public override void generate(RGBA_Bytes[] span, int spanIndex, int x, int y, int len)
{
ImageBuffer SourceRenderingBuffer = (ImageBuffer)GetImageBufferAccessor().SourceImage;
if (SourceRenderingBuffer.BitDepth != 24)
{
throw new NotSupportedException("The source is expected to be 32 bit.");
}
ISpanInterpolator spanInterpolator = interpolator();
spanInterpolator.begin(x + filter_dx_dbl(), y + filter_dy_dbl(), len);
int offset;
byte[] fg_ptr = SourceRenderingBuffer.GetBuffer(out offset);
do
{
int x_hr;
int y_hr;
spanInterpolator.coordinates(out x_hr, out y_hr);
int x_lr = x_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int bufferIndex;
bufferIndex = SourceRenderingBuffer.GetBufferOffsetXY(x_lr, y_lr);
RGBA_Bytes color;
color.blue = fg_ptr[bufferIndex++];
color.green = fg_ptr[bufferIndex++];
color.red = fg_ptr[bufferIndex++];
color.alpha = 255;
span[spanIndex] = color;
spanIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
//--------------------------------------------------------------------
public void GenerateColors(ColorRGBA[] outputColors, int startIndex, int x, int y, int len)
{
m_interpolator.Begin(x + 0.5, y + 0.5, len);
do
{
m_interpolator.GetCoord(out x, out y);
float d = m_grValueCalculator.Calculate(x >> DOWN_SCALE_SHIFT,
y >> DOWN_SCALE_SHIFT,
m_d2);
d = ((d - m_d1) * stepRatio);
if (d < 0)
{
d = 0;
}
if (d >= m_colorsProvider.GradientSteps)
{
d = m_colorsProvider.GradientSteps - 1;
}
outputColors[startIndex++] = m_colorsProvider.GetColor((int)d);
m_interpolator.Next();
}while (--len != 0);
}
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
RasterBuffer pSourceRenderingBuffer = base.Source().PixelFormat.GetRenderingBuffer();
ISpanInterpolator <T> spanInterpolator = base.Interpolator;
spanInterpolator.Begin(M.New <T>(x).Add(base.FilterDxDbl()), M.New <T>(y).Add(base.FilterDyDbl()), len);
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
byte *fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
//byte* fg_ptr = spanInterpolator.span(x_lr, y_lr, 1);
//(*span).R = fg_ptr[OrderR];
//(*span).G = fg_ptr[OrderG];
//(*span).B = fg_ptr[OrderB];
//(*span).A = fg_ptr[OrderA];
(*span) = new RGBA_Bytes(fg_ptr[OrderR], fg_ptr[OrderG], fg_ptr[OrderB], fg_ptr[OrderA]);
++span;
spanInterpolator.Next();
} while (--len != 0);
}
//--------------------------------------------------------------------
public unsafe void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
int dd = m_d2 - m_d1;
if (dd < 1)
{
dd = 1;
}
m_interpolator.Begin(x + 0.5, y + 0.5, len);
do
{
m_interpolator.Coordinates(out x, out y);
int d = m_gradient_function.Calculate(x >> downscale_shift,
y >> downscale_shift, m_d2);
d = ((d - m_d1) * (int)m_color_function.Size) / dd;
if (d < 0)
{
d = 0;
}
if (d >= (int)m_color_function.Size)
{
d = m_color_function.Size - 1;
}
*span++ = m_color_function[d];
m_interpolator.Next();
}while(--len != 0);
}
//--------------------------------------------------------------------
public void generate(Color[] span, int spanIndex, int x, int y, int len)
{
int dd = m_d2 - m_d1;
if (dd < 1)
{
dd = 1;
}
m_interpolator.begin(x + 0.5, y + 0.5, len);
do
{
m_interpolator.coordinates(out x, out y);
int d = m_gradient_function.calculate(x >> downscale_shift,
y >> downscale_shift, m_d2);
d = ((d - m_d1) * (int)m_color_function.size()) / dd;
if (d < 0)
{
d = 0;
}
if (d >= (int)m_color_function.size())
{
d = m_color_function.size() - 1;
}
span[spanIndex++] = m_color_function[d];
m_interpolator.Next();
}while (--len != 0);
}
public override void GenerateColors(Drawing.Color[] outputColors, int startIndex, int x, int y, int len)
{
if (_noTransformation)
{
//Interpolator.GetCoord(out int x_hr, out int y_hr);
//int x_lr = x_hr >> subpix_const.SHIFT;
//int y_lr = y_hr >> subpix_const.SHIFT;
Interpolator.SubPixTranslateBeginCoord(x + dx, y + dy, out int x_lr, out int y_lr);
NN_StepXBy1(_bmpSrc, _bmpSrc.GetBufferOffsetXY32(x_lr, y_lr), outputColors, startIndex, len);
}
else
{
ISpanInterpolator spanInterpolator = Interpolator;
spanInterpolator.Begin(x + dx, y + dy, len);
unsafe
{
using (TempMemPtr.FromBmp(_bmpSrc, out int *srcBuffer))
{
//TODO: if no any transformation,=> skip spanInterpolator (see above example)
do
{
//spanInterpolator.GetCoord(out int x_hr, out int y_hr);
//int x_lr = x_hr >> subpix_const.SHIFT;
//int y_lr = y_hr >> subpix_const.SHIFT;
spanInterpolator.SubPixGetTranslatedCoord(out int x_lr, out int y_lr);
int bufferIndex = _bmpSrc.GetBufferOffsetXY32(x_lr, y_lr);
int srcColor = srcBuffer[bufferIndex++];
outputColors[startIndex] = Drawing.Color.FromArgb(
(srcColor >> CO.A_SHIFT) & 0xff, //a
(srcColor >> CO.R_SHIFT) & 0xff, //r
(srcColor >> CO.G_SHIFT) & 0xff, //g
(srcColor >> CO.B_SHIFT) & 0xff); //b
++startIndex;
spanInterpolator.Next();
} while (--len != 0);
}
}
}
}
//----------------------------------------------------------------
public void Next()
{
m_interpolator.Next();
if (m_pos >= m_subdiv_size)
{
uint len = m_len;
if (len > m_subdiv_size)
{
len = (uint)m_subdiv_size;
}
m_interpolator.Resynchronize(M.New <T>(m_src_x).Divide((double)SubPixelScale).Add(len),
m_src_y,
len);
m_pos = 0;
}
m_src_x += SubPixelScale;
++m_pos;
--m_len;
}
//----------------------------------------------------------------
public void Next()
{
m_interpolator.Next();
if (m_pos >= m_subdiv_size)
{
uint len = m_len;
if (len > m_subdiv_size)
{
len = (uint)m_subdiv_size;
}
m_interpolator.ReSynchronize((double)m_src_x / (double)subpixel_scale + len,
m_src_y,
len);
m_pos = 0;
}
m_src_x += subpixel_scale;
++m_pos;
--m_len;
}
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
RasterBuffer pSourceRenderingBuffer = base.source().PixelFormat.RenderingBuffer;
ISpanInterpolator spanInterpolator = base.interpolator();
spanInterpolator.Begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
byte *fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
//byte* fg_ptr = spanInterpolator.Span(x_lr, y_lr, 1);
(*span).m_R = fg_ptr[OrderR];
(*span).m_G = fg_ptr[OrderG];
(*span).m_B = fg_ptr[OrderB];
(*span).m_A = fg_ptr[OrderA];
++span;
spanInterpolator.Next();
} while(--len != 0);
}
//--------------------------------------------------------------------
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
ISpanInterpolator spanInterpolator = base.interpolator();
spanInterpolator.Begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
int *fg = stackalloc int[3];
byte *fg_ptr;
fixed(short *pWeightArray = filter().weight_array())
{
short *weight_array = pWeightArray;
weight_array = &pWeightArray[((filter().diameter() / 2 - 1) << (int)image_subpixel_scale_e.Shift)];
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= filter_dx_int();
y_hr -= filter_dy_int();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
fg[0] = fg[1] = fg[2] = (int)image_filter_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = source().Span(x_lr, y_lr, 2);
weight = (uint)((weight_array[x_hr + (int)image_subpixel_scale_e.Scale] *
weight_array[y_hr + (int)image_subpixel_scale_e.Scale] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = source().NextX();
weight = (uint)((weight_array[x_hr] *
weight_array[y_hr + (int)image_subpixel_scale_e.Scale] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = source().NextY();
weight = (uint)((weight_array[x_hr + (int)image_subpixel_scale_e.Scale] *
weight_array[y_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = source().NextX();
weight = (uint)((weight_array[x_hr] *
weight_array[y_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg[0] >>= (int)image_filter_scale_e.Shift;
fg[1] >>= (int)image_filter_scale_e.Shift;
fg[2] >>= (int)image_filter_scale_e.Shift;
if (fg[OrderR] > base_mask)
{
fg[OrderR] = base_mask;
}
if (fg[OrderG] > base_mask)
{
fg[OrderG] = base_mask;
}
if (fg[OrderB] > base_mask)
{
fg[OrderB] = base_mask;
}
span->R_Byte = (byte)fg[OrderR];
span->G_Byte = (byte)fg[OrderG];
span->B_Byte = (byte)fg[OrderB];
span->A_Byte = (uint)base_mask;
++span;
spanInterpolator.Next();
} while (--len != 0);
}
}
//--------------------------------------------------------------------
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
base.interpolator().Begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
int *fg = stackalloc int[3];
byte *fg_ptr;
uint diameter = m_filter.diameter();
int start = m_filter.start();
short[] weight_array = m_filter.weight_array();
int x_count;
int weight_y;
ISpanInterpolator spanInterpolator = base.interpolator();
do
{
spanInterpolator.Coordinates(out x, out y);
x -= base.filter_dx_int();
y -= base.filter_dy_int();
int x_hr = x;
int y_hr = y;
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
fg[0] = fg[1] = fg[2] = (int)image_filter_scale_e.Scale / 2;
int x_fract = x_hr & (int)image_subpixel_scale_e.Mask;
uint y_count = diameter;
y_hr = (int)image_subpixel_scale_e.Mask - (y_hr & (int)image_subpixel_scale_e.Mask);
fg_ptr = source().Span(x_lr + start, y_lr + start, diameter);
for (; ;)
{
x_count = (int)diameter;
weight_y = weight_array[y_hr];
x_hr = (int)image_subpixel_scale_e.Mask - x_fract;
for (; ;)
{
int weight = (weight_y * weight_array[x_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift;
fg[0] += weight * *fg_ptr++;
fg[1] += weight * *fg_ptr++;
fg[2] += weight * *fg_ptr;
if (--x_count == 0)
{
break;
}
x_hr += (int)image_subpixel_scale_e.Scale;
fg_ptr = source().NextX();
}
if (--y_count == 0)
{
break;
}
y_hr += (int)image_subpixel_scale_e.Scale;
fg_ptr = source().NextY();
}
fg[0] >>= (int)image_filter_scale_e.Shift;
fg[1] >>= (int)image_filter_scale_e.Shift;
fg[2] >>= (int)image_filter_scale_e.Shift;
if (fg[0] < 0)
{
fg[0] = 0;
}
if (fg[1] < 0)
{
fg[1] = 0;
}
if (fg[2] < 0)
{
fg[2] = 0;
}
if (fg[OrderR] > base_mask)
{
fg[OrderR] = (int)base_mask;
}
if (fg[OrderG] > base_mask)
{
fg[OrderG] = (int)base_mask;
}
if (fg[OrderB] > base_mask)
{
fg[OrderB] = (int)base_mask;
}
span->R_Byte = (Byte)fg[OrderR];
span->G_Byte = (Byte)fg[OrderG];
span->B_Byte = (Byte)fg[OrderB];
span->A_Byte = base_mask;
++span;
spanInterpolator.Next();
} while (--len != 0);
}
public override void GenerateColors(ColorRGBA[] outputColors, int startIndex, int x, int y, int len)
{
ISpanInterpolator spanInterpolator = base.Interpolator;
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
int c0, c1, c2;
int diameter = base.FilterLookup.Diameter;
int filter_scale = diameter << img_subpix_const.SHIFT;
int[] weight_array = FilterLookup.WeightArray;
do
{
int rx;
int ry;
int rx_inv = img_subpix_const.SCALE;
int ry_inv = img_subpix_const.SCALE;
spanInterpolator.GetCoord(out x, out y);
spanInterpolator.GetLocalScale(out rx, out ry);
AdjustScale(ref rx, ref ry);
rx_inv = img_subpix_const.SCALE * img_subpix_const.SCALE / rx;
ry_inv = img_subpix_const.SCALE * img_subpix_const.SCALE / ry;
int radius_x = (diameter * rx) >> 1;
int radius_y = (diameter * ry) >> 1;
int len_x_lr =
(diameter * rx + img_subpix_const.MASK) >>
img_subpix_const.SHIFT;
x += base.dxInt - radius_x;
y += base.dyInt - radius_y;
c0 = c1 = c2 = img_filter_const.SCALE / 2;
int y_lr = y >> img_subpix_const.SHIFT;
int y_hr = ((img_subpix_const.MASK - (y & img_subpix_const.MASK)) *
ry_inv) >> img_subpix_const.SHIFT;
int total_weight = 0;
int x_lr = x >> img_subpix_const.SHIFT;
int x_hr = ((img_subpix_const.MASK - (x & img_subpix_const.MASK)) *
rx_inv) >> img_subpix_const.SHIFT;
int x_hr2 = x_hr;
int sourceIndex;
byte[] buff = BaseGetSpan(x_lr, y_lr, len_x_lr, out sourceIndex);
for (;;)
{
int weight_y = weight_array[y_hr];
x_hr = x_hr2;
for (;;)
{
int weight = (weight_y * weight_array[x_hr] +
(int)img_filter_const.SCALE / 2) >>
DOWNSCALE_SHIFT;
c0 += buff[sourceIndex + CO.R] * weight;
c1 += buff[sourceIndex + CO.G] * weight;
c2 += buff[sourceIndex + CO.B] * weight;
total_weight += weight;
x_hr += rx_inv;
if (x_hr >= filter_scale)
{
break;
}
buff = BaseNextX(out sourceIndex);
}
y_hr += ry_inv;
if (y_hr >= filter_scale)
{
break;
}
buff = BaseNextY(out sourceIndex);
}
c0 /= total_weight;
c1 /= total_weight;
c2 /= total_weight;
//clamps..
if (c0 < 0)
{
c0 = 0;
}
else if (c0 > BASE_MASK)
{
c0 = BASE_MASK;
}
if (c1 < 0)
{
c1 = 0;
}
else if (c1 > BASE_MASK)
{
c1 = BASE_MASK;
}
if (c2 < 0)
{
c2 = 0;
}
else if (c2 > BASE_MASK)
{
c2 = BASE_MASK;
}
outputColors[startIndex].alpha = BASE_MASK;
outputColors[startIndex].red = (byte)c0;
outputColors[startIndex].green = (byte)c1;
outputColors[startIndex].blue = (byte)c2;
startIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
//--------------------------------------------------------------------
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
base.Interpolator.Begin(M.New <T>(x).Add(base.FilterDxDbl()), M.New <T>(y).Add(base.FilterDyDbl()), len);
int *fg = stackalloc int[3];
byte *fg_ptr;
uint diameter = m_filter.Diameter();
int start = m_filter.Start();
short[] weight_array = m_filter.WeightArray();
int x_count;
int weight_y;
ISpanInterpolator <T> spanInterpolator = base.Interpolator;
do
{
spanInterpolator.Coordinates(out x, out y);
x -= base.FilterDxInt();
y -= base.FilterDyInt();
int x_hr = x;
int y_hr = y;
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
fg[0] = fg[1] = fg[2] = (int)image_filter_scale_e.Scale / 2;
int x_fract = x_hr & (int)image_subpixel_scale_e.Mask;
uint y_count = diameter;
y_hr = (int)image_subpixel_scale_e.Mask - (y_hr & (int)image_subpixel_scale_e.Mask);
fg_ptr = Source().span(x_lr + start, y_lr + start, diameter);
for (; ;)
{
x_count = (int)diameter;
weight_y = weight_array[y_hr];
x_hr = (int)image_subpixel_scale_e.Mask - x_fract;
for (; ;)
{
int weight = (weight_y * weight_array[x_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift;
fg[0] += weight * *fg_ptr++;
fg[1] += weight * *fg_ptr++;
fg[2] += weight * *fg_ptr;
if (--x_count == 0)
{
break;
}
x_hr += (int)image_subpixel_scale_e.Scale;
fg_ptr = Source().next_x();
}
if (--y_count == 0)
{
break;
}
y_hr += (int)image_subpixel_scale_e.Scale;
fg_ptr = Source().next_y();
}
fg[0] >>= (int)image_filter_scale_e.Shift;
fg[1] >>= (int)image_filter_scale_e.Shift;
fg[2] >>= (int)image_filter_scale_e.Shift;
if (fg[0] < 0)
{
fg[0] = 0;
}
if (fg[1] < 0)
{
fg[1] = 0;
}
if (fg[2] < 0)
{
fg[2] = 0;
}
if (fg[OrderR] > BaseMask)
{
fg[OrderR] = (int)BaseMask;
}
if (fg[OrderG] > BaseMask)
{
fg[OrderG] = (int)BaseMask;
}
if (fg[OrderB] > BaseMask)
{
fg[OrderB] = (int)BaseMask;
}
//span->R_Byte = (Byte)fg[OrderR];
//span->G_Byte = (Byte)fg[OrderG];
//span->B_Byte = (Byte)fg[OrderB];
//span->A_Byte = BaseMask;
(*span) = new RGBA_Bytes((Byte)fg[OrderR], (Byte)fg[OrderG], (Byte)fg[OrderB], BaseMask);
++span;
spanInterpolator.Next();
} while (--len != 0);
}
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
#if use_timers
Generate_Span.Start();
#endif
base.Interpolator.Begin(M.New <T>(x).Add(base.FilterDxDbl()), M.New <T>(y).Add(base.FilterDyDbl()), len);
uint *fg = stackalloc uint[4];
byte *fg_ptr;
RasterBuffer pSourceRenderingBuffer = base.Source().PixelFormat.GetRenderingBuffer();
int maxx = (int)pSourceRenderingBuffer.Width - 1;
int maxy = (int)pSourceRenderingBuffer.Height - 1;
ISpanInterpolator <T> spanInterpolator = base.Interpolator;
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= base.FilterDxInt();
y_hr -= base.FilterDyInt();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
fg[0] = fg[1] = fg[2] = fg[3] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
++y_lr;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * y_hr);
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[3] >>= (int)image_subpixel_scale_e.Shift * 2;
//(*span).R = (byte)fg[OrderR];
//(*span).G = (byte)fg[OrderG];
//(*span).B = (byte)fg[OrderB];
//(*span).A = (byte)fg[OrderA];
(*span) = new RGBA_Bytes((byte)fg[OrderR], (byte)fg[OrderG], (byte)fg[OrderB], (byte)fg[OrderA]);
++span;
spanInterpolator.Next();
} while (--len != 0);
}
#if use_timers
Generate_Span.Stop();
#endif
}
public override void generate(RGBA_Bytes[] span, int spanIndex, int x, int y, int len)
{
base.interpolator().begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
int f_r, f_g, f_b;
byte[] fg_ptr;
int diameter = m_filter.diameter();
int start = m_filter.start();
int[] weight_array = m_filter.weight_array();
int x_count;
int weight_y;
ISpanInterpolator spanInterpolator = base.interpolator();
do
{
spanInterpolator.coordinates(out x, out y);
x -= base.filter_dx_int();
y -= base.filter_dy_int();
int x_hr = x;
int y_hr = y;
int x_lr = x_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
f_b = f_g = f_r = (int)image_filter_scale_e.image_filter_scale / 2;
int x_fract = x_hr & (int)image_subpixel_scale_e.image_subpixel_mask;
int y_count = diameter;
y_hr = (int)image_subpixel_scale_e.image_subpixel_mask - (y_hr & (int)image_subpixel_scale_e.image_subpixel_mask);
int bufferIndex;
fg_ptr = GetImageBufferAccessor().span(x_lr + start, y_lr + start, diameter, out bufferIndex);
for (; ;)
{
x_count = (int)diameter;
weight_y = weight_array[y_hr];
x_hr = (int)image_subpixel_scale_e.image_subpixel_mask - x_fract;
for (; ;)
{
int weight = (weight_y * weight_array[x_hr] +
(int)image_filter_scale_e.image_filter_scale / 2) >>
(int)image_filter_scale_e.image_filter_shift;
f_b += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
f_g += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
f_r += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
if (--x_count == 0)
{
break;
}
x_hr += (int)image_subpixel_scale_e.image_subpixel_scale;
GetImageBufferAccessor().next_x(out bufferIndex);
}
if (--y_count == 0)
{
break;
}
y_hr += (int)image_subpixel_scale_e.image_subpixel_scale;
fg_ptr = GetImageBufferAccessor().next_y(out bufferIndex);
}
f_b >>= (int)image_filter_scale_e.image_filter_shift;
f_g >>= (int)image_filter_scale_e.image_filter_shift;
f_r >>= (int)image_filter_scale_e.image_filter_shift;
unchecked
{
if ((uint)f_b > base_mask)
{
if (f_b < 0)
{
f_b = 0;
}
if (f_b > base_mask)
{
f_b = (int)base_mask;
}
}
if ((uint)f_g > base_mask)
{
if (f_g < 0)
{
f_g = 0;
}
if (f_g > base_mask)
{
f_g = (int)base_mask;
}
}
if ((uint)f_r > base_mask)
{
if (f_r < 0)
{
f_r = 0;
}
if (f_r > base_mask)
{
f_r = (int)base_mask;
}
}
}
span[spanIndex].alpha = (byte)base_mask;
span[spanIndex].red = (byte)f_b;
span[spanIndex].green = (byte)f_g;
span[spanIndex].blue = (byte)f_r;
spanIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
//--------------------------------------------------------------------
public override unsafe void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
#if use_timers
Generate_Span.Start();
#endif
base.Interpolator.Begin(x + base.FilterDxDbl(), y + base.FilterDyDbl(), len);
uint *fg = stackalloc uint[3];
uint src_alpha;
RasterBuffer SourceRenderingBuffer = base.Source().PixelFormat.GetRenderingBuffer();
ISpanInterpolator spanInterpolator = base.Interpolator;
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= base.FilterDxInt();
y_hr -= base.FilterDyInt();
int x_lrX3 = (x_hr >> (int)image_subpixel_scale_e.Shift) * 3;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
fg[0] =
fg[1] =
fg[2] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
byte *fg_ptr = SourceRenderingBuffer.GetPixelPointer(y_lr) + x_lrX3;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[3];
fg[1] += weight * fg_ptr[4];
fg[2] += weight * fg_ptr[5];
++y_lr;
fg_ptr = SourceRenderingBuffer.GetPixelPointer(y_lr) + x_lrX3;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
weight = (uint)(x_hr * y_hr);
fg[0] += weight * fg_ptr[3];
fg[1] += weight * fg_ptr[4];
fg[2] += weight * fg_ptr[5];
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
src_alpha = BaseMask;
(*span).m_R = (byte)fg[OrderR];
(*span).m_G = (byte)fg[OrderG];
(*span).m_B = (byte)fg[OrderB];
(*span).m_A = (byte)src_alpha;
++span;
spanInterpolator.Next();
} while(--len != 0);
}
#if use_timers
Generate_Span.Stop();
#endif
}
//--------------------------------------------------------------------
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
ISpanInterpolator <T> spanInterpolator = base.Interpolator;
spanInterpolator.Begin(M.New <T>(x).Add(base.FilterDxDbl()), M.New <T>(y).Add(base.FilterDyDbl()), len);
int *fg = stackalloc int[3];
byte *fg_ptr;
fixed(short *pWeightArray = Filter.WeightArray())
{
short *weight_array = pWeightArray;
weight_array = &pWeightArray[((Filter.Diameter() / 2 - 1) << (int)image_subpixel_scale_e.Shift)];
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= FilterDxInt();
y_hr -= FilterDyInt();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
fg[0] = fg[1] = fg[2] = (int)image_filter_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = Source().span(x_lr, y_lr, 2);
weight = (uint)((weight_array[x_hr + (int)image_subpixel_scale_e.Scale] *
weight_array[y_hr + (int)image_subpixel_scale_e.Scale] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = Source().next_x();
weight = (uint)((weight_array[x_hr] *
weight_array[y_hr + (int)image_subpixel_scale_e.Scale] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = Source().next_y();
weight = (uint)((weight_array[x_hr + (int)image_subpixel_scale_e.Scale] *
weight_array[y_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg_ptr = Source().next_x();
weight = (uint)((weight_array[x_hr] *
weight_array[y_hr] +
(int)image_filter_scale_e.Scale / 2) >>
(int)image_filter_scale_e.Shift);
fg[0] += (int)weight * *fg_ptr++;
fg[1] += (int)weight * *fg_ptr++;
fg[2] += (int)weight * *fg_ptr;
fg[0] >>= (int)image_filter_scale_e.Shift;
fg[1] >>= (int)image_filter_scale_e.Shift;
fg[2] >>= (int)image_filter_scale_e.Shift;
if (fg[OrderR] > BaseMask)
{
fg[OrderR] = BaseMask;
}
if (fg[OrderG] > BaseMask)
{
fg[OrderG] = BaseMask;
}
if (fg[OrderB] > BaseMask)
{
fg[OrderB] = BaseMask;
}
//span->R_Byte = (byte)fg[OrderR];
//span->G_Byte = (byte)fg[OrderG];
//span->B_Byte = (byte)fg[OrderB];
//span->A_Byte = (uint)BaseMask;
(*span) = new RGBA_Bytes((byte)fg[OrderR], (byte)fg[OrderG], (byte)fg[OrderB], (uint)BaseMask);
++span;
spanInterpolator.Next();
} while (--len != 0);
}
}
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
#if use_timers
Generate_Span.Start();
#endif
base.interpolator().Begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
uint *fg = stackalloc uint[4];
byte *fg_ptr;
RasterBuffer pSourceRenderingBuffer = base.source().PixelFormat.RenderingBuffer;
int maxx = (int)pSourceRenderingBuffer.Width() - 1;
int maxy = (int)pSourceRenderingBuffer.Height() - 1;
ISpanInterpolator spanInterpolator = base.interpolator();
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= base.filter_dx_int();
y_hr -= base.filter_dy_int();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
fg[0] = fg[1] = fg[2] = fg[3] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
++y_lr;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * y_hr);
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[3] >>= (int)image_subpixel_scale_e.Shift * 2;
(*span).m_R = (byte)fg[OrderR];
(*span).m_G = (byte)fg[OrderG];
(*span).m_B = (byte)fg[OrderB];
(*span).m_A = (byte)fg[OrderA];
++span;
spanInterpolator.Next();
} while (--len != 0);
}
#if use_timers
Generate_Span.Stop();
#endif
}
public override void generate(RGBA_Bytes[] span, int spanIndex, int x, int y, int len)
{
base.interpolator().begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
ImageBuffer SourceRenderingBuffer = (ImageBuffer)base.GetImageBufferAccessor().SourceImage;
ISpanInterpolator spanInterpolator = base.interpolator();
int bufferIndex;
byte[] fg_ptr = SourceRenderingBuffer.GetBuffer(out bufferIndex);
unchecked
{
do
{
int tempR;
int tempG;
int tempB;
int x_hr;
int y_hr;
spanInterpolator.coordinates(out x_hr, out y_hr);
x_hr -= base.filter_dx_int();
y_hr -= base.filter_dy_int();
int x_lr = x_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int weight;
tempR =
tempG =
tempB = (int)image_subpixel_scale_e.image_subpixel_scale * (int)image_subpixel_scale_e.image_subpixel_scale / 2;
x_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
y_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
bufferIndex = SourceRenderingBuffer.GetBufferOffsetXY(x_lr, y_lr);
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) *
((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
tempR += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
tempG += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
tempB += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
bufferIndex += 3;
weight = (x_hr * ((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
tempR += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
tempG += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
tempB += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
y_lr++;
bufferIndex = SourceRenderingBuffer.GetBufferOffsetXY(x_lr, y_lr);
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) * y_hr);
tempR += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
tempG += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
tempB += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
bufferIndex += 3;
weight = (x_hr * y_hr);
tempR += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
tempG += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
tempB += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
tempR >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
tempG >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
tempB >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
RGBA_Bytes color;
color.red = (byte)tempR;
color.green = (byte)tempG;
color.blue = (byte)tempB;
color.alpha = 255;
span[spanIndex] = color;
spanIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
}
//--------------------------------------------------------------------
public void GenerateColors(Color[] outputColors, int startIndex, int x, int y, int spanLen)
{
//set interpolation start point
//spanLen => horizontal span len
#if COSMOS
#else
_interpolator.Begin(_grad0X + _xoffset + x + 0.5, _grad0Y + _yoffset + y + 0.5, spanLen);
int gradientSteps = _colorsProvider.GradientSteps;
int scanline_x = x;
do
{
//find actual x and y
_interpolator.GetCoord(out x, out y);
float d = _grValueCalculator.Calculate(x >> DOWN_SCALE_SHIFT,
y >> DOWN_SCALE_SHIFT,
_dist) * _stepRatio;
if (d < 0)
{
if (PartNo == 0)
{
d = 0;
}
else
{
//move to prev part
d = 0;
//move to next part
if (RequestGradientPart != null)
{
GradientSpanGen nextPart = RequestGradientPart(this.PartNo - 1);
if (nextPart != null)
{
//generate next part
nextPart.GenerateColors(outputColors, startIndex, scanline_x, y, spanLen);
return;
}
}
else
{
d = 0;
}
}
}
else if (d >= gradientSteps)
{
if (IsLastPart)
{
d = gradientSteps - 1;
}
else
{
//move to next part
if (RequestGradientPart != null)
{
GradientSpanGen nextPart = RequestGradientPart(this.PartNo + 1);
if (nextPart != null)
{
//generate next part
nextPart.GenerateColors(outputColors, startIndex, scanline_x, y, spanLen);
return;
}
}
else
{
d = gradientSteps - 1;
}
}
}
else
{
//
}
outputColors[startIndex++] = _colorsProvider.GetColor((int)d);
_interpolator.Next();//**
scanline_x++;
}while (--spanLen != 0);
#endif
}
public override void GenerateColors(ColorRGBA[] outputColors, int startIndex, int x, int y, int len)
{
ISpanInterpolator spanInterpolator = base.Interpolator;
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
int accColor0, accColor1, accColor2;
int sourceAlpha;
int back_r = m_bgcolor.red;
int back_g = m_bgcolor.green;
int back_b = m_bgcolor.blue;
int back_a = m_bgcolor.alpha;
int bufferIndex;
int maxx = (int)srcRW.Width - 1;
int maxy = (int)srcRW.Height - 1;
byte[] srcBuffer = srcRW.GetBuffer();
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.GetCoord(out x_hr, out y_hr);
x_hr -= base.dxInt;
y_hr -= base.dyInt;
int x_lr = x_hr >> img_subpix_const.SHIFT;
int y_lr = y_hr >> img_subpix_const.SHIFT;
int weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
accColor0 =
accColor1 =
accColor2 = img_subpix_const.SCALE * img_subpix_const.SCALE / 2;
x_hr &= img_subpix_const.MASK;
y_hr &= img_subpix_const.MASK;
bufferIndex = srcRW.GetBufferOffsetXY(x_lr, y_lr);
weight = ((img_subpix_const.SCALE - x_hr) *
(img_subpix_const.SCALE - y_hr));
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
bufferIndex += 3;
weight = (x_hr * (img_subpix_const.SCALE - y_hr));
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
y_lr++;
bufferIndex = srcRW.GetBufferOffsetXY(x_lr, y_lr);
weight = ((img_subpix_const.SCALE - x_hr) * y_hr);
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
bufferIndex += 3;
weight = (x_hr * y_hr);
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
sourceAlpha = BASE_MASK;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
accColor0 = back_r;
accColor1 = back_g;
accColor2 = back_b;
sourceAlpha = back_a;
}
else
{
accColor0 =
accColor1 =
accColor2 = img_subpix_const.SCALE * img_subpix_const.SCALE / 2;
sourceAlpha = img_subpix_const.SCALE * img_subpix_const.SCALE / 2;
x_hr &= img_subpix_const.MASK;
y_hr &= img_subpix_const.MASK;
weight = ((img_subpix_const.SCALE - x_hr) * (img_subpix_const.SCALE - y_hr));
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref sourceAlpha,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
sourceAlpha += back_a * weight;
}
x_lr++;
weight = (x_hr * (img_subpix_const.SCALE - y_hr));
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref sourceAlpha,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
sourceAlpha += back_a * weight;
}
x_lr--;
y_lr++;
weight = ((img_subpix_const.SCALE - x_hr) * y_hr);
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref sourceAlpha,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
sourceAlpha += back_a * weight;
}
x_lr++;
weight = (x_hr * y_hr);
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref sourceAlpha,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
sourceAlpha += back_a * weight;
}
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
sourceAlpha >>= img_subpix_const.SHIFT * 2;
}
}
outputColors[startIndex].red = (byte)accColor0;
outputColors[startIndex].green = (byte)accColor1;
outputColors[startIndex].blue = (byte)accColor2;
outputColors[startIndex].alpha = (byte)sourceAlpha;
startIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
}
//--------------------------------------------------------------------
public override unsafe void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
#if use_timers
Generate_Span.Start();
#endif
base.Interpolator.Begin(M.New <T>(x).Add(base.FilterDxDbl()), M.New <T>(y).Add(base.FilterDyDbl()), len);
uint *fg = stackalloc uint[3];
uint src_alpha;
uint back_r = m_back_color.R;
uint back_g = m_back_color.G;
uint back_b = m_back_color.B;
uint back_a = m_back_color.A;
byte *fg_ptr;
RasterBuffer SourceRenderingBuffer = base.Source().PixelFormat.GetRenderingBuffer();
int maxx = (int)SourceRenderingBuffer.Width - 1;
int maxy = (int)SourceRenderingBuffer.Height - 1;
ISpanInterpolator <T> spanInterpolator = base.Interpolator;
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= base.FilterDxInt();
y_hr -= base.FilterDyInt();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
fg[0] =
fg[1] =
fg[2] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = SourceRenderingBuffer.GetPixelPointer(y_lr) + x_lr * 3;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[3];
fg[1] += weight * fg_ptr[4];
fg[2] += weight * fg_ptr[5];
++y_lr;
fg_ptr = SourceRenderingBuffer.GetPixelPointer(y_lr) + x_lr * 3;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
weight = (uint)(x_hr * y_hr);
fg[0] += weight * fg_ptr[3];
fg[1] += weight * fg_ptr[4];
fg[2] += weight * fg_ptr[5];
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
src_alpha = BaseMask;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
fg[OrderR] = back_r;
fg[OrderG] = back_g;
fg[OrderB] = back_b;
src_alpha = back_a;
}
else
{
fg[0] =
fg[1] =
fg[2] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
src_alpha = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
BlendInFilterPixel(fg, ref src_alpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
BlendInFilterPixel(fg, ref src_alpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr--;
y_lr++;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
BlendInFilterPixel(fg, ref src_alpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (uint)(x_hr * y_hr);
BlendInFilterPixel(fg, ref src_alpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
src_alpha >>= (int)image_subpixel_scale_e.Shift * 2;
}
}
//(*span).R = (byte)fg[0];
//(*span).G = (byte)fg[1];
//(*span).B = (byte)fg[2];
//(*span).A = (byte)src_alpha;
(*span) = new RGBA_Bytes((byte)fg[0], (byte)fg[1], (byte)fg[2], (byte)src_alpha);
++span;
spanInterpolator.Next();
} while (--len != 0);
}
#if use_timers
Generate_Span.Stop();
#endif
}
public sealed override void GenerateColors(Drawing.Color[] outputColors, int startIndex, int x, int y, int len)
{
#if DEBUG
int tmp_len = len;
#endif
unsafe
{
//TODO: review here
if (_noTransformation)
{
using (CpuBlit.TempMemPtr.FromBmp(_bmpSrc, out int *srcBuffer))
{
int bufferIndex = _bmpSrc.GetBufferOffsetXY32(x, y);
do
{
//TODO: review here, match component?
//ORDER IS IMPORTANT!
//TODO : use CO (color order instead)
int srcColor = srcBuffer[bufferIndex++];
outputColors[startIndex] = Drawing.Color.FromArgb(
(srcColor >> CO.A_SHIFT) & 0xff, //a
(srcColor >> CO.R_SHIFT) & 0xff, //r
(srcColor >> CO.G_SHIFT) & 0xff, //g
(srcColor >> CO.B_SHIFT) & 0xff); //b
++startIndex;
} while (--len != 0);
}
}
else
{
//Bilinear interpolation, without lookup table
ISpanInterpolator spanInterpolator = base.Interpolator;
using (CpuBlit.TempMemPtr srcBufferPtr = _bmpSrc.GetBufferPtr())
{
int *srcBuffer = (int *)srcBufferPtr.Ptr;
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
//accumulated color component
int acc_r, acc_g, acc_b, acc_a;
Color bgColor = this.BackgroundColor;
int back_r = bgColor.R;
int back_g = bgColor.G;
int back_b = bgColor.B;
int back_a = bgColor.A;
int maxx = _bmpSrc.Width - 1;
int maxy = _bmpSrc.Height - 1;
int srcColor = 0;
do
{
int x_hr;
int y_hr;
spanInterpolator.GetCoord(out x_hr, out y_hr);
x_hr -= base.dxInt;
y_hr -= base.dyInt;
int x_lr = x_hr >> subpix_const.SHIFT;
int y_lr = y_hr >> subpix_const.SHIFT;
int weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
int bufferIndex = _bmpSrc.GetBufferOffsetXY32(x_lr, y_lr);
//accumulated color components
acc_r =
acc_g =
acc_b =
acc_a = subpix_const.SCALE * subpix_const.SCALE / 2;
x_hr &= subpix_const.MASK;
y_hr &= subpix_const.MASK;
weight = (subpix_const.SCALE - x_hr) * (subpix_const.SCALE - y_hr);
if (weight > BASE_MASK)
{
srcColor = srcBuffer[bufferIndex];
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
weight = (x_hr * (subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
bufferIndex++;
srcColor = srcBuffer[bufferIndex];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
weight = ((subpix_const.SCALE - x_hr) * y_hr);
if (weight > BASE_MASK)
{
++y_lr;
//
bufferIndex = _bmpSrc.GetBufferOffsetXY32(x_lr, y_lr);
srcColor = srcBuffer[bufferIndex];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
bufferIndex++;
srcColor = srcBuffer[bufferIndex];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
acc_r >>= subpix_const.SHIFT * 2;
acc_g >>= subpix_const.SHIFT * 2;
acc_b >>= subpix_const.SHIFT * 2;
acc_a >>= subpix_const.SHIFT * 2;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
acc_r = back_r;
acc_g = back_g;
acc_b = back_b;
acc_a = back_a;
}
else
{
acc_r =
acc_g =
acc_b =
acc_a = subpix_const.SCALE * subpix_const.SCALE / 2;
x_hr &= subpix_const.MASK;
y_hr &= subpix_const.MASK;
weight = (subpix_const.SCALE - x_hr) * (subpix_const.SCALE - y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
srcColor = srcBuffer[_bmpSrc.GetBufferOffsetXY32(x_lr, y_lr)];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
else
{
acc_r += back_r * weight;
acc_g += back_g * weight;
acc_b += back_b * weight;
acc_a += back_a * weight;
}
}
x_lr++;
weight = x_hr * (subpix_const.SCALE - y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
srcColor = srcBuffer[_bmpSrc.GetBufferOffsetXY32(x_lr, y_lr)];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
else
{
acc_r += back_r * weight;
acc_g += back_g * weight;
acc_b += back_b * weight;
acc_a += back_a * weight;
}
}
x_lr--;
y_lr++;
weight = (subpix_const.SCALE - x_hr) * y_hr;
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
srcColor = srcBuffer[_bmpSrc.GetBufferOffsetXY32(x_lr, y_lr)];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
else
{
acc_r += back_r * weight;
acc_g += back_g * weight;
acc_b += back_b * weight;
acc_a += back_a * weight;
}
}
x_lr++;
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
srcColor = srcBuffer[_bmpSrc.GetBufferOffsetXY32(x_lr, y_lr)];
//
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
}
else
{
acc_r += back_r * weight;
acc_g += back_g * weight;
acc_b += back_b * weight;
acc_a += back_a * weight;
}
}
acc_r >>= subpix_const.SHIFT * 2;
acc_g >>= subpix_const.SHIFT * 2;
acc_b >>= subpix_const.SHIFT * 2;
acc_a >>= subpix_const.SHIFT * 2;
}
}
#if DEBUG
if (startIndex >= outputColors.Length)
{
}
#endif
outputColors[startIndex] = PixelFarm.Drawing.Color.FromArgb(
(byte)acc_a,
(byte)acc_r,
(byte)acc_g,
(byte)acc_b
);
++startIndex;
spanInterpolator.Next();
} while (--len != 0);
} //using
} //else
} //unsafe
}
public override void generate(RGBA_Bytes[] span, int spanIndex, int x, int y, int len)
{
base.interpolator().begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
int[] accumulatedColor = new int[3];
int sourceAlpha;
int back_r = m_OutsideSourceColor.red;
int back_g = m_OutsideSourceColor.green;
int back_b = m_OutsideSourceColor.blue;
int back_a = m_OutsideSourceColor.alpha;
int bufferIndex;
byte[] fg_ptr;
ImageBuffer SourceRenderingBuffer = (ImageBuffer)base.GetImageBufferAccessor().SourceImage;
int maxx = (int)SourceRenderingBuffer.Width - 1;
int maxy = (int)SourceRenderingBuffer.Height - 1;
ISpanInterpolator spanInterpolator = base.interpolator();
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.coordinates(out x_hr, out y_hr);
x_hr -= base.filter_dx_int();
y_hr -= base.filter_dy_int();
int x_lr = x_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.image_subpixel_shift;
int weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
accumulatedColor[0] =
accumulatedColor[1] =
accumulatedColor[2] = (int)image_subpixel_scale_e.image_subpixel_scale * (int)image_subpixel_scale_e.image_subpixel_scale / 2;
x_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
y_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
fg_ptr = SourceRenderingBuffer.GetPixelPointerXY(x_lr, y_lr, out bufferIndex);
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) *
((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
accumulatedColor[0] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
accumulatedColor[1] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
accumulatedColor[2] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
bufferIndex += 3;
weight = (x_hr * ((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
accumulatedColor[0] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
accumulatedColor[1] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
accumulatedColor[2] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
y_lr++;
fg_ptr = SourceRenderingBuffer.GetPixelPointerXY(x_lr, y_lr, out bufferIndex);
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) * y_hr);
accumulatedColor[0] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
accumulatedColor[1] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
accumulatedColor[2] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
bufferIndex += 3;
weight = (x_hr * y_hr);
accumulatedColor[0] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderR];
accumulatedColor[1] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderG];
accumulatedColor[2] += weight * fg_ptr[bufferIndex + ImageBuffer.OrderB];
accumulatedColor[0] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
accumulatedColor[1] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
accumulatedColor[2] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
sourceAlpha = base_mask;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
accumulatedColor[0] = back_r;
accumulatedColor[1] = back_g;
accumulatedColor[2] = back_b;
sourceAlpha = back_a;
}
else
{
accumulatedColor[0] =
accumulatedColor[1] =
accumulatedColor[2] = (int)image_subpixel_scale_e.image_subpixel_scale * (int)image_subpixel_scale_e.image_subpixel_scale / 2;
sourceAlpha = (int)image_subpixel_scale_e.image_subpixel_scale * (int)image_subpixel_scale_e.image_subpixel_scale / 2;
x_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
y_hr &= (int)image_subpixel_scale_e.image_subpixel_mask;
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) *
((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
BlendInFilterPixel(accumulatedColor, ref sourceAlpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (x_hr * ((int)image_subpixel_scale_e.image_subpixel_scale - y_hr));
BlendInFilterPixel(accumulatedColor, ref sourceAlpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr--;
y_lr++;
weight = (((int)image_subpixel_scale_e.image_subpixel_scale - x_hr) * y_hr);
BlendInFilterPixel(accumulatedColor, ref sourceAlpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (x_hr * y_hr);
BlendInFilterPixel(accumulatedColor, ref sourceAlpha, back_r, back_g, back_b, back_a, SourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
accumulatedColor[0] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
accumulatedColor[1] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
accumulatedColor[2] >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
sourceAlpha >>= (int)image_subpixel_scale_e.image_subpixel_shift * 2;
}
}
span[spanIndex].red = (byte)accumulatedColor[0];
span[spanIndex].green = (byte)accumulatedColor[1];
span[spanIndex].blue = (byte)accumulatedColor[2];
span[spanIndex].alpha = (byte)sourceAlpha;
spanIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
}
public unsafe override void Generate(RGBA_Bytes *span, int x, int y, uint len)
{
#if use_timers
Generate_Span.Start();
#endif
base.interpolator().Begin(x + base.filter_dx_dbl(), y + base.filter_dy_dbl(), len);
//uint[] fg = new uint[4];
uint *fg = stackalloc uint[4];
uint back_r = m_back_color.m_R;
uint back_g = m_back_color.m_G;
uint back_b = m_back_color.m_B;
uint back_a = m_back_color.m_A;
byte *fg_ptr;
RasterBuffer pSourceRenderingBuffer = base.source().PixelFormat.RenderingBuffer;
int maxx = (int)pSourceRenderingBuffer.Width() - 1;
int maxy = (int)pSourceRenderingBuffer.Height() - 1;
ISpanInterpolator spanInterpolator = base.interpolator();
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.Coordinates(out x_hr, out y_hr);
x_hr -= base.filter_dx_int();
y_hr -= base.filter_dy_int();
int x_lr = x_hr >> (int)image_subpixel_scale_e.Shift;
int y_lr = y_hr >> (int)image_subpixel_scale_e.Shift;
uint weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
fg[0] =
fg[1] =
fg[2] =
fg[3] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
++y_lr;
fg_ptr = pSourceRenderingBuffer.GetPixelPointer(y_lr) + (x_lr << 2);
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
fg[0] += weight * fg_ptr[0];
fg[1] += weight * fg_ptr[1];
fg[2] += weight * fg_ptr[2];
fg[3] += weight * fg_ptr[3];
weight = (uint)(x_hr * y_hr);
fg[0] += weight * fg_ptr[4];
fg[1] += weight * fg_ptr[5];
fg[2] += weight * fg_ptr[6];
fg[3] += weight * fg_ptr[7];
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[3] >>= (int)image_subpixel_scale_e.Shift * 2;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
fg[OrderR] = back_r;
fg[OrderG] = back_g;
fg[OrderB] = back_b;
fg[OrderA] = back_a;
}
else
{
fg[0] =
fg[1] =
fg[2] =
fg[3] = (int)image_subpixel_scale_e.Scale * (int)image_subpixel_scale_e.Scale / 2;
x_hr &= (int)image_subpixel_scale_e.Mask;
y_hr &= (int)image_subpixel_scale_e.Mask;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) *
((int)image_subpixel_scale_e.Scale - y_hr));
BlendInFilterPixel(fg, back_r, back_g, back_b, back_a, pSourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (uint)(x_hr * ((int)image_subpixel_scale_e.Scale - y_hr));
BlendInFilterPixel(fg, back_r, back_g, back_b, back_a, pSourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr--;
y_lr++;
weight = (uint)(((int)image_subpixel_scale_e.Scale - x_hr) * y_hr);
BlendInFilterPixel(fg, back_r, back_g, back_b, back_a, pSourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
x_lr++;
weight = (uint)(x_hr * y_hr);
BlendInFilterPixel(fg, back_r, back_g, back_b, back_a, pSourceRenderingBuffer, maxx, maxy, x_lr, y_lr, weight);
fg[0] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[1] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[2] >>= (int)image_subpixel_scale_e.Shift * 2;
fg[3] >>= (int)image_subpixel_scale_e.Shift * 2;
}
}
(*span).m_R = (byte)fg[0];
(*span).m_G = (byte)fg[1];
(*span).m_B = (byte)fg[2];
(*span).m_A = (byte)fg[3];
++span;
spanInterpolator.Next();
} while (--len != 0);
}
#if use_timers
Generate_Span.Stop();
#endif
}
public override void GenerateColors(Color[] outputColors, int startIndex, int x, int y, int len)
{
ISpanInterpolator spanInterpolator = this.Interpolator;
int acc_r, acc_g, acc_b, acc_a;
int diameter = _lut.Diameter;
int start = _lut.Start;
int[] weight_array = _lut.WeightArray;
int x_count;
int weight_y;
unsafe
{
using (CpuBlit.TempMemPtr srcBufferPtr = _bmpSrc.GetBufferPtr())
{
int *srcBuffer = (int *)srcBufferPtr.Ptr;
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
do
{
spanInterpolator.GetCoord(out x, out y);
x -= base.dxInt;
y -= base.dyInt;
int x_hr = x;
int y_hr = y;
int x_lr = x_hr >> subpix_const.SHIFT;
int y_lr = y_hr >> subpix_const.SHIFT;
//accumualted color components
acc_r =
acc_g =
acc_b =
acc_a = filter_const.SCALE / 2;
int x_fract = x_hr & subpix_const.MASK;
int y_count = diameter;
y_hr = subpix_const.MASK - (y_hr & subpix_const.MASK);
int bufferIndex = _bmpSrc.GetBufferOffsetXY32(x_lr, y_lr);
int tmp_Y = y_lr;
for (; ;)
{
x_count = diameter;
weight_y = weight_array[y_hr];
x_hr = subpix_const.MASK - x_fract;
//-------------------
for (; ;)
{
int weight = (weight_y * weight_array[x_hr] +
filter_const.SCALE / 2) >>
filter_const.SHIFT;
int srcColor = srcBuffer[bufferIndex];
acc_a += weight * ((srcColor >> CO.A_SHIFT) & 0xff); //a
acc_r += weight * ((srcColor >> CO.R_SHIFT) & 0xff); //r
acc_g += weight * ((srcColor >> CO.G_SHIFT) & 0xff); //g
acc_b += weight * ((srcColor >> CO.B_SHIFT) & 0xff); //b
if (--x_count == 0)
{
break; //for
}
x_hr += subpix_const.SCALE;
bufferIndex++;
}
//-------------------
if (--y_count == 0)
{
break;
}
y_hr += subpix_const.SCALE;
tmp_Y++; //move down to next row-> and find start bufferIndex
bufferIndex = _bmpSrc.GetBufferOffsetXY32(x_lr, tmp_Y);
}
acc_r >>= filter_const.SHIFT;
acc_g >>= filter_const.SHIFT;
acc_b >>= filter_const.SHIFT;
acc_a >>= filter_const.SHIFT;
unchecked
{
if ((uint)acc_r > BASE_MASK)
{
if (acc_r < 0)
{
acc_r = 0;
}
if (acc_r > BASE_MASK)
{
acc_r = BASE_MASK;
}
}
if ((uint)acc_g > BASE_MASK)
{
if (acc_g < 0)
{
acc_g = 0;
}
if (acc_g > BASE_MASK)
{
acc_g = BASE_MASK;
}
}
if ((uint)acc_b > BASE_MASK)
{
if (acc_b < 0)
{
acc_b = 0;
}
if (acc_b > BASE_MASK)
{
acc_b = BASE_MASK;
}
}
if ((uint)acc_a > BASE_MASK)
{
if (acc_a < 0)
{
acc_a = 0;
}
if (acc_a > BASE_MASK)
{
acc_a = BASE_MASK;
}
}
}
outputColors[startIndex] = PixelFarm.Drawing.Color.FromArgb(
(byte)acc_a, //a
(byte)acc_r,
(byte)acc_g,
(byte)acc_b);
startIndex++;
spanInterpolator.Next();
} while (--len != 0);
}
}
}
public sealed override void GenerateColors(Drawing.Color[] outputColors, int startIndex, int x, int y, int len)
{
#if DEBUG
int tmp_len = len;
#endif
unsafe
{
//TODO: review here
if (_mode0)
{
using (CpuBlit.Imaging.TempMemPtr.FromBmp(_imgsrc, out int *srcBuffer))
{
int bufferIndex = _imgsrc.GetBufferOffsetXY32(x, y);
//unsafe
{
#if true
do
{
//TODO: review here, match component?
//ORDER IS IMPORTANT!
//TODO : use CO (color order instead)
int color = srcBuffer[bufferIndex++];
//byte b = (byte)srcBuffer[bufferIndex++];
//byte g = (byte)srcBuffer[bufferIndex++];
//byte r = (byte)srcBuffer[bufferIndex++];
//byte a = (byte)srcBuffer[bufferIndex++];
//outputColors[startIndex] = Drawing.Color.FromArgb(a, r, g, b);
outputColors[startIndex] = Drawing.Color.FromArgb(
(color >> 24) & 0xff, //a
(color >> 16) & 0xff, //r
(color >> 8) & 0xff, //b
(color) & 0xff //b
);
++startIndex;
} while (--len != 0);
#else
fixed(byte *pSource = &fg_ptr[bufferIndex])
{
int *pSourceInt = (int *)pSource;
fixed(RGBA_Bytes *pDest = &span[spanIndex])
{
int *pDestInt = (int *)pDest;
do
{
*pDestInt++ = *pSourceInt++;
} while (--len != 0);
}
}
#endif
}
}
}
else
{
ISpanInterpolator spanInterpolator = base.Interpolator;
using (CpuBlit.Imaging.TempMemPtr srcBufferPtr = _imgsrc.GetBufferPtr())
{
int *srcBuffer = (int *)srcBufferPtr.Ptr;
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
int accColor0, accColor1, accColor2, accColor3;
int back_r = m_bgcolor.red;
int back_g = m_bgcolor.green;
int back_b = m_bgcolor.blue;
int back_a = m_bgcolor.alpha;
int maxx = _imgsrc.Width - 1;
int maxy = _imgsrc.Height - 1;
int color = 0;
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.GetCoord(out x_hr, out y_hr);
x_hr -= base.dxInt;
y_hr -= base.dyInt;
int x_lr = x_hr >> img_subpix_const.SHIFT;
int y_lr = y_hr >> img_subpix_const.SHIFT;
int weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
int bufferIndex = _imgsrc.GetBufferOffsetXY32(x_lr, y_lr);
accColor0 =
accColor1 =
accColor2 =
accColor3 = (int)img_subpix_const.SCALE * (int)img_subpix_const.SCALE / 2;
x_hr &= img_subpix_const.MASK;
y_hr &= img_subpix_const.MASK;
//bufferIndex = _imgsrc.GetBufferOffsetXY32(x_lr, y_lr);
weight = ((img_subpix_const.SCALE - x_hr) *
(img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
color = srcBuffer[bufferIndex];
accColor3 += weight * ((color >> 24) & 0xff); //a
accColor0 += weight * ((color >> 16) & 0xff); //r
accColor1 += weight * ((color >> 8) & 0xff); //g
accColor2 += weight * ((color) & 0xff); //b
}
weight = (x_hr * ((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
bufferIndex++;
color = srcBuffer[bufferIndex];
//
accColor3 += weight * ((color >> 24) & 0xff); //a
accColor0 += weight * ((color >> 16) & 0xff); //r
accColor1 += weight * ((color >> 8) & 0xff); //g
accColor2 += weight * ((color) & 0xff); //b
}
weight = (((int)img_subpix_const.SCALE - x_hr) * y_hr);
if (weight > BASE_MASK)
{
++y_lr;
//
bufferIndex = _imgsrc.GetBufferOffsetXY32(x_lr, y_lr);
color = srcBuffer[bufferIndex];
//
accColor3 += weight * ((color >> 24) & 0xff); //a
accColor0 += weight * ((color >> 16) & 0xff); //r
accColor1 += weight * ((color >> 8) & 0xff); //g
accColor2 += weight * ((color) & 0xff); //b
}
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
bufferIndex++;
color = srcBuffer[bufferIndex];
//
accColor3 += weight * ((color >> 24) & 0xff); //a
accColor0 += weight * ((color >> 16) & 0xff); //r
accColor1 += weight * ((color >> 8) & 0xff); //g
accColor2 += weight * ((color) & 0xff); //b
}
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
accColor3 >>= img_subpix_const.SHIFT * 2;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
accColor0 = back_r;
accColor1 = back_g;
accColor2 = back_b;
accColor3 = back_a;
}
else
{
accColor0 =
accColor1 =
accColor2 =
accColor3 = (int)img_subpix_const.SCALE * (int)img_subpix_const.SCALE / 2;
x_hr &= (int)img_subpix_const.MASK;
y_hr &= (int)img_subpix_const.MASK;
weight = (((int)img_subpix_const.SCALE - x_hr) *
((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(
ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcBuffer,
_imgsrc.GetBufferOffsetXY32(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
x_lr++;
weight = (x_hr * ((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcBuffer,
_imgsrc.GetBufferOffsetXY32(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
x_lr--;
y_lr++;
weight = (((int)img_subpix_const.SCALE - x_hr) * y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcBuffer,
_imgsrc.GetBufferOffsetXY32(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
x_lr++;
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcBuffer,
_imgsrc.GetBufferOffsetXY32(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
accColor3 >>= img_subpix_const.SHIFT * 2;
}
}
#if DEBUG
if (startIndex >= outputColors.Length)
{
}
#endif
outputColors[startIndex] = PixelFarm.Drawing.Color.FromArgb(
(byte)accColor3,
(byte)accColor0,
(byte)accColor1,
(byte)accColor2
);
//outputColors[startIndex].red = (byte)accColor0;
//outputColors[startIndex].green = (byte)accColor1;
//outputColors[startIndex].blue = (byte)accColor2;
//outputColors[startIndex].alpha = (byte)accColor3;
++startIndex;
spanInterpolator.Next();
} while (--len != 0);
}
}
}
}
}
public override void GenerateColors(ColorRGBA[] outputColors, int startIndex, int x, int y, int len)
{
ISpanInterpolator spanInterpolator = base.Interpolator;
int bufferIndex;
byte[] srcBuffer = srcRW.GetBuffer();
if (spanInterpolator.GetType() == typeof(PixelFarm.Agg.Transform.SpanInterpolatorLinear) &&
((PixelFarm.Agg.Transform.SpanInterpolatorLinear)spanInterpolator).Transformer.GetType() == typeof(PixelFarm.Agg.Transform.Affine) &&
((PixelFarm.Agg.Transform.Affine)((PixelFarm.Agg.Transform.SpanInterpolatorLinear)spanInterpolator).Transformer).IsIdentity())
{
bufferIndex = srcRW.GetBufferOffsetXY(x, y);
//unsafe
{
#if true
do
{
outputColors[startIndex].blue = (byte)srcBuffer[bufferIndex++];
outputColors[startIndex].green = (byte)srcBuffer[bufferIndex++];
outputColors[startIndex].red = (byte)srcBuffer[bufferIndex++];
outputColors[startIndex].alpha = (byte)srcBuffer[bufferIndex++];
++startIndex;
} while (--len != 0);
#else
fixed(byte *pSource = &fg_ptr[bufferIndex])
{
int *pSourceInt = (int *)pSource;
fixed(RGBA_Bytes *pDest = &span[spanIndex])
{
int *pDestInt = (int *)pDest;
do
{
*pDestInt++ = *pSourceInt++;
} while (--len != 0);
}
}
#endif
}
return;
}
spanInterpolator.Begin(x + base.dx, y + base.dy, len);
int accColor0, accColor1, accColor2, accColor3;
int back_r = m_bgcolor.red;
int back_g = m_bgcolor.green;
int back_b = m_bgcolor.blue;
int back_a = m_bgcolor.alpha;
int maxx = srcRW.Width - 1;
int maxy = srcRW.Height - 1;
srcBuffer = srcRW.GetBuffer();
unchecked
{
do
{
int x_hr;
int y_hr;
spanInterpolator.GetCoord(out x_hr, out y_hr);
x_hr -= base.dxInt;
y_hr -= base.dyInt;
int x_lr = x_hr >> img_subpix_const.SHIFT;
int y_lr = y_hr >> img_subpix_const.SHIFT;
int weight;
if (x_lr >= 0 && y_lr >= 0 &&
x_lr < maxx && y_lr < maxy)
{
accColor0 =
accColor1 =
accColor2 =
accColor3 = (int)img_subpix_const.SCALE * (int)img_subpix_const.SCALE / 2;
x_hr &= (int)img_subpix_const.MASK;
y_hr &= (int)img_subpix_const.MASK;
bufferIndex = srcRW.GetBufferOffsetXY(x_lr, y_lr);
weight = (((int)img_subpix_const.SCALE - x_hr) *
((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
accColor3 += weight * srcBuffer[bufferIndex + CO.A];
}
weight = (x_hr * ((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
bufferIndex += bytesBetweenPixelInclusive;
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
accColor3 += weight * srcBuffer[bufferIndex + CO.A];
}
weight = (((int)img_subpix_const.SCALE - x_hr) * y_hr);
if (weight > BASE_MASK)
{
++y_lr;
bufferIndex = srcRW.GetBufferOffsetXY(x_lr, y_lr);
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
accColor3 += weight * srcBuffer[bufferIndex + CO.A];
}
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
bufferIndex += bytesBetweenPixelInclusive;
accColor0 += weight * srcBuffer[bufferIndex + CO.R];
accColor1 += weight * srcBuffer[bufferIndex + CO.G];
accColor2 += weight * srcBuffer[bufferIndex + CO.B];
accColor3 += weight * srcBuffer[bufferIndex + CO.A];
}
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
accColor3 >>= img_subpix_const.SHIFT * 2;
}
else
{
if (x_lr < -1 || y_lr < -1 ||
x_lr > maxx || y_lr > maxy)
{
accColor0 = back_r;
accColor1 = back_g;
accColor2 = back_b;
accColor3 = back_a;
}
else
{
accColor0 =
accColor1 =
accColor2 =
accColor3 = (int)img_subpix_const.SCALE * (int)img_subpix_const.SCALE / 2;
x_hr &= (int)img_subpix_const.MASK;
y_hr &= (int)img_subpix_const.MASK;
weight = (((int)img_subpix_const.SCALE - x_hr) *
((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
}
x_lr++;
weight = (x_hr * ((int)img_subpix_const.SCALE - y_hr));
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
x_lr--;
y_lr++;
weight = (((int)img_subpix_const.SCALE - x_hr) * y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
x_lr++;
weight = (x_hr * y_hr);
if (weight > BASE_MASK)
{
if ((uint)x_lr <= (uint)maxx && (uint)y_lr <= (uint)maxy)
{
BlendInFilterPixel(ref accColor0, ref accColor1, ref accColor2, ref accColor3,
srcRW.GetBuffer(),
srcRW.GetBufferOffsetXY(x_lr, y_lr),
weight);
}
else
{
accColor0 += back_r * weight;
accColor1 += back_g * weight;
accColor2 += back_b * weight;
accColor3 += back_a * weight;
}
}
accColor0 >>= img_subpix_const.SHIFT * 2;
accColor1 >>= img_subpix_const.SHIFT * 2;
accColor2 >>= img_subpix_const.SHIFT * 2;
accColor3 >>= img_subpix_const.SHIFT * 2;
}
}
outputColors[startIndex].red = (byte)accColor0;
outputColors[startIndex].green = (byte)accColor1;
outputColors[startIndex].blue = (byte)accColor2;
outputColors[startIndex].alpha = (byte)accColor3;
++startIndex;
spanInterpolator.Next();
} while (--len != 0);
}
}