\b"$1"g;
s"#?\bgu(int|short|long)\b"unsigned $1"g;
# Escape all backslashes, except in \throw, \throws and \param, which can
# be Doxygen commands in the docs_override.xml.
s"\\"\\\\"g;
s"\\\\(throws?|param)\b"\\$1"g
}
}
# void replace_or_add_newin(\$text, $newin)
# If $newin is not empty, replace the version numbers in an existing @newin
# Doxygen alias, or add one if there is none.
sub replace_or_add_newin($$)
{
my ($text, $newin) = @_;
return if ($newin eq "");
if (!($$text =~ s/\@newin\{[\d,]+\}/\@newin{$newin}/))
{
$$text .= "\n\n\@newin{$newin}";
}
}
# void add_throws(\$text, $errthrow)
# If $errthrow is defined and not empty, and $$text does not contain a @throw,
# @throws or @exception Doxygen command, add one or more @throws commands.
sub add_throws($$)
{
my ($text, $errthrow) = @_;
return if (!defined($errthrow) or $errthrow eq "");
if (!($$text =~ /[\@\\](throws?|exception)\b/))
{
# Each comma, not preceded by backslash, creates a new @throws command.
$errthrow =~ s/([^\\]),\s*/$1\n\@throws /g;
$errthrow =~ s/\\,/,/g; # Delete backslash before comma
$$text .= "\n\n\@throws $errthrow";
}
}
# Convert tags to a list of newline-separated elements.
sub convert_simplelist($)
{
my ($text) = @_;
$text =~ s"(.*?)(\n?)(\n?)"$1
\n"sg;
return "
\n" . $text . "
\n";
}
# Convert tags to Doxygen format.
sub convert_itemizedlist($)
{
my ($text) = @_;
$text =~ s"(.*?)(\n?)(\n?)"- $1\n"sg;
return $text;
}
# Convert tags to an HTML definition list.
sub convert_variablelist($)
{
my ($text) = @_;
$text =~ s"?varlistentry>\n?""g;
$text =~ s"<(/?)term>"<$1dt>"g;
$text =~ s"<(/?)listitem>"<$1dd>"g;
return "\n" . $text . "
\n";
}
sub substitute_identifiers($$)
{
my ($doc_func, $text) = @_;
for($$text)
{
# TODO: handle more than one namespace
# Convert property names to C++.
# The standard (and correct) gtk-doc way of referring to properties.
s/(#[A-Z]\w+):([a-z\d-]+)/my $name = "$1::property_$2()"; $name =~ s"-"_"g; "$name";/ge;
# This is an incorrect format but widely used so correctly treat as a
# property.
s/(\s)::([a-z\d-]+)(\s+property)/my $name = "$1property_$2()$3"; $name =~ s"-"_"g; "$name";/ge;
# This one catches properties written in the gtk-doc block as for example
# '#GtkActivatable::related-action property'. The correct way to write it
# would be 'GtkActivatable:related-action' (with a single colon and not
# two because the double colons are specifically for signals -- see the
# gtk-doc docs:
# http://developer.gnome.org/gtk-doc-manual/unstable/documenting_symbols.html.en)
# but a few are written with the double colon in the gtk+ docs so this
# protects against those errors.
s/([A-Z]\w+)::([a-z\d-]+)(\s+property)/my $name = "$1::property_$2()$3"; $name =~ s"-"_"g; "$name";/ge;
# Convert signal names to C++.
s/(^|\s)::([a-z\d-]+)(\(\))*([^:\w]|$)/my $name = "$1signal_$2()$4"; $name =~ s"-"_"g; "$name";/ge;
s/(#[A-Z]\w+)::([a-z\d-]+)(\(\))*([^:\w]|$)/my $name = "$1::signal_$2()$4"; $name =~ s"-"_"g; "$name";/ge;
# Type names
s/[#%]([A-Z][a-z]*)([A-Z][A-Za-z]+)\b/&DocsParser::substitute_type_name($1, $2)/eg;
# Enumerator names
s/[#%]([A-Z]+)_([A-Z\d_]+)\b/&DocsParser::substitute_enumerator_name($1, $2)/eg;
s/\bG:://g; #Rename G::Something to Something.
# Substitute callback types to slot types.
s/(\b\w+)Callback/Slot$1/g;
# Replace C function names with C++ counterparts.
s/\b([a-z]+_[a-z][a-z\d_]+) ?\(\)/&DocsParser::substitute_function($doc_func, $1)/eg;
}
}
sub substitute_type_name($$)
{
my ($module, $name) = @_;
my $c_name = $module . $name;
if (exists $DocsParser::type_names{$c_name})
{
return $DocsParser::type_names{$c_name};
}
#print "DocsParser.pm: Assuming the type $c_name shall become " . (($module eq "G") ? "" : "${module}::") . "$name.\n";
return $module . "::" . $name;
}
sub substitute_enumerator_name($$)
{
state $first_call = 1;
state @sorted_keys;
my ($module, $name) = @_;
my $c_name = $module . "_" . $name;
if (exists $DocsParser::enumerator_names{$c_name})
{
return $DocsParser::enumerator_names{$c_name};
}
if ($first_call)
{
# Sort only once, on the first call.
# "state @sorted_keys = ...;" is not possible. Only a scalar variable
# can have a one-time assignment in its defining "state" statement.
$first_call = 0;
@sorted_keys = reverse sort keys(%DocsParser::enumerator_name_prefixes);
}
# This is a linear search through the keys of %DocsParser::enumerator_name_prefixes.
# It's inefficient if %DocsParser::enumerator_name_prefixes contains many values.
#
# If one key is part of another key (e.g. G_REGEX_MATCH_ and G_REGEX_),
# search for a match against the longer key before the shorter key.
foreach my $key (@sorted_keys)
{
if ($c_name =~ m/^$key/)
{
# $c_name begins with $key. Replace that part of $c_name with the C++ analogue.
$c_name =~ s/^$key/$DocsParser::enumerator_name_prefixes{$key}/;
return $c_name; # Now it's the C++ name.
}
}
# Don't apply the default substitution to these module names.
# They are not really modules.
if (grep {$module eq $_} qw(HAS NO O SO AF))
{
return $c_name;
}
my $cxx_name = (($module eq "G") ? "" : (ucfirst(lc($module)) . "::")) . $name;
#print "DocsParser.pm: Assuming the enumerator $c_name shall become $cxx_name.\n";
return $cxx_name;
}
sub substitute_function($$)
{
my ($doc_func, $name) = @_;
if(my $defs_method = GtkDefs::lookup_method_dont_mark($name))
{
if(my $defs_object = DocsParser::lookup_object_of_method($$defs_method{class}, $name))
{
my $module = $$defs_object{module};
my $class = $$defs_object{name};
DocsParser::build_method_name($doc_func, $module, $class, \$name);
}
else
{
print STDERR "Documentation: Class/Namespace for $name not found\n";
}
}
else
{
# Not perfect, but better than nothing.
$name =~ s/^g_/Glib::/;
}
return $name . "()";
}
sub lookup_object_of_method($$)
{
my ($object, $name) = @_;
if($object ne "")
{
my $result = GtkDefs::lookup_object($object);
# We already know the C object name, because $name is a non-static method.
if(defined($result) and ($result ne ""))
{
return $result;
}
else
{
print "DocsParser.pm: lookup_object_of_method(): Warning: GtkDefs::lookup_object() failed for object name=" . $object . ", function name=" . $name . "\n";
print " This may be a missing define-object in a *.defs file.\n"
}
}
my @parts = split(/_/, $name);
pop(@parts);
# (gtk, foo, bar) -> (Gtk, Foo, Bar)
foreach(@parts) { $_ = (length > 2) ? ucfirst : uc; }
# Do a bit of try'n'error.
while($#parts >= 1)
{
my $try = join("", @parts);
if(my $defs_object = GtkDefs::lookup_object($try))
{ return $defs_object; }
pop(@parts);
}
return undef;
}
sub build_method_name($$$$)
{
my ($doc_func, $module, $class, $name) = @_;
my $prefix = $module . $class;
$prefix =~ s/([a-z])([A-Z])/$1_$2/g;
$prefix = lc($prefix) . '_';
if($$name =~ m/^\Q$prefix\E/)
{
my $scope = "";
$scope = "${module}::${class}::" unless($doc_func =~ m/^\Q$prefix\E/);
substr($$name, 0, length($prefix)) = $scope;
}
}
1; # indicate proper module load.