Andal.LND/edx-platform
6
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
f1623ec6057b4f53d8d0e1fe7604ffdfdee10792
edx-platform/common/lib/capa/capa_problem.py
ichuang 9b90068e03 Merge branch 'stable-edx4edx' of github.com:MITx/mitx 
Conflicts:
	common/lib/xmodule/seq_module.py
	common/lib/xmodule/xmodule/capa_module.py
	lms/djangoapps/courseware/module_render.py
	lms/djangoapps/courseware/views.py
	lms/djangoapps/multicourse/multicourse_settings.py
2012-07-08 16:52:36 -04:00

411 lines
17 KiB
Python
Raw Blame History

#
# File: capa/capa_problem.py
#
# Nomenclature:
#
# A capa Problem is a collection of text and capa Response questions. Each Response may have one or more
# Input entry fields. The capa Problem may include a solution.
#
'''
Main module which shows problems (of "capa" type).
This is used by capa_module.
'''
from __future__ import division
import logging
import math
import numpy
import os
import random
import re
import scipy
import struct
from lxml import etree
from xml.sax.saxutils import unescape
import calc
from correctmap import CorrectMap
import eia
import inputtypes
from util import contextualize_text
# to be replaced with auto-registering
import responsetypes
# dict of tagname, Response Class -- this should come from auto-registering
response_tag_dict = dict([(x.response_tag,x) for x in responsetypes.__all__])
entry_types = ['textline', 'schematic', 'choicegroup', 'textbox', 'imageinput', 'optioninput']
solution_types = ['solution'] # extra things displayed after "show answers" is pressed
response_properties = ["responseparam", "answer"] # these get captured as student responses
# special problem tags which should be turned into innocuous HTML
html_transforms = {'problem': {'tag': 'div'},
"text": {'tag': 'span'},
"math": {'tag': 'span'},
}
global_context = {'random': random,
'numpy': numpy,
'math': math,
'scipy': scipy,
'calc': calc,
'eia': eia}
# These should be removed from HTML output, including all subelements
html_problem_semantics = ["responseparam", "answer", "script","hintgroup"]
log = logging.getLogger('mitx.' + __name__)
#-----------------------------------------------------------------------------
# main class for this module
class LoncapaProblem(object):
'''
Main class for capa Problems.
'''
def __init__(self, problem_text, id, state=None, seed=None, system=None):
'''
Initializes capa Problem.
Arguments:
- problem_text : xml defining the problem
- id : string used as the identifier for this problem; often a filename (no spaces)
- state : student state (represented as a dict)
- seed : random number generator seed (int)
- system : I4xSystem instance which provides OS, rendering, and user context
'''
## Initialize class variables from state
self.do_reset()
self.problem_id = id
self.system = system
self.seed = seed
if state:
if 'seed' in state:
self.seed = state['seed']
if 'student_answers' in state:
self.student_answers = state['student_answers']
if 'correct_map' in state:
self.correct_map.set_dict(state['correct_map'])
if 'done' in state:
self.done = state['done']
# TODO: Does this deplete the Linux entropy pool? Is this fast enough?
if not self.seed:
self.seed = struct.unpack('i', os.urandom(4))[0]
problem_text = re.sub("startouttext\s*/", "text", problem_text) # Convert startouttext and endouttext to proper <text></text>
problem_text = re.sub("endouttext\s*/", "/text", problem_text)
self.problem_text = problem_text
self.tree = etree.XML(problem_text) # parse problem XML file into an element tree
self._process_includes() # handle any <include file="foo"> tags
# construct script processor context (eg for customresponse problems)
self.context = self._extract_context(self.tree, seed=self.seed)
# pre-parse the XML tree: modifies it to add ID's and perform some in-place transformations
# this also creates the dict (self.responders) of Response instances for each question in the problem.
# the dict has keys = xml subtree of Response, values = Response instance
self._preprocess_problem(self.tree)
def do_reset(self):
'''
Reset internal state to unfinished, with no answers
'''
self.student_answers = dict()
self.correct_map = CorrectMap()
self.done = False
def __unicode__(self):
return u"LoncapaProblem ({0})".format(self.problem_text)
def get_state(self):
''' Stored per-user session data neeeded to:
1) Recreate the problem
2) Populate any student answers. '''
return {'seed': self.seed,
'student_answers': self.student_answers,
'correct_map': self.correct_map.get_dict(),
'done': self.done}
def get_max_score(self):
'''
Return maximum score for this problem.
We do this by counting the number of answers available for each question
in the problem. If the Response for a question has a get_max_score() method
then we call that and add its return value to the count. That can be
used to give complex problems (eg programming questions) multiple points.
'''
maxscore = 0
for responder in self.responders.values():
if hasattr(responder,'get_max_score'):
try:
maxscore += responder.get_max_score()
except Exception:
log.debug('responder %s failed to properly return from get_max_score()' % responder) # FIXME
raise
else:
try:
maxscore += len(responder.get_answers())
except:
log.debug('responder %s failed to properly return get_answers()' % responder) # FIXME
raise
return maxscore
def get_score(self):
'''
Compute score for this problem. The score is the number of points awarded.
Returns a dictionary {'score': integer, from 0 to get_max_score(),
'total': get_max_score()}.
'''
correct = 0
for key in self.correct_map:
try:
correct += self.correct_map.get_npoints(key)
except Exception:
log.error('key=%s, correct_map = %s' % (key,self.correct_map))
raise
if (not self.student_answers) or len(self.student_answers) == 0:
return {'score': 0,
'total': self.get_max_score()}
else:
return {'score': correct,
'total': self.get_max_score()}
def grade_answers(self, answers):
'''
Grade student responses. Called by capa_module.check_problem.
answers is a dict of all the entries from request.POST, but with the first part
of each key removed (the string before the first "_").
Thus, for example, input_ID123 -> ID123, and input_fromjs_ID123 -> fromjs_ID123
Calles the Response for each question in this problem, to do the actual grading.
'''
self.student_answers = answers
oldcmap = self.correct_map # old CorrectMap
newcmap = CorrectMap() # start new with empty CorrectMap
# log.debug('Responders: %s' % self.responders)
for responder in self.responders.values():
results = responder.evaluate_answers(answers,oldcmap) # call the responsetype instance to do the actual grading
newcmap.update(results)
self.correct_map = newcmap
# log.debug('%s: in grade_answers, answers=%s, cmap=%s' % (self,answers,newcmap))
return newcmap
def get_question_answers(self):
"""Returns a dict of answer_ids to answer values. If we cannot generate
an answer (this sometimes happens in customresponses), that answer_id is
not included. Called by "show answers" button JSON request
(see capa_module)
"""
answer_map = dict()
for responder in self.responders.values():
results = responder.get_answers()
answer_map.update(results) # dict of (id,correct_answer)
# include solutions from <solution>...</solution> stanzas
for entry in self.tree.xpath("//" + "|//".join(solution_types)):
answer = etree.tostring(entry)
if answer: answer_map[entry.get('id')] = answer
log.debug('answer_map = %s' % answer_map)
return answer_map
def get_answer_ids(self):
"""Return the IDs of all the responses -- these are the keys used for
the dicts returned by grade_answers and get_question_answers. (Though
get_question_answers may only return a subset of these."""
answer_ids = []
for responder in self.responders.values():
answer_ids.append(responder.get_answers().keys())
return answer_ids
def get_html(self):
'''
Main method called externally to get the HTML to be rendered for this capa Problem.
'''
return contextualize_text(etree.tostring(self._extract_html(self.tree)), self.context)
# ======= Private Methods Below ========
def _process_includes(self):
'''
Handle any <include file="foo"> tags by reading in the specified file and inserting it
into our XML tree. Fail gracefully if debugging.
'''
includes = self.tree.findall('.//include')
for inc in includes:
file = inc.get('file')
if file is not None:
try:
ifp = self.system.filestore.open(file) # open using I4xSystem OSFS filestore
except Exception as err:
log.error('Error %s in problem xml include: %s' % (err,etree.tostring(inc,pretty_print=True)))
log.error('Cannot find file %s in %s' % (file,self.system.filestore))
if not self.system.get('DEBUG'): # if debugging, don't fail - just log error
raise
else: continue
try:
incxml = etree.XML(ifp.read()) # read in and convert to XML
except Exception as err:
log.error('Error %s in problem xml include: %s' % (err,etree.tostring(inc,pretty_print=True)))
log.error('Cannot parse XML in %s' % (file))
if not self.system.get('DEBUG'): # if debugging, don't fail - just log error
raise
else: continue
parent = inc.getparent() # insert new XML into tree in place of inlcude
parent.insert(parent.index(inc),incxml)
parent.remove(inc)
log.debug('Included %s into %s' % (file, self.id))
def _extract_context(self, tree, seed=struct.unpack('i', os.urandom(4))[0]): # private
'''
Extract content of <script>...</script> from the problem.xml file, and exec it in the
context of this problem. Provides ability to randomize problems, and also set
variables for problem answer checking.
Problem XML goes to Python execution context. Runs everything in script tags
'''
random.seed(self.seed)
context = {'global_context': global_context} # save global context in here also
context.update(global_context) # initialize context to have stuff in global_context
context['__builtins__'] = globals()['__builtins__'] # put globals there also
context['the_lcp'] = self # pass instance of LoncapaProblem in
context['script_code'] = ''
for script in tree.findall('.//script'):
stype = script.get('type')
if stype:
if 'javascript' in stype:
continue # skip javascript
if 'perl' in stype:
continue # skip perl
# TODO: evaluate only python
code = script.text
XMLESC = {"&apos;": "'", "&quot;": '"'}
code = unescape(code, XMLESC)
context['script_code'] += code # store code source in context
try:
exec code in context, context # use "context" for global context; thus defs in code are global within code
except Exception:
log.exception("Error while execing script code: " + code)
raise responsetypes.LoncapaProblemError("Error while executing script code")
return context
def _extract_html(self, problemtree): # private
'''
Main (private) function which converts Problem XML tree to HTML.
Calls itself recursively.
Returns Element tree of XHTML representation of problemtree.
Calls render_html of Response instances to render responses into XHTML.
Used by get_html.
'''
if problemtree.tag=='script' and problemtree.get('type') and 'javascript' in problemtree.get('type'):
# leave javascript intact.
return problemtree
if problemtree.tag in html_problem_semantics:
return
problemid = problemtree.get('id') # my ID
if problemtree.tag in inputtypes.get_input_xml_tags():
status = "unsubmitted"
msg = ''
hint = ''
hintmode = None
if problemid in self.correct_map:
pid = problemtree.get('id')
status = self.correct_map.get_correctness(pid)
msg = self.correct_map.get_msg(pid)
hint = self.correct_map.get_hint(pid)
hintmode = self.correct_map.get_hintmode(pid)
value = ""
if self.student_answers and problemid in self.student_answers:
value = self.student_answers[problemid]
# do the rendering
render_object = inputtypes.SimpleInput(system=self.system,
xml=problemtree,
state={'value': value,
'status': status,
'id': problemtree.get('id'),
'feedback': {'message': msg,
'hint' : hint,
'hintmode' : hintmode,
}
},
use='capa_input')
return render_object.get_html() # function(problemtree, value, status, msg) # render the special response (textline, schematic,...)
if problemtree in self.responders: # let each Response render itself
return self.responders[problemtree].render_html(self._extract_html)
tree = etree.Element(problemtree.tag)
for item in problemtree:
item_xhtml = self._extract_html(item) # nothing special: recurse
if item_xhtml is not None:
tree.append(item_xhtml)
if tree.tag in html_transforms:
tree.tag = html_transforms[problemtree.tag]['tag']
else:
for (key, value) in problemtree.items(): # copy attributes over if not innocufying
tree.set(key, value)
tree.text = problemtree.text
tree.tail = problemtree.tail
return tree
def _preprocess_problem(self, tree): # private
'''
Assign IDs to all the responses
Assign sub-IDs to all entries (textline, schematic, etc.)
Annoted correctness and value
In-place transformation
Also create capa Response instances for each responsetype and save as self.responders
'''
response_id = 1
self.responders = {}
for response in tree.xpath('//' + "|//".join(response_tag_dict)):
response_id_str = self.problem_id + "_" + str(response_id)
response.set('id',response_id_str) # create and save ID for this response
response_id += 1
answer_id = 1
inputfields = tree.xpath("|".join(['//' + response.tag + '[@id=$id]//' + x for x in (entry_types + solution_types)]),
id=response_id_str)
for entry in inputfields: # assign one answer_id for each entry_type or solution_type
entry.attrib['response_id'] = str(response_id)
entry.attrib['answer_id'] = str(answer_id)
entry.attrib['id'] = "%s_%i_%i" % (self.problem_id, response_id, answer_id)
answer_id = answer_id + 1
responder = response_tag_dict[response.tag](response, inputfields, self.context, self.system) # instantiate capa Response
self.responders[response] = responder # save in list in self
# <solution>...</solution> may not be associated with any specific response; give IDs for those separately
# TODO: We should make the namespaces consistent and unique (e.g. %s_problem_%i).
solution_id = 1
for solution in tree.findall('.//solution'):
solution.attrib['id'] = "%s_solution_%i" % (self.problem_id, solution_id)
solution_id += 1
Reference in New Issue View Git Blame Copy Permalink