| private Process16bppImage ( ushort baseSrc, ushort baseDst, int srcStride, int dstStride, int startX, int startY, int stopX, int stopY ) : void | ||
| baseSrc | ushort | |
| baseDst | ushort | |
| srcStride | int | |
| dstStride | int | |
| startX | int | |
| startY | int | |
| stopX | int | |
| stopY | int | |
| return | void | |
private unsafe void Process16bppImage( ushort* baseSrc, ushort* baseDst, int srcStride, int dstStride,
int startX, int startY, int stopX, int stopY )
{
// loop and array indexes
int i, j, t, k, ir, jr;
// kernel's radius
int radius = size >> 1;
// color sums
long g, div;
// kernel size
int kernelSize = size * size;
// number of kernel elements taken into account
int processedKernelSize;
// for each line
for ( int y = startY; y < stopY; y++ )
{
ushort* src = baseSrc + y * srcStride;
ushort* dst = baseDst + y * dstStride;
// for each pixel
for ( int x = startX; x < stopX; x++, src++, dst++ )
{
g = div = processedKernelSize = 0;
// for each kernel row
for ( i = 0; i < size; i++ )
{
ir = i - radius;
t = y + ir;
// skip row
if ( t < startY )
continue;
// break
if ( t >= stopY )
break;
// for each kernel column
for ( j = 0; j < size; j++ )
{
jr = j - radius;
t = x + jr;
// skip column
if ( t < startX )
continue;
if ( t < stopX )
{
k = kernel[i, j];
div += k;
g += k * src[ir * srcStride + jr];
processedKernelSize++;
}
}
}
// check if all kernel elements were processed
if ( processedKernelSize == kernelSize )
{
// all kernel elements are processed - we are not on the edge
div = divisor;
}
else
{
// we are on edge. do we need to use dynamic divisor or not?
if ( !dynamicDivisorForEdges )
{
// do
div = divisor;
}
}
// check divider
if ( div != 0 )
{
g /= div;
}
g += threshold;
*dst = (ushort) ( ( g > 65535 ) ? 65535 : ( ( g < 0 ) ? 0 : g ) );
}
}
}
