MonScoDocEssai/app/scodoc/sco_placement.py
2021-09-11 18:33:55 +02:00

932 lines
32 KiB
Python

# -*- mode: python -*-
# -*- coding: utf-8 -*-
##############################################################################
#
# Gestion scolarite IUT
#
# Copyright (c) 1999 - 2021 Emmanuel Viennet. All rights reserved.
#
# This program 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 2 of the License, or
# (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Emmanuel Viennet emmanuel.viennet@viennet.net
#
##############################################################################
"""ScoDoc: génération feuille émargement et placement
Contribution M. Salomon, UFC / IUT DE BELFORT-MONTBÉLIARD, 2016
"""
import six.moves.urllib.request, six.moves.urllib.parse, six.moves.urllib.error
import random
import time
from copy import copy
import flask
import wtforms.validators
from flask import request, render_template
from flask_login import current_user
from werkzeug import Response
from flask_wtf import FlaskForm
from wtforms import (
StringField,
PasswordField,
BooleanField,
SubmitField,
SelectField,
RadioField,
HiddenField,
SelectMultipleField,
validators,
)
from wtforms.validators import ValidationError, DataRequired, Email, EqualTo
from app.scodoc.sco_exceptions import ScoValueError
import app.scodoc.sco_utils as scu
import app.scodoc.notesdb as ndb
from app.scodoc import html_sco_header
from app.scodoc import sco_edit_module
from app.scodoc import sco_evaluations
from app.scodoc import sco_excel
from app.scodoc import sco_formsemestre
from app.scodoc import sco_formsemestre_inscriptions
from app.scodoc import sco_groups
from app.scodoc import sco_moduleimpl
from app.scodoc import sco_permissions_check
from app.scodoc import sco_preferences
from app.scodoc import sco_saisie_notes
from app.scodoc import sco_etud
import sco_version
from app.scodoc.gen_tables import GenTable
from app.scodoc.sco_excel import * # XXX à vérifier
from app.scodoc.TrivialFormulator import TrivialFormulator
_ = lambda x: x # sans babel
_l = _
class PlacementForm(FlaskForm):
TOUS = "Tous"
evaluation_id = HiddenField("evaluation_id")
file_format = RadioField(
"Format de fichier",
choices=["pdf", "xls"],
validators=[
wtforms.validators.DataRequired("indiquez le format du fichier attendu"),
],
)
surveillants = StringField(
"Surveillants", validators=[wtforms.validators.DataRequired("Test")]
)
batiment = StringField("Batiment")
salle = StringField("Salle")
nb_rangs = SelectField(
"nb_rangs", coerce=int, choices=[3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14]
)
etiquetage = RadioField(
"Numérotation",
choices=["Continue", "Coordonnées"],
validators=[
wtforms.validators.DataRequired("indiquez le style de numérotation"),
],
)
groups = SelectMultipleField(
"Groupe(s)",
validators=[
wtforms.validators.DataRequired("indiquez au moins un groupe"),
],
)
submit = SubmitField("OK")
def set_evaluation_infos(self, evaluation_id):
eval_data = sco_evaluations.do_evaluation_list({"evaluation_id": evaluation_id})
if not eval_data:
raise ScoValueError("invalid evaluation_id")
eval_data = eval_data[0]
# groupes
groups = sco_groups.do_evaluation_listegroupes(
evaluation_id, include_default=True
)
self.groups_tree = {}
self.has_groups = False
for group in groups:
partition = group["partition_name"] or self.TOUS # TODO check required
group_id = group["group_id"]
group_name = group["group_name"] or self.TOUS
if partition not in self.groups_tree:
self.groups_tree[partition] = {}
self.groups_tree[partition][group_name] = group_id
if partition != self.TOUS:
self.has_groups = True
self.groups_tree_length = len(self.groups_tree)
if self.has_groups:
choices = []
for partition in self.groups_tree:
for groupe in self.groups_tree[partition]:
id = str(self.groups_tree[partition][groupe])
choices.append((id, "%s (%s)" % (str(groupe), partition)))
self.groups.choices = choices
def placement_eval_selectetuds(evaluation_id, REQUEST=None):
form = PlacementForm(
request.form,
data={"evaluation_id": int(evaluation_id), "groups": PlacementForm.TOUS},
)
form.set_evaluation_infos(evaluation_id)
if form.validate_on_submit():
exec_placement(form)
return flask.redirect(titi())
H = [html_sco_header.sco_header(init_jquery_ui=True)]
H.append(sco_evaluations.evaluation_describe(evaluation_id=evaluation_id))
H.append("<h3>Placement et émargement des étudiants</h3>")
H.append(render_template("forms/placement.html", form=form))
F = html_sco_header.sco_footer()
return "\n".join(H) + "<p>" + F
def do_placement_selectetuds():
"""
Choisi les étudiants et les infos sur la salle pour leur placement.
"""
# M = sco_moduleimpl.do_moduleimpl_list( moduleimpl_id=E["moduleimpl_id"])[0]
# description de l'evaluation
H = [
sco_evaluations.evaluation_describe(evaluation_id=evaluation_id),
"<h3>Placement et émargement des étudiants</h3>",
]
#
descr = [
("evaluation_id", {"default": evaluation_id, "input_type": "hidden"}),
(
"placement_method",
{
"input_type": "radio",
"default": "xls",
"allow_null": False,
"allowed_values": ["pdf", "xls"],
"labels": ["fichier pdf", "fichier xls"],
"title": "Format de fichier :",
},
),
("teachers", {"size": 25, "title": "Surveillants :"}),
("building", {"size": 25, "title": "Batiment :"}),
("room", {"size": 10, "title": "Salle :"}),
(
"columns",
{
"input_type": "radio",
"default": "5",
"allow_null": False,
"allowed_values": ["3", "4", "5", "6", "7", "8"],
"labels": [
"3 colonnes",
"4 colonnes",
"5 colonnes",
"6 colonnes",
"7 colonnes",
"8 colonnes",
],
"title": "Nombre de colonnes :",
},
),
(
"numbering",
{
"input_type": "radio",
"default": "coordinate",
"allow_null": False,
"allowed_values": ["continuous", "coordinate"],
"labels": ["continue", "coordonnées"],
"title": "Numérotation :",
},
),
]
if no_groups:
submitbuttonattributes = []
descr += [
(
"group_ids",
{
"default": [
g["group_id"] # pylint: disable=invalid-sequence-index
for g in groups
],
"input_type": "hidden",
"type": "list",
},
)
]
else:
descr += [
(
"group_ids",
{
"input_type": "checkbox",
"title": "Choix groupe(s) d'étudiants :",
"allowed_values": grnams,
"labels": grlabs,
"attributes": ['onchange="gr_change(this);"'],
},
)
]
if not ("group_ids" in REQUEST.form and REQUEST.form["group_ids"]):
submitbuttonattributes = ['disabled="1"']
else:
submitbuttonattributes = [] # groupe(s) preselectionnés
H.append(
# JS pour desactiver le bouton OK si aucun groupe selectionné
"""<script type="text/javascript">
function gr_change(e) {
var boxes = document.getElementsByName("group_ids:list");
var nbchecked = 0;
for (var i=0; i < boxes.length; i++) {
if (boxes[i].checked)
nbchecked++;
}
if (nbchecked > 0) {
document.getElementsByName('gr_submit')[0].disabled=false;
} else {
document.getElementsByName('gr_submit')[0].disabled=true;
}
}
</script>
"""
)
tf = TrivialFormulator(
REQUEST.URL0,
REQUEST.form,
descr,
cancelbutton="Annuler",
submitbuttonattributes=submitbuttonattributes,
submitlabel="OK",
formid="gr",
)
if tf[0] == 0:
# H.append( """<div class="saisienote_etape1">
# <span class="titredivplacementetudiants">Choix du groupe et de la localisation</span>
# """)
H.append("""<div class="saisienote_etape1">""")
return "\n".join(H) + "\n" + tf[1] + "\n</div>"
elif tf[0] == -1:
return flask.redirect(
"%s/Notes/moduleimpl_status?moduleimpl_id=%s"
% (scu.ScoURL(), E["moduleimpl_id"])
)
else:
placement_method = tf[2]["placement_method"]
teachers = tf[2]["teachers"]
building = tf[2]["building"]
room = tf[2]["room"]
group_ids = tf[2]["group_ids"]
columns = tf[2]["columns"]
numbering = tf[2]["numbering"]
if columns in ("3", "4", "5", "6", "7", "8"):
gs = [
("group_ids%3Alist=" + six.moves.urllib.parse.quote_plus(x))
for x in group_ids
]
query = (
"evaluation_id=%s&placement_method=%s&teachers=%s&building=%s&room=%s&columns=%s&numbering=%s&"
% (
evaluation_id,
placement_method,
teachers,
building,
room,
columns,
numbering,
)
+ "&".join(gs)
)
return flask.redirect(scu.NotesURL() + "/do_placement?" + query)
else:
raise ValueError(
"invalid placement_method (%s)" % tf[2]["placement_method"]
)
def exec_placement(form):
try:
evaluation_id = int(form["evaluation_id"].data)
except:
raise ScoValueError(
"Formulaire incomplet ! Vous avez sans doute attendu trop longtemps, veuillez vous reconnecter. Si le problème persiste, contacter l'administrateur. Merci."
)
eval_data = sco_evaluations.do_evaluation_list({"evaluation_id": evaluation_id})[0]
# Check access
# (admin, respformation, and responsable_id)
if not sco_permissions_check.can_edit_notes(
current_user, eval_data["moduleimpl_id"]
):
return (
"<h2>Génération du placement impossible pour %s</h2>" % authusername
+ """<p>(vérifiez que le semestre n'est pas verrouillé et que vous
avez l'autorisation d'effectuer cette opération)</p>
<p><a href="moduleimpl_status?moduleimpl_id=%s">Continuer</a></p>
"""
% E["moduleimpl_id"]
)
plan = repartition(form, eval_data)
breakpoint()
sem_preferences = sco_preferences.SemPreferences()
space = sem_preferences.get("feuille_placement_emargement")
maxlines = sem_preferences.get("feuille_placement_positions")
def repartition(form, eval_data):
"""
Calcule le placement. retourne une liste de couples ((nom, prenom), position)
"""
cnx = ndb.GetDBConnexion()
# Infos transmises
evaluation_id = form["evaluation_id"].data
etiquetage = form["etiquetage"].data
teachers = form["surveillants"].data
building = form["batiment"].data
room = form["salle"].data
nb_rangs = form["nb_rangs"].data
group_ids = form["groups"].data
# Construit liste des etudiants
groups = sco_groups.listgroups(group_ids)
gr_title_filename = sco_groups.listgroups_filename(groups)
# gr_title = sco_groups.listgroups_abbrev(groups)
moduleimpl_data = sco_moduleimpl.do_moduleimpl_list(
moduleimpl_id=eval_data["moduleimpl_id"]
)[0]
Mod = sco_edit_module.do_module_list(
args={"module_id": moduleimpl_data["module_id"]}
)[0]
sem = sco_formsemestre.get_formsemestre(moduleimpl_data["formsemestre_id"])
evalname = "%s-%s" % (Mod["code"], ndb.DateDMYtoISO(eval_data["jour"]))
if eval_data["description"]:
evaltitre = eval_data["description"]
else:
evaltitre = "évaluation du %s" % eval_data["jour"]
desceval = [
["%s" % sem["titreannee"]],
["Module : %s - %s" % (Mod["code"], Mod["abbrev"])],
["Surveillants : %s" % teachers],
["Batiment : %s - Salle : %s" % (building, room)],
["Controle : %s (coef. %g)" % (evaltitre, eval_data["coefficient"])]
] # une liste de liste de chaines: description de l'evaluation
listetud = build_listetud(cnx, groups, evaluation_id, moduleimpl_data)
return affectation_places(listetud, etiquetage, nb_rangs)
def build_listetud(cnx, groups, evaluation_id, moduleimpl_data):
if None in [g["group_name"] for g in groups]: # tous les etudiants
getallstudents = True
gr_title_filename = "tous"
else:
getallstudents = False
etudids = sco_groups.do_evaluation_listeetuds_groups(
evaluation_id, groups, getallstudents=getallstudents, include_dems=True
)
listetud = [] # liste de couples (nom,prenom)
for etudid in etudids:
# infos identite etudiant (xxx sous-optimal: 1/select par etudiant)
ident = sco_etud.etudident_list(cnx, {"etudid": etudid})[0]
# infos inscription
inscr = sco_formsemestre_inscriptions.do_formsemestre_inscription_list(
{"etudid": etudid, "formsemestre_id": moduleimpl_data["formsemestre_id"]}
)[0]
if inscr["etat"] != "D":
nom = ident["nom"].upper()
prenom = ident["prenom"].lower().capitalize()
listetud.append((nom, prenom))
random.shuffle(listetud)
return listetud
class DistributeurContinu:
"""Distribue les places selon un ordre numérique."""
def __init(self):
self.position = 1
def suivant(self):
retour = self.position
self.position += 1
return retour
class Distributeur2D:
"""Distribue les places selon des coordonnées sur nb_rangs."""
def __init__(self, nb_rangs):
self.nb_rangs = nb_rangs
self.rang = 1
self.index = 1
def suivant(self):
retour = (self.index, self.rang)
self.rang += 1
if self.rang > self.nb_rangs:
self.rang = 1
self.index += 1
return retour
def affectation_places(listetud, etiquetage, nb_rangs=1):
affectation = []
if etiquetage == "continu":
distributeur = DistributeurContinu()
else:
distributeur = Distributeur2D(nb_rangs)
for etud in listetud:
affectation.append((etud, distributeur.suivant()))
return affectation
def production_xls(file_format, eval_dat, plan):
def production(file_format, eval_dat, plan):
if file_format == "xls":
filename = f"placement_{evalname}_{gr_title_filename}{scu.XLSX_SUFFIX}"
xls = _excel_feuille_placement(
eval_data, desceval, listetud, columns, space, maxlines, building, room, numbering
)
return sco_excel.send_excel_file(REQUEST, xls, filename)
else:
nbcolumns = int(columns)
pdf_title = "%s<br/>" % sem["titreannee"]
pdf_title += "Module : %s - %s<br/>" % (Mod["code"], Mod["abbrev"])
pdf_title += "Surveillants : %s<br/>" % teachers
pdf_title += "Batiment : %s - Salle : %s<br/>" % (building, room)
pdf_title += "Controle : %s (coef. %g)<br/>" % (evaltitre, E["coefficient"])
pdf_title += "Date : %s - Horaire : %s à %s" % (
E["jour"],
E["heure_debut"],
E["heure_fin"],
)
filename = "placement_%s_%s.pdf" % (evalname, gr_title_filename)
titles = {
"nom": "Nom",
"prenom": "Prenom",
"colonne": "Colonne",
"ligne": "Ligne",
"place": "Place",
}
if numbering == "coordinate":
columns_ids = ["nom", "prenom", "colonne", "ligne"]
else:
columns_ids = ["nom", "prenom", "place"]
# etudiants
line = 1
col = 1
orderetud = []
for etudid in listetud:
if numbering == "coordinate":
orderetud.append((etudid[0], etudid[1], col, line))
else:
orderetud.append((etudid[0], etudid[1], col + (line - 1) * nbcolumns))
if col == nbcolumns:
col = 0
line += 1
col += 1
rows = []
orderetud.sort()
for etudid in orderetud:
if numbering == "coordinate":
rows.append(
{
"nom": etudid[0],
"prenom": etudid[1],
"colonne": etudid[2],
"ligne": etudid[3],
}
)
else:
rows.append({"nom": etudid[0], "prenom": etudid[1], "place": etudid[2]})
tab = GenTable(
titles=titles,
columns_ids=columns_ids,
rows=rows,
filename=filename,
origin="Généré par %s le " % sco_version.SCONAME
+ scu.timedate_human_repr()
+ "",
pdf_title=pdf_title,
# pdf_shorttitle = '',
preferences=sco_preferences.SemPreferences(M["formsemestre_id"]),
# html_generate_cells=False # la derniere ligne (moyennes) est incomplete
)
t = tab.make_page(format="pdf", with_html_headers=False, REQUEST=REQUEST)
return t
def placement_eval_selectetuds_old(evaluation_id, REQUEST=None):
"""Dialogue placement etudiants: choix methode et localisation"""
evals = sco_evaluations.do_evaluation_list({"evaluation_id": evaluation_id})
if not evals:
raise ScoValueError("invalid evaluation_id")
theeval = evals[0]
if theeval["description"]:
page_title = 'Placement "%s"' % theeval["description"]
else:
page_title = "Placement des étudiants"
H = [html_sco_header.sco_header(page_title=page_title)]
formid = "placementfile"
if not REQUEST.form.get("%s-submitted" % formid, False):
# not submitted, choix groupe
r = do_placement_selectetuds()
if r:
if isinstance(r, str):
H.append(r)
elif isinstance(r, Response):
H.append(r.get_data().decode("utf-8"))
H.append(
"""<h3>Explications</h3> <ul> <li>Choisir le format du fichier résultat :</li> <ul> <li>le format pdf
consiste en un tableau précisant pour chaque étudiant la localisation de sa table;</li> <li>le format xls
produit un classeur avec deux onglets</li> <ul> <li>le premier onglet donne une vue de la salle avec la
localisation des étudiants et peut servir de feuille d'émargement;</li> <li>le second onglet est un tableau
similaire à celui du fichier pdf;</li> </ul> </ul> <li>préciser les surveillants et la localisation (bâtiment
et salle) et indiquer le nombre de colonnes;</li> <li>deux types de placements sont possibles :</li> <ul>
<li>continue suppose que les tables ont toutes un numéro unique;</li> <li>coordonnées localise chaque table
via un numéro de colonne et un numéro de ligne (ou rangée).</li> </ul> </ul> """
)
H.append(html_sco_header.sco_footer())
return "\n".join(H)
def _one_header(ws, numbering, styles):
cells = []
if numbering == "coordinate":
cells.append(ws.make_cell("Nom", styles["2bi"]))
cells.append(ws.make_cell("Prénom", styles["2bi"]))
cells.append(ws.make_cell("Colonne", styles["2bi"]))
cells.append(ws.make_cell("Ligne", styles["2bi"]))
else:
cells.append(ws.make_cell("Nom", styles["2bi"]))
cells.append(ws.make_cell("Prénom", styles["2bi"]))
cells.append(ws.make_cell("Place", styles["2bi"]))
return cells
def _headers(ws, numbering, styles, nb_listes):
cells = []
for _ in range(nb_listes):
cells += _one_header(ws, numbering, styles)
cells.append(ws.make_cell(""))
ws.append_row(cells)
def _make_styles(ws0, ws1):
# polices
font0 = Font(name="Calibri", bold=True, size=12)
font1b = copy(font0)
font1b.size = 9
font1i = Font(name="Arial", italic=True, size=10)
font1o = Font(name="Arial", outline=True, size=10)
font2bi = Font(name="Arial", bold=True, italic=True, size=8)
font2 = Font(name="Arial", size=10)
# bordures
side_double = Side(border_style="double", color=COLORS.BLACK.value)
side_thin = Side(border_style="thin", color=COLORS.BLACK.value)
# bordures
border1t = Border(left=side_double, top=side_double, right=side_double)
border1bb = Border(left=side_double, bottom=side_double, right=side_double)
border1bm = Border(left=side_double, right=side_double)
border1m = Border(left=side_double, bottom=side_thin, right=side_double)
border2m = Border(top=side_thin, bottom=side_thin)
border2r = Border(top=side_thin, bottom=side_thin, right=side_thin)
border2l = Border(left=side_thin, top=side_thin, bottom=side_thin)
border2b = Border(left=side_thin, top=side_thin, bottom=side_thin, right=side_thin)
# alignements
align_center_center = Alignment(horizontal="center", vertical="center")
align_right_bottom = Alignment(horizontal="right", vertical="bottom")
align_left_center = Alignment(horizontal="left", vertical="center")
align_right_center = Alignment(horizontal="right", vertical="center")
# patterns
pattern = PatternFill(
fill_type="solid", fgColor=sco_excel.COLORS.LIGHT_YELLOW.value
)
# styles
styles = {
"titres": sco_excel.excel_make_style(font_name="Arial", bold=True, size=12),
"1t": ws0.excel_make_composite_style(
font=font0, alignment=align_center_center, border=border1t
),
"1m": ws0.excel_make_composite_style(
font=font1b, alignment=align_center_center, border=border1m
),
"1bm": ws0.excel_make_composite_style(
font=font1b, alignment=align_center_center, border=border1bm
),
"1bb": ws0.excel_make_composite_style(
font=font1o, alignment=align_right_bottom, border=border1bb
),
"2b": ws1.excel_make_composite_style(
font=font1i, alignment=align_center_center, border=border2b
),
"2bi": ws1.excel_make_composite_style(
font=font2bi, alignment=align_center_center, border=border2b, fill=pattern
),
"2l": ws1.excel_make_composite_style(
font=font2, alignment=align_left_center, border=border2l
),
"2m1": ws1.excel_make_composite_style(
font=font2, alignment=align_left_center, border=border2m
),
"2m2": ws1.excel_make_composite_style(
font=font2, alignment=align_right_center, border=border2m
),
"2r": ws1.excel_make_composite_style(
font=font2, alignment=align_right_center, border=border2r
),
}
return styles
def _init_lines(maxlines):
return [
[] for _ in range(maxlines)
] # lines[no_ligne] -> liste des cellules de la ligne (no_lignes de 1..maxlines
def _write_lines(ws, lines):
for line in lines:
ws.append_row(line)
def _titres(ws, description, evaluation, building, room, styles):
dt = time.strftime("%d/%m/%Y a %Hh%M")
ws.append_single_cell_row(
"Feuille placement etudiants éditée le %s" % dt, styles["titres"]
)
for line, desceval in enumerate(description):
if line in [1, 4, 7]:
ws.append_blank_row()
ws.append_single_cell_row(desceval[0], styles["titres"])
ws.append_single_cell_row(
"Date : %s - Horaire : %s à %s"
% (evaluation["jour"], evaluation["heure_debut"], evaluation["heure_fin"]),
styles["titres"],
)
ws.append_single_cell_row(
"Date : %s - Horaire : %s à %s"
% (evaluation["jour"], evaluation["heure_debut"], evaluation["heure_fin"]),
styles["titres"],
)
def _feuille0(
ws0,
description,
evaluation,
styles,
numbering,
listetud,
nbcolumns,
building,
room,
space,
):
_titres(ws0, description, evaluation, building, room, styles)
# entetes colonnes - feuille0
cells = [ws0.make_cell()]
for col in range(nbcolumns):
cells.append(ws0.make_cell("colonne %s" % (col + 1), styles["2b"]))
ws0.append_row(cells)
# etudiants
line = 1
col = 1
linetud = []
orderetud = []
placementetud = []
for etudid in listetud:
linetud.append(etudid)
if numbering == "coordinate":
orderetud.append((etudid[0], etudid[1], col, line))
else:
orderetud.append((etudid[0], etudid[1], col + (line - 1) * nbcolumns))
if col == nbcolumns:
placementetud.append(linetud)
linetud = []
col = 0
line += 1
col += 1
if len(linetud) > 0:
placementetud.append(linetud)
# etudiants - feuille0
place = 1
for rang, linetud in enumerate(placementetud, start=1):
# Chaque rang est affiché sur 3 lignes xlsx (notées A, B, C)
# ligne A: le nom, ligne B: le prénom, ligne C: un espace ou la place
cells_a = [ws0.make_cell(rang, styles["2b"])]
cells_b = [ws0.make_cell("", styles["2b"])]
cells_c = [ws0.make_cell("", styles["2b"])]
row = 14 # premieère ligne de signature
for etudid in linetud:
cells_a.append(ws0.make_cell(etudid[0], styles["1t"]))
cells_b.append(ws0.make_cell(etudid[1], styles["1m"]))
if numbering == "coordinate":
cell_c = ws0.make_cell("", styles["1bb"])
else:
cell_c = ws0.make_cell("place %s" % place, styles["1bb"])
cells_c.append(cell_c)
ws0.set_row_dimension_height(row, space / 25)
row += 3
place = place + 1
if col == nbcolumns:
ws0.append_row(cells_a)
ws0.append_row(cells_b)
ws0.append_row(cells_c)
cells_a = [ws0.make_cell(rang, styles["2b"])]
cells_b = [ws0.make_cell("", styles["2b"])]
cells_c = [ws0.make_cell("", styles["2b"])]
# publication du rang final incomplet
ws0.append_row(cells_a)
ws0.append_row(cells_b)
ws0.append_row(cells_c)
ws0.set_row_dimension_height(row, space / 25)
def _compute_ordretud(listetud, nbcolumns, numbering):
orderetud = []
line = 1
col = 1
for etudid in listetud:
if numbering == "coordinate":
orderetud.append((etudid[0], etudid[1], col, line))
else:
orderetud.append(
(etudid[0], etudid[1], "%s" % (col + (line - 1) * nbcolumns))
)
col += 1
if col > nbcolumns:
col = 1
line += 1
orderetud.sort()
return orderetud
def _next_page(ws):
pass
def _feuille1(
ws,
description,
evaluation,
styles,
numbering,
maxlines,
nbcolumns,
building,
room,
listetud,
):
# etudiants - feuille1
# structuration:
# 1 page = maxlistes listes
# 1 liste = 3 ou 4 colonnes(excel) (selon numbering) et (maximum maxlines) lignes
maxlistes = 2 # nombre de listes par page
# computes excel columns widths
if numbering == "coordinate":
gabarit = [16, 18, 6, 6, 2]
else:
gabarit = [16, 18, 12, 2]
widths = []
for _ in range(maxlistes):
widths += gabarit
ws.set_column_dimension_width(value=widths)
nb_etu_restant = len(listetud)
_titres(ws, description, evaluation, building, room, styles)
nb_listes = min(
maxlistes, nb_etu_restant // maxlines + 1
) # nombre de colonnes dans la page
_headers(ws, numbering, styles, nb_listes)
# construction liste alphabétique
# Affichage
lines = _init_lines(maxlines)
orderetud = _compute_ordretud(listetud, nbcolumns, numbering)
line = 0
col = 0
for etudid in orderetud:
# check for skip of list or page
if col > 0: # add a empty cell between lists
lines[line].append(ws.make_cell())
lines[line].append(ws.make_cell(etudid[0], styles["2l"]))
lines[line].append(ws.make_cell(etudid[1], styles["2m1"]))
if numbering == "coordinate":
lines[line].append(ws.make_cell(etudid[2], styles["2m2"]))
lines[line].append(ws.make_cell(etudid[3], styles["2r"]))
else:
lines[line].append(ws.make_cell(etudid[2], styles["2r"]))
line = line + 1
if line >= maxlines: # fin de liste
col = col + 1
line = 0
if col >= maxlistes: # fin de page
_write_lines(ws, lines)
lines = _init_lines(maxlines)
col = 0
ws.append_blank_row()
nb_etu_restant -= maxlistes * maxlines
nb_listes = min(
maxlistes, nb_etu_restant // maxlines + 1
) # nombre de colonnes dans la page
_headers(ws, numbering, styles, nb_listes)
_write_lines(ws, lines)
def _excel_feuille_placement(
evaluation,
description,
listetud,
columns,
space,
maxlines,
building,
room,
numbering,
):
"""Genere feuille excel pour placement des etudiants.
E: evaluation (dict)
lines: liste de tuples
(etudid, nom, prenom, etat, groupe, val, explanation)
"""
nbcolumns = int(columns)
column_width_ratio = 1 / 250 # changement d unités entre pyExcelerator et openpyxl
wb = ScoExcelBook()
SheetName0 = "Emargement"
ws0 = wb.create_sheet(SheetName0)
# ajuste largeurs colonnes (unite inconnue, empirique)
width = 4500 * column_width_ratio
if nbcolumns > 5:
width = 22500 * column_width_ratio // nbcolumns
ws0.set_column_dimension_width("A", 750 * column_width_ratio)
for col in range(nbcolumns):
ws0.set_column_dimension_width(
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"[col + 1: col + 2], width
)
SheetName1 = "Positions"
ws1 = wb.create_sheet(SheetName1)
styles = _make_styles(ws0, ws1)
_feuille0(
ws0,
description,
evaluation,
styles,
numbering,
listetud,
nbcolumns,
building,
room,
space,
)
_feuille1(
ws1,
description,
evaluation,
styles,
numbering,
maxlines,
nbcolumns,
building,
room,
listetud,
)
return wb.generate()