Object Inspector takes Object#inspect to the next level. Specify any combination of identification attributes, flags, issues, info, and/or a name along with an optional, self-definable scope option to represent objects. Great for the console, logging, etc.
Why? Because object inspection code should be uniform, easy to build, and its output should be easy to read!
If you'd like to just jump into an example: Full Example.
Add this line to your application's Gemfile:
gem "object_inspector"
And then execute:
$ bundle
Or install it yourself:
$ gem install object_inspector
Tested MRI Ruby Versions:
- 3.1
- 3.2
- 3.3
Note: For Ruby 2.7 or 3.1 support, install object_inspector gem version 0.6.3.
gem "object_inspector", "0.6.3"
Object Inspector has no other dependencies.
Global/default values for Object Inspector can be configured via the ObjectInspector::Configuration object.
Note: In a Rails app, the following would go in e.g. config/initializers/object_inspector.rb
# Default values are shown.
ObjectInspector.configure do |config|
config.formatter_class = ObjectInspector::TemplatingFormatter
config.inspect_method_prefix = "inspect"
config.default_scope = ObjectInspector::Scope.new(:self)
config.wild_card_scope = "all"
config.out_of_scope_placeholder = "*"
config.presenter_inspect_flags = " ⇨ "
config.name_separator = " - "
config.flags_separator = " / "
config.issues_separator = " | "
config.info_separator = " | "
end
Given, an object of any type, call ObjectInspector::Inspector.inspect.
class MyObject
def inspect
ObjectInspector::Inspector.inspect(self)
end
end
MyObject.new.inspect # => "<MyObject>"
See also Helper Usage for an even simpler usage option.
Use the identification
, flags
, info
, and/or name
options to customize inspect output.
class MyObject
def inspect
ObjectInspector::Inspector.inspect(
self,
identification: "My Object",
flags: "FLAG1 / FLAG2",
info: "INFO",
name: "NAME")
end
end
MyObject.new.inspect # => "<My Object(FLAG1 / FLAG2) INFO :: NAME>"
Or, define inspect_identification
, inspect_flags
, inspect_info
, and/or inspect_name
(or display_name
) as either public or private methods on Object.
class MyObject
def inspect
ObjectInspector::Inspector.inspect(self)
end
private
def inspect_identification; "My Object" end
def inspect_flags; "FLAG1 / FLAG2" end
def inspect_issues; "ISSUE1 | ISSUE2" end
def inspect_info; "INFO" end
def inspect_name; "NAME" end # Or: def display_name; "NAME" end
end
MyObject.new.inspect
# => "<My Object(FLAG1 / FLAG2) !!ISSUE1 | ISSUE2!! INFO :: NAME>"
To save some typing, include ObjectInspector::InspectHelper into an object and ObjectInspector::Inspector.inspect will be called on self
automatically.
class MyObject
include ObjectInspector::InspectorsHelper
end
MyObject.new.inspect # => "<MyObject>"
To access the ObjectInspector::Inspector's options via the helper, call into super
.
class MyObject
include ObjectInspector::InspectorsHelper
def inspect
super(identification: "My Object",
flags: "FLAG1",
issues: "ISSUE1 | ISSUE2",
info: "INFO",
name: "NAME")
end
end
MyObject.new.inspect
# => "<My Object(FLAG1) !!ISSUE1 | ISSUE2!! INFO :: NAME>"
Or, define inspect_identification
, inspect_flags
, inspect_info
, and/or inspect_name
(or display_name
) in Object.
class MyObject
include ObjectInspector::InspectorsHelper
private
def inspect_identification; "My Object" end
def inspect_flags; "FLAG1 / FLAG2" end
def inspect_issues; "ISSUE1 | ISSUE2" end
def inspect_info; "INFO" end
def inspect_name; "NAME" end # Or: def display_name; "NAME" end
end
MyObject.new.inspect
# => "<My Object(FLAG1) !!ISSUE1 | ISSUE2!! INFO :: NAME>"
Use the scope
option to define the scope of the inspect_*
methods. The supplied value will be wrapped by the ObjectInspector::Scope helper object.
The default value is ObjectInspector::Scope.new(:self)
.
ObjectInspector::Scope acts like ActiveSupport::StringInquirer. This is a prettier way to test for a given type of "scope" within objects.
The ObjectInspector::Scope objects in these examples are the same as specifying <scope_name>
like this:
my_object.inspect(scope: <scope_name>)
Options:
:self
(Default) -- Is meant to confine object interrogation to self (don't interrogate neighboring objects).:all
-- Is meant to match on all scopes, regardless of their name.<custom>
-- Anything else that makes sense for the object to key on.
scope = ObjectInspector::Scope.new
scope.self? # => true
scope.verbose? # => false
scope.complex? # => false
It is also possible to pass in multiple scope names to match on.
scope = ObjectInspector::Scope.new(%i[verbose complex])
scope.self? # => false
scope.verbose? # => true
scope.complex? # => true
Finally, :all
is a "wild card" scope name, and will match on all scope names.
scope = ObjectInspector::Scope.new(:all)
scope.self? # => true
scope.verbose? # => true
scope.complex? # => true
Passing a block to a scope predicate falls back to the out-of-scope placeholder (*
by default) if the scope does not match.
scope = ObjectInspector::Scope.new(:verbose)
scope.verbose? { "MATCH" } # => "MATCH"
scope.complex? { "MATCH" } # => "*"
ObjectInspector::Scope also offers helper methods for uniformly joining inspect elements:
join_name # Joins name parts with ` - ` by default
join_flags # Joins flags with ` / ` by default
join_info # Joins info items with ` | ` by default
For example:
scope = ObjectInspector::Scope.new(:verbose)
scope.join_name([1, 2, 3]) # => "1 - 2 - 3"
scope.join_name([1, 2, 3, nil]) # => "1 - 2 - 3"
scope.join_flags([1, 2, 3]) # => "1 / 2 / 3"
scope.join_flags([1, 2, 3, nil]) # => "1 / 2 / 3"
scope.join_info([1, 2, 3]) # => "1 | 2 | 3"
scope.join_info([1, 2, 3, nil]) # => "1 | 2 | 3"
class MyObject
include ObjectInspector::InspectorsHelper
attr_reader :name,
:a2
def initialize(name, a2 = 2)
@name = name
@a2 = a2
end
def associated_object1
OpenStruct.new(flags: "AO1_FLAG1")
end
def associated_object2
OpenStruct.new(flags: "AO2_FLAG1")
end
# Or `def inspect_name`
def display_name(scope:)
name
end
private
def inspect_identification
identify(:a2)
end
def inspect_flags(scope:)
flags = ["DEFAULT_FLAG"]
flags <<
scope.verbose? {
[
associated_object1.flags,
associated_object2.flags,
]
}
scope.join_flags(flags)
end
def inspect_issues
"!!WARNING!!"
end
def inspect_info(scope:)
info = ["Default Info"]
info << "Complex Info" if scope.complex?
info << scope.verbose? { "Verbose Info" }
scope.join_info(info)
end
end
my_object = MyObject.new("Name")
my_object.inspect(scope: :complex)
# => "<MyObject[a2:2](DEFAULT_FLAG / *) !!!!WARNING!!!! Default Info | Complex Info | * :: Name>"
my_object.inspect(scope: :verbose)
# => "<MyObject[a2:2](DEFAULT_FLAG / AO1_FLAG1 / AO2_FLAG1) !!!!WARNING!!!! Default Info | Verbose Info :: Name>"
my_object.inspect(scope: %i[self complex verbose])
# => "<MyObject[a2:2](DEFAULT_FLAG / AO1_FLAG1 / AO2_FLAG1) !!!!WARNING!!!! Default Info | Complex Info | Verbose Info :: Name>"
my_object.inspect(scope: :all)
# => "<MyObject[a2:2](DEFAULT_FLAG / AO1_FLAG1 / AO2_FLAG1) !!!!WARNING!!!! Default Info | Complex Info | Verbose Info :: Name>"
my_object.inspect
# => "<MyObject[a2:2](DEFAULT_FLAG / *) !!!!WARNING!!!! Default Info | * :: Name>"
ObjectInspector.configuration.default_scope = :complex
my_object.inspect
# => "<MyObject[a2:2](DEFAULT_FLAG / *) !!!!WARNING!!!! Default Info | Complex Info | * :: Name>"
ObjectInspector.configuration.default_scope = %i[self complex verbose]
my_object.inspect
# => "<MyObject[a2:2](DEFAULT_FLAG / AO1_FLAG1 / AO2_FLAG1) !!!!WARNING!!!! Default Info | Complex Info | Verbose Info :: Name>"
ObjectInspector.configuration.default_scope = :all
my_object.inspect
# => "<MyObject[a2:2](DEFAULT_FLAG / AO1_FLAG1 / AO2_FLAG1) !!!!WARNING!!!! Default Info | Complex Info | Verbose Info :: Name>"
If the Object being inspected wraps another object -- i.e. defines #to_model and #to_model returns an object other than self -- the inspect output will re-inspect the wrapped object. The wrapper points to the wrapped object with an arrow (⇨).
class MyWrapperObject
include ObjectInspector::InspectorsHelper
def to_model
@to_model ||= MyWrappedObject.new
end
private
def inspect_flags; "WRAPPER_FLAG1" end
end
class MyWrappedObject
include ObjectInspector::InspectorsHelper
private
def inspect_flags; "FLAG1 / FLAG2" end
def inspect_info; "INFO" end
end
MyWrapperObject.new.inspect
# => "<MyWrapperObject(WRAPPER_FLAG1)> ⇨ <MyWrappedObject(FLAG1 / FLAG2) INFO>"
This feature is recursive.
If the Object being inspected is wrapped by an object that delegates all unknown methods to the wrapped object, then inspect flags will be doubled up. To get around this, redefine the inspect
method in the Wrapper object e.g. like:
class MyDelegatingWrapperObject
include ObjectInspector::InspectorsHelper
def initialize(my_object)
@my_object = my_object
end
def inspect(**kwargs)
super(identification: self.class.name,
name: nil,
flags: nil,
info: nil,
issues: nil,
**kwargs)
end
def to_model
@my_object
end
private
def method_missing(method_symbol, *args)
@my_object.__send__(method_symbol, *args)
end
def respond_to_missing?(*args)
@my_object.respond_to?(*args) || super
end
end
class MyWrappedObject
include ObjectInspector::InspectorsHelper
def display_name
"WRAPPED_OBJECT_NAME"
end
private
def inspect_flags; "FLAG1" end
def inspect_info; "INFO" end
def inspect_issues; "ISSUE1" end
def inspect_name; "NAME" end
end
MyDelegatingWrapperObject.new(MyWrappedObject.new).inspect
# => "<MyDelegatingWrapperObject> ⇨ <MyWrappedObject(FLAG1) !!ISSUE1!! INFO :: NAME>"
When passed as an option (as opposed to being called via an Object-defined method) symbols will be called/evaluated on Object on the fly.
class MyObject
include ObjectInspector::InspectorsHelper
def my_method1; "Result1" end
def my_method2; "Result2" end
def inspect_info; :my_method2 end
end
MyObject.new.inspect(info: "my_method1") # => "<MyObject my_method1>"
MyObject.new.inspect(info: :my_method2) # => "<MyObject Result2>"
MyObject.new.inspect # => "<MyObject my_method2>"
Pass nil
to any inspect method type to not display it:
class MyObject
include ObjectInspector::InspectorsHelper
def inspect_identification; "My Object" end
def inspect_info; "INFO" end
def inspect_flags; "FLAG1" end
def inspect_issues; "ISSUE1" end
end
MyObject.new.inspect
# => "<My Object(FLAG1) !!ISSUE1!! INFO>"
MyObject.new.inspect(info: nil, flags: nil, issues: nil)
# => "<My Object>"
MyObject.new.inspect(identification: nil, info: nil, flags: nil, issues: nil)
# => "<MyObject>"
A custom inspect formatter can be defined by implementing the interface defined by ObjectInspector::BaseFormatter. Then, either override the ObjectInspector::Configuration#formatter_class value (see Configuration) or just pass your custom class name into ObjectInspector::Inspector.new.
class MyCustomFormatter < ObjectInspector::BaseFormatter
def call
"[#{identification} Flags: #{flags} -- Info: #{info} -- Name: #{name}]"
end
end
class MyObject
include ObjectInspector::InspectorsHelper
def inspect
super(formatter: MyCustomFormatter,
identification: "IDENTIFICATION",
flags: "FLAG1 / FLAG2",
info: "INFO",
name: "NAME")
end
end
MyObject.new.inspect
# => "[IDENTIFICATION Flags: FLAG1 / FLAG2 -- Info: INFO -- Name: NAME]"
See examples:
Object Inspector works great with the Object Identifier gem.
class MyObject
include ObjectInspector::InspectorsHelper
def my_method1
1
end
def my_method2
2
end
private
def inspect_identification
identify(:my_method1, :my_method2)
end
def inspect_flags; "FLAG1 / FLAG2" end
def inspect_issues; "ISSUE1 | ISSUE2" end
def inspect_info; "INFO" end
def inspect_name; "NAME" end
end
MyObject.new.inspect
# => "<MyObject[my_method1:1, my_method2:2](FLAG1 / FLAG2) !!ISSUE1 | ISSUE2!! INFO :: NAME>"
ObjectInspetor is ~4x slower than Ruby's default inspect.
Performance of Object Inspector can be tested by playing the Object Inspector Benchmarking Script in the IRB console for this gem.
load "script/benchmarking/object_inspector.rb"
# Comparison:
# Ruby: 30382.2 i/s
# ObjectInspector::Inspector: 7712.2 i/s - 3.94x slower
ObjectInspector::TemplatingFormatter -- which is the default Formatter -- outperforms ObjectInspector::CombiningFormatter by about 30% on average.
Performance of Formatters can be tested by playing the Formatters Benchmarking Scripts in the IRB console for this gem.
load "script/benchmarking/formatters.rb"
# == Averaged =============================================================
# ...
#
# Comparison:
# ObjectInspector::TemplatingFormatter: 45725.3 i/s
# ObjectInspector::CombiningFormatter: 34973.9 i/s - 1.31x slower
#
# == Done
Custom Formatters may be similarly gauged for comparison by adding them to the custom_formatter_klasses
array before playing the script.
custom_formatter_klasses = [MyCustomFormatter]
play script/benchmarking/formatters.rb
# == Averaged =============================================================
# ...
#
# Comparison:
# MyCustomFormatter: 52001.2 i/s
# ObjectInspector::TemplatingFormatter: 49854.2 i/s - same-ish: difference falls within error
# ObjectInspector::CombiningFormatter: 38963.5 i/s - 1.33x slower
#
# == Done
After checking out the repo, run bin/setup
to install dependencies. Then, run rake test
to run the tests. Or, run rake
to run the tests plus linters as well as yard
(to confirm proper YARD documentation practices). You can also run bin/console
for an interactive prompt that will allow you to experiment.
To install this gem onto your local machine, run bundle exec rake install
.
To test this gem:
rake
rubocop
reek
npx prettier . --check
npx prettier . --write
To release a new version of this gem to RubyGems:
- Update the version number in
version.rb
- Update
CHANGELOG.md
- Run
bundle
to update Gemfile.lock with the latest version info - Commit the changes. e.g.
Bump to vX.Y.Z
- Run
rake release
, which will create a git tag for the version, push git commits and the created tag, and push the.gem
file to rubygems.org.
YARD documentation can be generated and viewed live:
- Install YARD:
gem install yard
- Run the YARD server:
yard server --reload
- Open the live documentation site:
open http://localhost:8808
While the YARD server is running, documentation in the live site will be auto-updated on source code save (and site reload).
Bug reports and pull requests are welcome on GitHub at https://github.com/pdobb/object_inspector.
The gem is available as open source under the terms of the MIT License.