The answer follows from the way "parallel assignment" is implemented in Ruby.

As you probably know:

```
a,b,c = 1,2,3
a #=> 1
b #=> 2
c #=> 3
a,b,c = [1,2,3]
a #=> 1
b #=> 2
c #=> 3
a,b = [1,2,3]
a #=> 1
b #=> 2
a,*b = [1,2,3]
a #=> 1
b #=> [2, 3]
*a,b = [1,2,3]
a #=> [1, 2]
b #=> 3
a,(b,c) = [1,[2,3]]
a #=> 1
b #=> 2
c #=> 3
a,(b,(c,d)) = [1,[2,[3,4]]]
a #=> 1
b #=> 2
c #=> 3
d #=> 4
```

The last two examples employ "disambiguation", which some people prefer to call "decomposition".

Now let's see how that applies to the assignment of values to block variables.

Suppose:

```
arr = [["studies", {:freq=>11, :cap_freq=>0, :value=>11}],
["theory", {:freq=>9, :cap_freq=>1, :value=>11}]]
```

and we execute:

```
arr.each { |a| p a }
["studies", {:freq=>11, :cap_freq=>0, :value=>11}]
["theory", {:freq=>9, :cap_freq=>1, :value=>11}]
```

Let's look at this more carefully. Define:

```
enum = arr.each
#=> #<Enumerator: [["studies", {:freq=>11, :cap_freq=>0, :value=>11}],
# ["theory", {:freq=>9, :cap_freq=>1, :value=>11}]]:each>
```

The first element is passed to the block and assigned to the block variable `v`

:

```
v = enum.next
#=> ["studies", {:freq=>11, :cap_freq=>0, :value=>11}]
```

We may be prefer to use parallel assignment with two block variables (after `enum.rewind`

to reset the enumerator):

```
a,h = enum.next
a #=> "studies"
h #=> {:freq=>11, :cap_freq=>0, :value=>11}
```

That allows us to write (for example):

```
arr.each { |a,h| p h }
{:freq=>11, :cap_freq=>0, :value=>11}
{:freq=>9, :cap_freq=>1, :value=>11}
```

Here we do not use the block variable `a`

. When that is the case, we might replace it with the local variable `_`

or possibly `_a`

:

```
arr.each { |_,h| p h }
arr.each { |_a,h| p h }
```

This draws attention to the fact that `a`

is not used and may help to avoid errors. Regarding errors, suppose we want:

```
[[1,2],[3,4]].map { |a,b| puts 1+b }
#=> [3,5]
```

but inadvertently write:

```
[[1,2],[3,4]].map { |a,b| puts a+b }
#=> [3,7]
```

which executes just fine (but produces an incorrect result). By contrast,

```
[[1,2],[3,4]].map { |_,b| puts a+b }
#NameError: undefined local variable or method 'a'
```

tells us there's a problem.

Here's a more elaborate example of what you can do in blocks with parallel assignment and disambiguation. Given:

```
h = { :a=>[1,2], :b=>[3,4] }
```

suppose we wish to obtain:

```
{ :a=>3, :b=>7 }
```

One way is the following:

```
h.each_with_object({}) { |(a,(b,c)),g| g[a] = b+c }
=> {:a=>3, :b=>7}
```

`Hash#each`

also only yields one item (that's the contract of`each`

, after all, italwaysyieldsexactly one item), an array with two items,exactlylike in your case. Yet somehow, even though the two cases areidenticalyou are confused by one and not the other.`hash#each`

seems to expect / yield two items: key and value (`each {| key, value | block } → hsh`

). That is not identical to`each { |item| block } → ary`

, which only seems to yield one item. Of course, my lack of experience and knowledge as developer might be the reason for not understanding your point.