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.gitignore vendored Normal file
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ThresholdSimulation.py Normal file
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import sys
import os
import cv2
import numpy as np
from PyQt5 import QtCore, QtGui, QtWidgets
class ImageViewer(QtWidgets.QWidget):
def __init__(self, folder_path):
super().__init__()
self.folder_path = folder_path
self.image_files = [f for f in os.listdir(folder_path) if f.lower().endswith('.bmp')]
self.image_files.sort()
self.current_index = 0
self.threshold_g = 50 # 初始 T_g 值,根据需要调整
self.threshold_diff = 10 # 初始 T 值,根据需要调整
# 设置UI
self.initUI()
if self.image_files:
self.loadImage(self.current_index)
def initUI(self):
# 主布局
main_layout = QtWidgets.QHBoxLayout(self)
# 侧边栏
self.sidebar = QtWidgets.QListWidget()
self.sidebar.addItems(self.image_files)
self.sidebar.currentRowChanged.connect(self.sidebarSelectionChanged)
main_layout.addWidget(self.sidebar, 1)
# 右侧区域
right_layout = QtWidgets.QVBoxLayout()
# 图片显示区域
self.original_label = QtWidgets.QLabel("Original Image")
self.masked_label = QtWidgets.QLabel("Masked Image")
# 使用垂直布局上下显示两张图片
images_layout = QtWidgets.QVBoxLayout()
images_layout.addWidget(self.original_label)
images_layout.addWidget(self.masked_label)
right_layout.addLayout(images_layout, 8)
# 阈值调整区域
threshold_layout = QtWidgets.QGridLayout()
# T_g 调整
self.slider_g = QtWidgets.QSlider(QtCore.Qt.Horizontal)
self.slider_g.setMinimum(0)
self.slider_g.setMaximum(255)
self.slider_g.setValue(self.threshold_g)
self.slider_g.valueChanged.connect(self.sliderGChanged)
self.input_g = QtWidgets.QLineEdit(str(self.threshold_g))
self.input_g.setFixedWidth(50)
self.input_g.returnPressed.connect(self.inputGChanged)
threshold_layout.addWidget(QtWidgets.QLabel("T_g (G > T_g):"), 0, 0)
threshold_layout.addWidget(self.slider_g, 0, 1)
threshold_layout.addWidget(self.input_g, 0, 2)
# T 调整
self.slider_diff = QtWidgets.QSlider(QtCore.Qt.Horizontal)
self.slider_diff.setMinimum(-255)
self.slider_diff.setMaximum(255)
self.slider_diff.setValue(self.threshold_diff)
self.slider_diff.valueChanged.connect(self.sliderDiffChanged)
self.input_diff = QtWidgets.QLineEdit(str(self.threshold_diff))
self.input_diff.setFixedWidth(50)
self.input_diff.returnPressed.connect(self.inputDiffChanged)
threshold_layout.addWidget(QtWidgets.QLabel("T (G - R > T):"), 1, 0)
threshold_layout.addWidget(self.slider_diff, 1, 1)
threshold_layout.addWidget(self.input_diff, 1, 2)
right_layout.addLayout(threshold_layout, 2)
# 按钮
button_layout = QtWidgets.QHBoxLayout()
self.prev_button = QtWidgets.QPushButton("Previous (P)")
self.next_button = QtWidgets.QPushButton("Next (N)")
self.prev_button.clicked.connect(self.showPreviousImage)
self.next_button.clicked.connect(self.showNextImage)
button_layout.addWidget(self.prev_button)
button_layout.addWidget(self.next_button)
right_layout.addLayout(button_layout, 1)
main_layout.addLayout(right_layout, 4)
self.setLayout(main_layout)
self.setWindowTitle("BMP Image Viewer with Mask")
self.resize(1600, 900)
def loadImage(self, index):
if index < 0 or index >= len(self.image_files):
return
image_path = os.path.join(self.folder_path, self.image_files[index])
image = cv2.imread(image_path)
if image is None:
QtWidgets.QMessageBox.warning(self, "Error", f"无法加载图片: {image_path}")
return
# 调整大小以适应窗口
image = self.resizeImage(image, max_width=800, max_height=800)
self.original_image = image.copy()
self.displayImage(self.original_label, self.original_image)
# 生成掩膜并显示
mask = self.generateMask(image, self.threshold_g, self.threshold_diff)
masked_image = self.applyMask(image, mask)
self.masked_image = masked_image
self.displayImage(self.masked_label, self.masked_image)
# 更新侧边栏选择
self.sidebar.blockSignals(True)
self.sidebar.setCurrentRow(index)
self.sidebar.blockSignals(False)
def resizeImage(self, image, max_width=800, max_height=800):
height, width = image.shape[:2]
scaling_factor = min(max_width / width, max_height / height, 1)
new_size = (int(width * scaling_factor), int(height * scaling_factor))
resized_image = cv2.resize(image, new_size, interpolation=cv2.INTER_AREA)
return resized_image
def displayImage(self, label, image):
# 转换颜色格式从 BGR 到 RGB
rgb_image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB)
height, width, channel = rgb_image.shape
bytes_per_line = 3 * width
q_image = QtGui.QImage(rgb_image.data, width, height, bytes_per_line, QtGui.QImage.Format_RGB888)
pixmap = QtGui.QPixmap.fromImage(q_image)
label.setPixmap(pixmap)
label.setAlignment(QtCore.Qt.AlignCenter)
def generateMask(self, image, threshold_g, threshold_diff):
# 分离 G 和 R 通道
B, G, R = cv2.split(image)
# 生成掩膜G > T_g 且 (G - R) > T
mask = (G > threshold_g) & ((G.astype(int) - R.astype(int)) > threshold_diff)
return mask
def applyMask(self, image, mask):
# 创建一个红色的掩膜
overlay = image.copy()
overlay[mask] = [0, 0, 255] # BGR格式红色
# 透明度混合
alpha = 0.5
cv2.addWeighted(overlay, alpha, image, 1 - alpha, 0, image)
return image
def showNextImage(self):
if self.current_index < len(self.image_files) - 1:
self.current_index += 1
self.loadImage(self.current_index)
def showPreviousImage(self):
if self.current_index > 0:
self.current_index -= 1
self.loadImage(self.current_index)
def sliderGChanged(self, value):
self.threshold_g = value
self.input_g.setText(str(self.threshold_g))
self.updateMask()
def sliderDiffChanged(self, value):
self.threshold_diff = value
self.input_diff.setText(str(self.threshold_diff))
self.updateMask()
def inputGChanged(self):
try:
value = int(self.input_g.text())
if 0 <= value <= 255:
self.threshold_g = value
self.slider_g.setValue(value)
self.updateMask()
else:
raise ValueError
except ValueError:
QtWidgets.QMessageBox.warning(self, "Invalid Input", "T_g 必须是0到255之间的整数。")
self.input_g.setText(str(self.threshold_g))
def inputDiffChanged(self):
try:
value = int(self.input_diff.text())
if -255 <= value <= 255:
self.threshold_diff = value
self.slider_diff.setValue(value)
self.updateMask()
else:
raise ValueError
except ValueError:
QtWidgets.QMessageBox.warning(self, "Invalid Input", "T 必须是-255到255之间的整数。")
self.input_diff.setText(str(self.threshold_diff))
def updateMask(self):
if hasattr(self, 'original_image'):
mask = self.generateMask(self.original_image, self.threshold_g, self.threshold_diff)
masked_image = self.applyMask(self.original_image.copy(), mask)
self.masked_image = masked_image
self.displayImage(self.masked_label, self.masked_image)
def sidebarSelectionChanged(self, index):
if 0 <= index < len(self.image_files):
self.current_index = index
self.loadImage(self.current_index)
def keyPressEvent(self, event):
if event.key() == QtCore.Qt.Key_N:
self.showNextImage()
elif event.key() == QtCore.Qt.Key_P:
self.showPreviousImage()
else:
super().keyPressEvent(event)
def main():
app = QtWidgets.QApplication(sys.argv)
# 这里你可以修改为你想要读取的文件夹路径
folder_path = QtWidgets.QFileDialog.getExistingDirectory(None, "选择包含 BMP 图片的文件夹")
if not folder_path:
sys.exit()
viewer = ImageViewer(folder_path)
viewer.show()
sys.exit(app.exec_())
if __name__ == '__main__':
main()

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valve_test.py Normal file
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import socket
import time
import cv2
import numpy as np
class ValveTest:
def __init__(self, host=None, port=13452, column_num=64):
self.column_num = column_num
self.increase_modes = ['测下一个', '重复测试']
self.last_cmd = None
self.increase_mode = 0
self.reminder = None
self.update_reminder()
self.s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # 创建 socket 对象
self.s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
host = socket.gethostname() if host is None else host # 获取本地主机名
print(f"Service Address {host}, {port}.")
self.s.bind((host, port)) # 绑定端口
self.s.listen(5) # 等待客户端连接
self.c = None
def update_reminder(self):
self.reminder = f"""======================================================================================
给我个指令😉😉😉
a. 开始命令 st. e. 设置 光谱(a)相机 的延时格式 e,500
b. 停止命令 sp. f. 设置 彩色(b)相机 的延时, 格式 f,500
c. 设置光谱相机分频系数,4的倍数且>=8, 格式 c,8 g. 发个da和db完全重叠的mask
d. 阀板的脉冲分频系数,>=2即可 h. 发个da和db呈现出X形的mask
m. 模式切换测下一个喷阀还是重发
你给我个小于{self.column_num}的数字我就测试对应的喷阀如果已经测试过一个可以直接回车{self.increase_modes[self.increase_mode]}
给q指令我就退出
======================================================================================\n"""
def run(self):
print("我在等连接...")
self.c, addr = self.s.accept() # 建立客户端连接
print('和它的链接建立成功了:', addr)
self.c.settimeout(0.1)
while True:
data = ''
try:
data = self.c.recv(1024)
except Exception as e:
print(f"===================================================================")
if len(data) > 0:
print("receive data!!!")
print(data)
value = input(self.reminder)
if value == 'q':
print("好的,我退出啦")
self.s.close()
break
else:
self.process_cmd(value)
self.c.close() # 关闭连接
@staticmethod
def cmd_padding(cmd):
return b'\xAA' + cmd + b'\xFF\xFF\xBB'
@staticmethod
def param_cmd_parser(cmd, default_value, checker=None):
try:
value = int(cmd.split(',')[-1])
except:
print(f'你给的值不对啊,我先给你弄个{default_value}')
value = default_value
if checker is not None:
if not checker(value):
return None
return value
def process_cmd(self, value):
if value == 'a':
# a.开始命令
cmd = b'\x00\x03' + 'st'.encode('ascii') + b'\xFF'
elif value == 'b':
# b.停止命令
cmd = b'\x00\x03' + 'sp'.encode('ascii') + b'\xFF'
elif value.startswith('c'):
# c. 设置光谱相机分频得是4的倍数而且>=8格式c,8
checker = lambda x: (x % 4 == 0) and (x >= 8)
value = self.param_cmd_parser(value, default_value=8, checker=checker)
if value is None:
print("值需要是4的倍数且大于8")
return
cmd = b'\x00\x0a' + 'sc'.encode('ascii') + f"{value:08d}".encode('ascii')
elif value.startswith('d'):
# d. 阀板的脉冲分频系数,>=2即可
checker = lambda x: x >= 2
value = self.param_cmd_parser(value, default_value=2, checker=checker)
if value is None:
print("你得大于等于2")
return
cmd = b'\x00\x0a' + 'sv'.encode('ascii') + f"{value:08d}".encode('ascii')
elif value.startswith('e'):
# e. 设置 光谱(a)相机 的延时,格式 e,500
checker = lambda x: (x >= 0)
value = self.param_cmd_parser(value, default_value=2, checker=checker)
if value is None:
print("你得大于等于0")
return
cmd = b'\x00\x0a' + 'sd'.encode('ascii') + f"{value:08d}".encode('ascii')
elif value.startswith('f'):
# f. 设置 RGB(b)相机 的延时,格式 e,500
checker = lambda x: (x >= 0)
value = self.param_cmd_parser(value, default_value=2, checker=checker)
if value is None:
print("你得大于等于0")
return
cmd = b'\x00\x0a' + 'sb'.encode('ascii') + f"{value:08d}".encode('ascii')
elif value == 'g':
# g.发个da和db完全重叠的mask
mask_a, mask_b = np.eye(self.column_num, dtype=np.uint8), np.eye(self.column_num, dtype=np.uint8)
mask_a, mask_b = [cv2.resize(mask, mask_size) for mask in [mask_a, mask_b]]
len_a, data_a = self.format_data(mask_a)
len_b, data_b = self.format_data(mask_b)
cmd = len_a + 'da'.encode('ascii') + data_a
self.send(cmd)
cmd = len_b + 'db'.encode('ascii') + data_b
elif value == 'h':
# h.发个da和db呈现出X形的mask
mask_a, mask_b = np.eye(self.column_num, dtype=np.uint8), np.eye(self.column_num, dtype=np.uint8).T
mask_a, mask_b = [cv2.resize(mask, mask_size) for mask in [mask_a, mask_b]]
len_a, data_a = self.format_data(mask_a)
len_b, data_b = self.format_data(mask_b)
cmd = len_a + 'da'.encode('ascii') + data_a
self.send(cmd)
cmd = len_b + 'db'.encode('ascii') + data_b
elif value == 'i':
# i. 完全模拟全流程
# a.开始命令
cmd = b'\x00\x03' + 'st'.encode('ascii') + b'\xFF'
self.send(cmd)
time.sleep(0.05)
mask_a, mask_b = np.eye(self.column_num, dtype=np.uint8), np.eye(self.column_num, dtype=np.uint8)
mask_a, mask_b = [cv2.resize(mask, mask_size) for mask in [mask_a, mask_b]]
len_a, data_a = self.format_data(mask_a)
len_b, data_b = self.format_data(mask_b)
cmd = len_a + 'da'.encode('ascii') + data_a
for i in range(1000):
for i in range(1):
self.send(cmd)
time.sleep(0.045)
# cmd = len_b + 'db'.encode('ascii') + data_b
elif value == 'm':
self.increase_mode = int(1 - self.increase_mode)
self.update_reminder()
print("模式切换")
return
elif value == '' and self.last_cmd is not None:
if self.increase_mode == 0:
self.last_cmd += 1
if self.last_cmd > 256:
self.last_cmd = 1
print(f'自动变化到 喷阀测试 {self.last_cmd}')
value = self.last_cmd
cmd = b'\x00\x0A' + 'te'.encode('ascii') + f"{value - 1:08d}".encode('ascii')
else:
try:
value = int(value)
except Exception as e:
print(e)
print(f"你给的指令: {value} 咋看都不对")
return
if (value <= self.column_num) and (value >= 1):
cmd = b'\x00\x0A' + 'te'.encode('ascii') + f"{value - 1:08d}".encode('ascii')
self.last_cmd = value
elif value == (self.column_num+1):
cmd = b'\x00\x0A' + 'te'.encode('ascii') + f"{value:08d}".encode('ascii')
print(f"恭喜你发现了这个隐藏的{self.column_num+1}号流水灯指令😝😝😝,好厉害。")
else:
print(f'你给的指令: {value} 值不对,我们有 {self.column_num} 个阀门, 范围是 [1, {self.column_num}],略大一个好像也可以')
return
self.send(cmd)
def send(self, cmd: bytes) -> None:
cmd = self.cmd_padding(cmd)
print("我要 send 这个了:")
print(cmd.hex())
try:
self.c.send(cmd)
except Exception as e:
print(f"发失败了, 这是我找到的错误信息:\n{e}")
return
print("发好了")
@staticmethod
def format_data(array_to_send: np.ndarray) -> (bytes, bytes):
data = np.packbits(array_to_send, axis=-1)
data = data.tobytes()
data_len = (len(data) + 2).to_bytes(2, 'big')
return data_len, data
class VirtualValve:
def __init__(self, host, port):
self.client = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # 声明socket类型同时生成链接对象
self.client.connect((host, port)) # 建立一个链接连接到本地的13452端口
def run(self):
while True:
# addr = client.accept()
# print '连接地址:', addr
data = self.client.recv(4096) # 接收一个信息,并指定接收的大小 为1024字节
print("原始报文:")
print(data.hex()) # 输出我接收的信息
if __name__ == '__main__':
import argparse
parser = argparse.ArgumentParser(description='阀门测程序')
parser.add_argument('-c', default=False, action='store_true', help='是否是开个客户端', required=False)
parser.add_argument('-m', default='192.168.10.8', help='指定master主机名')
parser.add_argument('-p', default=13452, help='指定端口')
parser.add_argument('-cnt', default=64, help='指定端口')
args = parser.parse_args()
mask_size = (512, args.cnt) # size of cv (Width, Height)
if args.c:
print("运行客户机")
virtual_valve = VirtualValve(host=args.m, port=args.p)
virtual_valve.run()
else:
print("运行主机")
valve_tester = ValveTest(host=args.m, port=args.p, column_num=args.cnt)
valve_tester.run()