/*
*
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package railo.runtime.img.filter;import java.awt.image.BufferedImage;
import railo.runtime.engine.ThreadLocalPageContext;
import railo.runtime.exp.FunctionException;
import railo.runtime.exp.PageException;
import railo.runtime.img.ImageUtil;
import railo.runtime.img.math.FFT;
import railo.runtime.type.KeyImpl;
import railo.runtime.type.Struct;
import railo.runtime.type.util.CollectionUtil;
/**
* A filter which use FFTs to simulate lens blur on an image.
*/
public class LensBlurFilter extends AbstractBufferedImageOp implements DynFiltering {
private float radius = 10;
private float bloom = 2;
private float bloomThreshold = 192;
private float angle = 0;
private int sides = 5;
/**
* Set the radius of the kernel, and hence the amount of blur.
* @param radius the radius of the blur in pixels.
* @see #getRadius
*/
public void setRadius(float radius) {
this.radius = radius;
}
/**
* Get the radius of the kernel.
* @return the radius
* @see #setRadius
*/
public float getRadius() {
return radius;
}
/**
* Set the number of sides of the aperture.
* @param sides the number of sides
* @see #getSides
*/
public void setSides(int sides) {
this.sides = sides;
}
/**
* Get the number of sides of the aperture.
* @return the number of sides
* @see #setSides
*/
public int getSides() {
return sides;
}
/**
* Set the bloom factor.
* @param bloom the bloom factor
* @see #getBloom
*/
public void setBloom(float bloom) {
this.bloom = bloom;
}
/**
* Get the bloom factor.
* @return the bloom factor
* @see #setBloom
*/
public float getBloom() {
return bloom;
}
/**
* Set the bloom threshold.
* @param bloomThreshold the bloom threshold
* @see #getBloomThreshold
*/
public void setBloomThreshold(float bloomThreshold) {
this.bloomThreshold = bloomThreshold;
}
/**
* Get the bloom threshold.
* @return the bloom threshold
* @see #setBloomThreshold
*/
public float getBloomThreshold() {
return bloomThreshold;
}
public BufferedImage filter( BufferedImage src, BufferedImage dst ) {
int width = src.getWidth();
int height = src.getHeight();
int rows = 1, cols = 1;
int log2rows = 0, log2cols = 0;
int iradius = (int)Math.ceil(radius);
int tileWidth = 128;
int tileHeight = tileWidth;
//int adjustedWidth =(width + iradius*2);
//int adjustedHeight =(height + iradius*2);
tileWidth = iradius < 32 ? Math.min(128, width+2*iradius) : Math.min(256, width+2*iradius);
tileHeight = iradius < 32 ? Math.min(128, height+2*iradius) : Math.min(256, height+2*iradius);
if ( dst == null )
dst = new BufferedImage( width, height, BufferedImage.TYPE_INT_ARGB );
while (rows < tileHeight) {
rows *= 2;
log2rows++;
}
while (cols < tileWidth) {
cols *= 2;
log2cols++;
}
int w = cols;
int h = rows;
tileWidth = w;
tileHeight = h;//FIXME-tileWidth, w, and cols are always all the same
FFT fft = new FFT( Math.max(log2rows, log2cols) );
int[] rgb = new int[w*h];
float[][] mask = new float[2][w*h];
float[][] gb = new float[2][w*h];
float[][] ar = new float[2][w*h];
// Create the kernel
double polyAngle = Math.PI/sides;
double polyScale = 1.0f / Math.cos(polyAngle);
double r2 = radius*radius;
double rangle = Math.toRadians(angle);
float total = 0;
int i = 0;
for ( int y = 0; y < h; y++ ) {
for ( int x = 0; x < w; x++ ) {
double dx = x-w/2f;
double dy = y-h/2f;
double r = dx*dx+dy*dy;
double f = r < r2 ? 1 : 0;
if (f != 0) {
r = Math.sqrt(r);
if ( sides != 0 ) {
double a = Math.atan2(dy, dx)+rangle;
a = ImageMath.mod(a, polyAngle*2)-polyAngle;
f = Math.cos(a) * polyScale;
} else
f = 1;
f = f*r < radius ? 1 : 0;
}
total += (float)f;
mask[0][i] = (float)f;
mask[1][i] = 0;
i++;
}
}
// Normalize the kernel
i = 0;
for ( int y = 0; y < h; y++ ) {
for ( int x = 0; x < w; x++ ) {
mask[0][i] /= total;
i++;
}
}
fft.transform2D( mask[0], mask[1], w, h, true );
for ( int tileY = -iradius; tileY < height; tileY += tileHeight-2*iradius ) {
for ( int tileX = -iradius; tileX < width; tileX += tileWidth-2*iradius ) {
// System.out.println("Tile: "+tileX+" "+tileY+" "+tileWidth+" "+tileHeight);
// Clip the tile to the image bounds
int tx = tileX, ty = tileY, tw = tileWidth, th = tileHeight;
int fx = 0, fy = 0;
if ( tx < 0 ) {
tw += tx;
fx -= tx;
tx = 0;
}
if ( ty < 0 ) {
th += ty;
fy -= ty;
ty = 0;
}
if ( tx+tw > width )
tw = width-tx;
if ( ty+th > height )
th = height-ty;
src.getRGB( tx, ty, tw, th, rgb, fy*w+fx, w );
// Create a float array from the pixels. Any pixels off the edge of the source image get duplicated from the edge.
i = 0;
for ( int y = 0; y < h; y++ ) {
int imageY = y+tileY;
int j;
if ( imageY < 0 )
j = fy;
else if ( imageY > height )
j = fy+th-1;
else
j = y;
j *= w;
for ( int x = 0; x < w; x++ ) {
int imageX = x+tileX;
int k;
if ( imageX < 0 )
k = fx;
else if ( imageX > width )
k = fx+tw-1;
else
k = x;
k += j;
ar[0][i] = ((rgb[k] >> 24) & 0xff);
float r = ((rgb[k] >> 16) & 0xff);
float g = ((rgb[k] >> 8) & 0xff);
float b = (rgb[k] & 0xff);
// Bloom...
if ( r > bloomThreshold )
r *= bloom;
// r = bloomThreshold + (r-bloomThreshold) * bloom;
if ( g > bloomThreshold )
g *= bloom;
// g = bloomThreshold + (g-bloomThreshold) * bloom;
if ( b > bloomThreshold )
b *= bloom;
// b = bloomThreshold + (b-bloomThreshold) * bloom;
ar[1][i] = r;
gb[0][i] = g;
gb[1][i] = b;
i++;
k++;
}
}
// Transform into frequency space
fft.transform2D( ar[0], ar[1], cols, rows, true );
fft.transform2D( gb[0], gb[1], cols, rows, true );
// Multiply the transformed pixels by the transformed kernel
i = 0;
for ( int y = 0; y < h; y++ ) {
for ( int x = 0; x < w; x++ ) {
float re = ar[0][i];
float im = ar[1][i];
float rem = mask[0][i];
float imm = mask[1][i];
ar[0][i] = re*rem-im*imm;
ar[1][i] = re*imm+im*rem;
re = gb[0][i];
im = gb[1][i];
gb[0][i] = re*rem-im*imm;
gb[1][i] = re*imm+im*rem;
i++;
}
}
// Transform back
fft.transform2D( ar[0], ar[1], cols, rows, false );
fft.transform2D( gb[0], gb[1], cols, rows, false );
// Convert back to RGB pixels, with quadrant remapping
int row_flip = w >> 1;
int col_flip = h >> 1;
int index = 0;
//FIXME-don't bother converting pixels off image edges
for ( int y = 0; y < w; y++ ) {
int ym = y ^ row_flip;
int yi = ym*cols;
for ( int x = 0; x < w; x++ ) {
int xm = yi + (x ^ col_flip);
int a = (int)ar[0][xm];
int r = (int)ar[1][xm];
int g = (int)gb[0][xm];
int b = (int)gb[1][xm];
// Clamp high pixels due to blooming
if ( r > 255 )
r = 255;
if ( g > 255 )
g = 255;
if ( b > 255 )
b = 255;
int argb = (a << 24) | (r << 16) | (g << 8) | b;
rgb[index++] = argb;
}
}
// Clip to the output image
tx = tileX+iradius;
ty = tileY+iradius;
tw = tileWidth-2*iradius;
th = tileHeight-2*iradius;
if ( tx+tw > width )
tw = width-tx;
if ( ty+th > height )
th = height-ty;
dst.setRGB( tx, ty, tw, th, rgb, iradius*w+iradius, w );
}
}
return dst;
}
public String toString() {
return "Blur/Lens Blur...";
}
public BufferedImage filter(BufferedImage src, Struct parameters) throws PageException {BufferedImage dst=ImageUtil.createBufferedImage(src);
Object o;
if((o=parameters.removeEL(KeyImpl.init("Radius")))!=null)setRadius(ImageFilterUtil.toFloatValue(o,"Radius"));
if((o=parameters.removeEL(KeyImpl.init("Sides")))!=null)setSides(ImageFilterUtil.toIntValue(o,"Sides"));
if((o=parameters.removeEL(KeyImpl.init("Bloom")))!=null)setBloom(ImageFilterUtil.toFloatValue(o,"Bloom"));
if((o=parameters.removeEL(KeyImpl.init("BloomThreshold")))!=null)setBloomThreshold(ImageFilterUtil.toFloatValue(o,"BloomThreshold"));
// check for arguments not supported
if(parameters.size()>0) {
throw new FunctionException(ThreadLocalPageContext.get(), "ImageFilter", 3, "parameters", "the parameter"+(parameters.size()>1?"s":"")+" ["+CollectionUtil.getKeyList(parameters,", ")+"] "+(parameters.size()>1?"are":"is")+" not allowed, only the following parameters are supported [Radius, Sides, Bloom, BloomThreshold]");
}
return filter(src, dst);
}
}