Since FFT2 and IFFT2 both only support inputs of type `double`

and `single`

, your image data (which is likely of type `uint8`

) gets converted to type `double`

first before being processed by FFT2. You will therefore have to convert your output image `inv`

back to an unsigned 8-bit integer using the function UINT8 to recover the original image:

```
>> img = imread('peppers.png'); %# Load a sample image
>> fft = fft2(img); %# Get the Fourier transform
>> inv = ifft2(fft); %# Get the inverse Fourier transform
>> inv = uint8(inv); %# Convert to uint8
>> imshow(inv); %# Show the image
>> isequal(img,inv) %# Test if inv matches the original image img
ans =
1 %# It does!
```

**NOTE:** As an additional tip, I would avoid naming your variables `fft`

and `inv`

since functions with those names already exist in MATLAB.