MonScoDocEssai/sco_excel.py

676 lines
21 KiB
Python
Raw Normal View History

2020-09-26 16:19:37 +02:00
# -*- mode: python -*-
# -*- coding: utf-8 -*-
##############################################################################
#
# Gestion scolarite IUT
#
2021-01-01 17:51:08 +01:00
# Copyright (c) 1999 - 2021 Emmanuel Viennet. All rights reserved.
2020-09-26 16:19:37 +02:00
#
# 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
#
##############################################################################
""" Excel file handling
"""
from pyExcelerator import *
from notes_log import log
from scolog import logdb
2021-02-04 20:02:44 +01:00
from sco_exceptions import ScoValueError
import sco_utils as scu
2020-09-26 16:19:37 +02:00
import notesdb
import time, datetime
from types import StringType, IntType, FloatType, LongType
# colors, voir exemple format.py
COLOR_CODES = {
"black": 0,
"red": 0x0A,
"mauve": 0x19,
"marron": 0x3C,
"blue": 0x4,
"orange": 0x34,
"lightyellow": 0x2B,
}
def sendExcelFile(REQUEST, data, filename):
"""publication fichier.
(on ne doit rien avoir émis avant, car ici sont générés les entetes)
"""
filename = (
2021-02-04 20:02:44 +01:00
scu.unescape_html(scu.suppress_accents(filename))
.replace("&", "")
.replace(" ", "_")
2020-09-26 16:19:37 +02:00
)
2021-02-04 20:02:44 +01:00
REQUEST.RESPONSE.setHeader("content-type", scu.XLS_MIMETYPE)
2020-09-26 16:19:37 +02:00
REQUEST.RESPONSE.setHeader(
"content-disposition", 'attachment; filename="%s"' % filename
)
return data
## (stolen from xlrd)
# Convert an Excel number (presumed to represent a date, a datetime or a time) into
# a Python datetime.datetime
# @param xldate The Excel number
# @param datemode 0: 1900-based, 1: 1904-based.
# @return a datetime.datetime object, to the nearest_second.
# <br>Special case: if 0.0 <= xldate < 1.0, it is assumed to represent a time;
# a datetime.time object will be returned.
# <br>Note: 1904-01-01 is not regarded as a valid date in the datemode 1 system; its "serial number"
# is zero.
_XLDAYS_TOO_LARGE = (2958466, 2958466 - 1462) # This is equivalent to 10000-01-01
def xldate_as_datetime(xldate, datemode=0):
if datemode not in (0, 1):
raise ValueError("invalid mode %s" % datemode)
if xldate == 0.00:
return datetime.time(0, 0, 0)
if xldate < 0.00:
raise ValueError("invalid date code %s" % xldate)
xldays = int(xldate)
frac = xldate - xldays
seconds = int(round(frac * 86400.0))
assert 0 <= seconds <= 86400
if seconds == 86400:
seconds = 0
xldays += 1
if xldays >= _XLDAYS_TOO_LARGE[datemode]:
raise ValueError("date too large %s" % xldate)
if xldays == 0:
# second = seconds % 60; minutes = seconds // 60
minutes, second = divmod(seconds, 60)
# minute = minutes % 60; hour = minutes // 60
hour, minute = divmod(minutes, 60)
return datetime.time(hour, minute, second)
if xldays < 61 and datemode == 0:
raise ValueError("ambiguous date %s" % xldate)
return datetime.datetime.fromordinal(
xldays + 693594 + 1462 * datemode
) + datetime.timedelta(seconds=seconds)
# Sous-classes pour ajouter methode savetostr()
# (generation de fichiers en memoire)
# XXX ne marche pas car accès a methodes privees (__xxx)
# -> on utilise version modifiee par nous meme de pyExcelerator
#
# class XlsDocWithSave(CompoundDoc.XlsDoc):
# def savetostr(self, stream):
# #added by Emmanuel: save method, but returns a string
# # 1. Align stream on 0x1000 boundary (and therefore on sector boundary)
# padding = '\x00' * (0x1000 - (len(stream) % 0x1000))
# self.book_stream_len = len(stream) + len(padding)
# self.__build_directory()
# self.__build_sat()
# self.__build_header()
# return self.header+self.packed_MSAT_1st+stream+padding+self.packed_MSAT_2nd+self.packed_SAT+self.dir_stream
# class WorkbookWithSave(Workbook):
# def savetostr(self):
# doc = XlsDocWithSave()
# return doc.savetostr(self.get_biff_data())
def Excel_MakeStyle(
bold=False, italic=False, color="black", bgcolor=None, halign=None, valign=None
):
style = XFStyle()
font = Font()
if bold:
font.bold = bold
if italic:
font.italic = italic
font.name = "Arial"
colour_index = COLOR_CODES.get(color, None)
if colour_index:
font.colour_index = colour_index
if bgcolor:
style.pattern = Pattern()
style.pattern.pattern = Pattern.SOLID_PATTERN
style.pattern.pattern_fore_colour = COLOR_CODES.get(bgcolor, None)
al = None
if halign:
al = Alignment()
al.horz = {
"left": Alignment.HORZ_LEFT,
"right": Alignment.HORZ_RIGHT,
"center": Alignment.HORZ_CENTER,
}[halign]
if valign:
if not al:
al = Alignment()
al.vert = {
"top": Alignment.VERT_TOP,
"bottom": VERT_BOTTOM,
"center": VERT_CENTER,
}[valign]
if al:
style.alignment = al
style.font = font
return style
class ScoExcelSheet:
def __init__(self, sheet_name="feuille", default_style=None):
self.sheet_name = sheet_name
self.cells = [] # list of list
self.cells_styles_lico = {} # { (li,co) : style }
self.cells_styles_li = {} # { li : style }
self.cells_styles_co = {} # { co : style }
if not default_style:
default_style = Excel_MakeStyle()
self.default_style = default_style
def set_style(self, style=None, li=None, co=None):
if li != None and co != None:
self.cells_styles_lico[(li, co)] = style
elif li != None:
self.cells_styles_li[li] = style
elif co != None:
self.cells_styles_co[co] = style
def append(self, l):
"""Append a line of cells"""
self.cells.append(l)
def get_cell_style(self, li, co):
"""Get style for specified cell"""
return (
self.cells_styles_lico.get((li, co), None)
or self.cells_styles_li.get(li, None)
or self.cells_styles_co.get(co, None)
or self.default_style
)
def gen_workbook(self, wb=None):
"""Generates and returns a workbook from stored data.
If wb, add a sheet (tab) to the existing workbook (in this case, returns None).
"""
if wb == None:
wb = Workbook() # Création du fichier
sauvegarde = True
else:
sauvegarde = False
2021-02-04 20:02:44 +01:00
ws0 = wb.add_sheet(self.sheet_name.decode(scu.SCO_ENCODING))
2020-09-26 16:19:37 +02:00
li = 0
for l in self.cells:
co = 0
for c in l:
# safety net: allow only str, int and float
if type(c) == LongType:
c = int(c) # assume all ScoDoc longs fits in int !
elif type(c) not in (IntType, FloatType):
2021-02-04 20:02:44 +01:00
c = str(c).decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
ws0.write(li, co, c, self.get_cell_style(li, co))
co += 1
li += 1
if sauvegarde == True:
return wb.savetostr()
else:
return None
def Excel_SimpleTable(titles=[], lines=[[]], SheetName="feuille", titlesStyles=[]):
2021-01-01 18:40:47 +01:00
"""Export simple type 'CSV': 1ere ligne en gras, le reste tel quel"""
2020-09-26 16:19:37 +02:00
# XXX devrait maintenant utiliser ScoExcelSheet
wb = Workbook()
2021-02-04 20:02:44 +01:00
ws0 = wb.add_sheet(SheetName.decode(scu.SCO_ENCODING))
2020-09-26 16:19:37 +02:00
if not titlesStyles:
style = Excel_MakeStyle(bold=True)
titlesStyles = [style] * len(titles)
# ligne de titres
col = 0
for it in titles:
2021-02-04 20:02:44 +01:00
ws0.write(0, col, it.decode(scu.SCO_ENCODING), titlesStyles[col])
2020-09-26 16:19:37 +02:00
col += 1
# suite
default_style = Excel_MakeStyle()
text_style = Excel_MakeStyle()
text_style.num_format_str = "@"
li = 1
for l in lines:
col = 0
for it in l:
cell_style = default_style
# safety net: allow only str, int and float
if type(it) == LongType:
it = int(it) # assume all ScoDoc longs fits in int !
elif type(it) not in (IntType, FloatType):
2021-02-04 20:02:44 +01:00
it = str(it).decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
cell_style = text_style
ws0.write(li, col, it, cell_style)
col += 1
li += 1
#
return wb.savetostr()
def Excel_feuille_saisie(E, titreannee, description, lines):
"""Genere feuille excel pour saisie des notes.
E: evaluation (dict)
lines: liste de tuples
(etudid, nom, prenom, etat, groupe, val, explanation)
"""
SheetName = "Saisie notes"
wb = Workbook()
2021-02-04 20:02:44 +01:00
ws0 = wb.add_sheet(SheetName.decode(scu.SCO_ENCODING))
2020-09-26 16:19:37 +02:00
# ajuste largeurs colonnes (unite inconnue, empirique)
ws0.col(0).width = 400 # codes
ws0.col(1).width = 6000 # noms
ws0.col(2).width = 4000 # prenoms
ws0.col(3).width = 6000 # groupes
ws0.col(4).width = 3000 # notes
ws0.col(5).width = 13000 # remarques
# styles
style_titres = XFStyle()
font0 = Font()
font0.bold = True
font0.name = "Arial"
font0.bold = True
font0.height = 14 * 0x14
style_titres.font = font0
style_expl = XFStyle()
font_expl = Font()
font_expl.name = "Arial"
font_expl.italic = True
font0.height = 12 * 0x14
font_expl.colour_index = 0x0A # rouge, voir exemple format.py
style_expl.font = font_expl
topborders = Borders()
topborders.top = 1
topleftborders = Borders()
topleftborders.top = 1
topleftborders.left = 1
rightborder = Borders()
rightborder.right = 1
style_ro = XFStyle() # cells read-only
font_ro = Font()
font_ro.name = "Arial"
font_ro.colour_index = COLOR_CODES["mauve"]
style_ro.font = font_ro
style_ro.borders = rightborder
style_dem = XFStyle() # cells read-only
font_dem = Font()
font_dem.name = "Arial"
font_dem.colour_index = COLOR_CODES["marron"]
style_dem.font = font_dem
style_dem.borders = topborders
style = XFStyle()
font1 = Font()
font1.name = "Arial"
font1.height = 12 * 0x14
style.font = font1
style_nom = XFStyle() # style pour nom, prenom, groupe
style_nom.font = font1
style_nom.borders = topborders
style_notes = XFStyle()
font2 = Font()
font2.name = "Arial"
font2.bold = True
style_notes.font = font2
style_notes.num_format_str = "general"
style_notes.pattern = Pattern() # fond jaune
style_notes.pattern.pattern = Pattern.SOLID_PATTERN
style_notes.pattern.pattern_fore_colour = COLOR_CODES["lightyellow"]
style_notes.borders = topborders
style_comment = XFStyle()
font_comment = Font()
font_comment.name = "Arial"
font_comment.height = 9 * 0x14
font_comment.colour_index = COLOR_CODES["blue"]
style_comment.font = font_comment
style_comment.borders = topborders
# ligne de titres
li = 0
ws0.write(
li, 0, u"Feuille saisie note (à enregistrer au format excel)", style_titres
)
li += 1
ws0.write(li, 0, u"Saisir les notes dans la colonne E (cases jaunes)", style_expl)
li += 1
ws0.write(li, 0, u"Ne pas modifier les cases en mauve !", style_expl)
li += 1
# Nom du semestre
2021-02-04 20:02:44 +01:00
ws0.write(
li, 0, scu.unescape_html(titreannee).decode(scu.SCO_ENCODING), style_titres
)
2020-09-26 16:19:37 +02:00
li += 1
# description evaluation
2021-02-04 20:02:44 +01:00
ws0.write(
li, 0, scu.unescape_html(description).decode(scu.SCO_ENCODING), style_titres
)
2020-09-26 16:19:37 +02:00
li += 1
ws0.write(
li, 0, u"Evaluation du %s (coef. %g)" % (E["jour"], E["coefficient"]), style
)
li += 1
li += 1 # ligne blanche
# code et titres colonnes
ws0.write(li, 0, u"!%s" % E["evaluation_id"], style_ro)
ws0.write(li, 1, u"Nom", style_titres)
ws0.write(li, 2, u"Prénom", style_titres)
ws0.write(li, 3, u"Groupe", style_titres)
ws0.write(li, 4, u"Note sur %g" % E["note_max"], style_titres)
ws0.write(li, 5, u"Remarque", style_titres)
# etudiants
for line in lines:
li += 1
st = style_nom
2021-02-04 20:02:44 +01:00
ws0.write(li, 0, ("!" + line[0]).decode(scu.SCO_ENCODING), style_ro) # code
2020-09-26 16:19:37 +02:00
if line[3] != "I":
st = style_dem
if line[3] == "D": # demissionnaire
s = "DEM"
else:
s = line[3] # etat autre
else:
s = line[4] # groupes TD/TP/...
2021-02-04 20:02:44 +01:00
ws0.write(li, 1, line[1].decode(scu.SCO_ENCODING), st)
ws0.write(li, 2, line[2].decode(scu.SCO_ENCODING), st)
ws0.write(li, 3, s.decode(scu.SCO_ENCODING), st)
2020-09-26 16:19:37 +02:00
try:
val = float(line[5])
except:
2021-02-04 20:02:44 +01:00
val = line[5].decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
ws0.write(li, 4, val, style_notes) # note
2021-02-04 20:02:44 +01:00
ws0.write(li, 5, line[6].decode(scu.SCO_ENCODING), style_comment) # comment
2020-09-26 16:19:37 +02:00
# explication en bas
li += 2
ws0.write(li, 1, u"Code notes", style_titres)
ws0.write(li + 1, 1, u"ABS", style_expl)
ws0.write(li + 1, 2, u"absent (0)", style_expl)
ws0.write(li + 2, 1, u"EXC", style_expl)
ws0.write(li + 2, 2, u"pas prise en compte", style_expl)
ws0.write(li + 3, 1, u"ATT", style_expl)
ws0.write(li + 3, 2, u"en attente", style_expl)
ws0.write(li + 4, 1, u"SUPR", style_expl)
ws0.write(li + 4, 2, u"pour supprimer note déjà entrée", style_expl)
ws0.write(li + 5, 1, u"", style_expl)
ws0.write(li + 5, 2, u"cellule vide -> note non modifiée", style_expl)
return wb.savetostr()
def Excel_to_list(data, convert_to_string=str): # we may need 'encoding' argument ?
"""returns list of list
convert_to_string is a conversion function applied to all non-string values (ie numbers)
"""
try:
2021-02-04 20:02:44 +01:00
P = parse_xls("", scu.SCO_ENCODING, doc=data)
2020-09-26 16:19:37 +02:00
except:
log("Excel_to_list: failure to import document")
open("/tmp/last_scodoc_import_failure.xls", "w").write(data)
raise ScoValueError(
"Fichier illisible: assurez-vous qu'il s'agit bien d'un document Excel !"
)
diag = [] # liste de chaines pour former message d'erreur
# n'utilise que la première feuille
if len(P) < 1:
diag.append("Aucune feuille trouvée dans le classeur !")
return diag, None
if len(P) > 1:
diag.append("Attention: n'utilise que la première feuille du classeur !")
# fill matrix
sheet_name, values = P[0]
2021-02-04 20:02:44 +01:00
sheet_name = sheet_name.encode(scu.SCO_ENCODING, "backslashreplace")
2020-09-26 16:19:37 +02:00
if not values:
diag.append("Aucune valeur trouvée dans le classeur !")
return diag, None
indexes = values.keys()
# search numbers of rows and cols
rows = [x[0] for x in indexes]
cols = [x[1] for x in indexes]
nbcols = max(cols) + 1
nbrows = max(rows) + 1
M = []
2021-02-04 20:02:44 +01:00
for _ in range(nbrows):
2020-09-26 16:19:37 +02:00
M.append([""] * nbcols)
for row_idx, col_idx in indexes:
v = values[(row_idx, col_idx)]
if isinstance(v, unicode):
2021-02-04 20:02:44 +01:00
v = v.encode(scu.SCO_ENCODING, "backslashreplace")
2020-09-26 16:19:37 +02:00
elif convert_to_string:
v = convert_to_string(v)
M[row_idx][col_idx] = v
diag.append('Feuille "%s", %d lignes' % (sheet_name, len(M)))
# diag.append(str(M))
#
return diag, M
#
def Excel_feuille_listeappel(
context,
sem,
groupname,
lines,
partitions=[], # partitions a montrer (colonnes)
with_codes=False, # indique codes etuds
with_paiement=False, # indique si etudiant a paye inscription
server_name=None,
):
"generation feuille appel"
formsemestre_id = sem["formsemestre_id"]
SheetName = "Liste " + groupname
wb = Workbook()
2021-02-04 20:02:44 +01:00
ws0 = wb.add_sheet(SheetName.decode(scu.SCO_ENCODING))
2020-09-26 16:19:37 +02:00
font1 = Font()
font1.name = "Arial"
font1.height = 10 * 0x14
font1i = Font()
font1i.name = "Arial"
font1i.height = 10 * 0x14
font1i.italic = True
style1i = XFStyle()
style1i.font = font1i
style1b = XFStyle()
style1b.font = font1
borders = Borders()
borders.left = 1
borders.top = 1
borders.bottom = 1
style1b.borders = borders
style2 = XFStyle()
font2 = Font()
font2.name = "Arial"
font2.height = 14 * 0x14
style2.font = font2
style2b = XFStyle()
style2b.font = font1i
borders = Borders()
borders.left = 1
borders.top = 1
borders.bottom = 1
borders.right = 1
style2b.borders = borders
style2tb = XFStyle()
borders = Borders()
borders.top = 1
borders.bottom = 1
style2tb.borders = borders
style2tb.font = Font()
style2tb.font.height = 16 * 0x14 # -> ligne hautes
style2t3 = XFStyle()
borders = Borders()
borders.top = 1
borders.bottom = 1
borders.left = 1
style2t3.borders = borders
style2t3bold = XFStyle()
borders = Borders()
borders.top = 1
borders.bottom = 1
borders.left = 1
style2t3bold.borders = borders
fontb = Font()
fontb.bold = True
style2t3bold.font = fontb
style3 = XFStyle()
font3 = Font()
font3.name = "Arial"
font3.bold = True
font3.height = 14 * 0x14
style3.font = font3
NbWeeks = 4 # nombre de colonnes pour remplir absences
# ligne 1
li = 0
ws0.write(
li,
1,
(
"%s %s (%s - %s)"
% (
context.get_preference("DeptName", formsemestre_id),
notesdb.unquote(sem["titre_num"]),
sem["date_debut"],
sem["date_fin"],
)
2021-02-04 20:02:44 +01:00
).decode(scu.SCO_ENCODING),
2020-09-26 16:19:37 +02:00
style2,
)
# ligne 2
li += 1
ws0.write(li, 1, u"Discipline :", style2)
# ligne 3
li += 1
ws0.write(li, 1, u"Enseignant :", style2)
2021-02-04 20:02:44 +01:00
ws0.write(li, 5, ("Groupe %s" % groupname).decode(scu.SCO_ENCODING), style3)
2020-09-26 16:19:37 +02:00
# Avertissement pour ne pas confondre avec listes notes
ws0.write(
li + 1, 2, u"Ne pas utiliser cette feuille pour saisir les notes !", style1i
)
#
li += 2
li += 1
ws0.write(li, 1, u"Nom", style3)
co = 2
for partition in partitions:
if partition["partition_name"]:
2021-02-04 20:02:44 +01:00
ws0.write(
li, co, partition["partition_name"].decode(scu.SCO_ENCODING), style3
)
2020-09-26 16:19:37 +02:00
co += 1
if with_codes:
coc = co
ws0.write(li, coc, u"etudid", style3)
ws0.write(li, coc + 1, u"code_nip", style3)
ws0.write(li, coc + 2, u"code_ine", style3)
co += 3
for i in range(NbWeeks):
ws0.write(li, co + i, "", style2b)
n = 0
for t in lines:
n += 1
li += 1
ws0.write(li, 0, n, style1b)
nomprenom = (
t["civilite_str"]
2021-02-04 20:02:44 +01:00
+ " "
+ t["nom"]
+ " "
+ scu.strcapitalize(scu.strlower(t["prenom"]))
2020-09-26 16:19:37 +02:00
)
style_nom = style2t3
if with_paiement:
paie = t.get("paiementinscription", None)
if paie is None:
nomprenom += " (inscription ?)"
style_nom = style2t3bold
elif not paie:
nomprenom += " (non paiement)"
style_nom = style2t3bold
2021-02-04 20:02:44 +01:00
ws0.write(li, 1, nomprenom.decode(scu.SCO_ENCODING), style_nom)
2020-09-26 16:19:37 +02:00
co = 2
for partition in partitions:
if partition["partition_name"]:
ws0.write(
li,
co,
2021-02-04 20:02:44 +01:00
t.get(partition["partition_id"], "").decode(scu.SCO_ENCODING),
2020-09-26 16:19:37 +02:00
style2t3,
)
co += 1
if with_codes:
2021-02-04 20:02:44 +01:00
ws0.write(li, coc, t["etudid"].decode(scu.SCO_ENCODING), style2t3)
2020-09-26 16:19:37 +02:00
if t["code_nip"]:
2021-02-04 20:02:44 +01:00
code_nip = t["code_nip"].decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
else:
code_nip = u""
ws0.write(li, coc + 1, code_nip, style2t3)
if t["code_ine"]:
2021-02-04 20:02:44 +01:00
code_ine = t["code_ine"].decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
else:
code_ine = u""
ws0.write(li, coc + 2, code_ine, style2t3)
if t["etath"]:
2021-02-04 20:02:44 +01:00
etath = t["etath"].decode(scu.SCO_ENCODING)
2020-09-26 16:19:37 +02:00
else:
etath = u""
ws0.write(li, co, etath, style2b) # etat
for i in range(1, NbWeeks):
ws0.write(li, co + i, u"", style2b) # cellules vides
ws0.row(li).height = 850 # sans effet ?
#
li += 2
dt = time.strftime("%d/%m/%Y à %Hh%M")
if server_name:
dt += " sur " + server_name
2021-02-04 20:02:44 +01:00
ws0.write(li, 1, ("Liste éditée le " + dt).decode(scu.SCO_ENCODING), style1i)
2020-09-26 16:19:37 +02:00
#
ws0.col(0).width = 850
ws0.col(1).width = 9000
return wb.savetostr()