Difference between revisions of "FP Test3 2024"
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Line 37: | Line 37: | ||
" *", | " *", | ||
"*********"] | "*********"] | ||
− | |||
sample2 :: Maze | sample2 :: Maze | ||
sample2 = [" ", | sample2 = [" ", | ||
Line 46: | Line 45: | ||
" ", | " ", | ||
" "] | " "] | ||
− | |||
− | |||
sample3 :: Maze | sample3 :: Maze | ||
sample3 = [" * * ", | sample3 = [" * * ", | ||
Line 56: | Line 53: | ||
" * ", | " * ", | ||
" "] | " "] | ||
− | + | sample4 :: Maze | |
+ | sample4 = ["*********", | ||
+ | "*s* *e*", | ||
+ | "* * * *", | ||
+ | "* * * *", | ||
+ | "* *", | ||
+ | "******* *", | ||
+ | " *", | ||
+ | "*********"] | ||
arrow :: Maze | arrow :: Maze | ||
arrow = [ "....#....", | arrow = [ "....#....", | ||
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<translate> | <translate> | ||
+ | |||
== Tasks == | == Tasks == | ||
</translate> | </translate> |
Revision as of 11:27, 15 November 2024
Home Preparation For Test 3 - 2024
Data definition
Consider following type representing a maze:
type Maze = [String]
If you want to print this maze on a screen you can use:
printMaze :: Maze -> IO ()
printMaze x = putStr (concat (map (++"\n") x))
Maze example:
sample1 :: Maze
sample1 = ["*********",
"* * * *",
"* * * * *",
"* * * * *",
"* * *",
"******* *",
" *",
"*********"]
sample2 :: Maze
sample2 = [" ",
" ",
" *** ",
" *** ",
" *** ",
" ",
" "]
sample3 :: Maze
sample3 = [" * * ",
" ##### ",
" *** ",
" * * ",
" *** ",
" * ",
" "]
sample4 :: Maze
sample4 = ["*********",
"*s* *e*",
"* * * *",
"* * * *",
"* *",
"******* *",
" *",
"*********"]
arrow :: Maze
arrow = [ "....#....",
"...###...",
"..#.#.#..",
".#..#..#.",
"....#....",
"....#....",
"....#####"]
ghci> printMaze sample1
*********
* * * *
* * * * *
* * * * *
* * *
******* *
*
*********
Tasks
Create functions that:
- Place one maze above another.
above :: Maze -> Maze -> Maze
*Main> printMaze(above arrow arrow)
....#....
...###...
..#.#.#..
.#..#..#.
....#....
....#....
....#####
....#....
...###...
..#.#.#..
.#..#..#.
....#....
....#....
....#####
- Place two mazes side by side (consider, that they have the same height).
sideBySide :: Maze -> Maze -> Maze
*Main> printMaze(sideBySide arrow arrow)
....#........#....
...###......###...
..#.#.#....#.#.#..
.#..#..#..#..#..#.
....#........#....
....#........#....
....#####....#####
- Rotate maze to the left and to the right.
rotateR :: Maze -> Maze
rotateL :: Maze -> Maze
*Main> printMaze (rotateR arrow)
.......
...#...
....#..
.....#.
#######
#....#.
#...#..
#..#...
#......
*Main> printMaze(rotateL arrow)
......#
...#..#
..#...#
.#....#
#######
.#.....
..#....
...#...
.......
- Define a function
getFromMaze
that takes a character from a maze. The coordinates are given as:(row index, column index)
where the indexes start from(0,0)
. The coordinate(0,0)
is a top left corner.
getFromMaze :: Maze -> (Int, Int) -> Char
ghci> getFromMaze sample1 (1,1)
' '
- Using the same coordinates as for the function above, define a function
putIntoMaze
that takes a maze and a list of triplets(row index, column index, character)
and puts on given coordinate given character.
putIntoMaze :: Maze -> [(Int, Int, Char)] -> Maze
ghci> printMaze(putIntoMaze sample2 [(0,0,'1'),(6,6,'2'),(0,6,'3')])
1 3
***
***
***
2
- Using the same coordinates as for the functions above, define a function
getPart
that takes a maze and extracts a rectangular part of this maze. The maze is given as first parameter. The extracted part is defined by the position of the top left corner (second parameter) and its size (third parameter, given as (height, width)).
getPart :: Maze -> (Int,Int) -> (Int,Int) -> Maze
ghci> printMaze(getPart sample1 (1,1) (7,7))
* *
* * *
* * *
*
******
*******
- Define a function