# # WebKit IDL parser # # Copyright (C) 2005 Nikolas Zimmermann # Copyright (C) 2006 Samuel Weinig # Copyright (C) 2007, 2008, 2009, 2010 Apple Inc. All rights reserved. # Copyright (C) 2009 Cameron McCormack # Copyright (C) Research In Motion Limited 2010. All rights reserved. # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Library General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library 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 # Library General Public License for more details. # # You should have received a copy of the GNU Library General Public License # along with this library; see the file COPYING.LIB. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, # Boston, MA 02110-1301, USA. # package CodeGenerator; use strict; use File::Find; my $useDocument = ""; my $useGenerator = ""; my $useOutputDir = ""; my $useOutputHeadersDir = ""; my $useDirectories = ""; my $useLayerOnTop = 0; my $preprocessor; my $writeDependencies = 0; my $defines = ""; my $codeGenerator = 0; my $verbose = 0; my %numericTypeHash = ("int" => 1, "short" => 1, "long" => 1, "long long" => 1, "unsigned int" => 1, "unsigned short" => 1, "unsigned long" => 1, "unsigned long long" => 1, "float" => 1, "double" => 1); my %primitiveTypeHash = ( "boolean" => 1, "void" => 1, "Date" => 1); my %stringTypeHash = ("DOMString" => 1, "AtomicString" => 1); my %nonPointerTypeHash = ("DOMTimeStamp" => 1, "CompareHow" => 1); my %svgAnimatedTypeHash = ("SVGAnimatedAngle" => 1, "SVGAnimatedBoolean" => 1, "SVGAnimatedEnumeration" => 1, "SVGAnimatedInteger" => 1, "SVGAnimatedLength" => 1, "SVGAnimatedLengthList" => 1, "SVGAnimatedNumber" => 1, "SVGAnimatedNumberList" => 1, "SVGAnimatedPreserveAspectRatio" => 1, "SVGAnimatedRect" => 1, "SVGAnimatedString" => 1, "SVGAnimatedTransformList" => 1); my %svgAttributesInHTMLHash = ("class" => 1, "id" => 1, "onabort" => 1, "onclick" => 1, "onerror" => 1, "onload" => 1, "onmousedown" => 1, "onmousemove" => 1, "onmouseout" => 1, "onmouseover" => 1, "onmouseup" => 1, "onresize" => 1, "onscroll" => 1, "onunload" => 1); my %svgTypeNeedingTearOff = ( "SVGAngle" => "SVGPropertyTearOff", "SVGLength" => "SVGPropertyTearOff", "SVGLengthList" => "SVGListPropertyTearOff", "SVGMatrix" => "SVGPropertyTearOff", "SVGNumber" => "SVGPropertyTearOff", "SVGNumberList" => "SVGListPropertyTearOff", "SVGPathSegList" => "SVGPathSegListPropertyTearOff", "SVGPoint" => "SVGPropertyTearOff", "SVGPointList" => "SVGListPropertyTearOff", "SVGPreserveAspectRatio" => "SVGPropertyTearOff", "SVGRect" => "SVGPropertyTearOff", "SVGStringList" => "SVGStaticListPropertyTearOff", "SVGTransform" => "SVGPropertyTearOff", "SVGTransformList" => "SVGTransformListPropertyTearOff" ); my %svgTypeWithWritablePropertiesNeedingTearOff = ( "SVGPoint" => 1, "SVGMatrix" => 1 ); # Cache of IDL file pathnames. my $idlFiles; # Default constructor sub new { my $object = shift; my $reference = { }; $useDirectories = shift; $useGenerator = shift; $useOutputDir = shift; $useOutputHeadersDir = shift; $useLayerOnTop = shift; $preprocessor = shift; $writeDependencies = shift; $verbose = shift; bless($reference, $object); return $reference; } sub StripModule($) { my $object = shift; my $name = shift; $name =~ s/[a-zA-Z0-9]*:://; return $name; } sub ProcessDocument { my $object = shift; $useDocument = shift; $defines = shift; my $ifaceName = "CodeGenerator" . $useGenerator; require $ifaceName . ".pm"; # Dynamically load external code generation perl module $codeGenerator = $ifaceName->new($object, $useOutputDir, $useOutputHeadersDir, $useLayerOnTop, $preprocessor, $writeDependencies, $verbose); unless (defined($codeGenerator)) { my $classes = $useDocument->classes; foreach my $class (@$classes) { print "Skipping $useGenerator code generation for IDL interface \"" . $class->name . "\".\n" if $verbose; } return; } # Start the actual code generation! $codeGenerator->GenerateModule($useDocument, $defines); my $classes = $useDocument->classes; foreach my $class (@$classes) { print "Generating $useGenerator bindings code for IDL interface \"" . $class->name . "\"...\n" if $verbose; $codeGenerator->GenerateInterface($class, $defines); } } sub FileNamePrefix { my $object = shift; my $ifaceName = "CodeGenerator" . $useGenerator; require $ifaceName . ".pm"; # Dynamically load external code generation perl module $codeGenerator = $ifaceName->new($object, $useOutputDir, $useOutputHeadersDir, $useLayerOnTop, $preprocessor, $writeDependencies, $verbose); return $codeGenerator->FileNamePrefix(); } sub UpdateFile { my $object = shift; my $fileName = shift; my $contents = shift; open FH, "> $fileName" or die "Couldn't open $fileName: $!\n"; print FH $contents; close FH; } sub ForAllParents { my $object = shift; my $dataNode = shift; my $beforeRecursion = shift; my $afterRecursion = shift; my $parentsOnly = shift; my $recurse; $recurse = sub { my $interface = shift; for (@{$interface->parents}) { my $interfaceName = $object->StripModule($_); my $parentInterface = $object->ParseInterface($interfaceName, $parentsOnly); if ($beforeRecursion) { &$beforeRecursion($parentInterface) eq 'prune' and next; } &$recurse($parentInterface); &$afterRecursion($parentInterface) if $afterRecursion; } }; &$recurse($dataNode); } sub AddMethodsConstantsAndAttributesFromParentClasses { # Add to $dataNode all of its inherited interface members, except for those # inherited through $dataNode's first listed parent. If an array reference # is passed in as $parents, the names of all ancestor interfaces visited # will be appended to the array. If $collectDirectParents is true, then # even the names of $dataNode's first listed parent and its ancestors will # be appended to $parents. my $object = shift; my $dataNode = shift; my $parents = shift; my $collectDirectParents = shift; my $first = 1; $object->ForAllParents($dataNode, sub { my $interface = shift; if ($first) { # Ignore first parent class, already handled by the generation itself. $first = 0; if ($collectDirectParents) { # Just collect the names of the direct ancestor interfaces, # if necessary. push(@$parents, $interface->name); $object->ForAllParents($interface, sub { my $interface = shift; push(@$parents, $interface->name); }, undef, 1); } # Prune the recursion here. return 'prune'; } # Collect the name of this additional parent. push(@$parents, $interface->name) if $parents; print " | |> -> Inheriting " . @{$interface->constants} . " constants, " . @{$interface->functions} . " functions, " . @{$interface->attributes} . " attributes...\n | |>\n" if $verbose; # Add this parent's members to $dataNode. push(@{$dataNode->constants}, @{$interface->constants}); push(@{$dataNode->functions}, @{$interface->functions}); push(@{$dataNode->attributes}, @{$interface->attributes}); }); } sub GetMethodsAndAttributesFromParentClasses { # For the passed interface, recursively parse all parent # IDLs in order to find out all inherited properties/methods. my $object = shift; my $dataNode = shift; my @parentList = (); $object->ForAllParents($dataNode, undef, sub { my $interface = shift; my $hash = { "name" => $interface->name, "functions" => $interface->functions, "attributes" => $interface->attributes }; unshift(@parentList, $hash); }); return @parentList; } sub FindSuperMethod { my ($object, $dataNode, $functionName) = @_; my $indexer; $object->ForAllParents($dataNode, undef, sub { my $interface = shift; foreach my $function (@{$interface->functions}) { if ($function->signature->name eq $functionName) { $indexer = $function->signature; return 'prune'; } } }); return $indexer; } sub IDLFileForInterface { my $object = shift; my $interfaceName = shift; unless ($idlFiles) { my $sourceRoot = $ENV{SOURCE_ROOT}; my @directories = map { $_ = "$sourceRoot/$_" if $sourceRoot && -d "$sourceRoot/$_"; $_ } @$useDirectories; $idlFiles = { }; my $wanted = sub { $idlFiles->{$1} = $File::Find::name if /^([A-Z].*)\.idl$/; $File::Find::prune = 1 if /^\../; }; find($wanted, @directories); } return $idlFiles->{$interfaceName}; } sub ParseInterface { my $object = shift; my $interfaceName = shift; my $parentsOnly = shift; return undef if $interfaceName eq 'Object'; # Step #1: Find the IDL file associated with 'interface' my $filename = $object->IDLFileForInterface($interfaceName) or die("Could NOT find IDL file for interface \"$interfaceName\"!\n"); print " | |> Parsing parent IDL \"$filename\" for interface \"$interfaceName\"\n" if $verbose; # Step #2: Parse the found IDL file (in quiet mode). my $parser = IDLParser->new(1); my $document = $parser->Parse($filename, $defines, $preprocessor, $parentsOnly); foreach my $interface (@{$document->classes}) { return $interface if $interface->name eq $interfaceName; } die("Could NOT find interface definition for $interfaceName in $filename"); } # Helpers for all CodeGenerator***.pm modules sub SkipIncludeHeader { my $object = shift; my $type = shift; return 1 if $primitiveTypeHash{$type}; return 1 if $numericTypeHash{$type}; return 1 if $type eq "String"; # Special case: SVGPoint.h / SVGNumber.h do not exist. return 1 if $type eq "SVGPoint" or $type eq "SVGNumber"; return 0; } sub IsNumericType { my $object = shift; my $type = shift; return 1 if $numericTypeHash{$type}; return 0; } sub IsPrimitiveType { my $object = shift; my $type = shift; return 1 if $primitiveTypeHash{$type}; return 1 if $numericTypeHash{$type}; return 0; } sub IsStringType { my $object = shift; my $type = shift; return 1 if $stringTypeHash{$type}; return 0; } sub IsNonPointerType { my $object = shift; my $type = shift; return 1 if $nonPointerTypeHash{$type} or $primitiveTypeHash{$type} or $numericTypeHash{$type}; return 0; } sub IsSVGTypeNeedingTearOff { my $object = shift; my $type = shift; return 1 if exists $svgTypeNeedingTearOff{$type}; return 0; } sub IsSVGTypeWithWritablePropertiesNeedingTearOff { my $object = shift; my $type = shift; return 1 if $svgTypeWithWritablePropertiesNeedingTearOff{$type}; return 0; } sub GetSVGTypeNeedingTearOff { my $object = shift; my $type = shift; return $svgTypeNeedingTearOff{$type} if exists $svgTypeNeedingTearOff{$type}; return undef; } sub GetSVGWrappedTypeNeedingTearOff { my $object = shift; my $type = shift; my $svgTypeNeedingTearOff = $object->GetSVGTypeNeedingTearOff($type); return $svgTypeNeedingTearOff if not $svgTypeNeedingTearOff; if ($svgTypeNeedingTearOff =~ /SVGPropertyTearOff/) { $svgTypeNeedingTearOff =~ s/SVGPropertyTearOff//; return $svgTypeNeedingTearOff; } sub IsSVGAnimatedType { my $object = shift; my $type = shift; return 1 if $svgAnimatedTypeHash{$type}; return 0; } sub GetArrayType { my $object = shift; my $type = shift; return $1 if $type =~ /^sequence<([\w\d_\s]+)>.*/; return ""; } # Uppercase the first letter while respecting WebKit style guidelines. # E.g., xmlEncoding becomes XMLEncoding, but xmlllang becomes Xmllang. sub WK_ucfirst { my ($object, $param) = @_; my $ret = ucfirst($param); $ret =~ s/Xml/XML/ if $ret =~ /^Xml[^a-z]/; return $ret; } # Lowercase the first letter while respecting WebKit style guidelines. # URL becomes url, but SetURL becomes setURL. sub WK_lcfirst { my ($object, $param) = @_; my $ret = lcfirst($param); $ret =~ s/hTML/html/ if $ret =~ /^hTML/; $ret =~ s/uRL/url/ if $ret =~ /^uRL/; $ret =~ s/jS/js/ if $ret =~ /^jS/; $ret =~ s/xML/xml/ if $ret =~ /^xML/; $ret =~ s/xSLT/xslt/ if $ret =~ /^xSLT/; # For HTML5 FileSystem API Flags attributes. # (create is widely used to instantiate an object and must be avoided.) $ret =~ s/^create/isCreate/ if $ret =~ /^create$/; $ret =~ s/^exclusive/isExclusive/ if $ret =~ /^exclusive$/; return $ret; } # Return the C++ namespace that a given attribute name string is defined in. sub NamespaceForAttributeName { my ($object, $interfaceName, $attributeName) = @_; return "SVGNames" if $interfaceName =~ /^SVG/ && !$svgAttributesInHTMLHash{$attributeName}; return "HTMLNames"; } # Identifies overloaded functions and for each function adds an array with # links to its respective overloads (including itself). sub LinkOverloadedFunctions { my ($object, $dataNode) = @_; my %nameToFunctionsMap = (); foreach my $function (@{$dataNode->functions}) { my $name = $function->signature->name; $nameToFunctionsMap{$name} = [] if !exists $nameToFunctionsMap{$name}; push(@{$nameToFunctionsMap{$name}}, $function); $function->{overloads} = $nameToFunctionsMap{$name}; $function->{overloadIndex} = @{$nameToFunctionsMap{$name}}; } } sub AttributeNameForGetterAndSetter { my ($generator, $attribute) = @_; my $attributeName = $attribute->signature->name; if ($attribute->signature->extendedAttributes->{"ImplementedAs"}) { $attributeName = $attribute->signature->extendedAttributes->{"ImplementedAs"}; } my $attributeType = $generator->StripModule($attribute->signature->type); # Avoid clash with C++ keyword. $attributeName = "_operator" if $attributeName eq "operator"; # SVGAElement defines a non-virtual "String& target() const" method which clashes with "virtual String target() const" in Element. # To solve this issue the SVGAElement method was renamed to "svgTarget", take care of that when calling this method. $attributeName = "svgTarget" if $attributeName eq "target" and $attributeType eq "SVGAnimatedString"; # SVG animated types need to use a special attribute name. # The rest of the special casing for SVG animated types is handled in the language-specific code generators. $attributeName .= "Animated" if $generator->IsSVGAnimatedType($attributeType); return $attributeName; } sub ContentAttributeName { my ($generator, $implIncludes, $interfaceName, $attribute) = @_; my $contentAttributeName = $attribute->signature->extendedAttributes->{"Reflect"}; return undef if !$contentAttributeName; $contentAttributeName = lc $generator->AttributeNameForGetterAndSetter($attribute) if $contentAttributeName eq "VALUE_IS_MISSING"; my $namespace = $generator->NamespaceForAttributeName($interfaceName, $contentAttributeName); $implIncludes->{"${namespace}.h"} = 1; return "WebCore::${namespace}::${contentAttributeName}Attr"; } sub GetterExpression { my ($generator, $implIncludes, $interfaceName, $attribute) = @_; my $contentAttributeName = $generator->ContentAttributeName($implIncludes, $interfaceName, $attribute); if (!$contentAttributeName) { return ($generator->WK_lcfirst($generator->AttributeNameForGetterAndSetter($attribute))); } my $functionName; if ($attribute->signature->extendedAttributes->{"URL"}) { $functionName = "getURLAttribute"; } elsif ($attribute->signature->type eq "boolean") { $functionName = "hasAttribute"; } elsif ($attribute->signature->type eq "long") { $functionName = "getIntegralAttribute"; } elsif ($attribute->signature->type eq "unsigned long") { $functionName = "getUnsignedIntegralAttribute"; } else { $functionName = "getAttribute"; } return ($functionName, $contentAttributeName); } sub SetterExpression { my ($generator, $implIncludes, $interfaceName, $attribute) = @_; my $contentAttributeName = $generator->ContentAttributeName($implIncludes, $interfaceName, $attribute); if (!$contentAttributeName) { return ("set" . $generator->WK_ucfirst($generator->AttributeNameForGetterAndSetter($attribute))); } my $functionName; if ($attribute->signature->type eq "boolean") { $functionName = "setBooleanAttribute"; } elsif ($attribute->signature->type eq "long") { $functionName = "setIntegralAttribute"; } elsif ($attribute->signature->type eq "unsigned long") { $functionName = "setUnsignedIntegralAttribute"; } else { $functionName = "setAttribute"; } return ($functionName, $contentAttributeName); } sub ShouldCheckEnums { my $dataNode = shift; return not $dataNode->extendedAttributes->{"DoNotCheckConstants"}; } sub GenerateConditionalString { my $generator = shift; my $node = shift; my $conditional = $node->extendedAttributes->{"Conditional"}; if ($conditional) { return $generator->GenerateConditionalStringFromAttributeValue($conditional); } else { return ""; } } sub GenerateConditionalStringFromAttributeValue { my $generator = shift; my $conditional = shift; my $operator = ($conditional =~ /&/ ? '&' : ($conditional =~ /\|/ ? '|' : '')); if ($operator) { # Avoid duplicated conditions. my %conditions; map { $conditions{$_} = 1 } split('\\' . $operator, $conditional); return "ENABLE(" . join(") $operator$operator ENABLE(", sort keys %conditions) . ")"; } else { return "ENABLE(" . $conditional . ")"; } } sub GenerateCompileTimeCheckForEnumsIfNeeded { my ($generator, $dataNode) = @_; my $interfaceName = $dataNode->name; my @checks = (); # If necessary, check that all constants are available as enums with the same value. if (ShouldCheckEnums($dataNode) && @{$dataNode->constants}) { push(@checks, "\n"); foreach my $constant (@{$dataNode->constants}) { my $reflect = $constant->extendedAttributes->{"Reflect"}; my $name = $reflect ? $reflect : $constant->name; my $value = $constant->value; my $conditional = $constant->extendedAttributes->{"Conditional"}; if ($conditional) { my $conditionalString = $generator->GenerateConditionalStringFromAttributeValue($conditional); push(@checks, "#if ${conditionalString}\n"); } if ($constant->extendedAttributes->{"ImplementedBy"}) { push(@checks, "COMPILE_ASSERT($value == " . $constant->extendedAttributes->{"ImplementedBy"} . "::$name, ${interfaceName}Enum${name}IsWrongUseDoNotCheckConstants);\n"); } else { push(@checks, "COMPILE_ASSERT($value == ${interfaceName}::$name, ${interfaceName}Enum${name}IsWrongUseDoNotCheckConstants);\n"); } if ($conditional) { push(@checks, "#endif\n"); } } push(@checks, "\n"); } return @checks; } sub ExtendedAttributeContains { my $object = shift; my $callWith = shift; return 0 unless $callWith; my $keyword = shift; my @callWithKeywords = split /\s*\|\s*/, $callWith; return grep { $_ eq $keyword } @callWithKeywords; } # FIXME: This is backwards. We currently name the interface and the IDL files with the implementation name. We # should use the real interface name in the IDL files and then use ImplementedAs to map this to the implementation name. sub GetVisibleInterfaceName { my $object = shift; my $dataNode = shift; my $interfaceName = $dataNode->extendedAttributes->{"InterfaceName"}; return $interfaceName ? $interfaceName : $dataNode->name; } 1;