Great question.

I'm an engineer at SeatGeek, so I think I can help here. We have a great blog post that explains the differences quite well, but I can summarize and offer some insight into how we use the different types.

# Overview

Under the hood each of the four methods calculate the edit distance between some ordering of the tokens in both input strings. This is done using the `difflib.ratio`

function which will:

Return a measure of the sequences' similarity (float in [0,1]).

Where T is the total number of elements in both sequences, and M is
the number of matches, this is 2.0*M / T. Note that this is 1 if the
sequences are identical, and 0 if they have nothing in common.

The four fuzzywuzzy methods call `difflib.ratio`

on different combinations of the input strings.

## fuzz.ratio

Simple. Just calls `difflib.ratio`

on the two input strings (code).

```
fuzz.ratio("NEW YORK METS", "NEW YORK MEATS")
> 96
```

## fuzz.partial_ratio

Attempts to account for partial string matches better. Calls `ratio`

using the shortest string (length n) against all n-length substrings of the larger string and returns the highest score (code).

Notice here that "YANKEES" is the shortest string (length 7), and we run the ratio with "YANKEES" against all substrings of length 7 of "NEW YORK YANKEES" (which would include checking against "YANKEES", a 100% match):

```
fuzz.ratio("YANKEES", "NEW YORK YANKEES")
> 60
fuzz.partial_ratio("YANKEES", "NEW YORK YANKEES")
> 100
```

## fuzz.token_sort_ratio

Attempts to account for similar strings out of order. Calls `ratio`

on both strings after sorting the tokens in each string (code). Notice here `fuzz.ratio`

and `fuzz.partial_ratio`

both fail, but once you sort the tokens it's a 100% match:

```
fuzz.ratio("New York Mets vs Atlanta Braves", "Atlanta Braves vs New York Mets")
> 45
fuzz.partial_ratio("New York Mets vs Atlanta Braves", "Atlanta Braves vs New York Mets")
> 45
fuzz.token_sort_ratio("New York Mets vs Atlanta Braves", "Atlanta Braves vs New York Mets")
> 100
```

## fuzz.token_set_ratio

Attempts to rule out differences in the strings. Calls ratio on three particular substring sets and returns the max (code):

- intersection-only and the intersection with remainder of string one
- intersection-only and the intersection with remainder of string two
- intersection with remainder of one and intersection with remainder of two

Notice that by splitting up the intersection and remainders of the two strings, we're accounting for both how similar and different the two strings are:

```
fuzz.ratio("mariners vs angels", "los angeles angels of anaheim at seattle mariners")
> 36
fuzz.partial_ratio("mariners vs angels", "los angeles angels of anaheim at seattle mariners")
> 61
fuzz.token_sort_ratio("mariners vs angels", "los angeles angels of anaheim at seattle mariners")
> 51
fuzz.token_set_ratio("mariners vs angels", "los angeles angels of anaheim at seattle mariners")
> 91
```

# Application

This is where the magic happens. At SeatGeek, essentially we create a vector score with each ratio for each data point (venue, event name, etc) and use that to inform programatic decisions of similarity that are specific to our problem domain.

That being said, truth by told it doesn't sound like FuzzyWuzzy is useful for your use case. It will be tremendiously bad at determining if two addresses are similar. Consider two possible addresses for SeatGeek HQ: "235 Park Ave Floor 12" and "235 Park Ave S. Floor 12":

```
fuzz.ratio("235 Park Ave Floor 12", "235 Park Ave S. Floor 12")
> 93
fuzz.partial_ratio("235 Park Ave Floor 12", "235 Park Ave S. Floor 12")
> 85
fuzz.token_sort_ratio("235 Park Ave Floor 12", "235 Park Ave S. Floor 12")
> 95
fuzz.token_set_ratio("235 Park Ave Floor 12", "235 Park Ave S. Floor 12")
> 100
```

FuzzyWuzzy gives these strings a high match score, but one address is our actual office near Union Square and the other is on the other side of Grand Central.

For your problem you would be better to use the Google Geocoding API.