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I wonder if there's a possibility to create a two dimensional array and to quickly access any horizontal or vertical sub array in it?

I believe we can access a horizontal sub array in the following case:

x = Array.new(10) { Array.new(20) }

x[6][3..8] = 'something'

But as far as I understand, we cannot access it like this:

x[3..8][6]

How can I avoid or hack this limit?

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9 Answers 9

up vote 53 down vote accepted

There are some problems with 2 dimensional Arrays the way you implement them.

a= [[1,2],[3,4]]
a[0][2]= 5 # works
a[2][0]= 6 # error

Hash as Array

I prefer to use Hashes for multi dimensional Arrays

a= Hash.new
a[[1,2]]= 23
a[[5,6]]= 42

This has the advantage, that you don't have to manually create collumns or rows. Inserting into hashes is almost O(1), so there is no drawback here, as long as your Hash does not become too big.

You can even set a default value for all not specified elements

a= Hash.new(0)

So now about how to get subarrays

(3..5).to_a.product([2]).collect { |index| a[index] }
[2].product((3..5).to_a).collect { |index| a[index] }

(a..b).to_a runs in O(n). Retrieving an element from an Hash is almost O(1), so the collect runs in almost O(n). There is now way to make it faster than O(n), as copying n elements always is O(n).

Hashes can have problems when they are getting too big. So I would think twice about implementing a multidimensional Array like this, if I knew my amount of data is getting big.

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1  
This is old but is a[2][0] an error because the 3rd element hasn't been created yet? Meaning a[1][0]=6 would work? I know this is old... just now looking at Ruby. –  vol7ron Jul 7 '11 at 11:48
    
I believe you are correct @vol7tron and a[1][0] = 6 does work. You can create the third row with a[2], but you cannot index into it until after you create it. E.g., a[2] = [] followed by a[2][0] = 6 will work. –  sage Jul 18 '11 at 20:50
    
What do you mean with [...] almost O(1) [...]? –  Ich Jan 15 at 14:38

You didn't state your actual goal, but maybe this can help:

require 'matrix'  # bundled with Ruby
m = Matrix[
 [1, 2, 3],
 [4, 5, 6]
]

m.column(0) # ==> Vector[1, 4]

(and Vectors acts like arrays)

or, using a similar notation as you desire:

m.minor(0..1, 2..2) # => Matrix[[3], [6]]
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If you need additional functionality or prefer to use the x[6][3..8] notation, you can always subclass Matrix and extend it. –  bta Jul 14 '10 at 20:47
2  
I started using Matrix after reading this answer, and it was great. However, there is a big limitation that is better to keep in mind before moving to Matrix - they are immutable. So, there is no way to modify a single element, i.e. m(0, 0) = 0 # => error –  Gregory Goltsov Sep 6 '12 at 16:15
1  
@GregoryGoltsov: +1 to Marc-André for writing Matrix. As for their immutability, I wouldn't call it a limitation, but rather a feature. Apparently, Marc-Anré is not only making life easier for himself, but also presenting matrices as a generalization of numbers. –  Boris Stitnicky Jun 10 '13 at 17:48
1  
@BorisStitnicky: For the record, the original author of the library is Keiju Ishitsuka, not me. I also really need to look into making matrices mutable for next version :-) –  Marc-André Lafortune Jun 10 '13 at 19:19
1  
@Marc-AndréLafortune: I came to appreciate immutability in my YPetri::Simulation class to such extent, that I even dup the inputs. Immutability of Matrix, that I use in it, comes handy. Please, if you make the matrices mutable, make sure that they are either a separate subclass (OpenMatrix for instance, like OpenStruct and Struct), or that user first has to do something like Matrix#open or #unlock or what. –  Boris Stitnicky Jun 11 '13 at 0:37
rows, cols = x,y  # your values
grid = Array.new(rows) { Array.new(cols) }

As for accessing elements, this article is pretty good for step by step way to encapsulate an array in the way you want:

How to ruby array

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Here's a 3D array case

class Array3D
   def initialize(d1,d2,d3)
    @data = Array.new(d1) { Array.new(d2) { Array.new(d3) } }
   end

  def [](x, y, z)
    @data[x][y][z]
  end

  def []=(x, y, z, value)
    @data[x][y][z] = value
  end
end

You can access subsections of each array just like any other Ruby array. @data[0..2][3..5][8..10] = 0 etc

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x.transpose[6][3..8] or x[3..8].map {|r| r [6]} would give what you want.

Example:

a = [ [1,  2,  3,  4,  5],
      [6,  7,  8,  9,  10],
      [11, 12, 13, 14, 15],
      [21, 22, 23, 24, 25]
    ]

#a[1..2][2]  -> [8,13]
puts a.transpose[2][1..2].inspect   # [8,13]
puts a[1..2].map {|r| r[2]}.inspect  # [8,13]
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Oh, Array inherited transpose? Great! –  gmile Nov 12 '09 at 10:21
1  
The problem with this is: transpose is O(n*m), but retrieving a subarray in one direction can be in O(n+m) –  johannes Nov 12 '09 at 11:34
    
using collect instead of map adds a bit of clarity here. –  glenn jackman Nov 12 '09 at 11:57
    
As I understood it, map and collect are the same. It's just which name you prefer for this task. –  johannes Nov 12 '09 at 12:03

Here is the simple version

 #one
 a = [[0]*10]*10

 #two
row, col = 10, 10
a = [[0]*row]*col
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the array created in this approach refers to the same 1 dimension array, i.e., changing one value will affect the others, e.g., a[0][0] = 1 will make a[1][0] becomes 1 too. –  Kevin C. Feb 18 at 14:46
a = Array.new(Array.new(4))

0.upto(a.length-1) do |i|
  0.upto(a.length-1) do |j|
    a[i[j]] = 1
  end
end

0.upto(a.length-1) do |i|
  0.upto(a.length-1) do |j|
    print a[i[j]] = 1 #It's not a[i][j], but a[i[j]]
  end
  puts "\n"
end
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I'm quite sure this can be very simple

2.0.0p247 :032 > list = Array.new(5)

 => [nil, nil, nil, nil, nil] 

2.0.0p247 :033 > list.map!{ |x| x = [0] }

 => [[0], [0], [0], [0], [0]] 

2.0.0p247 :034 > list[0][0]

  => 0
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Here is an easy way to create a "2D" array.

2.1.1 :004 > m=Array.new(3,Array.new(3,true))

=> [[true, true, true], [true, true, true], [true, true, true]]
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