Seamless Cloning

Overview

// global functions

void
cv::colorChange(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float red_mul = 1.0f,
    float green_mul = 1.0f,
    float blue_mul = 1.0f
    );

void
cv::illuminationChange(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float alpha = 0.2f,
    float beta = 0.4f
    );

void
cv::seamlessClone(
    InputArray src,
    InputArray dst,
    InputArray mask,
    Point p,
    OutputArray blend,
    int flags
    );

void
cv::textureFlattening(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float low_threshold = 30,
    float high_threshold = 45,
    int kernel_size = 3
    );

Detailed Documentation

Global Functions

void
cv::colorChange(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float red_mul = 1.0f,
    float green_mul = 1.0f,
    float blue_mul = 1.0f
    )

Given an original color image, two differently colored versions of this image can be mixed seamlessly.

Multiplication factor is between .5 to 2.5.

Parameters:

src Input 8-bit 3-channel image.
mask Input 8-bit 1 or 3-channel image.
dst Output image with the same size and type as src .
red_mul R-channel multiply factor.
green_mul G-channel multiply factor.
blue_mul B-channel multiply factor.
void
cv::illuminationChange(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float alpha = 0.2f,
    float beta = 0.4f
    )

Applying an appropriate non-linear transformation to the gradient field inside the selection and then integrating back with a Poisson solver, modifies locally the apparent illumination of an image.

This is useful to highlight under-exposed foreground objects or to reduce specular reflections.

Parameters:

src Input 8-bit 3-channel image.
mask Input 8-bit 1 or 3-channel image.
dst Output image with the same size and type as src.
alpha Value ranges between 0-2.
beta Value ranges between 0-2.
void
cv::seamlessClone(
    InputArray src,
    InputArray dst,
    InputArray mask,
    Point p,
    OutputArray blend,
    int flags
    )

Image editing tasks concern either global changes (color/intensity corrections, filters, deformations) or local changes concerned to a selection. Here we are interested in achieving local changes, ones that are restricted to a region manually selected (ROI), in a seamless and effortless manner. The extent of the changes ranges from slight distortions to complete replacement by novel content [66].

Parameters:

src Input 8-bit 3-channel image.
dst Input 8-bit 3-channel image.
mask Input 8-bit 1 or 3-channel image.
p Point in dst image where object is placed.
blend Output image with the same size and type as dst.
flags

Cloning method that could be one of the following:

  • NORMAL_CLONE The power of the method is fully expressed when inserting objects with complex outlines into a new background
  • MIXED_CLONE The classic method, color-based selection and alpha masking might be time consuming and often leaves an undesirable halo. Seamless cloning, even averaged with the original image, is not effective. Mixed seamless cloning based on a loose selection proves effective.
  • MONOCHROME_TRANSFER Monochrome transfer allows the user to easily replace certain features of one object by alternative features.
void
cv::textureFlattening(
    InputArray src,
    InputArray mask,
    OutputArray dst,
    float low_threshold = 30,
    float high_threshold = 45,
    int kernel_size = 3
    )

By retaining only the gradients at edge locations, before integrating with the Poisson solver, one washes out the texture of the selected region, giving its contents a flat aspect. Here Canny Edge Detector is used.

NOTE:**

The algorithm assumes that the color of the source image is close to that of the destination. This assumption means that when the colors don’t match, the source image color gets tinted toward the color of the destination image.

Parameters:

src Input 8-bit 3-channel image.
mask Input 8-bit 1 or 3-channel image.
dst Output image with the same size and type as src.
low_threshold Range from 0 to 100.
high_threshold Value > 100.
kernel_size The size of the Sobel kernel to be used.