fef-questionnaire/questionnaire/views.py

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#!/usr/bin/python
# vim: set fileencoding=utf-8
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from django.http import HttpResponse, HttpResponseRedirect
from django.template import RequestContext
from django.core.urlresolvers import reverse
from django.core.cache import cache
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from django.contrib.auth.decorators import permission_required
from django.shortcuts import render_to_response, get_object_or_404
from django.db import transaction
from django.conf import settings
from datetime import datetime
from django.utils import translation
from django.utils.translation import ugettext_lazy as _
from questionnaire import QuestionProcessors
from questionnaire import questionnaire_start, questionset_start, questionset_done, questionnaire_done
from questionnaire import AnswerException
from questionnaire import Processors
from questionnaire.models import *
from questionnaire.parsers import *
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from questionnaire.emails import _send_email, send_emails
from questionnaire.utils import numal_sort, split_numal
from questionnaire.request_cache import request_cache
from questionnaire.dependency_checker import dep_check
from questionnaire import profiler
import logging
import random
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from hashlib import md5
import re
try:
use_session = settings.QUESTIONNAIRE_USE_SESSION
except AttributeError:
use_session = False
try:
debug_questionnaire = settings.QUESTIONNAIRE_DEBUG
except AttributeError:
debug_questionnaire = False
def r2r(tpl, request, **contextdict):
"Shortcut to use RequestContext instead of Context in templates"
contextdict['request'] = request
return render_to_response(tpl, contextdict, context_instance=RequestContext(request))
def get_runinfo(random):
"Return the RunInfo entry with the provided random key"
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res = RunInfo.objects.filter(random=random.lower())
return res and res[0] or None
def get_question(number, questionnaire):
"Return the specified Question (by number) from the specified Questionnaire"
res = Question.objects.filter(number=number, questionset__questionnaire=questionnaire)
return res and res[0] or None
def delete_answer(question, subject, runid):
"Delete the specified question/subject/runid combination from the Answer table"
Answer.objects.filter(subject=subject, runid=runid, question=question).delete()
def add_answer(runinfo, question, answer_dict):
"""
Add an Answer to a Question for RunInfo, given the relevant form input
answer_dict contains the POST'd elements for this question, minus the
question_{number} prefix. The question_{number} form value is accessible
with the ANSWER key.
"""
answer = Answer()
answer.question = question
answer.subject = runinfo.subject
answer.runid = runinfo.runid
type = question.get_type()
if "ANSWER" not in answer_dict:
answer_dict['ANSWER'] = None
if type in Processors:
answer.answer = Processors[type](question, answer_dict) or ''
else:
raise AnswerException("No Processor defined for question type %s" % type)
# first, delete all existing answers to this question for this particular user+run
delete_answer(question, runinfo.subject, runinfo.runid)
# then save the new answer to the database
answer.save(runinfo)
return True
def check_parser(runinfo, exclude=[]):
depparser = BooleanParser(dep_check, runinfo, {})
tagparser = BooleanParser(has_tag, runinfo)
fnmap = {
"maleonly": lambda v: runinfo.subject.gender == 'male',
"femaleonly": lambda v: runinfo.subject.gender == 'female',
"shownif": lambda v: v and depparser.parse(v),
"iftag": lambda v: v and tagparser.parse(v)
}
for ex in exclude:
del fnmap[ex]
@request_cache()
def satisfies_checks(checks):
if not checks:
return True
checks = parse_checks(checks)
for check, value in checks.items():
if check in fnmap:
value = value and value.strip()
if not fnmap[check](value):
return False
return True
return satisfies_checks
@request_cache()
def skipped_questions(runinfo):
if not runinfo.skipped:
return []
return [s.strip() for s in runinfo.skipped.split(',')]
@request_cache()
def question_satisfies_checks(question, runinfo, checkfn=None):
if question.number in skipped_questions(runinfo):
return False
checkfn = checkfn or check_parser(runinfo)
return checkfn(question.checks)
@request_cache(keyfn=lambda *args: args[0].id)
def questionset_satisfies_checks(questionset, runinfo, checks=None):
"""Return True if the runinfo passes the checks specified in the QuestionSet
Checks is an optional dictionary with the keys being questionset.pk and the
values being the checks of the contained questions.
This, in conjunction with fetch_checks allows for fewer
db roundtrips and greater performance.
Sadly, checks cannot be hashed and therefore the request cache is useless
here. Thankfully the benefits outweigh the costs in my tests.
"""
passes = check_parser(runinfo)
if not passes(questionset.checks):
return False
if not checks:
checks = dict()
checks[questionset.id] = []
for q in questionset.questions():
checks[questionset.id].append((q.checks, q.number))
# questionsets that pass the checks but have no questions are shown
# (comments, last page, etc.)
if not checks[questionset.id]:
return True
# if there are questions at least one needs to be visible
for check, number in checks[questionset.id]:
if number in skipped_questions(runinfo):
continue
if passes(check):
return True
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return False
def get_progress(runinfo):
position, total = 0, 0
current = runinfo.questionset
sets = current.questionnaire.questionsets()
checks = fetch_checks(sets)
# fetch the all question checks at once. This greatly improves the
# performance of the questionset_satisfies_checks function as it
# can avoid a roundtrip to the database for each question
for qs in sets:
if questionset_satisfies_checks(qs, runinfo, checks):
total += 1
if qs.id == current.id:
position = total
if not all((position, total)):
progress = 1
else:
progress = float(position) / float(total) * 100.00
# progress is always at least one percent
progress = progress >= 1.0 and progress or 1
return int(progress)
def get_async_progress(request, *args, **kwargs):
""" Returns the progress as json for use with ajax """
if 'runcode' in kwargs:
runcode = kwargs['runcode']
else:
session_runcode = request.session.get('runcode', None)
if session_runcode is not None:
runcode = session_runcode
runinfo = get_runinfo(runcode)
response = dict(progress=get_progress(runinfo))
cache.set('progress' + runinfo.random, response['progress'])
response = HttpResponse(json.dumps(response),
content_type='application/javascript');
response["Cache-Control"] = "no-cache"
return response
def fetch_checks(questionsets):
ids = [qs.pk for qs in questionsets]
query = Question.objects.filter(questionset__pk__in=ids)
query = query.values('questionset_id', 'checks', 'number')
checks = dict()
for qsid in ids:
checks[qsid] = list()
for result in (r for r in query):
checks[result['questionset_id']].append(
(result['checks'], result['number'])
)
return checks
def redirect_to_qs(runinfo, request=None):
"Redirect to the correct and current questionset URL for this RunInfo"
# cache current questionset
qs = runinfo.questionset
# skip questionsets that don't pass
if not questionset_satisfies_checks(runinfo.questionset, runinfo):
next = runinfo.questionset.next()
while next and not questionset_satisfies_checks(next, runinfo):
next = next.next()
runinfo.questionset = next
runinfo.save()
hasquestionset = bool(next)
else:
hasquestionset = True
# empty ?
if not hasquestionset:
logging.warn('no questionset in questionnaire which passes the check')
return finish_questionnaire(request, runinfo, qs.questionnaire)
if not use_session:
args = [runinfo.random, runinfo.questionset.sortid]
urlname = 'questionset'
else:
args = []
request.session['qs'] = runinfo.questionset.sortid
request.session['runcode'] = runinfo.random
urlname = 'questionnaire'
url = reverse(urlname, args=args)
return HttpResponseRedirect(url)
def redirect_to_prev_questionnaire(request):
"""
Used only when ```QUESTIONNAIRE_USE_SESSION``` is True.
Takes the questionnaire set in the session and redirects to the
previous questionnaire if any.
"""
runcode = request.session.get('runcode', None)
if runcode is not None:
runinfo = get_runinfo(runcode)
prev_qs = runinfo.questionset.prev()
if runinfo and prev_qs:
request.session['runcode'] = runinfo.random
request.session['qs'] = prev_qs.sortid
return HttpResponseRedirect(reverse('questionnaire'))
return HttpResponseRedirect('/')
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@transaction.commit_on_success
def questionnaire(request, runcode=None, qs=None):
"""
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Process submit answers (if present) and redirect to next page
If this is a POST request, parse the submitted data in order to store
all the submitted answers. Then return to the next questionset or
return a completed response.
If this isn't a POST request, redirect to the main page.
We only commit on success, to maintain consistency. We also specifically
rollback if there were errors processing the answers for this questionset.
"""
if use_session:
session_runcode = request.session.get('runcode', None)
if session_runcode is not None:
runcode = session_runcode
session_qs = request.session.get('qs', None)
if session_qs is not None:
qs = session_qs
# if runcode provided as query string, redirect to the proper page
if not runcode:
runcode = request.GET.get('runcode')
if not runcode:
return HttpResponseRedirect("/")
else:
if not use_session:
args = [runcode, ]
else:
request.session['runcode'] = runcode
args = []
return HttpResponseRedirect(reverse("questionnaire", args=args))
runinfo = get_runinfo(runcode)
if not runinfo:
transaction.commit()
return HttpResponseRedirect('/')
# let the runinfo have a piggy back ride on the request
# so we can easily use the runinfo in places like the question processor
# without passing it around
request.runinfo = runinfo
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if not qs:
# Only change the language to the subjects choice for the initial
# questionnaire page (may be a direct link from an email)
if hasattr(request, 'session'):
request.session['django_language'] = runinfo.subject.language
translation.activate(runinfo.subject.language)
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if 'lang' in request.GET:
return set_language(request, runinfo, request.path)
# --------------------------------
# --- Handle non-POST requests ---
# --------------------------------
if request.method != "POST":
if qs is not None:
qs = get_object_or_404(QuestionSet, sortid=qs, questionnaire=runinfo.questionset.questionnaire)
if runinfo.random.startswith('test:'):
pass # ok for testing
elif qs.sortid > runinfo.questionset.sortid:
# you may jump back, but not forwards
return redirect_to_qs(runinfo, request)
runinfo.questionset = qs
runinfo.save()
transaction.commit()
# no questionset id in URL, so redirect to the correct URL
if qs is None:
return redirect_to_qs(runinfo, request)
questionset_start.send(sender=None, runinfo=runinfo, questionset=qs)
return show_questionnaire(request, runinfo)
# -------------------------------------
# --- Process POST with QuestionSet ---
# -------------------------------------
# if the submitted page is different to what runinfo says, update runinfo
# XXX - do we really want this?
qs = request.POST.get('questionset_id', qs)
try:
qsobj = QuestionSet.objects.filter(pk=qs)[0]
if qsobj.questionnaire == runinfo.questionset.questionnaire:
if runinfo.questionset != qsobj:
runinfo.questionset = qsobj
runinfo.save()
except:
pass
questionnaire = runinfo.questionset.questionnaire
questionset = runinfo.questionset
# to confirm that we have the correct answers
expected = questionset.questions()
items = request.POST.items()
extra = {} # question_object => { "ANSWER" : "123", ... }
# this will ensure that each question will be processed, even if we did not receive
# any fields for it. Also works to ensure the user doesn't add extra fields in
for x in expected:
items.append((u'question_%s_Trigger953' % x.number, None))
# generate the answer_dict for each question, and place in extra
for item in items:
key, value = item[0], item[1]
if key.startswith('question_'):
answer = key.split("_", 2)
question = get_question(answer[1], questionnaire)
if not question:
logging.warn("Unknown question when processing: %s" % answer[1])
continue
extra[question] = ans = extra.get(question, {})
if (len(answer) == 2):
ans['ANSWER'] = value
elif (len(answer) == 3):
ans[answer[2]] = value
else:
logging.warn("Poorly formed form element name: %r" % answer)
continue
extra[question] = ans
errors = {}
for question, ans in extra.items():
if not question_satisfies_checks(question, runinfo):
continue
if u"Trigger953" not in ans:
logging.warn("User attempted to insert extra question (or it's a bug)")
continue
try:
cd = question.getcheckdict()
# requiredif is the new way
depon = cd.get('requiredif', None) or cd.get('dependent', None)
if depon:
depparser = BooleanParser(dep_check, runinfo, extra)
if not depparser.parse(depon):
# if check is not the same as answer, then we don't care
# about this question plus we should delete it from the DB
delete_answer(question, runinfo.subject, runinfo.runid)
if cd.get('store', False):
runinfo.set_cookie(question.number, None)
continue
add_answer(runinfo, question, ans)
if cd.get('store', False):
runinfo.set_cookie(question.number, ans['ANSWER'])
except AnswerException, e:
errors[question.number] = e
except Exception:
logging.exception("Unexpected Exception")
transaction.rollback()
raise
if len(errors) > 0:
res = show_questionnaire(request, runinfo, errors=errors)
transaction.rollback()
return res
questionset_done.send(sender=None, runinfo=runinfo, questionset=questionset)
next = questionset.next()
while next and not questionset_satisfies_checks(next, runinfo):
next = next.next()
runinfo.questionset = next
runinfo.save()
if use_session:
request.session['prev_runcode'] = runinfo.random
if next is None: # we are finished
return finish_questionnaire(request, runinfo, questionnaire)
transaction.commit()
return redirect_to_qs(runinfo, request)
def finish_questionnaire(request, runinfo, questionnaire):
hist = RunInfoHistory()
hist.subject = runinfo.subject
hist.runid = runinfo.runid
hist.completed = datetime.now()
hist.questionnaire = questionnaire
hist.tags = runinfo.tags
hist.skipped = runinfo.skipped
hist.save()
questionnaire_done.send(sender=None, runinfo=runinfo,
questionnaire=questionnaire)
redirect_url = questionnaire.redirect_url
for x, y in (('$LANG', translation.get_language()),
('$SUBJECTID', runinfo.subject.id),
('$RUNID', runinfo.runid),):
redirect_url = redirect_url.replace(x, str(y))
if runinfo.runid in ('12345', '54321') \
or runinfo.runid.startswith('test:'):
runinfo.questionset = QuestionSet.objects.filter(questionnaire=questionnaire).order_by('sortid')[0]
runinfo.save()
else:
runinfo.delete()
transaction.commit()
if redirect_url:
return HttpResponseRedirect(redirect_url)
return r2r("questionnaire/complete.$LANG.html", request)
def show_questionnaire(request, runinfo, errors={}):
"""
Return the QuestionSet template
Also add the javascript dependency code.
"""
request.runinfo = runinfo
if request.GET.get('show_all') == '1': # for debugging purposes.
questions = runinfo.questionset.questionnaire.questions()
else:
questions = runinfo.questionset.questions()
show_all = request.GET.get('show_all') == '1' # for debugging purposes in some cases we may want to show all questions on one screen.
questionset = runinfo.questionset
questions = questionset.questionnaire.questions() if show_all else questionset.questions()
qlist = []
jsinclude = [] # js files to include
cssinclude = [] # css files to include
jstriggers = []
qvalues = {}
# initialize qvalues
cookiedict = runinfo.get_cookiedict()
for k, v in cookiedict.items():
qvalues[k] = v
substitute_answer(qvalues, runinfo.questionset)
for question in questions:
# if we got here the questionset will at least contain one question
# which passes, so this is all we need to check for
question_visible = question_satisfies_checks(question, runinfo) or show_all
Type = question.get_type()
_qnum, _qalpha = split_numal(question.number)
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qdict = {
'css_style': '' if question_visible else 'display:none;',
'template': 'questionnaire/%s.html' % (Type),
'qnum': _qnum,
'qalpha': _qalpha,
'qtype': Type,
'qnum_class': (_qnum % 2 == 0) and " qeven" or " qodd",
'qalpha_class': _qalpha and (ord(_qalpha[-1]) % 2 \
and ' alodd' or ' aleven') or '',
}
# substitute answer texts
substitute_answer(qvalues, question)
# add javascript dependency checks
cd = question.getcheckdict()
depon = cd.get('requiredif', None) or cd.get('dependent', None)
if depon:
# extra args to BooleanParser are not required for toString
parser = BooleanParser(dep_check)
qdict['checkstring'] = ' checks="%s"' % parser.toString(depon)
jstriggers.append('qc_%s' % question.number)
if 'default' in cd and not question.number in cookiedict:
qvalues[question.number] = cd['default']
if Type in QuestionProcessors:
qdict.update(QuestionProcessors[Type](request, question))
if 'jsinclude' in qdict:
if qdict['jsinclude'] not in jsinclude:
jsinclude.extend(qdict['jsinclude'])
if 'cssinclude' in qdict:
if qdict['cssinclude'] not in cssinclude:
cssinclude.extend(qdict['jsinclude'])
if 'jstriggers' in qdict:
jstriggers.extend(qdict['jstriggers'])
if 'qvalue' in qdict and not question.number in cookiedict:
qvalues[question.number] = qdict['qvalue']
qlist.append((question, qdict))
try:
has_progress = settings.QUESTIONNAIRE_PROGRESS in ('async', 'default')
async_progress = settings.QUESTIONNAIRE_PROGRESS == 'async'
except AttributeError:
has_progress = True
async_progress = False
if has_progress:
if async_progress:
progress = cache.get('progress' + runinfo.random, 1)
else:
progress = get_progress(runinfo)
else:
progress = 0
if request.POST:
for k, v in request.POST.items():
if k.startswith("question_"):
s = k.split("_")
if len(s) == 4:
qvalues[s[1] + '_' + v] = '1' # evaluates true in JS
elif len(s) == 3 and s[2] == 'comment':
qvalues[s[1] + '_' + s[2]] = v
else:
qvalues[s[1]] = v
if use_session:
prev_url = reverse('redirect_to_prev_questionnaire')
else:
prev_url = 'javascript:history.back();'
if debug_questionnaire:
current_answers = Answer.objects.filter(subject=runinfo.subject, runid=runinfo.runid).order_by('id')
r = r2r("questionnaire/questionset.html", request,
questionset=runinfo.questionset,
runinfo=runinfo,
errors=errors,
qlist=qlist,
progress=progress,
triggers=jstriggers,
qvalues=qvalues,
jsinclude=jsinclude,
cssinclude=cssinclude,
async_progress=async_progress,
async_url=reverse('progress', args=[runinfo.random]),
prev_url=prev_url,
current_answers=current_answers,
)
r['Cache-Control'] = 'no-cache'
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r['Expires'] = "Thu, 24 Jan 1980 00:00:00 GMT"
return r
def substitute_answer(qvalues, obj):
"""Objects with a 'text/text_xx' attribute can contain magic strings
referring to the answers of other questions. This function takes
any such object, goes through the stored answers (qvalues) and replaces
the magic string with the actual value. If this isn't possible the
magic string is removed from the text.
Only answers with 'store' in their check will work with this.
"""
if qvalues and obj.text:
magic = 'subst_with_ans_'
regex = r'subst_with_ans_(\S+)'
replacements = re.findall(regex, obj.text)
text_attributes = [a for a in dir(obj) if a.startswith('text_')]
for answerid in replacements:
target = magic + answerid
replacement = qvalues.get(answerid.lower(), '')
for attr in text_attributes:
oldtext = getattr(obj, attr)
newtext = oldtext.replace(target, replacement)
setattr(obj, attr, newtext)
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def set_language(request, runinfo=None, next=None):
"""
Change the language, save it to runinfo if provided, and
redirect to the provided URL (or the last URL).
Can also be used by a url handler, w/o runinfo & next.
"""
if not next:
next = request.REQUEST.get('next', None)
if not next:
next = request.META.get('HTTP_REFERER', None)
if not next:
next = '/'
response = HttpResponseRedirect(next)
response['Expires'] = "Thu, 24 Jan 1980 00:00:00 GMT"
if request.method == 'GET':
lang_code = request.GET.get('lang', None)
if lang_code and translation.check_for_language(lang_code):
if hasattr(request, 'session'):
request.session['django_language'] = lang_code
else:
response.set_cookie(settings.LANGUAGE_COOKIE_NAME, lang_code)
if runinfo:
runinfo.subject.language = lang_code
runinfo.subject.save()
return response
def _table_headers(questions):
"""
Return the header labels for a set of questions as a list of strings.
This will create separate columns for each multiple-choice possiblity
and freeform options, to avoid mixing data types and make charting easier.
"""
ql = list(questions)
ql.sort(lambda x, y: numal_sort(x.number, y.number))
columns = []
for q in ql:
if q.type == 'choice-yesnocomment':
columns.extend([q.number, q.number + "-freeform"])
elif q.type == 'choice-freeform':
columns.extend([q.number, q.number + "-freeform"])
elif q.type.startswith('choice-multiple'):
cl = [c.value for c in q.choice_set.all()]
cl.sort(numal_sort)
columns.extend([q.number + '-' + value for value in cl])
if q.type == 'choice-multiple-freeform':
columns.append(q.number + '-freeform')
else:
columns.append(q.number)
return columns
@permission_required("questionnaire.export")
def export_csv(request, qid): # questionnaire_id
"""
For a given questionnaire id, generaete a CSV containing all the
answers for all subjects.
"""
import tempfile, csv, cStringIO, codecs
from django.core.servers.basehttp import FileWrapper
class UnicodeWriter:
"""
COPIED from http://docs.python.org/library/csv.html example:
A CSV writer which will write rows to CSV file "f",
which is encoded in the given encoding.
"""
def __init__(self, f, dialect=csv.excel, encoding="utf-8", **kwds):
# Redirect output to a queue
self.queue = cStringIO.StringIO()
self.writer = csv.writer(self.queue, dialect=dialect, **kwds)
self.stream = f
self.encoder = codecs.getincrementalencoder(encoding)()
def writerow(self, row):
self.writer.writerow([unicode(s).encode("utf-8") for s in row])
# Fetch UTF-8 output from the queue ...
data = self.queue.getvalue()
data = data.decode("utf-8")
# ... and reencode it into the target encoding
data = self.encoder.encode(data)
# write to the target stream
self.stream.write(data)
# empty queue
self.queue.truncate(0)
def writerows(self, rows):
for row in rows:
self.writerow(row)
fd = tempfile.TemporaryFile()
questionnaire = get_object_or_404(Questionnaire, pk=int(qid))
headings, answers = answer_export(questionnaire)
writer = UnicodeWriter(fd)
writer.writerow([u'subject', u'runid'] + headings)
for subject, runid, answer_row in answers:
row = ["%s/%s" % (subject.id, subject.state), runid] + [
a if a else '--' for a in answer_row]
writer.writerow(row)
response = HttpResponse(FileWrapper(fd), content_type="text/csv")
response['Content-Length'] = fd.tell()
response['Content-Disposition'] = 'attachment; filename="export-%s.csv"' % qid
fd.seek(0)
return response
def answer_export(questionnaire, answers=None):
"""
questionnaire -- questionnaire model for export
answers -- query set of answers to include in export, defaults to all
Return a flat dump of column headings and all the answers for a
questionnaire (in query set answers) in the form (headings, answers)
where headings is:
['question1 number', ...]
and answers is:
[(subject1, 'runid1', ['answer1.1', ...]), ... ]
The headings list might include items with labels like
'questionnumber-freeform'. Those columns will contain all the freeform
answers for that question (separated from the other answer data).
Multiple choice questions will have one column for each choice with
labels like 'questionnumber-choice'.
The items in the answers list are unicode strings or empty strings
if no answer was given. The number of elements in each answer list will
always match the number of headings.
"""
if answers is None:
answers = Answer.objects.all()
answers = answers.filter(
question__questionset__questionnaire=questionnaire).order_by(
'subject', 'runid', 'question__questionset__sortid', 'question__number')
answers = answers.select_related()
questions = Question.objects.filter(
questionset__questionnaire=questionnaire)
headings = _table_headers(questions)
coldict = {}
for num, col in enumerate(headings): # use coldict to find column indexes
coldict[col] = num
# collect choices for each question
qchoicedict = {}
for q in questions:
qchoicedict[q.id] = [x[0] for x in q.choice_set.values_list('value')]
runid = subject = None
out = []
row = []
for answer in answers:
if answer.runid != runid or answer.subject != subject:
if row:
out.append((subject, runid, row))
runid = answer.runid
subject = answer.subject
row = [""] * len(headings)
ans = answer.split_answer()
if type(ans) == int:
ans = str(ans)
for choice in ans:
col = None
if type(choice) == list:
# freeform choice
choice = choice[0]
col = coldict.get(answer.question.number + '-freeform', None)
if col is None: # look for enumerated choice column (multiple-choice)
col = coldict.get(answer.question.number + '-' + unicode(choice), None)
if col is None: # single-choice items
if ((not qchoicedict[answer.question.id]) or
choice in qchoicedict[answer.question.id]):
col = coldict.get(answer.question.number, None)
if col is None: # last ditch, if not found throw it in a freeform column
col = coldict.get(answer.question.number + '-freeform', None)
if col is not None:
row[col] = choice
# and don't forget about the last one
if row:
out.append((subject, runid, row))
return headings, out
def answer_summary(questionnaire, answers=None):
"""
questionnaire -- questionnaire model for summary
answers -- query set of answers to include in summary, defaults to all
Return a summary of the answer totals in answer_qs in the form:
[('q1', 'question1 text',
[('choice1', 'choice1 text', num), ...],
['freeform1', ...]), ...]
questions are returned in questionnaire order
choices are returned in question order
freeform options are case-insensitive sorted
"""
if answers is None:
answers = Answer.objects.all()
answers = answers.filter(question__questionset__questionnaire=questionnaire)
questions = Question.objects.filter(
questionset__questionnaire=questionnaire).order_by(
'questionset__sortid', 'number')
summary = []
for question in questions:
q_type = question.get_type()
if q_type.startswith('choice-yesno'):
choices = [('yes', _('Yes')), ('no', _('No'))]
if 'dontknow' in q_type:
choices.append(('dontknow', _("Don't Know")))
elif q_type.startswith('choice'):
choices = [(c.value, c.text) for c in question.choices()]
else:
choices = []
choice_totals = dict([(k, 0) for k, v in choices])
freeforms = []
for a in answers.filter(question=question):
ans = a.split_answer()
for choice in ans:
if type(choice) == list:
freeforms.extend(choice)
elif choice in choice_totals:
choice_totals[choice] += 1
else:
# be tolerant of improperly marked data
freeforms.append(choice)
freeforms.sort(numal_sort)
summary.append((question.number, question.text, [
(n, t, choice_totals[n]) for (n, t) in choices], freeforms))
return summary
def has_tag(tag, runinfo):
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""" Returns true if the given runinfo contains the given tag. """
return tag in (t.strip() for t in runinfo.tags.split(','))
@permission_required("questionnaire.management")
def send_email(request, runinfo_id):
if request.method != "POST":
return HttpResponse("This page MUST be called as a POST request.")
runinfo = get_object_or_404(RunInfo, pk=int(runinfo_id))
successful = _send_email(runinfo)
return r2r("emailsent.html", request, runinfo=runinfo, successful=successful)
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def generate_run(request, questionnaire_id, subject_id=None):
"""
A view that can generate a RunID instance anonymously,
and then redirect to the questionnaire itself.
It uses a Subject with the givenname of 'Anonymous' and the
surname of 'User'. If this Subject does not exist, it will
be created.
This can be used with a URL pattern like:
(r'^take/(?P<questionnaire_id>[0-9]+)/$', 'questionnaire.views.generate_run'),
"""
qu = get_object_or_404(Questionnaire, id=questionnaire_id)
qs = qu.questionsets()[0]
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if subject_id is not None:
su = get_object_or_404(Subject, pk=subject_id)
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else:
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su = Subject.objects.filter(givenname='Anonymous', surname='User')[0:1]
if su:
su = su[0]
else:
su = Subject(givenname='Anonymous', surname='User')
su.save()
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str_to_hash = "".join(map(lambda i: chr(random.randint(0, 255)), range(16)))
str_to_hash += settings.SECRET_KEY
key = md5(str_to_hash).hexdigest()
run = RunInfo(subject=su, random=key, runid=key, questionset=qs)
run.save()
if not use_session:
kwargs = {'runcode': key}
else:
kwargs = {}
request.session['runcode'] = key
questionnaire_start.send(sender=None, runinfo=run, questionnaire=qu)
return HttpResponseRedirect(reverse('questionnaire', kwargs=kwargs))