My first homework project for CS 410 Computer Game Design at Portland State University, taught by Dr. Bart Massey.
A remaking of the classic Robot Finds Kitten (RFK) game targeting an entirely different player experience.
If you have Python 3.11.3 or another compatible version:
- Create an environment
- Run
pip install -r requirements.txt - Run
py robot-finds-kitten.py
-
With my changes to RFK, I want to create a more challenging puzzle/strategy game-like experience where finding the kitten is hard enough that the player may not be able to do it every round unless they play well. I want to encourage minimalist pathing between objects and finding the kitten as fast as possible, turning this into more of a puzzle-/strategy-like game in terms of finding that minimal path.
-
My objects (symbols will be marked
thusly):-
Battery (
I) - consume to immediately regain a random, small percentage of battery life -
Portable Charger (
d) - consume and the next few steps (random amount) will cost no battery life -
Wall (
@) - multi-space, blocks path -
Wall socket (
:) - interact for multiple turns to recharge as much as desired -
Enhanced parts (
*) - can interact with objects from further away (can stack)
-
-
Each step or every few steps costs some battery life, and the robot must find the kitten before running completely out. This is, in effect, a timer but is much easier to implement as the value only changes when the player makes a move. Using a battery metaphor instead of a normal clock timer also allows for a more fitting, "robot-flavored" take on the limited time idea.
-
Because I tested each feature in some common edge cases as I implemented them, I am fairly confident the game is bug-free. However, extremely extreme edge case bugs that I haven't yet thought of may still be possible.
-
Overall, my playtester had a very easy time with finding the kitten before their battery ran out. The times they did lose were early on in the session where they were unfamiliar with how items worked. It was not very tense at all, which could be attributed both to the high starting battery total and how abundant the items were. The fact that the kitten was highlighted and conspicuous also took away from the intensity; I intended for that feature to allow the player to focus on finding the best path and collecting the best items along the way, but their first instinct was to make a mad dash for the kitten, ignoring any items until the end was near.
-
The experience arises from the game and its elements, and I did not fully account for how the original RFK's elements added to its experience. While the hidden kitten allows and incentivizes one to focus more on the searching journey, checking each item along the way, it also added a little bit of tension as the player wonders "where is it going to be this time?" and "is it this one? That one?" Revealing the kitten takes that away and forces my version to rely solely on the battery mechanic to create tension.
-
My "AAA" version would include more potential items to interact with and thus more ways to obstruct or help the player. Since I have been on a modern roguelike kick with Supergiant's Hades, It could include multiple randomly generated levels, in which objects spawn at different rates to vary the difficulty. Another possible route would be to have hand-crafted levels to take this more into a puzzle-like direction.
The start of the project was very rough with trying to decide on a
language to use and find a corresponding terminal ASCII graphics
library. I could not find one for C# with clear build instructions and
I made good headway with C++ before realizing I had no clue how to
export it with the correct .dlls for others to play without using
my machine. I finally settled on Python as the remote playtesters I
had in mind all had Python interpreters.
After that gigantic mess of a hurdle, creating the game was not very difficult since the logic is very simple. The more difficult part was deciding how and where to draw the boundaries between my objects and how to keep them separate and encapsulated while still allowing interaction for my desired special effects. While I found a solution that works, I am unsure of whether this would scale. Playtesting was surprisingly easy and painless, likely also because the game is so simple. Some failures with my design (in terms of the desired player experience) were also obvious from the start.
- From here, I would like to fix the existing issues I found while play-testing which include: making the directions more prominent, including movement controls on the help screen, lowering the starting battery value, and adding a restart button for easy replayability. After that, I would do more play-testing until this core was strong, then build on it to eventually reach that "AAA" version mentioned in question 7.