static unsafe void Main(String[] args)
{
rng = new Random(123);
// Allocate the framebuffer
byte[] buf = new byte[width * height * 3];
// Create the rendering buffer
RenderingBuffer rbuf = new RenderingBuffer(buf, width, height, width * 3);
// Create the renderer and the rasterizer
Renderer ren = new Renderer(rbuf, new SpanBgr24());
Rasterizer ras = new Rasterizer();
// Setup the rasterizer
ras.SetGamma(1.3);
ras.FillRule = FillingRule.FillNonZero;
ren.Clear(new Color(255, 255, 255));
#if !TEST_CURVE
double pieceWidth = 0.59 * width / 2;
double pieceHeight = 0.59 * height / 2;
double ox = rbuf.Width / 4;
double oy = rbuf.Height / 3;
double cx = rbuf.Width / 2;
double cy = rbuf.Height / 2;
Point[] cpts = new Point[] {
new Point(-1, 0),
new Point(1 - 1.0 / 8, 1.0 / 3),
new Point(-1, -1.0 / 3),
new Point(0, -1.0 / 3),
new Point(0, -1.0 / 3),
new Point(1, -1.0 / 3),
new Point(-1 + 1.0 / 8, 1.0 / 3),
new Point(1, 0),
Point.Empty, Point.Empty, Point.Empty, Point.Empty,
Point.Empty, Point.Empty, Point.Empty, Point.Empty,
Point.Empty, Point.Empty, Point.Empty, Point.Empty,
Point.Empty, Point.Empty, Point.Empty, Point.Empty,
};
int ci2 = 8;
int ci3 = 16;
double x;
double y;
AffineTransform trans =
AffineTransform.CreateScale(1, 1.5) *
AffineTransform.CreateTranslation(0, -1);
AffineTransform rot =
AffineTransform.CreateTranslation(0, -1) *
AffineTransform.CreateScale(-1, 1) *
AffineTransform.CreateRotation(-Math.PI / 2);
AffineTransform rot2 =
AffineTransform.CreateScale(1, 1.5) *
AffineTransform.CreateTranslation(0, 1) *
AffineTransform.CreateScale(1, -1) *
AffineTransform.CreateRotation(-Math.PI);
for (int ci = 0; ci < ci2; ci++)
{
double sx = cpts[ci].X;
double sy = cpts[ci].Y;
x = sx;
y = sy;
trans.Transform(ref x, ref y);
cpts[ci].X = x;
cpts[ci].Y = y;
x = sx;
y = sy;
rot.Transform(ref x, ref y);
cpts[ci2 + ci].X = x;
cpts[ci2 + ci].Y = y;
x = sx;
y = sy;
rot2.Transform(ref x, ref y);
cpts[ci3 + ci].X = x;
cpts[ci3 + ci].Y = y;
}
trans = new AffineTransform(
pieceWidth, 0,
0, pieceHeight,
rbuf.Width / 2, rbuf.Height / 2);
for (int ci = 0; ci < cpts.Length; ci++)
{
x = cpts[ci].X;
y = cpts[ci].Y;
trans.Transform(ref x, ref y);
cpts[ci].X = x;
cpts[ci].Y = y;
}
Curve4 curve = new Curve4();
curve.ApproximationMethod = CurveApproximationMethod.Incremental;
PathCommand cmd;
for (int ci = 0; ci < cpts.Length; ci += 4)
{
curve.Initialize(
cpts[ci + 0].X, cpts[ci + 0].Y,
cpts[ci + 1].X, cpts[ci + 1].Y,
cpts[ci + 2].X, cpts[ci + 2].Y,
cpts[ci + 3].X, cpts[ci + 3].Y);
do
{
cmd = curve.GetVertex(out x, out y);
if (ci == 0 && cmd == PathCommand.MoveTo)
{
ras.MoveToD(x, y);
}
else if (cmd == PathCommand.LineTo)
{
ras.LineToD(x, y);
}
} while (cmd != PathCommand.Stop);
}
ras.Render(ren, Color.Red);
for (int i = 1; i < 4; i++)
{
draw_line(ras, cpts[i - 1].X, cpts[i - 1].Y, cpts[i].X, cpts[i].Y, 1.0);
ras.Render(ren, Color.Gray);
int j = ci2 + i;
draw_line(ras, cpts[j - 1].X, cpts[j - 1].Y, cpts[j].X, cpts[j].Y, 1.0);
ras.Render(ren, Color.Gray);
j = ci3 + i;
draw_line(ras, cpts[j - 1].X, cpts[j - 1].Y, cpts[j].X, cpts[j].Y, 1.0);
ras.Render(ren, Color.Gray);
}
#endif
#if HIDE
int i;
// Draw random polygons
for (i = 0; i < 10; i++)
{
int n = rng.Next() % 6 + 3;
// Make the polygon. One can call move_to() more than once.
// In this case the rasterizer behaves like Win32 API PolyPolygon().
ras.MoveToD(random(-30, rbuf.Width + 30), random(-30, rbuf.Height + 30));
for (int j = 1; j < n; j++)
{
ras.LineToD(random(-30, rbuf.Width + 30), random(-30, rbuf.Height + 30));
}
// Render
ras.Render(ren, new Color((byte)(rng.Next() & 0xFF), (byte)(rng.Next() & 0xFF), (byte)(rng.Next() & 0xFF), (byte)((rng.Next() & 0x7F) + 100)));
}
// Draw random ellipses
for (i = 0; i < 50; i++)
{
draw_ellipse(ras,
random(-30, rbuf.Width + 30),
random(-30, rbuf.Height + 30),
random(3, 50),
random(3, 50));
ras.Render(ren, new Color((byte)(rng.Next() & 0x7F), (byte)(rng.Next() & 0x7F), (byte)(rng.Next() & 0x7F), (byte)((rng.Next() & 0x7F) + 100)));
}
// Draw random straight lines
for (i = 0; i < 20; i++)
{
draw_line(ras,
random(-30, rbuf.Width + 30),
random(-30, rbuf.Height + 30),
random(-30, rbuf.Width + 30),
random(-30, rbuf.Height + 30),
random(0.1, 10));
ras.Render(ren, new Color((byte)(rng.Next() & 0x7F), (byte)(rng.Next() & 0x7F), (byte)(rng.Next() & 0x7F), (byte)(rng.Next() & 0x7F)));
}
#endif
System.Drawing.Rectangle rc = new System.Drawing.Rectangle(0, 0, (int)rbuf.Width, (int)rbuf.Height);
System.Drawing.Bitmap bmp = new System.Drawing.Bitmap(rc.Width, rc.Height, PixelFormat.Format24bppRgb);
BitmapData bmpData = bmp.LockBits(
rc,
System.Drawing.Imaging.ImageLockMode.WriteOnly,
bmp.PixelFormat);
IntPtr p = bmpData.Scan0;
int bytes = bmpData.Stride * bmp.Height;
System.Runtime.InteropServices.Marshal.Copy(buf, 0, p, bytes);
bmp.UnlockBits(bmpData);
bmp.Save("agg_test.bmp");
#if PPM
// Write a .ppm file
String hdr = String.Format("P6\n{0} {1}\n255\n", rbuf.width(), rbuf.height());
byte[] hdrBuf = ASCIIEncoding.ASCII.GetBytes(hdr);
using (FileStream strm = new FileStream("agg_test.ppm", FileMode.Create))
{
strm.Write(hdrBuf, 0, hdrBuf.Length);
strm.Write(buf, 0, (int)(rbuf.width() * rbuf.height() * 3));
}
#endif
}
