Python-3.4.3/C3/Image-manipulation-using-Arrays/English-timed
From Script | Spoken-Tutorial
Time | Narration |
00:01 | Welcome to the spoken tutorial on Image manipulation using arrays. |
00:07 | In this tutorial, you will learn to -
Read images into arrays Perform processing on them using simple array manipulations |
00:19 | To record this tutorial, I am using
Ubuntu Linux 16.04 operating system Python 3.4.3 and IPython 5.1.0 |
00:35 | To practise this tutorial, you should know how to run basic Python commands on the ipython console and access parts of arrays. |
00:46 | If not, see the relevant Python tutorials on this website. |
00:51 | Please download the files Squares.png and Python.png from the Code files link of this tutorial. |
01:00 | Save the files in the current working directory. |
01:04 | First we will learn how to access parts of an array. |
01:09 | For this purpose, we shall use the image Squares.png present in the current working directory. |
01:16 | Let us start ipython. Open the terminal. |
01:21 | Type ipython3 and press Enter. |
01:26 | From here onwards remember to press the Enter key after typing every command on the terminal. |
01:33 | To read an image into an array, we use the imread command. |
01:38 | Let us now read the data in Squares.png into the array img. |
01:44 | Type, import matplotlib.pyplot as plt |
01:51 | Then type, img is equal to plt.imread inside brackets inside single quotes Squares.png |
02:02 | In the first line pyplot is imported from matplotlib module with plt as alias. |
02:09 | This is to make use of methods like imread which are part of pyplot. |
02:15 | We can see the image by using the functions imshow followed by show. |
02:21 | Type, plt.imshow inside brackets img Then type, plt.show open and close brackets |
02:33 | It displays the image in a separate popup window.The original image is in the black and white. |
02:41 | But here we do not see black and white, because imshow has mapped black and white to different colors. |
02:49 | This can be changed by using a different color map. |
02:53 | Close the image window to return to the IPython console. |
02:58 | In order to see the original black and white image type, plt.imshow inside brackets img comma cmap is equal to inside single quotes gray |
03:13 | Then type, plt.show open and close brackets. Now we can see the image in black and white. |
03:22 | Close the image now. |
03:24 | To see what has been read into img variable, type,img. We can see that an array is displayed. |
03:34 | To check the dimensions of any array, we can use shape function. Type, img.shape |
03:44 | As we can see, we got the dimensions of the image. The image Squares.png has the dimensions of 300 by 300. |
03:54 | Now, we wish to obtain the top left quarter of the image. |
03:59 | To do this, we need to access top half of the rows and left half of the columns of the array. |
04:06 | We know that the shape of the image is 300 by 300. |
04:11 | For top-left corner of the image we need first 150 rows and the first 150 columns. |
04:19 | So type, img inside square brackets colon 150 comma colon 150 |
04:27 | This gives us the top-left corner of the image. |
04:32 | We use the imshow command to see the slice we obtained in the form of an image. Type as shown. |
04:42 | We got the required slice now. Close this image. |
04:48 | Pause the video. Try this exercise and then resume the video. |
04:54 | Obtain the square in the center of the image Squares.png with size 150 by 150. |
05:02 | Since we need to get center of the image, we take rows from one-fourth to three-fourth of the rows i.e. from 75 to 225 and columns from one-fourth to three-fourth of the columns, i.e. from 75 to 225 |
05:21 | Switch to the terminal for the solution. |
05:25 | Type as shown. Hence, we get the center of the image. Close this image. |
05:34 | You can also save the sliced image array to a new variable. |
05:39 | Type, img1 is equal to img inside square brackets 75 colon 225 comma 75 colon 225] Then to see the image type as shown. |
05:56 | Close this image window |
05:59 | We also know how to stride over an array. |
06:03 | For that we can drop alternate rows and columns out of the image. |
06:08 | Type, img inside square brackets colon colon 2 comma colon colon 2 |
06:16 | To see this image, type as shown. We can see that the scale has reduced. |
06:24 | We can observe some blurring near the edges if you scale it down further. |
06:30 | Close the image window to return to the IPython console. |
06:35 | To increase the step to 4, type as shown. |
06:41 | Close the image window to return to the IPython console. |
06:45 | We shall use the Python.png present in the current working directory.Now we have an RGB image. |
06:54 | Let us slice the image and see what happens. |
06:58 | Type as shown. We can see the image. |
07:03 | Close the image window to return to the IPython console. |
07:07 | To check the dimensions of img, we can use shape function. |
07:12 | Type, img.shape |
07:16 | The third number shows that there are 4 channels. These are corresponding to red, green, blue, and transparency value of the image. |
07:28 | The first number shows that the height of the image is 600. The second number shows that the width of the image is also 600. |
07:39 | Now we will slice the red channel of the array. |
07:43 | Type, plt.imshow inside brackets img inside square brackets colon comma colon comma 0 |
07:53 | Then type, plt.show open and close brackets. |
08:00 | We got the required red channel of the array. |
08:04 | Close this image. |
08:06 | This brings us to the end of this tutorial. Let us summarize. |
08:12 | In this tutorial, we have learned to,
Read images into arrays and manipulate them. |
08:19 | Here is a self assessment question for you to solve |
08:23 | The shape of the variable img is (600, 600, 4). |
08:29 | What will be the shape of img1 if img1 is equal to img inside brackets colon colon 2 comma colon colon 4 |
08:39 | And the answer is, (300, 150, 4) |
08:45 | Please post your timed queries in this forum. |
08:49 | Please post your general queries on Python in this forum. |
08:54 | FOSSEE team coordinates the TBC project. |
08:58 | Spoken Tutorial Project is funded by NMEICT, MHRD, Govt. of India. For more details, visit this website. |
09:07 | This is Priya from IIT Bombay signing off. Thanks for watching. |