我可以让 matplotlib 滑块更加离散吗?

问题描述

我正在使用 matplotlib 滑块，类似于 这个演示.滑块目前使用 2 个小数位，并且感觉"非常连续(尽管它们在某种程度上必须是离散的).我可以决定它们是离散的吗?整数步数?0.1 步长?0.5?我的 google-fu 让我失望了.

I'm using matplotlib sliders, similar to this demo. The sliders currently use 2 decimal places and 'feel' quite continuous (though they have to be discrete on some level). Can I decide on what level they are discrete? Integer steps? 0.1-sized steps? 0.5? My google-fu failed me.

推荐答案

如果您只需要整数值，只需在创建滑块时传入适当的 valfmt(例如 valfmt='%0.0f')

If you just want integer values, just pass in an approriate valfmt when you create the slider (e.g. valfmt='%0.0f')

但是，如果您想要非整数 invervals，则每次都需要手动设置文本值.但是，即使您这样做了，滑块仍会平稳前进，并且不会感觉"像离散间隔.

However, if you want non-integer invervals, you'll need to manually set the text value each time. Even if you do this, though, the slider will still progress smoothly, and it won't "feel" like discrete intervals.

这是一个例子:

import matplotlib.pyplot as plt
import numpy as np
from matplotlib.widgets import Slider

class ChangingPlot(object):
    def __init__(self):
        self.inc = 0.5

        self.fig, self.ax = plt.subplots()
        self.sliderax = self.fig.add_axes([0.2, 0.02, 0.6, 0.03],
                                          axisbg='yellow')

        self.slider = Slider(self.sliderax, 'Value', 0, 10, valinit=self.inc)
        self.slider.on_changed(self.update)
        self.slider.drawon = False

        x = np.arange(0, 10.5, self.inc)
        self.ax.plot(x, x, 'ro')
        self.dot, = self.ax.plot(self.inc, self.inc, 'bo', markersize=18)

    def update(self, value):
        value = int(value / self.inc) * self.inc
        self.dot.set_data([[value],[value]])
        self.slider.valtext.set_text('{}'.format(value))
        self.fig.canvas.draw()

    def show(self):
        plt.show()

p = ChangingPlot()
p.show()

如果你想让滑块感觉"完全像离散值，你可以继承 matplotlib.widgets.Slider.按键效果由 Slider.set_val

If you wanted to make the slider "feel" completely like discrete values, you could subclass matplotlib.widgets.Slider. The key effect is controlled by Slider.set_val

在这种情况下，你会这样做:

In that case, you'd do something like this:

class DiscreteSlider(Slider):
    """A matplotlib slider widget with discrete steps."""
    def __init__(self, *args, **kwargs):
        """Identical to Slider.__init__, except for the "increment" kwarg.
        "increment" specifies the step size that the slider will be discritized
        to."""
        self.inc = kwargs.pop('increment', 0.5)
        Slider.__init__(self, *args, **kwargs)

    def set_val(self, val):
        discrete_val = int(val / self.inc) * self.inc
        # We can't just call Slider.set_val(self, discrete_val), because this 
        # will prevent the slider from updating properly (it will get stuck at
        # the first step and not "slide"). Instead, we'll keep track of the
        # the continuous value as self.val and pass in the discrete value to
        # everything else.
        xy = self.poly.xy
        xy[2] = discrete_val, 1
        xy[3] = discrete_val, 0
        self.poly.xy = xy
        self.valtext.set_text(self.valfmt % discrete_val)
        if self.drawon: 
            self.ax.figure.canvas.draw()
        self.val = val
        if not self.eventson: 
            return
        for cid, func in self.observers.iteritems():
            func(discrete_val)

作为使用它的完整示例:

And as a full example of using it:

import matplotlib.pyplot as plt
import numpy as np
from matplotlib.widgets import Slider

class ChangingPlot(object):
    def __init__(self):
        self.inc = 0.5

        self.fig, self.ax = plt.subplots()
        self.sliderax = self.fig.add_axes([0.2, 0.02, 0.6, 0.03],
                                          facecolor='yellow')

        self.slider = DiscreteSlider(self.sliderax, 'Value', 0, 10, 
                                     increment=self.inc, valinit=self.inc)
        self.slider.on_changed(self.update)

        x = np.arange(0, 10.5, self.inc)
        self.ax.plot(x, x, 'ro')
        self.dot, = self.ax.plot(self.inc, self.inc, 'bo', markersize=18)

    def update(self, value):
        self.dot.set_data([[value],[value]])
        self.fig.canvas.draw()

    def show(self):
        plt.show()

class DiscreteSlider(Slider):
    """A matplotlib slider widget with discrete steps."""
    def __init__(self, *args, **kwargs):
        """Identical to Slider.__init__, except for the "increment" kwarg.
        "increment" specifies the step size that the slider will be discritized
        to."""
        self.inc = kwargs.pop('increment', 0.5)
        Slider.__init__(self, *args, **kwargs)
        self.val = 1

    def set_val(self, val):
        discrete_val = int(val / self.inc) * self.inc
        # We can't just call Slider.set_val(self, discrete_val), because this 
        # will prevent the slider from updating properly (it will get stuck at
        # the first step and not "slide"). Instead, we'll keep track of the
        # the continuous value as self.val and pass in the discrete value to
        # everything else.
        xy = self.poly.xy
        xy[2] = discrete_val, 1
        xy[3] = discrete_val, 0
        self.poly.xy = xy
        self.valtext.set_text(self.valfmt % discrete_val)
        if self.drawon: 
            self.ax.figure.canvas.draw()
        self.val = val
        if not self.eventson: 
            return
        for cid, func in self.observers.items():
            func(discrete_val)


p = ChangingPlot()
p.show()

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