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imagej-elphel
Commit 79739c00 authored by Andrey Filippov's avatar Andrey Filippov
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implemented and tested 2-d lapped dct back and forth

parent a41acf59
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src/main/java/DttRad2.java
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src/main/java/EyesisCorrectionParameters.java
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...@@ -1647,7 +1647,38 @@ public class EyesisCorrectionParameters { ...@@ -1647,7 +1647,38 @@ public class EyesisCorrectionParameters {
this.addBottom=Integer.parseInt(properties.getProperty(prefix+"addBottom")); this.addBottom=Integer.parseInt(properties.getProperty(prefix+"addBottom"));
} }
} }
/* ======================================================================== */ public static class DCTParameters {
public int dct_size = 32;
public int dct_window = 0; // currently only 2 types of window - 0 and 1
public DCTParameters(int dct_size, int dct_window) {
this.dct_size = dct_size;
this.dct_window = dct_window;
}
public void setProperties(String prefix,Properties properties){
properties.setProperty(prefix+"dct_size",this.dct_size+"");
properties.setProperty(prefix+"dct_window", this.dct_window+"");
}
public void getProperties(String prefix,Properties properties){
this.dct_size=Integer.parseInt(properties.getProperty(prefix+"dct_size"));
this.dct_window=Integer.parseInt(properties.getProperty(prefix+"dct_window"));
}
public boolean showDialog() {
GenericDialog gd = new GenericDialog("Set DCT parameters");
gd.addNumericField("DCT size", this.dct_size, 0); //2
gd.addNumericField("MDCT window type (0,1,2)", this.dct_window, 0); //32
// gd.addNumericField("Debug Level:", MASTER_DEBUG_LEVEL, 0);
gd.showDialog();
if (gd.wasCanceled()) return false;
this.dct_size= (int) gd.getNextNumber();
this.dct_window= (int) gd.getNextNumber();
// MASTER_DEBUG_LEVEL= (int) gd.getNextNumber();
return true;
}
}
/* ======================================================================== */
public static class DebayerParameters { public static class DebayerParameters {
public int size; public int size;
public double polarStep; public double polarStep;
......
src/main/java/Eyesis_Correction.java
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src/main/java/ImageDtt.java 0 → 100644
View file @ 79739c00
import java.util.concurrent.atomic.AtomicInteger;
import ij.ImageStack;
/**
**
** ImageDtt - Process images with DTT-based methods
**
** Copyright (C) 2016 Elphel, Inc.
**
** -----------------------------------------------------------------------------**
**
** ImageDtt.java is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see <http://www.gnu.org/licenses/>.
** -----------------------------------------------------------------------------**
**
*/
public class ImageDtt {
public ImageDtt(){
}
public double [][] mdctStack(
final ImageStack imageStack,
final EyesisCorrectionParameters.DCTParameters dctParameters, //
final int threadsMax, // maximal step in pixels on the maxRadius for 1 angular step (i.e. 0.5)
final int debugLevel,
final boolean updateStatus) // update status info
{
if (imageStack==null) return null;
final int imgWidth=imageStack.getWidth();
// final int imgHeight=imageStack.getHeight();
final int nChn=imageStack.getSize();
double [][] dct_data = new double [nChn][];
float [] fpixels;
int i,chn; //tileX,tileY;
/* find number of the green channel - should be called "green", if none - use last */
/*
i=nChn-1;
for (chn=0;chn<nChn;chn++) if (imageStack.getSliceLabel(chn+1).equals("green")){
i=chn;
break;
}
final int greenChn=i;
*/
// Extract float pixels from inage stack, convert each to double
for (chn=0;chn<nChn;chn++) {
fpixels= (float[]) imageStack.getPixels(chn+1);
double[] dpixels = new double[fpixels.length];
for (i = 0; i <fpixels.length;i++) dpixels[i] = fpixels[i];
// convert each to DCT tiles
dct_data[chn] =lapped_dct(
dpixels,
imgWidth,
dctParameters.dct_size,
0, // dct_mode, // 0: dct/dct, 1: dct/dst, 2: dst/dct, 3: dst/dst
dctParameters.dct_window, // final int window_type,
threadsMax, // maximal number of threads to launch
debugLevel);
}
return dct_data;
}
public double [] lapped_dct(
final double [] dpixels,
final int width,
final int dct_size,
final int dct_mode, // 0: dct/dct, 1: dct/dst, 2: dst/dct, 3: dst/dst
final int window_type,
final int threadsMax, // maximal number of threads to launch
final int globalDebugLevel)
{
final int height=dpixels.length/width;
final int tilesX=width/dct_size-1;
final int tilesY=height/dct_size-1;
final int nTiles=tilesX*tilesY;
final double [] dct_data = new double[tilesY*tilesX*dct_size*dct_size];
final Thread[] threads = newThreadArray(threadsMax);
final AtomicInteger ai = new AtomicInteger(0);
for (int i=0; i<dct_data.length;i++) dct_data[i]= 0;
for (int ithread = 0; ithread < threads.length; ithread++) {
threads[ithread] = new Thread() {
public void run() {
DttRad2 dtt = new DttRad2(dct_size);
dtt.set_window(window_type);
double [] tile_in = new double[4*dct_size * dct_size];
double [] tile_folded;
double [] tile_out; // = new double[dct_size * dct_size];
int tileY,tileX;
int n2 = dct_size * 2;
for (int nTile = ai.getAndIncrement(); nTile < nTiles; nTile = ai.getAndIncrement()) {
tileY = nTile/tilesX;
tileX = nTile - tileY * tilesX;
for (int i = 0; i < n2;i++){
System.arraycopy(dpixels, (tileY*width+tileX)*dct_size + i*width, tile_in, i*n2, n2);
}
// tile_out=dtt.mdct_2d(tile_in, dct_mode, dct_size);
tile_folded=dtt.fold_tile(tile_in, dct_size);
tile_out=dtt.dttt_iv (tile_folded, dct_mode, dct_size);
for (int i = 0; i < dct_size;i++){
System.arraycopy(tile_out, dct_size* i, dct_data, ((tileY*dct_size + i) *tilesX + tileX)*dct_size , dct_size);
}
}
}
};
}
startAndJoin(threads);
return dct_data;
}
public double [] lapped_idct(
final double [] dct_data, // scanline representation of dcd data, organized as dct_size x dct_size tiles
final int dct_width,
final int dct_size,
final int window_type,
final int threadsMax, // maximal number of threads to launch
final int globalDebugLevel)
{
final int tilesX=dct_width/dct_size;
final int tilesY=dct_data.length/(dct_width*dct_size);
final int width= (tilesX+1)*dct_size;
final int height= (tilesY+1)*dct_size;
System.out.println("lapped_idct():dct_width="+dct_width);
System.out.println("lapped_idct():tilesX= "+tilesX);
System.out.println("lapped_idct():tilesY= "+tilesY);
System.out.println("lapped_idct():width= "+width);
System.out.println("lapped_idct():height= "+height);
double debug0 = 0.0;
for (int i=0;i<dct_data.length;i++){
debug0 +=dct_data[i]*dct_data[i];
}
debug0 = Math.sqrt(debug0)/dct_data.length;
System.out.println("lapped_idct():debug0= "+debug0+" (dct_data.length= "+dct_data.length+")");
final double [] dpixels = new double[width*height];
final Thread[] threads = newThreadArray(threadsMax);
final AtomicInteger ai = new AtomicInteger(0);
final AtomicInteger nser = new AtomicInteger(0);
final int [][][] tiles_list = new int[4][][];
for (int n=0; n<4; n++){
int nx = (tilesX + 1 - (n &1)) / 2;
int ny = (tilesY + 1 - ((n>>1) & 1)) / 2;
tiles_list[n] = new int [nx*ny][2];
int indx = 0;
for (int i = 0;i < ny; i++) for (int j = 0; j < nx; j++){
tiles_list[n][indx][0]=2*j+(n &1);
tiles_list[n][indx++][1]=2*i+((n>>1) & 1);
}
}
for (int i=0; i<dpixels.length;i++) dpixels[i]= 0;
for (int n=0; n<4; n++){
nser.set(n);
ai.set(0);
for (int ithread = 0; ithread < threads.length; ithread++) {
threads[ithread] = new Thread() {
public void run() {
DttRad2 dtt = new DttRad2(dct_size);
dtt.set_window(window_type);
double [] tile_in = new double[dct_size * dct_size];
double [] tile_dct; // = new double[dct_size * dct_size];
double [] tile_out; // = new double[4*dct_size * dct_size];
int tileY,tileX;
int n2 = dct_size * 2;
for (int nTile = ai.getAndIncrement(); nTile < tiles_list[nser.get()].length; nTile = ai.getAndIncrement()) {
tileX = tiles_list[nser.get()][nTile][0];
tileY = tiles_list[nser.get()][nTile][1];
for (int i = 0; i < dct_size;i++){
System.arraycopy(dct_data, (tileY*dct_width+tileX)*dct_size + i*dct_width, tile_in, dct_size*i, dct_size);
}
tile_dct=dtt.dttt_iv (tile_in, 0, dct_size);
tile_out=dtt.unfold_tile(tile_dct, dct_size);
for (int i = 0; i < n2;i++){
int start_line = ((tileY*dct_size + i) *(tilesX+1) + tileX)*dct_size;
for (int j = 0; j<n2;j++) {
dpixels[start_line + j] += tile_out[n2 * i + j]; // +1.0;
}
}
}
}
};
}
startAndJoin(threads);
}
return dpixels;
}
/* Create a Thread[] array as large as the number of processors available.
* From Stephan Preibisch's Multithreading.java class. See:
* http://repo.or.cz/w/trakem2.git?a=blob;f=mpi/fruitfly/general/MultiThreading.java;hb=HEAD
*/
private Thread[] newThreadArray(int maxCPUs) {
int n_cpus = Runtime.getRuntime().availableProcessors();
if (n_cpus>maxCPUs)n_cpus=maxCPUs;
return new Thread[n_cpus];
}
/* Start all given threads and wait on each of them until all are done.
* From Stephan Preibisch's Multithreading.java class. See:
* http://repo.or.cz/w/trakem2.git?a=blob;f=mpi/fruitfly/general/MultiThreading.java;hb=HEAD
*/
public static void startAndJoin(Thread[] threads)
{
for (int ithread = 0; ithread < threads.length; ++ithread)
{
threads[ithread].setPriority(Thread.NORM_PRIORITY);
threads[ithread].start();
}
try
{
for (int ithread = 0; ithread < threads.length; ++ithread)
threads[ithread].join();
} catch (InterruptedException ie)
{
throw new RuntimeException(ie);
}
}
}
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