Could not find a previous post that answers my question...I'm learning how to use destructive vs. non-destructive methods in Ruby. I found an answer to the exercise I'm working on (destructively adding a number to hash values), but I want to be clear on why some earlier solutions of mine did not work. Here's the answer that works:
def modify_a_hash(the_hash, number_to_add_to_each_value)
the_hash.each { |k, v| the_hash[k] = v + number_to_add_to_each_value}
end
These two solutions come back as non-destructive (since they all use "each" I cannot figure out why. To make something destructive is it the equals sign above that does the trick?):
def modify_a_hash(the_hash, number_to_add_to_each_value)
the_hash.each_value { |v| v + number_to_add_to_each_value}
end
def modify_a_hash(the_hash, number_to_add_to_each_value)
the_hash.each { |k, v| v + number_to_add_to_each_value}
end
The terms "destructive" and "non-destructive" are a bit misleading here. Better is to use the conventional "in-place modification" vs. "returns a copy" terminology.
Generally methods that modify in-place have ! at the end of their name to serve as a warning, like gsub! for String. Some methods that pre-date this convention do not have them, like push for Array.
The = performs an assignment within the loop. Your other examples don't actually do anything useful since each returns the original object being iterated over regardless of any results produced.
If you wanted to return a copy you'd do this:
def modify_a_hash(the_hash, number_to_add)
Hash[
the_hash.collect do |k, v|
[ k, v + number_to_add ]
end
]
end
That would return a copy. The inner operation collect transforms key-value pairs into new key-value pairs with the adjustment applied. No = is required since there's no assignment.
The outer method Hash[] transforms those key-value pairs into a proper Hash object. This is then returned and is independent of the original.
Generally a non-destructive or "return a copy" method needs to create a new, independent version of the thing it's manipulating for the purpose of storing the results. This applies to String, Array, Hash, or any other class or container you might be working with.
Maybe this slightly different example will be helpful.
We have a hash:
2.0.0-p481 :014 > hash
=> {1=>"ann", 2=>"mary", 3=>"silvia"}
Then we iterate over it and change all the letters to the uppercase:
2.0.0-p481 :015 > hash.each { |key, value| value.upcase! }
=> {1=>"ANN", 2=>"MARY", 3=>"SILVIA"}
The original hash has changed because we used upcase! method.
Compare to method without ! sign, that doesn't modify hash values:
2.0.0-p481 :017 > hash.each { |key, value| value.downcase }
=> {1=>"ANN", 2=>"MARY", 3=>"SILVIA"}
I am new to ruby and don't have much experience with hashes, I have a variable named tweets and it is a hash as such:
{"statuses"=>[{"metadata"=>{"result_type"=>"recent", "iso_language_code"=>"tl"}, "lang"=>"tl"}]}
I would like to save the array of information as a separate variable in an array. How would I go about this?
Hash's have 2 very nice methods,
hash.values
hash.keys
in your case -
h = {"statuses"=>[{"metadata"=>{"result_type"=>"recent", "iso_language_code"=>"tl"}, "lang"=>"tl"}]}
p h.values
p.keys
These output arrays of each type. This might be what you want.
Also, this question will very well be closed. 1 Google search reported several Hash to Array SO questions.
Ruby Hash to array of values
Converting Ruby hashes to arrays
If you have a Hash like so:
hash = {:numbers => [1,2,3,4]}
And you need to capture the array into a new variable. You can just access the key and assign it to a new variable like so:
one_to_five = hash[:numbers]
However, note that the new variable actually holds the array that is in the hash. So altering the hash's array alters the new variable's array.
hash[:numbers] << 6
puts one_to_five #=> [1,2,3,4,5,6]
If you use dup, it will create a copy of the array so it will be two separate arrays.
one_to_five = hash[:numbers].dup
hash[:numbers] << 6
puts one_to_five #=> [1,2,3,4,5]
So, in your case:
hash = {'statuses' => [{"metadata"=>{"result_type"=>"recent", "iso_language_code"=>"tl"}, "lang"=>"tl"}]}
new_array = hash['statuses'].dup
However, it would be interesting to see what it is you are wishing to accomplish with your code, or at least get a little more context, because this may not be the best approach for your final goal. There are a great many things you can do with Arrays and Hashes (and Enumerable) and I would encourage you to read through the documentation on them.
Is the order of the values returned by Ruby's Hash::each_value{ |val| block } somehow defined? I.e. for a given hash is the order of values in the iterations of the loop always* the same?
I wonder if it is so, as the key-value pairs of hashes are not sorted unlike the values of an array.
Given the following example:
myhash = { :a => 100, :b => 200, :z => 9, :e => 101 }
myhash.each_value { |val|
puts val
}
Does Ruby ensure it always* prints
100
200
9
101
Bonus question in case it is defined:
What are the prerequisites that the order is defined? Does it only apply for hard-coded hashes as the example?
[*]: "always" should be read as 'on each execution and on any system with a working Ruby 1.9+'.
In Ruby 1.8, Hashes are not ordered and the values will be returned in an arbitrary order that you cannot depend upon. In Ruby 1.9, Hashes are ordered based on the time the keys were inserted (first insertion positioned first, etc...).
You specified in a footnote that "'always' should be read as 'on each execution and on any system with a working Ruby 1.9+'.". By that definition of "always", the answer is "yes" ;)
From the Ruby 1.8.7 Hash docs:
The order in which you traverse a hash by either key or value may seem
arbitrary, and will generally not be in the insertion order.
From the Ruby 1.9.3 Hash docs:
Hashes enumerate their values in the order that the corresponding keys were inserted.
In Ruby 1.9 the order is insertion order.
Some info from ~three years ago when this was news:
YCombinator discussed a possible usecase
And some internals info
I want to iterate through a part of an array. For example, I try to print every element except the first one:
array[1..-1].each {|e| puts e}
But array[1..-1] builds a new Array. It's wasteful if array is very huge. Another straightforward approach:
(1...array.size).each { |i| puts array[i] }
It works. But I wonder if there are some more elegant tricks.
Ruby 2.0 will ship Lazy enumerables (fantastic news!), for now we can warm up the engines using gems like enumerable-lazy:
require 'enumerable/lazy'
xs.lazy.drop(1).each { |x| puts x }
That's not bad, but conceptually it doesn't exactly apply to your case, since you already have an array, not a lazy object (a linked list) that you must traverse to discard elements (ok, we are just discarding one element here, it wouldn't be a deal-breaker). So you could just abstract your solution (that one using a range) as Enumerable#each_from(start_index) if you plan to use it a lot.
More: you could also create an extension to enumerable-lazy Array#lazy_slice(range), which would return a Enumerable#lazy object. It also looks pretty good: xs.lazy_slice(1..-1).each { |x| puts x }
array.each_with_index {|x, i| puts x unless i.eql?0}
PHP, for all its warts, is pretty good on this count. There's no difference between an array and a hash (maybe I'm naive, but this seems obviously right to me), and to iterate through either you just do
foreach (array/hash as $key => $value)
In Ruby there are a bunch of ways to do this sort of thing:
array.length.times do |i|
end
array.each
array.each_index
for i in array
Hashes make more sense, since I just always use
hash.each do |key, value|
Why can't I do this for arrays? If I want to remember just one method, I guess I can use each_index (since it makes both the index and value available), but it's annoying to have to do array[index] instead of just value.
Oh right, I forgot about array.each_with_index. However, this one sucks because it goes |value, key| and hash.each goes |key, value|! Is this not insane?
This will iterate through all the elements:
array = [1, 2, 3, 4, 5, 6]
array.each { |x| puts x }
# Output:
1
2
3
4
5
6
This will iterate through all the elements giving you the value and the index:
array = ["A", "B", "C"]
array.each_with_index {|val, index| puts "#{val} => #{index}" }
# Output:
A => 0
B => 1
C => 2
I'm not quite sure from your question which one you are looking for.
I think there is no one right way. There are a lot of different ways to iterate, and each has its own niche.
each is sufficient for many usages, since I don't often care about the indexes.
each_ with _index acts like Hash#each - you get the value and the index.
each_index - just the indexes. I don't use this one often. Equivalent to "length.times".
map is another way to iterate, useful when you want to transform one array into another.
select is the iterator to use when you want to choose a subset.
inject is useful for generating sums or products, or collecting a single result.
It may seem like a lot to remember, but don't worry, you can get by without knowing all of them. But as you start to learn and use the different methods, your code will become cleaner and clearer, and you'll be on your way to Ruby mastery.
I'm not saying that Array -> |value,index| and Hash -> |key,value| is not insane (see Horace Loeb's comment), but I am saying that there is a sane way to expect this arrangement.
When I am dealing with arrays, I am focused on the elements in the array (not the index because the index is transitory). The method is each with index, i.e. each+index, or |each,index|, or |value,index|. This is also consistent with the index being viewed as an optional argument, e.g. |value| is equivalent to |value,index=nil| which is consistent with |value,index|.
When I am dealing with hashes, I am often more focused on the keys than the values, and I am usually dealing with keys and values in that order, either key => value or hash[key] = value.
If you want duck-typing, then either explicitly use a defined method as Brent Longborough showed, or an implicit method as maxhawkins showed.
Ruby is all about accommodating the language to suit the programmer, not about the programmer accommodating to suit the language. This is why there are so many ways. There are so many ways to think about something. In Ruby, you choose the closest and the rest of the code usually falls out extremely neatly and concisely.
As for the original question, "What is the “right” way to iterate through an array in Ruby?", well, I think the core way (i.e. without powerful syntactic sugar or object oriented power) is to do:
for index in 0 ... array.size
puts "array[#{index}] = #{array[index].inspect}"
end
But Ruby is all about powerful syntactic sugar and object oriented power, but anyway here is the equivalent for hashes, and the keys can be ordered or not:
for key in hash.keys.sort
puts "hash[#{key.inspect}] = #{hash[key].inspect}"
end
So, my answer is, "The “right” way to iterate through an array in Ruby depends on you (i.e. the programmer or the programming team) and the project.". The better Ruby programmer makes the better choice (of which syntactic power and/or which object oriented approach). The better Ruby programmer continues to look for more ways.
Now, I want to ask another question, "What is the “right” way to iterate through a Range in Ruby backwards?"! (This question is how I came to this page.)
It is nice to do (for the forwards):
(1..10).each{|i| puts "i=#{i}" }
but I don't like to do (for the backwards):
(1..10).to_a.reverse.each{|i| puts "i=#{i}" }
Well, I don't actually mind doing that too much, but when I am teaching going backwards, I want to show my students a nice symmetry (i.e. with minimal difference, e.g. only adding a reverse, or a step -1, but without modifying anything else).
You can do (for symmetry):
(a=*1..10).each{|i| puts "i=#{i}" }
and
(a=*1..10).reverse.each{|i| puts "i=#{i}" }
which I don't like much, but you can't do
(*1..10).each{|i| puts "i=#{i}" }
(*1..10).reverse.each{|i| puts "i=#{i}" }
#
(1..10).step(1){|i| puts "i=#{i}" }
(1..10).step(-1){|i| puts "i=#{i}" }
#
(1..10).each{|i| puts "i=#{i}" }
(10..1).each{|i| puts "i=#{i}" } # I don't want this though. It's dangerous
You could ultimately do
class Range
def each_reverse(&block)
self.to_a.reverse.each(&block)
end
end
but I want to teach pure Ruby rather than object oriented approaches (just yet). I would like to iterate backwards:
without creating an array (consider 0..1000000000)
working for any Range (e.g. Strings, not just Integers)
without using any extra object oriented power (i.e. no class modification)
I believe this is impossible without defining a pred method, which means modifying the Range class to use it. If you can do this please let me know, otherwise confirmation of impossibility would be appreciated though it would be disappointing. Perhaps Ruby 1.9 addresses this.
(Thanks for your time in reading this.)
Use each_with_index when you need both.
ary.each_with_index { |val, idx| # ...
The other answers are just fine, but I wanted to point out one other peripheral thing: Arrays are ordered, whereas Hashes are not in 1.8. (In Ruby 1.9, Hashes are ordered by insertion order of keys.) So it wouldn't make sense prior to 1.9 to iterate over a Hash in the same way/sequence as Arrays, which have always had a definite ordering. I don't know what the default order is for PHP associative arrays (apparently my google fu isn't strong enough to figure that out, either), but I don't know how you can consider regular PHP arrays and PHP associative arrays to be "the same" in this context, since the order for associative arrays seems undefined.
As such, the Ruby way seems more clear and intuitive to me. :)
Here are the four options listed in your question, arranged by freedom of control. You might want to use a different one depending on what you need.
Simply go through values:
array.each
Simply go through indices:
array.each_index
Go through indices + index variable:
for i in array
Control loop count + index variable:
array.length.times do | i |
Trying to do the same thing consistently with arrays and hashes might just be a code smell, but, at the risk of my being branded as a codorous half-monkey-patcher, if you're looking for consistent behaviour, would this do the trick?:
class Hash
def each_pairwise
self.each { | x, y |
yield [x, y]
}
end
end
class Array
def each_pairwise
self.each_with_index { | x, y |
yield [y, x]
}
end
end
["a","b","c"].each_pairwise { |x,y|
puts "#{x} => #{y}"
}
{"a" => "Aardvark","b" => "Bogle","c" => "Catastrophe"}.each_pairwise { |x,y|
puts "#{x} => #{y}"
}
I'd been trying to build a menu (in Camping and Markaby) using a hash.
Each item has 2 elements: a menu label and a URL, so a hash seemed right, but the '/' URL for 'Home' always appeared last (as you'd expect for a hash), so menu items appeared in the wrong order.
Using an array with each_slice does the job:
['Home', '/', 'Page two', 'two', 'Test', 'test'].each_slice(2) do|label,link|
li {a label, :href => link}
end
Adding extra values for each menu item (e.g. like a CSS ID name) just means increasing the slice value. So, like a hash but with groups consisting of any number of items. Perfect.
So this is just to say thanks for inadvertently hinting at a solution!
Obvious, but worth stating: I suggest checking if the length of the array is divisible by the slice value.
If you use the enumerable mixin (as Rails does) you can do something similar to the php snippet listed. Just use the each_slice method and flatten the hash.
require 'enumerator'
['a',1,'b',2].to_a.flatten.each_slice(2) {|x,y| puts "#{x} => #{y}" }
# is equivalent to...
{'a'=>1,'b'=>2}.to_a.flatten.each_slice(2) {|x,y| puts "#{x} => #{y}" }
Less monkey-patching required.
However, this does cause problems when you have a recursive array or a hash with array values. In ruby 1.9 this problem is solved with a parameter to the flatten method that specifies how deep to recurse.
# Ruby 1.8
[1,2,[1,2,3]].flatten
=> [1,2,1,2,3]
# Ruby 1.9
[1,2,[1,2,3]].flatten(0)
=> [1,2,[1,2,3]]
As for the question of whether this is a code smell, I'm not sure. Usually when I have to bend over backwards to iterate over something I step back and realize I'm attacking the problem wrong.
In Ruby 2.1, each_with_index method is removed.
Instead you can use each_index
Example:
a = [ "a", "b", "c" ]
a.each_index {|x| print x, " -- " }
produces:
0 -- 1 -- 2 --
The right way is the one you feel most comfortable with and which does what you want it to do. In programming there is rarely one 'correct' way to do things, more often there are multiple ways to choose.
If you are comfortable with certain way of doings things, do just it, unless it doesn't work - then it is time to find better way.
Using the same method for iterating through both arrays and hashes makes sense, for example to process nested hash-and-array structures often resulting from parsers, from reading JSON files etc..
One clever way that has not yet been mentioned is how it's done in the Ruby Facets library of standard library extensions. From here:
class Array
# Iterate over index and value. The intention of this
# method is to provide polymorphism with Hash.
#
def each_pair #:yield:
each_with_index {|e, i| yield(i,e) }
end
end
There is already Hash#each_pair, an alias of Hash#each. So after this patch, we also have Array#each_pair and can use it interchangeably to iterate through both Hashes and Arrays. This fixes the OP's observed insanity that Array#each_with_index has the block arguments reversed compared to Hash#each. Example usage:
my_array = ['Hello', 'World', '!']
my_array.each_pair { |key, value| pp "#{key}, #{value}" }
# result:
"0, Hello"
"1, World"
"2, !"
my_hash = { '0' => 'Hello', '1' => 'World', '2' => '!' }
my_hash.each_pair { |key, value| pp "#{key}, #{value}" }
# result:
"0, Hello"
"1, World"
"2, !"