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# -*- coding: utf-8 -*-
from __future__ import division
__copyright__ = "Copyright (C) 2014 Andreas Kloeckner"
__license__ = """
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
"""
from django.utils.translation import (
ugettext_lazy as _, ugettext, string_concat)
from django.utils.safestring import mark_safe
from course.validation import validate_struct, validate_markup, ValidationError
from course.content import remove_prefix
import django.forms as forms
from relate.utils import StyledForm, Struct, StyledInlineForm
from course.page.base import (
AnswerFeedback, PageBaseWithTitle, PageBaseWithValue, markup_to_html,
PageBaseWithHumanTextFeedback, PageBaseWithCorrectAnswer,
get_editor_interaction_mode)
import re
import sys
class TextAnswerForm(StyledForm):
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def get_text_widget(widget_type, read_only=False, check_only=False,
interaction_mode=None):
"""Returns None if no widget found."""
if widget_type in [None, "text_input"]:
if check_only:
return True
widget = forms.TextInput()
widget.attrs["autofocus"] = None
if read_only:
widget.attrs["readonly"] = None
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return widget, None
elif widget_type == "textarea":
if check_only:
return True
widget = forms.Textarea()
# widget.attrs["autofocus"] = None
if read_only:
widget.attrs["readonly"] = None
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return widget, None
elif widget_type in ["editor:markdown", "editor:yaml"]:
if check_only:
return True
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from course.utils import get_codemirror_widget
cm_widget, cm_help_text = get_codemirror_widget(
language_mode=widget_type[widget_type.find(":")+1:],
interaction_mode=interaction_mode,
read_only=read_only)
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return cm_widget, cm_help_text
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return None, None
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def __init__(self, read_only, interaction_mode, validators, *args, **kwargs):
widget_type = kwargs.pop("widget_type", "text_input")
super(TextAnswerForm, self).__init__(*args, **kwargs)
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widget, help_text = self.get_text_widget(
widget_type, read_only,
interaction_mode=interaction_mode)
self.validators = validators
self.fields["answer"] = forms.CharField(
required=True,
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widget=widget,
def clean(self):
cleaned_data = super(TextAnswerForm, self).clean()
answer = cleaned_data.get("answer", "")
for validator in self.validators:
validator.validate(answer)
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# {{{ validators
class RELATEPageValidator(object):
type = "relate_page"
def __init__(self, vctx, location, validator_desc):
self.validator_desc = validator_desc
validate_struct(
vctx,
location,
validator_desc,
required_attrs=(
("type", str),
),
allowed_attrs=(
("page_type", str),
),
)
def validate(self, new_page_source):
from relate.utils import dict_to_struct
import yaml
try:
page_desc = dict_to_struct(yaml.load(new_page_source))
from course.validation import (
validate_flow_page, ValidationContext)
vctx = ValidationContext(
# FIXME
repo=None,
commit_sha=None)
ifaint
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validate_flow_page(vctx, "submitted page", page_desc)
if page_desc.type != self.validator_desc.page_type:
raise ValidationError(ugettext("page must be of type '%s'")
% self.validator_desc.page_type)
except:
import sys
tp, e, _ = sys.exc_info()
raise forms.ValidationError("%(err_type)s: %(err_str)s"
% {"err_type": tp.__name__, "err_str": str(e)})
TEXT_ANSWER_VALIDATOR_CLASSES = [
RELATEPageValidator,
]
def get_validator_class(location, validator_type):
for validator_class in TEXT_ANSWER_VALIDATOR_CLASSES:
if validator_class.type == validator_type:
return validator_class
raise ValidationError(
string_concat(
"%(location)s: ",
_("unknown validator type"),
"'%(type)s'")
% {'location': location, 'type': validator_type})
def parse_validator(vctx, location, validator_desc):
if not isinstance(validator_desc, Struct):
raise ValidationError(
string_concat(
"%s: ",
_("must be struct or string"))
% location)
if not hasattr(validator_desc, "type"):
raise ValidationError(
string_concat(
"%s: ",
"matcher must supply 'type'")
% location)
return (get_validator_class(location, validator_desc.type)
(vctx, location, validator_desc))
# }}}
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# {{{ matchers
class TextAnswerMatcher(object):
"""Abstract interface for matching text answers.
.. attribute:: type
.. attribute:: is_case_sensitive
.. attribute:: pattern_type
"struct" or "string"
"""
def __init__(self, vctx, location, pattern):
pass
def validate(self, s):
"""Called to validate form input against simple input mistakes.
Should raise :exc:`django.forms.ValidationError` on error.
"""
pass
def grade(self, s):
raise NotImplementedError()
def correct_answer_text(self):
"""May return *None* if not known."""
raise NotImplementedError()
EXTRA_SPACES_RE = re.compile("\s\s+")
def rm_ex_space(s):
return EXTRA_SPACES_RE.sub(" ", s).strip()
class CaseSensitivePlainMatcher(TextAnswerMatcher):
type = "case_sens_plain"
is_case_sensitive = True
pattern_type = "string"
def __init__(self, vctx, location, pattern):
self.pattern = pattern
def grade(self, s):
return int(rm_ex_space(self.pattern) == rm_ex_space(s))
def correct_answer_text(self):
return self.pattern
class PlainMatcher(CaseSensitivePlainMatcher):
type = "plain"
is_case_sensitive = False
pattern_type = "string"
def grade(self, s):
return int(
rm_ex_space(self.pattern.lower()) == rm_ex_space(s.lower()))
class RegexMatcher(TextAnswerMatcher):
type = "regex"
re_flags = re.I
is_case_sensitive = False
pattern_type = "string"
def __init__(self, vctx, location, pattern):
try:
self.pattern = re.compile(pattern, self.re_flags)
except:
tp, e, _ = sys.exc_info()
raise ValidationError(
string_concat(
"%(location)s: ",
_("regex '%(pattern)s' did not compile"),
": %(err_type)s: %(err_str)s")
% {
"location": location,
"pattern": pattern,
"err_type": tp.__name__,
"err_str": str(e)})
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def grade(self, s):
match = self.pattern.match(s)
if match is not None:
return 1
else:
return 0
def correct_answer_text(self):
return None
class CaseSensitiveRegexMatcher(RegexMatcher):
type = "case_sens_regex"
re_flags = 0
is_case_sensitive = True
pattern_type = "string"
def parse_sympy(s):
if isinstance(s, unicode):
# Sympy is not spectacularly happy with unicode function names
s = s.encode()
from pymbolic import parse
from pymbolic.sympy_interface import PymbolicToSympyMapper
# use pymbolic because it has a semi-secure parser
return PymbolicToSympyMapper()(parse(s))
class SymbolicExpressionMatcher(TextAnswerMatcher):
type = "sym_expr"
is_case_sensitive = True
pattern_type = "string"
def __init__(self, vctx, location, pattern):
self.pattern = pattern
try:
self.pattern_sym = parse_sympy(pattern)
except ImportError:
tp, e, _ = sys.exc_info()
if vctx is not None:
string_concat(
"%(location)s: ",
_("unable to check symbolic expression"),
"(%(err_type)s: %(err_str)s)")
% {
'location': location,
"err_type": tp.__name__,
"err_str": str(e)
})
except:
tp, e, _ = sys.exc_info()
raise ValidationError(
"%(location)s: %(err_type)s: %(err_str)s"
% {
"location": location,
"err_type": tp.__name__,
"err_str": str(e)
})
def validate(self, s):
try:
parse_sympy(s)
except:
tp, e, _ = sys.exc_info()
raise forms.ValidationError("%(err_type)s: %(err_str)s"
% {"err_type": tp.__name__, "err_str": str(e)})
def grade(self, s):
from sympy import simplify
answer_sym = parse_sympy(s)
try:
simp_result = simplify(answer_sym - self.pattern_sym)
except Exception:
return 0
if simp_result == 0:
return 1
else:
return 0
def correct_answer_text(self):
return self.pattern
def float_or_sympy_evalf(s):
if isinstance(s, (int, float)):
return s
# avoiding IO error if empty input when
# the is field not required
if s == "":
return s
# return a float type value, expression not allowed
return float(parse_sympy(s).evalf())
except:
return False
else:
return True
class FloatMatcher(TextAnswerMatcher):
type = "float"
is_case_sensitive = False
pattern_type = "struct"
def __init__(self, vctx, location, matcher_desc):
self.matcher_desc = matcher_desc
validate_struct(
vctx,
location,
matcher_desc,
required_attrs=(
("type", str),
("rtol", (int, float, str)),
("atol", (int, float, str)),
try:
self.matcher_desc.value = \
float_or_sympy_evalf(matcher_desc.value)
except:
raise ValidationError(
string_concat(
"%s: ",
_("'value' is not a valid float literal"))
% location)
if hasattr(matcher_desc, "rtol"):
try:
self.matcher_desc.rtol = \
float_or_sympy_evalf(matcher_desc.rtol)
except:
raise ValidationError(
string_concat(
"%s: ",
_("'rtol' is not a valid float literal"))
% location)
if hasattr(matcher_desc, "atol"):
try:
self.matcher_desc.atol = \
float_or_sympy_evalf(matcher_desc.atol)
except:
raise ValidationError(
string_concat(
"%s: ",
_("'atol' is not a valid float literal"))
% location)
if (
not hasattr(matcher_desc, "atol")
and
not hasattr(matcher_desc, "rtol")
and
vctx is not None):
vctx.add_warning(location,
_("Float match should have either rtol or atol--"
"otherwise it will match any number"))
def validate(self, s):
try:
except:
tp, e, _ = sys.exc_info()
raise forms.ValidationError("%(err_type)s: %(err_str)s"
% {"err_type": tp.__name__, "err_str": str(e)})
answer_float = float_or_sympy_evalf(s)
if hasattr(self.matcher_desc, "atol"):
if (abs(answer_float - self.matcher_desc.value)
>= self.matcher_desc.atol):
return 0
if hasattr(self.matcher_desc, "rtol"):
if (abs(answer_float - self.matcher_desc.value)
/ abs(self.matcher_desc.value)
>= self.matcher_desc.rtol):
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return 0
return 1
def correct_answer_text(self):
return str(self.matcher_desc.value)
TEXT_ANSWER_MATCHER_CLASSES = [
CaseSensitivePlainMatcher,
PlainMatcher,
RegexMatcher,
CaseSensitiveRegexMatcher,
SymbolicExpressionMatcher,
FloatMatcher,
]
MATCHER_RE = re.compile(r"^\<([a-zA-Z0-9_:.]+)\>(.*)$")
MATCHER_RE_2 = re.compile(r"^([a-zA-Z0-9_.]+):(.*)$")
def get_matcher_class(location, matcher_type, pattern_type):
for matcher_class in TEXT_ANSWER_MATCHER_CLASSES:
if matcher_class.type == matcher_type:
if matcher_class.pattern_type != pattern_type:
raise ValidationError(
string_concat(
"%(location)s: ",
# Translators: a "matcher" is used to determine
# if the answer to text question (blank filling
# question) is correct.
_("%(matcherclassname)s only accepts "
"'%(matchertype)s' patterns"))
% {
'location': location,
'matcherclassname': matcher_class.__name__,
'matchertype': pattern_type})
raise ValidationError(
string_concat(
"%(location)s: ",
_("unknown match type '%(matchertype)s'"))
% {
'location': location,
'matchertype': matcher_type})
def parse_matcher_string(vctx, location, matcher_desc):
match = MATCHER_RE.match(matcher_desc)
if match is not None:
matcher_type = match.group(1)
pattern = match.group(2)
else:
match = MATCHER_RE_2.match(matcher_desc)
if match is None:
raise ValidationError(
string_concat(
"%s: ",
_("does not specify match type"))
% location)
matcher_type = match.group(1)
pattern = match.group(2)
if vctx is not None:
vctx.add_warning(location,
_("uses deprecated 'matcher:answer' style"))
return (get_matcher_class(location, matcher_type, "string")
(vctx, location, pattern))
def parse_matcher(vctx, location, matcher_desc):
if isinstance(matcher_desc, (str, unicode)):
return parse_matcher_string(vctx, location, matcher_desc)
else:
if not isinstance(matcher_desc, Struct):
raise ValidationError(
string_concat(
"%s: ",
_("must be struct or string"))
% location)
if not hasattr(matcher_desc, "type"):
raise ValidationError(
string_concat(
"%s: ",
_("matcher must supply 'type'"))
% location)
return (get_matcher_class(location, matcher_desc.type, "struct")
(vctx, location, matcher_desc))
# }}}
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# {{{ text question base
class TextQuestionBase(PageBaseWithTitle):
"""
A page asking for a textual answer
.. attribute:: id
|id-page-attr|
.. attribute:: type
``TextQuestion``
.. attribute:: access_rules
|access-rules-page-attr|
.. attribute:: title
|title-page-attr|
.. attribute:: prompt
The page's prompt, written in :ref:`markup`.
.. attribute:: widget
|text-widget-page-attr|
"""
def __init__(self, vctx, location, page_desc):
super(TextQuestionBase, self).__init__(vctx, location, page_desc)
widget = TextAnswerForm.get_text_widget(
getattr(page_desc, "widget", None),
check_only=True)
if widget is None:
raise ValidationError(
string_concat(
"%(location)s: ",
_("unrecognized widget type"),
"'%(type)s'")
% {
'location': location,
'type': getattr(page_desc, "widget")})
def required_attrs(self):
return super(TextQuestionBase, self).required_attrs() + (
("prompt", "markup"),
)
def allowed_attrs(self):
return super(TextQuestionBase, self).allowed_attrs() + (
("widget", str),
)
def markup_body_for_title(self):
return self.page_desc.prompt
def body(self, page_context, page_data):
return markup_to_html(page_context, self.page_desc.prompt)
def make_form(self, page_context, page_data,
answer_data, answer_is_final):
read_only = answer_is_final
if answer_data is not None:
answer = {"answer": answer_data["answer"]}
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form = TextAnswerForm(
read_only,
get_editor_interaction_mode(page_context),
self.get_validators(), answer,
widget_type=getattr(self.page_desc, "widget", None))
else:
answer = None
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form = TextAnswerForm(
read_only,
get_editor_interaction_mode(page_context),
widget_type=getattr(self.page_desc, "widget", None))
return form
def post_form(self, page_context, page_data, post_data, files_data):
read_only = False
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return TextAnswerForm(
read_only,
get_editor_interaction_mode(page_context),
self.get_validators(), post_data, files_data,
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widget_type=getattr(self.page_desc, "widget", None))
def answer_data(self, page_context, page_data, form, files_data):
return {"answer": form.cleaned_data["answer"].strip()}
def is_case_sensitive(self):
return True
def normalized_answer(self, page_context, page_data, answer_data):
if answer_data is None:
return None
normalized_answer = answer_data["answer"]
if not self.is_case_sensitive():
normalized_answer = normalized_answer.lower()
from django.utils.html import escape
return escape(normalized_answer)
# }}}
# {{{ survey text question
class SurveyTextQuestion(TextQuestionBase):
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"""
A page asking for a textual answer, without any notion of 'correctness'
.. attribute:: id
|id-page-attr|
.. attribute:: type
``TextQuestion``
.. attribute:: access_rules
|access-rules-page-attr|
.. attribute:: title
|title-page-attr|
.. attribute:: prompt
The page's prompt, written in :ref:`markup`.
.. attribute:: widget
|text-widget-page-attr|
.. attribute:: answer_comment
A comment that is shown in the same situations a 'correct answer' would
be.
"""
def get_validators(self):
return []
def allowed_attrs(self):
return super(SurveyTextQuestion, self).allowed_attrs() + (
("answer_comment", "markup"),
)
def correct_answer(self, page_context, page_data, answer_data, grade_data):
if hasattr(self.page_desc, "answer_comment"):
return markup_to_html(page_context, self.page_desc.answer_comment)
else:
return None
def expects_answer(self):
return True
def is_answer_gradable(self):
return False
# {{{ text question
class TextQuestion(TextQuestionBase, PageBaseWithValue):
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"""
A page asking for a textual answer
.. attribute:: id
|id-page-attr|
.. attribute:: type
``TextQuestion``
.. attribute:: access_rules
|access-rules-page-attr|
.. attribute:: title
|title-page-attr|
.. attribute:: value
|value-page-attr|
.. attribute:: prompt
The page's prompt, written in :ref:`markup`.
.. attribute:: widget
|text-widget-page-attr|
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A list of answers. If the participant's response matches one of these
answers, it is considered fully correct. Each answer consists of a 'matcher'
and an answer template for that matcher to use. Each type of matcher
requires one of two syntax variants to be used. The
'simple/abbreviated' syntax::
- <plain>some_text
or the 'structured' syntax::
- type: float
value: 1.25
rtol: 0.2
Here are examples of all the supported simple/abbreviated matchers:
- ``<plain>some_text`` Matches exactly ``some_text``, in a
case-insensitive manner.
(i.e. capitalization does not matter)
- ``<case_sens_plain>some_text`` Matches exactly ``some_text``, in a
case-sensitive manner.
(i.e. capitalization matters)
- ``<regex>[a-z]+`` Matches anything matched by the given
(Python-style) regular expression that
follows. Case-insensitive, i.e. capitalization does not matter.
- ``<case_sens_regex>[a-z]+`` Matches anything matched by the given
(Python-style) regular expression that
follows. Case-sensitive, i.e. capitalization matters.
- ``<sym_expr>x+2*y`` Matches anything that :mod:`sympy` considers
equivalent to the given expression. Equivalence is determined
by simplifying ``user_answer - given_expr`` and testing the result
against 0 using :mod:`sympy`.
Here are examples of all the supported structured matchers:
- Floating point. Example::
- type: float
value: 1.25
rtol: 0.2 # relative tolerance
atol: 0.2 # absolute tolerance
One of ``rtol`` or ``atol`` must be given.
"""
def __init__(self, vctx, location, page_desc):
super(TextQuestion, self).__init__(vctx, location, page_desc)
if len(page_desc.answers) == 0:
raise ValidationError(
string_concat(
"%s: ",
_("at least one answer must be provided"))
% location)
self.matchers = [
parse_matcher(
vctx,
"%s, answer %d" % (location, i+1),
answer)
for i, answer in enumerate(page_desc.answers)]
if not any(matcher.correct_answer_text() is not None
for matcher in self.matchers):
raise ValidationError(
string_concat(
"%s: ",
_("no matcher is able to provide a plain-text "
"correct answer"))
% location)
def required_attrs(self):
return super(TextQuestion, self).required_attrs() + (
("answers", list),
)
def get_validators(self):
return self.matchers
def grade(self, page_context, page_data, answer_data, grade_data):
if answer_data is None:
return AnswerFeedback(correctness=0,
answer = answer_data["answer"]
correctness, correct_answer_text = max(
(matcher.grade(answer), matcher.correct_answer_text())
for matcher in self.matchers)
return AnswerFeedback(correctness=correctness)
def correct_answer(self, page_context, page_data, answer_data, grade_data):
# FIXME: Could use 'best' match to answer
CA_PATTERN = string_concat(_("A correct answer is"), ": '%s'.") # noqa
for matcher in self.matchers:
unspec_correct_answer_text = matcher.correct_answer_text()
if unspec_correct_answer_text is not None:
break
assert unspec_correct_answer_text
return CA_PATTERN % unspec_correct_answer_text
def is_case_sensitive(self):
return any(matcher.is_case_sensitive for matcher in self.matchers)
# }}}
# {{{ human-graded text question
class HumanGradedTextQuestion(TextQuestionBase, PageBaseWithValue,
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PageBaseWithHumanTextFeedback, PageBaseWithCorrectAnswer):
"""
A page asking for a textual answer
.. attribute:: id
|id-page-attr|
.. attribute:: type
``HumanGradedTextQuestion``
.. attribute:: access_rules
|access-rules-page-attr|
.. attribute:: title
|title-page-attr|
.. attribute:: value
|value-page-attr|
.. attribute:: prompt
The page's prompt, written in :ref:`markup`.
.. attribute:: widget
.. attribute:: validators
Optional.
TODO
.. attribute:: correct_answer
Optional.
Content that is revealed when answers are visible
(see :ref:`flow-permissions`). Written in :ref:`markup`.
.. attribute:: rubric
Required.
The grading guideline for this question, in :ref:`markup`.
"""
def __init__(self, vctx, location, page_desc):
super(HumanGradedTextQuestion, self).__init__(vctx, location, page_desc)
self.validators = [
parse_validator(
vctx,
"%s, validator %d" % (location, i+1),
for i, answer in enumerate(
getattr(page_desc, "validators", []))]
def allowed_attrs(self):
return super(HumanGradedTextQuestion, self).allowed_attrs() + (
("validators", list),
)
def human_feedback_point_value(self, page_context, page_data):
return self.max_points(page_data)
def get_validators(self):
return self.validators
# {{{ multiple text question
from crispy_forms.layout import Layout, Field, HTML
class MultipleTextAnswerForm(StyledInlineForm):
def __init__(self, read_only, dict_for_form, *args, **kwargs):
super(MultipleTextAnswerForm, self).__init__(*args, **kwargs)
widget, help_text = None, None
HTML_list = dict_for_form["HTML_list"]
self.answer_instance_list = answer_instance_list = \
dict_for_form["answer_instance_list"]
self.helper.layout=(Layout())
# for question with only one field, the field is forced
# to be "required".