123456789_123456789_123456789_123456789_123456789_

Class: Enumerator::Chain

Relationships & Source Files
Super Chains via Extension / Inclusion / Inheritance
Class Chain:
self, ::Enumerator
Instance Chain:
Inherits: Enumerator
Defined in: enumerator.c,
enumerator.c

Overview

Chain is a subclass of ::Enumerator, which represents a chain of enumerables that works as a single enumerator.

This type of objects can be created by Enumerable#chain and #+.

Class Method Summary

  • .new(*enums) ⇒ Enumerator constructor

    Generates a new enumerator object that iterates over the elements of given enumerable objects in sequence.

::Enumerator - Inherited

.new

Creates a new ::Enumerator object, which can be used as an ::Enumerable.

.produce

Creates an infinite enumerator from any block, just called over and over.

.product

Generates a new enumerator object that generates a Cartesian product of given enumerable objects.

Instance Method Summary

::Enumerator - Inherited

#+

Returns an enumerator object generated from this enumerator and a given enumerable.

#each

Iterates over the block according to how this ::Enumerator was constructed.

#each_with_index

Same as #with_index(0), i.e. there is no starting offset.

#each_with_object

Alias for #with_object.

#feed

Sets the value to be returned by the next yield inside e.

#inspect

Creates a printable version of e.

#next

Returns the next object in the enumerator, and move the internal position forward.

#next_values

Returns the next object as an array in the enumerator, and move the internal position forward.

#peek

Returns the next object in the enumerator, but doesn’t move the internal position forward.

#peek_values

Returns the next object as an array, similar to #next_values, but doesn’t move the internal position forward.

#rewind

Rewinds the enumeration sequence to the beginning.

#size

Returns the size of the enumerator, or nil if it can’t be calculated lazily.

#with_index

Iterates the given block for each element with an index, which starts from offset.

#with_object

Iterates the given block for each element with an arbitrary object, obj, and returns obj

#initialize_copy

::Enumerable - Included

#all?

Returns whether every element meets a given criterion.

#any?

Returns whether any element meets a given criterion.

#chain

Returns an enumerator object generated from this enumerator and given enumerables.

#chunk

Each element in the returned enumerator is a 2-element array consisting of:

#chunk_while

Creates an enumerator for each chunked elements.

#collect

Alias for Enumerable#map.

#collect_concat
#compact

Returns an array of all non-nil elements:

#count

Returns the count of elements, based on an argument or block criterion, if given.

#cycle

When called with positive integer argument n and a block, calls the block with each element, then does so again, until it has done so n times; returns nil:

#detect

Alias for Enumerable#find.

#drop

For positive integer n, returns an array containing all but the first n elements:

#drop_while

Calls the block with successive elements as long as the block returns a truthy value; returns an array of all elements after that point:

#each_cons

Calls the block with each successive overlapped n-tuple of elements; returns self:

#each_entry

Calls the given block with each element, converting multiple values from yield to an array; returns self:

#each_slice

Calls the block with each successive disjoint n-tuple of elements; returns self:

#each_with_index

With a block given, calls the block with each element and its index; returns self:

#each_with_object

Calls the block once for each element, passing both the element and the given object:

#entries

Alias for Enumerable#to_a.

#filter

Returns an array containing elements selected by the block.

#filter_map

Returns an array containing truthy elements returned by the block.

#find

Returns the first element for which the block returns a truthy value.

#find_all
#find_index

Returns the index of the first element that meets a specified criterion, or nil if no such element is found.

#first

Returns the first element or elements.

#flat_map

Returns an array of flattened objects returned by the block.

#grep

Returns an array of objects based elements of self that match the given pattern.

#grep_v

Returns an array of objects based on elements of self that don’t match the given pattern.

#group_by

With a block given returns a hash:

#include?
#inject

Returns an object formed from operands via either:

#lazy

Returns an Lazy, which redefines most ::Enumerable methods to postpone enumeration and enumerate values only on an as-needed basis.

#map

Returns an array of objects returned by the block.

#max

Returns the element with the maximum element according to a given criterion.

#max_by

Returns the elements for which the block returns the maximum values.

#member?

Returns whether for any element object == element:

#min

Returns the element with the minimum element according to a given criterion.

#min_by

Returns the elements for which the block returns the minimum values.

#minmax

Returns a 2-element array containing the minimum and maximum elements according to a given criterion.

#minmax_by

Returns a 2-element array containing the elements for which the block returns minimum and maximum values:

#none?

Returns whether no element meets a given criterion.

#one?

Returns whether exactly one element meets a given criterion.

#partition

With a block given, returns an array of two arrays:

#reduce
#reject

Returns an array of objects rejected by the block.

#reverse_each

With a block given, calls the block with each element, but in reverse order; returns self:

#select
#slice_after

Creates an enumerator for each chunked elements.

#slice_before

With argument pattern, returns an enumerator that uses the pattern to partition elements into arrays (“slices”).

#slice_when

Creates an enumerator for each chunked elements.

#sort

Returns an array containing the sorted elements of self.

#sort_by

With a block given, returns an array of elements of self, sorted according to the value returned by the block for each element.

#sum

With no block given, returns the sum of initial_value and the elements:

#take

For non-negative integer n, returns the first n elements:

#take_while

Calls the block with successive elements as long as the block returns a truthy value; returns an array of all elements up to that point:

#tally

Returns a hash containing the counts of equal elements:

#to_a

Returns an array containing the items in self:

#to_h

When self consists of 2-element arrays, returns a hash each of whose entries is the key-value pair formed from one of those arrays:

#to_set

Makes a set from the enumerable object with given arguments.

#uniq

With no block, returns a new array containing only unique elements; the array has no two elements e0 and e1 such that e0.eql?(e1):

#zip

With no block given, returns a new array new_array of size self.size whose elements are arrays.

Constructor Details

.new(*enums) ⇒ Enumerator

Generates a new enumerator object that iterates over the elements of given enumerable objects in sequence.

e = Enumerator::Chain.new(1..3, [4, 5])
e.to_a #=> [1, 2, 3, 4, 5]
e.size #=> 5
[ GitHub ]

  
# File 'enumerator.c', line 3174

static VALUE
enum_chain_initialize(VALUE obj, VALUE enums)
{
    struct enum_chain *ptr;

    rb_check_frozen(obj);
    TypedData_Get_Struct(obj, struct enum_chain, &enum_chain_data_type, ptr);

    if (!ptr) rb_raise(rb_eArgError, "unallocated chain");

    ptr->enums = rb_obj_freeze(enums);
    ptr->pos = -1;

    return obj;
}