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using Google.Protobuf;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using Tango.Core.ExtensionMethods;
using Tango.PMR.ColorLab;
namespace Tango.ColorLib.LightInksTest.CLI
{
class Program
{
static void Main(string[] args)
{
ColorLibConnector connector = new ColorLibConnector();
//Stopwatch watch = new Stopwatch();
//watch.Start();
Console.WriteLine();
//Input RGB [127, 131, 201]
Console.WriteLine("Test RGB with Light Inks, R=127, G=120, B=201");
ConversionInput input = CreateConversionInput(PMR.ColorLab.ColorSpace.Rgb, new double[3] { 127, 120, 201 }, true);
ConversionOutput result = connector.Convert(input);
IsTestPassed(result, new double[7] { 11.2, 9.38, 0, 0, 0, 0, 5 });
//Console.WriteLine($"Result Convert RGB with LightInk flag TRUE result:\n{result.ToJsonString()}");
Console.WriteLine("Test RGB R=127, G=120, B=201");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Rgb, new double[3] { 127, 120, 201 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 11.2, 9.38, 0.5, 0 });
Console.WriteLine("Test LAB with Light Inks L=54.2, A=22.04, B=-41.25");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Lab, new double[3] { 54.2, 22.04, -41.25 }, true);
result = connector.Convert(input);
IsTestPassed(result, new double[7] { 11.2, 9.38, 0, 0, 0, 0, 5 });
Console.WriteLine("Test LAB L=54.2, A=22.04, B=-41.25");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Lab, new double[3] { 54.2, 22.04,-41.25 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 11.2, 9.38, 0.5, 0 });
Console.WriteLine("Test LAB with Light Inks L=90.02, A=-16.27, B=27.12");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Lab, new double[3] { 90.02, -16.27, 27.12 }, true);
result = connector.Convert(input);
IsTestPassed(result, new double[7] { 0, 0, 7.34, 0, 19.95, 5, 0 });
Console.WriteLine("Test LAB L=90.02, A=-16.27, B=27.12");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Lab, new double[3] { 90.02, -16.27, 27.12 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] {1.995, 0.5 , 7.34, 0 });
////// CATALOG //////////////////////////////////////////////////////////////////////////////////////////////////////
//Console.WriteLine("Test CATALOG C=29.05, M=1, Y=0, K = 18.77");
//input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 29.05, 1, 0, 18.77 }, false);
//result = connector.Convert(input);
//IsTestPassed(result, new double[4] { 29.05, 1, 0, 18.77 });
//Console.WriteLine("Test CATALOG with Light Inks, C=29.05, M=1, Y=0, K = 18.77");
//input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 29.05, 1, 0, 18.77 }, true);
//result = connector.Convert(input);
//IsTestPassed(result, new double[7] { 29.05, 0, 0, 18.77, 0, 10, 0 });
Console.WriteLine("Test CATALOG C=1, M=3, Y=30, K = 0");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 1, 3, 30, 0 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 1, 3, 30, 0 });
Console.WriteLine("Test CATALOG C=1, M=3, Y=30, K = 0");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 1, 3, 30, 0 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 1, 3, 30, 0 });
Console.WriteLine("Test CATALOG with Light Inks, C=1, M=3, Y=30, K = 0");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 1, 3, 30, 0 }, true);
result = connector.Convert(input);
IsTestPassed(result, new double[7] { 0, 0, 30, 0, 10, 30, 0 });
//Console.WriteLine("Test CATALOG C=180, M=1, Y=3, K = 0");
//input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 180, 1, 3, 0 }, false);
//result = connector.Convert(input);
//IsTestPassed(result, new double[4] { 180, 1, 3, 0 });
//Console.WriteLine("Test CATALOG with Light Inks, C=180, M=1, Y=3, K = 0");
//input = CreateConversionInput(PMR.ColorLab.ColorSpace.Catalog, new double[4] { 180, 1, 3, 0 }, true);
//result = connector.Convert(input);
//IsTestPassed(result, new double[7] { 180, 1, 3, 0, 0, 0, 0 });
///// VOLUME ////////////////////////////////////////////////////////////////////////////////////////
Console.WriteLine("Test VOLUME with Light Inks, C=29.05, M=1, Y=0, K = 18.77");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Volume, new double[4] { 29.05, 1, 0, 18.77 }, true);
result = connector.Convert(input);
IsTestPassed(result, new double[7] { 29.05, 0, 0, 18.77, 0, 10, 0 });
Console.WriteLine("Test VOLUME, C=29.05, M=1, Y=0, K = 18.77");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Volume, new double[4] { 29.05, 1, 0, 18.77 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 29.05, 1, 0, 18.77 });
Console.WriteLine("Test VOLUME with Light Inks, C=180, M=1, Y=3, K = 0");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Volume, new double[4] { 180, 1, 3, 0 }, true);
result = connector.Convert(input);
IsTestPassed(result, new double[7] { 180, 1, 3, 0, 0, 0, 0 });
Console.WriteLine("Test VOLUME , C=180, M=1, Y=3, K = 0");
input = CreateConversionInput(PMR.ColorLab.ColorSpace.Volume, new double[4] { 180, 1, 3, 0 }, false);
result = connector.Convert(input);
IsTestPassed(result, new double[4] { 180, 1, 3, 0 });
//watch.Stop();
//Console.WriteLine($"Processing completed after: {watch.ElapsedMilliseconds.ToString()} milliseconds.");
Console.WriteLine();
Console.WriteLine("Press return to exit...");
Console.ReadLine();
}
public static ConversionInput CreateConversionInput(PMR.ColorLab.ColorSpace colorSpace, double[] values, bool useLightInks)
{
ConversionInput input = new ConversionInput();
input.ThreadL = 90.5033;
input.ThreadA = 2.9299;
input.ThreadB = -11.4033;
input.ColorSpace = colorSpace;
input.InputCoordinates = GetColorInputCoordinates(colorSpace, values);
//Process Ranges
input.ProcessRanges.Add(new ProcessRange()
{
MinInkUptake = 200,
MaxInkUptake = 200,
});
input.ProcessRanges.Add(new ProcessRange()
{
MinInkUptake = 200,
MaxInkUptake = 400,
});
input.ForwardData = ByteString.CopyFrom(File.ReadAllBytes(@"Sylko_IL400_BL95_C200R_1N.cct"));
//RML Liquid Factors
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.Cyan,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Cyan),
MaxNanoliterPerCentimeter = 200,
});
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.Magenta,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Magenta),
MaxNanoliterPerCentimeter = 200,
});
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.Yellow,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Yellow),
MaxNanoliterPerCentimeter = 200,
});
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.Black,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Black),
MaxNanoliterPerCentimeter = 200,
});
if (colorSpace == PMR.ColorLab.ColorSpace.Volume)
{
int index = 0;
foreach (var liquid in input.InputCoordinates.InputLiquids)
{
liquid.Volume = values[index++];
}
}
if (useLightInks)
{
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.LightCyan,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Cyan),
MaxNanoliterPerCentimeter = 200,
});
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.LightMagenta,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Magenta),
MaxNanoliterPerCentimeter = 200,
});
input.InputCoordinates.InputLiquids.Add(new InputLiquid()
{
LiquidType = LiquidType.LightYellow,
CalibrationData = CreateCalibrationData(colorSpace, LiquidType.Yellow),
MaxNanoliterPerCentimeter = 200,
});
}
input.GenerateHive = false;
input.UseLightInks = useLightInks;
input.VMax = 5;
return input;
}
public static CalibrationData CreateCalibrationData(PMR.ColorLab.ColorSpace colorSpace, PMR.ColorLab.LiquidType liquidType)
{
if(colorSpace == ColorSpace.Catalog && CalibrationDataSCVReader.getInstance().CalibrationDataDictionary.ContainsKey(liquidType))
{
return CalibrationDataSCVReader.getInstance().CalibrationDataDictionary[liquidType];
}
else
{
CalibrationData data = new CalibrationData();
data.LiquidType = liquidType;
for (int i = 0; i < 101; i++)
{
data.CalibrationPoints.Add(new CalibrationPoint()
{
X = i,
Y = i,
});
}
return data;
}
}
public static InputCoordinates GetColorInputCoordinates(PMR.ColorLab.ColorSpace colorSpace, double[] values)
{
InputCoordinates inputCoordinates = new InputCoordinates();
if (colorSpace == PMR.ColorLab.ColorSpace.Rgb)
{
inputCoordinates.Red = (int)values[0];
inputCoordinates.Green = (int)values[1];
inputCoordinates.Blue = (int)values[2];
}
else if (colorSpace == PMR.ColorLab.ColorSpace.Lab)
{//55.39, 40.56, 56.69
inputCoordinates.L = values[0];
inputCoordinates.A = values[1];
inputCoordinates.B = values[2];
}
else if (colorSpace == PMR.ColorLab.ColorSpace.Cmyk || colorSpace == PMR.ColorLab.ColorSpace.Catalog)
{
inputCoordinates.Cyan = values[0];
inputCoordinates.Magenta = values[1];
inputCoordinates.Yellow = values[2];
inputCoordinates.Key = values[3];
}
return inputCoordinates;
}
public static bool IsTestPassed(ConversionOutput result, double[] expectedValues)
{
List<String> errors = new List<string>();
if (result.SingleCoordinates.OutputLiquids.Count != expectedValues.Length)
{
errors.Add($"Number of returned inks {result.SingleCoordinates.OutputLiquids.Count}, expected value {expectedValues.Length}");
}
if (errors.Count == 0)
{
for (int index = 0; index < expectedValues.Count(); index++)
{
var liquid = result.SingleCoordinates.OutputLiquids[index];
if (Math.Abs(liquid.Volume - expectedValues[index]) > 0.1)
{
errors.Add($"{liquid.LiquidType} value = {liquid.Volume}. expected value = {expectedValues[index]}");
}
}
}
if (errors.Count > 0)
{
Console.ForegroundColor = ConsoleColor.Red;
foreach (var error in errors)
{
Console.WriteLine(error);
}
Console.ForegroundColor = ConsoleColor.Gray;
Console.WriteLine();
return false;
}
else
{
Console.ForegroundColor = ConsoleColor.Green;
Console.WriteLine($"Passed.");
Console.ForegroundColor = ConsoleColor.Gray;
Console.WriteLine();
return true;
}
}
}
}
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