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Prototyping Your App's Core Image Pipeline with Python

Write and test Core Image filters, kernels, and geometric transformations in Python.

Overview

The Python bindings available in pycoreimage allow you to prototype your app’s Core Image pipeline without writing production code in Objective-C or Swift, accelerating the process of fine-tuning filters and experimenting with Core Image effects. This sample code project demonstrates pycoreimage filter usage for common image processing operations, such as depth filtering, color warping, and geometric transformation.

Install pycoreimage

The version of Python that shipped with your system may not correspond to the most recent release of Python; after upgrading to Python 3.5, set up your Python environment by downloading and installing pip beforehand by inputting the command into Terminal:

>>> easy_install pip

pip is an installer that you'll use to fetch and install Python packages, such as numpy for numerical computing and scikit-image for displaying images. Ensure setuptools is up to date by calling the command:

>>> pip install setuptools --upgrade

Next, install pycoreimage by executing the following script from your Terminal command line:

>>> python setup.py --user

The script installs necessary packages to run the demo, such as numpy and pyobjc, so you don't need to install them separately.

The console will ask to install pycoreimage. This allows your program to access Core Image functionality such as Python bindings for Core Image filters. From Python, you can apply the Portrait Matte effect, custom GPU kernels, barcode generators, and geometrical transformations.

The package scikit-image is not required for pycoreimage, but it is necessary to run the sample demo since we are displaying images on the screen.

>>> pip install scikit-image --user

Run the Sample Code in a Python Environment

The sample code loads and runs in Xcode, but you can also run it in your preferred Python interpreter. Editing the code in an interpreter, you can see the resulting image change in real-time as you might in a REPL compiler or IDE.

Load Images Using pycoreimage

pycoreimage supports much of the functionality that Core Image offers to replicate the recipe-based environment of image processing on GPUs.

Start by importing the Core Image class from pyci:

from pycoreimage.pyci import cimg

pycoreimage supports all file formats that Core Image supports, including JPEG, PNG, and HEIC.

Load images of any standard file type from disk into the native cimg format.

fpath = 'resources/YourFacialImage.HEIC'
image = cimg.fromFile(fpath)

Work with Depth Data

Obtain the image size using the size property:

W, H = image.size

Access depth data that you can use to perform image processing operations such as thresholding, segmentation, and mask morphology:

depth = cimg.fromFile(fpath, useDepth=True)
w, h = depth.size

# Set the threshold depth at the 50th percentile.
depth_img = depth.render()[..., :3]
p = np.percentile(depth_img, 50)
mask = depth_img < p
mask = cimg(mask.astype(np.float32))
mask = mask.morphologyMaximum(radius=5)
mask = mask.gaussianBlur(radius=30)
mask = mask.render()

Render the final result in the Python interpreter, with immediate feedback in real time:

show(img.clip(0, 1), 221)
show(depth.render()[..., 0].clip(0, 1), 222, map='jet')
show(img_feather.clip(0, 1), 223, suptitle='Demo 6: depth')
show(mask[..., 0], 224, map='gray')

See the Portrait Matte Effect

The demo in pyci_demo.py applies Core Image filters to achieve a number of image processing effects, as shown in the WWDC presentation, but you must substitute your own facial images with the corresponding portrait effect depth data to see the Portrait Matte effect.

Using a facial image captured in portrait mode on iOS 12, you can load the Portrait Matte effect with the following command:

matte = cimg.fromFile(fpath, useMatte=True)

Apply Core Image Filters by Name

With your image loaded, you can apply any of over 200 Core Image filters, calling the same methods that Objective-C calls in a production environment. See Core Image Filter Reference for a listing of these filters. You can invoke any filter explicitly by name:

img = img.CIGaussianBlur(radius=1)

Alternatively, you can invoke and apply filters with their string names by using the applyFilter function:

# Load an input image from file.
img = cimg.fromFile('resources/sunset_1.png')

# Resize to half size.
img = img.scale(0.5, 0.5)

# Create a blank image.
composite = np.zeros((img.size[1], img.size[0], 3))

filters = 'pixellate', 'edgeWork', 'gaussianBlur', 'comicEffect', 'hexagonalPixellate'
rows = int(img.size[1]) / len(filters)
for i, filter in enumerate(filters):
    # Apply the filter.
    slice = img.applyFilter(filter)

    # Slice and add to composite.
    lo = i * rows
    hi = (i + 1) * rows
    composite[lo:hi, :, :3] = slice[lo:hi, :, :3]

You can query available filters by their name by using the print command:

print(cimg.filters())

For a given filter, query its available outputs by using the inputs property:

print(cimg.inputs('gaussianBlur'))

Define and Apply a Custom GPU Kernel to an Image

In the Python prototyping environment, you can create a custom kernel by writing an inline shader in the Core Image Kernel Language. For example, write a color kernel by processing only the color fragment. The src keyword tells Python that the code enclosed in """ is kernel source code:

src = """
kernel vec4 crush_red(__sample img, float a, float b) {
    // Crush shadows from red.
    img.rgb *= smoothstep(a, b, img.r);
    return img;
}
"""

Apply the GPU kernel to an image by calling applyKernel:

img2 = img.applyKernel(src,  # kernel source code
                       0.25,  # kernel arg 1
                       0.9)  # kernel arg 2
show([img, img2], title=['input', 'GPU color kernel'])

For instance, apply a general bilateral filter with the following kernel, written in the Core Image Kernel Language:

src = """
kernel vec4 bilateral(sampler u, float k, float colorInv, float spatialInv)
{
  vec2 dc = destCoord();
  vec2 pu = samplerCoord(u);
  vec2 uDelta = samplerTransform(u, dc+vec2(1.0)) - pu;
  vec4 u_0 = sample(u, pu);
  vec4 C = vec4(0.0);
  float W = 0.0;
  for (float x = -k; x <= k; x++) {
    for (float y = -k; y <= k; y++){
      float ws = exp(-(x*x+y*y) * spatialInv);
      vec4 u_xy  = sample(u, pu + vec2(x,y)*uDelta);
      vec3 diff = u_xy.rgb-u_0.rgb;
      float wc = exp(-dot(diff,diff) * colorInv);
      W += ws * wc;
      C += ws * wc * u_xy;
    }
  }
  return W < 0.0001 ? u_0 : C / W;
}
"""

Generate a QR Code from Data

A number of CIFilters, like all barcode-creating filters, generate procedural images and don't take input images. For example, you can create a QR code from arbitrary text with the fromGenerator function:

cimg.fromGenerator('CIQRCodeGenerator', message='Hello World!')

Apply Geometrical Transformations

Shift the image by the amount (tx, ty) with the translate command:

img.translate(tx, ty)

Use the scale command to resize an image:

img.scale(sx, sy)

Rotate the image about its center point with the rotate command:

img.rotate(radians)

Crop the image to the rectangle [x, y, width, height] with the crop command:

img.crop(0, 0, 1024, 768)

Fine-Tune Your Output Image Live

One advantage to using Python to prototype a filter chain is its immediate feedback. Write out the resulting image with the save command:

img.save('demo2.jpg')

Calling show displays the image onscreen in the Python editor:

show(img, title='Demo 2: from file + slicing')

The sample code contains a number of other common image-processing routines you can customize for your app, such as sharpening kernels, zoom and motion blur, and image slicing. Create a set of test images and run the code on them to see the effects live.

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