module ParasitemiaCore.ImgTools
-open System
open System.Drawing
open Emgu.CV
/// <param name="upperLimit"></param>
let normalize (img : Image<Gray, float32>) (upperLimit : float) : Image<Gray, float32> =
let min = ref [| 0.0 |]
- let minLocation = ref <| [| Point() |]
+ let minLocation = ref <| [| Point () |]
let max = ref [| 0.0 |]
- let maxLocation = ref <| [| Point() |]
- img.MinMax(min, max, minLocation, maxLocation)
+ let maxLocation = ref <| [| Point () |]
+ img.MinMax (min, max, minLocation, maxLocation)
let normalized = (img - (!min).[0]) / ((!max).[0] - (!min).[0])
if upperLimit = 1.0 then
normalized
| 0., 1., 0. -> img.[1]
| 0., 0., 1. -> img.[0]
| redFactor, greenFactor, blueFactor ->
- let result = new Image<Gray, float32>(img.Size)
- CvInvoke.AddWeighted(result, 1., img.[2], redFactor, 0., result)
- CvInvoke.AddWeighted(result, 1., img.[1], greenFactor, 0., result)
- CvInvoke.AddWeighted(result, 1., img.[0], blueFactor, 0., result)
+ let result = new Image<Gray, float32> (img.Size)
+ CvInvoke.AddWeighted (result, 1., img.[2], redFactor, 0., result)
+ CvInvoke.AddWeighted (result, 1., img.[1], greenFactor, 0., result)
+ CvInvoke.AddWeighted (result, 1., img.[0], blueFactor, 0., result)
result
let mergeChannelsWithProjection (img : Image<Bgr, float32>) (v1r : float32, v1g : float32, v1b : float32) (v2r : float32, v2g : float32, v2b : float32) (upperLimit : float) : Image<Gray, float32> =
let vr, vg, vb = v2r - v1r, v2g - v1g, v2b - v1b
let vMagnitude = sqrt (vr ** 2.f + vg ** 2.f + vb ** 2.f)
let project (r : float32) (g : float32) (b : float32) = ((r - v1r) * vr + (g - v1g) * vg + (b - v1b) * vb) / vMagnitude
- let result = new Image<Gray, float32>(img.Size)
+ let result = new Image<Gray, float32> (img.Size)
// TODO: Essayer en bindant Data pour gagner du temps
for i = 0 to img.Height - 1 do
for j = 0 to img.Width - 1 do
// Normalize image values between 0uy and 255uy.
let normalizeAndConvert (img : Image<Gray, 'TDepth>) : Image<Gray, byte> =
- (normalize (img.Convert<Gray, float32>()) 255.).Convert<Gray, byte>()
+ (normalize (img.Convert<Gray, float32> ()) 255.).Convert<Gray, byte> ()
let gaussianFilter (img : Image<'TColor, 'TDepth>) (standardDeviation : float) : Image<'TColor, 'TDepth> =
let size = 2 * int (ceil (4.0 * standardDeviation)) + 1
- img.SmoothGaussian(size, size, standardDeviation, standardDeviation)
+ img.SmoothGaussian (size, size, standardDeviation, standardDeviation)