import tkinter as tk from tkinter import filedialog, messagebox, Toplevel from PIL import Image, ImageTk import numpy as np import cv2 import os # 全局变量声明 img_path = "" # 用于存储图像路径 src = None # 用于存储已选择的图像 X = None # 用于存储第一张图像 Y = None # 用于存储第二张图像 img_label = None # 用于存储显示选择的图片的标签 edge = None # 用于存储当前处理后的图像 # 用于不同功能的Toplevel窗口 AffineWin = None TurnWin = None ArithWin = None def select_image(root): """ 选择图像并显示在主窗口中 """ global img_path, src, img_label, edge # 打开文件对话框选择图像文件 img_path = filedialog.askopenfilename(filetypes=[("Image files", "*.jpg;*.png;*.jpeg;*.bmp")]) if img_path: # 处理图像路径以确保反斜杠正确处理,并使用UTF-8编码处理中文路径 img_path_fixed = os.path.normpath(img_path) # 读取图像文件 src_temp = cv2.imdecode(np.fromfile(img_path_fixed, dtype=np.uint8), cv2.IMREAD_UNCHANGED) if src_temp is None: messagebox.showerror("错误", "无法读取图片,请选择有效的图片路径") return src = cv2.cvtColor(src_temp, cv2.COLOR_BGR2RGB) # 检查 img_label 是否存在且有效 if img_label is None or not img_label.winfo_exists(): img_label = tk.Label(root) img_label.pack(side=tk.TOP, pady=10) # 显示缩略图 img = Image.open(img_path) img.thumbnail((160, 160)) img_tk = ImageTk.PhotoImage(img) img_label.configure(image=img_tk) img_label.image = img_tk # 更新 edge 变量为 PIL.Image 对象,以便稍后保存 edge = Image.fromarray(src) else: messagebox.showerror("错误", "没有选择图片路径") def show_selected_image(root): """ 显示选定的图像 """ global img_label img_label = tk.Label(root) img_label.pack(side=tk.TOP, pady=10) img = Image.open(img_path) img.thumbnail((160, 160)) img_tk = ImageTk.PhotoImage(img) img_label.configure(image=img_tk) img_label.image = img_tk def changeSize(event, img, LabelPic): """ 根据窗口大小调整图像大小 """ img_aspect = img.shape[1] / img.shape[0] # 计算图像的宽高比 new_aspect = event.width / event.height # 计算窗口的新宽高比 if new_aspect > img_aspect: new_width = int(event.height * img_aspect) # 根据新高度计算新宽度 new_height = event.height # 使用新高度 else: new_width = event.width # 使用新宽度 new_height = int(event.width / img_aspect) # 根据新宽度计算新高度 resized_image = cv2.resize(img, (new_width, new_height)) # 调整图像大小 image1 = ImageTk.PhotoImage(Image.fromarray(resized_image)) LabelPic.image = image1 LabelPic['image'] = image1 def savefile(): """ 保存处理后的图像文件 """ global edge # 打开保存文件对话框 filename = filedialog.asksaveasfilename(defaultextension=".jpg", filetypes=[("JPEG files", "*.jpg"), ("PNG files", "*.png"), ("BMP files", "*.bmp")]) if not filename: return if edge is not None: try: edge.save(filename) messagebox.showinfo("保存成功", "图片保存成功!") except Exception as e: messagebox.showerror("保存失败", f"无法保存图片: {e}") else: messagebox.showerror("保存失败", "没有图像可保存") def affine_tra(root): """ 对图像进行仿射变换 """ global src, AffineWin, edge #判断是否已经选取图片 if src is None: messagebox.showerror("错误", "没有选择图片!") return rows, cols = src.shape[:2] # 获取图像的行和列 # 设置图像仿射变化矩阵 post1 = np.float32([[50, 50], [200, 50], [50, 200]]) post2 = np.float32([[10, 100], [200, 50], [100, 250]]) m = cv2.getAffineTransform(post1, post2) # 图像仿射变换 result = cv2.warpAffine(src, m, (cols, rows)) # 更新 edge 变量 edge = Image.fromarray(result) # 创建Toplevel窗口 try: if AffineWin: AffineWin.destroy() except Exception: print("NVM") finally: AffineWin = Toplevel(root) AffineWin.attributes('-topmost', True) AffineWin.geometry("360x300") AffineWin.resizable(True, True) AffineWin.title("仿射变换结果") # 显示图像 LabelPic = tk.Label(AffineWin, text="IMG", width=360, height=240) image = ImageTk.PhotoImage(Image.fromarray(result)) LabelPic.image = image LabelPic['image'] = image LabelPic.bind('', lambda event: changeSize(event, result, LabelPic)) LabelPic.pack(fill=tk.BOTH, expand=tk.YES) # 添加保存按钮 btn_save = tk.Button(AffineWin, text="保存", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=savefile) btn_save.pack(pady=10) def turn(root): """ 对图像进行翻转操作 """ global src, TurnWin, edge if src is None: messagebox.showerror("错误", "没有选择图片!") return # 水平镜像 horizontal = cv2.flip(src, 1) # 垂直镜像 vertical = cv2.flip(src, 0) # 对角镜像 cross = cv2.flip(src, -1) # 将三种翻转图像组合成一个图像进行显示 combined = np.hstack((horizontal, vertical, cross)) # 更新 edge 变量 edge = Image.fromarray(combined) # 创建Toplevel窗口 try: if TurnWin: TurnWin.destroy() except Exception as e: print("NVM") finally: TurnWin = Toplevel(root) TurnWin.attributes('-topmost', True) TurnWin.geometry("720x300") TurnWin.resizable(True, True) TurnWin.title("翻转结果") # 显示图像 LabelPic = tk.Label(TurnWin, text="IMG", width=720, height=240) image = ImageTk.PhotoImage(Image.fromarray(combined)) LabelPic.image = image LabelPic['image'] = image LabelPic.bind('', lambda event: changeSize(event, combined, LabelPic)) LabelPic.pack(fill=tk.BOTH, expand=tk.YES) # 添加保存按钮 btn_save = tk.Button(TurnWin, text="保存", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=savefile) btn_save.pack(pady=10) def arithmetic(root): """ 对图像进行算术变换操作 """ global src, X, Y, ArithWin, img_label_first, img_label_second, edge final = None # 用于存储最终的算术运算结果 def select_first_image(): """ 选择第一张图像 """ global X, img_label_first ArithWin.attributes('-topmost', True) # 设置窗口为最上层 img_path = filedialog.askopenfilename(filetypes=[("Image files", "*.jpg;*.png;*.bmp;*.jpeg")], parent=ArithWin) ArithWin.attributes('-topmost', False) # 恢复窗口最上层属性 if img_path: img_path_fixed = os.path.normpath(img_path) img_temp = cv2.imdecode(np.fromfile(img_path_fixed, dtype=np.uint8), cv2.IMREAD_UNCHANGED) if img_temp is None: messagebox.showerror("错误", "无法读取图片,请选择有效的图片路径") return image = cv2.cvtColor(img_temp, cv2.COLOR_BGR2RGB) # 转换颜色空间 img = Image.fromarray(image) img.thumbnail((100, 100)) # 缩略图 img_tk = ImageTk.PhotoImage(img) img_label_first.configure(image=img_tk) img_label_first.image = img_tk else: messagebox.showerror("错误", "没有选择图片路径") X = image.copy() def select_second_image(): """ 选择第二张图像 """ global Y, img_label_second ArithWin.attributes('-topmost', True) # 设置窗口为最上层 img_path = filedialog.askopenfilename(filetypes=[("Image files", "*.jpg;*.png;*.bmp;*.jpeg")], parent=ArithWin) ArithWin.attributes('-topmost', False) # 恢复窗口最上层属性 if img_path: img_path_fixed = os.path.normpath(img_path) img_temp = cv2.imdecode(np.fromfile(img_path_fixed, dtype=np.uint8), cv2.IMREAD_UNCHANGED) if img_temp is None: messagebox.showerror("错误", "无法读取图片,请选择有效的图片路径") return image = cv2.cvtColor(img_temp, cv2.COLOR_BGR2RGB) # 转换颜色空间 img = Image.fromarray(image) img.thumbnail((100, 100)) # 缩略图 img_tk = ImageTk.PhotoImage(img) img_label_second.configure(image=img_tk) img_label_second.image = img_tk else: messagebox.showerror("错误", "没有选择图片路径") Y = image.copy() def perform_operation(operation): """ 执行图像算术运算 """ nonlocal final if X is None or Y is None: messagebox.showerror("错误", "请选择两张图片") return # 调整Y图像的尺寸和通道数与X一致 Y_resized = cv2.resize(Y, (X.shape[1], X.shape[0])) if len(X.shape) != len(Y_resized.shape): if len(X.shape) == 2: Y_resized = cv2.cvtColor(Y_resized, cv2.COLOR_BGR2GRAY) else: Y_resized = cv2.cvtColor(Y_resized, cv2.COLOR_GRAY2BGR) if operation == "add": final = cv2.add(X, Y_resized) elif operation == "sub": final = cv2.subtract(X, Y_resized) elif operation == "mult": final = cv2.multiply(X, Y_resized) show_result(final) def show_result(result_image): """ 显示运算结果图像 """ global edge # 更新全局变量 edge edge = Image.fromarray(result_image) result_window = Toplevel(root) result_window.attributes('-topmost', True) result_window.geometry("620x480") result_window.resizable(True, True) result_window.title("运算结果") LabelPic = tk.Label(result_window, text="IMG", width=720, height=240) image = ImageTk.PhotoImage(Image.fromarray(result_image)) LabelPic.image = image LabelPic['image'] = image LabelPic.bind('', lambda event: changeSize(event, result_image, LabelPic)) LabelPic.pack(fill=tk.BOTH, expand=tk.YES) # 添加保存按钮 btn_save = tk.Button(result_window, text="保存", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=savefile) btn_save.pack(pady=10) # 创建算术运算窗口 try: if ArithWin: ArithWin.destroy() except Exception as e: print("NVM") finally: ArithWin = Toplevel(root) ArithWin.attributes('-topmost', True) ArithWin.geometry("720x480") ArithWin.resizable(True, True) ArithWin.title("选择运算类型") # 添加一个框架来容纳两个图像标签 frame = tk.Frame(ArithWin) frame.pack(pady=10) img_label_first = tk.Label(frame) img_label_first.pack(side=tk.LEFT, padx=10) img_label_second = tk.Label(frame) img_label_second.pack(side=tk.RIGHT, padx=10) # 添加选择图像和运算按钮 btn_select_first = tk.Button(ArithWin, text="选择第一张图片", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=select_first_image) btn_select_first.pack(pady=10) btn_select_second = tk.Button(ArithWin, text="选择第二张图片", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=select_second_image) btn_select_second.pack(pady=10) btn_add = tk.Button(ArithWin, text="加法", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=lambda: perform_operation("add")) btn_add.pack(pady=10) btn_sub = tk.Button(ArithWin, text="减法", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=lambda: perform_operation("sub")) btn_sub.pack(pady=10) btn_mult = tk.Button(ArithWin, text="乘法", bg='#add8e6', fg='black', font=('Helvetica', 14), width=20, command=lambda: perform_operation("mult")) btn_mult.pack(pady=10)