Try the following. The algorithm is roughly following Wikipedia (Levenshtein distance). The language used below is **ruby**

Use as an example, the case of changing `s`

into `t`

as follows:

```
s = 'Sunday'
t = 'Saturday'
```

First, `s`

and `t`

are turned into arrays, and an empty string is inserted at the beginning. `m`

will eventually be the matrix used in the argorithm.

```
s = ['', *s.split('')]
t = ['', *t.split('')]
m = Array.new(s.length){[]}
```

`m`

here, however, is different from the matrix given if the algorithm in wikipedia for the fact that each cell includes not only the **Levenshtein distance**, but also the (non-)operation (**starting**, **doing nothing**, **deletion**, **insertion**, or **substitution**) that was used to get to that cell from an adjacent (left, up, or upper-left) cell. It may also include a **string** describing the parameters of the operation. That is, the format of each cell is:

[Levenshtein distance, operation(, string)]

Here is the main routine. It fills in the cells of `m`

following the algorithm:

```
s.each_with_index{|a, i| t.each_with_index{|b, j|
m[i][j] =
if i.zero?
[j, "started"]
elsif j.zero?
[i, "started"]
elsif a == b
[m[i-1][j-1][0], "did nothing"]
else
del, ins, subs = m[i-1][j][0], m[i][j-1][0], m[i-1][j-1][0]
case [del, ins, subs].min
when del
[del+1, "deleted", "'#{a}' at position #{i-1}"]
when ins
[ins+1, "inserted", "'#{b}' at position #{j-1}"]
when subs
[subs+1, "substituted", "'#{a}' at position #{i-1} with '#{b}'"]
end
end
}}
```

Now, we set `i`

, `j`

to the bottom-right corner of `m`

and follow the steps backwards as we unshift the contents of the cell into an array called `steps`

, until we reach the start.

```
i, j = s.length-1, t.length-1
steps = []
loop do
case m[i][j][1]
when "started"
break
when "did nothing", "substituted"
steps.unshift(m[i-=1][j-=1])
when "deleted"
steps.unshift(m[i-=1][j])
when "inserted"
steps.unshift(m[i][j-=1])
end
end
```

Then we print the operation and the string of each step unless that is a non-operation.

```
steps.each do |d, op, str=''|
puts "#{op} #{str}" unless op == "did nothing" or op == "started"
end
```

With this particular example, it will output:

```
inserted 'a' at position 1
inserted 't' at position 2
substituted 'n' at position 2 with 'r'
```