Modelling a simple system: Difference between revisions

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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]].
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 [http://www.netlogoweb.org/launch#http://ccl.northwestern.edu/netlogo/models/models/Sample%20Models/Biology/Ants.nlogo understanding how this simulation works].


== The Problem ==
== The Problem ==


At a prestigious international school, we have only 5 administrators, Michael, Carol, Jen,  Constance and TJ. Your program should ask the user to type in their name. If their name matches one of our administrators, your program must output a special greeting. If the user input is any other name (does not match the list of administrators) your program should simply output a simple greeting.
This problem set has four different parts.We are starting simple and working our way up to more complexity.
 
=== Part 1 ===
 
# An ant is a little insect that generally isn't very cute and likes to eat things.
# An ant has an ID number. Each ID number is unique
# An ant has a boolean state named '''life''': alive or dead
# An ant has a boolean state named '''mode''' : looking for food, bringing food to nest
 
Create this model in python using a dictionary data type. Please save your file as ants.py. Please have two ants. Warning! Because this dictionary is going hold many ants, we need to use a [https://www.programiz.com/python-programming/nested-dictionary nested dictionary]. Please print the full dictionary for each ant.  


There is no testing for user input. That is, if a user enters a number, an integer, or nothing, your program should not evaluate the input.
=== Part 2 ===


== Unit Tests ==
# An ant should ALSO have a boolean state "moving" : yes or no
# An ant should ALSO have an attribute  "movement direction": North, South, West, East


* '''User Input:''' Name: Bill
Add these two states to each of your ants. Like before, please print the full dictionary for each ant.
* '''Expected output:''' Hello Bill


* '''User Input:''' Name: TJ
=== Part 3 ===
* '''Expected output:''' An administrator! Hello TJ
* '''User Input:''' Name: 123
* '''Expected output:''' Hello 123


== Hacker edition ==
# An ant should ALSO have a state which describes it's '''current position''' in X,Y coordinates:
## '''current position x''' : an integer between 0 and 100 for X position
## '''current position y''' : an integer between 0 and 100 for Y position


In the hacker version:
Add these these two states to each of your ants. Like before, please print the full dictionary for each ant.


* Your program should test for valid user input. The user input should be only allow for strings
=== Part 4 ===


THIS PART ISNT DONE YET
# Create a fixed-count loop. The loop should range from 0 to 10.
# Each iteration should represent one second.
# Each iteration, print the following attributes for each ant:
## moving?
## moving direction?
## alive?
## mode?
## current position X?
## current position Y?
 
Please don't complicate this. I just want to see textual output of 10 seconds, please. Also, don't worry about updating the position of the ant. I just need you to see what 10 seconds for our model looks like.


== How you will be assessed ==
== How you will be assessed ==
Line 72: Line 91:
<div class="mw-collapsible-content">
<div class="mw-collapsible-content">
<syntaxhighlight lang="python" >
<syntaxhighlight lang="python" >
# ========= 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"])


not yet!


</syntaxhighlight>
</syntaxhighlight>

Latest revision as of 21:21, 8 November 2020

This a problem set for you to work through [1]

This is a problem set. Some of these are easy, others are far more difficult. The purpose of these problems sets are:

  1. to build your skill applying computational thinking to a problem
  2. 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 understanding 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.

Part 1[edit]

  1. An ant is a little insect that generally isn't very cute and likes to eat things.
  2. An ant has an ID number. Each ID number is unique
  3. An ant has a boolean state named life: alive or dead
  4. An ant has a boolean state named mode : looking for food, bringing food to nest

Create this model in python using a dictionary data type. Please save your file as ants.py. Please have two ants. Warning! Because this dictionary is going hold many ants, we need to use a nested dictionary. Please print the full dictionary for each ant.

Part 2[edit]

  1. An ant should ALSO have a boolean state "moving" : yes or no
  2. An ant should ALSO have an attribute "movement direction": North, South, West, East

Add these two states to each of your ants. Like before, please print the full dictionary for each ant.

Part 3[edit]

  1. An ant should ALSO have a state which describes it's current position in X,Y coordinates:
    1. current position x : an integer between 0 and 100 for X position
    2. current position y : an integer between 0 and 100 for Y position

Add these these two states to each of your ants. Like before, please print the full dictionary for each ant.

Part 4[edit]

  1. Create a fixed-count loop. The loop should range from 0 to 10.
  2. Each iteration should represent one second.
  3. Each iteration, print the following attributes for each ant:
    1. moving?
    2. moving direction?
    3. alive?
    4. mode?
    5. current position X?
    6. current position Y?

Please don't complicate this. I just want to see textual output of 10 seconds, please. Also, don't worry about updating the position of the ant. I just need you to see what 10 seconds for our model looks like.

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"])