From 3ed490ec95a830e876b8ef33322732cc386c2bf9 Mon Sep 17 00:00:00 2001 From: pnufbpyoc <543334759@qq.com> Date: Fri, 29 Jul 2022 18:48:38 +0800 Subject: [PATCH] Delete 'djangoProject' --- djangoProject | 176 -------------------------------------------------- 1 file changed, 176 deletions(-) delete mode 100644 djangoProject diff --git a/djangoProject b/djangoProject deleted file mode 100644 index 41d7671..0000000 --- a/djangoProject +++ /dev/null @@ -1,176 +0,0 @@ -import cv2 -import numpy as np -import math - - -# RGB色彩空间 -def Rgb(path): - img = cv2.imread(path, 1) - b = img[:, :, 0] - g = img[:, :, 1] - r = img[:, :, 2] - cv2.imwrite('./media/RGB/b.jpg', b) - cv2.imwrite('./media/RGB/g.jpg', g) - cv2.imwrite('./media/RGB/r.jpg', r) - - -# HSV色彩空间 -def Hsv(path): - img = cv2.imread(path, 1) - hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV) - h = hsv[:, :, 0] - s = hsv[:, :, 1] - v = hsv[:, :, 2] - cv2.imwrite("./media/HSV/h.jpg", h) - cv2.imwrite("./media/HSV/s.jpg", s) - cv2.imwrite("./media/HSV/v.jpg", v) - - -def Un(path): - img = cv2.imread(path, 0) - result = ~img - cv2.imwrite("./media/UN/un.jpg", result) - - -def Add(paths): - # 只做了两个图像叠加,多个怎么做 - img1 = cv2.imread(paths[0], 1) - img2 = cv2.imread(paths[1], 1) - img = cv2.add(img1, img2) - cv2.imwrite("./media/ADD/add.jpg", img) - - -def Subtract(paths): - img1 = cv2.imread(paths[0], 1) - img2 = cv2.imread(paths[1], 1) - img = cv2.subtract(img1, img2) - cv2.imwrite("./media/SUBTRACT/subtract.jpg", img) - - -# 形态学操作 -def OpenAndClose(path): - # 二值转换 - img = cv2.imread(path, 1) - gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY) - retval, src = cv2.threshold(gray, 127, 255, cv2.THRESH_BINARY) - # 定义十字形结构元素 - kernel = cv2.getStructuringElement(cv2.MORPH_CROSS, (10, 10), (-1, -1)) - # 对二值图进行开运算和闭运算操作 - im_op = cv2.morphologyEx(src, cv2.MORPH_OPEN, kernel) - im_cl = cv2.morphologyEx(src, cv2.MORPH_CLOSE, kernel) - cv2.imwrite('./media/OPANDCL/op.png', im_op) - cv2.imwrite('./media/OPANDCL/cl.png', im_cl) - - -# 边缘检测和图像增强 -def Sharp(path): - CRH = cv2.imread(path, 1) - gradient = np.zeros_like(CRH) - CRH = CRH.astype('float') - h, w = CRH.shape[:2] - for x in range(h - 1): - for y in range(w - 1): - gx = abs(CRH[x + 1, y] - CRH[x, y]) - gy = abs(CRH[x, y + 1] - CRH[x, y]) - gradient[x, y] = gx + gy - sharp = CRH + gradient - - sharp = np.where(sharp > 255, 255, sharp) - sharp = np.where(sharp < 0, 0, sharp) - gradient = gradient.astype('uint8') - sharp = sharp.astype('uint8') - cv2.imwrite('./media/SHARP/gradient.png', gradient) - cv2.imwrite('./media/SHARP/sharp.png', sharp) - - -# 镜像 -def Turn(path): - img = cv2.imread(path) - # 水平镜像 - horizontal = cv2.flip(img, 1, dst=None) - # 垂直镜像 - vertical = cv2.flip(img, 0, dst=None) - # 对角镜像 - cross = cv2.flip(img, -1, dst=None) - cv2.imwrite("./media/TURN/horizontal.jpg", horizontal) - cv2.imwrite("./media/TURN/vertical.jpg", vertical) - cv2.imwrite("./media/TURN/cross.jpg", cross) - - -# 腐蚀 -def Erosion(path): - src = cv2.imread(path, cv2.IMREAD_UNCHANGED) - # 10x10的交叉型结构元 - kernel = cv2.getStructuringElement(cv2.MORPH_CROSS, (10, 10), (-1, -1)) - erosion = cv2.erode(src, kernel) - cv2.imwrite("./media/EROSION/erosion.jpg", erosion) - - -# 膨胀 -def Dilation(path): - src = cv2.imread(path, cv2.IMREAD_UNCHANGED) - # 10x10的交叉结构元 - kernel = cv2.getStructuringElement(cv2.MORPH_CROSS, (10, 10), (-1, -1)) - dilation = cv2.dilate(src, kernel) - cv2.imwrite("./media/DILATION/dilation.png", dilation) - - -# 噪声及滤波 -def Noise(path): - image = cv2.imread(path, cv2.IMREAD_GRAYSCALE) - output = np.zeros(image.shape, np.uint8) - output2 = np.zeros(image.shape, np.uint8) - # 叠加噪声 - for i in range(image.shape[0]): - for j in range(image.shape[1]): - if image[i][j] < 40: - # 添加食盐噪声 - output[i][j] = 255 - elif image[i][j] > 200: - # 添加胡椒噪声 - output[i][j] = 0 - # 不添加噪声 - else: - output[i][j] = image[i][j] - - # 均值滤波 - for i in range(output.shape[0]): - for j in range(output.shape[1]): - ji = 1.0 - for n in range(-1, 2): - if 0 <= i < output.shape[0] and 0 <= j + n < output.shape[1]: - ji = ji * output[i][j + n] - output2[i][j] = int(ji ** (1 / 3)) - - cv2.imwrite("./media/NOISE/noise.jpg", output) - cv2.imwrite("./media/NOISE/meanFilter.jpg", output2) - -# # 扩展平移缩放 -# def moveandchange(path): -# img = cv2.imread(path, 1) -# l, w, h = img.shape -# # 扩展,使用双线性插值法 -# img = cv2.resize(img, (0, 0), fx=2, fy=2, interpolation=cv2.INTER_LINEAR) -# height, width, channel = img.shape -# # 移动 -# M = np.float32([[1, 0, 30], [0, 1, 60]]) -# img = cv2.warpAffine(img, M, (width, height)) -# # 旋转 -# rows, cols, depth = img.shape -# M = cv2.getRotationMatrix2D((cols / 2, rows / 2), 45, 1) -# dst = cv2.warpAffine(img, M, (width, height)) -# -# cv2.imwrite('./media/CHANGE/out.png', dst) - - -# # 仿射变换 -# def affine(path): -# img = cv2.imread(path) -# rows, cols = img.shape[: 2] -# # 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(img, M, (rows, cols)) -# cv2.imwrite("./media/AFFINE/affine.jpg", result)