Awesome
<!-- markdown-toc start - Don't edit this section. Run M-x markdown-toc-refresh-toc -->Table of Contents
- fakedata
- Tutorial
- Deterministic vs Non Deterministic values
- Combinators
- Using the
FakeT
transformer - Comparision with other libraries
- Acknowledgments
fakedata
This library is a port of Ruby's faker. It's a library for producing fake data such as names, addressess and phone numbers. Note that it directly uses the source data from that library, so the quality of fake data is quite high!
This package comes in handy when you have to generate large amount of real like data for various purposes. I have personally used it for websites where it needs some realistic data in the initial stage, loading database with real like values etc. There are companies which have used this for sophisphicated testing purpose.
Additionly, there are two other packages for creating generators which is useful for property testing:
Tutorial
Generating address
~/g/fakedata (master) $ stack ghci
λ> import Faker
λ> import Faker.Address
λ> address <- generate fullAddress
λ> address
"Apt. 298 340 Ike Mission, Goldnertown, FL 19488-9259"
Generating name
λ> fullName <- generate name
λ> fullName
"Sherryl Steuber"
Generate quotes from the movie Back to the Future
λ> import Faker.Movie.BackToTheFuture
λ> import Faker.Combinators
λ> qs <- generateNonDeterministic $ listOf 5 quotes
λ> qs
[ "Yes. Yes. I'm George. George McFly. I'm your density. I mean, your destiny."
, "Hello? Hello? Anybody home? Huh? Think, McFly. Think! I gotta have time to get them retyped. Do you realize what would happen if I hand in my reports in your handwriting? I'll get fired. You wouldn't want that to happen, would ya? Would ya?"
, "Lorraine. My density has brought me to you."
, "See you in about 30 years."
, "You really think I ought to swear?"
]
Combining Fake datas
{-#LANGUAGE RecordWildCards#-}
import Faker
import Faker.Name
import Faker.Address
import Data.Text
data Person = Person {
personName :: Text,
personAddress :: Text
} deriving (Show, Eq)
fakePerson :: Fake Person
fakePerson = do
personName <- name
personAddress <- fullAddress
pure $ Person{..}
main :: IO ()
main = do
person <- generate fakePerson
print person
And on executing them:
$ stack name.hs
Person
{ personName = "Sherryl Steuber"
, personAddress = "Apt. 298 340 Ike Mission, Goldnertown, FL 19488-9259"
}
You would have noticed in the above output that the name and address are the same as generated before in the GHCi REPL. That's because, by default all the generated data are deterministic. If you want a different set of output each time, you would have to modify the random generator output:
main :: IO ()
main = do
gen <- newStdGen
let settings = setRandomGen gen defaultFakerSettings
person <- generateWithSettings settings fakePerson
print person
And on executing the program, you will get a different output:
Person
{ personName = "Ned Effertz Sr."
, personAddress = "Suite 158 1580 Schulist Mall, Schulistburgh, NY 15804-3392"
}
The above program can be even minimized like this:
main :: IO ()
main = do
let settings = setNonDeterministic defaultFakerSettings
person <- generateWithSettings settings fakePerson
print person
Or even better:
main :: IO ()
main = do
person <- generateNonDeterministic fakePerson
print person
Deterministic vs Non Deterministic values
We have various function for generating fake values:
- generate
- generateNonDeterministic
- generateNonDeterministicWithFixedSeed
By default, generate
produces deterministic values. It's performance
is better than the others and for cases where we are going to generate
a single fake value using record type, it's a good default to
have. Example:
{-#LANGUAGE RecordWildCards#-}
import Faker
import Faker.Name
import Faker.Address
import Data.Text
data Person = Person {
personName :: Text,
personAddress :: Text
} deriving (Show, Eq)
fakePerson :: Fake Person
fakePerson = do
personName <- name
personAddress <- fullAddress
pure $ Person{..}
main :: IO ()
main = do
person <- generate fakePerson
print person
And executing it, you will get:
Person
{ personName = "Sherryl Steuber"
, personAddress = "Apt. 298 340 Ike Mission, Goldnertown, FL 19488-9259"
}
While, it's a good default we would need non deterministic output for certain cases:
> generate $ listOf 5 $ fromRange (1,100)
[39,39,39,39,39]
> generate $ listOf 5 $ fromRange (1,100)
[39,39,39,39,39]
> generateNonDeterministic $ listOf 5 $ fromRange (1,100)
[94,18,17,48,17]
> generateNonDeterministic $ listOf 5 $ fromRange (1,100)
[15,2,47,85,94]
Not how generateNonDeterministic
is generating different values each
time. If you instead want to have a fixed seed, you should use
generateNonDeterministicWithFixedSeed
instead:
> generateNonDeterministicWithFixedSeed $ listOf 5 $ fromRange (1,100)
[98,87,77,33,98]
> generateNonDeterministicWithFixedSeed $ listOf 5 $ fromRange (1,100)
[98,87,77,33,98]
Combinators
listOf
λ> import Faker.Address
λ> item <- generateNonDeterministic $ listOf 5 country
λ> item
["Ecuador","French Guiana","Faroe Islands","Canada","Armenia"]
oneOf
λ> item <- generate $ oneof [country, fullAddress]
λ> item
"Suite 599 599 Brakus Flat, South Mason, MT 59962-6876"
suchThat
λ> import qualified Faker.Address as AD
λ> item :: Text <- generate $ suchThat AD.country (\x -> (T.length x > 5))
λ> item
"Ecuador"
λ> item :: Text <- generate $ suchThat AD.country (\x -> (T.length x > 8))
λ> item
"French Guiana"
For seeing the full list of combinators, see the module documentation of
Faker.Combinators
.
Using the FakeT
transformer
When generating values, you may want to perform some side-effects.
import Control.Monad.IO.Class
import Control.Monad.Logger
import Data.Text
import Data.Text.IO
import Faker.ChuckNorris
logQuote :: (MonadIO m, MonadLogger m) => m ()
logQuote = do
userName <- liftIO getLine
quote <- generateNonDeterministic fact
$(logInfo) $ "Chuck Norris" userName quote
This works fine for one-off generation - but if you try to repeatedly generate values, you will run into performance trouble.
import Control.Monad (replicateM)
slowFunction :: (MonadIO m, MonadLogger m) => m ()
slowFunction = replicateM 1000 logQuote
This is because generating a Fake
parses the data files and builds a
cache for future use. Using the Monad
instance on Fake
shares that
cache between Fake
s, making faking fast. But in the above code, a
new Fake
is generated each time - so the cache is discarded, and
performance is much worse.
It's better to use the FakeT
monad transformer when writing such code,
to get the benefits of sharing the cache, as well as being able to
perform side effects. FakeT
comes with the mtl
-style MonadFake
class, for easy use with your monad stack, which lets you lift Fake
s
with liftFake
.
import Faker.Class
betterLogQuote :: (MonadIO m, MonadLogger m, MonadFake m) => m ()
betterLogQuote = do
userName <- liftIO getLine
quote <- liftFake fact
$(logInfo) $ "Chuck Norris" userName quote
slowFunction
can be rewritten to be much faster, because the FakeT
is shared between all the calls to fact
.
fastFunction :: (MonadIO m, MonadLogger m) => m ()
fastFunction = generateNonDeterministic go
where
go :: FakeT m ()
go = replicateM 1000 logQuote
Comparision with other libraries
There are two other libraries in the Hackage providing fake data:
The problem with both the above libraries is that the library covers
only a very small amount of fake data source. I wanted to have an
equivalent functionality with something like faker. Also, most of
the combinators in this packages has been inspired (read as taken)
from the fake
library. Also, fakedata
offers fairly good amount of
support of different locales. Also since we rely on an external data
source, we get free updates and high quality data source with little
effort. Also, it's easier to extend the library with it's own data
source if we want to do it that way.
Acknowledgments
Benjamin Curtis for his Ruby faker library from which the data source is taken from.