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服务器之家 - 脚本之家 - Python - python调用虹软2.0第三版的具体使用

python调用虹软2.0第三版的具体使用

2021-06-01 00:27隔壁的王 Python

这篇文章主要介绍了python调用虹软2.0第三版的具体使用,小编觉得挺不错的,现在分享给大家,也给大家做个参考。一起跟随小编过来看看吧

这一版,对虹软的功能进行了一些封装,添加了人脸特征比对,比对结果保存到文件,和从文件提取特征进行比对,大体功能基本都已经实现,可以进行下一步的应用开发了

face_class.py

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from ctypes import *
#人脸框
class MRECT(Structure):
  _fields_=[(u'left1',c_int32),(u'top1',c_int32),(u'right1',c_int32),(u'bottom1',c_int32)]
#版本信息   版本号,构建日期,版权说明
class ASF_VERSION(Structure):
  _fields_=[('Version',c_char_p),('BuildDate',c_char_p),('CopyRight',c_char_p)]
#单人人脸信息 人脸狂,人脸角度
class ASF_SingleFaceInfo(Structure):
  _fields_=[('faceRect',MRECT),('faceOrient',c_int32)]
#多人人脸信息 人脸框数组,人脸角度数组,人脸数
class ASF_MultiFaceInfo(Structure):
  # _fields_=[('faceRect',POINTER(MRECT)),('faceOrient',POINTER( c_int32)),('faceNum',c_int32)]
  _fields_=[(u'faceRect',POINTER(MRECT)),(u'faceOrient',POINTER(c_int32)),(u'faceNum', c_int32)]
  # _fields_=[(u'faceRect',MRECT*50),(u'faceOrient',c_int32*50),(u'faceNum',c_int32)]
#人脸特征 人脸特征,人脸特征长度
class ASF_FaceFeature(Structure):
  _fields_=[('feature',c_void_p),('featureSize',c_int32)]
#自定义图片类
class IM:
  def __init__(self):
    self.filepath=None
    self.date=None
    self.width=0
    self.height=0

face_dll.py

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from ctypes import *
from face_class import *
wuyongdll=CDLL('d:\python\Test\Face\lib\X64\libarcsoft_face.dll')
dll=CDLL('d:\python\Test\Face\lib\X64\libarcsoft_face_engine.dll')
dllc=cdll.msvcrt
ASF_DETECT_MODE_VIDEO = 0x00000000
ASF_DETECT_MODE_IMAGE = 0xFFFFFFFF
c_ubyte_p = POINTER(c_ubyte)
#激活
jihuo=dll.ASFActivation
jihuo.restype = c_int32
jihuo.argtypes = (c_char_p,c_char_p)
#初始化
chushihua=dll.ASFInitEngine
chushihua.restype=c_int32
chushihua.argtypes=(c_long,c_int32,c_int32,c_int32,c_int32,POINTER(c_void_p))
#人脸识别
shibie=dll.ASFDetectFaces
shibie.restype=c_int32
shibie.argtypes=(c_void_p,c_int32,c_int32,c_int32,POINTER(c_ubyte),POINTER(ASF_MultiFaceInfo))
#特征提取
tezheng=dll.ASFFaceFeatureExtract
tezheng.restype=c_int32
tezheng.argtypes=(c_void_p,c_int32,c_int32,c_int32,POINTER(c_ubyte),POINTER(ASF_SingleFaceInfo),POINTER(ASF_FaceFeature))
 
#特征比对
bidui=dll.ASFFaceFeatureCompare
bidui.restype=c_int32
bidui.argtypes=(c_void_p,POINTER(ASF_FaceFeature),POINTER(ASF_FaceFeature),POINTER(c_float))
malloc = dllc.malloc
free = dllc.free
memcpy = dllc.memcpy
 
malloc.restype = c_void_p
malloc.argtypes = (c_size_t, )
free.restype = None
free.argtypes = (c_void_p, )
memcpy.restype = c_void_p
memcpy.argtypes = (c_void_p, c_void_p, c_size_t)

face_function.py

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import face_dll,face_class
from ctypes import *
import cv2
from io import BytesIO
# from Main import *
Handle=c_void_p()
c_ubyte_p = POINTER(c_ubyte)
# 激活函数
def JH(appkey,sdkey):
  ret=face_dll.jihuo(appkey,sdkey)
  return ret
# 初始化函数
def CSH():# 1:视频或图片模式,2角度,3最小人脸尺寸推荐16,4最多人脸数最大50,5功能,6返回激活句柄
  ret=face_dll.chushihua(0xFFFFFFFF,0x1,16,50,5,byref(Handle))
  # Main.Handle=Handle
  return ret,Handle
# cv2记载图片并处理
def LoadImg(im):
  img=cv2.imread(im.filepath)
  sp=img.shape
  img=cv2.resize(img,(sp[1]//4*4,sp[0]//4*4))
  sp=img.shape
  im.data=img
  im.width=sp[1]
  im.height=sp[0]
  return im
def RLSB(im):
  faces=face_class.ASF_MultiFaceInfo()
  img=im.data
  imgby=bytes(im.data)
  imgcuby=cast(imgby,c_ubyte_p)
  ret=face_dll.shibie(Handle,im.width,im.height,0x201,imgcuby,byref(faces))
  return ret,faces
# 显示人脸识别图片
def showimg(im,faces):
  for i in range(0,faces.faceNum):
    ra=faces.faceRect[i]
    cv2.rectangle(im.data,(ra.left1,ra.top1),(ra.right1,ra.bottom1),(255,0,0,),2)
  cv2.imshow('faces',im.data)
  cv2.waitKey(0)
#提取人脸特征
def RLTZ(im,ft):
  detectedFaces=face_class.ASF_FaceFeature()
  img=im.data
  imgby=bytes(im.data)
  imgcuby=cast(imgby,c_ubyte_p)
  ret=face_dll.tezheng(Handle,im.width,im.height,0x201,imgcuby,ft,byref(detectedFaces))
  if ret==0:
    retz=face_class.ASF_FaceFeature()
    retz.featureSize=detectedFaces.featureSize
    #必须操作内存来保留特征值,因为c++会在过程结束后自动释放内存
    retz.feature=face_dll.malloc(detectedFaces.featureSize)
    face_dll.memcpy(retz.feature,detectedFaces.feature,detectedFaces.featureSize)
    # print('提取特征成功:',detectedFaces.featureSize,mem)
    return ret,retz
  else:
    return ret
#特征值比对,返回比对结果
def BD(tz1,tz2):
  jg=c_float()
  ret=face_dll.bidui(Handle,tz1,tz2,byref(jg))
  return ret,jg.value
#单人特征写入文件
def writeFTFile(feature,filepath):
  f = BytesIO(string_at(feature.feature,feature.featureSize))
  a=open(filepath,'wb')
  a.write(f.getvalue())
  a.close()
#从多人中提取单人数据
def getsingleface(singleface,index):
  ft=face_class.ASF_SingleFaceInfo()
  ra=singleface.faceRect[index]
  ft.faceRect.left1=ra.left1
  ft.faceRect.right1=ra.right1
  ft.faceRect.top1=ra.top1
  ft.faceRect.bottom1=ra.bottom1
  ft.faceOrient=singleface.faceOrient[index]
  return ft
#从文件获取特征值
def ftfromfile(filepath):
  fas=face_class.ASF_FaceFeature()
  f=open('d:/1.dat','rb')
  b=f.read()
  f.close()
  fas.featureSize=b.__len__()
  fas.feature=face_dll.malloc(fas.featureSize)
  face_dll.memcpy(fas.feature,b,fas.featureSize)
  return fas

Main1.py

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import face_dll,face_class
from ctypes import *
import cv2
import face_function as fun
Appkey=b''
SDKey=b''
# 激活
ret=fun.JH(Appkey,SDKey)
if ret==0 or ret==90114:
  print('激活成功:',ret)
else:
  print('激活失败:',ret)
  pass
# 初始化
ret=fun.CSH()
if ret[0]==0:
  print('初始化成功:',ret,'句柄',fun.Handle)
else:
  print('初始化失败:',ret)
# 加载图片
im=face_class.IM()
im.filepath='e:/2.jpg'
im=fun.LoadImg(im)
print(im.filepath,im.width,im.height)
# cv2.imshow('im',im.data)
# cv2.waitKey(0)
print('加载图片完成:',im)
 
ret=fun.RLSB(im)
if ret[0]==-1:
  print('人脸识别失败:',ret)
  pass
else:
  print('人脸识别成功:',ret)
# 显示人脸照片
# showimg(im,ret)
#提取单人1特征
ft=fun.getsingleface(ret[1],0)
tz1=fun.RLTZ(im,ft)[1]
#提取单人2特征
ft=fun.getsingleface(ret[1],1)
tz2=fun.RLTZ(im,ft)[1]
#特征保存到文件
# fun.writeFTFile(tz1,'d:/1.dat')
# fun.writeFTFile(tz2,'d:/2.dat')
#文件获取特征
tz=fun.ftfromfile('d:/1.dat')
jg=fun.BD(tz1,tz)
print(jg[1])
#结果比对
# jg=fun.BD(tz1,tz2)
# print(jg[1])

以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持服务器之家。

原文链接:https://www.cnblogs.com/wxt51/p/10125460.html

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