from questionnaire.models import Question, Answer import logging def explode_answer_into_list(answers): answer_list = [] for answer in answers: if type(answer) == type(list()): for list_answer in answer: answer_list.append(list_answer) else: answer_list.append(answer) return answer_list def check_actual_answers_against_expression(check_answer, actual_answer, check_question): # Numeric Value Expressions if check_answer[0:1] in "<>": try: actual_answer = float(actual_answer) if check_answer[1:2] == "=": check_value = float(check_answer[2:]) else: check_value = float(check_answer[1:]) except: logging.error("ERROR: must use numeric values with < <= => > checks (%r)" % check_question) return False if check_answer.startswith("<="): return actual_answer <= check_value if check_answer.startswith(">="): return actual_answer >= check_value if check_answer.startswith("<"): return actual_answer < check_value if check_answer.startswith(">"): return actual_answer > check_value # Convert answer to list if not already one if type(actual_answer) != type(list()): actual_answer = [actual_answer] # Negative Value Expressions if check_answer.startswith("!"): if len(actual_answer) == 0: return False for actual_answer in actual_answer: if actual_answer == '': return False if check_answer[1:].strip() == actual_answer.strip(): return False return True # Positive Value Expressions for actual_answer in actual_answer: if check_answer.strip() == actual_answer.strip(): return True return False def dep_check(expr, runinfo, answerdict): """ Given a comma separated question number and expression, determine if the provided answer to the question number satisfies the expression. If the expression starts with >, >=, <, or <=, compare the rest of the expression numerically and return False if it's not able to be converted to an integer. If the expression starts with !, return true if the rest of the expression does not match the answer. Otherwise return true if the expression matches the answer. If there is no comma and only a question number, it checks if the answer is "yes" When looking up the answer, it first checks if it's in the answerdict, then it checks runinfo's cookies, then it does a database lookup to find the answer. The use of the comma separator is purely historical. """ if hasattr(runinfo, 'questionset'): questionnaire = runinfo.questionset.questionnaire elif hasattr(runinfo, 'questionnaire'): questionnaire = runinfo.questionnaire else: assert False # Parse expression if "," not in expr: expr += ",yes" check_question_number, check_answer = expr.split(",", 1) # Get question to check try: check_question = Question.objects.get(number=check_question_number, questionset__questionnaire=questionnaire) except Question.DoesNotExist: return False # Parse & load actual answer(s) from user if check_question in answerdict: # test for membership in multiple choice questions # FIXME: only checking answerdict for k, v in answerdict[check_question].items(): if not k.startswith('multiple_'): continue if check_answer.startswith("!"): if check_answer[1:].strip() == v.strip(): return False elif check_answer.strip() == v.strip(): return True actual_answer = answerdict[check_question].get('ANSWER', '') elif hasattr(runinfo, 'get_cookie') and runinfo.get_cookie(check_question_number, False): actual_answer = runinfo.get_cookie(check_question_number) else: # retrieve from database answer_object = Answer.objects.filter(question=check_question, runid=runinfo.runid, subject=runinfo.subject) if answer_object: actual_answer = answer_object[0].split_answer() logging.warn("Put `store` in checks field for question %s" % check_question_number) else: actual_answer = None if not actual_answer: if check_question.getcheckdict(): actual_answer = check_question.getcheckdict().get('default') if actual_answer is None: actual_answer = u'' # Convert freeform question type answers from a list of lists to just a single list. # FIXME: Figure out why the hell freeform questions store their values as lists within lists. answer_list = explode_answer_into_list(actual_answer) return check_actual_answers_against_expression(check_answer, answer_list, check_question)