# -*- 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 # ############################################################################## """ Excel file handling """ import datetime import io import time from enum import Enum from tempfile import NamedTemporaryFile import openpyxl.utils.datetime from flask import make_response from openpyxl import Workbook, load_workbook from openpyxl.cell import WriteOnlyCell from openpyxl.styles import Font, Border, Side, Alignment, PatternFill from openpyxl.styles.numbers import FORMAT_NUMBER_00, FORMAT_GENERAL from openpyxl.comments import Comment from openpyxl import Workbook, load_workbook from openpyxl.cell import WriteOnlyCell from openpyxl.styles import Font, Border, Side, Alignment, PatternFill import app.scodoc.sco_utils as scu from app.scodoc import notesdb from app.scodoc import sco_preferences from app.scodoc.sco_exceptions import ScoValueError from app.scodoc import sco_preferences from app import log from app.scodoc.sco_exceptions import ScoValueError class COLORS(Enum): BLACK = "FF000000" WHITE = "FFFFFFFF" RED = "FFFF0000" BROWN = "FF993300" PURPLE = "FF993366" BLUE = "FF0000FF" ORANGE = "FFFF3300" LIGHT_YELLOW = "FFFFFF99" def send_from_flask(data, filename, mime=scu.XLSX_MIMETYPE): filename = scu.make_filename(filename) response = make_response(data) response.headers['Content-Type'] = mime response.headers['Content-Disposition'] = 'attachment; filename="%s"' % filename return response def send_excel_file(request, data, filename, mime=scu.XLSX_MIMETYPE): """publication fichier. (on ne doit rien avoir émis avant, car ici sont générés les entetes) """ filename = ( scu.unescape_html(scu.suppress_accents(filename)) .replace("&", "") .replace(" ", "_") ) request.RESPONSE.setHeader("content-type", mime) request.RESPONSE.setHeader( "content-disposition", 'attachment; filename="%s"' % filename ) return data # Un style est enregistré comme un dictionnaire qui précise la valeur d'un attributdans la liste suivante: # font, border, number_format, fill, .. (cf https://openpyxl.readthedocs.io/en/stable/styles.html#working-with-styles) def xldate_as_datetime(xldate, datemode=0): """Conversion d'une date Excel en date Peut lever une ValueError """ return openpyxl.utils.datetime.from_ISO8601(xldate) def adjust_sheetname(sheet_name): # Le nom de la feuille ne peut faire plus de 31 caractères. # si la taille du nom de feuille est > 31 on tronque (on pourrait remplacer par 'feuille' ?) return sheet_name[:31] class ScoExcelBook: """Permet la génération d'un classeur xlsx composé de plusieurs feuilles. usage: wb = ScoExcelBook() ws0 = wb.create_sheet('sheet name 0') ws1 = wb.create_sheet('sheet name 1') ... steam = wb.generate() """ def __init__(self): self.sheets = [] # list of sheets self.wb = Workbook(write_only=True) def create_sheet(self, sheet_name="feuille", default_style=None): """Crée une nouvelle feuille dans ce classeur sheet_name -- le nom de la feuille default_style -- le style par défaut """ sheet_name = adjust_sheetname(sheet_name) ws = self.wb.create_sheet(sheet_name) sheet = ScoExcelSheet(sheet_name, default_style, ws) self.sheets.append(sheet) return sheet def generate(self): """génération d'un stream binaire représentant la totalité du classeur. retourne le flux """ for sheet in self.sheets: sheet.prepare() # construction d'un flux (https://openpyxl.readthedocs.io/en/stable/tutorial.html#saving-as-a-stream) with NamedTemporaryFile() as tmp: self.wb.save(tmp.name) tmp.seek(0) return tmp.read() def excel_make_style( bold=False, italic=False, outline=False, color: COLORS = COLORS.BLACK, bgcolor: COLORS = None, halign=None, valign=None, number_format=None, font_name="Arial", size=10, ): """Contruit un style. Les couleurs peuvent être spécfiées soit par une valeur de COLORS, soit par une chaine argb (exple "FF00FF00" pour le vert) color -- La couleur du texte bgcolor -- la couleur de fond halign -- alignement horizontal ("left", "right", "center") valign -- alignement vertical ("top", "bottom", "center") number_format -- formattage du contenu ("General", "@", ...) font_name -- police size -- taille de police """ style = {} font = Font( name=font_name, bold=bold, italic=italic, outline=outline, color=color.value, size=size, ) style["font"] = font if bgcolor: style["fill"] = PatternFill(fill_type="solid", fgColor=bgcolor.value) if halign or valign: al = Alignment() if halign: al.horizontal = { "left": "left", "right": "right", "center": "center", }[halign] if valign: al.vertical = { "top": "top", "bottom": "bottom", "center": "center", }[valign] style["alignment"] = al if number_format is None: style["number_format"] = FORMAT_GENERAL else: style["number_format"] = number_format return style class ScoExcelSheet: """Représente une feuille qui peut être indépendante ou intégrée dans un SCoExcelBook. En application des directives de la bibliothèque sur l'écriture optimisée, l'ordre des opérations est imposé: * instructions globales (largeur/maquage des colonnes et ligne, ...) * construction et ajout des cellules et ligne selon le sens de lecture (occidental) ligne de haut en bas et cellules de gauche à droite (i.e. A1, A2, .. B1, B2, ..) * pour finit appel de la méthode de génération """ def __init__(self, sheet_name="feuille", default_style=None, ws=None): """Création de la feuille. sheet_name -- le nom de la feuille default_style -- le style par défaut des cellules ws -- None si la feuille est autonome (dans ce cas ell crée son propre wb), sinon c'est la worksheet créée par le workbook propriétaire un workbook est crée et associé à cette feuille. """ # Le nom de la feuille ne peut faire plus de 31 caractères. # si la taille du nom de feuille est > 31 on tronque (on pourrait remplacer par 'feuille' ?) self.sheet_name = adjust_sheetname(sheet_name) if default_style is None: default_style = excel_make_style() self.default_style = default_style if ws is None: self.wb = Workbook() self.ws = self.wb.active self.ws.title = self.sheet_name else: self.wb = None self.ws = ws # internal data self.rows = [] # list of list of cells self.column_dimensions = {} self.row_dimensions = {} def excel_make_composite_style( self, alignment=None, border=None, fill=None, number_format=None, font=None, ): style = {} if font is not None: style["font"] = font if alignment is not None: style["alignment"] = alignment if border is not None: style["border"] = border if fill is not None: style["fill"] = fill if number_format is None: style["number_format"] = FORMAT_GENERAL else: style["number_format"] = number_format return style @staticmethod def i2col(idx): if idx < 26: # one letter key return chr(idx + 65) else: # two letters AA..ZZ first = (idx // 26) + 66 second = (idx % 26) + 65 return "" + chr(first) + chr(second) def set_column_dimension_width(self, cle=None, value=21): """Détermine la largeur d'une colonne. cle -- identifie la colonne ("A" "B", ... ou 0, 1, 2, ...) si None, value donne la liste des largeurs de colonnes depuis A, B, C, ... value -- la dimension (unité : 7 pixels comme affiché dans Excel) """ if cle is None: for i, val in enumerate(value): self.ws.column_dimensions[self.i2col(i)].width = val # No keys: value is a list of widths elif type(cle) == str: # accepts set_column_with("D", ...) self.ws.column_dimensions[cle].width = value else: self.ws.column_dimensions[self.i2col(cle)].width = value def set_row_dimension_height(self, cle=None, value=21): """Détermine la hauteur d'une ligne. cle -- identifie la ligne (1, 2, ...) si None, value donne la liste des hauteurs de colonnes depuis 1, 2, 3, ... value -- la dimension """ if cle is None: for i, val in enumerate(value, start=1): self.ws.row_dimensions[i].height = val # No keys: value is a list of widths else: self.ws.row_dimensions[cle].height = value def set_row_dimension_hidden(self, cle, value): """Masque ou affiche une ligne. cle -- identifie la colonne (1...) value -- boolean (vrai = colonne cachée) """ self.ws.row_dimensions[cle].hidden = value def make_cell(self, value: any = None, style=None, comment=None): """Construit une cellule. value -- contenu de la cellule (texte ou numérique) style -- style par défaut (dictionnaire cf. excel_make_style) de la feuille si non spécifié """ cell = WriteOnlyCell(self.ws, value or "") # if style is not None and "fill" in style: # toto() if style is None: style = self.default_style if "font" in style: cell.font = style["font"] if "alignment" in style: cell.alignment = style["alignment"] if "border" in style: cell.border = style["border"] if "fill" in style: cell.fill = style["fill"] if "number_format" in style: cell.number_format = style["number_format"] if "fill" in style: cell.fill = style["fill"] if "alignment" in style: cell.alignment = style["alignment"] if not comment is None: cell.comment = Comment(comment, "scodoc") lines = comment.splitlines() cell.comment.width = 7 * max([len(line) for line in lines]) cell.comment.height = 20 * len(lines) return cell def make_row(self, values: list, style=None, comments=None): # TODO make possible differents styles in a row if comments is None: comments = [None] * len(values) return [ self.make_cell(value, style, comment) for value, comment in zip(values, comments) ] def append_single_cell_row(self, value: any, style=None): """construit une ligne composée d'une seule cellule et l'ajoute à la feuille. mêmes paramètres que make_cell: value -- contenu de la cellule (texte ou numérique) style -- style par défaut de la feuille si non spécifié """ self.append_row([self.make_cell(value, style)]) def append_blank_row(self): """construit une ligne vide et l'ajoute à la feuille.""" self.append_row([None]) def append_row(self, row): """ajoute une ligne déjà construite à la feuille.""" self.rows.append(row) def prepare(self): """génére un flux décrivant la feuille. Ce flux pourra ensuite être repris dans send_excel_file (classeur mono feille) ou pour la génération d'un classeur multi-feuilles """ for col in self.column_dimensions.keys(): self.ws.column_dimensions[col] = self.column_dimensions[col] for col in self.row_dimensions.keys(): self.ws.row_dimensions[col] = self.row_dimensions[col] for row in self.rows: self.ws.append(row) def generate(self): """génération d'un classeur mono-feuille""" # this method makes sense only if it is a standalone worksheet (else call workbook.generate() if self.wb is None: # embeded sheet raise ScoValueError("can't generate a single sheet from a ScoWorkbook") # construction d'un flux (https://openpyxl.readthedocs.io/en/stable/tutorial.html#saving-as-a-stream) self.prepare() with NamedTemporaryFile() as tmp: self.wb.save(tmp.name) tmp.seek(0) return tmp.read() def excel_simple_table( titles=None, lines=None, sheet_name=b"feuille", titles_styles=None, comments=None ): """Export simple type 'CSV': 1ere ligne en gras, le reste tel quel""" ws = ScoExcelSheet(sheet_name) if titles is None: titles = [] if lines is None: lines = [[]] if titles_styles is None: style = excel_make_style(bold=True) titles_styles = [style] * len(titles) if comments is None: comments = [None] * len(titles) # ligne de titres ws.append_row( [ ws.make_cell(it, style, comment) for (it, style, comment) in zip(titles, titles_styles, comments) ] ) default_style = excel_make_style() text_style = excel_make_style(number_format=FORMAT_GENERAL) int_style = excel_make_style() float_style = excel_make_style(number_format=FORMAT_NUMBER_00) for line in lines: cells = [] for it in line: cell_style = default_style if type(it) == float: cell_style = float_style elif type(it) == int: cell_style = int_style else: cell_style = text_style cells.append(ws.make_cell(it, cell_style)) ws.append_row(cells) return ws.generate() 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) """ sheet_name = "Saisie notes" ws = ScoExcelSheet(sheet_name) # ajuste largeurs colonnes (unite inconnue, empirique) ws.set_column_dimension_width("A", 11.0 / 7) # codes # ws.set_column_dimension_hidden("A", True) # codes ws.set_column_dimension_width("B", 164.00 / 7) # noms ws.set_column_dimension_width("C", 109.0 / 7) # prenoms ws.set_column_dimension_width("D", 164.0 / 7) # groupes ws.set_column_dimension_width("E", 115.0 / 7) # notes ws.set_column_dimension_width("F", 355.0 / 7) # remarques # fontes font_base = Font(name="Arial", size=12) font_bold = Font(name="Arial", bold=True) font_italic = Font(name="Arial", size=12, italic=True, color=COLORS.RED.value) font_titre = Font(name="Arial", bold=True, size=14) font_purple = Font(name="Arial", color=COLORS.PURPLE.value) font_brown = Font(name="Arial", color=COLORS.BROWN.value) font_blue = Font(name="Arial", size=9, color=COLORS.BLUE.value) # bordures side_thin = Side(border_style="thin", color=COLORS.BLACK.value) border_top = Border(top=side_thin) border_right = Border(right=side_thin) # fonds fill_light_yellow = PatternFill( patternType="solid", fgColor=COLORS.LIGHT_YELLOW.value ) # styles style = {"font": font_base} style_titres = {"font": font_titre} style_expl = {"font": font_italic} style_ro = { # cells read-only "font": font_purple, "border": border_right, } style_dem = { "font": font_brown, "border": border_top, } style_nom = { # style pour nom, prenom, groupe "font": font_base, "border": border_top, } style_notes = { "font": font_bold, "number_format": FORMAT_GENERAL, "fill": fill_light_yellow, "border": border_top, } style_comment = { "font": font_blue, "border": border_top, } # ligne de titres ws.append_single_cell_row( "Feuille saisie note (à enregistrer au format excel)", style_titres ) # lignes d'instructions ws.append_single_cell_row( "Saisir les notes dans la colonne E (cases jaunes)", style_expl ) ws.append_single_cell_row("Ne pas modifier les cases en mauve !", style_expl) # Nom du semestre ws.append_single_cell_row(scu.unescape_html(titreannee), style_titres) # description evaluation ws.append_single_cell_row(scu.unescape_html(description), style_titres) ws.append_single_cell_row( "Evaluation du %s (coef. %g)" % (e["jour"], e["coefficient"]), style ) # ligne blanche ws.append_blank_row() # code et titres colonnes ws.append_row( [ ws.make_cell("!%s" % e["evaluation_id"], style_ro), ws.make_cell("Nom", style_titres), ws.make_cell("Prénom", style_titres), ws.make_cell("Groupe", style_titres), ws.make_cell("Note sur %g" % e["note_max"], style_titres), ws.make_cell("Remarque", style_titres), ] ) # etudiants for line in lines: st = style_nom 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/... try: val = float(line[5]) except ValueError: val = line[5] ws.append_row( [ ws.make_cell("!" + line[0], style_ro), # code ws.make_cell(line[1], st), ws.make_cell(line[2], st), ws.make_cell(s, st), ws.make_cell(val, style_notes), # note ws.make_cell(line[6], style_comment), # comment ] ) # explication en bas ws.append_row([None, ws.make_cell("Code notes", style_titres)]) ws.append_row( [ None, ws.make_cell("ABS", style_expl), ws.make_cell("absent (0)", style_expl), ] ) ws.append_row( [ None, ws.make_cell("EXC", style_expl), ws.make_cell("pas prise en compte", style_expl), ] ) ws.append_row( [ None, ws.make_cell("ATT", style_expl), ws.make_cell("en attente", style_expl), ] ) ws.append_row( [ None, ws.make_cell("SUPR", style_expl), ws.make_cell("pour supprimer note déjà entrée", style_expl), ] ) ws.append_row( [ None, ws.make_cell("", style_expl), ws.make_cell("cellule vide -> note non modifiée", style_expl), ] ) return ws.generate() def excel_bytes_to_list(bytes_content): filelike = io.BytesIO(bytes_content) return _excel_to_list(filelike) def excel_file_to_list(filename): return _excel_to_list(filename) def _excel_to_list(filelike): # 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: wb = load_workbook(filename=filelike, read_only=True, data_only=True) except: log("Excel_to_list: failure to import document") open("/tmp/last_scodoc_import_failure" + scu.XLSX_SUFFIX, "wb").write(filelike) 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(wb.get_sheet_names()) < 1: diag.append("Aucune feuille trouvée dans le classeur !") return diag, None if len(wb.get_sheet_names()) > 1: diag.append("Attention: n'utilise que la première feuille du classeur !") # fill matrix sheet_name = wb.get_sheet_names()[0] ws = wb.get_sheet_by_name(sheet_name) sheet_name = sheet_name.encode(scu.SCO_ENCODING, "backslashreplace") values = {} for row in ws.iter_rows(): for cell in row: if cell.value is not None: values[(cell.row - 1, cell.column - 1)] = str(cell.value) if not values: diag.append( "Aucune valeur trouvée dans la feuille %s !" % sheet_name.decode(scu.SCO_ENCODING) ) return diag, None indexes = list(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 = [] for _ in range(nbrows): m.append([""] * nbcols) for row_idx, col_idx in indexes: v = values[(row_idx, col_idx)] # if isinstance(v, six.text_type): # v = v.encode(scu.SCO_ENCODING, "backslashreplace") # elif convert_to_string: # v = convert_to_string(v) m[row_idx][col_idx] = v diag.append( 'Feuille "%s", %d lignes' % (sheet_name.decode(scu.SCO_ENCODING), len(m)) ) # diag.append(str(M)) # return diag, m def excel_feuille_listeappel( sem, groupname, lines, partitions=None, with_codes=False, with_paiement=False, server_name=None, ): """generation feuille appel""" if partitions is None: partitions = [] formsemestre_id = sem["formsemestre_id"] sheet_name = "Liste " + groupname ws = ScoExcelSheet(sheet_name) ws.set_column_dimension_width("A", 3) ws.set_column_dimension_width("B", 35) ws.set_column_dimension_width("C", 12) font1 = Font(name="Arial", size=11) font1i = Font(name="Arial", size=10, italic=True) font1b = Font(name="Arial", size=11, bold=True) side_thin = Side(border_style="thin", color=COLORS.BLACK.value) border_tbl = Border(top=side_thin, bottom=side_thin, left=side_thin) border_tblr = Border( top=side_thin, bottom=side_thin, left=side_thin, right=side_thin ) style1i = { "font": font1i, } style1b = { "font": font1, "border": border_tbl, } style2 = { "font": Font(name="Arial", size=14), } style2b = { "font": font1i, "border": border_tblr, } style2t3 = { "border": border_tblr, } style2t3bold = { "font": font1b, "border": border_tblr, } style3 = { "font": Font(name="Arial", bold=True, size=14), } nb_weeks = 4 # nombre de colonnes pour remplir absences # ligne 1 title = "%s %s (%s - %s)" % ( sco_preferences.get_preference("DeptName", formsemestre_id), notesdb.unquote(sem["titre_num"]), sem["date_debut"], sem["date_fin"], ) ws.append_row([None, ws.make_cell(title, style2)]) # ligne 2 ws.append_row([None, ws.make_cell("Discipline :", style2)]) # ligne 3 cell_2 = ws.make_cell("Enseignant :", style2) cell_6 = ws.make_cell(("Groupe %s" % groupname), style3) ws.append_row([None, cell_2, None, None, None, None, cell_6]) # ligne 4: Avertissement pour ne pas confondre avec listes notes cell_2 = ws.make_cell( "Ne pas utiliser cette feuille pour saisir les notes !", style1i ) ws.append_row([None, None, cell_2]) ws.append_blank_row() ws.append_blank_row() # ligne 7: Entête (contruction dans une liste cells) cell_2 = ws.make_cell("Nom", style3) cells = [None, cell_2] for partition in partitions: cells.append(ws.make_cell(partition["partition_name"], style3)) if with_codes: cells.append(ws.make_cell("etudid", style3)) cells.append(ws.make_cell("code_nip", style3)) cells.append(ws.make_cell("code_ine", style3)) for i in range(nb_weeks): cells.append(ws.make_cell("", style2b)) ws.append_row(cells) n = 0 # pour chaque étudiant for t in lines: n += 1 nomprenom = ( t["civilite_str"] + " " + t["nom"] + " " + t["prenom"].lower().capitalize() ) 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 cell_1 = ws.make_cell(n, style1b) cell_2 = ws.make_cell(nomprenom, style_nom) cells = [cell_1, cell_2] for partition in partitions: if partition["partition_name"]: cells.append( ws.make_cell(t.get(partition["partition_id"], ""), style2t3) ) if with_codes: cells.append(ws.make_cell(t["etudid"], style2t3)) code_nip = t.get("code_nip", "") cells.append(ws.make_cell(code_nip, style2t3)) code_ine = t.get("code_ine", "") cells.append(ws.make_cell(code_ine, style2t3)) cells.append(ws.make_cell(t.get("etath", ""), style2b)) for i in range(1, nb_weeks): cells.append(ws.make_cell(style=style2t3)) ws.append_row(cells) ws.append_blank_row() # bas de page (date, serveur) dt = time.strftime("%d/%m/%Y à %Hh%M") if server_name: dt += " sur " + server_name cell_2 = ws.make_cell(("Liste éditée le " + dt), style1i) ws.append_row([None, cell_2]) return ws.generate()