public static HistogramHolder createSimpleHistogram(GreyscaleImage img) {
float[] values = new float[img.getNPixels()];
int count = 0;
for (int i = 0; i < img.getWidth(); ++i) {
for (int j = 0; j < img.getHeight(); ++j) {
int v = img.getValue(i, j);
values[count] = v;
count++;
}
}
float[] errors = Errors.populateYErrorsBySqrt(values);
HistogramHolder hist = createSimpleHistogram(values, errors);
return hist;
}
/**
* count the values in the image and return as a frequency map. useful for images where the total
* number of numbers present is small and one doesn't want to lose number resolution by creating a
* histogram.
*
* @param img
* @return map with key = pixel value, and map value is count of pixels with the pixel value of
* the key
*/
public static Map<Integer, Integer> createAFrequencyMap(GreyscaleImage img) {
Map<Integer, Integer> freqMap = new HashMap<Integer, Integer>();
for (int i = 0; i < img.getNPixels(); i++) {
Integer v = Integer.valueOf(img.getValue(i));
Integer c = freqMap.get(v);
if (c == null) {
freqMap.put(v, Integer.valueOf(1));
} else {
c = Integer.valueOf(c.intValue() + 1);
freqMap.put(v, c);
}
}
return freqMap;
}
/**
* count the number of zero and non-zero pixels in img and return them as int[]{numberOfZeros,
* numberOfNonZeros}
*
* @param img
* @return
*/
public static int[] createBinaryHistogram(GreyscaleImage img) {
if (img == null) {
throw new IllegalArgumentException("img cannot be null");
}
int n0 = 0;
int n1 = 0;
for (int i = 0; i < img.getNPixels(); i++) {
int v = img.getValue(i);
if (v == 0) {
n0++;
} else {
n1++;
}
}
return new int[] {n0, n1};
}
/**
* count the values in the image and return as a frequency map. useful for images where the total
* number of numbers present is small and one doesn't want to lose number resolution by creating a
* histogram.
*
* @param points
* @param img
* @return map with key = pixel value, and map value is count of pixels with the pixel value of
* the key
*/
public static Map<Integer, Integer> createAFrequencyMap(Set<PairInt> points, GreyscaleImage img) {
Map<Integer, Integer> freqMap = new HashMap<Integer, Integer>();
for (PairInt p : points) {
int x = p.getX();
int y = p.getY();
Integer v = Integer.valueOf(img.getValue(x, y));
Integer c = freqMap.get(v);
if (c == null) {
freqMap.put(v, Integer.valueOf(1));
} else {
c = Integer.valueOf(c.intValue() + 1);
freqMap.put(v, c);
}
}
return freqMap;
}
public static HistogramHolder createHistogramAndRemovePreAndProceedingZeros(GreyscaleImage img) {
float[] values = new float[img.getNPixels()];
int count = 0;
for (int i = 0; i < img.getWidth(); ++i) {
for (int j = 0; j < img.getHeight(); ++j) {
int v = img.getValue(i, j);
values[count] = v;
count++;
}
}
float[] errors = Errors.populateYErrorsBySqrt(values);
HistogramHolder hist = createSimpleHistogram(values, errors);
if (hist.getXHist().length < 2) {
return hist;
}
int n = hist.getXHist().length;
// int yMax = MiscMath.findMax(hist.getYHist());
// int yMin = MiscMath.findMin(hist.getYHist());
int fIdx = 0;
for (int i = 0; i < n; ++i) {
fIdx = i;
int y = hist.getYHist()[i];
if (y > 0) {
break;
}
}
int lIdx = (n - 1);
for (int i = (n - 1); i > -1; --i) {
lIdx = i;
int y = hist.getYHist()[i];
if (y > 0) {
break;
}
}
if ((fIdx <= 1) && (lIdx >= (n - 2))) {
return hist;
}
/*
if there are a large number of bins, re-do the x idx limits using
a lower limit larger than spurious counts... this may need revision
*/
// TODO: consider comparing (lIdx - fIdx) > 30
if (hist.getXHist().length > 30) {
int tmp0 = fIdx;
int tmp1 = lIdx;
int xMaxYIdx = MiscMath.findYMaxIndex(hist.getYHist());
float limit = (int) Math.ceil(Math.sqrt(hist.getYHist()[xMaxYIdx]));
fIdx = 0;
for (int i = 0; i < n; ++i) {
fIdx = i;
int y = hist.getYHist()[i];
if (y > limit) {
break;
}
}
lIdx = (n - 1);
for (int i = (n - 1); i > -1; --i) {
lIdx = i;
int y = hist.getYHist()[i];
if (y > limit) {
break;
}
}
int maxDiffIdx = Math.max(xMaxYIdx - fIdx, lIdx - xMaxYIdx);
fIdx = xMaxYIdx - 3 * maxDiffIdx;
lIdx = xMaxYIdx + 3 * maxDiffIdx;
if (fIdx < 0) {
fIdx = tmp0;
}
if (lIdx > (n - 1)) {
lIdx = tmp1;
}
}
// re-do for smaller range
float xBin = hist.getXHist()[1] - hist.getXHist()[0];
float xf;
if (fIdx == 0) {
xf = hist.getXHist()[0] - (xBin / 2.f);
} else {
xf = hist.getXHist()[fIdx - 1] - (xBin / 2.f);
}
float xl;
if (lIdx == (n - 1)) {
xl = hist.getXHist()[lIdx] + (xBin / 2.f);
} else {
xl = hist.getXHist()[lIdx + 1] + (xBin / 2.f);
}
int n2 = 0;
float[] values2 = new float[values.length];
float[] errors2 = new float[values2.length];
for (int i = 0; i < values2.length; ++i) {
float v = values[i];
if ((v >= xf) && (v <= xl)) {
values2[n2] = v;
errors2[n2] = errors[n2];
n2++;
}
}
values2 = Arrays.copyOf(values2, n2);
errors2 = Arrays.copyOf(errors2, n2);
hist = createSimpleHistogram(values2, errors2);
return hist;
}