# Calculate Discrete Cosine Transformation of Image with OpenCV

I'm trying to use the OpenCV 2.3 Python wrapper to calculate the DCT for an image. Supposedly, images == numpy arrays == CV matrices, so I thought this should work:

``````import cv2
img2 = cv2.dct(img1)
``````

However, this throws the error:

``````cv2.error: /usr/local/lib/OpenCV-2.3.1/modules/core/src/dxt.cpp:2247: error: (-215) type == CV_32FC1 || type == CV_64FC1 in function dct
``````

I realize the error means the input should be either a 32-bit or 64-bit single-channel floating point matrix. However, I thought that's how my image should have loaded when specifying grayscale, or at least it should be close enough so that CV2 should be able to figure out the conversion.

What's the appropriate way to convert an image for DCT using cv2?

Here is a solution that I got from openCV forums and it worked.

``````img = cv2.imread(fn, 0)      # 1 chan, grayscale!
imf = np.float32(img)/255.0  # float conversion/scale
dst = cv2.dct(imf)           # the dct
img = np.uint8(dst)*255.0    # convert back
``````

Well, when you load the image as grayscale, it is actually read in at 8-bits per pixel and not as 32-bit float values.

Here is how you would do it:

``````img1_32f = cv.CreateImage( cv.GetSize(img1), cv.IPL_DEPTH_64F, 1)
cv.Scale(img1, img1_32f, 1.0, 0.0)
``````

Also, have a look at the dft.py example. This should give you a feel for how to use the `dft` as well.

• Thanks. However, I know how to do this using cv. My question was how to do this using cv2. Or is the OpenCV team planning to maintain both cv and cv2 modules indefinitely? – Cerin Oct 29 '11 at 22:56
• Also, your example doesn't work with the output from cv2.imread(). – Cerin Oct 29 '11 at 23:10

There doesn't seem to be any easy way to do this with cv2. The closest solution I could find is:

``````import cv, cv2
import numpy as np

h, w = img1.shape[:2]
vis0 = np.zeros((h,w), np.float32)
vis0[:h, :w] = img1
vis1 = cv2.dct(vis0)
img2 = cv.CreateMat(vis1.shape[0], vis1.shape[1], cv.CV_32FC3)
cv.CvtColor(cv.fromarray(vis1), img2, cv.CV_GRAY2BGR)

cv.SaveImage('output.jpg', img2)
``````

Numpy has slice operators for working between arrays of different orders.

``````import cv2
import cv2.cv as cv
import numpy as np

img1 = cv2.cvtColor(img1, cv2.COLOR_BGR2GRAY)
cv2.imshow('input', img1)
w,h = img1.shape
# make a 32bit float for doing the dct within
img2 = np.zeros((w,h), dtype=np.float32)
print img1.shape, img2.shape
img2 = img2+img1[:w, :h]
dct1 = cv2.dct(img2)
key = -1
while(key < 0):
cv2.imshow("DCT", dct1)
key = cv2.waitKey(1)
cv2.destroyAllWindows()
``````