NETB201 - Test_1
Mark the correct/incorrect
definitions and assertions about linear data structures.
(yes) A stack is a container of objects that are inserted and
removed according to the last-in first-out (LIFO) principle.
(no) A singly linked list is an ADT which consists of collection of
nodes.
Let us have stack ADT with
n elements realized by an array. Mark the correct/incorrect
correspondence between a function of this ADT and its running time.
(yes) size() - O(1)
(no) isEmpty() - O(n)
Let us have a stack ADT with n
elements realized by a singly linked list.Mark the
correct/incorrect correspondence between a function of this ADT and its running time.
(yes) size() - O(1)
(no) isEmpty() - O(n)
Let us have a queue ADT with n
elements realized by an array. Mark the correct/incorrect
correspondence between a function of this ADT and its running
time.
(yes) size() - O(1)
(no) isEmpty() - O(n2)
Let us have a queue ADT with n
elements realized by a singly linked list. Mark the
correct/incorrect correspondence between a function of this ADT
and its running time.
(no) size() - O(n)
(yes) isEmpty() - O(1)
Let us have a deque ADT with n
elements realized by a doubly linked list. Mark the
correct/incorrect correspondence between a function of this ADT
and its running time.
(yes) size() - O(1)
(no) isEmpty() - O(log n)
Let us have a vector ADT with n
elements realized by an array. Mark the correct/incorrect
correspondence between a function of this ADT and its running
time.
(yes) size() - O(1)
(no) isEmpty() - O(n)
Let us have a list ADT with n
elements realized by an array. Suppose that the position means the
index. Mark the correct/incorrect correspondence between a given
function of this ADT and its running time.
(no) size() - O(n)
(yes) isEmpty() - O(1)
Let us have a list ADT with n
elements realized by a doubly linked list. Mark the
correct/incorrect correspondence between a function of this ADT and its running time.
(no) size() - O(n)
(yes) isEmpty() - O(1)
Let us have a stack ADT S =
(9,7,2) with top element 2. For a stack operation, determine its
return value and its effect on S.
(yes) push(5) - NONE - S=(9,7,2,5)
(no) push(3) - 3 - S=(9,7,3)
Let us have a queue ADT Q =
(8,7,2). The front element is 8. For a queue operation, determine
its return value and its effect on Q.
(yes) enqueue(5) - NONE - Q=(8,7,2,5)
(no) enqueue(7) - 7 - Q=(8,7,2,7)
Let us have a deque ADT D =
(8,1,2). The front element is 8. For a deque operation, determine
its return value and its effect on D.
(no) isEmpty() - true - D =(8,1,2)
(yes) size() - 3 - D =(8,1,2)
Let us have a vector ADT V =
(4,7,2). For a vector operation, determine its return value and
its effect on V.
(yes) insert 1 at rank 0 - NONE - (1,4,7,2)
(no) insert 2 at rank 1 - NONE - (2,4,7,2)
Let us have a list ADT L = p_1(8)
-> p_2(3). We use positions p_1, p_2 etc. and show the object
currently stored at the position in parentheses. For a list
operation, determine its return value and its effect on L.
(yes) insertFirst(2), p_4(2), p_4(2) -> p_1(8) -> p_2(3)
(no) insertFirst(4), p_3(4), p_3(4) -> p_2(3)
Mark correct/incorrect definitions
about asymptotic notation.
(yes) f(n) is O(g(n)) if there are positive constants c and N such
that f(n)<cg(n) for n>N.
(no) g(n) is O(f(n)) if there are positive constants c and N such
that f(n)<cg(n) for n>N.
Is the following assertion true?
(yes) The running time of an algorithm typically grows with the
input size.
(no) If is f(n) a polynomial of degree d, then f(n) is O(dn).
Mark correct/incorrect assertions
about asymptotic notation for concrete functions.
(yes) 2n + 10 is O(n)
(no) n + n2 is O(n)
Let d(n), e(n), f(n) and g(n) be
functions mapping nonnegative integers to nonnegative reals. Is
the following propositions true?
(yes) If d(n) is O(f(n)), then a+d(n) is O(f(n)) for any constant a.
(no) If d(n) is O(f(n)) and e(n) is O(2n), then d(n)e(n)
is O(n2 f(n)).
We have a function template:
template<typename T>
T maxA(T*
arr, int s = 2)
{ T maxVal
= arr[0];
for
(int i = 1; i < s; i++)
if
(arr[i] > maxVal) maxVal = arr[i];
return
maxVal;
}
Mark correct/incorrect assertions
or statements in the body of main function.
(yes) int a[3]={2,1,4}; cout << maxA(a,3);
(no) cout << maxA(10);
We have the following code
fragment:
void fun3()
{ throw runtime_error("RTE" ); }
void fun2()
throw(runtime_error) { ... }
void fun1()
throw(runtime_error) { fun2(); }
int main()
{ try {
fun1(); }
catch
(runtime_error e) { cout << e.what(); }
return 0;
}
Replacing ... with the given below
statement, the message RTE prints on the screen. Is this assertion
true?
(yes) fun3();
(no) fun1();
Mark the correct/incorrect
definitions and assertions about abstract data types.
(yes) The adapter design pattern adjusts functions from one ADT
class so they can be used to implement functions of another ADT
class.
(no) The running times of functions in the realization of a deque
ADT by a doubly linked list are all O(n).
Look Code Fragment: NodeSequence2. Mark the correct/incorrect assertions.
(yes) The function rankOf returns the rank of the element
at position p.
(no) trailer is a datum defined in the class NodeSequence<Object>.