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#! /usr/bin/python
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.mlab as mlab
import sys
import os
import scipy
import matplotlib as mpl
mpl.rcParams['font.size'] = 8
mpl.rcParams['lines.linewidth'] = 0.5
mpl.rcParams['figure.figsize'] = 6,5
mpl.rcParams['legend.fontsize'] = 8
mpl.rcParams['axes.linewidth'] = 0.8
out_dir = sys.argv[1]
#limbs distribution
plt.figure()
data = np.loadtxt("../limbs-avg-zdiff/data.csv",delimiter=",")
data = data[#(data[:,1] == 25)
((data != -1).all(1))
& (data[:,4]>2)
& (data[:,4]<3)]
data = data[:,7:]*100
mean = data.mean(0)
var = data.std(0)
for i in range(len(mean)):
ax = plt.subplot(2,5,i+1)
n,b,p = plt.hist(data[:,i],bins=100,normed=1,linewidth=0)
plt.plot(b,mlab.normpdf(b,mean[i],var[i]))
plt.savefig(os.path.join(out_dir,"limbs.pdf"),bbox_inches="tight",pad_inches=0.05)
#frames distribution
fig = plt.figure(figsize=(6,4))
x = np.loadtxt("frames.txt",usecols=(0,))
y = range(1,len(x)+1)
width=0.8
plt.bar(y,x/x.sum()*100,width=width)
plt.xlim(0.8,26)
plt.xticks([i+width/2. for i in range(1,len(x),5)], range(1,len(x),5))
plt.xlabel("Individual")
plt.ylabel("Frame ratio [%]")
plt.ylim(0,17)
ax = plt.gca()
plt.savefig(os.path.join(out_dir,"frames.pdf"),bbox_inches="tight",pad_inches=0.05)
l = ["3","5","10","all"]
#10-fold, naive
plt.figure()
for i in l:
x,y = np.loadtxt(i+"_nb_off.mat",unpack=True)
plt.plot(100*x,100*y,label="$n_p=$ "+i)
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"offline-nb.pdf"),bbox_inches="tight",pad_inches=0.05)
#10-fold, SHT
plt.figure()
for i in l:
x,y = np.loadtxt(i+"_sht_off.mat",unpack=True)
plt.plot(100*x,100*y,label="$n_p=$ "+i)
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="lower left")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"offline-sht.pdf"),bbox_inches="tight",pad_inches=0.05)
#online,NB
plt.figure()
for i in l:
x,y = np.loadtxt(i+"_nb_on.mat",unpack=True)
plt.plot(100*x,100*y,label="$n_p=$ "+i)
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"online-nb.pdf"),bbox_inches="tight",pad_inches=0.05)
#online,SHT
plt.figure()
for i in l:
x,y = np.loadtxt(i+"_sht_on.mat",unpack=True)
plt.plot(100*x,100*y,label="$n_p=$ "+i)
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"online-sht.pdf"),bbox_inches="tight",pad_inches=0.05)
#face
plt.figure()
x,y = np.loadtxt("all_nb_off.mat",unpack=True)
a,b = np.loadtxt("face.csv",delimiter=",", unpack=True)
plt.plot(100*x,100*y,label="Skeleton")
plt.plot(100*a,100*b,label="Face")
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"face.pdf"),bbox_inches="tight",pad_inches=0.05)
#back
plt.figure()
x,y = np.loadtxt("back_all_sht_on.mat",unpack=True)
a,b = np.loadtxt("all_sht_on.mat",unpack=True)
c,d = np.loadtxt("front_back_all_sht.mat",unpack=True)
plt.plot(100*a,100*b,label="Train/test toward")
plt.plot(100*x,100*y,label="Train/test away")
plt.plot(100*c,100*d,label="Train toward test away")
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"back.pdf"),bbox_inches="tight",pad_inches=0.05)
#variance-reduction
plt.figure()
x,y = np.loadtxt("half-var-all_sht_on.mat",unpack=True)
a,b = np.loadtxt("all_sht_on.mat",unpack=True)
plt.plot(100*x,100*y,label="Reduced noise")
plt.plot(100*a,100*b,label="Original noise")
plt.xlabel("Recall [%]")
plt.ylabel("Precision [%]")
plt.legend(loc="best")
plt.axis([0,100,50,100])
plt.savefig(os.path.join(out_dir,"var.pdf"),bbox_inches="tight",pad_inches=0.05)
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