protected override void AfterImageApply(Image <TPixel> source, Image <TPixel> destination, Rectangle sourceRectangle)
{
base.AfterImageApply(source, destination, sourceRectangle);
// TODO: An exception in the processing chain can leave these buffers undisposed. We should consider making image processors IDisposable!
this.horizontalKernelMap?.Dispose();
this.horizontalKernelMap = null;
this.verticalKernelMap?.Dispose();
this.verticalKernelMap = null;
}
public ResizeWorker(
Configuration configuration,
Buffer2DRegion <TPixel> source,
PixelConversionModifiers conversionModifiers,
ResizeKernelMap horizontalKernelMap,
ResizeKernelMap verticalKernelMap,
int destWidth,
Rectangle targetWorkingRect,
Point targetOrigin)
{
this.configuration = configuration;
this.source = source;
this.sourceRectangle = source.Rectangle;
this.conversionModifiers = conversionModifiers;
this.horizontalKernelMap = horizontalKernelMap;
this.verticalKernelMap = verticalKernelMap;
this.destWidth = destWidth;
this.targetWorkingRect = targetWorkingRect;
this.targetOrigin = targetOrigin;
this.windowBandHeight = verticalKernelMap.MaxDiameter;
// We need to make sure the working buffer is contiguous:
int workingBufferLimitHintInBytes = Math.Min(
configuration.WorkingBufferSizeHintInBytes,
configuration.MemoryAllocator.GetBufferCapacityInBytes());
int numberOfWindowBands = ResizeHelper.CalculateResizeWorkerHeightInWindowBands(
this.windowBandHeight,
destWidth,
workingBufferLimitHintInBytes);
this.workerHeight = Math.Min(this.sourceRectangle.Height, numberOfWindowBands * this.windowBandHeight);
this.transposedFirstPassBuffer = configuration.MemoryAllocator.Allocate2D <Vector4>(
this.workerHeight,
destWidth,
preferContiguosImageBuffers: true,
options: AllocationOptions.Clean);
this.tempRowBuffer = configuration.MemoryAllocator.Allocate <Vector4>(this.sourceRectangle.Width);
this.tempColumnBuffer = configuration.MemoryAllocator.Allocate <Vector4>(destWidth);
this.currentWindow = new RowInterval(0, this.workerHeight);
}
/// <inheritdoc/>
protected override void Dispose(bool disposing)
{
if (this.isDisposed)
{
return;
}
if (disposing)
{
this.horizontalKernelMap?.Dispose();
this.horizontalKernelMap = null;
this.verticalKernelMap?.Dispose();
this.verticalKernelMap = null;
}
this.isDisposed = true;
base.Dispose(disposing);
}
/// <inheritdoc/>
protected override void BeforeImageApply(Image <TPixel> source, Image <TPixel> destination, Rectangle sourceRectangle)
{
if (!(this.Sampler is NearestNeighborResampler))
{
// Since all image frame dimensions have to be the same we can calculate this for all frames.
MemoryAllocator memoryAllocator = source.GetMemoryAllocator();
this.horizontalKernelMap = ResizeKernelMap.Calculate(
this.Sampler,
this.TargetRectangle.Width,
sourceRectangle.Width,
memoryAllocator);
this.verticalKernelMap = ResizeKernelMap.Calculate(
this.Sampler,
this.TargetRectangle.Height,
sourceRectangle.Height,
memoryAllocator);
}
}
public ResizeWorker(
Configuration configuration,
BufferArea <TPixel> source,
PixelConversionModifiers conversionModifiers,
ResizeKernelMap horizontalKernelMap,
ResizeKernelMap verticalKernelMap,
int destWidth,
Rectangle targetWorkingRect,
Point targetOrigin)
{
this.configuration = configuration;
this.source = source;
this.sourceRectangle = source.Rectangle;
this.conversionModifiers = conversionModifiers;
this.horizontalKernelMap = horizontalKernelMap;
this.verticalKernelMap = verticalKernelMap;
this.destWidth = destWidth;
this.targetWorkingRect = targetWorkingRect;
this.targetOrigin = targetOrigin;
this.windowBandHeight = verticalKernelMap.MaxDiameter;
int numberOfWindowBands = ResizeHelper.CalculateResizeWorkerHeightInWindowBands(
this.windowBandHeight,
destWidth,
configuration.WorkingBufferSizeHintInBytes);
this.workerHeight = Math.Min(this.sourceRectangle.Height, numberOfWindowBands * this.windowBandHeight);
this.transposedFirstPassBuffer = configuration.MemoryAllocator.Allocate2D <Vector4>(
this.workerHeight,
destWidth,
AllocationOptions.Clean);
this.tempRowBuffer = configuration.MemoryAllocator.Allocate <Vector4>(this.sourceRectangle.Width);
this.tempColumnBuffer = configuration.MemoryAllocator.Allocate <Vector4>(destWidth);
this.currentWindow = new RowInterval(0, this.workerHeight);
}
/// <summary>
/// Computes the weights to apply at each pixel when resizing.
/// </summary>
/// <param name="sampler">The <see cref="IResampler"/></param>
/// <param name="destinationSize">The destination size</param>
/// <param name="sourceSize">The source size</param>
/// <param name="memoryAllocator">The <see cref="MemoryAllocator"/> to use for buffer allocations</param>
/// <returns>The <see cref="ResizeKernelMap"/></returns>
public static ResizeKernelMap Calculate(
IResampler sampler,
int destinationSize,
int sourceSize,
MemoryAllocator memoryAllocator)
{
double ratio = (double)sourceSize / destinationSize;
double scale = ratio;
if (scale < 1)
{
scale = 1;
}
int radius = (int)TolerantMath.Ceiling(scale * sampler.Radius);
// 'ratio' is a rational number.
// Multiplying it by LCM(sourceSize, destSize)/sourceSize will result in a whole number "again".
// This value is determining the length of the periods in repeating kernel map rows.
int period = ImageMaths.LeastCommonMultiple(sourceSize, destinationSize) / sourceSize;
// the center position at i == 0:
double center0 = (ratio - 1) * 0.5;
double firstNonNegativeLeftVal = (radius - center0 - 1) / ratio;
// The number of rows building a "stairway" at the top and the bottom of the kernel map
// corresponding to the corners of the image.
// If we do not normalize the kernel values, these rows also fit the periodic logic,
// however, it's just simpler to calculate them separately.
int cornerInterval = (int)TolerantMath.Ceiling(firstNonNegativeLeftVal);
// If firstNonNegativeLeftVal was an integral value, we need firstNonNegativeLeftVal+1
// instead of Ceiling:
if (TolerantMath.AreEqual(firstNonNegativeLeftVal, cornerInterval))
{
cornerInterval++;
}
// If 'cornerInterval' is too big compared to 'period', we can't apply the periodic optimization.
// If we don't have at least 2 periods, we go with the basic implementation:
bool hasAtLeast2Periods = 2 * (cornerInterval + period) < destinationSize;
ResizeKernelMap result = hasAtLeast2Periods
? new PeriodicKernelMap(
memoryAllocator,
sampler,
sourceSize,
destinationSize,
ratio,
scale,
radius,
period,
cornerInterval)
: new ResizeKernelMap(
memoryAllocator,
sampler,
sourceSize,
destinationSize,
destinationSize,
ratio,
scale,
radius);
result.Initialize();
return(result);
}