import cv2
import numpy as np
from matplotlib import pyplot as plt

img = cv2.imread('logo.png')

kernel = np.ones((5, 5), np.float32) / 25
dst = cv2.filter2D(img, -1, kernel)
plt.subplot(121), plt.imshow(img), plt.title('Original')
plt.xticks([]), plt.yticks([])
plt.subplot(122), plt.imshow(dst), plt.title('Averaging')
plt.xticks([]), plt.yticks([])

I was trying smoothing a picture and i didnt understand the ddepth parameter of cv2.filter2d() where the value is -1. So what does -1 do and also what does ddpeth mean ?

  • Please read the doc – Miki Apr 13 '17 at 13:01
  • 1
    @Miki I read and I didnt understand that why I posted this question ? please explain if you understood. Thank you . – npkp Apr 13 '17 at 13:04


ddepth means desired depth of the destination image

It has information about what kinds of data stored in an image, and that can be unsigned char (CV_8U), signed char (CV_8S), unsigned short (CV_16U), and so on...


As for type, the type has information combined from 2 values:

image depth + the number of channels.

It can be for example CV_8UC1 (which is equal to CV_8U), CV_8UC2, CV_8UC3, CV_8SC1 (which is equal to CV_8S) etc.

Further Readings

For more discussion, it can be found in the following two articles


You can see in the doc that ddepth stands for "Destination depth", which is the depth of result (destination) image.

If you use -1, the result (destination) image will have the same depth as the input (source) image.


According to the official doc:

when ddepth=-1, the output image will have the same depth as the source.

And the valid value of ddepth is limited by the following table:

ddepth table

For example:

cv::Mat src(3, 3, CV_8U3);
cv::Mat dst(3, 3, CV_16S3);
cv::Mat dst2(3, 3, CV_16F3);
cv::Mat kernel(3, 3, CV_8U, cv::Scalar(1));
cv::filter2D(src, dst, CV_16S, kernel); // valid
cv::filter2D(src, dst, CV_16F, kernel); // invalid

Basically there are five methods I know to blur images:

1) use gamma Method

2) create your own kernal (kernal: it is nothing but a numpy array of ones of desired shape) and apply it on images

3) use built_in function of OpenCv

blur_img = cv2.blur(Image_src,Kernal_size)

4) gaussian Blur


5) median Blur


I personally prefer to use Median blur as it smartly remove the noise from your image such only backgroung of image will only get blurred and other features of images is at is in image like corner will be unchanged.

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