def move_desk(self, start, end):
"""Moves a desk from start to end
if end is out of the screen, we remove the desk"""
max_row = int(AssetManager.getInstance().config(
"size", "default_room_rows"))
max_col = int(AssetManager.getInstance().config(
"size", "default_room_columns"))
if len(start) == 0:
return
id_desk_start = self.mod_bdd.get_desk_id_in_course_by_coords(
self.main_ctrl.id_course, start[0], start[1])
if 0 <= end[0] < max_row and 0 <= end[1] < max_col:
# Destination is in the canvas
id_desk_end = self.mod_bdd.get_desk_id_in_course_by_coords(
self.main_ctrl.id_course, end[0], end[1])
if id_desk_end == 0 and id_desk_start != 0:
# We just change the coordinates
self.mod_bdd.move_desk_by_id(id_desk_start, end[0], end[1])
# We update the view
self.v_canvas.move_tile(id_desk_start, end)
elif id_desk_end != 0 and id_desk_start != 0:
# We swap the two desks
self.mod_bdd.move_desk_by_id(id_desk_start, end[0], end[1])
self.mod_bdd.move_desk_by_id(id_desk_end, start[0], start[1])
# We update the view
self.v_canvas.move_tile(id_desk_start, end)
self.v_canvas.move_tile(id_desk_end, start, True)
else:
self.mod_bdd.remove_desk_by_id(id_desk_start)
self.show_course()
self.__bdd.commit()
self.v_canvas.repaint()
def on_edit_config(self) -> None:
"""
Displays the edition dialog for application settings
"""
dlg = SettingsEditionDialog()
if dlg.exec_():
if dlg.restore_default():
AssetManager.getInstance().restore_default_settings()
else:
AssetManager.getInstance().save_config(dlg.new_config())
self.status_bar.showMessage(tr("acknowledge_changes"), 3000)
self.repaint()
if dlg.need_restart():
restart_confirm = VConfirmDialog(self, "need_restart")
restart_confirm.ok_btn.setText(tr("restart_now"))
restart_confirm.ok_btn.setFixedSize(QSize(105, 33))
restart_confirm.cancel_btn.setText(tr("restart_later"))
restart_confirm.cancel_btn.setFixedSize(QSize(105, 33))
if restart_confirm.exec_():
self.reboot_requested = True
self.close()
self.restart()
def __draw_dragged_tile(self, painter, tile, x, y):
"""
Draws the given tile under the mouse position
:param painter: painter object
:param tile: tile data object
:param x: real mouse position x
:param y: real mouse position y
"""
if not self.hovered: # If there is no tile under the dragged one, we draw a light gray rect below it
# Convert x and y to get the hovered empty tile position
hov_x = x // self.desk_h_size * self.desk_h_size
hov_y = y // self.desk_w_size * self.desk_w_size
hov_rect = self.__get_rect_at(hov_y, hov_x)
painter.fillRect(
hov_rect,
QColor(AssetManager.getInstance().config(
'colors', 'hovered_empty_tile')))
rect = QRect(
QPoint(PADDING + y - self.desk_w_size / 2,
PADDING + x - self.desk_h_size / 2),
QPoint(y + self.desk_w_size / 2 - PADDING,
x + self.desk_h_size / 2 - PADDING))
painter.fillRect(
rect,
QColor(AssetManager.getInstance().config('colors',
'dragged_tile')))
painter.drawText(rect, Qt.AlignCenter | Qt.TextWordWrap,
f"{tile.lastname()}\n{tile.firstname()}")
def __init__(self, sig_move_animation_ended):
"""
Application's main canvas, in which is drawn desks and student's names.
:param sig_move_animation_ended: signal to trigger when the move animation ends
:type sig_move_animation_ended: Signal
"""
QWidget.__init__(self)
self.desk_h_size = int(AssetManager.getInstance().config(
'size', 'desk_height'))
self.desk_w_size = int(AssetManager.getInstance().config(
'size', 'desk_width'))
self.setAutoFillBackground(True)
self.__tiles = {} # All drawn tiles
self.tmp = {}
self.hovered = False
self.is_view_students = True
self.__do_switch = False
self.__is_config = False
self.sig_canvas_click = None # Signal triggered when a click is performed on a desk
self.sig_desk_selected = None # Signal triggered when a non empty desk is selected
self.sig_canvas_drag = None # Signal triggered when a drag operation is performed on the canvas
self.sig_select_tile = None # pushed by the controller. emits when tile selection change.
self.sig_tile_info = None # Signal triggered when a right-click is performed on a desk. Info is to be displayed
self.sig_move_animation_ended = sig_move_animation_ended
# Tracking for drag/drop operation
self.__click_pos = () # Stored (row, column) position
self.__mouse_pos = () # Stored (x, y) mouse position
# Signals
self.sig_move_ended.connect(self.on_move_ended)
self.__running_animations = 0
self.update_timer = None # Timer running only during animations to perform the UI update
self.nb_rows = int(AssetManager.getInstance().config(
'size', 'default_room_rows'))
self.nb_columns = int(AssetManager.getInstance().config(
'size', 'default_room_columns'))
self.setFixedSize(self.desk_w_size * self.nb_columns,
self.desk_h_size * self.nb_rows)
self.__init_style()
def __init_style(self):
"""
Sets the background of this canvas widget
"""
color = AssetManager.getInstance().config(
'colors', 'room_bg') if self.__is_config else "white"
pal = QPalette()
pal.setColor(QPalette.Background, QColor(color))
self.setPalette(pal)
def __init__(self, sig_move_animation_ended):
"""
Widget containing the main canvas (classroom), the board's position and topic selection.
:param sig_move_animation_ended: Signal to trigger when the move animation ended
"""
QWidget.__init__(self)
# Widgets
self.v_canvas = ViewCanvas(sig_move_animation_ended) # Central canvas
self.view_students = ViewTeacherDeskLabel(
tr("perspective_student_txt"),
AssetManager.getInstance().config('colors', 'board_bg'))
self.view_teacher = ViewTeacherDeskLabel(
tr("perspective_teacher_txt"),
AssetManager.getInstance().config('colors', 'board_bg'))
# Layout
self.__set_layout()
def student_attr_pick(self):
"""Randomly chooses a student among not selected ones"""
desks_id = self.get_unselected_occupied_desks_id()
list_id_attr = self.gui.sidewidget.attributes().selected_attributes()
if not desks_id or len(list_id_attr) != 1:
# should be always be true otherwise the hutton is disabled
self.gui.status_bar.showMessage("Houston, we have a problem !")
return
id_attr = list_id_attr[0]
attr_type = self.mod_bdd.get_attribute_type_from_id(id_attr)
id_topic = self.mod_bdd.get_topic_id_by_course_id(
self.main_ctrl.id_course)
canditates = dict()
colors = AssetManager.getInstance().config('colors',
'attr_colors').split()
for d_id in desks_id:
desk = self.mod_bdd.get_desk_by_id(d_id)
val = self.mod_bdd.get_attribute_value(desk.id_student, id_attr,
id_topic)
# Determine a order key depending on the attribute type
if attr_type == EAttributesTypes.TEXT.value:
# for text attr, we select empty attributes first
key = 1 if val else 0
elif attr_type == EAttributesTypes.MARK.value:
# for mark attribute, the key is the number of marks
key = len(val.split())
elif attr_type == EAttributesTypes.COLOR.value:
# for color value, key is the order in config.ini
if val in colors:
key = colors.index(val)
else:
key = -1
elif attr_type == EAttributesTypes.COUNTER.value:
# for counter attribute, key is the counter value
key = 0 if val == "" else int(val)
else:
key = 0
# Update the dictionary of candidates
if key in canditates:
canditates[key].append(d_id)
else:
canditates[key] = [d_id]
# Now we pick a desk by choosing in the minimum key value
minkey = min(canditates.keys())
desk_id = choice(canditates[minkey])
# Make selection
self.do_desk_selection_change(desk_id, True) # change selection on app
self.on_desk_selection_changed_on_app(desk_id,
True) # change selection on web
def export_csv(self, file_path: str) -> None:
"""
Saves the attributes table in a CSV format at the specified file path
"""
attributes, students, data = self.get_attributes_matrix()
# build the attribute type dict
attr_type = dict()
for a in attributes:
attr_type[a[0]] = self.mod_bdd.get_attribute_type_from_id(a[0])
# generate CSV file
with open(file_path, 'w', newline='') as csvfile:
writer = csv.writer(csvfile,
delimiter=AssetManager.getInstance().config(
"main", "csv_separator"),
quoting=csv.QUOTE_MINIMAL)
# Write first row
first_row = ['Nom Prenom']
for a in attributes:
first_row.append(a[1])
writer.writerow(first_row)
# Write datas
for s in students:
row = [s[1]]
for a in attributes:
id_a, id_s = a[0], s[0]
if (id_a, id_s) in data:
# We have a data to export
if attr_type[id_a] == EAttributesTypes.TEXT.value:
row.append(data[(id_a, id_s)])
elif attr_type[id_a] == EAttributesTypes.MARK.value:
mark_list = data[(id_a, id_s)].split()
try:
somme = sum(map(int, mark_list))
row.append(somme / len(mark_list))
except:
row.append("")
elif attr_type[id_a] == EAttributesTypes.COLOR.value:
hexcol = data[(id_a, id_s)].name().lower()
col_name = COLOR_DICT[
hexcol] if hexcol in COLOR_DICT else hexcol
row.append(col_name)
elif attr_type[id_a] == EAttributesTypes.COUNTER.value:
row.append(int(data[(id_a, id_s)]))
else:
# No data in this cell
row.append("")
# write current row
writer.writerow(row)
def __init__(self, parent):
"""
Confirm dialog for dangerous actions
:param parent: gui's main window
"""
QDialog.__init__(self, parent)
# QR Code
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.has_internet = True
try:
s.connect(('8.8.8.8', 1)) # connect() for UDP does not send packets, this will require an internet connection
# IP and Port
local_ip_address = s.getsockname()[0]
s.close()
port = AssetManager.getInstance().config('webapp', 'port')
# get tmp folder
qr_path = tempfile.mktemp()
s = f"http://{local_ip_address}:{port}/mobile" # String which represents the QR code
self.url = pyqrcode.create(s) # Generate QR code
self.url.png(qr_path, scale=6) # Create and save the QR png file
# Widget
self.qr = QLabel() # Label that contains the QR
pix = QPixmap(QImage(qr_path))
self.qr.setPixmap(pix)
# Layout
layout = QVBoxLayout()
layout.setMargin(0)
layout.addWidget(self.qr, alignment=Qt.AlignCenter)
layout.addWidget(InfoToolTip("qr_tip"), alignment=Qt.AlignCenter)
layout.addSpacing(5)
self.setLayout(layout)
self.setStyleSheet("background: white;")
except OSError:
self.has_internet = False
def __init__(self, parent, current_val):
"""
Colors editor
:param parent: gui's main window
:param current_val: current field actual value (to set by default)
"""
VDialogEdit.__init__(self, parent, current_val)
self.colors = AssetManager.getInstance().config(
"colors", "attr_colors").split()
self.btns = []
layout = QHBoxLayout()
for c in self.colors:
b = ColorButton(c, self.__set_selection, c == current_val.upper())
self.btns.append(b)
layout.addWidget(b)
self.main_layout.addLayout(layout, 0, 0, 1, 2)
def import_pronote(self) -> None:
groups = self.mod_bdd.get_groups()
dlg = DialogImportCsv(self.gui, ["Nouveau Groupe"] + groups)
if dlg.exec_():
name_group = dlg.selected_group()
file_path = dlg.selected_file()
if name_group == "Nouveau Groupe":
f = file_path.split("/")[-1].upper()
name_group = f[0:f.index(".CSV")]
csv_sep = AssetManager.getInstance().config(
"main", "csv_separator")
names = import_csv(file_path, csv_sep)
id_group = self.mod_bdd.create_group(name_group)
order = 0
for std in names:
self.mod_bdd.insert_student_in_group_id(
std[1], std[0], order, id_group)
order += 1
self.__bdd.commit()
self.show_all_groups()
def auto_place(self):
"""Autoplacement of students on the free tiles"""
max_row = int(AssetManager.getInstance().config(
"size", "default_room_rows"))
max_col = int(AssetManager.getInstance().config(
"size", "default_room_columns"))
group_name = self.mod_bdd.get_group_name_by_id(self.main_ctrl.id_group)
list_idstd = self.gui.sidewidget.students().selected_students()
if not list_idstd:
list_students = self.mod_bdd.get_students_in_group(group_name)
else:
list_students = [
self.mod_bdd.get_student_by_id(i) for i in list_idstd
]
students_ids = {s.id for s in list_students}
to_be_placed = len(list_students)
list_available_desks = []
list_to_remove = []
for row in range(max_row):
for col in range(max_col):
id_desk = self.mod_bdd.get_desk_id_in_course_by_coords(
self.main_ctrl.id_course, row, col)
if id_desk != 0:
student = self.mod_bdd.get_student_by_desk_id(id_desk)
if student is None:
# We have a free spot
list_available_desks.append((id_desk, row, col))
else:
list_to_remove.append(student.id)
# Adjust the number of students to place
for s in list_to_remove:
if s in students_ids:
to_be_placed -= 1
info = None
if to_be_placed > len(list_available_desks):
info = str(to_be_placed -
len(list_available_desks)) + tr("seats_are_missing")
self.gui.status_bar.showMessage(info)
else:
self.gui.status_bar.showMessage(tr("seats_are_OK"), 3000)
index_std = 0
for dsk in list_available_desks:
while index_std < len(list_students) and list_students[
index_std].id in list_to_remove:
index_std += 1
if index_std >= len(list_students):
break
student = list_students[index_std]
# update the model
self.mod_bdd.set_student_in_desk_by_id(student.id, dsk[0])
# update the view
self.v_canvas.set_student(dsk[0], student.firstname,
student.lastname)
self.v_canvas.repaint()
index_std += 1
self.__bdd.commit()
if info is not None:
VInfoDialog(self.gui, info).exec_()
def run(self):
asset_manager = AssetManager.getInstance()
socket_io.run(flask_app,
port=asset_manager.config('webapp', 'port'),
host='0.0.0.0')
def get_bdd_connection():
bdd_path, _ = AssetManager.getInstance().bdd_path()
bdd = sqlite3.connect(bdd_path)
return ModBdd(bdd)
def paintEvent(self, event):
"""
Draws the desks and students' names given the self.tiles list
"""
painter = QPainter(self)
color = AssetManager.getInstance().config(
'colors', 'room_grid') if self.__is_config else "white"
pen = QPen()
pen.setColor(QColor(color))
pen.setWidth(2)
painter.setPen(pen)
# Draw the grid
for r in range(self.nb_rows):
painter.drawLine(
QPoint(0, r * self.desk_h_size),
QPoint(self.desk_w_size * self.nb_columns,
r * self.desk_h_size))
for c in range(self.nb_columns):
painter.drawLine(
QPoint(c * self.desk_w_size, 0),
QPoint(c * self.desk_w_size, self.desk_h_size * self.nb_rows))
# Update painter color and font size for tiles
pen.setColor(
QColor(AssetManager.getInstance().config('colors', 'tile_text')))
painter.setPen(pen)
font = QFont()
font.setPixelSize(
int(AssetManager.getInstance().config('size', 'font_size')))
painter.setFont(font)
# Current tile selected by the mouse
tile_selected_pos = self.__convert_point(
self.__mouse_pos[0],
self.__mouse_pos[1]) if self.__mouse_pos else None
tile_selected = None
self.hovered = False
# Drawing of all the tiles
for t in list(self.__tiles.values()):
y, x = self.__relative_mouse_position(t.real_position())
if self.__relative_grid_position(
t.grid_position()
) == self.__click_pos and self.__is_config: # If the tile is selected
tile_selected = t
color = QColor(AssetManager.getInstance().config(
'colors', 'drag_selected_tile'))
elif self.__relative_grid_position(
t.grid_position()
) == tile_selected_pos and self.__is_config: # If the mouse is hover
self.hovered = True
color = QColor(AssetManager.getInstance().config(
'colors', 'hovered_tile'))
elif t.is_selected():
color = QColor(AssetManager.getInstance().config(
'colors', 'selected_tile'))
else: # Regular tile
color = QColor(AssetManager.getInstance().config(
'colors', 'tile'))
rect = self.__get_rect_at(y, x)
painter.fillRect(rect, color)
painter.drawText(rect, Qt.AlignCenter | Qt.TextWordWrap,
f"{t.lastname()}\n{t.firstname()}")
# Dragged tile
if self.__click_pos != self.__relative_grid_position(tile_selected_pos) \
and tile_selected and self.__mouse_pos and self.__is_config:
# If the mouse is no longer hover the clicked tile we draw the dragged tile
self.__draw_dragged_tile(painter, tile_selected,
self.__mouse_pos[0], self.__mouse_pos[1])
def __init__(self):
QDialog.__init__(self)
self.setWindowTitle(tr("btn_config"))
self.setFixedSize(QSize(700, 670))
# Retrieve current settings
self.settings = AssetManager.getInstance().config_to_dico(
AssetManager.getInstance().get_config_parser())
self.__restart_needed = False
self.__restore_required = False
# Version
self.lab_version = QLabel(self.settings['main']['version'])
# Language
self.combo_language = QComboBox()
self.combo_language.addItems(list(self.languages.keys()))
for lang in self.languages: # Look for the current language to select it
if self.languages[lang] == self.settings['main']['language']:
self.combo_language.setCurrentText(lang)
break
# CSV separator
self.csv_sep_edit = QLineEdit()
self.csv_sep_edit.setMaxLength(2)
self.csv_sep_edit.setFixedWidth(25)
self.csv_sep_edit.setAlignment(Qt.AlignCenter)
self.csv_sep_edit.setText(self.settings['main']['csv_separator'])
# BDD path
self.btn_bdd_path = QPushButton(self.settings['main']['bdd_path'])
self.btn_bdd_path.clicked.connect(self.choose_bdd_path)
# Port
self.wepapp_port = QSpinBox()
self.wepapp_port.setMinimum(1024)
self.wepapp_port.setMaximum(65535)
self.wepapp_port.setValue(int(self.settings['webapp']['port']))
# Colors
self.tile_color = ColorChooser(self.settings['colors']['tile'])
self.hovered_tile_color = ColorChooser(
self.settings['colors']['hovered_tile'])
self.hovered_empty_tile_color = ColorChooser(
self.settings['colors']['hovered_empty_tile'])
self.dragged_tile_color = ColorChooser(
self.settings['colors']['dragged_tile'])
self.drag_selected_tile_color = ColorChooser(
self.settings['colors']['drag_selected_tile'])
self.selected_tile_color = ColorChooser(
self.settings['colors']['selected_tile'])
self.tile_text_color = ColorChooser(
self.settings['colors']['tile_text'])
self.room_bg_color = ColorChooser(self.settings['colors']['room_bg'])
self.room_grid_color = ColorChooser(
self.settings['colors']['room_grid'])
self.main_bg_color = ColorChooser(self.settings['colors']['main_bg'])
self.board_bg_color = ColorChooser(self.settings['colors']['board_bg'])
self.attr_colors = "" # Chosen colors
self.attributes_colors_chooser = AttrColorsChooser(
self.settings['colors']['attr_colors'].split())
# Sizes (unmodifiable)
self.unmodifiable = QLabel(tr("unmodifiable_data"))
self.unmodifiable.setAlignment(Qt.AlignCenter)
self.desk_size = QLineEdit(self.settings['size']['desk'])
self.desk_size.setEnabled(False)
self.desk_size.setFixedWidth(50)
self.grid_rows = QLineEdit(self.settings['size']['default_room_rows'])
self.grid_rows.setEnabled(False)
self.grid_rows.setFixedWidth(50)
self.grid_cols = QLineEdit(
self.settings['size']['default_room_columns'])
self.grid_cols.setEnabled(False)
self.grid_cols.setFixedWidth(50)
# --- Buttons ---
# Confirm button
self.ok_btn = QPushButton(tr("btn_save"))
self.ok_btn.clicked.connect(self.accept)
self.ok_btn.setFocus()
# Cancel button
self.cancel_btn = QPushButton(tr("btn_cancel"))
self.cancel_btn.clicked.connect(self.reject)
# Restore defaults button
self.restore_btn = QPushButton(tr("btn_restore"))
self.restore_btn.clicked.connect(self.__restore)
self.__set_layout()
def sort_desks(self, sort_type="Z"):
"""Sort students by their position
detects clusters of students to make a clever sort"""
def build_matrix():
matrix = []
for row in range(max_row):
line = []
for col in range(max_col):
id_desk = self.mod_bdd.get_desk_id_in_course_by_coords(
self.main_ctrl.id_course, row, col)
if id_desk != 0:
student = self.mod_bdd.get_student_by_desk_id(id_desk)
if student is not None:
line.append(student.id)
else:
line.append(-1) # empty desk
else:
line.append(0) # no desk
matrix.append(line)
return matrix
def search_cluster(coords, row, col):
"""search all cells in a cluster from row, col position"""
if not (0 <= row < max_row and 0 <= col < max_col):
return False
if (row, col) in visited:
return False
if student_matrix[row][col] == 0:
return False
if coords in clusters:
clusters[coords].append((row, col))
else:
clusters[coords] = [(row, col)]
visited.add((row, col))
search_cluster(coords, row - 1, col - 1)
search_cluster(coords, row - 1, col)
search_cluster(coords, row - 1, col + 1)
search_cluster(coords, row, col - 1)
search_cluster(coords, row, col + 1)
search_cluster(coords, row + 1, col - 1)
search_cluster(coords, row + 1, col)
search_cluster(coords, row + 1, col + 1)
return True
def type_Z():
# we sort the students using the clusters in a simple row by row pattern
ic, ir = 0, 0
while (ir, ic) in clusters:
while (ir, ic) in clusters:
for coords in clusters[(ir, ic)]:
# we add all students in the cluster
sortlist.append(student_matrix[coords[0]][coords[1]])
ic += 1
ic = 0
ir += 1
def type_2():
# we sort the students using the clusters in 2 pattern
ic, ir = 0, 0
alt = True
while (ir, ic) in clusters:
# gets the number of cols in this row
while (ir, ic) in clusters:
ic += 1
nb_cols = ic
for ic in range(nb_cols):
if alt:
ic_alt = ic
else:
ic_alt = nb_cols - ic - 1
# reverse the list when we walk right to left
clusters[(ir, ic_alt)] = clusters[(ir, ic_alt)][::-1]
for coords in clusters[(ir, ic_alt)]:
# we add all students in the cluster
sortlist.append(student_matrix[coords[0]][coords[1]])
alt = not alt
ic = 0
ir += 1
def type_U():
# we sort the students using the clusters in U pattern
ic, ir = 0, 0
alt = True
while (ir, ic) in clusters:
# gets the number of rows in this col
while (ir, ic) in clusters:
ir += 1
nb_rows = ir
for ir in range(nb_rows):
ir_alt = ir if alt else nb_rows - ir - 1
for coords in clusters[(ir_alt, ic)]:
# we add all students in the cluster
sortlist.append(student_matrix[coords[0]][coords[1]])
alt = not alt
ir = 0
ic += 1
self.gui.status_bar.showMessage(tr("grp_action_sort_by_place"), 3000)
max_row = int(AssetManager.getInstance().config(
"size", "default_room_rows"))
max_col = int(AssetManager.getInstance().config(
"size", "default_room_columns"))
infty = max_row * max_col + 1
group_name = self.mod_bdd.get_group_name_by_id(self.main_ctrl.id_group)
# First we initialize the sort key for the group to infty
group_students_id = self.mod_bdd.get_students_in_group(
self.mod_bdd.get_group_name_by_id(self.main_ctrl.id_group))
for std in group_students_id:
self.mod_bdd.update_student_order_with_id(std.id, infty)
student_matrix = build_matrix()
clusters = dict()
visited = set()
# populating clusters dictionnary
ro = 0
for r in range(max_row):
co = 0
empty = True
for c in range(max_col):
if search_cluster((ro, co), r, c):
co += 1
empty = False
if not empty:
ro += 1
# Now we get an ordered list of students matching the desk disposition
sortlist = [] # this list is modified in one of the following function
if sort_type == "Z":
type_Z()
elif sort_type == "2":
type_2()
else:
type_U()
# At last, we update the sort key to re-order the list
orderkey = 0
for s in sortlist:
if s != -1:
# -1 is an empty desk
self.mod_bdd.update_student_order_with_id(s, orderkey)
orderkey += 1
self.__bdd.commit()
self.main_ctrl.on_config_changed()
self.synchronize_canvas_selection_with_side_list()
def __init__(self):
"""
Application main controller.
"""
QObject.__init__(self)
# Create the Views
self.gui = ViewMainFrame(self.sig_quit, self.sig_config_mode_changed,
self.sig_export_csv)
self.v_canvas = self.gui.central_widget.classroom_tab.v_canvas
# BDD connection
bdd_path, bdd_exists = AssetManager.getInstance().bdd_path()
if not bdd_exists:
bp = QFileDialog.getExistingDirectory(self.gui, tr("select_db"))
if bp == "" or not path.isdir(bp):
self.mod_bdd = None
return
bdd_path = path.normpath(bp + "/sdc_db")
if path.isfile(bdd_path):
self.__bdd = sqlite3.connect(bdd_path)
else:
# we initialize a new BDD
if not VConfirmDialog(self.gui, "confirm_db_creation").exec_():
self.mod_bdd = None
return
self.__bdd = self.initialize_bdd(bdd_path)
config = AssetManager.getInstance().get_config_parser()
config.set('main', 'bdd_path', bdd_path)
AssetManager.getInstance().save_config(config)
else:
self.__bdd = sqlite3.connect(bdd_path)
self.mod_bdd = ModBdd(self.__bdd)
self.gui.set_bdd_version(self.mod_bdd.get_version())
# Create secondary controllers
self.attr_ctrl = AttrController(self, self.__bdd)
self.course_ctrl = CourseController(self, self.__bdd)
self.group_ctrl = GroupController(self, self.__bdd)
# Plugs the signals into the views
self.v_canvas.sig_select_tile = self.sig_select_tile
self.gui.central_widget.sig_shuffle = self.sig_shuffle
self.gui.sig_quit = self.sig_quit
self.v_canvas.sig_canvas_click = self.sig_canvas_click
self.v_canvas.sig_desk_selected = self.sig_desk_selected
self.v_canvas.sig_canvas_drag = self.sig_canvas_drag
self.v_canvas.sig_tile_info = self.sig_canvas_right_click
self.gui.sidewidget.courses(
).sig_course_changed = self.sig_course_changed
self.gui.sidewidget.courses(
).courses_toolbar.add_widget.sig_new_element = self.sig_create_course
self.gui.sidewidget.courses(
).sig_topic_changed = self.sig_topic_changed
self.gui.sidewidget.students(
).students_toolbar.sig_combo_changed = self.sig_student_group_changed
ViewMenuButton.sig_action = self.sig_action_triggered
self.gui.maintoolbar.sig_TBbutton = self.sig_TBbutton
self.gui.sidewidget.students(
).students_toolbar.create_field.sig_create = self.sig_create_grp_std
self.gui.sidewidget.attributes(
).attributes_toolbar.add_widget.sig_new_element = self.sig_create_attribute
self.gui.sidewidget.attributes(
).attributes_toolbar.add_widget.sig_delete = self.sig_delete_attributes
self.gui.sidewidget.courses(
).courses_toolbar.sig_delete = self.sig_delete_course
self.gui.sidewidget.attributes(
).sig_selection_changed = self.sig_attr_selection_changed
self.gui.central_widget.attributes_tab.sig_cell_clicked = self.sig_attribute_cell_selected
# Signals connection
self.sig_select_tile.connect(
self.attr_ctrl.on_attribute_selection_changed)
self.sig_quit.connect(self.do_quit)
self.sig_canvas_click.connect(self.course_ctrl.add_desk)
self.sig_desk_selected.connect(
self.course_ctrl.on_desk_selection_changed_on_app)
self.sig_canvas_drag.connect(self.course_ctrl.move_desk)
self.sig_canvas_right_click.connect(
self.attr_ctrl.show_student_attributes)
self.sig_shuffle.connect(self.course_ctrl.desk_shuffle)
self.sig_course_changed.connect(self.course_ctrl.on_course_changed)
self.sig_create_course.connect(self.course_ctrl.on_create_course)
self.sig_topic_changed.connect(self.course_ctrl.on_topic_changed)
self.sig_student_group_changed.connect(
self.group_ctrl.on_student_group_changed)
self.sig_action_triggered.connect(self.action_triggered)
self.sig_TBbutton.connect(self.action_triggered)
self.sig_create_grp_std.connect(self.group_ctrl.on_create_grp_std)
self.sig_create_attribute.connect(self.attr_ctrl.on_create_attr)
self.sig_delete_attributes.connect(self.attr_ctrl.on_delete_attributes)
self.sig_delete_course.connect(self.course_ctrl.on_delete_course)
self.sig_attr_selection_changed.connect(
self.attr_ctrl.on_attribute_selection_changed)
self.sig_attribute_cell_selected.connect(
self.attr_ctrl.on_attribute_cell_selected)
self.sig_flask_desk_selection_changed.connect(
self.course_ctrl.on_desk_selection_changed_on_web)
self.sig_close_qr.connect(self.close_qr)
self.sig_config_mode_changed.connect(self.on_config_changed)
self.sig_export_csv.connect(self.attr_ctrl.export_csv)
self.actions_table = { # Action buttons
"import_csv": self.group_ctrl.import_pronote,
"auto_place": self.group_ctrl.auto_place,
"sort_asc": lambda: self.group_ctrl.sort_alpha(False),
"sort_desc": lambda: self.group_ctrl.sort_alpha(True),
"sort_desks_Z": lambda: self.course_ctrl.sort_desks(sort_type="Z"),
"sort_desks_2": lambda: self.course_ctrl.sort_desks(sort_type="2"),
"sort_desks_U": lambda: self.course_ctrl.sort_desks(sort_type="U"),
"killstudent": self.group_ctrl.killstudent,
"delete_group": self.group_ctrl.on_delete_group,
# Toolbar buttons
"filter_select": self.attr_ctrl.change_filter_selection,
"select": self.course_ctrl.auto_select_desks,
"choice": self.course_ctrl.student_random_pick,
"choice_attr": self.course_ctrl.student_attr_pick,
"delete": self.course_ctrl.delete,
"lot_change": self.attr_ctrl.lot_change,
"print": self.course_ctrl.export_pdf,
"show_qr": self.show_qr
}
# properties
self.id_course = 0
self.id_group = 0
self.selection_mode = self.SEL_ALL
self.filter_selection = False
self.std_dialog_info: VStdAttributesDialog = None
self.qr_dialog: VQRCode = None
# initialize the views
self.course_ctrl.show_all_courses()
self.group_ctrl.show_all_groups()
self.attr_ctrl.show_all_attributes()
self.gui.on_config_mode(False)
self.gui.update()
# initialize connection to flask server
self.flask_client = socketio.Client()
self.flask_client.connect(
'http://localhost:' +
AssetManager.getInstance().config('webapp', 'port'))
self.flask_server = None
# search for new version
latest_version = AssetManager.getInstance().get_latest_version()
if latest_version > AssetManager.getInstance().config(
'main', 'version'):
self.gui.status_bar.showMessage(tr("new_version") + latest_version)
def _set_labels_and_layout(self):
"""
Creates this Widget's content and layout
"""
# --- Content ---
# Lecluse DevCorp. Logo
logo = QLabel()
logo.setPixmap(QPixmap("assets/LDC-dark.png"))
logo.setFixedSize(QSize(
512, 222)) # Original dimension is 2048x888, we divided by 4
logo.setScaledContents(True)
# App credo
lab_app = QLabel(f'<b>{tr("app_title")}</b> {tr("about_sdc")}')
# Devs
features_lab = QLabel(tr("about_features"))
ihm_lab = QLabel(tr("about_ihm"))
web_lab = QLabel(tr("about_web"))
features_dev = QLabel(
f'{self.links_style}<a href="https://www.lecluse.fr">Olivier Lécluse</a>'
)
features_dev.setOpenExternalLinks(True)
ihm_dev = QLabel(
f'{self.links_style}<a href="https://www.linkedin.com/in/thomas-lécluse-62130395/">Thomas Lécluse</a>'
)
ihm_dev.setOpenExternalLinks(True)
web_dev = QLabel(
f'{self.links_style}<a href="https://www.linkedin.com/in/nicolas-lecluse-a3488752/">Nicolas Lécluse</a>'
)
web_dev.setOpenExternalLinks(True)
# Documentation link
lab_link_doc = QLabel(
f'{tr("link_to")} {self.links_style}<a href="https://sdc.lecluse.fr">{tr("about_doc")}</a>'
)
lab_link_doc.setOpenExternalLinks(True)
# Github link
lab_link_git = QLabel(
f'{tr("link_to")} {self.links_style}<a href="https://github.com/wawachief/SalleDeClasse">{tr("about_github")}</a>'
)
lab_link_git.setOpenExternalLinks(True)
# Contact
lab_contact = QLabel(
f'{tr("about_contact")} {self.links_style}<a href="mailto:[email protected]">[email protected]</a>'
)
lab_contact.setOpenExternalLinks(True)
# License
lab_license = QLabel(
f'{self.links_style}<a href="https://www.gnu.org/licenses/gpl-3.0.fr.html">GPL-3.0 License</a>'
)
lab_license.setOpenExternalLinks(True)
# Version
lab_app_version = QLabel(tr("app_version"))
lab_bdd_version = QLabel(tr("bdd_version"))
app_version = QLabel(AssetManager.getInstance().config(
'main', 'version'))
bdd_version = QLabel(str(self.bdd_version))
# --- Layout ---
box = QVBoxLayout()
box.setMargin(0)
box.setSpacing(0)
# Logo
box.addWidget(logo, alignment=Qt.AlignCenter)
Separator(self.width(), box) # ----
# 'Salle de Classe' credo
box.addWidget(lab_app, alignment=Qt.AlignCenter)
box.addSpacing(SPACING_SIZE)
# Devs roles
dev_grid = QGridLayout()
dev_grid.setContentsMargins(0, 0, 0, 0)
dev_grid.addWidget(features_lab, 0, 0, alignment=Qt.AlignRight)
dev_grid.addWidget(ihm_lab, 1, 0, alignment=Qt.AlignRight)
dev_grid.addWidget(web_lab, 2, 0, alignment=Qt.AlignRight)
dev_grid.addWidget(features_dev, 0, 1, alignment=Qt.AlignLeft)
dev_grid.addWidget(ihm_dev, 1, 1, alignment=Qt.AlignLeft)
dev_grid.addWidget(web_dev, 2, 1, alignment=Qt.AlignLeft)
box.addLayout(dev_grid)
# Contact
box.addSpacing(SPACING_SIZE)
box.addWidget(lab_contact, alignment=Qt.AlignCenter)
Separator(self.width(), box) # ----
# Links of doc, git and license
box.addWidget(lab_link_doc, alignment=Qt.AlignCenter)
box.addWidget(lab_link_git, alignment=Qt.AlignCenter)
box.addSpacing(SPACING_SIZE)
box.addWidget(lab_license, alignment=Qt.AlignCenter)
Separator(self.width(), box) # ----
# Version
grid_version = QGridLayout()
grid_version.addWidget(lab_app_version, 0, 0, alignment=Qt.AlignRight)
grid_version.addWidget(lab_bdd_version, 1, 0, alignment=Qt.AlignRight)
grid_version.addWidget(app_version, 0, 1, alignment=Qt.AlignLeft)
grid_version.addWidget(bdd_version, 1, 1, alignment=Qt.AlignLeft)
box.addLayout(grid_version)
box.addSpacing(SPACING_SIZE)
self.setLayout(box)