FP Laboratory 2
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Types
- Using the GHCi command
:info
, learn the type of the following functions (and operators):+, sqrt, succ, max
- Get the information about the data type of following expressions and evaluate them. it is possible using the command
:type
. You can switch this option on for all commands by:set +t
(removing by:unset +t
).
5 + 8
3 * 5 + 8
2 + 4
sqrt 16
succ 6
succ 7
pred 9
pred 8
sin (pi / 2)
truncate pi
round 3.5
round 3.4
floor 3.7
ceiling 3.3
mod 10 3
odd 3
- At presentations, we have spoken about some basic types:
Int, Double, Bool, Char
. For each of previous expressions assign them the most appropriate of these basic data types. You can verify your guess by using::
. For example, for the first expression, let's assume it isInt
. We can cast the result to integer and get the following result.
Prelude> :type (5 + 8) :: Int
(5 + 8) :: Int :: Int
If we try incorrect conversion to Char
, we get the following result.
Prelude> :type (5 + 8) :: Char
<interactive>:1:2: error:
* No instance for (Num Char) arising from a use of `+'
* In the expression: (5 + 8) :: Char
For this expression, also the type Double
works.
Prelude> :type (5 + 8) :: Double
(5 + 8) :: Double :: Double
Reasoning about types
For following expression, try to determine:
- if the expression's type is correct;
- what will be the type of the result;
- what will be the result;
- put the expression into the interpreter, and verify your claims.
5.9/7
(floor 5.9)/7
floor 5.9/7
fromIntegral floor 5.9/7
fromIntegral (floor 5.9)/7
div (floor 5.9) 7
(floor 5.9) div 7
(floor 5.9) `div` 7
mod 10/2 3
mod (floor (10/2)) 3
Simple functions
Implement following functions:
- Function that computes a factorial of a given number.
factorial :: Int -> Int
- Function that computes n-th number in Fibonacci sequence.
fib :: Int -> Int
- Function that checks if a year is a leap-year (divisible without remainder by 4 and it is not divisible by 100. If it is divisible by 400, it is a leap-year).
leapYear :: Int -> Bool
- Implement two functions that returns a maximum from 2 respectively 3 given parameters.
max2 :: Int -> Int -> Int
max3 :: Int -> Int -> Int -> Int
- Term combination is a selection of items from a collection, such that (unlike permutations) the order of elements in this selection does not matter. Compute the number of possible combinations if we are taking k things from the collection of n things.
combinations :: Int -> Int -> Int
- Implement a function that computes the number of solutions for a quadratic equation. This quadratic equation will be given using standard coefficients: a, b, c.
numberOfRoots :: Int -> Int -> Int -> Int
-- To simplify the solution, let construct can be used
f x y = let a = x + y
in a * a
- Implement a function that computes greatest common divider for two given numbers.
gcd' :: Int -> Int -> Int
- Implement a function that compute, if a given number is a prime number.
isPrime :: Int -> Bool