Modelling and simulating a more complex system
This is a problem set. Some of these are easy, others are far more difficult. The purpose of these problems sets are:
- to build your skill applying computational thinking to a problem
- to assess your knowledge and skills of different programming practices
What is this problem set trying to do[edit]
This problem set is linked to modeling and Simulation. We are applying our knowledge and understanding of dictionaries, conditionals, computational thinking & problem-solving and iteration.
Please understand how this simulation works.
The Problem[edit]
This problem set has four different parts.We are starting simple and working our way up to more complexity. Please make sure you complete Modelling a simple system part one of our problem set.
Part 1[edit]
How you will be assessed[edit]
Your solution will be graded using the following axis:
Scope
- To what extent does your code implement the features required by our specification?
- To what extent is there evidence of effort?
Correctness
- To what extent did your code meet specifications?
- To what extent did your code meet unit tests?
- To what extent is your code free of bugs?
Design
- To what extent is your code written well (i.e. clearly, efficiently, elegantly, and/or logically)?
- To what extent is your code eliminating repetition?
- To what extent is your code using functions appropriately?
Style
- To what extent is your code readable?
- To what extent is your code commented?
- To what extent are your variables well named?
- To what extent do you adhere to style guide?
References[edit]
A possible solution[edit]
Click the expand link to see one possible solution, but NOT before you have tried and failed!
# ========= PART ONE ============
ants = {
1: {
"life": "alive",
"state": "looking for food"
},
2: {
"life": "alive",
"state": "bringing food to nest"
}
}
print("Ant 1 is: ", ants[1])
print("Ant 2 is: ", ants[2])
# ================ PART TWO ===============
ants = {
1: {
"life": "alive",
"state": "looking for food",
"moving": "yes",
"movement direction": "North"
},
2: {
"life": "alive",
"state": "bringing food to nest",
"moving": "yes",
"movement direction": "North"
}
}
print("Ant 1 is: ", ants[1])
print("Ant 2 is: ", ants[2])
# ======== PART THREE =========
ants = {
1: {
"life": "alive",
"state": "looking for food",
"moving": "yes",
"movement direction": "North",
"current position x": 0,
"current position y": 0
},
2: {
"life": "alive",
"state": "bringing food to nest",
"moving": "yes",
"movement direction": "North",
"current position x": 100,
"current position y": 100
}
}
print("Ant 1 is: ", ants[1])
print("Ant 2 is: ", ants[2])
# ======== PART FOUR =========
ants = {
1: {
"life": "alive",
"state": "looking for food",
"moving": "yes",
"movement direction": "North",
"current position x": 0,
"current position y": 0
},
2: {
"life": "alive",
"state": "bringing food to nest",
"moving": "no",
"movement direction": "North",
"current position x": 100,
"current position y": 100
}
}
print("Ant 1 is: ", ants[1])
print("Ant 2 is: ", ants[2])
for i in range(0,5):
print("=== Second ", i, "===")
for j in ants.keys():
print("Ant ", j, " moving: ", ants[j]["moving"])
print("Ant ", j, " moving direction: ", ants[j]["movement direction"])
print("Ant ", j, " life: ", ants[j]["life"])
print("Ant ", j, " state: ", ants[j]["state"])
print("Ant ", j, " current position x ", ants[j]["current position x"])
print("Ant ", j, " current position y: ", ants[j]["current position y"])