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imcomplement

Complement image

Description

J = imcomplement(I) computes the complement of the image I and returns the result in J.

example

Examples

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X = uint8([ 255 10 75; 44 225 100]);
X2 = imcomplement(X)
X2 = 2x3 uint8 matrix

     0   245   180
   211    30   155

bw = imread('text.png');
bw2 = imcomplement(bw);
imshowpair(bw,bw2,'montage')

Figure contains an axes object. The hidden axes object contains an object of type image.

I = imread('cameraman.tif');
J = imcomplement(I);
imshowpair(I,J,'montage')

Figure contains an axes object. The hidden axes object contains an object of type image.

Read a color image into the workspace.

rgb = imread('yellowlily.jpg');
imshow(rgb)

Figure contains an axes object. The hidden axes object contains an object of type image.

Display the complement of the image.

c = imcomplement(rgb);
imshow(c)

Figure contains an axes object. The hidden axes object contains an object of type image.

Each color channel of the resulting image is the complement of the corresponding color channel in the original image. Regions that were dark, such as dirt, become light. In the original image, the leaves appear green, and petals appear yellow because of a mixture of red and green signals. In the complement image, the leaves appear purple because the red and blue signals are larger than the green signal. The flower petals appear blue because the blue signal is larger than the red and green channels.

Input Arguments

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Input image, specified as an RGB, grayscale, or binary image.

Data Types: single | double | int8 | int16 | int32 | uint8 | uint16 | uint32 | logical

Output Arguments

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Image complement, specified as an RGB, grayscale, or binary image. J has the same size and class as the input image, I.

More About

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Image Complement

In the complement of a binary image, zeros become ones and ones become zeros. Black and white are reversed.

In the complement of a grayscale or color image, each pixel value is subtracted from the maximum pixel value supported by the class (or 1.0 for double-precision images). The difference is used as the pixel value in the output image. In the output image, dark areas become lighter and light areas become darker. For color images, reds become cyan, greens become magenta, blues become yellow, and vice versa.

Tips

  • If I is a grayscale or RGB image of class double, then you can use the expression 1-I instead of this function.

  • If I is a binary image, then you can use the expression ~I instead of this function.

Extended Capabilities

Version History

Introduced before R2006a