Data::DPath - DPath is not XPath!
use Data::DPath 'dpath';
my $data = {
AAA => { BBB => { CCC => [ qw/ XXX YYY ZZZ / ] },
RRR => { CCC => [ qw/ RR1 RR2 RR3 / ] },
DDD => { EEE => [ qw/ uuu vvv www / ] },
},
};
# Perl 5.8 style
my @resultlist = dpath('/AAA/*/CCC')->match($data); # ( ['XXX', 'YYY', 'ZZZ'], [ 'RR1', 'RR2', 'RR3' ] )
# Perl 5.10 style using overloaded smartmatch operator
my $resultlist = $data ~~ dpath '/AAA/*/CCC'; # [ ['XXX', 'YYY', 'ZZZ'], [ 'RR1', 'RR2', 'RR3' ] ]
Note that the match() function returns an array but the overloaded
~~ operator returns an array reference (that's a limitation of
overloading).
Various other example paths from t/data_dpath.t (not neccessarily
fitting to above data structure):
$data ~~ dpath '/AAA/*/CCC'
$data ~~ dpath '/AAA/BBB/CCC/../..' # parents (..)
$data ~~ dpath '//AAA' # anywhere (//)
$data ~~ dpath '//AAA/*' # anywhere + anystep
$data ~~ dpath '//AAA/*[size == 3]' # filter by arrays/hash size
$data ~~ dpath '//AAA/*[size != 3]' # filter by arrays/hash size
$data ~~ dpath '/"EE/E"/CCC' # quote strange keys
$data ~~ dpath '/AAA/BBB/CCC/*[1]' # filter by array index
$data ~~ dpath '/AAA/BBB/CCC/*[ idx == 1 ]' # same, filter by array index
$data ~~ dpath '//AAA/BBB/*[key eq "CCC"]' # filter by exact keys
$data ~~ dpath '//AAA/*[ key =~ /CC/ ]' # filter by regex matching keys
$data ~~ dpath '//CCC/*[ value eq "RR2" ]' # filter by values of hashes
See full details in t/data_dpath.t.
You can get references into the $data data structure by using dpathr:
$data ~~ dpathr '//AAA/BBB/*'
# etc.
You can request iterators to do incremental searches using dpathi:
my $benchmarks_iter = dpathi($data)->isearch("//Benchmark");
while ($benchmarks_iter->isnt_exhausted)
{
my $benchmark = $benchmarks_iter->value;
my $ancestors_iter = $benchmark->isearch ("/::ancestor");
while ($ancestors_iter->isnt_exhausted)
{
my $ancestor = $ancestors_iter->value;
print Dumper( $ancestor->deref );
}
}
This finds all elements anywhere behind a key ``Benchmark'' and for each
one found print all its ancestors, respectively. See also chapter
Iterator style.
With this module you can address points in a datastructure by
describing a ``path'' to it using hash keys, array indexes or some
wildcard-like steps. It is inspired by XPath but differs from it.
XPath is for XML. DPath is for data structures, with a stronger Perl
focus.
Although XML documents are data structures, they are special.
Elements in XML always have an order which is in contrast to hash keys
in Perl.
XML elements names on same level can be repeated, not so in hashes.
XML element names are more limited than arbitrary strange hash keys.
XML elements can have attributes and those can be addressed by XPath;
Perl data structures do not need this. On the other side, data
structures in Perl can contain blessed elements, DPath can address
this.
XML has namespaces, data structures have not.
Arrays starting with index 1 as in XPath would be confusing to read
for data structures.
DPath allows filter expressions that are in fact just Perl expressions
not an own sub language as in XPath.
There is a similar approach on CPAN, Data::Path. Here is
a comparison matrix between Data::Path and
Data::DPath.
(Warning: alpha grade comparison ahead, not yet fully verified,
only evaluated by reading the source. Speed comparison not really
benchmarked.)
---------------------------------------------------------------------
Criteria Data::Path Data::DPath
---------------------------------------------------------------------
real XPath syntax no no
---------------------------------------------------------------------
allow strange, YES YES
non-xml but
perl-like although
hash keys limited,
see next
---------------------------------------------------------------------
allows special no YES
chars of own
path syntax in you can quote everything
hash keys
("/[]|*.")
---------------------------------------------------------------------
call subs in YES no
data structure,
like:
/method()
---------------------------------------------------------------------
callbacks on YES no
not found keys
---------------------------------------------------------------------
element "//" no YES
for "ANYWHERE"
(//foo/bar)
---------------------------------------------------------------------
element "." no YES
for "NOSTEP" or
"actual position"
(/.[filter expr])
---------------------------------------------------------------------
element ".." no YES
for "PARENT"
(//foo/..)
---------------------------------------------------------------------
element "::ancestor" no YES
for "ANCESTOR"
(//foo/::ancestor)
---------------------------------------------------------------------
element no YES
"::ancestor-or-self"
---------------------------------------------------------------------
element "*" no YES
for "ANYSTEP" or
"all subelements"
(/foo/*)
---------------------------------------------------------------------
array access YES YES
like /foo[4]
although including negative indexes
limited and whitespace awareness
---------------------------------------------------------------------
complex no YES
filter expressions
like full Perl expressions
/foo[size == 3] or plus sugar functions
/.[isa("Foo::Bar")]
---------------------------------------------------------------------
works with YES YES
blessed subelements
---------------------------------------------------------------------
arrays start YES YES
with index 0
(in contrast
to 1 as in XPath)
---------------------------------------------------------------------
array semantics /foo[2] /foo/*[2]
is a bit different
---------------------------------------------------------------------
handling of croak RETURN EMPTY
not matching
paths but can be
overwritten
as callback
---------------------------------------------------------------------
usage sugar none overloaded '~~' operator
---------------------------------------------------------------------
Speed FAST quite fast
- raw Perl - probably comparable
- considered fast speed with expressions
that Data::Path handles
- slower on fuzzy paths,
eg. with many "//" in it
---------------------------------------------------------------------
Perl Versions 5.6+ 5.8+
---------------------------------------------------------------------
Install chance 100% 90%
(http://deps
.cpantesters
.org)
---------------------------------------------------------------------
Generally Data::Path is for simpler use cases but does
not suffer from surrounding meta problems: it has no dependencies, is
fast and works on practically every Perl version.
Whereas Data::DPath provides more XPath-alike features,
but isn't quite as fast and has more dependencies.
Watch out! This module evals parts of provided dpaths (in
particular: the filter expressions). Don't use it if you don't trust
your paths.
Since v0.41 the filter expressions are secured using Safe.pm
to only allow basic Perl core ops. This provides more safety but is
also significantly slower. To unrestrict this to pre-v0.41 raw eval
behaviour you can set $Data::DPath::USE_SAFE to False:
local $Data::DPath::USE_SAFE;
# dpath '//CCC//*[ unsecure_perl_expression ]'
Read Safe.pm to understand how secure this is.
Meant as the front end function for everyday use of Data::DPath. It
takes a path string and returns a Data::DPath::Path object on which
the match method can be called with data structures and the operator
~~ is overloaded.
The function is prototyped to take exactly one argument so that you
can omit the parens in many cases.
See SYNOPSIS.
Same as dpath but toggles that results are references to the
matched points in the data structure.
This is a different, iterator style, approach.
You provide the data structure on which to work and get back a current
context containing the root element (as if you had searched for the
path /), and now you can do incremental searches using isearch.
See chapter Iterator style below for details.
Returns an array of all values in $data that match the $path.
Returns an array ref of all values in $data that match the $path.
Does a match of a dpath against a data structure.
Due to the matching nature of DPath the operator ~~ should make
your code more readable.
/AAA/BBB/CCC
/AAA/*/CCC
//CCC/*
//CCC/*[2]
//CCC/*[size == 3]
//CCC/*[size != 3]
/"EE/E"/CCC
/AAA/BBB/CCC/*[1]
/AAA/BBB/CCC/*[ idx == 1 ]
//AAA/BBB/*[key eq "CCC"]
//AAA/*[ key =~ /CC/ ]
//CCC/*[value eq "RR2"]
//.[ size == 4 ]
/.[ isa("Funky::Stuff") ]/.[ size == 5 ]/.[ reftype eq "ARRAY" ]
The basic idea is that of XPath: define a way through a datastructure
and allow some funky ways to describe fuzzy ways. The syntax is
roughly looking like XPath but in fact have not much more in common.
I call the whole path a, well, path.
It consists of single (path) steps that are divided by the path
separator /.
Each step can have a filter appended in brackets [] that narrows
down the matching set of results.
Additional functions provided inside the filters are called, well,
filter functions.
Each step has a set of points relative to the set of points before
this step, all starting at the root of the data structure.
- //
-
Anchors to any hash or array inside the data structure below the
currently found points (or the root).
Typically used at the start of a path to anchor the path anywhere
instead of only the root node:
//FOO/BAR
but can also happen inside paths to skip middle parts:
/AAA/BBB//FARAWAY
This allows any way between BBB and FARAWAY.
-
Matches one step of any value relative to the current points (or the
root). This step might be any hash key or all values of an array in
the step before.
- ..
-
Matches the parent element relative to the current points.
- ::ancestor
-
Matches all ancestors (parent, grandparent, etc.) of the current node.
- ::ancestor-or-self
-
Matches all ancestors (parent, grandparent, etc.) of the current node
and the current node itself.
- .
-
A ``no step''. This keeps passively at the current points, but allows
incrementally attaching filters to points or to otherwise hard to
reach steps, like the top root element
/. So you can do:
/.[ FILTER ]
or chain filters:
/AAA/BBB/.[ filter1 ]/.[ filter2 ]/.[ filter3 ]
This way you do not need to stuff many filters together into one huge
killer expression and can more easily maintain them.
See Filters for more details on filters.
- If you need those special elements to be not special but as
key names, just quote them:
-
/"*"/
/"*"[ filter ]/
/"::ancestor"/
/".."/
/".."[ filter ]/
/"."/
/"."[ filter ]/
/"//"/
/"//"[ filter ]/
The filter applies to the matched points of the step to which it is
applied, therefore /part[filter] is the normal form, but see below
how this affects array access.
The ``no step'' ``/.'' stays on the current step, therefore
/part/.[filter] should be the same as /part[filter].
Lastly, /part/*[filter] means: take all the sub elements (``*'')
below ``step'' and apply the filter to those. The most common use is
to take ``all'' elements of an array and chose one element via index:
/step/*[4]/. This takes the fifth element of the array inside
``step''. This is explained in even more depth in the next section.
Read carefully. This is different from what you probably expect
when you know XPath.
In XPath ``/affe[2]'' would address an item of all elements named
``affe'' on this step. This is because in XPath elements with the same
name can be repeated, like this:
<coolanimals>
<affe>Pavian</affe>
<affe>Gorilla</affe>
<affe>Schimpanse</affe>
</coolanimals>
and ``//affe[2]'' would get ``Schimpanse'' (we ignore the fact that in
XPath array indexes start with 1, not 0 as in DPath, so we would
actually get ``Gorilla''; anyway, both are funky fellows).
So what does ``/affe[2]'' return in DPath? Nothing! It makes no sense,
because ``affe'' is interpreted as a hash key and hash keys can not
repeat in Perl data structures.
So what you often want in DPath is to look at the elements below
``affe'' and takes the third of them, e.g. in such a structure:
{ affe => [
'Pavian',
'Gorilla',
'Schimpanse'
]
}
the path ``/affe/*[2]'' would return ``Schimpanse''.
Filters are conditions in brackets. They apply to all elements that
are directly found by the path part to which the filter is appended.
Internally the filter condition is part of a grep construct
(exception: single integers, they choose array elements). See below.
Examples:
- /FOO/*[2]/
-
A single integer as filter means choose an element from an array. So
the
* finds all subelements that follow current step FOO and the
[2] reduces them to only the third element (index starts at 0).
- /FOO/*[ idx == 2 ]/
-
The
* is a step that matches all elements after FOO, but with
the filter only those elements are chosen that are of index 2. This is
actually the same as just /FOO/*[2].
- /FOO/*[key eq "CCC"]
-
In all elements after
FOO it matches only those elements whose key
is ``CCC''.
- /FOO/*[key =~ /CCC/ ]
-
In all elements after step
FOO it matches only those elements whose
key matches the regex /CCC/. It is actually just Perl code inside
the filter which works in a grep{}-like context.
- //FOO/*[value eq "RR2"]
-
Find elements below
FOO that have the value RR2.
Combine this with the parent step ..:
- //FOO/*[value eq "RR2"]/..
-
Find such an element below
FOO where an element with value RR2
is contained.
- //FOO[size >= 3]
-
Find
FOO elements that are arrays or hashes of size 3 or bigger.
The filter condition is internally part of a grep over the current
subset of values. So you can write any condition like in a grep and
also use the variable $_.
Additional filter functions are available that are usually written to
use $_ by default. See Data::DPath::Filters
for complete list of available filter functions.
Here are some of them:
- idx
-
Returns the current index inside array elements.
Please note that the current matching elements might not be in a
defined order if resulting from anything else than arrays.
- size
-
Returns the size of the current element. If it is an arrayref it
returns number of elements, if it's a hashref it returns number of
keys, if it's a scalar it returns 1, everything else returns -1.
- key
-
Returns the key of the current element if it is a hashref. Else it
returns undef.
- value
-
Returns the value of the current element. If it is a hashref, return
the value. If a scalar, return the scalar. Else return undef.
There are 4 special characters: the slash /, paired brackets [],
the double-quote " and the backslash \. They are needed and
explained in a logical order.
Path parts are divided by the slash /.
A path part can be extended by a filter with appending an expression
in brackets [].
To contain slashes in hash keys, they can be surrounded by double
quotes ".
To contain double-quotes in hash keys they can be escaped with
backslash \.
Backslashes in path parts don't need to be escaped, except before
escaped quotes (but see below on Backslash handling).
Filters of parts are already sufficiently divided by the brackets
[]. There is no need to handle special characters in them, not even
double-quotes. The filter expression just needs to be balanced on the
brackets.
So this is the order how to create paths:
- backslash double-quotes that are part of the key
- put double-quotes around the resulting key
- append the filter expression after the key
- separate several path parts with slashes
If you know backslash in Perl strings, skip this paragraph, it should
be the same.
It is somewhat difficult to create a backslash directly before a
quoted double-quote.
Inside the DPath language the typical backslash rules of apply that
you already know from Perl single quoted strings. The challenge is
to specify such strings inside Perl programs where another layer of
this backslashing applies.
Without quotes it's all easy. Both a single backslash \ and a
double backslash \\ get evaluated to a single backslash \.
Extreme edge case by example: To specify a plain hash key like this:
"EE\E5\"
where the quotes are part of the key, you need to escape the quotes
and the backslash:
\"EE\E5\\\"
Now put quotes around that to use it as DPath hash key:
"\"EE\E5\\\""
and if you specify this in a Perl program you need to additionally
escape the backslashes (i.e., double their count):
"\"EE\E5\\\\\\""
As you can see, strangely, this backslash escaping is only needed on
backslashes that are not standing alone. The first backslash before
the first escaped double-quote is ok to be a single backslash.
All strange, isn't it? At least it's (hopefully) consistent with
something you know (Perl, Shell, etc.).
Here are some typical XPath use-cases that can be achieved with
Data::DPath, although a bit differently.
In XPath it's quite common to use a filter with attributes like this:
//AAA/BBB/*[@CCC="DDD"]
A naive user could translate such a construct for Data::DPath like
this:
//AAA/BBB/*[CCC eq "DDD"]
except that it does not work. What works is this:
//AAA/BBB/*[key eq "CCC" && value eq "DDD"]
The iterator style approach is an alternative to the already
describe get-all-results-at-once approach. With it you iterate over
the results one by one and even allow relative sub searches on
each. The iterators use the Iterator API.
Please note, that the iterators do not save memory, they are just
holding the context to go step-by-step and to start subsequent
searches. Each iterator needs to evaluate its whole result set
first. So in fact with nested iterators your memory might even go up.
Initialize a DPath iterator on a data structure using:
my $root = dpathi($data);
Create a new iterator context, with the path relative to current
root context:
my $affe_iter = $root->isearch("//anywhere/affe");
Iterate over affe results:
while ($affe_iter->isnt_exhausted)
{
my $affe_point = $affe_iter->value; # next "affe" point
my $affe = $affe_point->deref; # the actual "affe"
}
This example is taken from the
Benchmark::Perl::Formance suite, where
the several plugins are allowed to provide their results anywhere
at any level down in the result hash.
When the results are printed we look for all keys Benchmark and
regenerate the path to each so we can name it accordingly, e.g.,
plugin.name.subname.
For this we need an iterator to get the single Benchmark points one
by one and evaluate the corresponding ancestors to fetch their hash
keys. Here is the code:
my $benchmarks_iter = dpathi($results)->isearch("//Benchmark");
while ($benchmarks_iter->isnt_exhausted)
{
my $benchmark = $benchmarks_iter->value;
my $ancestors_iter = $benchmark->isearch ("/::ancestor");
while ($ancestors_iter->isnt_exhausted)
{
my $ancestor = $ancestors_iter->value;
print Dumper( $ancestor->deref ); #(1)
print $ancestor->first_point->{attrs}{key}; #(2)
}
}
Note that we have two iterators, the first one ($benchmarks_iter)
over the actual benchmark results and the second one
($ancestors_iter) over the ancestors relative to one benchmark.
In line #(1) you can see that once you have the searched point,
here the ancestors, you get the actual data using
$iterator->value->deref.
The line #(2) is utilizing the internal data structure to find out
about the actual hash key under which the point is located. (There is
also an official API to that: $ancestor->first_point->attrs->key,
but there it's necessary to check for undefined values before
calling the methods attrs and key, so I went the easy way).
There's an equivalent attribute (idx) for the array index of a point
stored in an array.
To make pod coverage happy.
Prepares internal attributes for dpath.
Prepares internal attributes for dpathr.
Prepares internal attributes for dpathi.
Steffen Schwigon, <schwigon at cpan.org>
Florian Ragwitz (cleaner exports, $_ scoping, general perl consultant)
There are other modules on CPAN which are related to finding elements
in data structures.
- Data::Path
-
http://metacpan.org/release/Data-Path
- XML::XPathEngine
-
http://metacpan.org/release/XML-XPathEngine
- Tree::XPathEngine
-
http://metacpan.org/release/Tree-XPathEngine
- Class::XPath
-
http://metacpan.org/release/Class-XPath
- Hash::Path
-
http://metacpan.org/release/Hash-Path
Steffen Schwigon <ss5@renormalist.net>
This software is copyright (c) 2019 by Steffen Schwigon.
This is free software; you can redistribute it and/or modify it under
the same terms as the Perl 5 programming language system itself.
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