public bool not_equal(int ex, int ey, cell_aa cell)
{
unchecked
{
return(((ex - x) | (ey - y) | (left - cell.left) | (right - cell.right)) != 0);
}
}
public void styles(int left, int right)
{
cell_aa cell = new cell_aa();
cell.initial();
cell.left = (int)left;
cell.right = (int)right;
m_Rasterizer.style(cell);
if (left >= 0 && left < m_min_style)
{
m_min_style = left;
}
if (left >= 0 && left > m_max_style)
{
m_max_style = left;
}
if (right >= 0 && right < m_min_style)
{
m_min_style = right;
}
if (right >= 0 && right > m_max_style)
{
m_max_style = right;
}
}
public bool not_equal(int ex, int ey, cell_aa cell)
{
unchecked
{
return ((ex - x) | (ey - y) | (left - cell.left) | (right - cell.right)) != 0;
}
}
private static void swap_cells(cell_aa a, cell_aa b)
{
cell_aa temp = a;
a = b;
b = temp;
}
public void Set(cell_aa cellB)
{
x = cellB.x;
y = cellB.y;
cover = cellB.cover;
area = cellB.area;
left = cellB.left;
right = cellB.right;
}
public void Set(cell_aa cellB)
{
x = cellB.x;
y = cellB.y;
cover = cellB.cover;
area = cellB.area;
left = cellB.left;
right = cellB.right;
}
private int getPivotPoint(cell_aa[] dataToSort, int begPoint, int endPoint)
{
int pivot = begPoint;
int m = begPoint + 1;
int n = endPoint;
while ((m < endPoint) &&
dataToSort[pivot].x >= dataToSort[m].x)
{
m++;
}
while ((n > begPoint) && (dataToSort[pivot].x <= dataToSort[n].x))
{
n--;
}
while (m < n)
{
cell_aa temp = dataToSort[m];
dataToSort[m] = dataToSort[n];
dataToSort[n] = temp;
while ((m < endPoint) && (dataToSort[pivot].x >= dataToSort[m].x))
{
m++;
}
while ((n > begPoint) && (dataToSort[pivot].x <= dataToSort[n].x))
{
n--;
}
}
if (pivot != n)
{
cell_aa temp2 = dataToSort[n];
dataToSort[n] = dataToSort[pivot];
dataToSort[pivot] = temp2;
}
return(n);
}
// Sweeps one scanline with one style index. The style ID can be
// determined by calling style().
//template<class Scanline>
public bool sweep_scanline(IScanlineCache sl, int style_idx)
{
int scan_y = m_scan_y - 1;
if (scan_y > m_Rasterizer.max_y())
{
return(false);
}
sl.ResetSpans();
int master_alpha = aa_mask;
if (style_idx < 0)
{
style_idx = 0;
}
else
{
style_idx++;
master_alpha = m_master_alpha[(int)(m_ast[(int)style_idx] + m_min_style - 1)];
}
style_info st = m_styles[m_ast[style_idx]];
int num_cells = (int)st.num_cells;
int CellOffset = st.start_cell;
cell_aa cell = m_cells[CellOffset];
int cover = 0;
while (num_cells-- != 0)
{
int alpha;
int x = cell.x;
int area = cell.area;
cover += cell.cover;
cell = m_cells[++CellOffset];
if (area != 0)
{
alpha = calculate_alpha((cover << (poly_subpixel_shift + 1)) - area,
master_alpha);
sl.add_cell(x, alpha);
x++;
}
if (num_cells != 0 && cell.x > x)
{
alpha = calculate_alpha(cover << (poly_subpixel_shift + 1),
master_alpha);
if (alpha != 0)
{
sl.add_span(x, cell.x - x, alpha);
}
}
}
if (sl.num_spans() == 0)
{
return(false);
}
sl.finalize(scan_y);
return(true);
}
public void styles(int left, int right)
{
cell_aa cell = new cell_aa();
cell.initial();
cell.left = (int)left;
cell.right = (int)right;
m_Rasterizer.style(cell);
if(left >= 0 && left < m_min_style) m_min_style = left;
if(left >= 0 && left > m_max_style) m_max_style = left;
if(right >= 0 && right < m_min_style) m_min_style = right;
if(right >= 0 && right > m_max_style) m_max_style = right;
}
//--------------------------------------------------------------------
public bool sweep_scanline(IScanlineCache scanlineCache)
{
for (; ;)
{
if (m_scan_y > m_outline.max_y())
{
return(false);
}
scanlineCache.ResetSpans();
int num_cells = (int)m_outline.scanline_num_cells(m_scan_y);
cell_aa[] cells;
int Offset;
m_outline.scanline_cells(m_scan_y, out cells, out Offset);
int cover = 0;
while (num_cells != 0)
{
cell_aa cur_cell = cells[Offset];
int x = cur_cell.x;
int area = cur_cell.area;
int alpha;
cover += cur_cell.cover;
//accumulate all cells with the same X
while (--num_cells != 0)
{
Offset++;
cur_cell = cells[Offset];
if (cur_cell.x != x)
{
break;
}
area += cur_cell.area;
cover += cur_cell.cover;
}
if (area != 0)
{
alpha = calculate_alpha((cover << ((int)poly_subpixel_scale_e.poly_subpixel_shift + 1)) - area);
if (alpha != 0)
{
scanlineCache.add_cell(x, alpha);
}
x++;
}
if ((num_cells != 0) && (cur_cell.x > x))
{
alpha = calculate_alpha(cover << ((int)poly_subpixel_scale_e.poly_subpixel_shift + 1));
if (alpha != 0)
{
scanlineCache.add_span(x, (cur_cell.x - x), alpha);
}
}
}
if (scanlineCache.num_spans() != 0)
{
break;
}
++m_scan_y;
}
scanlineCache.finalize(m_scan_y);
++m_scan_y;
return(true);
}
public void style(cell_aa cellB)
{
left = cellB.left;
right = cellB.right;
}
public void style(cell_aa style_cell)
{
m_style_cell.style(style_cell);
}
public void style(cell_aa cellB)
{
left = cellB.left;
right = cellB.right;
}
private static void swap_cells(cell_aa a, cell_aa b)
{
cell_aa temp = a;
a = b;
b = temp;
}
public void scanline_cells(int y, out cell_aa[] CellData, out int Offset)
{
CellData = m_sorted_cells.data();
Offset = m_sorted_y[y - m_min_y].start;
}
public void style(cell_aa style_cell)
{
m_style_cell.style(style_cell);
}
