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Split string into a hash of hashes (perl)

at the moment im a little confused..
I am looking for a way to write a string with an indefinite number of words (separated by a slash) in a recursive hash.
These "strings" are output from a text database.
Given is for example
"office/1/hardware/mouse/count/200"
the next one can be longer or shorter..
This must be created from it:
{
office {
1{
hardware {
mouse {
count => 200
}
}
}
}
}
Any idea ?

Work backwards. Split the string. Use the last two elements to make the inner-most hash. While more words exist, make each one the key of a new hash, with the inner hash as its value.
my $s = "office/1/hardware/mouse/count/200";
my #word = split(/\//, $s);
# Bottom level taken explicitly
my $val = pop #word;
my $key = pop #word;
my $h = { $key => $val };
while ( my $key = pop #word )
{
$h = { $key => $h };
}

Simple recursive function should do
use strict;
use warnings;
use Data::Dumper;
sub foo {
my $str = shift;
my ($key, $rest) = split m|/|, $str, 2;
if (defined $rest) {
return { $key => foo($rest) };
} else {
return $key;
}
}
my $hash = foo("foo/bar/baz/2");
print Dumper $hash;
Gives output
$VAR1 = {
'foo' => {
'bar' => {
'baz' => '2'
}
}
};
But like I said in the comment: What do you intend to use this for? It is not a terribly useful structure.

If there are many lines to be read into a single hash and the lines have a variable number of fields, you have big problems and the other two answers will clobber data by either smashing sibling keys or overwriting final values. I'm supposing this because there is no rational reason to convert a single line into a hash.
You will have to walk down the hash with each field. This will also give you the most control over the process.
our $hash = {};
our $eolmark = "\000";
while (my $line = <...>) {
chomp $line;
my #fields = split /\//, $line;
my $count = #fields;
my $h = $hash;
my $i = 0;
map { (++$i == $count) ?
($h->{$_}{$eolmark} = 1) :
($h = $h->{$_} ||= {});
} #fields;
}
$h->{$_}{$eolmark} = 1 You need the special "end of line" key so that you can recognize the end of a record and still permit longer records to coexist. If you had two records
foo/bar/baz foo/bar/baz/quux, the second would overwrite the final value of the first.
$h = $h->{$_} ||= {} This statement is a very handy idiom to both create and populate a cache in one step and then take a shortcut reference to it. Never do a hash lookup more than once.
HTH

Extra HASH() reference added to Perl hash output

I'm trying to read a FORTRAN program using Perl, and remove an INCLUDE command and replace it with a USE.
This is working great, except when printing out the contents of the hash storing the existing USE statements, I get an extra entry.
my #lines = ( );
my %uses = { };
foreach $f1line (<>) {
$f1line =~ s/\r[\n]*//g;
if ($f1line =~ /^\s*INCLUDE 'FILE1.CMN'/ ||
$f1line =~ /^\s*INCLUDE 'FILE2.CMN'/ ||
$f1line =~ /^\s*INCLUDE 'FILE3.CMN'/) {
$f1line = " USE My_Mod";
}
if ($f1line =~ /^\s*USE /) {
$uses{$f1line} = 1;
}
push #lines, $f1line . $/;
}
$found = 0;
foreach $line (#lines) {
if ($found == 0 && $line =~ /^\s*USE /) {
foreach my $x (sort(keys(%uses))) {
print $x . $/; # (1)
}
$found = 1;
} elsif ($found == 1 && $line =~ /^\s*USE /) {
next;
} else {
print $line;
}
}
The output is this:
C Include parameters here
USE My_Mod
USE MyOther_Mod
USE EvenAnother_Mod
HASH(0x7f9dc3805ce8)
Where is the HASH(0x...) reference coming from? The only place I'm printing the contents of the hash is on line (1). It almost looks like iterating over the keys of the hash is somehow including the hash itself.
How can I get rid of this?

You are not really having a big problem, the big deal here is that you are not able to see the errors you are doing.
That's why you should always strict and warnings
In your code you start with:
my %uses = { };
When it should be:
my %uses = ();
or
my %uses; #it's fine also
And then it will works.
By using {} in a "hash" context you could create a hashref which is not the case.
A reference to an anonymous hash can be created using curly brackets:
$hashref = {
'Adam' => 'Eve',
'Clyde' => 'Bonnie',
};
Also is a good practice declare your variables in foreach loop like:
foreach my $line (#lines) {
And in the rest of your code.

Use of reference to elements in #_ to avoid duplicating code

Is it safe to take reference of elements of #_ in a subroutine in order to avoid duplicating code? I also wonder if the following is good practice or can be simplified. I have a subroutine mod_str that takes an option saying if a string argument should be modified in-place or not:
use feature qw(say);
use strict;
use warnings;
my $str = 'abc';
my $mstr = mod_str( $str, in_place => 0 );
say $mstr;
mod_str( $str, in_place => 1 );
say $str;
sub mod_str {
my %opt;
%opt = #_[1..$#_];
if ( $opt{in_place} ) {
$_[0] =~ s/a/A/g;
# .. do more stuff with $_[0]
return;
}
else {
my $str = $_[0];
$str =~ s/a/A/g;
# .. do more stuff with $str
return $str;
}
}
In order to avoid repeating/duplicating code in the if and else blocks above, I tried to improve mod_str:
sub mod_str {
my %opt;
%opt = #_[1..$#_];
my $ref;
my $str;
if ( $opt{in_place} ) {
$ref = \$_[0];
}
else {
$str = $_[0]; # make copy
$ref = \$str;
}
$$ref =~ s/a/A/g;
# .. do more stuff with $$ref
$opt{in_place} ? return : return $$ref;
}

The "in place" flag changes the function's interface to the point where it should be a new function. It will simplify the interface, testing, documentation and the internals to have two functions. Rather than having to parse arguments and have a big if/else block, the user has already made that choice for you.
Another way to look at it is the in_place option will always be set to a constant. Because it fundamentally changes how the function behaves, there's no sensible case where you'd write in_place => $flag.
Once you do that, the reuse becomes more obvious. Write one function to do the operation in place. Write another which calls that on a copy.
sub mod_str_in_place {
# ...Do work on $_[0]...
return;
}
sub mod_str {
my $str = $_[0]; # string is copied
mod_str_in_place($str);
return $str;
}

In the absence of the disgraced given I like using for as a topicalizer. This effectively aliases $_ to either $_[0] or the local copy depending on the value of the in_place hash element. It's directly comparable to your $ref but with aliases, and a lot cleaner
I see no reason to return a useless undef / () in the case that the string is modified in place; the subroutine may as well return the new value of the string. (I suspect the old value might be more useful, after the fashion of $x++, but that makes for uglier code!)
I'm not sure whether this is readable code to anyone but me, so comments are welcome!
use strict;
use warnings;
my $ss = 'abcabc';
printf "%s %s\n", mod_str($ss), $ss;
$ss = 'abcabc';
printf "%s %s\n", mod_str($ss, in_place => 1), $ss;
sub mod_str {
my ($copy, %opt) = #_;
for ( $opt{in_place} ? $_[0] : $copy ) {
s/a/A/g;
# .. do more stuff with $_
return $_;
}
}
output
AbcAbc abcabc
AbcAbc AbcAbc

functional Perl: Filter, Iterator

I have to write Perl although I'm much more comfortable with Java, Python and functional languages. I'd like to know if there's some idiomatic way to parse a simple file like
# comment line - ignore
# ignore also empty lines
key1 = value
key2 = value1, value2, value3
I want a function that I pass an iterator over the lines of the files and that returns a map from keys to list of values. But to be functional and structured I'd like to:
use a filter that wraps the given iterator and returns an iterator without empty lines or comment lines
The mentioned filter(s) should be defined outside of the function for reusability by other functions.
use another function that is given the line and returns a tuple of key and values string
use another function that breaks the comma separated values into a list of values.
What is the most modern, idiomatic, cleanest and still functional way to do this? The different parts of the code should be separately testable and reusable.
For reference, here is (a quick hack) how I might do it in Python:
re_is_comment_line = re.compile(r"^\s*#")
re_key_values = re.compile(r"^\s*(\w+)\s*=\s*(.*)$")
re_splitter = re.compile(r"\s*,\s*")
is_interesting_line = lambda line: not ("" == line or re_is_comment_line.match(line))
and re_key_values.match(line)
def parse(lines):
interesting_lines = ifilter(is_interesting_line, imap(strip, lines))
key_values = imap(lambda x: re_key_values.match(x).groups(), interesting_lines)
splitted_values = imap(lambda (k,v): (k, re_splitter.split(v)), key_values)
return dict(splitted_values)

A direct translation of your Python would be
my $re_is_comment_line = qr/^\s*#/;
my $re_key_values = qr/^\s*(\w+)\s*=\s*(.*)$/;
my $re_splitter = qr/\s*,\s*/;
my $is_interesting_line= sub {
my $_ = shift;
length($_) and not /$re_is_comment_line/ and /$re_key_values/;
};
sub parse {
my #lines = #_;
my #interesting_lines = grep $is_interesting_line->($_), #lines;
my #key_values = map [/$re_key_values/], #interesting_lines;
my %splitted_values = map { $_->[0], [split $re_splitter, $_->[1]] } #key_values;
return %splitted_values;
}
Differences are:
ifilter is called grep, and can take an expression instead of a block as first argument. These are roughly equivalent to a lambda. The current item is given in the $_ variable. The same applies to map.
Perl doesn't emphazise laziness, and seldomly uses iterators. There are instances where this is required, but usually the whole list is evaluated at once.
In the next example, the following will be added:
Regexes don't have to be precompiled, Perl is very good with regex optimizations.
Instead of extracting key/values with regexes, we use split. It takes an optional third argument that limits the number of resulting fragments.
The whole map/filter stuff can be written in one expression. This doesn't make it more efficient, but emphazises the flow of data. Read the map-map-grep from bottom upwards (actually right to left, think of APL).
.
sub parse {
my %splitted_values =
map { $_->[0], [split /\s*,\s*/, $_->[1]] }
map {[split /\s*=\s*/, $_, 2]}
grep{ length and !/^\s*#/ and /^\s*\w+\s*=\s*\S/ }
#_;
return \%splitted_values; # returning a reference improves efficiency
}
But I think a more elegant solution here is to use a traditional loop:
sub parse {
my %splitted_values;
LINE: for (#_) {
next LINE if !length or /^\s*#/;
s/\A\s*|\s*\z//g; # Trimming the string—omitted in previous examples
my ($key, $vals) = split /\s*=\s*/, $_, 2;
defined $vals or next LINE; # check if $vals was assigned
#{ $splitted_values{$key} } = split /\s*,\s*/, $vals; # Automatically create array in $splitted_values{$key}
}
return \%splitted_values
}
If we decide to pass a filehandle instead, the loop would be replaced with
my $fh = shift;
LOOP: while (<$fh>) {
chomp;
...;
}
which would use an actual iterator.
You could now go and add function parameters, but do this only iff you are optimizing for flexibility and nothing else. I already used a code reference in the first example. You can invoke them with the $code->(#args) syntax.
use Carp; # Error handling for writing APIs
sub parse {
my $args = shift;
my $interesting = $args->{interesting} or croak qq("interesting" callback required);
my $kv_splitter = $args->{kv_splitter} or croak qq("kv_splitter" callback required);
my $val_transform= $args->{val_transform} || sub { $_[0] }; # identity by default
my %splitted_values;
LINE: for (#_) {
next LINE unless $interesting->($_);
s/\A\s*|\s*\z//g;
my ($key, $vals) = $kv_splitter->($_);
defined $vals or next LINE;
$splitted_values{$key} = $val_transform->($vals);
}
return \%splitted_values;
}
This could then be called like
my $data = parse {
interesting => sub { length($_[0]) and not $_[0] =~ /^\s*#/ },
kv_splitter => sub { split /\s*=\s*/, $_[0], 2 },
val_transform => sub { [ split /\s*,\s*/, $_[0] ] }, # returns anonymous arrayref
}, #lines;

I think the most modern approach consists in taking advantage of the CPAN modules. In your example, Config::Properties may helps:
use strict;
use warnings;
use Config::Properties;
my $config = Config::Properties->new(file => 'example.properties') or die $!;
my $value = $config->getProperty('key');

As indicated in the posts linked to by #collapsar, Higher-Order Perl is a great read for exploring functional techniques in Perl.
Here is an example that hits your bullet points:
use strict;
use warnings;
use Data::Dumper;
my #filt_rx = ( qr{^\s*\#},
qr{^[\r\n]+$} );
my $kv_rx = qr{^\s*(\w+)\s*=\s*([^\r\n]*)};
my $spl_rx = qr{\s*,\s*};
my $iterator = sub {
my ($fh) = #_;
return sub {
my $line = readline($fh);
return $line;
};
};
my $filter = sub {
my ($it,#r) = #_;
return sub {
my $line;
do {
$line = $it->();
} while ( defined $line
&& grep { $line =~ m/$_/} #r );
return $line;
};
};
my $kv = sub {
my ($line,$rx) = #_;
return ($line =~ m/$rx/);
};
my $spl = sub {
my ($values,$rx) = #_;
return split $rx, $values;
};
my $it = $iterator->( \*DATA );
my $f = $filter->($it,#filt_rx);
my %map;
while ( my $line = $f->() ) {
my ($k,$v) = $kv->($line,$kv_rx);
$map{$k} = [ $spl->($v,$spl_rx) ];
}
print Dumper \%map;
__DATA__
# comment line - ignore
# ignore also empty lines
key1 = value
key2 = value1, value2, value3
It produces the following hash on the provided input:
$VAR1 = {
'key2' => [
'value1',
'value2',
'value3'
],
'key1' => [
'value'
]
};

you might be interested in this SO question as well as this one.
the following code is a self-contained perl script destined to give you an idea of how to implement in perl (only partially in a functional style; in case you don't revulse seeing the particular coding style and/or language construct, i can refine the solution somewhat).
Miguel Prz is right that in most cases you'd search CPAN for solutions to match your requirements.
my (
$is_interesting_line
, $re_is_comment_line
, $re_key_values
, $re_splitter
);
$re_is_comment_line = qr(^\s*#);
$re_key_values = qr(^\s*(\w+)\s*=\s*(.*)$);
$re_splitter = qr(\s*,\s*);
$is_interesting_line = sub {
my $line = shift;
return (
(!(
!defined($line)
|| ($line eq '')
))
&& ($line =~ /$re_key_values/)
);
};
sub strip {
my $line = shift;
# your implementation goes here
return $line;
}
sub parse {
my #lines = #_;
#
my (
$dict
, $interesting_lines
, $k
, $v
);
#
#$interesting_lines =
grep {
&{$is_interesting_line} ( $_ );
} ( map { strip($_); } #lines )
;
$dict = {};
map {
if ($_ =~ /$re_key_values/) {
($k, $v) = ($1, [split(/$re_splitter/, $2)]);
$$dict{$k} = $v;
}
} #$interesting_lines;
return $dict;
} # parse
#
# sample execution goes here
#
my $parse =<<EOL;
# comment
what = is, this, you, wonder
it = is, perl
EOL
parse ( split (/[\r\n]+/, $parse) );

Perl Hashref Substitutions

I'm using DBI to connect to Sybase to grab records in a hash_ref element. The DBI::Sybase driver has a nasty habit of returning records with trailing characters, specifically \x00 in my case. I'm trying to write a function to clean this up for all elements in the hashref, the code I have below does the trick, but I can't find a way to make it leaner, and I know there is away to do this better:
#!/usr/bin/perl
my $dbh = DBI->connect('dbi:Sybase:...');
my $sql = qq {SELECT * FROM table WHERE age > 18;};
my $qry = $dbh->selectall_hashref($sql, 'Name');
foreach my $val(values %$qry) {
$qry->{$val} =~ s/\x00//g;
}
foreach my $key(keys %$qry) {
$qry->{$key} =~ s/\x00//g;
foreach my $val1(keys %{$qry->{$key}}) {
$qry->{$key}->{$val1} =~ s/\x00//g;
}
foreach my $key1(keys %{$qry->{$key}}) {
$qry->{$key}->{$key1} =~ s/\x00//g;
}

While I think that a regex substitution is not exactly an ideal solution (seems like it should be fixed properly instead), here's a handy way to solve it with chomp.
use Data::Dumper;
my %a = (
foo => {
a => "foo\x00",
b => "foo\x00"
},
bar => {
c => "foo\x00",
d => "foo\x00"
},
baz => {
a => "foo\x00",
a => "foo\x00"
}
);
$Data::Dumper::Useqq=1;
print Dumper \%a;
{
local $/ = "\x00";
chomp %$_ for values %a;
}
print Dumper \%a;
chomp will remove a single trailing value equal to whatever the input record separator $/ is set to. When used on a hash, it will chomp the values.
As you will note, we do not need to use the values directly, as they are aliased. Note also the use of a block around the local $/ statement to restrict its scope.
For a more manageable solution, it's probably best to make a subroutine, called recursively. I used chomp again here, but you can just as easily skip that and use s/\x00//g. Or tr/\x00//d, which basically does the same thing. chomp is only safer in that it only removes characters from the end of the string, like s/\x00$// would.
strip_null(\%a);
print Dumper \%a;
sub strip_null {
local $/ = "\x00";
my $ref = shift;
for (values %$ref) {
if (ref eq 'HASH') {
strip_null($_); # recursive strip
} else {
chomp;
}
}
}

First your code:
foreach my $val(values %$qry) {
$qry->{$val} =~ s/\x00//g;
# here you are using a value as if it was a key
}
foreach my $key(keys %$qry) {
$qry->{$key} =~ s/\x00//g;
foreach my $val1(keys %{$qry->{$key}}) {
$qry->{$key}->{$val1} =~ s/\x00//g;
}
foreach my $key1(keys %{$qry->{$key}}) {
$qry->{$key}->{$key1} =~ s/\x00//g;
}
# and this does the same thing twice...
what you should do is:
foreach my $x (values %$qry) {
foreach my $y (ref $x eq 'HASH' ? values %$x : $x) {
$y =~ s/(?:\x00)+$//
}
}
which will clean up only ending nulls in the values of two levels of the hash.
the body of the loop could also be written as:
if (ref $x eq 'HASH') {
foreach my $y (values %$x) {
$y =~ s/(?:\x00)+$//
}
}
else {
$x =~ s/(?:\x00)+$//
}
But that forces you to write the substitution twice, and you shouldn't repeat yourself.
Or if you really want to reduce the code, using the implicit $_ variable works well:
for (values %$qry) {
s/(?:\x00)+$// for ref eq 'HASH' ? values %$_ : $_
}