# NAME Devel::Optic - JSON::Pointer meets PadWalker # SYNOPSIS use Devel::Optic; my $optic = Devel::Optic->new(max_size => 100); my $foo = { bar => ['baz', 'blorg', { clang => 'pop' }] }; # 'pop' $optic->inspect('$foo/bar/-1/clang'); # 'HASH: { bar => ARRAY ...} (1 total keys / 738 bytes). Exceeds viewing size (100 bytes)" $optic->inspect('$foo'); # DESCRIPTION [Devel::Optic](https://metacpan.org/pod/Devel::Optic) is a [borescope](https://en.wikipedia.org/wiki/Borescope) for Perl programs. It provides a basic JSON::Pointer-ish path syntax (a 'lens') for extracting bits of complex data structures from a Perl scope based on the variable name. This is intended for use by debuggers or similar introspection/observability tools where the consuming audience is a human troubleshooting a system. If the data structure selected by the lens is too big, it will summarize the selected data structure into a short, human-readable message. No attempt is made to make the summary machine-readable: it should be immediately passed to a structured logging pipeline. It takes a caller uplevel and a JSON::Pointer-style 'lens', and returns the variable or summary of a variable found by that lens for the scope of that caller level. # METHODS ## new my $o = Devel::Optic->new(%options); `%options` may be empty, or contain any of the following keys: - `uplevel` Which Perl scope to view. Default: 1 (scope that `Devel::Optic` is called from) - `max_size` Max size, in bytes, of a datastructure that can be viewed without summarization. Default: 5120. - `scalar_truncation_size` Size, in bytes, that scalar values are truncated to for viewing. Default: 512. - `scalar_sample_size` Size, in bytes, that scalar children of a summarized data structure are trimmed to for inclusion in the summary. Default: 64. - `ref_key_sample_count` Number of keys/indices to display when summarizing a hash or arrayref. Default: 4. ## inspect my $stuff = { foo => ['a', 'b', 'c'] }; my $o = Devel::Optic->new; # 'a' $o->inspect('$stuff/foo/0'); This is the primary method. Given a lens, It will either return the requested data structure, or, if it is too big, return a summary of the data structure found at that path. ## fit\_to\_view my $some_variable = ['a', 'b', { foo => 'bar' }, [ 'blorg' ] ]; my $tiny = Devel::Optic->new(max_size => 1); # small to force summarization # "ARRAY: [ 'a', 'b', HASH, ARRAY ]" $tiny->fit_to_view($some_variable); my $normal = Devel::Optic->new(); # ['a', 'b', { foo => 'bar' }, [ 'blorg' ] ] $normal->fit_to_view($some_variable); This method takes a Perl object/data structure and either returns it unchanged, or produces a 'squished' summary of that object/data structure. This summary makes no attempt to be comprehensive: its goal is to maximally aid human troubleshooting efforts, including efforts to refine a previous invocation of Devel::Optic with a more specific lens. ## full\_picture This method takes a 'lens' and uses it to extract a data structure from the [Devel::Optic](https://metacpan.org/pod/Devel::Optic)'s `uplevel`. If the lens points to a variable that does not exist, [Devel::Optic](https://metacpan.org/pod/Devel::Optic) will croak. ### LENS SYNTAX [Devel::Optic](https://metacpan.org/pod/Devel::Optic) uses a very basic JSON::Pointer style path syntax called a 'lens'. A lens always starts with a variable name in the scope being picked, and uses `/` to indicate deeper access to that variable. At each level, the value should be a key or index that can be used to navigate deeper or identify the target data. For example, a lens like this: %my_cool_hash/a/1/needle Traversing a scope like this: my %my_cool_hash = ( a => ["blub", { needle => "find me!", some_other_key => "blorb" }], b => "frobnicate" ); Will return the value: "find me!" A less selective lens on the same data structure: %my_cool_hash/a Will return that branch of the tree: ["blub", { needle => "find me!", some_other_key => "blorb" }] Other syntactic examples: $hash_ref/a/0/3/blorg @array/0/foo $array_ref/0/foo $scalar #### LENS SYNTAX ALTNERATIVES The 'lens' syntax attempts to provide a reasonable amount of power for navigating Perl data structures without risking the stability of the system under inspection. In other words, while `eval '$my_cool_hash{a}->[1]->{needle}'` would be a much more powerful solution to the problem of navigating Perl data structures, it opens up all the cans of worms at once. I'm open to exploring richer syntax in this area as long as it is aligned with the following goals: - Simple query model As a debugging tool, you have enough on your brain just debugging your system. Second-guessing your query syntax when you get unexpected results is a major distraction and leads to loss of trust in the tool (I'm looking at you, ElasticSearch). - O(1), not O(n) (or worse) I'd like to avoid globs or matching syntax that might end up iterating over unbounded chunks of a data structure. Traversing a small, fixed number of keys in 'parallel' sounds like a sane extension, but anything which requires iterating over the entire set of hash keys or array indicies is likely to surprise when debugging systems with unexpectedly large data structures. # SEE ALSO - [PadWalker](https://metacpan.org/pod/PadWalker) - [Mojo::JSON::Pointer](https://metacpan.org/pod/Mojo::JSON::Pointer) - [Devel::Probe](https://metacpan.org/pod/Devel::Probe)