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fp2023:hw1 [2023/03/24 10:17] pdmatei |
fp2023:hw1 [2023/03/28 14:11] (current) pdmatei |
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| </code> | </code> | ||
| - | For instance, the set $math[\{1,2,3\}] may be encoded by the anonymous function: | + | For instance, the set $math[\{1,2,3\}] will be encoded by the anonymous function: |
| <code scala> | <code scala> | ||
| (x: Int) => (x == 1 || x == 2 || x == 3) | (x: Int) => (x == 1 || x == 2 || x == 3) | ||
| Line 40: | Line 40: | ||
| </code> | </code> | ||
| - | **3.** Write a function ''fromBounds'' which takes two integer bounds ''start'' and ''stop'' and returns the set $math[\{start, start+1, \ldots, stop\}]. It is guaranteed that $math[start \leq stop] (you do not need to check this condition in your implementation). | + | **3.** Write a function ''ins'' which inserts a new element in a set. More precisely, given $math[x] and $math[set], ''ins'' returns a new set $math[\{x\} \cup set]. |
| + | <code scala> | ||
| + | def ins(x: Int)(set: Set): Set = ??? | ||
| + | </code> | ||
| + | |||
| + | **4.** Write a function ''fromBounds'' which takes two integer bounds ''start'' and ''stop'' and returns the set $math[\{start, start+1, \ldots, stop\}]. It is guaranteed that $math[start \leq stop] (you do not need to check this condition in your implementation). | ||
| <code scala> | <code scala> | ||
| Line 46: | Line 51: | ||
| </code> | </code> | ||
| - | **4.** Write the function which performs the union of two sets: | + | **5.** Write the function which performs the union of two sets: |
| <code scala> | <code scala> | ||
| def union(set1: Set, set2: Set): Set = ??? | def union(set1: Set, set2: Set): Set = ??? | ||
| </code> | </code> | ||
| - | **5.** Write a function which computes the complement of a set with respect to the set of integers: | + | **6.** Write a function which computes the complement of a set with respect to the set of integers: |
| <code scala> | <code scala> | ||
| def complement(s1: Set): Set = ??? | def complement(s1: Set): Set = ??? | ||
| </code> | </code> | ||
| - | **6.** Write a function which computes the sum of value ''b'' to all elements from a set, for given **bounds**. Use a tail-end recursive function: | + | **7.** Write a function which computes the sum of value ''b'' to all elements from a set, for given **bounds**. Use a tail-end recursive function: |
| <code scala> | <code scala> | ||
| def sumSet(b: Int)(start: Int, stop: Int)(set: Set): Int = { | def sumSet(b: Int)(start: Int, stop: Int)(set: Set): Int = { | ||
| Line 64: | Line 69: | ||
| </code> | </code> | ||
| - | **7.** Generalise the previous function such that we can **fold** a set using any binary commutative operation over integers. Make sure this is a **left** fold: Folding the set: ''{x,y,z}'' with ''b'' should produce: ''( (b op x) op y) op z'' | + | **8.** Generalise the previous function such that we can **fold** a set using any binary commutative operation over integers. Make sure this is a **left** fold: Folding the set: ''{x,y,z}'' with ''b'' should produce: ''( (b op x) op y) op z'' |
| <code scala> | <code scala> | ||
| def foldLeftSet | def foldLeftSet | ||
| Line 73: | Line 78: | ||
| </code> | </code> | ||
| - | **8.** Implement an alternative to the previous function, namely **foldRight**. Applying ''foldRight'' on the set ''{x,y,z}'' with ''b'' should produce: ''a op (b op (c op b))''. Use direct recursion instead of tail recursion. | + | **9.** Implement an alternative to the previous function, namely **foldRight**. Applying ''foldRight'' on the set ''{x,y,z}'' with ''b'' should produce: ''a op (b op (c op b))''. Use direct recursion instead of tail recursion. |
| <code scala> | <code scala> | ||
| def foldRightSet | def foldRightSet | ||
| Line 82: | Line 87: | ||
| </code> | </code> | ||
| - | **9.** Implement operation ''filter'' which takes a set and returns another one containing only those elements that satisfy the predicate: | + | **10.** Implement operation ''filter'' which takes a set and returns another one containing only those elements that satisfy the predicate: |
| <code scala> | <code scala> | ||
| def filter(p: Int => Boolean)(set: Set): Set = ??? | def filter(p: Int => Boolean)(set: Set): Set = ??? | ||
| </code> | </code> | ||
| - | **10.** Implement a function which **partitions** a set into two sets. The left-most contains those elements that satisfy the predicate, while the right-most contains those elements that do not satisfy the predicate. Use pairs. A pair is constructed with simple parentheses: ''(1,2)''. Suppose ''val p: (Int,Int)'' is a pair of two integers. Then ''p._1'' is the left-most part of the pair while ''p._2'' is the right-most part of the pair. | + | **11.** Implement a function which **partitions** a set into two sets. The left-most contains those elements that satisfy the predicate, while the right-most contains those elements that do not satisfy the predicate. Use pairs. A pair is constructed with simple parentheses. E.g. ''(1,2)'' is a pair of two integers. Suppose ''val p: (Int,Int)'' is another pair of two integers. Then ''p._1'' is the left-most part of the pair while ''p._2'' is the right-most part of the pair. |
| <code scala> | <code scala> | ||
| def partition(p: Int => Boolean)(set: Set): (Set,Set) = ??? | def partition(p: Int => Boolean)(set: Set): (Set,Set) = ??? | ||
| </code> | </code> | ||
| - | **11.** Implement a function ''forall'' which checks if all elements in a given range of a set satisfy a predicate (condition). (Such a condition may be that all elements from given bounds are even numbers). | + | **12.** Implement a function ''forall'' which checks if all elements in a given range of a set satisfy a predicate (condition). (Such a condition may be that all elements from given bounds are even numbers). |
| <code scala> | <code scala> | ||
| def forall(cond: Int => Boolean) // condition to be checked | def forall(cond: Int => Boolean) // condition to be checked | ||
| Line 100: | Line 105: | ||
| </code> | </code> | ||
| - | **12.** Implement a function ''exists'' which checks if a predicate holds for **some** element from the range of a set. Hint: it is easier to implement ''exists'' using the logical relation: $math[ \exists x. P(X) \iff \lnot \forall x.\lnot P(X)]. | + | **13.** Implement a function ''exists'' which checks if a predicate holds for **some** element from the range of a set. Hint: it is easier to implement ''exists'' using the logical relation: $math[ \exists x. P(X) \iff \lnot \forall x.\lnot P(X)]. |
| - | **13.** Implement the function ''setOfDivByK'' which returns the set of integers divisible by a value ''k''. Use the appropriate functions you have defined. | + | **14.** Implement the function ''setOfDivByK'' which returns the set of integers divisible by a value ''k''. Use the appropriate functions you have defined. |
| <code scala> | <code scala> | ||
| def setOfDivByK(k: Int): Set = ?? | def setOfDivByK(k: Int): Set = ?? | ||
| </code> | </code> | ||
| - | **14.** Implement the function ''moreDivs'' which verifies if ''set1'' contains more divisors of ''k'' than ''set2'', over the range ''[start,stop]''. Use any combination of the previous functions you have defined for your implementation. | + | **15.** Implement the function ''moreDivs'' which verifies if ''set1'' contains more divisors of ''k'' than ''set2'', over the range ''[start,stop]''. Use any combination of the previous functions you have defined for your implementation. |
| <code scala> | <code scala> | ||
| def moreDivs(k: Int)(start: Int, stop:Int)(set1: Set, set2: Set): Boolean = ??? | def moreDivs(k: Int)(start: Int, stop:Int)(set1: Set, set2: Set): Boolean = ??? | ||
| Line 116: | Line 121: | ||
| * Please follow the [[fp2023:submission-guidelines| Submission guidelines]] which are the same for all homework. | * Please follow the [[fp2023:submission-guidelines| Submission guidelines]] which are the same for all homework. | ||
| - | * To solve your homework, download the {{|Project template}}, import it in IntellIJ, and you are all set. Do not rename the project manually, as this may cause problems with IntellIJ. | + | * To solve your homework, download the {{:fp2023:hw1-functions-as-sets.zip|Project template}}, import it in IntellIJ, and you are all set. Do not rename the project manually, as this may cause problems with IntellIJ. |