import numpy as np
from sklearn.datasets import load_iris
iris = load_iris()
x = iris.data[:,1]
y = np.zeros(150) def initcenter(x,k): #初始聚类中心数组
return x[0:k].reshape(k) def nearest(kc,i): #数组中的值,与聚类中心最小距离所在类别的索引号
d = (abs(kc-i))
w = np.where(d == np.min(d))
return w[0][0] def xclassify(x,y,kc):
for i in range(x.shape[0]): #对数组的每个值进行分类,shape[0]读取矩阵第一维度的长度
y[i] = nearest(kc,x[i])
return y def kcmean(x,y,kc,k): #计算各聚类新均值
l = list(kc)
flag = False
for c in range(k):
print(c)
m = np.where(y == c)
n=np.mean(x[m])
if l[c] != n:
l[c] = n
flag = True #聚类中心发生变化
print(l,flag)
return (np.array(l),flag) k = 3
kc = initcenter(x,k) flag = True
print(x,y,kc,flag) #判断聚类中心和目标函数的值是否发生改变,若不变,则输出结果,若改变,则返回2
while flag:
y = xclassify(x,y,kc)
kc, flag = kcmean(x,y,kc,k)
print(y,kc,type(kc)) print(x,y)
import matplotlib.pyplot as plt
plt.scatter(x,x,c=y,s=50,cmap="rainbow");
plt.show()
x=np.random.randint(1,100,[20,1]) y=np.zeros(20) k=3 def initcenter(x,k): return x[:k] def nearest(kc,i): d = (abs(kc - i)) w = np.where(d ==np.min(d)) return w [0] [0] kc = initcenter(x,k) nearest(kc,14)
for i in range(x.shape[0]):
print(nearest(kc,x[i]))
for i in range(x.shape[0]):
y[i] = nearest(kc,x[i])
print(y)
for i in range(x.shape[0]):
y[i]=nearest(kc,x[i])
print(y)
def initcenter(x,k):
return x[:k] def nearest(kc, i):
d = (abs(kc - 1))
w= np.where(d == np.min(d))
return w[0][0] def xclassify(x,y,kc):
for i in range(x.shape[0]):
y[i] = nearest(kc,x[i])
return y kc = initcenter(x,k)
nearest(kc,93)
m = np.where(y == 0)
np.mean(x[m])
kc[0]=24
flag = True
import numpy as np
from sklearn.datasets import load_iris
iris = load_iris()
x = iris.data[:,1]
y = np.zeros(150) def nearest(kc,i): #初始聚类中心数组
return x[0:k] def nearest(kc,i): #数组中的值,与聚类中心最小距离所在类别的索引号
d = (abs(kc - i))
w = np.where(d == np.min(d))
return w[0][0] def kcmean(x, y, kc, k): #计算各聚类新均值
l =list(kc)
flag = False
for c in range(k):
m = np.where(y == c)
if m[0].shape != (0,):
n = np.mean(x[m])
if l[c] != n:
l[c] = n
flag = True #聚类中心发生改变
return (np.array(1),flag) def xclassify(x,y,kc):
for i in range(x.shape[0]): #对数组的每个值分类
y[i] = nearest(kc,x[i])
return y k = 3
kc = initcenter(x,k) falg = True
print(x, y, kc, flag)
while flag:
y = xclassify(x, y, kc)
xc, flag = kcmean(x, y, kc, k) print(y,kc)
import matplotlib.pyplot as plt
plt.scatter(x, x, c=y, s=50, cmap='rainbow',marker='p',alpha=0.5);
plt.show()
from sklearn.cluster import KMeans
import numpy as np
from sklearn.datasets import load_iris
import matplotlib.pyplot as plt
data = load_iris()
iris = data.data
petal_len = iris
print(petal_len)
k_means = KMeans(n_clusters=3) #三个聚类中心
result = k_means.fit(petal_len) #Kmeans自动分类
kc = result.cluster_centers_ #自动分类后的聚类中心
y_means = k_means.predict(petal_len) #预测Y值
plt.scatter(petal_len[:,0],petal_len[:,2],c=y_means, marker='p',cmap='rainbow')
plt.show()