class Struct

Class Struct provides a convenient way to create a simple class that can store and fetch values.

This example creates a subclass of Struct, Struct::Customer; the first argument, a string, is the name of the subclass; the other arguments, symbols, determine the members of the new subclass.

Customer = Struct.new('Customer', :name, :address, :zip)
Customer.name       # => "Struct::Customer"
Customer.class      # => Class
Customer.superclass # => Struct

Corresponding to each member are two methods, a writer and a reader, that store and fetch values:

methods = Customer.instance_methods false
methods # => [:zip, :address=, :zip=, :address, :name, :name=]

An instance of the subclass may be created, and its members assigned values, via method ::new:

joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe # => #<struct Struct::Customer name="Joe Smith", address="123 Maple, Anytown NC", zip=12345>

The member values may be managed thus:

joe.name    # => "Joe Smith"
joe.name = 'Joseph Smith'
joe.name    # => "Joseph Smith"

And thus; note that member name may be expressed as either a string or a symbol:

joe[:name]  # => "Joseph Smith"
joe[:name] = 'Joseph Smith, Jr.'
joe['name'] # => "Joseph Smith, Jr."

See Struct::new.

What’s Here

First, what’s elsewhere. Class Struct:

See also Data, which is a somewhat similar, but stricter concept for defining immutable value objects.

Here, class Struct provides methods that are useful for:

Methods for Creating a Struct Subclass

  • ::new: Returns a new subclass of Struct.

Methods for Querying

  • hash: Returns the integer hash code.

  • length, size: Returns the number of members.

Methods for Comparing

  • ==: Returns whether a given object is equal to self, using == to compare member values.

  • eql?: Returns whether a given object is equal to self, using eql? to compare member values.

Methods for Fetching

  • []: Returns the value associated with a given member name.

  • to_a, values, deconstruct: Returns the member values in self as an array.

  • deconstruct_keys: Returns a hash of the name/value pairs for given member names.

  • dig: Returns the object in nested objects that is specified by a given member name and additional arguments.

  • members: Returns an array of the member names.

  • select, filter: Returns an array of member values from self, as selected by the given block.

  • values_at: Returns an array containing values for given member names.

Methods for Assigning

  • []=: Assigns a given value to a given member name.

Methods for Iterating

  • each: Calls a given block with each member name.

  • each_pair: Calls a given block with each member name/value pair.

Methods for Converting

  • inspect, to_s: Returns a string representation of self.

  • to_h: Returns a hash of the member name/value pairs in self.

Public Class Methods

StructClass::keyword_init? → true or falsy value click to toggle source

Returns true if the class was initialized with keyword_init: true. Otherwise returns nil or false.

Examples:

Foo = Struct.new(:a)
Foo.keyword_init? # => nil
Bar = Struct.new(:a, keyword_init: true)
Bar.keyword_init? # => true
Baz = Struct.new(:a, keyword_init: false)
Baz.keyword_init? # => false
static VALUE
rb_struct_s_keyword_init_p(VALUE obj)
{
}
StructClass::members → array_of_symbols click to toggle source

Returns the member names of the Struct descendant as an array:

Customer = Struct.new(:name, :address, :zip)
Customer.members # => [:name, :address, :zip]
static VALUE
rb_struct_s_members_m(VALUE klass)
{
    VALUE members = rb_struct_s_members(klass);

    return rb_ary_dup(members);
}
new(*member_names, keyword_init: nil){|Struct_subclass| ... } → Struct_subclass click to toggle source
new(class_name, *member_names, keyword_init: nil){|Struct_subclass| ... } → Struct_subclass
new(*member_names) → Struct_subclass_instance
new(**member_names) → Struct_subclass_instance

Struct.new returns a new subclass of Struct. The new subclass:

  • May be anonymous, or may have the name given by class_name.

  • May have members as given by member_names.

  • May have initialization via ordinary arguments, or via keyword arguments

The new subclass has its own method ::new; thus:

Foo = Struct.new('Foo', :foo, :bar) # => Struct::Foo
f = Foo.new(0, 1)                   # => #<struct Struct::Foo foo=0, bar=1>

Class Name

With string argument class_name, returns a new subclass of Struct named Struct::class_name:

Foo = Struct.new('Foo', :foo, :bar) # => Struct::Foo
Foo.name                            # => "Struct::Foo"
Foo.superclass                      # => Struct

Without string argument class_name, returns a new anonymous subclass of Struct:

Struct.new(:foo, :bar).name # => nil

Block

With a block given, the created subclass is yielded to the block:

Customer = Struct.new('Customer', :name, :address) do |new_class|
  p "The new subclass is #{new_class}"
  def greeting
    "Hello #{name} at #{address}"
  end
end           # => Struct::Customer
dave = Customer.new('Dave', '123 Main')
dave # =>     #<struct Struct::Customer name="Dave", address="123 Main">
dave.greeting # => "Hello Dave at 123 Main"

Output, from Struct.new:

"The new subclass is Struct::Customer"

Member Names

Symbol arguments member_names determines the members of the new subclass:

Struct.new(:foo, :bar).members        # => [:foo, :bar]
Struct.new('Foo', :foo, :bar).members # => [:foo, :bar]

The new subclass has instance methods corresponding to member_names:

Foo = Struct.new('Foo', :foo, :bar)
Foo.instance_methods(false) # => [:foo, :bar, :foo=, :bar=]
f = Foo.new                 # => #<struct Struct::Foo foo=nil, bar=nil>
f.foo                       # => nil
f.foo = 0                   # => 0
f.bar                       # => nil
f.bar = 1                   # => 1
f                           # => #<struct Struct::Foo foo=0, bar=1>

Singleton Methods

A subclass returned by Struct.new has these singleton methods:

  • Method ::new creates an instance of the subclass:

    Foo.new          # => #<struct Struct::Foo foo=nil, bar=nil>
    Foo.new(0)       # => #<struct Struct::Foo foo=0, bar=nil>
    Foo.new(0, 1)    # => #<struct Struct::Foo foo=0, bar=1>
    Foo.new(0, 1, 2) # Raises ArgumentError: struct size differs
    
    # Initialization with keyword arguments:
    Foo.new(foo: 0)         # => #<struct Struct::Foo foo=0, bar=nil>
    Foo.new(foo: 0, bar: 1) # => #<struct Struct::Foo foo=0, bar=1>
    Foo.new(foo: 0, bar: 1, baz: 2)
    # Raises ArgumentError: unknown keywords: baz
    
  • Method :inspect returns a string representation of the subclass:

    Foo.inspect
    # => "Struct::Foo"
    
  • Method ::members returns an array of the member names:

    Foo.members # => [:foo, :bar]
    

Keyword Argument

By default, the arguments for initializing an instance of the new subclass can be both positional and keyword arguments.

Optional keyword argument keyword_init: allows to force only one type of arguments to be accepted:

KeywordsOnly = Struct.new(:foo, :bar, keyword_init: true)
KeywordsOnly.new(bar: 1, foo: 0)
# => #<struct KeywordsOnly foo=0, bar=1>
KeywordsOnly.new(0, 1)
# Raises ArgumentError: wrong number of arguments

PositionalOnly = Struct.new(:foo, :bar, keyword_init: false)
PositionalOnly.new(0, 1)
# => #<struct PositionalOnly foo=0, bar=1>
PositionalOnly.new(bar: 1, foo: 0)
# => #<struct PositionalOnly foo={:foo=>1, :bar=>2}, bar=nil>
# Note that no error is raised, but arguments treated as one hash value

# Same as not providing keyword_init:
Any = Struct.new(:foo, :bar, keyword_init: nil)
Any.new(foo: 1, bar: 2)
# => #<struct Any foo=1, bar=2>
Any.new(1, 2)
# => #<struct Any foo=1, bar=2>
static VALUE
rb_struct_s_def(int argc, VALUE *argv, VALUE klass)
{
    VALUE name = Qnil, rest, keyword_init = Qnil;
    long i;
    VALUE st;
    VALUE opt;

    argc = rb_scan_args(argc, argv, "0*:", NULL, &opt);
    if (argc >= 1 && !SYMBOL_P(argv[0])) {
        name = argv[0];
        --argc;
        ++argv;
    }

    if (!NIL_P(opt)) {
        static ID keyword_ids[1];

        if (!keyword_ids[0]) {
            keyword_ids[0] = rb_intern("keyword_init");
        }
        rb_get_kwargs(opt, keyword_ids, 0, 1, &keyword_init);
        if (UNDEF_P(keyword_init)) {
            keyword_init = Qnil;
        }
        else if (RTEST(keyword_init)) {
            keyword_init = Qtrue;
        }
    }

    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 struct 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);
    if (NIL_P(name)) {
        st = anonymous_struct(klass);
    }
    else {
        st = new_struct(name, klass);
    }
    setup_struct(st, rest);
    rb_ivar_set(st, id_keyword_init, keyword_init);
    if (rb_block_given_p()) {
        rb_mod_module_eval(0, 0, st);
    }

    return st;
}

Public Instance Methods

self == other → true or false click to toggle source

Returns true if and only if the following are true; otherwise returns false:

  • other.class == self.class.

  • For each member name name, other.name == self.name.

Examples:

Customer = Struct.new(:name, :address, :zip)
joe    = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe_jr = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe_jr == joe # => true
joe_jr[:name] = 'Joe Smith, Jr.'
# => "Joe Smith, Jr."
joe_jr == joe # => false
static VALUE
rb_struct_equal(VALUE s, VALUE s2)
{
    if (s == s2) return Qtrue;
    if (!RB_TYPE_P(s2, T_STRUCT)) return Qfalse;
    if (rb_obj_class(s) != rb_obj_class(s2)) return Qfalse;
    if (RSTRUCT_LEN(s) != RSTRUCT_LEN(s2)) {
        rb_bug("inconsistent struct"); /* should never happen */
    }

    return rb_exec_recursive_paired(recursive_equal, s, s2, s2);
}
struct[name] → object click to toggle source
struct[n] → object

Returns a value from self.

With symbol or string argument name given, returns the value for the named member:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe[:zip] # => 12345

Raises NameError if name is not the name of a member.

With integer argument n given, returns self.values[n] if n is in range; see Array Indexes at Array:

joe[2]  # => 12345
joe[-2] # => "123 Maple, Anytown NC"

Raises IndexError if n is out of range.

VALUE
rb_struct_aref(VALUE s, VALUE idx)
{
    int i = rb_struct_pos(s, &idx);
    if (i < 0) invalid_struct_pos(s, idx);
    return RSTRUCT_GET(s, i);
}
struct[name] = value → value click to toggle source
struct[n] = value → value

Assigns a value to a member.

With symbol or string argument name given, assigns the given value to the named member; returns value:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe[:zip] = 54321 # => 54321
joe # => #<struct Customer name="Joe Smith", address="123 Maple, Anytown NC", zip=54321>

Raises NameError if name is not the name of a member.

With integer argument n given, assigns the given value to the n-th member if n is in range; see Array Indexes at Array:

joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe[2] = 54321           # => 54321
joe[-3] = 'Joseph Smith' # => "Joseph Smith"
joe # => #<struct Customer name="Joseph Smith", address="123 Maple, Anytown NC", zip=54321>

Raises IndexError if n is out of range.

VALUE
rb_struct_aset(VALUE s, VALUE idx, VALUE val)
{
    int i = rb_struct_pos(s, &idx);
    if (i < 0) invalid_struct_pos(s, idx);
    rb_struct_modify(s);
    RSTRUCT_SET(s, i, val);
    return val;
}
deconstruct()

Returns the values in self as an array:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.to_a # => ["Joe Smith", "123 Maple, Anytown NC", 12345]

Related: members.

Alias for: to_a
deconstruct_keys(array_of_names) → hash click to toggle source

Returns a hash of the name/value pairs for the given member names.

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
h = joe.deconstruct_keys([:zip, :address])
h # => {:zip=>12345, :address=>"123 Maple, Anytown NC"}

Returns all names and values if array_of_names is nil:

h = joe.deconstruct_keys(nil)
h # => {:name=>"Joseph Smith, Jr.", :address=>"123 Maple, Anytown NC", :zip=>12345}
static VALUE
rb_struct_deconstruct_keys(VALUE s, VALUE keys)
{
    VALUE h;
    long i;

    if (NIL_P(keys)) {
        return rb_struct_to_h(s);
    }
    if (UNLIKELY(!RB_TYPE_P(keys, T_ARRAY))) {
        rb_raise(rb_eTypeError,
                 "wrong argument type %"PRIsVALUE" (expected Array or nil)",
                 rb_obj_class(keys));

    }
    if (RSTRUCT_LEN(s) < RARRAY_LEN(keys)) {
        return rb_hash_new_with_size(0);
    }
    h = rb_hash_new_with_size(RARRAY_LEN(keys));
    for (i=0; i<RARRAY_LEN(keys); i++) {
        VALUE key = RARRAY_AREF(keys, i);
        int i = rb_struct_pos(s, &key);
        if (i < 0) {
            return h;
        }
        rb_hash_aset(h, key, RSTRUCT_GET(s, i));
    }
    return h;
}
dig(name, *identifiers) → object click to toggle source
dig(n, *identifiers) → object

Finds and returns an object among nested objects. The nested objects may be instances of various classes. See Dig Methods.

Given symbol or string argument name, returns the object that is specified by name and identifiers:

Foo = Struct.new(:a)
f = Foo.new(Foo.new({b: [1, 2, 3]}))
f.dig(:a) # => #<struct Foo a={:b=>[1, 2, 3]}>
f.dig(:a, :a) # => {:b=>[1, 2, 3]}
f.dig(:a, :a, :b) # => [1, 2, 3]
f.dig(:a, :a, :b, 0) # => 1
f.dig(:b, 0) # => nil

Given integer argument n, returns the object that is specified by n and identifiers:

f.dig(0) # => #<struct Foo a={:b=>[1, 2, 3]}>
f.dig(0, 0) # => {:b=>[1, 2, 3]}
f.dig(0, 0, :b) # => [1, 2, 3]
f.dig(0, 0, :b, 0) # => 1
f.dig(:b, 0) # => nil
static VALUE
rb_struct_dig(int argc, VALUE *argv, VALUE self)
{
    rb_check_arity(argc, 1, UNLIMITED_ARGUMENTS);
    self = rb_struct_lookup(self, *argv);
    if (!--argc) return self;
    ++argv;
    return rb_obj_dig(argc, argv, self, Qnil);
}
each {|value| ... } → self click to toggle source
each → enumerator

Calls the given block with the value of each member; returns self:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.each {|value| p value }

Output:

"Joe Smith"
"123 Maple, Anytown NC"
12345

Returns an Enumerator if no block is given.

Related: each_pair.

static VALUE
rb_struct_each(VALUE s)
{
    long i;

    RETURN_SIZED_ENUMERATOR(s, 0, 0, struct_enum_size);
    for (i=0; i<RSTRUCT_LEN(s); i++) {
        rb_yield(RSTRUCT_GET(s, i));
    }
    return s;
}
each_pair {|(name, value)| ... } → self click to toggle source
each_pair → enumerator

Calls the given block with each member name/value pair; returns self:

Customer = Struct.new(:name, :address, :zip) # => Customer
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.each_pair {|(name, value)| p "#{name} => #{value}" }

Output:

"name => Joe Smith"
"address => 123 Maple, Anytown NC"
"zip => 12345"

Returns an Enumerator if no block is given.

Related: each.

static VALUE
rb_struct_each_pair(VALUE s)
{
    VALUE members;
    long i;

    RETURN_SIZED_ENUMERATOR(s, 0, 0, struct_enum_size);
    members = rb_struct_members(s);
    if (rb_block_pair_yield_optimizable()) {
        for (i=0; i<RSTRUCT_LEN(s); i++) {
            VALUE key = rb_ary_entry(members, i);
            VALUE value = RSTRUCT_GET(s, i);
            rb_yield_values(2, key, value);
        }
    }
    else {
        for (i=0; i<RSTRUCT_LEN(s); i++) {
            VALUE key = rb_ary_entry(members, i);
            VALUE value = RSTRUCT_GET(s, i);
            rb_yield(rb_assoc_new(key, value));
        }
    }
    return s;
}
eql?(other) → true or false click to toggle source

Returns true if and only if the following are true; otherwise returns false:

  • other.class == self.class.

  • For each member name name, other.name.eql?(self.name).

    Customer = Struct.new(:name, :address, :zip)
    joe    = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
    joe_jr = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
    joe_jr.eql?(joe) # => true
    joe_jr[:name] = 'Joe Smith, Jr.'
    joe_jr.eql?(joe) # => false
    

Related: Object#==.

static VALUE
rb_struct_eql(VALUE s, VALUE s2)
{
    if (s == s2) return Qtrue;
    if (!RB_TYPE_P(s2, T_STRUCT)) return Qfalse;
    if (rb_obj_class(s) != rb_obj_class(s2)) return Qfalse;
    if (RSTRUCT_LEN(s) != RSTRUCT_LEN(s2)) {
        rb_bug("inconsistent struct"); /* should never happen */
    }

    return rb_exec_recursive_paired(recursive_eql, s, s2, s2);
}
filter(*args)

With a block given, returns an array of values from self for which the block returns a truthy value:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
a = joe.select {|value| value.is_a?(String) }
a # => ["Joe Smith", "123 Maple, Anytown NC"]
a = joe.select {|value| value.is_a?(Integer) }
a # => [12345]

With no block given, returns an Enumerator.

Alias for: select
hash → integer click to toggle source

Returns the integer hash value for self.

Two structs of the same class and with the same content will have the same hash code (and will compare using Struct#eql?):

Customer = Struct.new(:name, :address, :zip)
joe    = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe_jr = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.hash == joe_jr.hash # => true
joe_jr[:name] = 'Joe Smith, Jr.'
joe.hash == joe_jr.hash # => false

Related: Object#hash.

static VALUE
rb_struct_hash(VALUE s)
{
    long i, len;
    st_index_t h;
    VALUE n;

    h = rb_hash_start(rb_hash(rb_obj_class(s)));
    len = RSTRUCT_LEN(s);
    for (i = 0; i < len; i++) {
        n = rb_hash(RSTRUCT_GET(s, i));
        h = rb_hash_uint(h, NUM2LONG(n));
    }
    h = rb_hash_end(h);
    return ST2FIX(h);
}
inspect → string click to toggle source

Returns a string representation of self:

Customer = Struct.new(:name, :address, :zip) # => Customer
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.inspect # => "#<struct Customer name=\"Joe Smith\", address=\"123 Maple, Anytown NC\", zip=12345>"
static VALUE
rb_struct_inspect(VALUE s)
{
    return rb_exec_recursive(inspect_struct, s, rb_str_new2("#<struct "));
}
Also aliased as: to_s
length()

Returns the number of members.

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.size #=> 3
Alias for: size
members → array_of_symbols click to toggle source

Returns the member names from self as an array:

Customer = Struct.new(:name, :address, :zip)
Customer.new.members # => [:name, :address, :zip]

Related: to_a.

static VALUE
rb_struct_members_m(VALUE obj)
{
    return rb_struct_s_members_m(rb_obj_class(obj));
}
select {|value| ... } → array click to toggle source
select → enumerator

With a block given, returns an array of values from self for which the block returns a truthy value:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
a = joe.select {|value| value.is_a?(String) }
a # => ["Joe Smith", "123 Maple, Anytown NC"]
a = joe.select {|value| value.is_a?(Integer) }
a # => [12345]

With no block given, returns an Enumerator.

static VALUE
rb_struct_select(int argc, VALUE *argv, VALUE s)
{
    VALUE result;
    long i;

    rb_check_arity(argc, 0, 0);
    RETURN_SIZED_ENUMERATOR(s, 0, 0, struct_enum_size);
    result = rb_ary_new();
    for (i = 0; i < RSTRUCT_LEN(s); i++) {
        if (RTEST(rb_yield(RSTRUCT_GET(s, i)))) {
            rb_ary_push(result, RSTRUCT_GET(s, i));
        }
    }

    return result;
}
Also aliased as: filter
size → integer click to toggle source

Returns the number of members.

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.size #=> 3
VALUE
rb_struct_size(VALUE s)
{
    return LONG2FIX(RSTRUCT_LEN(s));
}
Also aliased as: length
to_a → array click to toggle source

Returns the values in self as an array:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.to_a # => ["Joe Smith", "123 Maple, Anytown NC", 12345]

Related: members.

static VALUE
rb_struct_to_a(VALUE s)
{
    return rb_ary_new4(RSTRUCT_LEN(s), RSTRUCT_CONST_PTR(s));
}
Also aliased as: values, deconstruct
to_h → hash click to toggle source
to_h {|name, value| ... } → hash

Returns a hash containing the name and value for each member:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
h = joe.to_h
h # => {:name=>"Joe Smith", :address=>"123 Maple, Anytown NC", :zip=>12345}

If a block is given, it is called with each name/value pair; the block should return a 2-element array whose elements will become a key/value pair in the returned hash:

h = joe.to_h{|name, value| [name.upcase, value.to_s.upcase]}
h # => {:NAME=>"JOE SMITH", :ADDRESS=>"123 MAPLE, ANYTOWN NC", :ZIP=>"12345"}

Raises ArgumentError if the block returns an inappropriate value.

static VALUE
rb_struct_to_h(VALUE s)
{
    VALUE h = rb_hash_new_with_size(RSTRUCT_LEN(s));
    VALUE members = rb_struct_members(s);
    long i;
    int block_given = rb_block_given_p();

    for (i=0; i<RSTRUCT_LEN(s); i++) {
        VALUE k = rb_ary_entry(members, i), v = RSTRUCT_GET(s, i);
        if (block_given)
            rb_hash_set_pair(h, rb_yield_values(2, k, v));
        else
            rb_hash_aset(h, k, v);
    }
    return h;
}
to_s()

Returns a string representation of self:

Customer = Struct.new(:name, :address, :zip) # => Customer
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.inspect # => "#<struct Customer name=\"Joe Smith\", address=\"123 Maple, Anytown NC\", zip=12345>"
Alias for: inspect
values()

Returns the values in self as an array:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.to_a # => ["Joe Smith", "123 Maple, Anytown NC", 12345]

Related: members.

Alias for: to_a
values_at(*integers) → array click to toggle source
values_at(integer_range) → array

Returns an array of values from self.

With integer arguments integers given, returns an array containing each value given by one of integers:

Customer = Struct.new(:name, :address, :zip)
joe = Customer.new("Joe Smith", "123 Maple, Anytown NC", 12345)
joe.values_at(0, 2)    # => ["Joe Smith", 12345]
joe.values_at(2, 0)    # => [12345, "Joe Smith"]
joe.values_at(2, 1, 0) # => [12345, "123 Maple, Anytown NC", "Joe Smith"]
joe.values_at(0, -3)   # => ["Joe Smith", "Joe Smith"]

Raises IndexError if any of integers is out of range; see Array Indexes at Array.

With integer range argument integer_range given, returns an array containing each value given by the elements of the range; fills with nil values for range elements larger than the structure:

joe.values_at(0..2)
# => ["Joe Smith", "123 Maple, Anytown NC", 12345]
joe.values_at(-3..-1)
# => ["Joe Smith", "123 Maple, Anytown NC", 12345]
joe.values_at(1..4) # => ["123 Maple, Anytown NC", 12345, nil, nil]

Raises RangeError if any element of the range is negative and out of range; see Array Indexes at Array.

static VALUE
rb_struct_values_at(int argc, VALUE *argv, VALUE s)
{
    return rb_get_values_at(s, RSTRUCT_LEN(s), argc, argv, struct_entry);
}