module Classifier
open System
+open System.Collections.Generic
open System.Drawing
open Emgu.CV
open Emgu.CV.Structure
+open Types
+open Utils
-type CellClass = HealthyRBC | InfectedRBC | Peculiar
-type Cell = {
- cellClass: CellClass
- center: Point
- elements: Matrix<byte> }
+type private EllipseFlaggedKd (e: Ellipse) =
+ inherit Ellipse (e.Cx, e.Cy, e.A, e.B, e.Alpha)
-let findCells (ellipses: Types.Ellipse list) (parasites: ParasitesMarker.Result) (fg: Image<Gray, byte>) : Cell list =
- []
\ No newline at end of file
+ member val Removed = false with get, set
+
+ interface KdTree.I2DCoords with
+ member this.X = this.Cx
+ member this.Y = this.Cy
+
+
+let findCells (ellipses: Ellipse list) (parasites: ParasitesMarker.Result) (fg: Image<Gray, byte>) (config: Config.Config) : Cell list =
+ if ellipses.IsEmpty
+ then
+ []
+ else
+ let infection = parasites.infection.Copy() // To avoid to modify the parameter.
+
+ // This is the minimum window size to check if other ellipses touch 'e'.
+ let searchRegion (e: Ellipse) = { KdTree.minX = e.Cx - (e.A + config.maxRBCSize) * config.scale
+ KdTree.maxX = e.Cx + (e.A + config.maxRBCSize) * config.scale
+ KdTree.minY = e.Cy - (e.A + config.maxRBCSize) * config.scale
+ KdTree.maxY = e.Cy + (e.A + config.maxRBCSize) * config.scale }
+
+ // The minimum window to contain a given ellipse.
+ let ellipseWindow (e: Ellipse) =
+ let cx, cy = roundInt e.Cx, roundInt e.Cy
+ let a = int (e.A + 0.5)
+ cx - a, cy - a, cx + a, cy + a
+
+ // 1) Remove ellipses touching the edges.
+ let ellipsesInside = ellipses |> List.map (fun e ->
+ EllipseFlaggedKd (e, Removed = e.isOutside (float fg.Width) (float fg.Height)))
+
+ // 2) Associate touching ellipses with each ellipses.
+ let tree = KdTree.Tree.BuildTree ellipsesInside
+ let neighbors (e: Ellipse) : (EllipseFlaggedKd * PointD * PointD) list =
+ tree.Search (searchRegion e)
+ // We only keep the ellipses touching 'e'.
+ |> List.choose (fun otherE ->
+ match EEOver.EEOverlapArea e otherE with
+ | Some (area, px, py) when area > 0.0 && px.Length >= 2 && py.Length >= 2 ->
+ Some (otherE, PointD(px.[0], py.[0]), PointD(px.[1], py.[1]))
+ | _ ->
+ None )
+
+ let ellipsesWithNeigbors = ellipsesInside |> List.choose (fun e -> if e.Removed then None else Some (e, neighbors e))
+
+ // 3) Remove ellipse with a lower percentage of foreground.
+ let fgData = fg.Data
+ for e, neighbors in ellipsesWithNeigbors do
+ let minX, minY, maxX, maxY = ellipseWindow e
+
+ let mutable totalElement = 0
+ let mutable fgElement = 0
+
+ for y in minY .. maxY do
+ for x in minX .. maxX do
+ let yf, xf = float y, float x
+ if e.Contains xf yf && neighbors |> List.forall (fun (otherE, _, _) -> not <| otherE.Contains xf yf)
+ then
+ totalElement <- totalElement + 1
+ if fgData.[y, x, 0] > 0uy
+ then
+ fgElement <- fgElement + 1
+
+ if totalElement < config.minimumCellArea || (float fgElement) / (float totalElement) < config.percentageOfFgValidCell
+ then
+ e.Removed <- true
+
+ // 3) Define pixels associated to each ellipse and create the cells.
+
+ // Return 'true' if the point 'p' is owned by e.
+ // The lines represents all intersections with other ellipses.
+ let pixelOwnedByE (p: PointD) (e: Ellipse) (lines: Line list) =
+ e.Contains p.X p.Y &&
+ seq {
+ let c = PointD(e.Cx, e.Cy)
+ for d1 in lines do
+ let d2 = Utils.lineFromTwoPoints c p
+ let p' = Utils.pointFromTwoLines d1 d2
+ yield sign (c.X - p.X) <> sign (c.X - p'.X) || Utils.squaredDistanceTwoPoints c p' > Utils.squaredDistanceTwoPoints c p // 'false' -> the point is owned by another ellipse.
+ } |> Seq.forall id
+
+
+ ellipsesWithNeigbors
+ |> List.choose (fun (e, neighbors) ->
+ if e.Removed
+ then
+ None
+ else
+ let minX, minY, maxX, maxY = ellipseWindow e
+
+ let infectedPixels = List<Point>()
+ let mutable stainPixels = 0
+ let mutable darkStainPixels = 0
+ let mutable nbElement = 0
+
+ let mutable stain_x = 0.0
+ let mutable stain_x2 = 0.0
+ let mutable stain_y = 0.0
+ let mutable stain_y2 = 0.0
+
+ let mutable sumCoords_y = 0
+ let mutable sumCoords_x = 0
+
+ let elements = new Matrix<byte>(maxY - minY + 1, maxX - minX + 1)
+ for y in minY .. maxY do
+ for x in minX .. maxX do
+ let p = PointD(float x, float y)
+ if pixelOwnedByE p e (neighbors |> List.choose (fun (otherE, p1, p2) -> if otherE.Removed then None else Some (Utils.lineFromTwoPoints p1 p2))) &&
+ fg.Data.[y, x, 0] > 0uy
+ then
+ elements.[y-minY, x-minX] <- 1uy
+ nbElement <- nbElement + 1
+ sumCoords_y <- sumCoords_y + y
+ sumCoords_x <- sumCoords_x + x
+
+ if infection.Data.[y, x, 0] > 0uy
+ then
+ infectedPixels.Add(Point(x, y))
+
+ if parasites.stain.Data.[y, x, 0] > 0uy
+ then
+ stainPixels <- stainPixels + 1
+ stain_x <- stain_x + (float x)
+ stain_x2 <- stain_x2 + (float x) ** 2.0
+ stain_y <- stain_y + (float y)
+ stain_y2 <- stain_y2 + (float y) ** 2.0
+
+ if parasites.darkStain.Data.[y, x, 0] > 0uy
+ then
+ darkStainPixels <- darkStainPixels + 1
+
+ let cellClass =
+ if float darkStainPixels > config.MaxDarkStainRatio * (float nbElement) (* ||
+ sqrt (((float sumCoords_x) / (float nbElement) - e.Cx) ** 2.0 + ((float sumCoords_y) / (float nbElement) - e.Cy) ** 2.0) > e.A * config.maxOffcenter *)
+ then
+ Peculiar
+ elif infectedPixels.Count > config.infectionPixelsRequired
+ then
+ let infectionToRemove = ImgTools.connectedComponents parasites.stain infectedPixels
+ for p in infectionToRemove do
+ infection.Data.[p.Y, p.X, 0] <- 0uy
+ InfectedRBC
+ else
+ HealthyRBC
+
+ Some { cellClass = cellClass
+ center = Point(roundInt e.Cx, roundInt e.Cy)
+ elements = elements })