Source code for camcops_server.tasks.shaps

#!/usr/bin/env python

"""
camcops_server/tasks/shaps.py

===============================================================================

    Copyright (C) 2012, University of Cambridge, Department of Psychiatry.
    Created by Rudolf Cardinal (rnc1001@cam.ac.uk).

    This file is part of CamCOPS.

    CamCOPS is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    CamCOPS is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with CamCOPS. If not, see <https://www.gnu.org/licenses/>.

===============================================================================

**Snaith–Hamilton Pleasure Scale (SHAPS) task.**

"""

from typing import Any, Dict, List, Type, Tuple

from cardinal_pythonlib.stringfunc import strseq
from sqlalchemy import Integer
from sqlalchemy.ext.declarative import DeclarativeMeta

from camcops_server.cc_modules.cc_constants import CssClass
from camcops_server.cc_modules.cc_db import add_multiple_columns
from camcops_server.cc_modules.cc_html import tr_qa, tr, answer
from camcops_server.cc_modules.cc_request import CamcopsRequest
from camcops_server.cc_modules.cc_summaryelement import SummaryElement
from camcops_server.cc_modules.cc_task import (
    get_from_dict,
    TaskHasPatientMixin,
    Task,
)
from camcops_server.cc_modules.cc_text import SS


class ShapsMetaclass(DeclarativeMeta):
    # noinspection PyInitNewSignature
    def __init__(
        cls: Type["Shaps"],
        name: str,
        bases: Tuple[Type, ...],
        classdict: Dict[str, Any],
    ) -> None:

        add_multiple_columns(
            cls,
            "q",
            1,
            cls.N_QUESTIONS,
            minimum=0,
            maximum=3,
            comment_fmt="Q{n} - {s}",
            comment_strings=[
                "television",
                "family",
                "hobbies",
                "meal",
                "bath",
                "flowers",
                "smiling",
                "smart",
                "book",
                "tea",
                "sunny",
                "landscape",
                "helping",
                "praise",
            ],
        )

        super().__init__(name, bases, classdict)


[docs]class Shaps(TaskHasPatientMixin, Task, metaclass=ShapsMetaclass): __tablename__ = "shaps" shortname = "SHAPS" N_QUESTIONS = 14 MAX_SCORE = 14 ALL_QUESTIONS = strseq("q", 1, N_QUESTIONS) STRONGLY_DISAGREE = 0 DISAGREE = 1 AGREE = 2 STRONGLY_OR_DEFINITELY_AGREE = 3 # Q11 in British Journal of Psychiatry (1995), 167, 99-103 # actually has two "Strongly disagree" options. Assuming this # is not intentional! REVERSE_QUESTIONS = {2, 4, 5, 7, 9, 12, 14}
[docs] @staticmethod def longname(req: "CamcopsRequest") -> str: _ = req.gettext return _("Snaith–Hamilton Pleasure Scale")
[docs] def get_summaries(self, req: CamcopsRequest) -> List[SummaryElement]: return self.standard_task_summary_fields() + [ SummaryElement( name="total", coltype=Integer(), value=self.total_score(), comment=f"Total score (/{self.MAX_SCORE})", ) ]
[docs] def is_complete(self) -> bool: if self.any_fields_none(self.ALL_QUESTIONS): return False if not self.field_contents_valid(): return False return True
def total_score(self) -> int: # Consistent with client implementation return self.count_where( self.ALL_QUESTIONS, [self.STRONGLY_DISAGREE, self.DISAGREE] )
[docs] def get_task_html(self, req: CamcopsRequest) -> str: strongly_disagree = self.wxstring(req, "strongly_disagree") disagree = self.wxstring(req, "disagree") agree = self.wxstring(req, "agree") # We store the actual answers given but these are scored 1 or 0 forward_answer_dict = { None: None, self.STRONGLY_DISAGREE: "1 — " + strongly_disagree, self.DISAGREE: "1 — " + disagree, self.AGREE: "0 — " + agree, self.STRONGLY_OR_DEFINITELY_AGREE: "0 — " + self.wxstring(req, "strongly_agree"), } # Subtle difference in wording when options presented in reverse reverse_answer_dict = { None: None, self.STRONGLY_OR_DEFINITELY_AGREE: "0 — " + self.wxstring(req, "definitely_agree"), self.AGREE: "0 — " + agree, self.DISAGREE: "1 — " + disagree, self.STRONGLY_DISAGREE: "1 — " + strongly_disagree, } rows = "" for q_num in range(1, self.N_QUESTIONS + 1): q_field = "q" + str(q_num) question_cell = "{}. {}".format(q_num, self.wxstring(req, q_field)) answer_dict = forward_answer_dict if q_num in self.REVERSE_QUESTIONS: answer_dict = reverse_answer_dict answer_cell = get_from_dict(answer_dict, getattr(self, q_field)) rows += tr_qa(question_cell, answer_cell) html = """ <div class="{CssClass.SUMMARY}"> <table class="{CssClass.SUMMARY}"> {tr_is_complete} {total_score} </table> </div> <table class="{CssClass.TASKDETAIL}"> <tr> <th width="60%">Question</th> <th width="40%">Answer</th> </tr> {rows} </table> <div class="{CssClass.FOOTNOTES}"> [1] Score 1 point for either ‘disagree’ option, 0 points for either ‘agree’ option. </div> """.format( CssClass=CssClass, tr_is_complete=self.get_is_complete_tr(req), total_score=tr( req.sstring(SS.TOTAL_SCORE) + " <sup>[1]</sup>", "{} / {}".format(answer(self.total_score()), self.MAX_SCORE), ), rows=rows, ) return html