Corning Community College
Project: SLL2
Errata
This section will document any updates applied to the project since original release:
Objective
In this project, we complete the node transactions core of our singly-linked list implementation by exploring the remaining functions: obtain(), clearlist(), rmlist(), swapnode(), and sortlist()
Project Overview
For this project, we're going to be implementing the following functions:
List *obtain (List *, Node **); // obtain/disconnect node from list
List *clearlist(List *); // empty an existing list
List *rmlist(List *); // deallocate list
List *swapnode(List *, Node *, Node *); // swap positions of given nodes in list
List *sortlist(List *, int); // sort list (according to mode)
list library
In src/list/, you will find 5 new C files:
obtain.c - which will house the list obtain function (to disconnect nodes from a list)
clear.c - which will handle clearing (emptying) the list
rm.c - which will handle deallocating (purging) the list
swap.c - which will handle swapping two nodes within a list
sort.c - which will house the list sort function
Take a look at the code there. These are the files that contain functions which will be compiled and archived into the list library (liblist.a) we will be using in this and future projects.
Figure out what is going on, make sure you understand it.
List library unit tests
In unit/list/, you will find these new files:
unit-obtain.c - unit test for obtain() library function
unit-clearlist.c - unit test for clearlist() library function
unit-rmlist.c - unit test for rmlist() library function
unit-swapnode.c - unit test for swapnode() library function
unit-sortlist.c - unit test for sortlist() library function
These are complete runnable programs (when compiled, and linked against the list library, which is all handled for you by the Makefile system in place).
Of particular importance, I want you to take a close look at:
list testing applications
palindrome
Now that we've completed our list functionality, we can use these individual functions to piece together solutions to various everyday problems where a list could be effective. After all, that's a big aspect to learning data structures- they open doors to new algorithms and problem solving capabilities.
Our first endeavor will be that of palindromes (ie words/phrases that, when reversed, spell the same thing).
This implementation will be considered an extra credit opportunity, so as to offer those who have fallen behind (but working to get caught up) a reprieve on some of the credit they've lost.
It is also highly recommended to undertake as it will give you further experience working with these concepts.
Expected Results
To assist you in verifying a correct implementation, a fully working implementation of the node library and list library (up to this point) should resemble the following:
node library
Here is what you should get for the node library:
lab46:~/src/SEMESTER/DESIG/sll2$ bin/verify-node.sh
====================================================
= Verifying Singly-Linked Node Functionality =
====================================================
[mknode] Total: 4, Matches: 4, Mismatches: 0
[cpnode] Total: 5, Matches: 5, Mismatches: 0
[rmnode] Total: 2, Matches: 2, Mismatches: 0
====================================================
[RESULTS] Total: 11, Matches: 11, Mismatches: 0
====================================================
lab46:~/src/SEMESTER/DESIG/sll2$
list library
Here is what you should get for all the functions completed so far in the list library (sll0+sll1+sll2):
lab46:~/src/SEMESTER/DESIG/sll2$ bin/verify-list.sh
======================================================
= Verifying Singly-Linked List Functionality =
======================================================
[mklist] Total: 5, Matches: 5, Mismatches: 0
[insert] Total: 11, Matches: 11, Mismatches: 0
[displayf] Total: 4, Matches: 4, Mismatches: 0
[getpos] Total: 8, Matches: 8, Mismatches: 0
[setpos] Total: 9, Matches: 9, Mismatches: 0
[append] Total: 11, Matches: 11, Mismatches: 0
[searchlist] Total: 11, Matches: 11, Mismatches: 0
[cplist] Total: 11, Matches: 11, Mismatches: 0
[displayb] Total: 6, Matches: 6, Mismatches: 0
[compare] Total: 15, Matches: 15, Mismatches: 0
[obtain] Total: 28, Matches: 28, Mismatches: 0
[clearlist] Total: 3, Matches: 3, Mismatches: 0
[rmlist] Total: 3, Matches: 3, Mismatches: 0
[swapnode] Total: 9, Matches: 9, Mismatches: 0
[sortlist] Total: 27, Matches: 27, Mismatches: 0
======================================================
[RESULTS] Total: 161, Matches: 161, Mismatches: 0
======================================================
lab46:~/src/SEMESTER/DESIG/sll2$
sll2 specific functions
And of course, the make check functionality will show you your current progress on sll2 specifically (be sure to run this and not get distracted by the others).
lab46:~/src/SEMESTER/DESIG/sll2$ make check
======================================================
= Verifying Singly-Linked List Functionality =
======================================================
[obtain] Total: 28, Matches: 28, Mismatches: 0
[clearlist] Total: 3, Matches: 3, Mismatches: 0
[rmlist] Total: 3, Matches: 3, Mismatches: 0
[swapnode] Total: 9, Matches: 9, Mismatches: 0
[sortlist] Total: 27, Matches: 27, Mismatches: 0
======================================================
[RESULTS] Total: 70, Matches: 70, Mismatches: 0
======================================================
lab46:~/src/SEMESTER/DESIG/sll2$
Submission
Project Submission
When you are done with the project and are ready to submit it, you simply run make submit:
lab46:~/src/SEMESTER/DESIG/PROJECT$ make submit
...
Submission Criteria
To be successful in this project, the following criteria must be met:
Project must be submit on time, by the posted deadline.
Early submissions will earn 1 bonus point per full day in advance of the deadline.
Late submissions will lose 33% credit per day, with the submission window closing on the 3rd day following the deadline.
To clarify: if a project is due on Wednesday (before its end), it would then be 33% off on Thursday, 66% off on Friday, and worth 0% once it becomes Saturday.
Certain projects may not have a late grace period, and the due date is the absolute end of things.
all requested functions must be implemented in the related library
all requested functionality must conform to stated requirements (either on this project page or in comment banner in source code files themselves).
Output generated must conform to any provided requirements and specifications (be it in writing or sample output)
Processing must be correct based on input given and output requested
Project header files are NOT to be altered. During evaluation the stock header files will be copied in, which could lead to compile-time problems.
Code must compile cleanly.
Code must be nicely and consistently indented (you may use the indent tool)
You are free to use your own coding style, but you must be consistent
Avoid unnecessary blank lines (some are good for readability, but do not go overboard- double-spacing your code will get points deducted).
Indentation will be rated on the following scale (worth 3 total points):
3/3: Aesthetically pleasing, pristine indentation, easy to read, organized
2/3: Mostly consistent indentation, but some distractions (superfluous or lacking blank lines, or some sort of “busy” ness to the code)
1/3: Some indentation issues, difficult to read
0/3: Lack of consistent indentation (didn't appear to try)
Unless fundamentally required, none of your code should perform any inventory or manual counting. Basing your algorithms off such fixed numbers complicates things, and is demonstrative of a more controlling nature.
Code must be commented
Any “to be implemented” comments MUST be removed
Commenting will be rated on the following scale (worth 3 total points):
3/3: Aesthetically pleasing (comments aligned or generally not distracting), easy to read, organized
2/3: Mostly consistent, some distractions or gaps in comments (not explaining important things)
1/3: Light commenting effort, not much time or energy appears to have been put in.
0/3: No original comments
should I deserve nice things, my terminal is usually 90 characters wide. So if you'd like to format your code not to exceed 90 character wide terminals (and avoid line wrapping comments), at least as reasonably as possible, those are two sure-fire ways of making a good impression on me with respect to code presentation and comments.
Sufficient comments explaining the point of provided logic MUST be present
Code must be appropriately modified
Appropriate modifications will be rated on the following scale (worth 3 total points):
3/3: Complete attention to detail, original-looking implementation- also is not unnecessarily reinventing existing functionality
2/3: Lacking some details (like variable initializations), but otherwise complete (still conforms, or conforms mostly to specifications), and reinvents some wheels
1/3: Incomplete implementation (typically lacking some obvious details/does not conform to specifications)
0/3: Incomplete implementation to the point of non-functionality (or was not started at all)
Implementation must be accurate with respect to the spirit/purpose of the project (if the focus is on exploring a certain algorithm to produce results, but you avoid the algorithm yet still produce the same results– that's what I'm talking about here).. worth 3 total points:
3/3: Implementation is in line with spirit of project
2/3: Some avoidance/shortcuts taken (note this does not mean optimization– you can optimize all you want, so long as it doesn't violate the spirit of the project).
1/3: Generally avoiding the spirit of the project (new, different things, resorting to old and familiar, despite it being against the directions)
0/3: entirely avoiding.
Error checking must be adequately and appropriately performed, according to the following scale (worth 3 total points):
3/3: Full and proper error checking performed for all reasonable cases, including queries for external resources and data.
2/3: Enough error checking performed to pass basic project requirements and work for most operational cases.
1/3: Minimal error checking, code is fragile (code may not work in full accordance with project requirements)
0/3: No error checking (code likely does not work in accordance with project requirements)
Any and all non-void functions written must have, at most, 1 return statement
Absolutely, positively NO (as in ZERO) use of goto statements.
Track/version the source code in a repository
Filling out any submit-time questionnaires
Submit a copy of your source code to me using the submit tool (make submit will do this) by the deadline.