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# import pandas as pd
# import os
# import re
# from huggingface_hub import InferenceClient
# class DataProcessor:
# INTERVENTION_COLUMN = 'Did the intervention happen today?'
# ENGAGED_STR = 'Engaged (Respect, Responsibility, Effort)'
# PARTIALLY_ENGAGED_STR = 'Partially Engaged (about 50%)'
# NOT_ENGAGED_STR = 'Not Engaged (less than 50%)'
# def __init__(self):
# self.hf_api_key = os.getenv('HF_API_KEY')
# if not self.hf_api_key:
# raise ValueError("HF_API_KEY not set in environment variables")
# self.client = InferenceClient(api_key=self.hf_api_key)
# def read_excel(self, uploaded_file):
# return pd.read_excel(uploaded_file)
# def format_session_data(self, df):
# df['Date of Session'] = self.safe_convert_to_datetime(df['Date of Session'], '%m/%d/%Y')
# df['Timestamp'] = self.safe_convert_to_datetime(df['Timestamp'], '%I:%M %p')
# df['Session Start Time'] = self.safe_convert_to_time(df['Session Start Time'], '%I:%M %p')
# df['Session End Time'] = self.safe_convert_to_time(df['Session End Time'], '%I:%M %p')
# df = df[['Date of Session', 'Timestamp'] + [col for col in df.columns if col not in ['Date of Session', 'Timestamp']]]
# return df
# def safe_convert_to_time(self, series, format_str='%I:%M %p'):
# try:
# converted = pd.to_datetime(series, format='%H:%M:%S', errors='coerce')
# if format_str:
# return converted.dt.strftime(format_str)
# return converted
# except Exception as e:
# print(f"Error converting series to time: {e}")
# return series
# def safe_convert_to_datetime(self, series, format_str=None):
# try:
# converted = pd.to_datetime(series, errors='coerce')
# if format_str:
# return converted.dt.strftime(format_str)
# return converted
# except Exception as e:
# print(f"Error converting series to datetime: {e}")
# return series
# def replace_student_names_with_initials(self, df):
# updated_columns = []
# for col in df.columns:
# if col.startswith('Student Attendance'):
# match = re.match(r'Student Attendance \[(.+?)\]', col)
# if match:
# name = match.group(1)
# name_parts = name.split()
# if len(name_parts) == 1:
# initials = name_parts[0][0]
# else:
# initials = ''.join([part[0] for part in name_parts])
# updated_columns.append(f'Student Attendance [{initials}]')
# else:
# updated_columns.append(col)
# else:
# updated_columns.append(col)
# df.columns = updated_columns
# return df
# def compute_intervention_statistics(self, df):
# total_days = len(df)
# sessions_held = df[self.INTERVENTION_COLUMN].str.strip().str.lower().eq('yes').sum()
# sessions_not_held = df[self.INTERVENTION_COLUMN].str.strip().str.lower().eq('no').sum()
# intervention_frequency = (sessions_held / total_days) * 100 if total_days > 0 else 0
# intervention_frequency = round(intervention_frequency, 0)
# stats = {
# 'Intervention Frequency (%)': [intervention_frequency],
# 'Intervention Sessions Held': [sessions_held],
# 'Intervention Sessions Not Held': [sessions_not_held],
# 'Total Number of Days Available': [total_days]
# }
# return pd.DataFrame(stats)
# def compute_student_metrics(self, df):
# intervention_df = df[df[self.INTERVENTION_COLUMN].str.strip().str.lower() == 'yes']
# intervention_sessions_held = len(intervention_df)
# student_columns = [col for col in df.columns if col.startswith('Student Attendance')]
# student_metrics = {}
# for col in student_columns:
# student_name = col.replace('Student Attendance [', '').replace(']', '').strip()
# student_data = intervention_df[[col]].copy()
# student_data[col] = student_data[col].fillna('Absent')
# attendance_values = student_data[col].apply(lambda x: 1 if x in [
# self.ENGAGED_STR,
# self.PARTIALLY_ENGAGED_STR,
# self.NOT_ENGAGED_STR
# ] else 0)
# sessions_attended = attendance_values.sum()
# attendance_pct = (sessions_attended / intervention_sessions_held) * 100 if intervention_sessions_held > 0 else 0
# attendance_pct = round(attendance_pct)
# engagement_counts = {
# 'Engaged': 0,
# 'Partially Engaged': 0,
# 'Not Engaged': 0,
# 'Absent': 0
# }
# for x in student_data[col]:
# if x == self.ENGAGED_STR:
# engagement_counts['Engaged'] += 1
# elif x == self.PARTIALLY_ENGAGED_STR:
# engagement_counts['Partially Engaged'] += 1
# elif x == self.NOT_ENGAGED_STR:
# engagement_counts['Not Engaged'] += 1
# else:
# engagement_counts['Absent'] += 1 # Count as Absent if not engaged
# # Calculate percentages for engagement states
# total_sessions = sum(engagement_counts.values())
# # Engagement (%)
# engagement_pct = (engagement_counts['Engaged'] / total_sessions * 100) if total_sessions > 0 else 0
# engagement_pct = round(engagement_pct)
# engaged_pct = (engagement_counts['Engaged'] / total_sessions * 100) if total_sessions > 0 else 0
# engaged_pct = round(engaged_pct)
# partially_engaged_pct = (engagement_counts['Partially Engaged'] / total_sessions * 100) if total_sessions > 0 else 0
# partially_engaged_pct = round(partially_engaged_pct)
# not_engaged_pct = (engagement_counts['Not Engaged'] / total_sessions * 100) if total_sessions > 0 else 0
# not_engaged_pct = round(not_engaged_pct)
# absent_pct = (engagement_counts['Absent'] / total_sessions * 100) if total_sessions > 0 else 0
# absent_pct = round(absent_pct)
# # Store metrics in the required order
# student_metrics[student_name] = {
# 'Attendance (%)': attendance_pct,
# 'Attendance #': sessions_attended, # Raw number of sessions attended
# 'Engagement (%)': engagement_pct,
# 'Engaged (%)': engaged_pct,
# 'Partially Engaged (%)': partially_engaged_pct,
# 'Not Engaged (%)': not_engaged_pct,
# 'Absent (%)': absent_pct
# }
# # Create a DataFrame from student_metrics
# student_metrics_df = pd.DataFrame.from_dict(student_metrics, orient='index').reset_index()
# student_metrics_df.rename(columns={'index': 'Student'}, inplace=True)
# return student_metrics_df
# def compute_average_metrics(self, student_metrics_df):
# # Calculate the attendance and engagement average percentages across students
# attendance_avg_stats = student_metrics_df['Attendance (%)'].mean() # Calculate the average attendance percentage
# engagement_avg_stats = student_metrics_df['Engagement (%)'].mean() # Calculate the average engagement percentage
# # Round the averages to make them whole numbers
# attendance_avg_stats = round(attendance_avg_stats)
# engagement_avg_stats = round(engagement_avg_stats)
# return attendance_avg_stats, engagement_avg_stats
import pandas as pd
import os
import re
from huggingface_hub import InferenceClient
from graphviz import Digraph
class DataProcessor:
INTERVENTION_COLUMN = 'Did the intervention happen today?'
ENGAGED_STR = 'Engaged (Respect, Responsibility, Effort)'
PARTIALLY_ENGAGED_STR = 'Partially Engaged (about 50%)'
NOT_ENGAGED_STR = 'Not Engaged (less than 50%)'
def __init__(self, student_metrics_df=None):
self.hf_api_key = os.getenv('HF_API_KEY')
if not self.hf_api_key:
raise ValueError("HF_API_KEY not set in environment variables")
self.client = InferenceClient(api_key=self.hf_api_key)
self.student_metrics_df = student_metrics_df
def read_excel(self, uploaded_file):
return pd.read_excel(uploaded_file)
def format_session_data(self, df):
df['Date of Session'] = self.safe_convert_to_datetime(df['Date of Session'], '%m/%d/%Y')
df['Timestamp'] = self.safe_convert_to_datetime(df['Timestamp'], '%I:%M %p')
df['Session Start Time'] = self.safe_convert_to_time(df['Session Start Time'], '%I:%M %p')
df['Session End Time'] = self.safe_convert_to_time(df['Session End Time'], '%I:%M %p')
return df
def safe_convert_to_time(self, series, format_str='%I:%M %p'):
try:
return pd.to_datetime(series, format=format_str, errors='coerce')
except Exception as e:
print(f"Error converting series to time: {e}")
return series
def safe_convert_to_datetime(self, series, format_str=None):
try:
converted = pd.to_datetime(series, errors='coerce')
if format_str:
return converted.dt.strftime(format_str)
return converted
except Exception as e:
print(f"Error converting series to datetime: {e}")
return series
def replace_student_names_with_initials(self, df):
updated_columns = []
for col in df.columns:
if col.startswith('Student Attendance'):
match = re.match(r'Student Attendance \[(.+?)\]', col)
if match:
name = match.group(1)
initials = ''.join([part[0] for part in name.split()])
updated_columns.append(f'Student Attendance [{initials}]')
else:
updated_columns.append(col)
else:
updated_columns.append(col)
df.columns = updated_columns
return df
def compute_intervention_statistics(self, df):
total_days = len(df)
sessions_held = df[self.INTERVENTION_COLUMN].str.strip().str.lower().eq('yes').sum()
intervention_frequency = (sessions_held / total_days) * 100 if total_days > 0 else 0
return pd.DataFrame({
'Intervention Frequency (%)': [round(intervention_frequency, 0)],
'Intervention Sessions Held': [sessions_held],
'Intervention Sessions Not Held': [total_days - sessions_held],
'Total Number of Days Available': [total_days]
})
def compute_student_metrics(self):
# Add metrics processing logic here
pass
def evaluate_student(self, row, attendance_threshold=90, engagement_threshold=80):
if row["Attended ≥ 90%"] == "No":
return "Address Attendance"
elif row["Engagement ≥ 80%"] == "No":
return "Address Engagement"
return "Consider addressing logistical barriers, improving fidelity, and/or collecting progress monitoring data"
def build_tree_diagram(self, row):
dot = Digraph()
dot.node("Q1", "Has the student attended ≥ 90% of interventions?")
dot.node("Q2", "Has the student been engaged ≥ 80% of intervention time?")
dot.node("A1", "Address Attendance", shape="box")
dot.node("A2", "Address Engagement", shape="box")
dot.node("A3", "Consider addressing logistical barriers", shape="box")
if row["Attended ≥ 90%"] == "No":
dot.edge("Q1", "A1", label="No")
else:
dot.edge("Q1", "Q2", label="Yes")
dot.edge("Q2", "A2" if row["Engagement ≥ 80%"] == "No" else "A3", label="Yes")
return dot
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