334 lines
11 KiB
Python
334 lines
11 KiB
Python
"""
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This module contains the components that make up the Sudoku Board
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"""
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from PyQt5.QtGui import QPainter, QBrush, QPen, QColor, QFont
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from PyQt5.QtWidgets import QGraphicsItem, QGraphicsObject
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from PyQt5.QtCore import (QAbstractAnimation, QPointF, Qt, QRectF, QLineF,
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QPropertyAnimation, pyqtProperty, pyqtSignal)
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from gameplay import sudoku_gameplay as sdk
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from general.extras import bound_value
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from . import buttons
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from . import menu_graphics as menu_grap
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import numpy as np
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class BaseSudokuItem(QGraphicsObject):
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def __init__(self, parent):
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super().__init__(parent=parent)
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self.setParent(parent)
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self.parent = parent
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self.default_pen = QPen()
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self.default_pen.setColor(Qt.white)
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self.default_pen.setWidth(1)
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self.default_font = QFont("Helvetica", pointSize=14)
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self.freeze = False
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class NumberPainter(BaseSudokuItem):
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# TODO: Use different font to differentiate the status of a cell
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def __init__(self, parent, grid):
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super().__init__(parent=parent)
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self.sudoku_grid = grid
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self.invalid_pen = QPen()
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self.invalid_pen.setColor(Qt.lightGray)
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self.invalid_font = QFont("Helvetica", pointSize=12, italic=True)
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self.fixed_pen = QPen()
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self.fixed_pen.setColor(Qt.white)
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self.fixed_font = QFont("Helvetica", pointSize=14, weight=QFont.Bold)
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def paint(self, painter, style, widget=None):
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for i in range(9):
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for j in range(9):
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self._draw_number_cell(i, j, painter)
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def boundingRect(self):
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return QRectF(-5, -5, self.parent.width+10, self.parent.height+10)
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def _draw_number_cell(self, w, h, painter):
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val = self.sudoku_grid.get_cell_number(h, w)
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if val == 0:
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val = ''
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else:
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status = self.sudoku_grid.get_cell_status(h, w)
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if status == sdk.VALID:
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painter.setPen(self.default_pen)
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painter.setFont(self.default_font)
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elif status == sdk.FIXED:
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painter.setPen(self.fixed_pen)
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painter.setFont(self.fixed_font)
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else:
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painter.setPen(self.invalid_pen)
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painter.setFont(self.invalid_font)
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painter.drawText(QRectF(w*self.parent.cell_width, h*self.parent.cell_height,
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self.parent.cell_width, self.parent.cell_height), Qt.AlignCenter, str(val))
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class SudokuGrid(BaseSudokuItem):
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# TODO: Add functions to animated the grid lines
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buttonClicked = pyqtSignal(float, float)
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def __init__(self, width, height, parent=None):
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super().__init__(parent)
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self.width = width
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self.height = height
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self.thick_pen = QPen()
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self.thick_pen.setColor(Qt.white)
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self.thick_unit = 5
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self.thick_pen.setWidth(self.thick_unit)
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self.thinlines = []
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self.thicklines = []
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self.cell_width = self.width / 9
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self.cell_height = self.height / 9
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for i in range(1, 9):
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delta_h = self.cell_height * i
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delta_w = self.cell_width * i
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if i%3 == 0:
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self.thicklines.append(QLineF(0, delta_h, self.width, delta_h))
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self.thicklines.append(QLineF(delta_w, 0, delta_w, self.height))
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else:
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self.thinlines.append(QLineF(0, delta_h, self.width, delta_h))
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self.thinlines.append(QLineF(delta_w, 0, delta_w, self.height))
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self.sudoku_grid = sdk.SudokuSystem()
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self.grid_painter = NumberPainter(self, self.sudoku_grid)
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self.mouse_w = 0
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self.mouse_h = 0
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self.selection_unit = 8
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self.selection_pen = QPen()
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self.selection_pen.setColor(Qt.white)
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self.selection_pen.setWidth(self.selection_unit)
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self.selection_box = QRectF(0, 0, self.cell_width, self.cell_height)
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self.setAcceptHoverEvents(True)
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self.setAcceptedMouseButtons(Qt.LeftButton)
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self.setFlag(QGraphicsItem.ItemIsFocusable, True)
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# Length of the box to be drawn
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self.length = 0
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# Set up the length to be animated
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self.anim = QPropertyAnimation(self, b'length')
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self.anim.setDuration(500) # Animation speed
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self.anim.setStartValue(0)
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for t in range(1, 10):
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self.anim.setKeyValueAt(t / 10, self.width * t/10)
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self.anim.setEndValue(self.width)
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self.drawn = False
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self.anim.finished.connect(self.finish_drawing)
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def finish_drawing(self):
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if self.length == self.width:
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self.drawn = True
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# Toggle the animation to be play forward or backward
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def toggle_anim(self, toggling):
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if toggling:
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self.anim.setDirection(QAbstractAnimation.Forward)
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else:
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self.anim.setDirection(QAbstractAnimation.Backward)
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self.anim.start()
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def generate_new_grid(self, difficulty):
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self.sudoku_grid.generate_random_board(difficulty)
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self.update()
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def replace_cell_number(self, val):
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self.sudoku_grid.replace_cell_number(self.mouse_h, self.mouse_w, val)
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self.grid_painter.update()
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def boundingRect(self):
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return QRectF(-5, -5, self.width+10, self.height+10)
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# Reimplemented paint
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def paint(self, painter, style, widget=None):
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painter.setPen(self.default_pen)
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for line in self.thinlines:
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painter.drawLine(line)
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painter.setPen(self.thick_pen)
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for line in self.thicklines:
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painter.drawLine(line)
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if self.drawn:
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painter.setPen(self.selection_pen)
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painter.drawRect(self.selection_box)
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def hoverMoveEvent(self, event):
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if not (self.freeze and self.drawn):
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box_w = bound_value(0, int(event.pos().x()/self.cell_width), 8)
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box_h = bound_value(0, int(event.pos().y() / self.cell_height), 8)
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if box_w != self.mouse_w or box_h != self.mouse_h:
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self.mouse_w = box_w
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self.mouse_h = box_h
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self.selection_box.moveTopLeft(QPointF(box_w*self.cell_width, box_h*self.cell_height))
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self.update()
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def mousePressEvent(self, event):
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if not (self.freeze and self.drawn):
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w = (self.mouse_w + 0.5) * self.cell_width - 5
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h = (self.mouse_h + 0.5) * self.cell_height + 5
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if not self.sudoku_grid.get_cell_status(self.mouse_h, self.mouse_w) == sdk.FIXED:
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self.buttonClicked.emit(w, h)
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else:
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self.buttonClicked.emit(0, 0)
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def focusOutEvent(self, event):
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self.freeze = True
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# Defining the length to be drawn as a pyqtProperty
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@pyqtProperty(float)
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def length(self):
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return self._length
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# Determine the length of the four lines to be drawn
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@length.setter
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def length(self, value):
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self._length = value
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for lines in self.thinlines:
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if lines.x1() == 0:
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lines.setP2(QPointF(value, lines.y2()))
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else:
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lines.setP2(QPointF(lines.x2(), value))
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for lines in self.thicklines:
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if lines.x1() == 0:
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lines.setP2(QPointF(value, lines.y2()))
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else:
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lines.setP2(QPointF(lines.x2(), value))
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self.update()
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class NumberRing(BaseSudokuItem):
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# TODO: Add functions to animated the ring appearing
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# TODO: Adjust the positioning of each element
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# TODO: Make it transparent when mouse is out of range
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def __init__(self, parent=None):
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super().__init__(parent=parent)
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self.setVisible(False)
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self.cell_width = 24
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self.cell_height = 24
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self.cell_buttons = []
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for i in range(10):
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if i == 0:
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cell_string = 'X'
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else:
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cell_string = str(i)
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btn = buttons.animBox(0, 0, self.cell_width,
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self.cell_height, cell_string, parent=self)
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self.cell_buttons.append(btn)
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self.radius = 54
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# Set up the radius to be animated
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self.anim = QPropertyAnimation(self, b'radius')
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self.anim.setDuration(100) # Animation speed
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self.anim.setStartValue(0)
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for t in range(1, 10):
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self.anim.setKeyValueAt(t / 10, self.radius * t / 10)
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self.anim.setEndValue(self.radius)
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self.anim.finished.connect(self.finish_animation)
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self.setFlag(QGraphicsItem.ItemIsFocusable, True)
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self.freeze_buttons(True)
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def finish_animation(self):
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if self.radius == 0:
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self.setVisible(False)
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self.freeze_buttons(True)
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else:
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self.freeze_buttons(False)
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# Toggle the animation to be play forward or backward
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def toggle_anim(self, toggling):
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self.freeze_buttons(True)
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if toggling:
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self.anim.setDirection(QAbstractAnimation.Forward)
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else:
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self.anim.setDirection(QAbstractAnimation.Backward)
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self.anim.start()
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def boundingRect(self):
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return QRectF(-5-self.radius-self.cell_width/2, -5-self.radius-self.cell_height/2,
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self.cell_width+self.radius*2+10, self.cell_height + self.radius * 2 + 10)
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# Reimplemented paint
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def paint(self, painter, style, widget=None):
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pass
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def connect_button_signals(self, func):
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for btn in self.cell_buttons:
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btn.buttonClicked.connect(func)
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print('Buttons Connected')
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def freeze_buttons(self, freeze):
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for btn in self.cell_buttons:
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btn.set_freeze(freeze)
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def focusOutEvent(self, event):
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self.toggle_anim(False)
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# Defining the length to be drawn as a pyqtProperty
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@pyqtProperty(float)
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def radius(self):
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return self._radius
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# Determine the length of the four lines to be drawn
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@radius.setter
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def radius(self, value):
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self._radius = value
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for i, btn in enumerate(self.cell_buttons):
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cell_x = value * np.sin(np.deg2rad(360/10*i)) - self.cell_width/2
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cell_y = - value * np.cos(np.deg2rad(360 / 10 * i)) - self.cell_height/2
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btn.setX(cell_x)
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btn.setY(cell_y)
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self.update()
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class PlayMenu(BaseSudokuItem):
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buttonClicked = pyqtSignal(str)
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def __init__(self, parent):
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super().__init__(parent=parent)
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self.rect = self.parent.boundingRect()
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self.diff_select = menu_grap.DifficultyMenu(self.rect.width()/2, self.rect.height()/8, self)
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self.diff_select.setX(self.rect.width()/4)
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self.diff_select.setY((self.rect.height() - self.diff_select.height)/2)
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self.diff_select.menuClicked.connect(self.difficulty_selected)
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def paint(self, painter, style, widget=None):
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pass
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def boundingRect(self):
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return self.diff_select.boundingRect()
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def difficulty_selected(self, string):
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self.setVisible(False)
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self.buttonClicked.emit(string)
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