<p>我用交互式python解决了同样的问题。这是我怎么做到的。在</p>
<pre><code>import turtle
def plotRegression(data):
win = turtle.Screen()
win.bgcolor('pink')
t = turtle.Turtle()
t.shape('circle')
t.turtlesize(0.2)
x_list, y_list = [i[0] for i in plot_data], [i[1] for i in plot_data]
x_list, y_list = [float(i) for i in x_list], [float(i) for i in y_list]
x_sum, y_sum = sum(x_list), sum(y_list)
x_bar, y_bar = x_sum / len(x_list), y_sum / len(y_list)
x_list_square = [i ** 2 for i in x_list]
x_list_square_sum = sum(x_list_square)
xy_list = [x_list[i] * y_list[i] for i in range(len(x_list))]
xy_list_sum = sum(xy_list)
m = (xy_list_sum - len(x_list) * x_bar * y_bar) / (x_list_square_sum - len(x_list) * x_bar ** 2)
# best y
y_best = [ (y_bar + m * (x_list[i] - x_bar)) for i in range( len(x_list) ) ]
# plot points
max_x = max(x_list)
max_y = max(y_list)
win.setworldcoordinates(0, 0, max_x, max_y)
for i in range(len(x_list)):
t.penup()
t.setposition(x_list[i], y_list[i])
t.stamp()
#plot best y
t.penup()
t.setposition(0,0)
t.color('blue')
for i in range(len(x_list)):
t.setposition(x_list[i],y_best[i])
t.pendown()
win.exitonclick()
with open('files/labdata.txt', 'r') as f:
plot_data = [aline.split() for aline in f]
plotRegression(plot_data)
</code></pre>