knowledge.py
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# python standard library
import random
from datetime import datetime
import logging
# libraries
import networkx as nx
# this project
# import questions
# setup logger for this module
logger = logging.getLogger(__name__)
# ----------------------------------------------------------------------------
# kowledge state of each student....??
# Contains:
# state - dict of topics with state of unlocked topics
# deps - access to dependency graph shared between students
# topic_sequence - list with the order of recommended topics
# ----------------------------------------------------------------------------
class StudentKnowledge(object):
# =======================================================================
# methods that update state
# =======================================================================
def __init__(self, deps, factory, state={}):
self.deps = deps # dependency graph shared among students
self.factory = factory # question factory
self.state = state # {'topic': {'level':0.5, 'date': datetime}, ...}
self.update_topic_levels() # applies forgetting factor
self.topic_sequence = self.recommend_topic_sequence() # ['a', 'b', ...]
self.unlock_topics() # whose dependencies have been completed
self.current_topic = None
# ------------------------------------------------------------------------
# Updates the proficiency levels of the topics, with forgetting factor
# FIXME no dependencies are considered yet...
# ------------------------------------------------------------------------
def update_topic_levels(self):
now = datetime.now()
for tref, s in self.state.items():
dt = now - s['date']
s['level'] *= 0.95 ** dt.days # forgetting factor 0.95 FIXME
# ------------------------------------------------------------------------
# Unlock topics whose dependencies are satisfied (> min_level)
# ------------------------------------------------------------------------
def unlock_topics(self):
# minimum level that the dependencies of a topic must have
# for the topic to be unlocked.
min_level = 0.01
for topic in self.topic_sequence:
if topic not in self.state: # if locked
pred = self.deps.predecessors(topic)
if all(d in self.state and self.state[d]['level'] > min_level for d in pred):
# all dependencies are done
self.state[topic] = {
'level': 0.0, # unlocked
'date': datetime.now()
}
logger.debug(f'Unlocked "{topic}".')
# ------------------------------------------------------------------------
# Start a new topic.
# questions: list of generated questions to do in the topic
# current_question: the current question to be presented
# ------------------------------------------------------------------------
async def init_topic(self, topic):
logger.debug(f'StudentKnowledge.init_topic({topic})')
# do not allow locked topics
if self.is_locked(topic):
logger.debug(f'Topic {topic} is locked')
return
# starting new topic
self.current_topic = topic
self.correct_answers = 0
self.wrong_answers = 0
t = self.deps.node[topic]
questions = random.sample(t['questions'], k=t['choose'])
logger.debug(f'Questions: {", ".join(questions)}')
# generate instances of questions
self.questions = [self.factory[qref].generate() for qref in questions]
logger.debug(f'Total: {len(self.questions)} questions')
# get first question
self.next_question()
# ------------------------------------------------------------------------
# The topic has finished and there are no more questions.
# The topic level is updated in state and unlocks are performed.
# The current topic is unchanged.
# ------------------------------------------------------------------------
def finish_topic(self):
logger.debug(f'StudentKnowledge.finish_topic({self.current_topic})')
self.state[self.current_topic] = {
'date': datetime.now(),
'level': self.correct_answers / (self.correct_answers + self.wrong_answers)
}
self.unlock_topics()
# ------------------------------------------------------------------------
# corrects current question with provided answer.
# implements the logic:
# - if answer ok, goes to next question
# - if wrong, counts number of tries. If exceeded, moves on.
# ------------------------------------------------------------------------
async def check_answer(self, answer):
logger.debug('StudentKnowledge.check_answer()')
q = self.current_question
q['answer'] = answer
q['finish_time'] = datetime.now()
grade = await q.correct_async()
logger.debug(f'Grade {grade:.2} ({q["ref"]})')
if grade > 0.999:
self.correct_answers += 1
self.next_question()
action = 'new_question'
else:
self.wrong_answers += 1
self.current_question['tries'] -= 1
logger.debug(f'Wrong answers = {self.wrong_answers}; Tries = {self.current_question["tries"]}')
if self.current_question['tries'] <= 0:
logger.debug("Appending new instance of this question to the end")
self.questions.append(self.factory[q['ref']].generate())
self.next_question()
action = 'new_question'
else:
action = 'wrong'
# returns answered and corrected question (not new one)
return q, action
# ------------------------------------------------------------------------
# Move to next question
# ------------------------------------------------------------------------
def next_question(self):
try:
self.current_question = self.questions.pop(0)
except IndexError:
self.current_question = None
self.finish_topic()
else:
self.current_question['start_time'] = datetime.now()
self.current_question['tries'] = self.current_question.get('max_tries', 3) # FIXME hardcoded 3
logger.debug(f'Next question is "{self.current_question["ref"]}"')
return self.current_question # question or None
# ========================================================================
# pure functions of the state (no side effects)
# ========================================================================
# ------------------------------------------------------------------------
# compute recommended sequence of topics ['a', 'b', ...]
# ------------------------------------------------------------------------
def recommend_topic_sequence(self):
return list(nx.topological_sort(self.deps))
# ------------------------------------------------------------------------
def get_current_question(self):
return self.current_question
# ------------------------------------------------------------------------
def get_current_topic(self):
return self.current_topic
# ------------------------------------------------------------------------
def is_locked(self, topic):
return topic not in self.state
# ------------------------------------------------------------------------
# Return list of {ref: 'xpto', name: 'long name', leve: 0.5}
# Levels are in the interval [0, 1] if unlocked or None if locked.
# Topics unlocked but not yet done have level 0.0.
# ------------------------------------------------------------------------
def get_knowledge_state(self):
# print(self.topic_sequence)
return [{
'ref': ref,
'type': self.deps.nodes[ref]['type'],
'name': self.deps.nodes[ref]['name'],
'level': self.state[ref]['level'] if ref in self.state else None
} for ref in self.topic_sequence ]
# ------------------------------------------------------------------------
def get_topic_progress(self):
return self.correct_answers / (1 + self.correct_answers + len(self.questions))
# ------------------------------------------------------------------------
def get_topic_level(self, topic):
return self.state[topic]['level']
# ------------------------------------------------------------------------
def get_topic_date(self, topic):
return self.state[topic]['date']
# ------------------------------------------------------------------------
# Recommends a topic to practice/learn from the state.
# ------------------------------------------------------------------------
# def get_recommended_topic(self): # FIXME untested
# return min(self.state.items(), key=lambda x: x[1]['level'])[0]