/*******************************************************

* Copyright (c) 2014, ArrayFire

* All rights reserved.

*

* This file is distributed under 3-clause BSD license.

* The complete license agreement can be obtained at:

* http://arrayfire.com/licenses/BSD-3-Clause

********************************************************/

#include <stdio.h>

#include <arrayfire.h>

#include <af/util.h>

#include <cstdlib>

using namespace af;

array morphopen(const array& img, const array& mask)

{

return dilate(erode(img, mask), mask);

}

array morphclose(const array& img, const array& mask)

{

return erode(dilate(img, mask), mask);

}

array morphgrad(const array& img, const array& mask)

{

return (dilate(img, mask) - erode(img, mask));

}

array tophat(const array& img, const array& mask)

{

return (img - morphopen(img, mask));

}

array bottomhat(const array& img, const array& mask)

{

return (morphclose(img, mask) - img);

}

array border(const array& img, const int left, const int right,

const int top, const int bottom,

const float value = 0.0)

{

if((int)img.dims(0) < (top + bottom))

printf("input does not have enough rows\n");

if((int)img.dims(1) < (left + right))

fprintf(stderr, "input does not have enough columns\n");

dim4 imgDims = img.dims();

array ret = constant(value, imgDims);

ret(seq(top, imgDims[0]-bottom), seq(left, imgDims[1]-right), span, span) =

img(seq(top, imgDims[0]-bottom), seq(left, imgDims[1]-right), span, span);

return ret;

}

array border(const array& img, const int w, const int h,

const float value = 0.0)

{

return border(img, w, w, h, h, value);

}

array border(const array& img, const int size, const float value = 0.0)

{

return border(img, size, size, size, size, value);

}

array blur(const array& img, const array mask = gaussianKernel(3,3))

{

array blurred = array(img.dims(), img.type());

for(int i = 0; i < (int)blurred.dims(2); i++)

blurred(span, span, i) = convolve(img(span, span, i), mask);

return blurred;

}

// Demonstrates various image morphing manipulations.

static void morphing_demo()

{

af::Window wnd(1280, 720, "Morphological Operations");

// load images

array img_rgb = loadImage(ASSETS_DIR "/examples/images/man.jpg", true) / 255.f; // 3 channel RGB [0-1]

array mask = constant(1, 5, 5);

array er = erode(img_rgb, mask);

array di = dilate(img_rgb, mask);

array op = morphopen(img_rgb, mask);

array cl = morphclose(img_rgb, mask);

array gr = morphgrad(img_rgb, mask);

array th = tophat(img_rgb, mask);

array bh = bottomhat(img_rgb, mask);

array bl = blur(img_rgb, gaussianKernel(5,5));

array bp = border(img_rgb, 20, 30, 40, 50, 0.5);

array bo = border(img_rgb, 20);

while (!wnd.close()) {

wnd.grid(3, 4);

wnd(0, 0).image(img_rgb, "Input" );

wnd(1, 0).image(er , "Erosion" );

wnd(2, 0).image(di , "Dilation" );

wnd(0, 1).image(op , "Opening" );

wnd(1, 1).image(cl , "Closing" );

wnd(2, 1).image(gr , "Gradient" );

wnd(0, 2).image(th , "TopHat" );

wnd(1, 2).image(bh , "BottomHat" );

wnd(2, 2).image(bl , "Blur" );

wnd(0, 3).image(bp , "Border to Gray" );

wnd(1, 3).image(bo , "Border to black");

wnd.show();

}

}

int main(int argc, char** argv)

{

int device = argc > 1 ? atoi(argv[1]) : 0;

try {

af::info();

af::setDevice(device);

printf("** ArrayFire Image Morphing Demo **\n\n");

morphing_demo();

} catch (af::exception& e) {

fprintf(stderr, "%s\n", e.what());

throw;

}

return 0;

}