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| import time | |
| import pandas as pd | |
| import sys | |
| class DataPreprocessor: | |
| def __init__(self, input_file_path): | |
| self.input_file_path = input_file_path | |
| self.unique_students = None | |
| self.unique_problems = None | |
| self.unique_prob_hierarchy = None | |
| self.unique_steps = None | |
| self.unique_kcs = None | |
| def analyze_dataset(self): | |
| file_iterator = self.load_file_iterator() | |
| start_time = time.time() | |
| self.unique_students = {"st"} | |
| self.unique_problems = {"pr"} | |
| self.unique_prob_hierarchy = {"ph"} | |
| self.unique_kcs = {"kc"} | |
| for chunk_data in file_iterator: | |
| for student_id, std_groups in chunk_data.groupby('Anon Student Id'): | |
| self.unique_students.update({student_id}) | |
| prob_hierarchy = std_groups.groupby('Level (Workspace Id)') | |
| for hierarchy, hierarchy_groups in prob_hierarchy: | |
| self.unique_prob_hierarchy.update({hierarchy}) | |
| prob_name = hierarchy_groups.groupby('Problem Name') | |
| for problem_name, prob_name_groups in prob_name: | |
| self.unique_problems.update({problem_name}) | |
| sub_skills = prob_name_groups['KC Model(MATHia)'] | |
| for a in sub_skills: | |
| if str(a) != "nan": | |
| temp = a.split("~~") | |
| for kc in temp: | |
| self.unique_kcs.update({kc}) | |
| self.unique_students.remove("st") | |
| self.unique_problems.remove("pr") | |
| self.unique_prob_hierarchy.remove("ph") | |
| self.unique_kcs.remove("kc") | |
| end_time = time.time() | |
| print("Time Taken to analyze dataset = ", end_time - start_time) | |
| print("Length of unique students->", len(self.unique_students)) | |
| print("Length of unique problems->", len(self.unique_problems)) | |
| print("Length of unique problem hierarchy->", len(self.unique_prob_hierarchy)) | |
| print("Length of Unique Knowledge components ->", len(self.unique_kcs)) | |
| def analyze_dataset_by_section(self, workspace_name): | |
| file_iterator = self.load_file_iterator() | |
| start_time = time.time() | |
| self.unique_students = {"st"} | |
| self.unique_problems = {"pr"} | |
| self.unique_prob_hierarchy = {"ph"} | |
| self.unique_steps = {"s"} | |
| self.unique_kcs = {"kc"} | |
| # with open("workspace_info.txt", 'a') as f: | |
| # sys.stdout = f | |
| for chunk_data in file_iterator: | |
| for student_id, std_groups in chunk_data.groupby('Anon Student Id'): | |
| prob_hierarchy = std_groups.groupby('Level (Workspace Id)') | |
| for hierarchy, hierarchy_groups in prob_hierarchy: | |
| if workspace_name == hierarchy: | |
| # print("Workspace : ", hierarchy) | |
| self.unique_students.update({student_id}) | |
| self.unique_prob_hierarchy.update({hierarchy}) | |
| prob_name = hierarchy_groups.groupby('Problem Name') | |
| for problem_name, prob_name_groups in prob_name: | |
| self.unique_problems.update({problem_name}) | |
| step_names = prob_name_groups['Step Name'] | |
| sub_skills = prob_name_groups['KC Model(MATHia)'] | |
| for step in step_names: | |
| if str(step) != "nan": | |
| self.unique_steps.update({step}) | |
| for a in sub_skills: | |
| if str(a) != "nan": | |
| temp = a.split("~~") | |
| for kc in temp: | |
| self.unique_kcs.update({kc}) | |
| self.unique_problems.remove("pr") | |
| self.unique_prob_hierarchy.remove("ph") | |
| self.unique_steps.remove("s") | |
| self.unique_kcs.remove("kc") | |
| end_time = time.time() | |
| print("Time Taken to analyze dataset = ", end_time - start_time) | |
| print("Workspace-> ",workspace_name) | |
| print("Length of unique students->", len(self.unique_students)) | |
| print("Length of unique problems->", len(self.unique_problems)) | |
| print("Length of unique problem hierarchy->", len(self.unique_prob_hierarchy)) | |
| print("Length of unique step names ->", len(self.unique_steps)) | |
| print("Length of unique knowledge components ->", len(self.unique_kcs)) | |
| # f.close() | |
| # sys.stdout = sys.__stdout__ | |
| def analyze_dataset_by_school(self, workspace_name, school_id=None): | |
| file_iterator = self.load_file_iterator(sep=",") | |
| start_time = time.time() | |
| self.unique_schools = set() | |
| self.unique_class = set() | |
| self.unique_students = set() | |
| self.unique_problems = set() | |
| self.unique_steps = set() | |
| self.unique_kcs = set() | |
| self.unique_actions = set() | |
| self.unique_outcomes = set() | |
| self.unique_new_steps_w_action_attempt = set() | |
| self.unique_new_steps_w_kcs = set() | |
| self.unique_new_steps_w_action_attempt_kcs = set() | |
| for chunk_data in file_iterator: | |
| for school, school_group in chunk_data.groupby('CF (Anon School Id)'): | |
| # if school and school == school_id: | |
| self.unique_schools.add(school) | |
| for class_id, class_group in school_group.groupby('CF (Anon Class Id)'): | |
| self.unique_class.add(class_id) | |
| for student_id, std_group in class_group.groupby('Anon Student Id'): | |
| self.unique_students.add(student_id) | |
| for prob, prob_group in std_group.groupby('Problem Name'): | |
| self.unique_problems.add(prob) | |
| step_names = set(prob_group['Step Name']) | |
| sub_skills = set(prob_group['KC Model(MATHia)']) | |
| actions = set(prob_group['Action']) | |
| outcomes = set(prob_group['Outcome']) | |
| self.unique_steps.update(step_names) | |
| self.unique_kcs.update(sub_skills) | |
| self.unique_actions.update(actions) | |
| self.unique_outcomes.update(outcomes) | |
| for step in step_names: | |
| if pd.isna(step): | |
| step_group = prob_group[pd.isna(prob_group['Step Name'])] | |
| else: | |
| step_group = prob_group[prob_group['Step Name']==step] | |
| for kc in set(step_group['KC Model(MATHia)']): | |
| new_step = f"{step}:{kc}" | |
| self.unique_new_steps_w_kcs.add(new_step) | |
| for action, action_group in step_group.groupby('Action'): | |
| for attempt, attempt_group in action_group.groupby('Attempt At Step'): | |
| new_step = f"{step}:{action}:{attempt}" | |
| self.unique_new_steps_w_action_attempt.add(new_step) | |
| for kc in set(attempt_group["KC Model(MATHia)"]): | |
| new_step = f"{step}:{action}:{attempt}:{kc}" | |
| self.unique_new_steps_w_action_attempt_kcs.add(new_step) | |
| end_time = time.time() | |
| print("Time Taken to analyze dataset = ", end_time - start_time) | |
| print("Workspace-> ",workspace_name) | |
| print("Length of unique students->", len(self.unique_students)) | |
| print("Length of unique problems->", len(self.unique_problems)) | |
| print("Length of unique classes->", len(self.unique_class)) | |
| print("Length of unique step names ->", len(self.unique_steps)) | |
| print("Length of unique knowledge components ->", len(self.unique_kcs)) | |
| print("Length of unique actions ->", len(self.unique_actions)) | |
| print("Length of unique outcomes ->", len(self.unique_outcomes)) | |
| print("Length of unique new step names with actions and attempts ->", len(self.unique_new_steps_w_action_attempt)) | |
| print("Length of unique new step names with actions, attempts and kcs ->", len(self.unique_new_steps_w_action_attempt_kcs)) | |
| print("Length of unique new step names with kcs ->", len(self.unique_new_steps_w_kcs)) | |
| def load_file_iterator(self, sep="\t"): | |
| chunk_iterator = pd.read_csv(self.input_file_path, sep=sep, header=0, iterator=True, chunksize=1000000) | |
| return chunk_iterator | |