# Sample Python Exam Problem Solutions

From EECS 182

Sample Python Exam Problem Solutions

Line 10: | Line 10: | ||

Some examples: | Some examples: | ||

− | mylist().append(4).append(3).last(): same as 3 | + | * mylist().append(4).append(3).last(): same as 3 |

− | mylist().append(4).append(3).pop(): same as mylist().append(4) | + | * mylist().append(4).append(3).pop(): same as mylist().append(4) |

− | mylist().append(4).isempty(): False | + | * mylist().append(4).isempty(): False |

− | mylist().append(4).pop().isempty(): True | + | * mylist().append(4).pop().isempty(): True |

Given the above mylist type, implement the following functions only using the above interface to mylist. | Given the above mylist type, implement the following functions only using the above interface to mylist. |

## Revision as of 01:17, December 5, 2012

Problem: You are given a special type of List called mylist that has only a subset of functionality of Python lists. It provides the following methods:

- mylist(): creates an empty mylist object
- L.append(item): returns a new mylist that contains all the elements of L followed by item. Note that L is not modified.
- L.pop(): returns a new mylist object containing all the elements of mylist L in the same order, except the last one. Note that L is not modified. L assumed to be non-empty.
- L.last(): returns the last element of L. L assumed to be non-empty.
- L[index1:index2]: returns a new mylist that contains elements from position index1 to index2-1 (inclusive). Indexing starts at 0.
- L.isempty(): returns True if L is empty object. Else it returns False.

Some examples:

- mylist().append(4).append(3).last(): same as 3
- mylist().append(4).append(3).pop(): same as mylist().append(4)
- mylist().append(4).isempty(): False
- mylist().append(4).pop().isempty(): True

Given the above mylist type, implement the following functions only using the above interface to mylist.

C. lookup(L, k): return the kth item in the mylist, where indexing starts at 0.

D. concat(L1, L2): returns a mylist that is a concatenation of L1 and L2.

E. insert_first(item, L): returns a mylist that contains item followed by items in L, in sequence.

F. len(L): returns the number of objects in mylist.

All the methods are non-destructive, in the sense that the parameter L need not be modified.