Frequently asked questions about xml::simple
XML::Simple is a Perl module that was originally developed as a tool for reading and writing configuration data in \s-1XML\s0 format. You can use it for many other purposes that involve storing and retrieving structured data in \s-1XML\s0.
You might also find XML::Simple a good starting point for playing with \s-1XML\s0 from Perl. It doesn't have a steep learning curve and if you outgrow its capabilities there are plenty of other Perl/XML modules to 'step up' to.
The many advantages of using \s-1XML\s0 format for configuration data include:
Using existing \s-1XML\s0 parsing tools requires less development time, is easier and more robust than developing your own config file parsing code
\s-1XML\s0 can represent relationships between pieces of data, such as nesting of sections to arbitrary levels (not easily done with .INI files for example)
\s-1XML\s0 is basically just text, so you can easily edit a config file (easier than editing a Win32 registry)
\s-1XML\s0 provides standard solutions for handling character sets and encoding beyond basic \s-1ASCII\s0 (important for internationalization)
If it becomes necessary to change your configuration file format, there are many tools available for performing transformations on \s-1XML\s0 files
\s-1XML\s0 is an open standard (the world does not need more proprietary binary file formats)
Taking the extra step of developing a \s-1DTD\s0 allows the format of configuration files to be validated before your program reads them (not directly supported by XML::Simple)
Combining a \s-1DTD\s0 with a good \s-1XML\s0 editor can give you a \s-1GUI\s0 config editor for minimal coding effort
The main limitation of XML::Simple is that it does not work with 'mixed content' (see the next question). If you consider your \s-1XML\s0 files contain marked up text rather than structured data, you should probably use another module.
If you are working with very large \s-1XML\s0 files, XML::Simple's approach of representing the whole file in memory as a 'tree' data structure may not be suitable.
Consider this example \s-1XML:\s0
<document> <para>This is <em>mixed</em> content.</para> </document>
This is said to be mixed content, because the <para> element contains both character data (text content) and nested elements.
Here's some more \s-1XML:\s0
<person> <first_name>Joe</first_name> <last_name>Bloggs</last_name> <dob>25-April-1969</dob> </person>
This second example is not generally considered to be mixed content. The <first_name>, <last_name> and <dob> elements contain only character data and the <person> element contains only nested elements. (Note: Strictly speaking, the whitespace between the nested elements is character data, but it is ignored by XML::Simple).
Because if it did, it would no longer be simple :-)
Seriously though, there are plenty of excellent modules that allow you to work with mixed content in a variety of ways. Handling mixed content correctly is not easy and by ignoring these issues, XML::Simple is able to present an \s-1API\s0 without a steep learning curve.
Every one of them except XML::Simple :-)
If you're looking for a recommendation, I'd suggest you look at the Perl-XML \s-1FAQ\s0 at:
http://perl-xml.sourceforge.net/faq/
If you're running ActiveState Perl, you've probably already got XML::Simple (although you may want to upgrade to version 1.09 or better for \s-1SAX\s0 support).
If you do need to install XML::Simple, you'll need to install an \s-1XML\s0 parser module first. Install either XML::Parser (which you may have already) or \s-1XML::SAX\s0. If you install both, \s-1XML::SAX\s0 will be used by default.
Once you have a parser installed ...
On Unix systems, try:
perl -MCPAN -e 'install XML::Simple'
If that doesn't work, download the latest distribution from ftp://ftp.cpan.org/pub/CPAN/authors/id/G/GR/GRANTM , unpack it and run these commands:
perl Makefile.PL make make test make install
On Win32, if you have a recent build of ActiveState Perl (618 or better) try this command:
ppm install XML::Simple
If that doesn't work, you really only need the Simple.pm file, so extract it from the .tar.gz file (eg: using WinZIP) and save it in the \site\lib\XML directory under your Perl installation (typically C:\Perl).
Is the directory where you've unpacked XML::Simple mounted from a file server using \s-1NFS\s0, \s-1SMB\s0 or some other network file sharing? If so, that may cause errors in the the following test scripts:
3_Storable.t 4_MemShare.t 5_MemCopy.t
The test suite is designed to exercise the boundary conditions of all XML::Simple's functionality and these three scripts exercise the caching functions. If XML::Simple is asked to parse a file for which it has a cached copy of a previous parse, then it compares the timestamp on the \s-1XML\s0 file with the timestamp on the cached copy. If the cached copy is *newer* then it will be used. If the cached copy is older or the same age then the file is re-parsed. The test scripts will get confused by networked filesystems if the workstation and server system clocks are not synchronised (to the second).
If you get an error in one of these three test scripts but you don't plan to use the caching options (they're not enabled by default), then go right ahead and run 'make install'. If you do plan to use caching, then try unpacking the distribution on local disk and doing the build/test there.
It's probably not a good idea to use the caching options with networked filesystems in production. If the file server's clock is ahead of the local clock, XML::Simple will re-parse files when it could have used the cached copy. However if the local clock is ahead of the file server clock and a file is changed immediately after it is cached, the old cached copy will be used.
Is one of the three test scripts (above) failing but you're not running on a network filesystem? Are you running Win32? If so, you may be seeing a bug in Win32 where writes to a file do not affect its modfication timestamp.
If none of these scenarios match your situation, please confirm you're running the latest version of XML::Simple and then email the output of 'make test' to me at [email protected]
If you find that XML::Simple is very slow reading \s-1XML\s0, the most likely reason is that you have \s-1XML::SAX\s0 installed but no additional \s-1SAX\s0 parser module. The \s-1XML::SAX\s0 distribution includes an \s-1XML\s0 parser written entirely in Perl. This is very portable but not very fast. For better performance install either XML::SAX::Expat or XML::LibXML.
If you had an \s-1XML\s0 document called /etc/appconfig/foo.xml you could 'slurp' it into a simple data structure (typically a hashref) with these lines of code:
use XML::Simple;
my $config = XMLin('/etc/appconfig/foo.xml');
The XMLin() function accepts options after the filename.
Although you can get by without using any options, you shouldn't even consider using XML::Simple in production until you know what these two options do:
forcearray
keyattr
The reason you really need to read about them is because the default values for these options will trip you up if you don't. Although everyone agrees that these defaults are not ideal, there is not wide agreement on what they should be changed to. The answer therefore is to read about them (see below) and select values which are right for you.
Consider this \s-1XML\s0 in a file called ./person.xml:
<person> <first_name>Joe</first_name> <last_name>Bloggs</last_name> <hobbie>bungy jumping</hobbie> <hobbie>sky diving</hobbie> <hobbie>knitting</hobbie> </person>
You could read it in with this line:
my $person = XMLin('./person.xml');
Which would give you a data structure like this:
$person = { 'first_name' => 'Joe', 'last_name' => 'Bloggs', 'hobbie' => [ 'bungy jumping', 'sky diving', 'knitting' ] };
The <first_name> and <last_name> elements are represented as simple scalar values which you could refer to like this:
print "$person->{first_name} $person->{last_name}\n";
The <hobbie> elements are represented as an array - since there is more than one. You could refer to the first one like this:
print $person->{hobbie}->[0], "\n";
Or the whole lot like this:
print join(', ', @{$person->{hobbie}} ), "\n";
The catch is, that these last two lines of code will only work for people who have more than one hobbie. If there is only one <hobbie> element, it will be represented as a simple scalar (just like <first_name> and <last_name>). Which might lead you to write code like this:
if(ref($person->{hobbie})) { print join(', ', @{$person->{hobbie}} ), "\n"; } else { print $person->{hobbie}, "\n"; }
Don't do that.
One alternative approach is to set the forcearray option to a true value:
my $person = XMLin('./person.xml', forcearray => 1);
Which will give you a data structure like this:
$person = { 'first_name' => [ 'Joe' ], 'last_name' => [ 'Bloggs' ], 'hobbie' => [ 'bungy jumping', 'sky diving', 'knitting' ] };
Then you can use this line to refer to all the list of hobbies even if there was only one:
print join(', ', @{$person->{hobbie}} ), "\n";
The downside of this approach is that the <first_name> and <last_name> elements will also always be represented as arrays even though there will never be more than one:
print "$person->{first_name}->[0] $person->{last_name}->[0]\n";
This might be \s-1OK\s0 if you change the \s-1XML\s0 to use attributes for things that will always be singular and nested elements for things that may be plural:
<person first_name="Jane" last_name="Bloggs"> <hobbie>motorcycle maintenance</hobbie> </person>
On the other hand, if you prefer not to use attributes, then you could specify that any <hobbie> elements should always be represented as arrays and all other nested elements should be simple scalar values unless there is more than one:
my $person = XMLin('./person.xml', forcearray => [ 'hobbie' ]);
The forcearray option accepts a list of element names which should always be forced to an array representation:
forcearray => [ qw(hobbie qualification childs_name) ]
See the XML::Simple manual page for more information.
Consider this sample \s-1XML:\s0
<catalog> <part partnum="1842334" desc="High pressure flange" price="24.50" /> <part partnum="9344675" desc="Threaded gasket" price="9.25" /> <part partnum="5634896" desc="Low voltage washer" price="12.00" /> </catalog>
You could slurp it in with this code:
my $catalog = XMLin('./catalog.xml');
Which would return a data structure like this:
$catalog = { 'part' => [ { 'partnum' => '1842334', 'desc' => 'High pressure flange', 'price' => '24.50' }, { 'partnum' => '9344675', 'desc' => 'Threaded gasket', 'price' => '9.25' }, { 'partnum' => '5634896', 'desc' => 'Low voltage washer', 'price' => '12.00' } ] };
Then you could access the description of the first part in the catalog with this code:
print $catalog->{part}->[0]->{desc}, "\n";
However, if you wanted to access the description of the part with the part number of \*(L"9344675\*(R" then you'd have to code a loop like this:
foreach my $part (@{$catalog->{part}}) { if($part->{partnum} eq '9344675') { print $part->{desc}, "\n"; last; } }
The knowledge that each <part> element has a unique partnum attribute allows you to eliminate this search. You can pass this knowledge on to XML::Simple like this:
my $catalog = XMLin($xml, keyattr => ['partnum']);
Which will return a data structure like this:
$catalog = { 'part' => { '5634896' => { 'desc' => 'Low voltage washer', 'price' => '12.00' }, '1842334' => { 'desc' => 'High pressure flange', 'price' => '24.50' }, '9344675' => { 'desc' => 'Threaded gasket', 'price' => '9.25' } } };
XML::Simple has been able to transform $catalog->{part} from an arrayref to a hashref (keyed on partnum). This transformation is called 'array folding'.
Through the use of array folding, you can now index directly to the description of the part you want:
print $catalog->{part}->{9344675}->{desc}, "\n";
The 'keyattr' option also enables array folding when the unique key is in a nested element rather than an attribute. eg:
<catalog> <part> <partnum>1842334</partnum> <desc>High pressure flange</desc> <price>24.50</price> </part> <part> <partnum>9344675</partnum> <desc>Threaded gasket</desc> <price>9.25</price> </part> <part> <partnum>5634896</partnum> <desc>Low voltage washer</desc> <price>12.00</price> </part> </catalog>
See the XML::Simple manual page for more information.
One thing to watch out for is that you might get array folding even if you don't supply the keyattr option. The default value for this option is:
[ 'name', 'key', 'id']
Which means if your \s-1XML\s0 elements have a 'name', 'key' or 'id' attribute (or nested element) then they may get folded on those values. This means that you can take advantage of array folding simply through careful choice of attribute names. On the hand, if you really don't want array folding at all, you'll need to set 'key attr to an empty list:
my $ref = XMLin($xml, keyattr => []);
A second 'gotcha' is that array folding only works on arrays. That might seem obvious, but if there's only one record in your \s-1XML\s0 and you didn't set the 'forcearray' option then it won't be represented as an array and consequently won't get folded into a hash. The moral is that if you're using array folding, you should always turn on the forcearray option.
You probably want to be as specific as you can be too. For instance, the safest way to parse the <catalog> example above would be:
my $catalog = XMLin($xml, keyattr => { part => 'partnum'}, forcearray => ['part']);
By using the hashref for keyattr, you can specify that only <part> elements should be folded on the 'partnum' attribute (and that the <part> elements should not be folded on any other attribute).
By supplying a list of element names for forcearray, you're ensuring that folding will work even if there's only one <part>. You're also ensuring that if the 'partnum' unique key is supplied in a nested element then that element won't get forced to an array too.
The rules are fairly straightforward:
each element gets represented as a hash
unless it contains only text, in which case it'll be a simple scalar value
or unless there's more than one element with the same name, in which case they'll be represented as an array
unless you've got array folding enabled, in which case they'll be folded into a hash
empty elements (no text contents and no attributes) will either be represented as an empty hash, an empty string or undef - depending on the value of the 'suppressempty' option.
If you're in any doubt, use Data::Dumper, eg:
use XML::Simple; use Data::Dumper;
my $ref = XMLin($xml);
print Dumper($ref);
You're probably trying to index into a non-existant hash key - try Data::Dumper.
Something that you expect to be an array is not. The two most likely causes are that you forgot to use 'forcearray' or that the array got folded into a hash - try Data::Dumper.
Something that you expect to be a hash is actually an array. Perhaps array folding failed because one element was missing the key attribute - try Data::Dumper.
Something in the data structure is not as you expect and Perl may be trying unsuccessfully to autovivify things - try Data::Dumper.
If you're already using Data::Dumper, try calling Dumper() immediately after XMLin() - ie: before you attempt to access anything in the data structure.
If you read an \s-1XML\s0 file with XMLin() and then write it back out with XMLout(), the order of the elements will likely be different. (However, if you read the file back in with XMLin() you'll get the same Perl data structure).
The reordering happens because XML::Simple uses hashrefs to store your data and Perl hashes do not really have any order.
It is possible that a future version of XML::Simple will use Tie::IxHash to store the data in hashrefs which do retain the order. However this will not fix all cases of element order being lost.
If your application really is sensitive to element order, don't use XML::Simple (and don't put order-sensitive values in attributes).
If you read an \s-1XML\s0 file with XMLin() and then write it back out with XMLout(), some data which was originally stored in nested elements may end up in attributes. (However, if you read the file back in with XMLin() you'll get the same Perl data structure).
There are a number of ways you might handle this:
use the 'forcearray' option with XMLin()
use the 'noattr' option with XMLout()
live with it
don't use XML::Simple
Try setting keyattr => [].
When you call XMLin() to read \s-1XML\s0, the 'keyattr' option controls whether arrays get 'folded' into hashes. Similarly, when you call XMLout(), the 'keyattr' option controls whether hashes get 'unfolded' into arrays. As described above, 'keyattr' is enabled by default.
An element is always represented as a hash unless it contains only text, in which case it is represented as a scalar string.
If you would prefer empty elements to be represented as empty strings or the undefined value, set the 'suppressempty' option to '' or undef respectively.
The \*(C`ParserOpts\*(C' option is a remnant of the time when XML::Simple only worked with the XML::Parser \s-1API\s0. Its value is completely ignored if you're using a \s-1SAX\s0 parser, so writing code which relied on it would bar you from taking advantage of \s-1SAX\s0.
Even if you are using XML::Parser, it is seldom necessary to pass options to the parser object. A number of people have written to say they use this option to set XML::Parser's \*(C`ProtocolEncoding\*(C' option. Don't do that, it's wrong, Wrong, \s-1WRONG\s0! Fix the \s-1XML\s0 document so that it's well-formed and you won't have a problem.
Having said all of that, as long as XML::Simple continues to support the XML::Parser \s-1API\s0, this option will not be removed. There are currently no plans to remove support for the XML::Parser \s-1API\s0.