COMP 204 – Assignment #3
Python 程序代写 Submit one Python program on MyCourses, which should contain all your functions. The file should be called medical_diagnostic.py
Due date: November 5, 23:59
- Submit one Python program on MyCourses, which should contain all your functions. The file should be calledpy
- Write your name and student ID at the top of theprogram
- For each question, complete the relevant function(s). Do not change the functions’ name or arguments. You can create additional functions if
- Do not use any modules or any pieces of code you did not write
- For each question, your function will be automatically tested on a variety of test cases, which will account for 75% of the
- For each question, 25%of the mark will be assigned by the TA based on (i) Re-‐use of functions as appropriate; (ii) appropriate naming of variables; (iii) commenting of your program; (iv) simplicity of your program (simpler = better).
- Importantnotes: This assignment focuses a lot on software re-‐us You will be writing several functions. Some of those functions should call other functions in order to re-‐use the code already written. Make sure to re-‐use your functions as much as needed!
Background: Python 程序代写
Your task in this assignment is to write a program that will help doctors make disease diagnostics based on a patient’s symptom. This will be achieved by comparing a new patient’s symptoms to a database of patients containing both their symptoms and their diagnostic. Given a patient X with a certain set of symptoms, your diagnostic help to the doctor will be obtained by identifying, among the patients in the database, those whose symptoms are most similar to those of patient X. This is actually a commonly used approach in artificial intelligence, called k-‐nearest neighbors classification, although everything you need to know about k-‐nearest neighbors classification is contained in this assignment.
Download medical_diagnostic.py from MyCourses.Python 程序代写
The file contains several functions that you will need to complete. It also contains the my_test() function, which calls each of the functions you will write. The expected (correct) output for several examples is given in the file my_test_output.txt. Use this to make sure that you understand what every function is expected to do and to test your own code. Note: You will not be able to run the my_test() function before you complete all the functions it calls. In order you to test your functions one at a time, comment out the portions of the my_test() function that call functions you have not yet written.
Data representation: Python 程序代写
- Each patient is identified using an integer identifier (e.g.56374).
- Each symptoms is a string such as “headache” or“fever”.
- Each diagnostic is a string such as “cold” or“meningitis”
- Symptoms for a given patient are stored in a tuple of two sets: the first set contains the symptoms that are present in the patient; the second set contains the symptoms that are observed not to be present (i.e.absent).
- For example, a patient with coughing, runny nose, and sneezing, but no headache and no fever would be representedas:
({“coughing”, “runny_nose”, “sneezing”}, {“headache”,”fever”})
- Note that for a given patient, information may be missing about whether or not a patient has a symptom. For example, in the example above we don’t know if the patient has a sore Python 程序代写
- The set of symptoms of all the patients in our database is represented using a dictionary, whose keys are the patient identifiers, and values are the tuples of symptoms. Forexample:
all_patients_symptoms = { 45437: ({“coughing”, “runny_nose”},{“headache”,”fever”}), 16372: ({“coughing”, “sore_throat”},{“fever”}), 54324: ({“vomiting”, “coughing”,”stomach_pain”},{“fever”}), 35249: ({“sore_throat”, “coughing”,”fever”},{“stomach_pain”, “runny_nose”}), 74821: ({“vomiting”, “fever”},{“headache”}), 94231: ({“stomach_pain”,”fever”,”sore_throat”,”coughing”,”headache”},{“vomiting”}) }
o The diagnostic given to each patient in our database is stored in another dictionary, with keys equal to the patient identifiers and values corresponding to a string. For example: Python 程序代写
all_patients_diagnostics= {45437: “cold”, 56374:”meningitis”, 54324:”food poisoning”, 16372:”cold”, 35249:”pharyngitis”, 44274:”meningitis”, 74821:”food poisoning”, 94231:”unknown”}
Good to know before you start:
o Suppose you have a list of tuples and you want to sort the list based on the elements at a particular index of the tuple. Example: sort a list of tuples based on the values at index 1 of the tuples.
[ (“”A”,8), (“B”,4),(“C”,7),(“D”,2),(“E”,3) ] -‐> [ (“”D”,2), (“E”,3),(“B”,4),(“C”,7),(“A”,8) ]The List type has a sort() function, but how to tell the sort function what element of the tuple to look at? First, define a small function that takes an as argument a tuple and returns element at index 1 of the tuple:
def getKey1(item): return item[1]Python 程序代写
Then, tell the sort() function to use the getKey1() function to select the keys to base the sorting upon. This is done by passing the getKey1 function as a keyword argument to the sort function. (Yes, functions can be passed as arguments to other functions!).
someList.sort(key=getKey1)
To sort in reverse order:
someList.sort(key=getKey1, reverse=True)
Question 1 (10 Points) Python 程序代写
Complete the symptom_similarity() function, which measures the similarity between the symptoms of two patients. See below for an explanation of how the similarity is computed, and see my_test() function for examples.Python program1代写
def symptom_similarity(my_symptoms, other_symptoms): “””
Args: my_symptoms: tuple of a set of symptoms present and a set of symptoms absent other_symptoms: tuple of a set of symptoms present and set symptoms absent Returns: common_present + common_absent – common_present_absent – common_absent_present where common_present is the number of symptoms present in both patients common_absent is the number of symptoms absent in both patients common_present_absent is the number of symptoms present in my_patient and absent in other_patient common_absent_present is the number of symptoms absent in my_patient and present in other_patient “””
Question 2 (10 Points) Python 程序代写
Complete the similarity_to_patients() function, which measure the similarity between a symptom tuple and the entire set of patients in our database. See below for an explanation of exactly what is expected, and see my_test() function for examples.
def similarity_to_patients(my_symptoms, all_patients): “”” Args: my_symptoms: tuple of symptoms present and absent all_patients: dictionary of patients IDs (key) and associated tuple of present and absent symptoms Returns: List of tuples of the form: (patientID, similarity), sorted by the similarity between my_symptoms and the symptoms of each patient in all_patients. “””
Question 3 (15 Points)
Write the most_similar_patients() function, which identifies the patients that have symptoms that are the most similar to those of a new patient. See below for an explanation of exactly what is expected, and see my_test() function for examples.
def most_similar_patients(my_symptoms, all_patients, n_top): “”” Args: my_symptoms: tuple of a set of symptoms present and absent all_patients: dictionary of patients IDs (key) and associated tuple of present and absent symptoms n_top: Maximum number of patients to return Returns: The set of up to n_top patient IDs from all_patients with the highest similarity to my_symptoms “””
Question 4 (15 Points)
Write the count_diagnostics() function, which counts, among a set of patients, what fraction exhibit each possible diagnostic. See below for an explanation of exactly what is expected, and see my_test() function for examples.Python 程序代写
def count_diagnostics(patient_set, diagnostic_by_patient): “”” Args: patient_set: A set of patient IDs diagnostic_by_patient: A dictionary with key = patient_ID and values = diseases Returns: A dictionary with keys = diagnostic and values = fraction of patients in patient_set with that diagnostic “””
Question 5 (10 Points)
Write the diagnostics_from_symptoms () function, which assesses the probability of different diagnostics based on a patient’s symptoms. It does so by using the most_similar_patients() and count_diagnostics() functions. See below for an explanation of exactly what is expected, and see my_test() function for examples.Python 程序代写
def diagnostics_from_symptoms(my_symptoms, all_patients_symptoms, all_patients_diagnostics, n_top): “”” Args: my_symptoms: tuple of symptoms present and absent all_patients_symptoms: dictionary of patients IDs (key) and associated symptoms all_patients_diagnostics: dictionary of patients IDs (key) and associated diagnostic n_top: Number of most similar patients to consider.Python program1代写 Returns: A dictionary with keys = diagnostic and values = fraction of the n_top most similar patients with that diagnostic “””
Question 6 (15 Points)
Write the pretty_print_diagnostics() function, which prints in a nicely formatted manner the frequency of diagnostics of the patients contained in the set it receives as argument. See below for an explanation of exactly what is expected, and see my_test() function for examples.Python 程序代写
def pretty_print_diagnostics(diagnostic_freq): “”” Args: diagnostic_freq: A dictionary with key = diagnostic and value = frequency Returns: Nothing Prints: A table of possible diagnostics, sorted by frequency, expressed as percentages. Only diagnostics with non-zero percentages should be printed.Python program1代写 If a diagnostic is longer than 10 characters, it should be truncated to 10 Characters. Frequencies should be expressed as percentages, rounded to the nearest percent. “””
Question 7 (25 Points)
When the diagnostic for a patient is unclear based on the symptoms that are present/absent, a doctor may want to ask for additional information about the symptoms of the patient. For example, for a patient who has a headache but no stomach ache, the doctor may want to enquire whether the patient has a stiff neck, which would suggest he/she may have meningitis.Python 程序代写
But which symptom should the doctor ask about? They should be asking about the symptom for which the answer would be the most informative with respect to the diagnostic. Suppose that we define the clarity of a list of diagnostic frequencies as the probability of the most likely diagnostic. For example, the clarity of the diagnostic { “meningitis”:0.8, “cold”:0.1, “flu”:0.1 } is 0.8. Suppose a patient has a certain set P of symptoms known to be present and a certain set A of symptoms known to be absent. Then, the value of asking the question “Do you have symptom X?” is defined as
Value( X ) = max( clarity ( diagnostic ( P ∪ { X }, A ),
clarity ( diagnostic ( P , A ∪ { X } ),
Write the recommend_symptom_to_test() function, that recommends the maximum value symptom to enquire about. See below for an explanation of exactly what is expected, and see my_test() function for examples.Python 程序代写
def recommend_symptom_to_test(my_symptoms, all_patients_symptoms,
all_patients_diagnostics, n_top):
“””
Args:
my_symptoms: tuple of symptoms present and absent
all_patients_symptoms: dictionary of patients IDs (key) and associated symptoms all_patients_diagnostics: dictionary of patients IDs (key) and associated
diagnosticPython 程序代写
n_top: Number of most similar patients to consider.
Returns:
A string describing the best symptom to enquire about in order to clarify the diagnostic.Python 程序代写
Explanation:
The best symptom to test for is one that:
- has been tested at least once among the patients inall_patients_symptoms
- is not already in the new_patient_symptoms,and
- yields the maximum value (see text of question for definition ofvalue).
“””
Just for fun ( Nothing to submit for this).
The approach you have implemented works best when the number of patients in the database is large. We have created a database of 1000 (fake) patients, with their symptoms and diagnostics. This is contained in the file medicalData.txt . We also provide you with the function read_data_from_file(), which will read the data contained in the file and build the symptoms and diagnostics dictionaries.Python 程序代写
def read_data_from_file(filename): “”” args: filename: Name of file containing medical data Returns: Tuple of a dictionary of symptoms and a dictionary of diagnostics “””
See our my_test() function to see the results of the different functions on this larger patient database. Compare those results to yours to ensure your functions work properly.
其他代写:考试助攻 计算机代写 java代写 assembly代写 function代写paper代写 金融经济统计代写 web代写 编程代写 report代写 数学代写 finance代写 java代写 python代写 code代写 代码代写 project代写 Exercise代写 assembly代写
