matplotlib中的3D离散热图
我在python中有一个包含3维数据的元组列表,其中每个元组的格式为:(x,y,z,data_value),即每个(x,y,z)都有数据值坐标。我想制作一个3D离散热图,其中颜色代表我的元组列表中data_values的值。在这里,我举一个这样的2D数据集热图的例子,其中我有一个(x,y,data_value)元组列表:
import matplotlib.pyplot as plt
from matplotlib import colors
import numpy as np
from random import randint
# x and y coordinates
x = np.array(range(10))
y = np.array(range(10,15))
data = np.zeros((len(y),len(x)))
# Generate some discrete data (1, 2 or 3) for each (x, y) pair
for i,yy in enumerate(y):
for j, xx in enumerate(x):
data[i,j] = randint(1,3)
# Map 1, 2 and 3 to 'Red', 'Green' qnd 'Blue', respectively
colormap = colors.ListedColormap(['Red', 'Green', 'Blue'])
colorbar_ticklabels = ['1', '2', '3']
# Use matshow to create a heatmap
fig, ax = plt.subplots()
ms = ax.matshow(data, cmap = colormap, vmin=data.min() - 0.5, vmax=data.max() + 0.5, origin = 'lower')
# x and y axis ticks
ax.set_xticklabels([str(xx) for xx in x])
ax.set_yticklabels([str(yy) for yy in y])
ax.xaxis.tick_bottom()
# Put the x- qnd y-axis ticks at the middle of each cell
ax.set_xticks(np.arange(data.shape[1]), minor = False)
ax.set_yticks(np.arange(data.shape[0]), minor = False)
# Set custom ticks and ticklabels for color bar
cbar = fig.colorbar(ms,ticks = np.arange(np.min(data),np.max(data)+1))
cbar.ax.set_yticklabels(colorbar_ticklabels)
plt.show()
这会生成如下情节:
如果我的数据具有第三维,我如何在3D空间中制作类似的图(即,具有z轴)。例如,如果
# x and y and z coordinates
x = np.array(range(10))
y = np.array(range(10,15))
z = np.array(range(15,20))
data = np.zeros((len(y),len(x), len(y)))
# Generate some random discrete data (1, 2 or 3) for each (x, y, z) triplet.
# Am I defining i, j and k correctly here?
for i,yy in enumerate(y):
for j, xx in enumerate(x):
for k, zz in enumerate(z):
data[i,j, k] = randint(1,3)
我听起来像plot_surface in mplot3d应该能够做到这一点,但是这个函数的输入中的z本质上是(x,y)坐标处的数据值,即(x,y,z = data_value) ),这与我的不同,即(x,y,z,data_value)。
1 个答案:
答案 0 :(得分:15)
新答案:
看来我们真的想在这里拥有3D俄罗斯方块游戏; - )
因此,这是一种绘制不同颜色的立方体以填充数组(x,y,z)给出的空间的方法。
from mpl_toolkits.mplot3d import Axes3D
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.cm
import matplotlib.colorbar
import matplotlib.colors
def cuboid_data(center, size=(1,1,1)):
# code taken from
# http://stackoverflow.com/questions/30715083/python-plotting-a-wireframe-3d-cuboid?noredirect=1&lq=1
# suppose axis direction: x: to left; y: to inside; z: to upper
# get the (left, outside, bottom) point
o = [a - b / 2 for a, b in zip(center, size)]
# get the length, width, and height
l, w, h = size
x = [[o[0], o[0] + l, o[0] + l, o[0], o[0]], # x coordinate of points in bottom surface
[o[0], o[0] + l, o[0] + l, o[0], o[0]], # x coordinate of points in upper surface
[o[0], o[0] + l, o[0] + l, o[0], o[0]], # x coordinate of points in outside surface
[o[0], o[0] + l, o[0] + l, o[0], o[0]]] # x coordinate of points in inside surface
y = [[o[1], o[1], o[1] + w, o[1] + w, o[1]], # y coordinate of points in bottom surface
[o[1], o[1], o[1] + w, o[1] + w, o[1]], # y coordinate of points in upper surface
[o[1], o[1], o[1], o[1], o[1]], # y coordinate of points in outside surface
[o[1] + w, o[1] + w, o[1] + w, o[1] + w, o[1] + w]] # y coordinate of points in inside surface
z = [[o[2], o[2], o[2], o[2], o[2]], # z coordinate of points in bottom surface
[o[2] + h, o[2] + h, o[2] + h, o[2] + h, o[2] + h], # z coordinate of points in upper surface
[o[2], o[2], o[2] + h, o[2] + h, o[2]], # z coordinate of points in outside surface
[o[2], o[2], o[2] + h, o[2] + h, o[2]]] # z coordinate of points in inside surface
return x, y, z
def plotCubeAt(pos=(0,0,0), c="b", alpha=0.1, ax=None):
# Plotting N cube elements at position pos
if ax !=None:
X, Y, Z = cuboid_data( (pos[0],pos[1],pos[2]) )
ax.plot_surface(X, Y, Z, color=c, rstride=1, cstride=1, alpha=0.1)
def plotMatrix(ax, x, y, z, data, cmap="jet", cax=None, alpha=0.1):
# plot a Matrix
norm = matplotlib.colors.Normalize(vmin=data.min(), vmax=data.max())
colors = lambda i,j,k : matplotlib.cm.ScalarMappable(norm=norm,cmap = cmap).to_rgba(data[i,j,k])
for i, xi in enumerate(x):
for j, yi in enumerate(y):
for k, zi, in enumerate(z):
plotCubeAt(pos=(xi, yi, zi), c=colors(i,j,k), alpha=alpha, ax=ax)
if cax !=None:
cbar = matplotlib.colorbar.ColorbarBase(cax, cmap=cmap,
norm=norm,
orientation='vertical')
cbar.set_ticks(np.unique(data))
# set the colorbar transparent as well
cbar.solids.set(alpha=alpha)
if __name__ == '__main__':
# x and y and z coordinates
x = np.array(range(10))
y = np.array(range(10,15))
z = np.array(range(15,20))
data_value = np.random.randint(1,4, size=(len(x), len(y), len(z)) )
print data_value.shape
fig = plt.figure(figsize=(10,4))
ax = fig.add_axes([0.1, 0.1, 0.7, 0.8], projection='3d')
ax_cb = fig.add_axes([0.8, 0.3, 0.05, 0.45])
ax.set_aspect('equal')
plotMatrix(ax, x, y, z, data_value, cmap="jet", cax = ax_cb)
plt.savefig(__file__+".png")
plt.show()
我觉得这里很难看到任何东西,但这可能是一个品味问题,现在也希望能回答这个问题。
<小时/>
原始答案:
我似乎误解了这个问题。因此,以下内容不回答这个问题。目前我将其留在这里,以便将其他评论保留给其他人。
我认为plot_surface适合指定的任务。
基本上,您可以在3D中使用点X,Y,Z给出的形状绘制曲面,并使用data_values中的值对其进行着色,如下面的代码所示。
from mpl_toolkits.mplot3d import Axes3D
from matplotlib import cm
import matplotlib.pyplot as plt
import numpy as np
fig = plt.figure()
ax = fig.gca(projection='3d')
# as plot_surface needs 2D arrays as input
x = np.arange(10)
y = np.array(range(10,15))
# we make a meshgrid from the x,y data
X, Y = np.meshgrid(x, y)
Z = np.sin(np.sqrt(X**2 + Y**2))
# data_value shall be represented by color
data_value = np.random.rand(len(y), len(x))
# map the data to rgba values from a colormap
colors = cm.ScalarMappable(cmap = "viridis").to_rgba(data_value)
# plot_surface with points X,Y,Z and data_value as colors
surf = ax.plot_surface(X, Y, Z, rstride=1, cstride=1, facecolors=colors,
linewidth=0, antialiased=True)
plt.show()
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