319 lines
9.6 KiB
Python
319 lines
9.6 KiB
Python
############################################################
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# FlatCAM: 2D Post-processing for Manufacturing #
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# http://caram.cl/software/flatcam #
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# Author: Juan Pablo Caram (c) #
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# Date: 2/5/2014 #
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# MIT Licence #
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############################################################
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from gi.repository import Gdk
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from matplotlib.figure import Figure
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from matplotlib.backends.backend_gtk3agg import FigureCanvasGTK3Agg as FigureCanvas
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#from FlatCAMApp import *
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from FlatCAM_GTK import FlatCAMApp
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class PlotCanvas:
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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):
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"""
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The constructor configures the Matplotlib 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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# Options
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self.x_margin = 15 # pixels
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self.y_margin = 25 # Pixels
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# Parent container
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self.container = container
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# Plots go onto a single matplotlib.figure
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self.figure = Figure(dpi=50) # TODO: dpi needed?
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self.figure.patch.set_visible(False)
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# These axes show the ticks and grid. No plotting done here.
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# New axes must have a label, otherwise mpl returns an existing one.
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self.axes = self.figure.add_axes([0.05, 0.05, 0.9, 0.9], label="base", alpha=0.0)
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self.axes.set_aspect(1)
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self.axes.grid(True)
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# The canvas is the top level container (Gtk.DrawingArea)
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self.canvas = FigureCanvas(self.figure)
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self.canvas.set_hexpand(1)
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self.canvas.set_vexpand(1)
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self.canvas.set_can_focus(True) # For key press
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# Attach to parent
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self.container.attach(self.canvas, 0, 0, 600, 400) # TODO: Height and width are num. columns??
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# Events
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self.canvas.mpl_connect('motion_notify_event', self.on_mouse_move)
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self.canvas.connect('configure-event', self.auto_adjust_axes)
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self.canvas.add_events(Gdk.EventMask.SMOOTH_SCROLL_MASK)
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self.canvas.connect("scroll-event", self.on_scroll)
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self.canvas.mpl_connect('key_press_event', self.on_key_down)
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self.canvas.mpl_connect('key_release_event', self.on_key_up)
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self.mouse = [0, 0]
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self.key = None
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def on_key_down(self, event):
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"""
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:param event:
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:return:
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"""
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self.key = event.key
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def on_key_up(self, event):
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"""
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:param event:
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:return:
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"""
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self.key = None
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def mpl_connect(self, event_name, callback):
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"""
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Attach an event handler to the canvas through the Matplotlib interface.
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:param event_name: Name of the event
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:type event_name: str
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:param callback: Function to call
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:type callback: func
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:return: Connection id
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:rtype: int
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"""
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return self.canvas.mpl_connect(event_name, callback)
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def mpl_disconnect(self, cid):
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"""
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Disconnect callback with the give id.
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:param cid: Callback id.
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:return: None
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"""
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self.canvas.mpl_disconnect(cid)
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def connect(self, event_name, callback):
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"""
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Attach an event handler to the canvas through the native GTK interface.
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:param event_name: Name of the event
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:type event_name: str
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:param callback: Function to call
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:type callback: function
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:return: Nothing
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"""
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self.canvas.connect(event_name, callback)
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def clear(self):
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"""
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Clears axes and figure.
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:return: None
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"""
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# Clear
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self.axes.cla()
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try:
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self.figure.clf()
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except KeyError:
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FlatCAMApp.App.log.warning("KeyError in MPL figure.clf()")
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# Re-build
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self.figure.add_axes(self.axes)
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self.axes.set_aspect(1)
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self.axes.grid(True)
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# Re-draw
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self.canvas.queue_draw()
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def adjust_axes(self, xmin, ymin, xmax, ymax):
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"""
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Adjusts all axes while maintaining the use of the whole canvas
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and an aspect ratio to 1:1 between x and y axes. The parameters are an original
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request that will be modified to fit these restrictions.
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:param xmin: Requested minimum value for the X axis.
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:type xmin: float
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:param ymin: Requested minimum value for the Y axis.
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:type ymin: float
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:param xmax: Requested maximum value for the X axis.
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:type xmax: float
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:param ymax: Requested maximum value for the Y axis.
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:type ymax: float
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:return: None
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"""
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FlatCAMApp.App.log.debug("PC.adjust_axes()")
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width = xmax - xmin
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height = ymax - ymin
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try:
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r = width / height
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except ZeroDivisionError:
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FlatCAMApp.App.log.error("Height is %f" % height)
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return
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canvas_w, canvas_h = self.canvas.get_width_height()
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canvas_r = float(canvas_w) / canvas_h
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x_ratio = float(self.x_margin) / canvas_w
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y_ratio = float(self.y_margin) / canvas_h
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if r > canvas_r:
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ycenter = (ymin + ymax) / 2.0
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newheight = height * r / canvas_r
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ymin = ycenter - newheight / 2.0
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ymax = ycenter + newheight / 2.0
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else:
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xcenter = (xmax + xmin) / 2.0
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newwidth = width * canvas_r / r
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xmin = xcenter - newwidth / 2.0
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xmax = xcenter + newwidth / 2.0
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# Adjust axes
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for ax in self.figure.get_axes():
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if ax._label != 'base':
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ax.set_frame_on(False) # No frame
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ax.set_xticks([]) # No tick
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ax.set_yticks([]) # No ticks
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ax.patch.set_visible(False) # No background
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ax.set_aspect(1)
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ax.set_xlim((xmin, xmax))
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ax.set_ylim((ymin, ymax))
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ax.set_position([x_ratio, y_ratio, 1 - 2 * x_ratio, 1 - 2 * y_ratio])
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# Re-draw
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self.canvas.queue_draw()
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def auto_adjust_axes(self, *args):
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"""
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Calls ``adjust_axes()`` using the extents of the base axes.
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:rtype : None
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:return: None
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"""
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xmin, xmax = self.axes.get_xlim()
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ymin, ymax = self.axes.get_ylim()
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self.adjust_axes(xmin, ymin, xmax, ymax)
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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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xmin, xmax = self.axes.get_xlim()
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ymin, ymax = self.axes.get_ylim()
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width = xmax - xmin
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height = ymax - ymin
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if center is None or center == [None, None]:
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center = [(xmin + xmax) / 2.0, (ymin + ymax) / 2.0]
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# For keeping the point at the pointer location
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relx = (xmax - center[0]) / width
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rely = (ymax - center[1]) / height
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new_width = width / factor
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new_height = height / factor
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xmin = center[0] - new_width * (1 - relx)
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xmax = center[0] + new_width * relx
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ymin = center[1] - new_height * (1 - rely)
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ymax = center[1] + new_height * rely
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# Adjust axes
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for ax in self.figure.get_axes():
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ax.set_xlim((xmin, xmax))
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ax.set_ylim((ymin, ymax))
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# Re-draw
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self.canvas.queue_draw()
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def pan(self, x, y):
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xmin, xmax = self.axes.get_xlim()
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ymin, ymax = self.axes.get_ylim()
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width = xmax - xmin
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height = ymax - ymin
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# Adjust axes
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for ax in self.figure.get_axes():
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ax.set_xlim((xmin + x*width, xmax + x*width))
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ax.set_ylim((ymin + y*height, ymax + y*height))
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# Re-draw
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self.canvas.queue_draw()
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def new_axes(self, name):
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"""
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Creates and returns an Axes object attached to this object's Figure.
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:param name: Unique label for the axes.
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:return: Axes attached to the figure.
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:rtype: Axes
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"""
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return self.figure.add_axes([0.05, 0.05, 0.9, 0.9], label=name)
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def on_scroll(self, canvas, event):
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"""
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Scroll event handler.
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:param canvas: The widget generating the event. Ignored.
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:param event: Event object containing the event information.
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:return: None
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"""
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# So it can receive key presses
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self.canvas.grab_focus()
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# Event info
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z, direction = event.get_scroll_direction()
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if self.key is None:
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if direction is Gdk.ScrollDirection.UP:
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self.zoom(1.5, self.mouse)
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else:
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self.zoom(1/1.5, self.mouse)
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return
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if self.key == 'shift':
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if direction is Gdk.ScrollDirection.UP:
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self.pan(0.3, 0)
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else:
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self.pan(-0.3, 0)
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return
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if self.key == 'ctrl+control':
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if direction is Gdk.ScrollDirection.UP:
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self.pan(0, 0.3)
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else:
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self.pan(0, -0.3)
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return
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def on_mouse_move(self, event):
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"""
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Mouse movement event hadler. Stores the coordinates.
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:param event: Contains information about the event.
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:return: None
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"""
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self.mouse = [event.xdata, event.ydata]
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