Corning Community College
CSCS2320 Data Structures
To continue to enhance our ability to explore various algorithmic and computing realms through the exploration and cultivation of debugging and troubleshooting skills, and collaboratively authoring and documenting the project and its specifications.
As our list data structure was built atop nodes, here we have a new data structure, groups, built atop lists: groups of lists! Intended as an opportunity for you to better exercise your conceptual understanding of everything (it should seem more similar than different to what came before).
To assist with consistency across all implementations, project files for use with this project, along with the integration of the work you did on the last project, is made possible via a special recipe in the Makefile.
Simply go into the project base directory, and run:
lab46:~/src/SEMESTER/DESIG/prevPROJECT$ make upgrade-sll4
You will want to go here to edit and fill in the various sections of the document:
If you are getting unexplainable build errors on your own system when you run 'make default' after already running 'make clean', it can be one of two things.
Firstly, it can be because your using the wrong version of gcc, the sll4 project files can only compile with version 9 of gcc. You can use the same version of gcc as lab46 by using the following commands (assuming you are using a Raspberry Pi with it's default OS) in this link: https://gist.github.com/sol-prog/95e4e7e3674ac819179acf33172de8a9
If that does not fix the problem then you need to edit one of the Makefiles in the sll4 project directory. The offending Makefile is in the /src/list/ directory. Run the following command to edit that file:
USER@SYSTEM:$ nano ~/src/SEMESTER/DESIG/sll4/src/list/Makefile
remove the following line of code (after the line that says lib:
)
@date +'%Y%m%d%H%M%S' >> /var/public/$(SEMESTER)/$(DESIG)/$(PROJ)/.updates/.metrics/${USER}
You might have to change the semester to fall2022 instead of having it check for the semester by checking the directory. You can delete what SEMESTER is set to and insert fall2022 instead.
Note that if you are working on your pi there may be no semester file to begin with, so to create it simply use cd /usr/local/etc/ to go to the relevant location, use sudo su to gain root access, create a file named “semester”, and insert “fall2022” into it. Then use can exit root with the “exit” command to decrease the likelihood of doing something you shouldn't.
Then try building the project again.
Once you upgrade to SLL4, you will now have a new file within the inc/
directory called group.h
.
Group is a new struct of data that will hold and link lists together. Just like you have a list of nodes, you will now have a group of lists, or a list of lists if you may.
In group struct:
List *initial; // pointer to first list List *closing; // pointer to last list
Group has eight new list-group-processing functions, that are in charge of manipulating lists within our data structure. Going up one level of abstraction, lists are the new nodes! At this level, we are not worrying about manipulating nodes anymore, but only the node containers; in other words, we are only focusing on the addresses/pointers that hold lists, no more node processing this time.
Take care to check the unit-test files for other functions that are being called in the event that you have not yet implemented them.
You have to get these group.h functions working:
*Our task is to ask questions on Discord or in class and document our findings on this wiki page collaboratively, regarding the functionality of this project.
*For anybody interested in editing the wiki page, here is the dokuwiki user guide: https://www.dokuwiki.org/wiki:syntax#basic_text_formatting -Ash
Functions should be similar if not identical to the previous functions located in /src/list/. As for a recommended way to complete these. It is highly recommended to reference (or even copy and modify if possible) your previous functions. This will drastically decrease your time spent on the project. When display is not finished, it will output “NOT YET IMPLEMENTED”.
For Ldisplay() the return value on success should be the number of lists printed. If the pos variable is 0 or greater, then it should always return 1 since only 1 list is being displayed. If pos is equal to -1, then it should return the total amount of lists in the group, or total displayed.
Output should conform to the output of the unit tests, anything other than what is displayed inside the unit test is optional. If you are outputting anything other than the unit test, it would be a good idea to make sure it's fine instead of losing points trying to guess whether or not it is fine.
ldisplay()'s behavior indicates that “on an error state, output ”<ERROR>“, return -2”, the error state in this case would be an invalid position.
Unit tests will rely upon one another as input/output/modifications to the list. A good majority of the functions call on display, so if you haven't completed display while checking it might lead to some issues. Make sure if you are getting issues that it isn't the unit test calling upon a not yet implemented function. Your display function will print NOT YET IMPLEMENTED if it isn't finished yet. Also, for some functions such as append, you might want to first do getpos/setpos, that way it will be easier to implement.
An errors file will be created after running make, this may be helpful if things aren't compiling correctly.
Useful tools for debugging issues are gdb and examining the test files themselves. to utilize gdb, run the test program with the gdb command (not make check), with a command that might look like “gdb ./bin/unit-lobtain”. Once in gdb the “run” command with start the program, and “break (line number)” will cause the program to stop at the specified line number. Once you have hit the breakpoint you can use “display (variable name)” to see the value of a variable at every step, “n” to step to the next line, and “continue” to continue running the program until the next breakpoint. Note that if you encounter a seg fault the program will tell the where the seg fault occurs, and you can use “run” again to restart the program.
To be successful in this project, the following criteria (or their equivalent) must be met:
Let's say you have completed work on the project, and are ready to submit, you would do the following (assuming you have a program called uom0.c):
lab46:~/src/SEMESTER/DESIG/PROJECT$ make submit
You should get some sort of confirmation indicating successful submission if all went according to plan. If not, check for typos and or locational mismatches.
I'll be evaluating the project based on the following criteria:
91:sll4:final tally of results (91/91) *:sll4:obtained project by the Sunday prior to duedate [13/13] *:sll4:clean compile, no compiler messages [13/13] *:sll4:implementation passes unit tests [13/13] *:sll4:adequate modifications to code from template [13/13] *:sll4:program operations conform to project specifications [26/26] *:sll4:code tracked in lab46 semester repo [13/13]