Update linux installer maker for new license.txt and HTML release notes.
#
# Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
#
# This package contains routines to read the information from the Feature manager XML file.
package featuremanager; # Derived class for the feature manager xml parser
BEGIN {
@ISA = qw(featureparser); # Derived from featuerParser
require featureparser;
};
use constant STRICTCASE=>1; # To suppress the case conversion in genericparser routine
# Parse the featuredatabase XML file and generate the maps and counts
#
#featureset:
# {namespace}<namespace> - optional
# {ibyname}<ibyname> - optional
# {hfilename}<hfilename> - optional
# {hfileheader}<fileheader> - optional
# {interfacestatus}<interfacestatus> -optional
# {interfacevisibility}<interfacevisibility> - optional
# {feature_list}<nameuidmap>
# {feature} {<uid1>}{statusflags}<statusflag>
# {name}<name>
# {userdata}<userdata> - optional
# {includemacro}<macro>
# {excludemacro}<macro>
# {infeaturesetiby}<yes/no> - optional
# {comment}<comment> - optional
# {<uid2>}{statusflags}<statusflag>
# {name}<name>
# {userdata}<userdata> - optional
# {includemacro}<macro>
# {excludemacro}<macro>
# {infeaturesetiby}<yes/no> - optional
# {comment}<comment>
#
#
# Class constructor
#
sub new
{
my $class = shift;
my $object = $class->SUPER::new();
# Class members
$object->{_OBJNAME} = "FeatureManager"; # Name of the object
$object->{_FEAT_SET_LIST} = []; # Array of <featureset> hash maps
$object->{_FEAT_LIST} = {}; # Hash map of all feature name with uid
$object->{_ALIAS_FEAT_LIST} = {}; # Hash map of all alias feature name with uid
return $object;
}
#
# Private methods
#
# Private method to Get/Set the _FEAT_SET_LIST member value of this class
# @param : reference to the array of <featureset> hash maps (optional for GET)
#
my $featuresetList = sub
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"featuresetList"));
if (@_)
{
$object->{_FEAT_SET_LIST} = shift;
}
return $object->{_FEAT_SET_LIST};
};
# Private method to Get/Set the _FEAT_LIST member value of this class
# @param : reference to the fash map of feature name with uid (optional for GET)
#
my $featureList = sub
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"featureList"));
if (@_)
{
$object->{_FEAT_LIST} = shift;
}
return $object->{_FEAT_LIST};
};
# Private method ot Get/Set the _ALIAS_FEAT_LIST member value of this class
# @param: reference to the hash map of alias feature name with uid
my $aliasfeatureList = sub
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object, "aliasfeatureList"));
if(@_)
{
$object->{_ALIAS_FEAT_LIST} = shift;
}
return $object->{_ALIAS_FEAT_LIST};
};
# Read the attributes of <featureset> element
# @param : reference to the featureset
# @param : reference to the attributemap
#
my $fillFeatureSetAttributes = sub
{
my $node = shift;
my $map = shift;
$map->{ibyname} = &featureparser::getattrValue($node, "ibyname", STRICTCASE);
$map->{hfilename} = &featureparser::getattrValue($node, "hfilename", STRICTCASE);
$map->{namespace} = &featureparser::getattrValue($node, "namespace", STRICTCASE);
};
# Read the attributes of <hfileheader> element
# @param : reference to the featureset
# @param : reference to the attributemap
#
my $fillFileHeaderAttributes = sub
{
my $node = shift;
my $map = shift;
my @attribSet = &featureparser::getnodefromTree($node, "hfileheader");
foreach my $att_node (@attribSet)
{
$map->{interfacestatus} = &featureparser::getattrValue($att_node, "interfacestatus",STRICTCASE);
$map->{interfacevisibility} = &featureparser::getattrValue($att_node, "interfacevisibility",STRICTCASE);
$map->{hfileheader} = &featureparser::getelementValue($att_node,STRICTCASE);
}
};
# Read the attributes of <feature> element
# @param : reference to the featureset
# @param : reference to the attributemap
#
my $fillFeatureAttributes = sub
{
my $node = shift; my $map = shift;
my @attribSet = &featureparser::getnodefromTree($node, "feature");
my %nameUidMap = ();
foreach my $att_node (@attribSet)
{
my ($uid_value, $feat_name, $attval);
my (@macroSet, @commentSet);
my %featureHash = ();
#Read the feature name and its other attributes
$feat_name = &featureparser::getattrValue($att_node, "name",STRICTCASE);
# Validate Name
if(!$feat_name) {
&featureparser::ERROR("Feature name attribute is empty");
return 0;
}
if(exists $nameUidMap{lc($feat_name)}) {
&featureparser::ERROR("Feature entry \"".$feat_name."\" already exists");
return 0;
}
#Read the uid value
$uid_value = &featureparser::getattrValue($att_node, "uid");
if(!&featureparser::IsValidNum($uid_value)) {
&featureparser::ERROR("Valid hexadecimal or decimal value expected in UID entry for \"$feat_name\"");
return 0;
}
$uid_value = &featureparser::ConvertHexToDecimal($uid_value);
if((defined $map->{feature}) && (exists $map->{feature}{$uid_value})) {
&featureparser::ERROR("UID entry for \"".$feat_name."\" already exists");
return 0;
}
$attval = &featureparser::getattrValue($att_node, "statusflags");
if(!&featureparser::IsValidNum($attval)) {
&featureparser::ERROR("Valid hexadecimal or decimal value expected in STATUS_FLAGS entry for \"$feat_name\"");
return 0;
}
$featureHash{statusflags} = $attval;
$attval = &featureparser::getattrValue($att_node, "userdata");
if(defined $attval) {
if(!&featureparser::IsValidNum($attval)) {
&featureparser::ERROR("Valid hexadecimal or decimal value expected in USER_DATA entry for \"$feat_name\"");
return 0;
}
}
$featureHash{name} = $feat_name;
$featureHash{userdata} = $attval;
#Read the attributes of <hrhmacro> element
@macroSet = &featureparser::getnodefromTree($att_node, "hrhmacro");
foreach my $nodeMac (@macroSet) {
$featureHash{includemacro} = &featureparser::getattrValue($nodeMac,"include",STRICTCASE);
$featureHash{excludemacro} = &featureparser::getattrValue($nodeMac,"exclude",STRICTCASE);
#Read the attribute infeaturesetiby
$attval = &featureparser::getattrValue($nodeMac,"infeaturesetiby");
if(($attval eq undef) or (lc($attval) eq "yes")) {
$featureHash{infeaturesetiby} = 1;
}
elsif(lc($attval) eq "no") {
$featureHash{infeaturesetiby} = 0;
}
else {
&featureparser::ERROR("(yes|no) value expected in infeaturesetiby attribute for \"$feat_name\"");
return 0;
}
}
#Read the <comment> element value
@commentSet = &featureparser::getnodefromTree($att_node, "comment");
foreach my $nodeCmt (@commentSet) {
$featureHash{comment} = &featureparser::getelementValue($nodeCmt,STRICTCASE);
}
#Add an entry to name->uid map for this feature
$nameUidMap{lc($feat_name)} = $uid_value;
#Add an entry to the global hash map with all the attributes of this feature
$map->{feature}{$uid_value} = \%featureHash;
}
$map->{feature_list} = \%nameUidMap;
return 1;
};
my $fillAliasAttributes = sub
{
my $node = shift;
my $map = shift;
my %aliasnameUidMap = ();
my $featureList = $map->{feature_list};
my @attribSet = &featureparser::getnodefromTree($node, "featureoverride");
foreach my $att_node (@attribSet)
{
my ($uid_value, $alias_name, $feat_name, $attval);
my (@macroSet, @commentSet);
my %featureHash = ();
#read the alias name
$alias_name = &featureparser::getattrValue($att_node, "name", STRICTCASE);
if(!$alias_name)
{
&featureparser::ERROR("Featureoverride name attribute is empty");
return 0;
}
if(exists $featureList->{lc($alias_name)})
{
&featureparser::ERROR("Can't override <feature> \"".sprintf("0x%08x", $featureList->{lc($alias_name)})."\" in the same <featureset>");
return 0;
}
if(exists $aliasnameUidMap{lc($alias_name)})
{
&featureparser::ERROR("Can't override <featureoverride> \"".sprintf("0x%08x", $aliasnameUidMap{lc($alias_name)})."\" in the same <featureset>");
return 0;
}
$uid_value = &featureparser::getattrValue($att_node, "uid");
if(!&featureparser::IsValidNum($uid_value))
{
&featureparser::ERROR("Valid hexadecimal or decimal value expected in UID entry for \"$alias_name\"");
return 0;
}
$uid_value = &featureparser::ConvertHexToDecimal($uid_value);
if((defined $map->{alias_feature}) && (exists $map->{alias_feature}{$uid_value}))
{
&featureparser::ERROR("Can't override <featureoverride> \"".sprintf("0x%08x", $uid_value)."\" in the same <featureset>");
return 0;
}
if((defined $map->{feature}) && (exists $map->{feature}{$uid_value}))
{
&featureparser::ERROR("Can't override <feature> \"".sprintf("0x%08x", $uid_value)."\" in the same <featureset>");
return 0;
}
$attval = &featureparser::getattrValue($att_node, "statusflags");
if(defined $attval)
{
if(!&featureparser::IsValidNum($attval))
{
&featureparser::ERROR("Valid hexadecimal or decimal value expected in STATUS_FLAGS entry for \"$alias_name\"");
return 0;
}
}
$featureHash{statusflags} = $attval;
$attval = &featureparser::getattrValue($att_node, "userdata");
if(defined $attval)
{
if(!&featureparser::IsValidNum($attval))
{
&featureparser::ERROR("Valid hexadecimal or decimal value expected in USER_DATA entry for \"$alias_name\"");
return 0;
}
}
$featureHash{uid} = $uid_value;
$featureHash{name} = $alias_name;
$featureHash{userdata} = $attval;
#read the attributes of <hrhmacro> element
@macroSet = &featureparser::getnodefromTree($att_node,"hrhmacro");
foreach my $nodeMac (@macroSet)
{
$featureHash{includemacro} = &featureparser::getattrValue($nodeMac, "include", STRICTCASE);
$featureHash{excludemacro} = &featureparser::getattrValue($nodeMac, "exclude", STRICTCASE);
#read the attribute infeaturesetiby
$attval = &featureparser::getattrValue($nodeMac, "infeaturesetiby");
if(($attval eq undef) or (lc($attval) eq "yes"))
{
$featureHash{infeaturesetiby} = 1;
}
elsif(lc($attval) eq "no")
{
$featureHash{infeaturesetiby} = 0;
}
else
{
&featureparser::ERROR("(yes|no) value expected in infeaturesetiby attribute for \"$feat_name\"");
return 0;
}
}
#read the <comment> element value
@commentSet = &featureparser::getnodefromTree($att_node, "comment");
foreach my $nodeCmt (@commentSet)
{
$featureHash{comment} = &featureparser::getelementValue($nodeCmt, STRICTCASE);
}
#add an entry to alias->uid map for this feature
$aliasnameUidMap{lc($alias_name)} = $uid_value;
#add an entry to the global hash map with all the attributes of this alias feature
$map->{alias_feature}{$uid_value} = \%featureHash;
}
$map->{alias_feature_list} = \%aliasnameUidMap;
return 1;
};
#
# Public methods
#
sub getAliasFeatureList
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getAliasFeatureList"));
my $aliasfeatlist = $object->$aliasfeatureList();
return $aliasfeatlist;
}
# To get the status flag attribute value of the given feature
# @param : feature name
#
sub getStatusFlag
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getStausFlag"));
my $name = shift;
my $namespace = shift;
my $uid = $object->getFeatureUID($name, $namespace);
if($uid)
{
my $feature = $object->getFeatureInfo($uid, $namespace);
return ($feature->{statusflags}) if(exists $feature->{statusflags});
}
return undef;
}
# To get the user data attribute value of the given feature
# @param : feature name
#
sub getUserData
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getUserData"));
my $name = shift;
my $namespace = shift;
my $uid = $object->getFeatureUID($name, $namespace);
if($uid)
{
my $feature = $object->getFeatureInfo($uid, $namespace);
return ($feature->{userdata}) if(exists $feature->{userdata});
}
return undef;
}
# To get the include macro attribute value of the given feature
# @param : feature name
#
sub getIncludeMacro
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getIncludeMacro"));
my $name = shift;
my $uid = $object->getfeatureUID($name);
if($uid)
{
my $feature = $object->getfeatureInfo($uid);
return $feature->{includemacro};
}
return undef;
}
# To get the exclude macro attribute value of the given feature
# @param : feature name
#
sub getExcludeMacro
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getExcludeMacro"));
my $name = shift;
my $uid = $object->getfeatureUID($name);
if($uid)
{
my $feature = $object->getfeatureInfo($uid);
return $feature->{excludemacro};
}
return undef;
}
# Return the feature uid for the given feature name.
# @param : Feature Name
# @param : namespace of the featureset (optional)
#
sub getFeatureUID
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getFeatureUID"));
my $feature = shift;
my $namespace = shift;
my $featuresetList = $object->$featuresetList;
$feature = lc($feature);
if($namespace eq undef) {
if(exists $$featuresetList[0]->{feature_list}{$feature}) {
return $$featuresetList[0]->{feature_list}{$feature};
}
if(exists $$featuresetList[0]->{alias_feature_list}{$feature}) {
return $$featuresetList[0]->{alias_feature_list}{$feature};
}
}
else {
foreach my $node (@$featuresetList)
{
if((lc($node->{namespace}) eq lc($namespace)) && ((exists $node->{feature_list}{$feature})||(exists $node->{alias_feature_list}{$feature}))) {
return $node->{feature_list}{$feature} if (exists $node->{feature_list}{$feature});
return $node->{alias_feature_list}{$feature} if (exists $node->{alias_feature_list}{$feature});
}
}
}
foreach my $node (@$featuresetList) {
return $node->{feature_list}{$feature} if(exists $node->{feature_list}{$feature});
return $node->{alias_feature_list}{$feature} if(exists $node->{alias_feature_list}{$feature});
}
return undef;
}
# Get the details of feature with given featureuid and other parameters
# This function only consider the feature UID only and that UID should be in decimal
# @param : Feature UID
# @param : namespace of the featureset (optional)
#
sub getFeatureInfo
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getFeatureInfo"));
my $uid = shift;
my $namespace = shift;
my $featuresetList = $object->$featuresetList;
if($namespace eq undef) {
foreach my $node (@$featuresetList) {
return $node->{alias_feature}{$uid} if(exists $node->{alias_feature}{$uid});
}
if(exists $$featuresetList[0]->{feature}{$uid}) {
return $$featuresetList[0]->{feature}{$uid};
}
if(exists $$featuresetList[0]->{alias_feature}{$uid}) {
return $$featuresetList[0]->{alias_feature}{$uid};
}
}
else {
foreach my $node (@$featuresetList)
{
if((lc($node->{namespace}) eq lc($namespace)) && ((exists $node->{feature}{$uid})||(exists $node->{alias_feature}{$uid}))) {
return $node->{feature}{$uid} if (exists $node->{feature}{$uid});
return $node->{alias_feature}{$uid} if (exists $node->{alias_feature}{$uid});
}
}
}
foreach my $node (@$featuresetList) {
return $node->{feature}{$uid} if(exists $node->{feature}{$uid});
}
return undef;
}
# Get the Feature set info as a hash
# @param: namespace of the featureset
#
sub getFeaturesetInfo
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getFeaturesetInfo"));
my $namespace = shift;
my $featuresetList = $object->$featuresetList;
if($namespace eq undef) {
if(exists $$featuresetList[0]) {
return $$featuresetList[0];
}
}
else {
foreach my $node (@$featuresetList)
{
if((lc($node->{namespace}) eq lc($namespace))) {
return $node;
}
}
}
return undef;
}
# Get the Featureset namespaces as an array
#
sub getFeatureset
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"getFeatureset"));
my @featureSet=();
my $featuresetList = $object->$featuresetList;
foreach my $node (@$featuresetList) {
push @featureSet, $node;
}
return \@featureSet;
}
# Add feature registry object contents to feature manager object
# @param : feature registry object
#
sub addFeatureRegistry
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"addFeatureRegistry"));
my $registryobj = shift;
my %attribHash = ();
my $nameuidmap;
my $newRangeList;
my $rangeList;
# Adding default range list
$newRangeList = $registryobj->defaultRangeList();
$rangeList = $object->defaultRangeList();
foreach my $newnode (@$newRangeList) {
my $include = 1;
foreach my $node (@$rangeList) { #Check if the range is already exists
if(($node->{min} == $newnode->{min}) && ($node->{max} == $newnode->{max})
&& ($node->{support} eq $newnode->{support})) {
$include = 0;
}
}
if($include) { # Add it if it is new range
push @$rangeList, $newnode;
$object->defaultIncludeCount($object->defaultIncludeCount()+1) if(lc($newnode->{support}) eq "include");
$object->defaultExcludeCount($object->defaultExcludeCount()+1) if(lc($newnode->{support}) eq "exclude");
}
}
# Adding feature list
$nameuidmap = $registryobj->featureNameUidMap();
$attribHash{namespace} = undef;
$attribHash{feature_list} = $nameuidmap;
foreach my $name (keys %$nameuidmap) {
my $uid = $nameuidmap->{$name};
my %featureinfo = ();
$featureinfo{name} = $name;
# Default values for statusflags and userdata
$featureinfo{statusflags} = "0x00000001";
$featureinfo{userdata} = "0x00000000";
$attribHash{feature}{$uid} = \%featureinfo;
}
# add the featureset into the feature manager object
return 0 if(! &addFeatureSet($object, \%attribHash));
return 1;
}
#
# Utility functions
#
# Add the featureset into the hash map
# @param : reference to the atrribute hash map of featureset
#
sub addFeatureSet
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"addFeatureSet"));
my $newSet = shift;
my $featSetList = $object->$featuresetList();
my $newfeatList = $newSet->{feature_list};
my $newaliasfeatList = $newSet->{alias_feature_list};
# Check for the duplicate featue names in the existing list
foreach my $name (keys %$newfeatList)
{
if(exists $object->$featureList()->{$name})
{
&featureparser::ERROR("\(".$object->fileName()."\) Feature \"".uc($name)."\" already exists");
return 0;
}
else
{
my $uid = $newfeatList->{$name};
$object->$featureList()->{$name} = $uid; #Add it to global featue name list
}
}
# Check for the duplicate UIDs in the existing list
if(@$featSetList)
{
foreach my $set (@$featSetList)
{
foreach my $name (keys %$newfeatList)
{
my $uid = $newfeatList->{$name};
if(exists $set->{feature}{$uid})
{
&featureparser::ERROR("\(".$object->fileName()."\) UID \"".sprintf("0x%08x",$uid)."\" for the feature \"".uc($name)."\" already exists");
return 0;
}
}
}
}
#check for the duplicate alias feature names in the existing list
foreach my $alias_name (keys %$newaliasfeatList)
{
if(exists $object->$featureList()->{$alias_name})
{
&featureparser::ERROR("\(".$object->fileName."\) Can't override <feature> \"".sprintf("0x%08x", $newaliasfeatList->{$alias_name})."\" with the same feature name ".$alias_name);
return 0;
}
if(exists $object->$aliasfeatureList()->{$alias_name})
{
&featureparser::ERROR("\(".$object->fileName."\) Can't override <featureoverride> \"".sprintf("0x%08x", $newaliasfeatList->{$alias_name})."\" with the same feature name ".$alias_name);
return 0;
}
else
{
my $uid = $newaliasfeatList->{$alias_name};
# add it to global alias feature name list
$object->$aliasfeatureList()->{$alias_name} = $uid;
}
}
#check if the original feature has existed in other feature set.
foreach my $alias_name (keys %$newaliasfeatList)
{
my $featHash;
my $uid = $newaliasfeatList->{$alias_name};
foreach my $set (@$featSetList)
{
if(exists $set->{feature}{$uid})
{
$featHash = $set->{feature}{$uid};
last;
}
if(exists $set->{alias_feature}{$uid})
{
$featHash = $set->{alias_feature}{$uid};
last;
}
}
if(!$featHash)
{
&featureparser::ERROR("original feature definition does not exist.");
return 0;
}
my $aliasfeatHash = $newSet->{alias_feature}{$uid};
if(($aliasfeatHash->{includemacro}) || ($aliasfeatHash->{excludemacro}))
{
if(($featHash->{includemacro}) || ($featHash->{excludemacro}))
{
&featureparser::WARN("the value of attribute hrhmacro has been overrided in ogrinal feature ".sprintf("0x%08x", $uid));
undef $featHash->{includemacro};
undef $featHash->{excludemacro};
}
}
elsif($featHash->{includemacro} || $featHash->{excludemacro})
{
&featureparser::WARN("the original value of attribute hrhmacro will be used for featureoverride ".sprintf("0x%08x", $uid));
$aliasfeatHash->{includemacro} = $featHash->{includemacro};
$aliasfeatHash->{excludemacro} = $featHash->{excludemacro};
}
if($aliasfeatHash->{statusflags})
{
if(($featHash->{statusflags}) && !($aliasfeatHash->{statusflags} eq $featHash->{statusflags}))
{
&featureparser::WARN("the value of attribute statusflags has been overrided in ogrinal feature ".sprintf("0x%08x", $uid));
}
}
elsif($featHash->{statusflags})
{
$aliasfeatHash->{statusflags} = $featHash->{statusflags};
&featureparser::WARN("the original value of attribute statusflags will be used for featureoverride ".sprintf("0x%08x", $uid));
}
if($aliasfeatHash->{userdata})
{
if(($featHash->{userdata}) && !($aliasfeatHash->{userdata} eq $featHash->{userdata}))
{
&featureparser::WARN("the value of attribute userdata has been overrided in ogrinal feature ".sprintf("0x%08x", $uid));
}
}
elsif($featHash->{userdata})
{
$aliasfeatHash->{userdata} = $featHash->{userdata};
&featureparser::WARN("the original value of attribute userdata will be used for featureoverride ".sprintf("0x%08x", $uid));
}
if($aliasfeatHash->{infeaturesetiby})
{
if(($featHash->{infeaturesetiby}) && ($aliasfeatHash->{infeaturesetiby} != $featHash->{infeaturesetiby}))
{
&featureparser::WARN("the value of attribute infeautresetiby has been overrided in ogrinal feature ".sprintf("0x%08x", $uid));
}
}
elsif(defined($featHash->{infeaturesetiby}))
{
$aliasfeatHash->{infeaturesetiby} = $featHash->{infeaturesetiby};
&featureparser::WARN("the original value of attribute infewaturesetiby will be used for featureoverride ".sprintf("0x%08x", $uid));
}
}
# Add the unique featureset into the list
push @$featSetList, $newSet;
return 1;
}
# Read the <featureset> element
#
sub createFeatureMap
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"createFeatureMap"));
# Return error if the rootelement reference is NULL
return 0 if($object->rootElement() < 0);
# Get all the <featureset> elements
my @attrSet = &featureparser::getnodefromTree($object->rootElement(), "featureset");
if(@attrSet)
{
foreach my $currNode (@attrSet)
{
my %attrHashMap = ();
# Get the <featureset> attributes
$fillFeatureSetAttributes->($currNode,\%attrHashMap);
# Get the <hfileheader> attributes
$fillFileHeaderAttributes->($currNode,\%attrHashMap);
# Get the <feature> attributes
return 0 if( !($fillFeatureAttributes->($currNode,\%attrHashMap)) );
# Get the <alias> attributes
return 0 if( !($fillAliasAttributes->($currNode, \%attrHashMap)) );
# Add the featureset into the object
if(! &addFeatureSet($object,\%attrHashMap))
{
return 0;
}
}
return 1;
}
return 0;
}
# Read the <defaultfeaturerange> element
#
sub createDefaultRangeMap
{
my $object = shift;
return 0 if(!&featureparser::ISREF($object,"createDefaultRangeMap"));
# Return error if the rootelement reference is NULL
return 0 if($object->rootElement() < 0);
# Get all the <defaultfeaturerange> elements
my @attrSet = &featureparser::getnodefromTree($object->rootElement(), "defaultfeaturerange");
# Add the defaultfeaturerange elements into the object
return &featureparser::createDefaultRangeMap($object,@attrSet);
}
# Read the attributes of the <defaultfeaturerange> element
# @param - <defaultfeaturerange> node reference
# @param - reference to the range attributes
#
sub readRangeAttributes
{
my ($object, $currNode, $range) = @_;
my @commentSet;
return 0 if(!&featureparser::ISREF($object,"readRangeAttributes"));
#Get the lower and higher uids
$range->{min} = &featureparser::getattrValue($currNode, "loweruid");
$range->{max} = &featureparser::getattrValue($currNode, "higheruid");
#Always supported/included for FM. Keep this value for compatible with FR
$range->{support} = "include";
#Read the <comment> element
@commentSet = &featureparser::getnodefromTree($currNode, "comment");
foreach my $node (@commentSet) {
$range->{comment} = &featureparser::getelementValue($node,STRICTCASE);
}
}
1;