386 lines
14 KiB
Python
386 lines
14 KiB
Python
# ##########################################################
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# FlatCAM: 2D Post-processing for Manufacturing #
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# Author: Dennis Hayrullin (c) #
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# Date: 2016 #
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# MIT Licence #
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# ##########################################################
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from PyQt5 import QtCore
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import logging
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from flatcamGUI.VisPyCanvas import VisPyCanvas, time, Color
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from flatcamGUI.VisPyVisuals import ShapeGroup, ShapeCollection, TextCollection, TextGroup, Cursor
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from vispy.scene.visuals import InfiniteLine, Line
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import numpy as np
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from vispy.geometry import Rect
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log = logging.getLogger('base')
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class PlotCanvas(QtCore.QObject, VisPyCanvas):
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"""
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Class handling the plotting area in the application.
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"""
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def __init__(self, container, fcapp):
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"""
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The constructor configures the VisPy figure that
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will contain all plots, creates the base axes and connects
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events to the plotting area.
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:param container: The parent container in which to draw plots.
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:rtype: PlotCanvas
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"""
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super(PlotCanvas, self).__init__()
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# VisPyCanvas.__init__(self)
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# VisPyCanvas does not allow new attributes. Override.
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self.unfreeze()
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self.fcapp = fcapp
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# Parent container
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self.container = container
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settings = QtCore.QSettings("Open Source", "FlatCAM")
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if settings.contains("theme"):
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theme = settings.value('theme', type=str)
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else:
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theme = 'white'
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if theme == 'white':
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self.line_color = (0.3, 0.0, 0.0, 1.0)
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else:
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self.line_color = (0.4, 0.4, 0.4, 1.0)
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# workspace lines; I didn't use the rectangle because I didn't want to add another VisPy Node,
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# which might decrease performance
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self.b_line, self.r_line, self.t_line, self.l_line = None, None, None, None
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# <VisPyCanvas>
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self.create_native()
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self.native.setParent(self.fcapp.ui)
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# <QtCore.QObject>
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self.container.addWidget(self.native)
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# ## AXIS # ##
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self.v_line = InfiniteLine(pos=0, color=(0.70, 0.3, 0.3, 1.0), vertical=True,
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parent=self.view.scene)
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self.h_line = InfiniteLine(pos=0, color=(0.70, 0.3, 0.3, 1.0), vertical=False,
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parent=self.view.scene)
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# draw a rectangle made out of 4 lines on the canvas to serve as a hint for the work area
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# all CNC have a limited workspace
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self.draw_workspace()
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self.line_parent = None
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self.cursor_v_line = InfiniteLine(pos=None, color=self.line_color, vertical=True,
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parent=self.line_parent)
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self.cursor_h_line = InfiniteLine(pos=None, color=self.line_color, vertical=False,
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parent=self.line_parent)
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# if self.app.defaults['global_workspace'] is True:
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# if self.app.ui.general_defaults_form.general_app_group.units_radio.get_value().upper() == 'MM':
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# self.wkspace_t = Line(pos=)
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self.shape_collections = []
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self.shape_collection = self.new_shape_collection()
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self.fcapp.pool_recreated.connect(self.on_pool_recreated)
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self.text_collection = self.new_text_collection()
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# TODO: Should be setting to show/hide CNC job annotations (global or per object)
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self.text_collection.enabled = True
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self.c = None
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self.big_cursor = None
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# Keep VisPy canvas happy by letting it be "frozen" again.
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self.freeze()
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self.graph_event_connect('mouse_wheel', self.on_mouse_scroll)
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# draw a rectangle made out of 4 lines on the canvas to serve as a hint for the work area
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# all CNC have a limited workspace
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def draw_workspace(self):
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a = np.empty((0, 0))
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a4p_in = np.array([(0, 0), (8.3, 0), (8.3, 11.7), (0, 11.7)])
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a4l_in = np.array([(0, 0), (11.7, 0), (11.7, 8.3), (0, 8.3)])
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a3p_in = np.array([(0, 0), (11.7, 0), (11.7, 16.5), (0, 16.5)])
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a3l_in = np.array([(0, 0), (16.5, 0), (16.5, 11.7), (0, 11.7)])
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a4p_mm = np.array([(0, 0), (210, 0), (210, 297), (0, 297)])
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a4l_mm = np.array([(0, 0), (297, 0), (297, 210), (0, 210)])
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a3p_mm = np.array([(0, 0), (297, 0), (297, 420), (0, 420)])
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a3l_mm = np.array([(0, 0), (420, 0), (420, 297), (0, 297)])
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if self.fcapp.defaults['units'].upper() == 'MM':
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if self.fcapp.defaults['global_workspaceT'] == 'A4P':
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a = a4p_mm
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elif self.fcapp.defaults['global_workspaceT'] == 'A4L':
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a = a4l_mm
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elif self.fcapp.defaults['global_workspaceT'] == 'A3P':
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a = a3p_mm
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elif self.fcapp.defaults['global_workspaceT'] == 'A3L':
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a = a3l_mm
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else:
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if self.fcapp.defaults['global_workspaceT'] == 'A4P':
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a = a4p_in
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elif self.fcapp.defaults['global_workspaceT'] == 'A4L':
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a = a4l_in
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elif self.fcapp.defaults['global_workspaceT'] == 'A3P':
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a = a3p_in
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elif self.fcapp.defaults['global_workspaceT'] == 'A3L':
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a = a3l_in
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self.delete_workspace()
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self.b_line = Line(pos=a[0:2], color=(0.70, 0.3, 0.3, 1.0),
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antialias=True, method='agg', parent=self.view.scene)
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self.r_line = Line(pos=a[1:3], color=(0.70, 0.3, 0.3, 1.0),
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antialias=True, method='agg', parent=self.view.scene)
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self.t_line = Line(pos=a[2:4], color=(0.70, 0.3, 0.3, 1.0),
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antialias=True, method='agg', parent=self.view.scene)
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self.l_line = Line(pos=np.array((a[0], a[3])), color=(0.70, 0.3, 0.3, 1.0),
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antialias=True, method='agg', parent=self.view.scene)
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if self.fcapp.defaults['global_workspace'] is False:
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self.delete_workspace()
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# delete the workspace lines from the plot by removing the parent
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def delete_workspace(self):
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try:
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self.b_line.parent = None
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self.r_line.parent = None
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self.t_line.parent = None
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self.l_line.parent = None
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except Exception as e:
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pass
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# redraw the workspace lines on the plot by readding them to the parent view.scene
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def restore_workspace(self):
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try:
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self.b_line.parent = self.view.scene
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self.r_line.parent = self.view.scene
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self.t_line.parent = self.view.scene
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self.l_line.parent = self.view.scene
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except Exception as e:
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pass
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def graph_event_connect(self, event_name, callback):
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return getattr(self.events, event_name).connect(callback)
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def graph_event_disconnect(self, event_name, callback=None):
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if callback is None:
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getattr(self.events, event_name).disconnect()
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else:
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getattr(self.events, event_name).disconnect(callback)
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def zoom(self, factor, center=None):
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"""
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Zooms the plot by factor around a given
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center point. Takes care of re-drawing.
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:param factor: Number by which to scale the plot.
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:type factor: float
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:param center: Coordinates [x, y] of the point around which to scale the plot.
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:type center: list
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:return: None
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"""
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self.view.camera.zoom(factor, center)
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def new_shape_group(self, shape_collection=None):
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if shape_collection:
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return ShapeGroup(shape_collection)
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return ShapeGroup(self.shape_collection)
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def new_shape_collection(self, **kwargs):
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# sc = ShapeCollection(parent=self.view.scene, pool=self.app.pool, **kwargs)
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# self.shape_collections.append(sc)
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# return sc
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return ShapeCollection(parent=self.view.scene, pool=self.fcapp.pool, **kwargs)
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def new_cursor(self, big=None):
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"""
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Will create a mouse cursor pointer on canvas
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:param big: if True will create a mouse cursor made out of infinite lines
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:return: the mouse cursor object
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"""
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if big is True:
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self.big_cursor = True
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self.c = CursorBig()
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# in case there are multiple new_cursor calls, best to disconnect first the signals
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try:
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self.c.mouse_state_updated.disconnect(self.on_mouse_state)
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except (TypeError, AttributeError):
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pass
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try:
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self.c.mouse_position_updated.disconnect(self.on_mouse_position)
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except (TypeError, AttributeError):
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pass
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self.c.mouse_state_updated.connect(self.on_mouse_state)
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self.c.mouse_position_updated.connect(self.on_mouse_position)
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else:
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self.big_cursor = False
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self.c = Cursor(pos=np.empty((0, 2)), parent=self.view.scene)
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self.c.antialias = 0
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return self.c
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def on_mouse_state(self, state):
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if state:
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self.cursor_h_line.parent = self.view.scene
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self.cursor_v_line.parent = self.view.scene
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else:
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self.cursor_h_line.parent = None
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self.cursor_v_line.parent = None
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def on_mouse_position(self, pos):
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# self.line_color = color
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self.cursor_h_line.set_data(pos=pos[1], color=self.line_color)
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self.cursor_v_line.set_data(pos=pos[0], color=self.line_color)
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self.view.scene.update()
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def on_mouse_scroll(self, event):
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# key modifiers
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modifiers = event.modifiers
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pan_delta_x = self.fcapp.defaults["global_gridx"]
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pan_delta_y = self.fcapp.defaults["global_gridy"]
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curr_pos = event.pos
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# Controlled pan by mouse wheel
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if 'Shift' in modifiers:
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p1 = np.array(curr_pos)[:2]
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if event.delta[1] > 0:
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curr_pos[0] -= pan_delta_x
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else:
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curr_pos[0] += pan_delta_x
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p2 = np.array(curr_pos)[:2]
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self.view.camera.pan(p2 - p1)
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elif 'Control' in modifiers:
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p1 = np.array(curr_pos)[:2]
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if event.delta[1] > 0:
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curr_pos[1] += pan_delta_y
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else:
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curr_pos[1] -= pan_delta_y
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p2 = np.array(curr_pos)[:2]
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self.view.camera.pan(p2 - p1)
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if self.fcapp.grid_status() == True:
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pos_canvas = self.translate_coords(curr_pos)
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pos = self.fcapp.geo_editor.snap(pos_canvas[0], pos_canvas[1])
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# Update cursor
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self.fcapp.app_cursor.set_data(np.asarray([(pos[0], pos[1])]),
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symbol='++', edge_color=self.fcapp.cursor_color_3D,
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size=self.fcapp.defaults["global_cursor_size"])
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def new_text_group(self, collection=None):
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if collection:
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return TextGroup(collection)
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else:
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return TextGroup(self.text_collection)
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def new_text_collection(self, **kwargs):
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return TextCollection(parent=self.view.scene, **kwargs)
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def fit_view(self, rect=None):
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# Lock updates in other threads
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self.shape_collection.lock_updates()
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if not rect:
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rect = Rect(-1, -1, 20, 20)
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try:
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rect.left, rect.right = self.shape_collection.bounds(axis=0)
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rect.bottom, rect.top = self.shape_collection.bounds(axis=1)
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except TypeError:
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pass
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# adjust the view camera to be slightly bigger than the bounds so the shape colleaction can be seen clearly
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# otherwise the shape collection boundary will have no border
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rect.left *= 0.96
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rect.bottom *= 0.96
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rect.right *= 1.01
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rect.top *= 1.01
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self.view.camera.rect = rect
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self.shape_collection.unlock_updates()
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def fit_center(self, loc, rect=None):
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# Lock updates in other threads
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self.shape_collection.lock_updates()
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if not rect:
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try:
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rect = Rect(loc[0]-20, loc[1]-20, 40, 40)
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except TypeError:
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pass
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self.view.camera.rect = rect
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self.shape_collection.unlock_updates()
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def clear(self):
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pass
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def redraw(self):
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self.shape_collection.redraw([])
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self.text_collection.redraw()
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def on_pool_recreated(self, pool):
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self.shape_collection.pool = pool
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class CursorBig(QtCore.QObject):
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"""
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This is a fake cursor to ensure compatibility with the OpenGL engine (VisPy).
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This way I don't have to chane (disable) things related to the cursor all over when
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using the low performance Matplotlib 2D graphic engine.
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"""
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mouse_state_updated = QtCore.pyqtSignal(bool)
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mouse_position_updated = QtCore.pyqtSignal(list)
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def __init__(self):
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super().__init__()
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self._enabled = None
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@property
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def enabled(self):
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return True if self._enabled else False
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@enabled.setter
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def enabled(self, value):
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self._enabled = value
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self.mouse_state_updated.emit(value)
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def set_data(self, pos, **kwargs):
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"""Internal event handler to draw the cursor when the mouse moves."""
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if 'edge_color' in kwargs:
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color = kwargs['edge_color']
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else:
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if self.app.defaults['global_theme'] == 'white':
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color = '#000000FF'
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else:
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color = '#FFFFFFFF'
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position = [pos[0][0], pos[0][1]]
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self.mouse_position_updated.emit(position)
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