programming_languages/sml/week2/date.sml

(* 
    Pipe operator. 
    Simply to write code like "data |> fun" instead "fun data".
    Then you can "pipe" results to functions via partial application:
    
    fun square a b = a * b
    fun sum a b = a + b

    10 |> sum 10 |> square 2 // 40      
*)
fun |> (x, f) = f x

(* apply operator *)
fun $ (f, x) = f x

(* composition operator *)
fun >> (f, g) x = g(f(x))

infix |>
infix $
infix >>

(* year * month * day *)
type Date = int * int * int

(* can't use pattern matching for now *)
(* fun fold f acc lst = 
    case lst of
    [] => acc
    | head :: tail => fold f (f head acc) tail *)

fun fold f acc lst = 
    if lst = []
    then acc
    else 
        let
            val tail = tl lst
            val head = hd lst
        in
            fold f (f head acc) tail
        end

fun reverse lst =
    let
        fun f elm acc = elm :: acc 
    in
        fold f [] lst
    end


(* non tail optimized :( *)
(* fun filter predicate lst =
    case lst of
       [] => lst
     | head :: tail => 
        if predicate head
        then head :: filter predicate tail
        else filter predicate tail *)

fun filter predicate lst = 
    let
        fun f elm acc = if predicate elm then elm :: acc else acc
    in
        lst |> fold f [] |> reverse
    end

fun range from to =
    let
        fun generate from to acc =
            if from > to
            then acc
            else generate (from + 1) to (from :: acc)
    in
        generate from to [] |> reverse
    end

fun empty lst = lst = []

(* not efficient but works *)
fun exists elem lst =
    filter (fn needle => elem = needle) lst |> empty |> not 

fun uniqe lst =
    let
        fun find_uniqe elem uniqe_elems =
            if (exists elem uniqe_elems)
            then uniqe_elems
            else elem :: uniqe_elems
    in
        fold find_uniqe [] lst
    end

(* naive sort, will blow up the stack. Can't use pattern matching for now :( *)
(* also incorrect *)
(* fun sort f lst =
    case lst of
    [] => []
    | hd :: [] => [hd]
    | first :: second :: rest =>
        if f first second
        then second :: first :: sort f rest
        else first :: second :: sort f rest *)

(* also will blow up the stack *)
fun sort' f lst =
    if lst = []
        then []
        else
            if tl lst = []
            then lst
            else
                let
                    val first = hd lst
                    val second = hd $ tl lst
                    val rest = tl $ tl lst
                    val greater = f first second
                in
                    if greater
                    then second :: sort' f (first :: rest)
                    else first :: sort' f (second :: rest)
                end

(* simple recursive convergence *)
fun fix f g x = 
    if f g x = x 
    then x 
    else fix f g (f g x)

(* naive bubble sort *)
fun sort f x = fix sort' f x

fun is_older ((y1, m1, d1): Date, (y2, m2, d2): Date): bool =
        let
            val first_days = y1 * 360 + m1 * 30 + d1
            val second_days = y2 * 360 + m2 * 30 + d2
        in
            first_days < second_days
        end

fun number_in_month (dates: Date list, month_to_find: int): int =
    let         
        fun count_month (_, month, _) occurences =  
            if month = month_to_find
            then occurences + 1
            else occurences 
    in
        fold count_month 0 dates
    end

fun number_in_months (dates: Date list, months_to_find: int list): int =
    let
        fun count_months month acc = 
            acc + number_in_month (dates, month)
    in
        fold count_months 0 months_to_find
    end

fun dates_in_month (dates: Date list, in_month: int): Date list =
    let
        fun filter_dates (_, month, _) = in_month = month
    in
        filter filter_dates dates
    end

fun dates_in_months (dates: Date list, in_months: int list): Date list =
    let
        fun filter_dates month filtered = 
            filtered @ dates_in_month (dates, month)  
    in
        fold filter_dates [] in_months
    end

fun get_nth (strings: string list, nth: int): string =
    let
        fun find str (pos, found) =
            if pos = nth
            then (pos + 1, str)
            else (pos + 1, found)
    in
        fold find (1, "") strings |> #2
    end

(* this function will create list for months on every call :(  *)
fun date_to_string ((year, month, day): Date): string =
    let
        val months = [
            "January",
            "February",
            "March",
            "April",
            "May",
            "June",
            "July",
            "August",
            "September",
            "October",
            "November", 
            "December"
        ]

        val string_month = get_nth (months, month)

        val to_str = Int.toString

    in
        string_month ^ " " ^ to_str day ^ ", " ^ to_str year
    end

fun number_before_reaching_sum (sum: int, numbers: int list): int =
    if numbers = [] orelse hd numbers >= sum
    then 0
    else 1 + number_before_reaching_sum ((sum - hd numbers), tl numbers)

fun what_month (day: int): int =
    let
        val months = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
    in
        number_before_reaching_sum (day, months) + 1
    end

(* correct but too complex for such problem *)
(* fun month_range (day1: int, day2: int): int list =
    let
      fun append_month day months = what_month day :: months 
    in
       range day1 day2 |> fold append_month [] |> reverse
    end
 *)

fun month_range (day1: int, day2: int): int list =
    if day1 > day2
    then []
    else what_month day1 :: month_range (day1 + 1, day2)


fun oldest (dates: Date list): Date option =
    let
        fun compare a b = not $ is_older (a, b)
    in
        if dates = []
        then NONE
        else sort compare dates |> hd |> SOME   
    end

fun number_in_months_challenge (
    dates: Date list, 
    months_to_find: int list
): int =
    number_in_months (dates, uniqe months_to_find)

fun dates_in_months_challenge (
    dates: Date list, 
    in_months: int list
): Date list =
    dates_in_months (dates, uniqe in_months)
fix week2 2020-07-02 00:25:29 +03:00			`(*`
			`Pipe operator.`
			`Simply to write code like "data \|> fun" instead "fun data".`
			`Then you can "pipe" results to functions via partial application:`

			`fun square a b = a * b`
			`fun sum a b = a + b`

			`10 \|> sum 10 \|> square 2 // 40`
			`*)`
			`fun \|> (x, f) = f x`

			`(* apply operator *)`
			`fun $ (f, x) = f x`

			`(* composition operator *)`
			`fun >> (f, g) x = g(f(x))`

			`infix \|>`
			`infix $`
			`infix >>`
remove pattern matching 2020-06-02 03:39:00 +03:00
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`(* year * month * day *)`
			`type Date = int * int * int`

remove pattern matching 2020-06-02 03:39:00 +03:00			`(* can't use pattern matching for now *)`
			`(* fun fold f acc lst =`
			`case lst of`
			`[] => acc`
			`\| head :: tail => fold f (f head acc) tail *)`
number_in_months done 2020-06-01 01:55:44 +03:00
up to oldest 2020-06-02 02:56:53 +03:00			`fun fold f acc lst =`
			`if lst = []`
			`then acc`
			`else`
			`let`
			`val tail = tl lst`
			`val head = hd lst`
			`in`
			`fold f (f head acc) tail`
			`end`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00
dates_in_month done 2020-06-01 15:05:24 +03:00			`fun reverse lst =`
up to oldest 2020-06-02 02:56:53 +03:00			`let`
			`fun f elm acc = elm :: acc`
			`in`
			`fold f [] lst`
			`end`
dates_in_month done 2020-06-01 15:05:24 +03:00

			`(* non tail optimized :( *)`
			`(* fun filter predicate lst =`
			`case lst of`
			`[] => lst`
			`\| head :: tail =>`
			`if predicate head`
			`then head :: filter predicate tail`
			`else filter predicate tail *)`

			`fun filter predicate lst =`
			`let`
			`fun f elm acc = if predicate elm then elm :: acc else acc`
			`in`
up to oldest 2020-06-02 02:56:53 +03:00			`lst \|> fold f [] \|> reverse`
dates_in_month done 2020-06-01 15:05:24 +03:00			`end`

up to oldest 2020-06-02 02:56:53 +03:00			`fun range from to =`
			`let`
			`fun generate from to acc =`
			`if from > to`
			`then acc`
			`else generate (from + 1) to (from :: acc)`
			`in`
			`generate from to [] \|> reverse`
			`end`

all done 2020-06-02 23:34:23 +03:00			`fun empty lst = lst = []`

			`(* not efficient but works *)`
			`fun exists elem lst =`
			`filter (fn needle => elem = needle) lst \|> empty \|> not`

			`fun uniqe lst =`
			`let`
			`fun find_uniqe elem uniqe_elems =`
			`if (exists elem uniqe_elems)`
			`then uniqe_elems`
			`else elem :: uniqe_elems`
			`in`
			`fold find_uniqe [] lst`
			`end`

remove pattern matching 2020-06-02 03:39:00 +03:00			`(* naive sort, will blow up the stack. Can't use pattern matching for now :( *)`
fix week2 2020-07-02 00:25:29 +03:00			`(* also incorrect *)`
remove pattern matching 2020-06-02 03:39:00 +03:00			`(* fun sort f lst =`
up to oldest 2020-06-02 02:56:53 +03:00			`case lst of`
			`[] => []`
			`\| hd :: [] => [hd]`
			`\| first :: second :: rest =>`
			`if f first second`
			`then second :: first :: sort f rest`
remove pattern matching 2020-06-02 03:39:00 +03:00			`else first :: second :: sort f rest *)`

			`(* also will blow up the stack *)`
fix week2 2020-07-02 00:25:29 +03:00			`fun sort' f lst =`
remove pattern matching 2020-06-02 03:39:00 +03:00			`if lst = []`
			`then []`
			`else`
			`if tl lst = []`
			`then lst`
			`else`
			`let`
			`val first = hd lst`
			`val second = hd $ tl lst`
			`val rest = tl $ tl lst`
			`val greater = f first second`
			`in`
			`if greater`
fix week2 2020-07-02 00:25:29 +03:00			`then second :: sort' f (first :: rest)`
			`else first :: sort' f (second :: rest)`
remove pattern matching 2020-06-02 03:39:00 +03:00			`end`
up to oldest 2020-06-02 02:56:53 +03:00
fix week2 2020-07-02 00:25:29 +03:00			`(* simple recursive convergence *)`
			`fun fix f g x =`
			`if f g x = x`
			`then x`
			`else fix f g (f g x)`

			`(* naive bubble sort *)`
			`fun sort f x = fix sort' f x`

dates_in_month done 2020-06-01 15:05:24 +03:00			`fun is_older ((y1, m1, d1): Date, (y2, m2, d2): Date): bool =`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`let`
fix week2 2020-07-02 00:25:29 +03:00			`val first_days = y1 * 360 + m1 * 30 + d1`
			`val second_days = y2 * 360 + m2 * 30 + d2`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`in`
fix week2 2020-07-02 00:25:29 +03:00			`first_days < second_days`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`end`

dates_in_month done 2020-06-01 15:05:24 +03:00			`fun number_in_month (dates: Date list, month_to_find: int): int =`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`let`
			`fun count_month (_, month, _) occurences =`
			`if month = month_to_find`
			`then occurences + 1`
			`else occurences`
			`in`
up to oldest 2020-06-02 02:56:53 +03:00			`fold count_month 0 dates`
is_older, number_in_month done 2020-05-31 18:35:01 +03:00			`end`

dates_in_month done 2020-06-01 15:05:24 +03:00			`fun number_in_months (dates: Date list, months_to_find: int list): int =`
number_in_months done 2020-06-01 01:55:44 +03:00			`let`
dates_in_month done 2020-06-01 15:05:24 +03:00			`fun count_months month acc =`
			`acc + number_in_month (dates, month)`
number_in_months done 2020-06-01 01:55:44 +03:00			`in`
up to oldest 2020-06-02 02:56:53 +03:00			`fold count_months 0 months_to_find`
number_in_months done 2020-06-01 01:55:44 +03:00			`end`

dates_in_month done 2020-06-01 15:05:24 +03:00			`fun dates_in_month (dates: Date list, in_month: int): Date list =`
			`let`
			`fun filter_dates (_, month, _) = in_month = month`
			`in`
			`filter filter_dates dates`
up to oldest 2020-06-02 02:56:53 +03:00			`end`

			`fun dates_in_months (dates: Date list, in_months: int list): Date list =`
			`let`
			`fun filter_dates month filtered =`
			`filtered @ dates_in_month (dates, month)`
			`in`
			`fold filter_dates [] in_months`
			`end`

			`fun get_nth (strings: string list, nth: int): string =`
			`let`
			`fun find str (pos, found) =`
			`if pos = nth`
			`then (pos + 1, str)`
			`else (pos + 1, found)`
			`in`
			`fold find (1, "") strings \|> #2`
			`end`

			`(* this function will create list for months on every call :( *)`
			`fun date_to_string ((year, month, day): Date): string =`
			`let`
			`val months = [`
			`"January",`
			`"February",`
			`"March",`
			`"April",`
			`"May",`
			`"June",`
			`"July",`
			`"August",`
			`"September",`
			`"October",`
			`"November",`
			`"December"`
			`]`

fix week2 2020-07-02 00:25:29 +03:00			`val string_month = get_nth (months, month)`
up to oldest 2020-06-02 02:56:53 +03:00
			`val to_str = Int.toString`

			`in`
fix week2 2020-07-02 00:25:29 +03:00			`string_month ^ " " ^ to_str day ^ ", " ^ to_str year`
up to oldest 2020-06-02 02:56:53 +03:00			`end`

			`fun number_before_reaching_sum (sum: int, numbers: int list): int =`
			`if numbers = [] orelse hd numbers >= sum`
			`then 0`
			`else 1 + number_before_reaching_sum ((sum - hd numbers), tl numbers)`

			`fun what_month (day: int): int =`
			`let`
			`val months = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]`
			`in`
			`number_before_reaching_sum (day, months) + 1`
			`end`

remove pattern matching 2020-06-02 03:39:00 +03:00			`(* correct but too complex for such problem *)`
up to oldest 2020-06-02 02:56:53 +03:00			`(* fun month_range (day1: int, day2: int): int list =`
			`let`
			`fun append_month day months = what_month day :: months`
			`in`
			`range day1 day2 \|> fold append_month [] \|> reverse`
			`end`
			`*)`

			`fun month_range (day1: int, day2: int): int list =`
			`if day1 > day2`
			`then []`
			`else what_month day1 :: month_range (day1 + 1, day2)`


			`fun oldest (dates: Date list): Date option =`
			`let`
			`fun compare a b = not $ is_older (a, b)`
			`in`
			`if dates = []`
			`then NONE`
			`else sort compare dates \|> hd \|> SOME`
all done 2020-06-02 23:34:23 +03:00			`end`

			`fun number_in_months_challenge (`
			`dates: Date list,`
			`months_to_find: int list`
			`): int =`
			`number_in_months (dates, uniqe months_to_find)`

			`fun dates_in_months_challenge (`
			`dates: Date list,`
			`in_months: int list`
			`): Date list =`
			`dates_in_months (dates, uniqe in_months)`