public Bitmap GetBitmap(double min, double max, ScaleTypes scaleType)
{
ScaleMap scale;
lastScale = scaleType;
lastBitmapMin = min;
lastBitmapMax = max;
switch (scaleType)
{
default:
case ScaleTypes.Linear:
scale = new ScaleLinear(min, max);
break;
case ScaleTypes.Log:
scale = new ScaleLog(min, max);
break;
case ScaleTypes.Power:
scale = new ScalePow(min, max);
break;
case ScaleTypes.SquareRoot:
scale = new ScaleSqrt(min, max);
break;
case ScaleTypes.HistogramEqualization:
scale = new HistogramEqualization(this, min, max);
break;
}
try
{
switch (DataType)
{
case DataTypes.Byte:
return(GetBitmapByte(min, max, scale));
case DataTypes.Int16:
return(GetBitmapShort(min, max, scale));
case DataTypes.Int32:
return(GetBitmapInt(min, max, scale));
case DataTypes.Float:
return(GetBitmapFloat(min, max, scale));
case DataTypes.Double:
return(GetBitmapDouble(min, max, scale));
case DataTypes.None:
default:
return(new Bitmap(100, 100));
}
}
catch
{
return(new Bitmap(10, 10));
}
}
public Bitmap GetBitmap(double min, double max, ScaleTypes scaleType)
{
ScaleMap scale;
lastScale = scaleType;
lastBitmapMin = min;
lastBitmapMax = max;
switch (scaleType)
{
case ScaleTypes.Linear:
scale = new ScaleLinear(min, max);
break;
case ScaleTypes.Log:
scale = new ScaleLog(min, max);
break;
case ScaleTypes.Power:
scale = new ScalePow(min, max);
break;
case ScaleTypes.SquareRoot:
scale = new ScaleSqrt(min, max);
break;
case ScaleTypes.HistogramEqualization:
scale = new HistogramEqualization(this, min, max);
break;
default:
// use linear otherwise
scale = new ScaleLinear(min, max);
break;
}
try
{
switch (DataType)
{
case DataTypes.Byte:
return GetBitmapByte(min, max, scale);
case DataTypes.Int16:
return GetBitmapShort(min, max, scale);
case DataTypes.Int32:
return GetBitmapInt(min, max, scale);
case DataTypes.Float:
return GetBitmapFloat(min, max, scale);
case DataTypes.Double:
return GetBitmapDouble(min, max, scale);
default:
// case DataTypes.None:
return new Bitmap(100, 100);
}
}
catch
{
return new Bitmap(10,10);
}
}