9662049ebc6c793f2c9f39b4a5173a1416fc6fc4
1
module ParasitemiaCore.Drawing
12 let drawPoints (img
: Image<Gray, 'TDepth>) (points : Points) (intensity : 'TDepth) =
14 img
.Data.[p
.Y, p
.X, 0] <- intensity
16 let drawLine (img
: Image<'TColor, 'TDepth>) (color
: 'TColor) (x0 : int) (y0 : int) (x1 : int) (y1 : int) (thickness : int) =
17 img.Draw(LineSegment2D(Point(x0, y0), Point(x1, y1)), color, thickness);
19 let drawLineF (img : Image<'TColor, 'TDepth>) (color : 'TColor) (x0
: float) (y0
: float) (x1
: float) (y1
: float) (thickness
: int) =
20 img
.Draw(LineSegment2DF(PointF(float32 x0
, float32 y0
), PointF(float32 x1
, float32 y1
)), color
, thickness
, CvEnum.LineType.AntiAlias);
22 let drawEllipse (img
: Image<'TColor, 'TDepth>) (e
: Ellipse) (color
: 'TColor) (alpha : float) =
24 img.Draw(Emgu.CV.Structure.Ellipse(PointF(e.Cx, e.Cy), SizeF(2.f * e.B, 2.f * e.A), e.Alpha / PI * 180.f), color, 1, CvEnum.LineType.AntiAlias)
26 let windowPosX = e.Cx - e.A - 5.f
27 let gapX = windowPosX - (float32 (int windowPosX))
29 let windowPosY = e.Cy - e.A - 5.f
30 let gapY = windowPosY - (float32 (int windowPosY))
32 let roi = Rectangle(int windowPosX, int windowPosY, 2.f * (e.A + 5.f) |> int, 2.f * (e.A + 5.f) |> int)
35 if roi = img.ROI then // We do not display ellipses touching the edges (FIXME)
36 use i = new Image<'TColor, 'TDepth>(img.ROI.Size)
37 i.Draw(Emgu.CV.Structure.Ellipse(PointF(e.A + 5.f + gapX, e.A + 5.f + gapY), SizeF(2.f * e.B, 2.f * e.A), e.Alpha / PI * 180.f), color, 1, CvEnum.LineType.AntiAlias)
38 CvInvoke.AddWeighted(img, 1.0, i, alpha, 0.0, img)
39 img.ROI <- Rectangle.Empty
41 let drawEllipses (img : Image<'TColor, 'TDepth>) (ellipses : Ellipse list) (color : 'TColor) (alpha
: float) =
42 List.iter
(fun e
-> drawEllipse img e
color alpha
) ellipses
44 let rngCell = System.Random()
45 let drawCell (img : Image<Bgr, byte
>) (drawCellContent
: bool) (c
: Cell) =
46 if drawCellContent
then
47 let colorB = rngCell.Next(20, 70)
48 let colorG = rngCell.Next(20, 70)
49 let colorR = rngCell.Next(20, 70)
51 for y
= 0 to c
.elements
.Height - 1 do
52 for x
= 0 to c
.elements
.Width - 1 do
53 if c
.elements
.[y
, x
] > 0uy then
54 let dx, dy
= c
.center
.X - c
.elements
.Width / 2, c
.center
.Y - c
.elements
.Height / 2
55 let b = img.Data.[y
+ dy
, x
+ dx, 0] |> int
56 let g = img.Data.[y
+ dy
, x
+ dx, 1] |> int
57 let r = img.Data.[y
+ dy
, x
+ dx, 2] |> int
58 img.Data.[y
+ dy
, x
+ dx, 0] <- if b + colorB > 255 then 255uy else byte (b + colorB)
59 img.Data.[y
+ dy
, x
+ dx, 1] <- if g + colorG > 255 then 255uy else byte (g + colorG)
60 img.Data.[y
+ dy
, x
+ dx, 2] <- if r + colorR > 255 then 255uy else byte (r + colorR)
62 let crossColor, crossColor2
=
63 match c
.cellClass
with
64 | HealthyRBC -> Bgr(255., 0., 0.), Bgr(255., 255., 255.)
65 | InfectedRBC -> Bgr(0., 0., 255.), Bgr(120., 120., 255.)
66 | Peculiar -> Bgr(0., 0., 0.), Bgr(80., 80., 80.)
68 drawLine img crossColor2
(c
.center
.X - 3) c
.center
.Y (c
.center
.X + 3) c
.center
.Y 2
69 drawLine img crossColor2 c
.center
.X (c
.center
.Y - 3) c
.center
.X (c
.center
.Y + 3) 2
71 drawLine img crossColor (c
.center
.X - 3) c
.center
.Y (c
.center
.X + 3) c
.center
.Y 1
72 drawLine img crossColor c
.center
.X (c
.center
.Y - 3) c
.center
.X (c
.center
.Y + 3) 1
74 let drawCells (img : Image<Bgr, byte>) (drawCellContent
: bool) (cells
: Cell list) =
75 List.iter
(fun c
-> drawCell img drawCellContent
c) cells