class Data
Class Data provides a convenient way to define simple classes for value-alike objects.
The simplest example of usage:
Measure = Data.define(:amount, :unit) # Positional arguments constructor is provided distance = Measure.new(100, 'km') #=> #<data Measure amount=100, unit="km"> # Keyword arguments constructor is provided weight = Measure.new(amount: 50, unit: 'kg') #=> #<data Measure amount=50, unit="kg"> # Alternative form to construct an object: speed = Measure[10, 'mPh'] #=> #<data Measure amount=10, unit="mPh"> # Works with keyword arguments, too: area = Measure[amount: 1.5, unit: 'm^2'] #=> #<data Measure amount=1.5, unit="m^2"> # Argument accessors are provided: distance.amount #=> 100 distance.unit #=> "km"
Constructed object also has a reasonable definitions of ==
operator, to_h
hash conversion, and deconstruct
/ deconstruct_keys
to be used in pattern matching.
::define
method accepts an optional block and evaluates it in the context of the newly defined class. That allows to define additional methods:
Measure = Data.define(:amount, :unit) do def <=>(other) return unless other.is_a?(self.class) && other.unit == unit amount <=> other.amount end include Comparable end Measure[3, 'm'] < Measure[5, 'm'] #=> true Measure[3, 'm'] < Measure[5, 'kg'] # comparison of Measure with Measure failed (ArgumentError)
Data
provides no member writers, or enumerators: it is meant to be a storage for immutable atomic values. But note that if some of data members is of a mutable class, Data
does no additional immutability enforcement:
Event = Data.define(:time, :weekdays) event = Event.new('18:00', %w[Tue Wed Fri]) #=> #<data Event time="18:00", weekdays=["Tue", "Wed", "Fri"]> # There is no #time= or #weekdays= accessors, but changes are # still possible: event.weekdays << 'Sat' event #=> #<data Event time="18:00", weekdays=["Tue", "Wed", "Fri", "Sat"]>
See also Struct
, which is a similar concept, but has more container-alike API, allowing to change contents of the object and enumerate it.
Public Class Methods
Defines a new Data class.
measure = Data.define(:amount, :unit) #=> #<Class:0x00007f70c6868498> measure.new(1, 'km') #=> #<data amount=1, unit="km"> # It you store the new class in the constant, it will # affect #inspect and will be more natural to use: Measure = Data.define(:amount, :unit) #=> Measure Measure.new(1, 'km') #=> #<data Measure amount=1, unit="km">
Note that member-less Data is acceptable and might be a useful technique for defining several homogeneous data classes, like
class HTTPFetcher Response = Data.define(:body) NotFound = Data.define # ... implementation end
Now, different kinds of responses from HTTPFetcher
would have consistent representation:
#<data HTTPFetcher::Response body="<html..."> #<data HTTPFetcher::NotFound>
And are convenient to use in pattern matching:
case fetcher.get(url) in HTTPFetcher::Response(body) # process body variable in HTTPFetcher::NotFound # handle not found case end
static VALUE rb_data_s_def(int argc, VALUE *argv, VALUE klass) { VALUE rest; long i; VALUE data_class; rest = rb_ident_hash_new(); RBASIC_CLEAR_CLASS(rest); for (i=0; i<argc; i++) { VALUE mem = rb_to_symbol(argv[i]); if (rb_is_attrset_sym(mem)) { rb_raise(rb_eArgError, "invalid data member: %"PRIsVALUE, mem); } if (RTEST(rb_hash_has_key(rest, mem))) { rb_raise(rb_eArgError, "duplicate member: %"PRIsVALUE, mem); } rb_hash_aset(rest, mem, Qtrue); } rest = rb_hash_keys(rest); RBASIC_CLEAR_CLASS(rest); OBJ_FREEZE(rest); data_class = anonymous_struct(klass); setup_data(data_class, rest); if (rb_block_given_p()) { rb_mod_module_eval(0, 0, data_class); } return data_class; }
Returns an array of member names of the data class:
Measure = Data.define(:amount, :unit) Measure.members # => [:amount, :unit]
#define rb_data_s_members_m rb_struct_s_members_m
Constructors for classes defined with ::define
accept both positional and keyword arguments.
Measure = Data.define(:amount, :unit) Measure.new(1, 'km') #=> #<data Measure amount=1, unit="km"> Measure.new(amount: 1, unit: 'km') #=> #<data Measure amount=1, unit="km"> # Alternative shorter initialization with [] Measure[1, 'km'] #=> #<data Measure amount=1, unit="km"> Measure[amount: 1, unit: 'km'] #=> #<data Measure amount=1, unit="km">
All arguments are mandatory (unlike Struct
), and converted to keyword arguments:
Measure.new(amount: 1) # in `initialize': missing keyword: :unit (ArgumentError) Measure.new(1) # in `initialize': missing keyword: :unit (ArgumentError)
Note that Measure#initialize
always receives keyword arguments, and that mandatory arguments are checked in initialize
, not in new
. This can be important for redefining initialize in order to convert arguments or provide defaults:
Measure = Data.define(:amount, :unit) do NONE = Data.define def initialize(amount:, unit: NONE.new) super(amount: Float(amount), unit:) end end Measure.new('10', 'km') # => #<data Measure amount=10.0, unit="km"> Measure.new(10_000) # => #<data Measure amount=10000.0, unit=#<data NONE>>
static VALUE rb_data_initialize_m(int argc, const VALUE *argv, VALUE self) { VALUE klass = rb_obj_class(self); rb_struct_modify(self); VALUE members = struct_ivar_get(klass, id_members); size_t num_members = RARRAY_LEN(members); if (argc == 0) { if (num_members > 0) { rb_exc_raise(rb_keyword_error_new("missing", members)); } return Qnil; } if (argc > 1 || !RB_TYPE_P(argv[0], T_HASH)) { rb_error_arity(argc, 0, 0); } if (RHASH_SIZE(argv[0]) < num_members) { VALUE missing = rb_ary_diff(members, rb_hash_keys(argv[0])); rb_exc_raise(rb_keyword_error_new("missing", missing)); } struct struct_hash_set_arg arg; rb_mem_clear((VALUE *)RSTRUCT_CONST_PTR(self), num_members); arg.self = self; arg.unknown_keywords = Qnil; rb_hash_foreach(argv[0], struct_hash_set_i, (VALUE)&arg); // Freeze early before potentially raising, so that we don't leave an // unfrozen copy on the heap, which could get exposed via ObjectSpace. OBJ_FREEZE(self); if (arg.unknown_keywords != Qnil) { rb_exc_raise(rb_keyword_error_new("unknown", arg.unknown_keywords)); } return Qnil; }
Public Instance Methods
Returns true
if other
is the same class as self
, and all members are equal.
Examples:
Measure = Data.define(:amount, :unit) Measure[1, 'km'] == Measure[1, 'km'] #=> true Measure[1, 'km'] == Measure[2, 'km'] #=> false Measure[1, 'km'] == Measure[1, 'm'] #=> false Measurement = Data.define(:amount, :unit) # Even though Measurement and Measure have the same "shape" # their instances are never equal Measure[1, 'km'] == Measurement[1, 'km'] #=> false
#define rb_data_equal rb_struct_equal
Returns the values in self
as an array, to use in pattern matching:
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] distance.deconstruct #=> [10, "km"] # usage case distance in n, 'km' # calls #deconstruct underneath puts "It is #{n} kilometers away" else puts "Don't know how to handle it" end # prints "It is 10 kilometers away"
Or, with checking the class, too:
case distance in Measure(n, 'km') puts "It is #{n} kilometers away" # ... end
#define rb_data_deconstruct rb_struct_to_a
Returns a hash of the name/value pairs, to use in pattern matching.
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] distance.deconstruct_keys(nil) #=> {:amount=>10, :unit=>"km"} distance.deconstruct_keys([:amount]) #=> {:amount=>10} # usage case distance in amount:, unit: 'km' # calls #deconstruct_keys underneath puts "It is #{amount} kilometers away" else puts "Don't know how to handle it" end # prints "It is 10 kilometers away"
Or, with checking the class, too:
case distance in Measure(amount:, unit: 'km') puts "It is #{amount} kilometers away" # ... end
#define rb_data_deconstruct_keys rb_struct_deconstruct_keys
Equality check that is used when two items of data are keys of a Hash
.
The subtle difference with ==
is that members are also compared with their eql?
method, which might be important in some cases:
Measure = Data.define(:amount, :unit) Measure[1, 'km'] == Measure[1.0, 'km'] #=> true, they are equal as values # ...but... Measure[1, 'km'].eql? Measure[1.0, 'km'] #=> false, they represent different hash keys
See also Object#eql?
for further explanations of the method usage.
#define rb_data_eql rb_struct_eql
Redefines Object#hash
(used to distinguish objects as Hash
keys) so that data objects of the same class with same content would have the same hash
value, and represented the same Hash
key.
Measure = Data.define(:amount, :unit) Measure[1, 'km'].hash == Measure[1, 'km'].hash #=> true Measure[1, 'km'].hash == Measure[10, 'km'].hash #=> false Measure[1, 'km'].hash == Measure[1, 'm'].hash #=> false Measure[1, 'km'].hash == Measure[1.0, 'km'].hash #=> false # Structurally similar data class, but shouldn't be considered # the same hash key Measurement = Data.define(:amount, :unit) Measure[1, 'km'].hash == Measurement[1, 'km'].hash #=> false
#define rb_data_hash rb_struct_hash
Returns a string representation of self
:
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] p distance # uses #inspect underneath #<data Measure amount=10, unit="km"> puts distance # uses #to_s underneath, same representation #<data Measure amount=10, unit="km">
static VALUE rb_data_inspect(VALUE s) { return rb_exec_recursive(inspect_struct, s, rb_str_new2("#<data ")); }
Returns the member names from self
as an array:
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] distance.members #=> [:amount, :unit]
#define rb_data_members_m rb_struct_members_m
Returns Hash
representation of the data object.
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] distance.to_h #=> {:amount=>10, :unit=>"km"}
Like Enumerable#to_h
, if the block is provided, it is expected to produce key-value pairs to construct a hash:
distance.to_h { |name, val| [name.to_s, val.to_s] } #=> {"amount"=>"10", "unit"=>"km"}
Note that there is a useful symmetry between to_h
and initialize:
distance2 = Measure.new(**distance.to_h) #=> #<data Measure amount=10, unit="km"> distance2 == distance #=> true
#define rb_data_to_h rb_struct_to_h
Returns a string representation of self
:
Measure = Data.define(:amount, :unit) distance = Measure[10, 'km'] p distance # uses #inspect underneath #<data Measure amount=10, unit="km"> puts distance # uses #to_s underneath, same representation #<data Measure amount=10, unit="km">
Returns a shallow copy of self
— the instance variables of self
are copied, but not the objects they reference.
If the method is supplied any keyword arguments, the copy will be created with the respective field values updated to use the supplied keyword argument values. Note that it is an error to supply a keyword that the Data
class does not have as a member.
Point = Data.define(:x, :y) origin = Point.new(x: 0, y: 0) up = origin.with(x: 1) right = origin.with(y: 1) up_and_right = up.with(y: 1) p origin # #<data Point x=0, y=0> p up # #<data Point x=1, y=0> p right # #<data Point x=0, y=1> p up_and_right # #<data Point x=1, y=1> out = origin.with(z: 1) # ArgumentError: unknown keyword: :z some_point = origin.with(1, 2) # ArgumentError: expected keyword arguments, got positional arguments
static VALUE rb_data_with(int argc, const VALUE *argv, VALUE self) { VALUE kwargs; rb_scan_args(argc, argv, "0:", &kwargs); if (NIL_P(kwargs)) { return self; } VALUE h = rb_struct_to_h(self); rb_hash_update_by(h, kwargs, 0); return rb_class_new_instance_kw(1, &h, rb_obj_class(self), TRUE); }