Initializes a new FunctionalLightCommand class object with explicit parameters.
public FunctionalLightCommand(
int frequency,
int redAmplitude,
int greenAmplitude,
int blueAmplitude,
int angle,
int[] buffer,
FunctionalLightCommandFlags flags
)
Public Function New( _
ByVal frequency As Integer, _
ByVal redAmplitude As Integer, _
ByVal greenAmplitude As Integer, _
ByVal blueAmplitude As Integer, _
ByVal angle As Integer, _
ByVal buffer() As Integer, _
ByVal flags As FunctionalLightCommandFlags _
)
public:
FunctionalLightCommand(
int frequency,
int redAmplitude,
int greenAmplitude,
int blueAmplitude,
int angle,
array<int>^ buffer,
FunctionalLightCommandFlags flags
)
frequency
Value that represents the frequency factor. This parameter is used if the FunctionalLightCommandFlags.Trigonometry or FunctionalLightCommandFlags.Freehand flag is set. Valid values range from 1 - 10000. This value is divided internally by 100 (corresponding to a real interval of 0.01 - 100.0).
redAmplitude
If the image is grayscale, this parameter represents the amplitude of the master channel. If the image is color and FunctionalLightCommandFlags.Multiply or FunctionalLightCommandFlags.LinearQuadratic flags are set, this parameter represents the amplitude of each channel. If the image is color and the FunctionalLightCommandFlags.Addition flag is set, this represents the amplitude of the red channel. This value is an integer with a value greater than or equal to 0. This value will be multiplied with the results of the selected function (sine, cosine, user buffer , _). The results of the multiplications are then added to the pixel values. These functions as well as the real buffer values are from -1 to 1. Possible values for this parameter are from 0-100.
greenAmplitude
Value that represents the amplitude of the green color when the addition operation is used (FunctionalLightCommandFlags.Addition flag is set). This value is ignored when grayscale images are used or when the multiplication operation is used (FunctionalLightCommandFlags.Multiply flag is set). This value is also ignored if the FunctionalLightCommandFlags.LinearQuadratic flag is set. Possible values for this parameter are from 0 - 100.
blueAmplitude
Value that represents the amplitude of the blue color when the addition operation is used (FunctionalLightCommandFlags.Addition flag is set). This value is ignored when grayscale images are used or when the multiplication operation is used ( FunctionalLightCommandFlags.Multiply flag is set). This value is also ignored if the FunctionalLightCommandFlags.LinearQuadratic flag is set. Possible values for this parameter are from 0 -100.
angle
Value that represents the angle, in hundredths of degrees. This parameter is used if the FunctionalLightCommandFlags.Trigonometry or FunctionalLightCommandFlags.Freehand flag is set. Valid values for this parameter range from -18000 to 18000. This value is divided internally by 100.
buffer
Array that holds all points that represents the shape drawn by the user. This parameter is used only if the FunctionalLightCommandFlags.Freehand flag is set. These values should be between -1000 and 1000. They are internally divided by 1000, so the real values are between -1 and 1.
flags
Flags that indicate the function applied to the image. For a list of the available flags, refer to FunctionalLightCommandFlags.
Run the FunctionalLightCommand on an image.
using Leadtools;
using Leadtools.Codecs;
using Leadtools.ImageProcessing.SpecialEffects;
using Leadtools.ImageProcessing.Effects;
public void FunctionalLightConstructorExample_S3()
{
// Load an image
RasterCodecs codecs = new RasterCodecs();
codecs.ThrowExceptionsOnInvalidImages = true;
RasterImage image = codecs.Load(Path.Combine(LEAD_VARS.ImagesDir, "IMAGE1.CMP"));
// Prepare the command
LeadPoint[] userPoint = new LeadPoint[4];
//Apply the filter
userPoint[0].X = 0;
userPoint[0].Y = 0;
userPoint[1].X = 3;
userPoint[1].Y = 5;
userPoint[2].X = 9;
userPoint[2].Y = 7;
userPoint[3].X = 12;
userPoint[3].Y = 10;
int[] curve = new int[13];
EffectsUtilities.GetCurvePoints(curve, userPoint, CurvePointsType.Linear);
FunctionalLightCommand command = new FunctionalLightCommand(5000, 90, 50, 70, 4500, curve, FunctionalLightCommandFlags.Freehand | FunctionalLightCommandFlags.Addition);
// Apply the linear lighting effect.
command.Run(image);
codecs.Save(image, Path.Combine(LEAD_VARS.ImagesDir, "Result.jpg"), RasterImageFormat.Jpeg, 24);
}
static class LEAD_VARS
{
public const string ImagesDir = @"C:\Users\Public\Documents\LEADTOOLS Images";
}
Imports Leadtools
Imports Leadtools.Codecs
Imports Leadtools.ImageProcessing.SpecialEffects
Imports Leadtools.ImageProcessing.Effects
Public Sub FunctionalLightConstructorExample_S3()
Dim codecs As New RasterCodecs()
codecs.ThrowExceptionsOnInvalidImages = True
Dim leadImage As RasterImage = codecs.Load(Path.Combine(LEAD_VARS.ImagesDir, "IMAGE1.CMP"))
' Prepare the command
Dim userPoint() As LeadPoint
ReDim userPoint(3)
'Apply the filter
userPoint(0).X = 0
userPoint(0).Y = 0
userPoint(1).X = 3
userPoint(1).Y = 10
userPoint(2).X = 9
userPoint(2).Y = -10
userPoint(3).X = 12
userPoint(3).Y = 0
Dim curve() As Integer
ReDim curve(12)
EffectsUtilities.GetCurvePoints(curve, userPoint, CurvePointsType.Linear)
Dim command As FunctionalLightCommand = New FunctionalLightCommand(5000, 90, 50, 70, 4500, curve, FunctionalLightCommandFlags.Freehand Or FunctionalLightCommandFlags.Addition)
' Apply the linear lighting effect.
command.Run(leadImage)
codecs.Save(leadImage, Path.Combine(LEAD_VARS.ImagesDir, "Result.jpg"), RasterImageFormat.Jpeg, 24)
End Sub
Public NotInheritable Class LEAD_VARS
Public Const ImagesDir As String = "C:\Users\Public\Documents\LEADTOOLS Images"
End Class
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