LEADTOOLS (Leadtools assembly)
SetLookupTable Method
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| Leadtools Namespace > RasterImage Class : SetLookupTable Method |
public void SetLookupTable( RasterColor[] value )
'Declaration Public Sub SetLookupTable( _ ByVal value() As RasterColor _ )
'Usage Dim instance As RasterImage Dim value() As RasterColor instance.SetLookupTable(value)
public void SetLookupTable( RasterColor[] value )
-(BOOL)setLookupTable:(NSArray*)value error:(NSError**)outError;
public void setLookupTable(RasterColor[] value)
function Leadtools.RasterImage.SetLookupTable( value )
public: void SetLookupTable( array<RasterColor>^ value )
The lookup table (LUT) is used when the value of UseLookupTable is set to true.
The 8-bit and 16-bit lookup tables are synchronized, so when you change one, the other is changed as well The 16-bit lookup table (SetLookupTable16) has more precision so it is recommended you use the 16-bit LUT instead of the 8-bit LUT.
LUT is only used for 10-16 bit extended grayscale image or 10-16 bit palette color image. To update the palette in 1-8 bit image use SetPalette. For more information, refer to Grayscale Images.
LUT is also used for displaying extended Palette color image such as bit stored is 16-bit and LUT contains color value. This is typical of Ultra Sound image.
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Imports Leadtools Imports Leadtools.Codecs Imports Leadtools.ImageProcessing Imports Leadtools.ImageProcessing.Core Imports Leadtools.ImageProcessing.Color Imports Leadtools.WinForms Imports Leadtools.Dicom Imports Leadtools.Drawing Private Sub SetLookupTable() DicomEngine.Startup() ' Get the path of the LEADTOOLS images directory Dim strImagesDirectory As String = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments) & "//LEADTOOLS Images//" ' Create a RasterCodecs class for saving out images Dim codecs As RasterCodecs = New RasterCodecs() ' Load a dataset Dim ds As DicomDataSet = New DicomDataSet() ds.Load(strImagesDirectory & "IMAGE3.dcm", DicomDataSetLoadFlags.None) ' Get the image but do NOT auto-apply any of the LUTs Dim element As DicomElement = ds.FindFirstElement(Nothing, DicomTag.PixelData, True) Dim image As RasterImage = ds.GetImage(element, 0, 16, RasterByteOrder.Gray, DicomGetImageFlags.None) image.UseLookupTable = True ' Save out the image without any LUTs applied. It should be black codecs.Save(image, strImagesDirectory & "BeforeSetLookupTable.bmp", RasterImageFormat.Bmp, 8) ' Create a LUT Dim lut As RasterColor() = New RasterColor(CInt(Math.Pow(2, 16)) - 1) {} ' Get the Minimum and Maximum values so we can calculate appropriate LUT values. Dim cmdMinMax As MinMaxValuesCommand = New MinMaxValuesCommand() cmdMinMax.Run(image) Dim maxVal As Integer = cmdMinMax.MaximumValue Dim minVal As Integer = cmdMinMax.MinimumValue Dim i As Integer = 0 Do While i < lut.Length lut(i).R = Convert.ToByte(Math.Min(255, ((i - minVal) * 255 / (maxVal - minVal)))) lut(i).G = lut(i).R lut(i).B = lut(i).R i += 1 Loop ' Set the new lookup table image.SetLookupTable(lut) ' Save out the image with the LUT applied. It should look normal codecs.Save(image, strImagesDirectory & "AfterSetLookupTable.bmp", RasterImageFormat.Bmp, 8) DicomEngine.Shutdown() End Sub
using Leadtools; using Leadtools.Codecs; using Leadtools.ImageProcessing; using Leadtools.ImageProcessing.Core; using Leadtools.ImageProcessing.Color; using Leadtools.WinForms; using Leadtools.Dicom; using Leadtools.Drawing; public void SetLookupTable() { DicomEngine.Startup(); // Create a RasterCodecs class for saving out images RasterCodecs codecs = new RasterCodecs(); // Load a dataset DicomDataSet ds = new DicomDataSet(); ds.Load(Path.Combine(ImagesPath.Path, "IMAGE3.dcm"), DicomDataSetLoadFlags.None); // Get the image but do NOT auto-apply any of the LUTs DicomElement element = ds.FindFirstElement(null, DicomTag.PixelData, true); RasterImage image = ds.GetImage(element, 0, 16, RasterByteOrder.Gray, DicomGetImageFlags.None); image.UseLookupTable = true; // Save out the image without any LUTs applied. It should be black codecs.Save(image, Path.Combine(ImagesPath.Path, "BeforeSetLookupTable.bmp"), RasterImageFormat.Bmp, 8); // Create a LUT RasterColor[] lut = new RasterColor[(int)Math.Pow(2, 16)]; // Get the Minimum and Maximum values so we can calculate appropriate LUT values. MinMaxValuesCommand cmdMinMax = new MinMaxValuesCommand(); cmdMinMax.Run(image); int maxVal = cmdMinMax.MaximumValue; int minVal = cmdMinMax.MinimumValue; for(int i = 0; i < lut.Length; i++) { lut[i].R = Convert.ToByte(Math.Min(255, ((i - minVal) * 255 / (maxVal - minVal)))); lut[i].G = lut[i].R; lut[i].B = lut[i].R; } // Set the new lookup table image.SetLookupTable(lut); // Save out the image with the LUT applied. It should look normal codecs.Save(image, Path.Combine(ImagesPath.Path, "AfterSetLookupTable.bmp"), RasterImageFormat.Bmp, 8); DicomEngine.Shutdown(); }
RasterImageExamples.prototype.SetLookupTable = function ( ) { Tools.SetLicense ( ) ; with (Leadtools) { with (Leadtools.Codecs) { with (Leadtools.Dicom) { DicomEngine.startup(); // Create a RasterCodecs class for saving out images var codecs = new RasterCodecs(); var image; // Load a dataset var ds = new DicomDataSet(); var srcFileName = "Assets\\IMAGE3.dcm"; return Tools.AppInstallFolder().getFileAsync(srcFileName).then(function (loadFile) { return ds.loadAsync(LeadStreamFactory.create(loadFile), DicomDataSetLoadFlags.none)}) .then(function () { // Get the image but do NOT auto-apply any of the LUTs var element = ds.findFirstElement(null, Leadtools.Dicom.Constants.DicomTagConstants.pixel_DATA, true); image = ds.getImage(element, 0, 16, DicomGetImageFlags.none); image.useLookupTable = true; // Save out the image without any LUTs applied. It should be black return Tools.AppLocalFolder().createFileAsync("BeforeSetLookupTable.bmp") }) .then(function (saveFile) { var saveStream = LeadStreamFactory.create(saveFile); return codecs.saveAsync(image, saveStream, RasterImageFormat.bmp, 8) }) .then(function () { // Create a LUT var lut = new Array(Math.pow(2, 16)); // Get the Minimum and Maximum values so we can calculate appropriate LUT values. var cmdMinMax = new Leadtools.ImageProcessing.Core.MinMaxValuesCommand(); cmdMinMax.run(image); var maxVal = cmdMinMax.maximumValue; var minVal = cmdMinMax.minimumValue; for (var i = 0; i < lut.length; i++) { var color = {}; color.a = 255; color.reserved = 0; color.r = Math.max(0, (Math.min(255, ((i - minVal) * 255 / (maxVal - minVal))))); color.g = color.r; color.b = color.r; lut[i] = color; } // Set the new lookup table image.setLookupTable(lut); // Save out the image with the LUT applied. It should look normal return Tools.AppLocalFolder().createFileAsync("AfterSetLookupTable.bmp") }) .then(function (saveFile) { saveStream = LeadStreamFactory.create(saveFile); return codecs.saveAsync(image, saveStream, RasterImageFormat.bmp, 0) }) .then(function () { DicomEngine.shutdown(); }); } } } }
using Leadtools;
using Leadtools.Codecs;
using Leadtools.ImageProcessing;
using Leadtools.ImageProcessing.Core;
using Leadtools.ImageProcessing.Color;
using Leadtools.Dicom;
public async Task SetLookupTable()
{
DicomEngine.Startup();
// Create a RasterCodecs class for saving out images
RasterCodecs codecs = new RasterCodecs();
// Load a dataset
DicomDataSet ds = new DicomDataSet();
string srcFileName = @"Assets\IMAGE3.dcm";
StorageFile loadFile = await Tools.AppInstallFolder.GetFileAsync(srcFileName);
await ds.LoadAsync(LeadStreamFactory.Create(loadFile), DicomDataSetLoadFlags.None);
// Get the image but do NOT auto-apply any of the LUTs
DicomElement element = ds.FindFirstElement(null, Leadtools.Dicom.Constants.DicomTagConstants.PixelData, true);
RasterImage image = ds.GetImage(element, 0, 16, DicomGetImageFlags.None);
image.UseLookupTable = true;
// Save out the image without any LUTs applied. It should be black
StorageFile saveFile = await Tools.AppLocalFolder.CreateFileAsync("BeforeSetLookupTable.bmp");
ILeadStream saveStream = LeadStreamFactory.Create(saveFile);
await codecs.SaveAsync(image, saveStream, RasterImageFormat.Bmp, 8);
// Create a LUT
RasterColor[] lut = new RasterColor[(int)Math.Pow(2, 16)];
// Get the Minimum and Maximum values so we can calculate appropriate LUT values.
MinMaxValuesCommand cmdMinMax = new MinMaxValuesCommand();
cmdMinMax.Run(image);
int maxVal = cmdMinMax.MaximumValue;
int minVal = cmdMinMax.MinimumValue;
for (int i = 0; i < lut.Length; i++)
{
lut[i].R = Convert.ToByte(Math.Min(255, ((i - minVal) * 255 / (maxVal - minVal))));
lut[i].G = lut[i].R;
lut[i].B = lut[i].R;
}
// Set the new lookup table
image.SetLookupTable(lut);
// Save out the image with the LUT applied. It should look normal
saveFile = await Tools.AppLocalFolder.CreateFileAsync("AfterSetLookupTable.bmp");
saveStream = LeadStreamFactory.Create(saveFile);
await codecs.SaveAsync(image, saveStream, RasterImageFormat.Bmp, 0);
DicomEngine.Shutdown();
}using Leadtools; using Leadtools.Codecs; using Leadtools.Dicom; using Leadtools.ImageProcessing; using Leadtools.ImageProcessing.Core; using Leadtools.ImageProcessing.Color; using Leadtools.Examples; using Leadtools.Windows.Media; public void SetLookupTable(Stream dataSetStream, Stream destStream1, Stream destStream2) { // Create a RasterCodecs class for saving out images RasterCodecs codecs = new RasterCodecs(); // Load a dataset DicomDataSet ds = new DicomDataSet(); ds.Load(dataSetStream, DicomDataSetLoadFlags.None); // Get the image but do NOT auto-apply any of the LUTs DicomElement element = ds.FindFirstElement(null, DicomTag.PixelData, true); RasterImage image = ds.GetImage(element, 0, 16, RasterByteOrder.Gray, DicomGetImageFlags.None); image.UseLookupTable = true; // Save out the image without any LUTs applied. It should be black codecs.Save(image, destStream1, RasterImageFormat.Bmp, 8); // Create a LUT RasterColor[] lut = new RasterColor[(int)Math.Pow(2, 16)]; // Get the Minimum and Maximum values so we can calculate appropriate LUT values. MinMaxValuesCommand cmdMinMax = new MinMaxValuesCommand(); cmdMinMax.Run(image); int maxVal = cmdMinMax.MaximumValue; int minVal = cmdMinMax.MinimumValue; for (int i = 0; i < lut.Length; i++) { lut[i].R = Convert.ToByte(Math.Min(255, ((i - minVal) * 255 / (maxVal - minVal)))); lut[i].G = lut[i].R; lut[i].B = lut[i].R; } // Set the new lookup table image.SetLookupTable(lut); // Save out the image with the LUT applied. It should look normal codecs.Save(image, destStream2, RasterImageFormat.Bmp, 8); DicomEngine.Shutdown(); }
Imports Leadtools Imports Leadtools.Codecs Imports Leadtools.Dicom Imports Leadtools.ImageProcessing Imports Leadtools.ImageProcessing.Core Imports Leadtools.ImageProcessing.Color Imports Leadtools.Windows.Media Public Sub SetLookupTable(ByVal dataSetStream As Stream, ByVal destStream1 As Stream, ByVal destStream2 As Stream) ' Create a RasterCodecs class for saving out images Dim codecs As RasterCodecs = New RasterCodecs() ' Load a dataset Dim ds As DicomDataSet = New DicomDataSet() ds.Load(dataSetStream, DicomDataSetLoadFlags.None) ' Get the image but do NOT auto-apply any of the LUTs Dim element As DicomElement = ds.FindFirstElement(Nothing, DicomTag.PixelData, True) Dim image As RasterImage = ds.GetImage(element, 0, 16, RasterByteOrder.Gray, DicomGetImageFlags.None) image.UseLookupTable = True ' Save out the image without any LUTs applied. It should be black codecs.Save(image, destStream1, RasterImageFormat.Bmp, 8) ' Create a LUT Dim lut As RasterColor() = New RasterColor(CInt(Math.Pow(2, 16)) - 1){} ' Get the Minimum and Maximum values so we can calculate appropriate LUT values. Dim cmdMinMax As MinMaxValuesCommand = New MinMaxValuesCommand() cmdMinMax.Run(image) Dim maxVal As Integer = cmdMinMax.MaximumValue Dim minVal As Integer = cmdMinMax.MinimumValue Dim i As Integer = 0 Do While i < lut.Length lut(i).R = Convert.ToByte(Math.Min(255, ((i - minVal) * 255 / (maxVal - minVal)))) lut(i).G = lut(i).R lut(i).B = lut(i).R i += 1 Loop ' Set the new lookup table image.SetLookupTable(lut) ' Save out the image with the LUT applied. It should look normal codecs.Save(image, destStream2, RasterImageFormat.Bmp, 8) DicomEngine.Shutdown() End Sub
