python中多进程读图提取特征存npy的示例分析-创新互联
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import multiprocessing import os, time, random import numpy as np import cv2 import os import sys from time import ctime import tensorflow as tf image_dir = r"D:/sxl/处理图片/汉字分类/train10/" #图像文件夹路径 data_type = 'test' save_path = r'E:/sxl_Programs/Python/CNN/npy/' #存储路径 data_name = 'Img10' #npy文件名 char_set = np.array(os.listdir(image_dir)) #文件夹名称列表 np.save(save_path+'ImgShuZi10.npy',char_set) #文件夹名称列表 char_set_n = len(char_set) #文件夹列表长度 read_process_n = 1 #进程数 repate_n = 4 #随机移动次数 data_size = 1000000 #1个npy大小 shuffled = True #是否打乱 #可以读取带中文路径的图 def cv_imread(file_path,type=0): cv_img=cv2.imdecode(np.fromfile(file_path,dtype=np.uint8),-1) # print(file_path) # print(cv_img.shape) # print(len(cv_img.shape)) if(type==0): if(len(cv_img.shape)==3): cv_img = cv2.cvtColor(cv_img, cv2.COLOR_BGR2GRAY) return cv_img #多个数组按同一规则打乱数据 def ShuffledData(features,labels): ''' @description:随机打乱数据与标签,但保持数据与标签一一对应 ''' permutation = np.random.permutation(features.shape[0]) shuffled_features = features[permutation,:] #多维 shuffled_labels = labels[permutation] #1维 return shuffled_features,shuffled_labels #函数功能:简单网格 #函数要求:1.无关图像大小;2.输入图像默认为灰度图;3.参数只有输入图像 #返回数据:1x64*64维特征 def GetFeature(image): #图像大小归一化 image = cv2.resize(image,(64,64)) img_h = image.shape[0] img_w = image.shape[1] #定义特征向量 feature = np.zeros(img_h*img_w,dtype=np.int16) for h in range(img_h): for w in range(img_w): feature[h*img_h+w] = image[h,w] return feature # 写数据进程执行的代码: def read_image_to_queue(queue): print('Process to write: %s' % os.getpid()) for j,dirname in enumerate(char_set): # dirname 是文件夹名称 label = np.where(char_set==dirname)[0][0] #文件夹名称对应的下标序号 print('序号:'+str(j),'读 '+dirname+' 文件夹...时间:',ctime() ) for parent,_,filenames in os.walk(os.path.join(image_dir,dirname)): for filename in filenames: if(filename[-4:]!='.jpg'): continue image = cv_imread(os.path.join(parent,filename),0) # cv2.imshow(dirname,image) # cv2.waitKey(0) queue.put((image,label)) for i in range(read_process_n): queue.put((None,-1)) print('读图结束!') return True # 读数据进程执行的代码: def extract_feature(queue,lock,count): ''' @description:从队列中取出图片进行特征提取 @queue:先进先出队列 lock:锁,在计数时上锁,防止冲突 count:计数 ''' print('Process %s start reading...' % os.getpid()) global data_n features = [] #存放提取到的特征 labels = [] #存放标签 flag = True #标志着进程是否结束 while flag: image,label = queue.get() #从队列中获取图像和标签 if len(features) >= data_size or label == -1: #特征数组的长度大于指定长度,则开始存储 array_features = np.array(features) #转换成数组 array_labels = np.array(labels) array_features,array_labels = ShuffledData(array_features,array_labels) #打乱数据 lock.acquire() # 锁开始 # 拆分数据为训练集,测试集 split_x = int(array_features.shape[0] * 0.8) train_data, test_data = np.split(array_features, [split_x], axis=0) # 拆分特征数据集 train_labels, test_labels = np.split(array_labels, [split_x], axis=0) # 拆分标签数据集 count.value += 1 #下标计数加1 str_features_name_train = data_name+'_features_train_'+str(count.value)+'.npy' str_labels_name_train = data_name+'_labels_train_'+str(count.value)+'.npy' str_features_name_test = data_name+'_features_test_'+str(count.value)+'.npy' str_labels_name_test = data_name+'_labels_test_'+str(count.value)+'.npy' lock.release() # 锁释放 np.save(save_path+str_features_name_train,train_data) np.save(save_path+str_labels_name_train,train_labels) np.save(save_path+str_features_name_test,test_data) np.save(save_path+str_labels_name_test,test_labels) print(os.getpid(),'save:',str_features_name_train) print(os.getpid(),'save:',str_labels_name_train) print(os.getpid(),'save:',str_features_name_test) print(os.getpid(),'save:',str_labels_name_test) features.clear() labels.clear() if label == -1: break # 获取特征向量,传入灰度图 feature = GetFeature(image) features.append(feature) labels.append(label) # # 随机移动4次 # for itime in range(repate_n): # rMovedImage = randomMoveImage(image) # feature = SimpleGridFeature(rMovedImage) # 简单网格 # features.append(feature) # labels.append(label) print('Process %s is done!' % os.getpid()) if __name__=='__main__': time_start = time.time() # 开始计时 # 父进程创建Queue,并传给各个子进程: image_queue = multiprocessing.Queue(maxsize=1000) #队列 lock = multiprocessing.Lock() #锁 count = multiprocessing.Value('i',0) #计数 #将图写入队列进程 write_sub_process = multiprocessing.Process(target=read_image_to_queue, args=(image_queue,)) read_sub_processes = [] #读图子线程 for i in range(read_process_n): read_sub_processes.append( multiprocessing.Process(target=extract_feature, args=(image_queue,lock,count)) ) # 启动子进程pw,写入: write_sub_process.start() # 启动子进程pr,读取: for p in read_sub_processes: p.start() # 等待进程结束: write_sub_process.join() for p in read_sub_processes: p.join() time_end=time.time() time_h=(time_end-time_start)/3600 print('用时:%.6f 小时'% time_h) print ("读图提取特征存npy,运行结束!")
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