NAME
Data::Dumper::Compact - Vertically compact width-limited data formatter
SYNOPSIS
Basic usage as a function:
use Data::Dumper::Compact 'ddc';
warn ddc($some_data_structure);
warn ddc($some_data_structure, \%options);
Slightly more clever usage as a function:
use Data::Dumper::Compact ddc => \%default_options;
warn ddc($some_data_structure);
warn ddc($some_data_structure, \%extra_options);
OO usage:
use Data::Dumper::Compact;
warn Data::Dumper::Compact->dump($data, \%options);
my $ddc = Data::Dumper::Compact->new(\%options);
warn $ddc->dump($data);
warn $ddc->dump($data, \%extra_options);
DESCRIPTION
Data::Dumper::Compact, henceforth referred to as DDC, was born because I was annoyed at valuable wasted whitespace paging through both Data::Dumper and Data::Dump based logs - Data::Dump attempts to format horizontally first, but then if it fails, immediately switches to formatting fully vertically, rather than trying to e.g. format a six element arrayref three per line.
So here's a few of the specifics (noting that all examples unless otherwise specified are dumped with default options):
Arrays and Strings
Given arrays consisting of reasonably long strings, DDC does its best to produce a sane representation within its "max_width":
[
1, 2, [
'longstringislonglongstringislonglongstringislong',
'longstringislonglongstringislong', 'longstringislong',
'longstringislonglongstringislonglongstringislong', 'longstringislong',
'longstringislonglongstringislong', 'longstringislong',
'longstringislonglongstringislong',
'longstringislonglongstringislonglongstringislong',
'longstringislonglongstringislong', 'longstringislonglongstringislong',
'longstringislonglongstringislonglongstringislong', 'longstringislong',
'longstringislong', 'longstringislonglongstringislonglongstringislong',
'longstringislong', 'longstringislong', 'longstringislong',
'longstringislonglongstringislong',
'longstringislonglongstringislonglongstringislong', 'a', 'b', 'c',
'longstringislonglongstringislonglongstringislonglongstringislong',
'longstringislonglongstringislonglongstringislonglongstringislong',
'longstringislonglongstringislonglongstringislonglongstringislong',
], 3,
]
Keys and Hashrefs
When faced with a -foo
style value, it gets a =>
even in an array, and hash values that we can are single-line formatted:
[
'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa', [
'bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb',
'cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc',
],
-blah => { baz => 'quux', foo => 'bar' },
]
The String Thing
Strings are single quoted when DDC is absolutely sure that's safe, and double quoted otherwise:
[ { -foo => {
bar =>
'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa',
baz => "bbbbbbbbbbbbbbbbbbbb\nbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb",
} } ]
Lonely hash key
When a single hash key can't be formatted in a oneline form within the length, DDC will try spilling it to its own line:
{
-xxxxxxxxxxxxx => 'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa'
}
If even that isn't enough, it formats it below and indented:
{ -xxxxxxxxxxxxx =>
'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa'
}
Strings and the dot operator
If a string simply won't fit, DDC splits it and indents it using .
:
[ 'xyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyx'
.'yxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxy'
.'xyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyx'
.'yxyxyxyxyxyxyxyxyxyxyxyxyxyxyxy'
]
Unknown unknowns
Anything DDC doesn't understand is passed through its "dumper" option, though since Data::Dumper (at the time of writing) forgets to pass through its indentation level to B::Concise, we slightly tweak that behaviour on the way in for the default "dumper". But the end result looks like:
{ foo => { bar => sub {
use warnings;
use strict 'refs';
my($x, $y) = @_;
return $x * $y;
} } }
All together now
The full set of behaviours allows compact (and, we hope, readable) versions of complex data structures. To provide one of the examples that expired this module - here is the formatting under standard options for a moderately complex SQL::Abstract update statement:
{
_ => [
'tree_table', -join => {
as => 'tree',
on => { 'tree.id' => 'tree_with_path.id' },
to => { -select => {
from => 'tree_with_path',
select => '*',
with_recursive => [
[ 'tree_with_path', 'id', 'parent_id', 'path' ], { -select => {
_ => [
'id', 'parent_id', { -as =>
[
{ -cast => { -as => [ 'id', 'char', 255 ] } },
'path',
]
},
],
from => 'tree_table',
union_all => { -select => {
_ => [
't.id', 't.parent_id', { -as => [
{ -concat => [ 'r.path', \"'/'", 't.id' ] },
'path',
] },
],
from => [
'tree_table', -as => 't', -join => {
as => 'r',
on => { 't.parent_id' => 'r.id' },
to => 'tree_with_path',
},
],
} },
where => { parent_id => undef },
} },
],
} },
},
],
set => { path => { -ident => [ 'tree', 'path' ] } },
}
And the version (generated by setting "max_width" to 40
) that runs out of space and thereby forces the "spill vertically" logic to kick in while still attemping to be at least somewhat compact:
{
_ => [
'tree_table',
'-join',
{
as => 'tree',
on => {
'tree.id' => 'tree_with_path.id',
},
to => {
-select => {
from => 'tree_with_path',
select => '*',
with_recursive => [
[
'tree_with_path',
'id',
'parent_id',
'path',
],
{
-select => {
_ => [
'id',
'parent_id',
{
-as => [
{
-cast => {
-as => [
'id',
'char',
255,
],
},
},
'path',
],
},
],
from => 'tree_table',
union_all => {
-select => {
_ => [
't.id',
't.parent_id',
{
-as => [
{
-concat => [
'r.path',
\"'/'",
't.id',
],
},
'path',
],
},
],
from => [
'tree_table',
'-as',
't',
'-join',
{
as => 'r',
on => {
't.parent_id' => 'r.id',
},
to => 'tree_with_path',
},
],
},
},
where => {
parent_id => undef,
},
},
},
],
},
},
},
],
set => {
path => {
-ident => [
'tree',
'path',
],
},
},
}
Summary
Hopefully it's clear what the goal is, and what we've done to achieve it.
While the system is already somewhat configurable, further options are almost certainly implementable, although if you really want such an option then we expect you to turn up with documentation and test cases for it so we just have to write the code.
OPTIONS
max_width
Represents the width that DDC will attempt to keep as the maximum (if something overflows it in spite of our best efforts, DDC will fall back to a more vertically sprawling format to at least overflow as little as feasible).
Default: 78
indent_by
The string to indent by. To set e.g. 4 space indent, pass ' 'x4
.
Default: ' '
(two spaces).
indent_width
How many characters one indent should be considered to be. Generally you only need to manually set this if your "indent_by" is "\t"
.
Default: length($self->indent_by)
transforms
Set of transforms to apply on every "dump" operation. See "transform" for more information.
Default: []
dumper
The dumper function to be used for dumping things DDC doesn't understand, such as coderefs, regexprefs, etc.
Defaults to the same options as Data::Dumper::Concise (which is, itself, only a Data::Dumper configuration albeit it comes with Devel::Dwarn which is rather more interesting) - although on top of that we add a little bit of extra cleverness to make B::Deparse use the correct indentation, since for some reason Data::Dumper doesn't (at the time of writing) do that.
If you supply it yourself, it needs to be a single argument coderef - you could for example use \&Data::Dumper::Dumper
though that would almost certainly be pointless.
EXPORTS
ddc
use Data::Dumper::Compact 'ddc';
use Data::Dumper::Compact 'ddc' => \%options;
If the first argument to use
/import()
is 'ddc', a subroutine ddc()
is installed in the calling package which behaves like calling "dump".
If the second argument is a hashref, it becomes the options passed to "new".
This feature is effectively sugar over "dump_cb", in that:
Data::Dumper::Compact->import(ddc => \%options)
is equivalent to:
*ddc = Data::Dumper::Compact->new(\%options)->dump_cb;
METHODS
new
my $ddc = Data::Dumper::Compact->new;
my $ddc = Data::Dumper::Compact->new(%options);
my $ddc = Data::Dumper::Compact->new(\%options);
Constructor. Takes a hash or hashref of "OPTIONS"
dump
my $formatted = Data::Dumper::Compact->dump($data, \%options?);
my $formatted = $ddc->dump($data, \%merge_options?);
This is the method you're going to want to call most of the time, and ties together the rest of the functionality into a single data-structure-to-string bundle. With just a data argument, it's equivalent to:
$ddc->format( $ddc->transform( $ddc->transforms, $ddc->expand($data) );
In class method form, options provided are passed to "new"; in instance method form, options if provided are merged into $ddc
just for this invocation.
dump_cb
my $cb = $ddc->dump_cb;
Returns a subroutine reference that's a curried call to "dump":
$cb->($data, \%extra_options); # equivalent to $ddc->dump(...)
Mostly useful for if you want to create a custom ddc()
like thing:
use Data::Dumper::Compact;
BEGIN { *Dumper = Data::Dumper::Compact->new->dump_cb }
expand
my $exp = $ddc->expand($data);
Expands a data structure to DDC tagged data. The result is, recursively,
[ $type, $payload ]
where if $type is one of string
, key
, or thing
, the payload is a simple string (thing
meaning something unknown and therefore delegated to "dumper"). If the type is an array:
[ array => \@values ]
and if the type is a hash:
[ hash => [ \@keys, \%value_map ] ]
where the keys provide an order for formatting, and the value map is a hashref of keys to expanded values.
A plain string becomes a string
, unless it fits the -foo
style pattern that autoquotes, in which case it becomes a key
.
add_transform
$ddc->add_transform(sub { ... });
$ddc->add_transform({ hash => sub { ... }, _ => sub { ... });
Appends a transform to $ddc->transforms
, see "transform" for behaviour.
Returns $ddc
to enable chaining.
transform
my $tf_exp = $ddc->transform($tfspec, $exp);
Takes a transform specification and expanded tagged data and returns the transformed expanded expression. A transform spec is an arrayref containing transforms, where each transform is applied in order, so the last transform added via "add_transform" will be the last one to transform the data (each transform will consist of a datastructure representing which parts of the $exp
tree it should be called for, plus subroutines representing the relevant transforms).
Transform subroutines are called as a method on the $ddc
with the arguments of $type, $payload, $path
where $path
is an arrayref of the keys/values of the containing hashes and arrays, aggregated as DDC descends through the $exp
tree.
Each transform is expected to return either nothing, to indicate it doesn't wish to modify the result, or a replacement expanded data structure. The simplest form of transform is a subref, which gets called for everything.
So, to add ' IN MICE' to every string that's part of an array under a hash key called study_results, i.e.:
my $data = { study_results => [
'Sense Of Touch Is Formed In the Brain Before Birth'.
"We can't currently cure MS but a single cell could change that",
] };
my $tf_exp = $ddc->transform([ sub {
my ($self, $type, $payload, $path) = @_;
return unless $type eq 'string' and ($path->[-2]||'') eq 'study_results';
return [ $type, $payload.' IN MICE' ];
} ], $ddc->expand($data));
will return:
[ hash => [
[ 'study_results' ],
{ study_results => [ array => [
[ string => 'Sense Of Touch Is Formed In the Brain Before Birth IN MICE' ],
[ string => "We can't currently cure MS but a single cell could change that IN MICE", ],
] ] }
] ]
If a hashref is found, then the values are expected to be transforms, and DDC will use $hashref->{$type}||$hashref->{_}
as the transform, or skip if neither is present. So the previous example could be written as:
$ddc->transform([ { string => sub {
my ($self, $type, $payload, $path) = @_;
return unless ($path->[-2]||'') eq 'study_results';
return [ $type, $payload.' IN MICE' ];
} } ], $ddc->expand($data));
If the value of the spec entry itself or the relevant hash value is an arrayref, it is assumed to contain a spec for trailing path entries, with the last element being the transform subroutine. A path entry match can be an exact scalar (tested via eq
since it works fine for both strings and integer array indices), regexp, undef
to indicate "any value is fine here", or a subroutine which will be called with the path entry as both $_[0]
and $_
. So the example we've been using could also be written as:
$ddc->transform([ { string => [
'study_results', undef,
sub { [ string => $_[2].' IN MICE' ] }
] } ], $ddc->expand($data));
or
$ddc->transform([ { string => [
qr/^study_results$/, sub { 1 },
sub { [ string => $_[2].' IN MICE' ] }
] } ], $ddc->expand($data));
Note that while the $tfspec
is not passed to transform subroutines, for the duration of the "transform" call the "transforms" option is localised to the provided routine, so
sub {
my ($self, $type, $payload, $path) = @_;
my $tfspec = $self->transforms;
...
}
will return the top level $tfspec
passed to the transform call.
Thanks to http://twitter.com/justsaysinmice for the inspiration.
format
my $formatted = $ddc->format($exp);
Takes expanded tagged data and renders it to a formatted string, suitable for printing or warning or etc.
Accepts the following type tags: array
, list
, hash
, key
, string
, thing
. Arrays and hashes are formatted as compactly as possible within the constraint of "max_width", but if overflow occurs then DDC falls back to spilling everything vertically, so newlines are used for most spacing and therefore it doesn't exceed the max width any more than strictly necessary.
Strings are formatted as single quote if obvious, and double quote if not.
Keys are treated as strings when present as hash values, but when an element of array values, are formatted ask the_key =>
where possible.
Lists are formatted as single line qw()
expressions if possible, or ( ... )
if not.
Arrays and hashes are formatted in the manner to which one would hope readers are accustomed, except more compact.
ALGORITHM
The following is a description of the current algorithm of DDC. We reserve the right to change it for the better.
If you didn't already read the overview examples in "WHY" do that first.
Vertical mode means DDC has given up on fitting within the desired width and is now just trying to not use too much vertical space.
Oneline mode is DDC testing to see if a single line rendering of something will fit within the available space. Things will often be rendered more than once since DDC is optimising for compact readable output rather than raw straight line performance.
Top level formatting
If something is formatted and the remaining width is zero or negative, DDC accepts default on "max_width" and bails out to a fully vertical approach so it overflows the desired width no more than necessary.
Array formatting
If already in vertical mode, formats one array element per line, appended with ,
:
[
1,
2,
3
]
If in possible oneline mode, formats all but the last element according to the "Array element" rules, the last element according to normal formatting, and joins them with ' '
in the hopes this is narrow enough. Return this if oneline is forced or it fits:
[ 1, 2, 3 ]
If there's only a single internal member, tries to use the "Single entry formatting" strategy to cuddle it.
[ [
<something inside>
] ]
Otherwise, attempts to bundle things as best possible: Each element is formatted according to the "Array element" rules, and multiple results are concatenated together onto a single line where that still remains within the available width.
[
'foo', 'bar', 'baz',
'red', 'white', 'blue',
]
Array element
Elements are normally formatted as $formatted.','
except if an element is of type key
in which cases it becomes $key =>
.
"whatever the smeg",
smeg_off =>
List formatting
The type list
is synthetic and only introduced by transforms.
It is formatted identically to an arrayref except with ( )
instead of [ ]
, with the exception that if it consists of only plain strings and will fit onto a single line, it formats as a qw(x y x)
style list.
qw(foo bar baz)
(
'foo',
'bar',
'baz',
)
Single entry formatting
Where possible, a single entry will be cuddled such that the opening delimiters are both on the first line, and the closing delimeters both on the final line, to reduce the vertical space consumption of nested single entry array and/or hashrefs.
to => { -select => {
...
} }
[ 'SRV:8FB66F32' ], [ [
'/opt/voice-srvc-native/bin/async-srvc-att-gateway-poller', 33,
'NERV::Voice::SRV::Native::AsyncSRVATTGatewayPoller::main',
] ],
Hash formatting
If already in vertical mode, key/value pairs are formatted separated by newlines, with no attention paid to key length.
{
foo => ...,
bar => ...,
}
If potentially in oneline mode, key/value pairs are formatted separated by ', '
and the value is returned if forced or if remaining width allows the oneline rendering.
{ foo => ..., bar => ... }
Otherwise, all key/value pairs are formatted as key => value
where possible, but if the first line of the value is too long, the value is moved to the next line and indented.
key => 'shortvalue'
key =>
'overlylongvalue'
If there's only a single such key/value pair, tries to use the "Single entry formatting" strategy to cuddle it.
{ zathrus => {
listened_to => 0,
} }
Otherwise returns key/value pairs indented and separated by newlines
{
foo => ...,
bar => ...,
}
String formatting
Uses single quotes if sure that's safe, double quotes otherwise.
'foo bar baz quux'
"could have been '' but nicer to not screw up\n the indents with a newline"
Attempts to format a string within the available width, using multiple lines and the .
concatenation operator if necessary,.
'this would be an'
.'annoyingly long'
.'string'
The target width is set to 20 in vertical mode to try and not be too ugly.
AUTHOR
mst - Matt S Trout (cpan:MSTROUT) <mst@shadowcat.co.uk>
CONTRIBUTORS
None so far.
COPYRIGHT
Copyright (c) 2019 the Data::Dumper::Compact "AUTHOR" and "CONTRIBUTORS" as listed above.
LICENSE
This library is free software and may be distributed under the same terms as perl itself. See https://dev.perl.org/licenses/.