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Aditya Bhargava 2013-06-28 17:09:34 -07:00
parent 301e021fb6
commit be8f92d804
1 changed files with 30 additions and 38 deletions
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@ -50,10 +50,10 @@ not False -- True
'You cant use single quotes for strings.' -- error!
-- Strings can be added too!
"Hello " ++ "world!" #=> "Hello world!"
"Hello " ++ "world!" -- "Hello world!"
-- A string can be treated like a list of characters
"This is a string" !! 0 #=> 'T'
"This is a string" !! 0 -- 'T'
----------------------------------------------------
@ -75,11 +75,9 @@ not False -- True
0:[1..5] -- [0, 1, 2, 3, 4, 5]
-- indexing into a list
[0..] !! 5 -- 4
-- more list operations
head [1..5] -- 1
tail [1..5] -- [2, 3, 4, 5]
init [1..5] -- [1, 2, 3, 4]
@ -89,7 +87,7 @@ last [1..5] -- 5
[x*2 | x <- [1..5]] -- [2, 4, 6, 8, 10]
-- with a conditional
[x*2 | x <- [1..5], x*2 > 4] # [6, 8, 10]
[x*2 | x <- [1..5], x*2 > 4] -- [6, 8, 10]
-- Every element in a tuple can be a different type, but a tuple has a fixed length.
-- A tuple:
@ -112,9 +110,7 @@ add 1 2 -- 3
1 `add` 2 -- 3
-- You can also define functions that have no characters! This lets you define
-- your own operators:
-- Here's an operator that does integer division
-- your own operators! Here's an operator that does integer division
(//) a b = a `div` b
35 // 4 -- 8
@ -123,20 +119,19 @@ fib x
| x < 2 = x
| otherwise = fib (x - 1) + fib (x - 2)
-- You can do the same thing with pattern matching.
-- Pattern matching is similar. Here we have given three different
-- definitions for fib. Haskell will automatically call the first
-- function that matches the pattern of the value.
fib 1 = 1
fib 2 = 2
fib x = fib (x - 1) + fib (x - 2)
-- So we have given three different definitions for fib.
-- Haskell will automatically call the first function that matches
-- the pattern of the value.
-- Pattern matching on tuples:
foo (x, y) = (x + 1, y + 2)
-- Pattern matching on arrays. Here `x` is the first element
-- in the array, and `xs` is the rest of the array:
-- in the array, and `xs` is the rest of the array. We can write
-- our own map function:
map func [x] = [func x]
map func (x:xs) = func x:(map func xs)
@ -149,12 +144,12 @@ map (\x -> x + 2) [1..5] -- [3, 4, 5, 6, 7]
foldl1 (\acc x -> acc + x) [1..5] -- 15
----------------------------------------------------
-- 4. Some fancy things you can do with functions
-- 4. More functions
----------------------------------------------------
-- currying: if you don't pass in all the arguments to a function,
it gets "curried". That means it returns a function that takes the
rest of the arguments.
-- it gets "curried". That means it returns a function that takes the
-- rest of the arguments.
add a b = a + b
foo = add 10 -- foo is now a function that takes a number and adds 10 to it
@ -165,10 +160,9 @@ foo = (+10)
foo 5 -- 15
-- function composition
the (.) function chains functions together.
For example, here foo is a function that takes a value. It adds 10 to it,
multiplies the result of that by 5, and then returns the final value.
-- the (.) function chains functions together.
-- For example, here foo is a function that takes a value. It adds 10 to it,
-- multiplies the result of that by 5, and then returns the final value.
foo = (*5) . (+10)
-- (5 + 10) * 5 = 75
@ -176,9 +170,9 @@ foo 5 -- 75
-- fixing precedence
-- Haskell has another function called `$`. This changes the precedence
so that everything to the left of it gets computed first and then applied
to everything on the right. You can use `.` and `$` to get rid of a lot
of parentheses:
-- so that everything to the left of it gets computed first and then applied
-- to everything on the right. You can use `.` and `$` to get rid of a lot
-- of parentheses:
-- before
(even (double 7)) -- true
@ -190,18 +184,18 @@ even . double $ 7 -- true
-- 5. Type signatures
----------------------------------------------------
Haskell has a very strong type system, and everything has a type signature.
-- Haskell has a very strong type system, and everything has a type signature.
Some basic types:
-- Some basic types:
5 :: Integer
"hello" :: String
True :: Bool
Functions have types too.
Not takes a boolean and returns a boolean:
-- Functions have types too.
-- `not` takes a boolean and returns a boolean:
not :: Bool -> Bool
Here's a function that takes two arguments:
-- Here's a function that takes two arguments:
add :: Integer -> Integer -> Integer
----------------------------------------------------
@ -216,19 +210,13 @@ haskell = if 1 == 1
then "awesome"
else "awful"
-- case statements
-- Here's how you could parse command line arguments in Haskell
-- case statements: Here's how you could parse command line arguments in Haskell
case args of
"help" -> printHelp
"start" -> startProgram
_ -> putStrLn "bad args"
-- loops: recursion
-- Haskell doesn't have loops because it uses recursion instead.
-- map a function over every element in an array
map (*2) [1..5] -- [2, 4, 6, 8, 10]
@ -237,8 +225,10 @@ map (*2) [1..5] -- [2, 4, 6, 8, 10]
for array func = map func array
-- and then use it
for [0..5] $ \i -> show i
for [0..5] $ \i -> print i
-- we could've written that like this too:
for [0..5] show
----------------------------------------------------
-- 7. Data Types
@ -248,7 +238,7 @@ for [0..5] $ \i -> print i
data Color = Red | Blue | Green
Now you can use it in a function:
-- Now you can use it in a function:
say :: Color -> IO String
say Red = putStrLn "You are Red!"
@ -288,3 +278,5 @@ qsort (p:xs) = qsort lesser ++ [p] ++ qsort greater
where lesser = filter (< p) xs
greater = filter (>= p) xs
```
Haskell is easy to install. Get it [here](http://www.haskell.org/platform/).