Missing needed ops for element-wise arithmetic

[ctrueden]

The following script:

#@ OpService ops
#@ Dataset im1
#@ Dataset im2
#@ double alpha
#@output Dataset result

vars = [
	"im1": im1,
	"im2": im2,
	"alpha": alpha
]
result = ops.eval("alpha*im1+(1-alpha)*im2", vars)

fails with the following error:

java.lang.IllegalArgumentException: No matching 'math.multiply' op

Request:
-	math.multiply(
		Double,
		DefaultDataset)

Full details of the error

Candidates:
1. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
2. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyDouble(
==>		ArrayImg arg,
		double value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.DoubleType, net.imglib2.img.basictypeaccess.array.DoubleArray>
3. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyFloat(
==>		ArrayImg arg,
		float value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.FloatType, net.imglib2.img.basictypeaccess.array.FloatArray>
4. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.IntType, net.imglib2.img.basictypeaccess.array.IntArray>
5. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.LongType, net.imglib2.img.basictypeaccess.array.LongArray>
6. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
7. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyUnsignedByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
8. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyUnsignedInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedIntType, net.imglib2.img.basictypeaccess.array.IntArray>
9. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyUnsignedLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedLongType, net.imglib2.img.basictypeaccess.array.LongArray>
10. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$MultiplyUnsignedShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
11. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
12. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyDouble(
==>		ArrayImg arg,
		double value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.DoubleType, net.imglib2.img.basictypeaccess.array.DoubleArray>
13. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyFloat(
==>		ArrayImg arg,
		float value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.FloatType, net.imglib2.img.basictypeaccess.array.FloatArray>
14. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.IntType, net.imglib2.img.basictypeaccess.array.IntArray>
15. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.LongType, net.imglib2.img.basictypeaccess.array.LongArray>
16. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
17. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyUnsignedByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
18. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyUnsignedInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedIntType, net.imglib2.img.basictypeaccess.array.IntArray>
19. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyUnsignedLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedLongType, net.imglib2.img.basictypeaccess.array.LongArray>
20. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$MultiplyUnsignedShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
21. 	(IterableInterval out?) =
	net.imagej.ops.math.IIToIIOutputII$Multiply(
		IterableInterval out?,
==>		IterableInterval in1,
		IterableInterval in2)
	Inconvertible type: java.lang.Double => net.imglib2.IterableInterval<capture of ? extends net.imglib2.type.numeric.NumericType<capture of ?>>
22. 	(NumericType out?) =
	net.imagej.ops.math.NumericTypeBinaryMath$Multiply(
		NumericType out?,
==>		NumericType in1,
		NumericType in2)
	Inconvertible type: java.lang.Double => capture of ?
23. 	(int result) =
	net.imagej.ops.math.PrimitiveMath$IntegerMultiply(
		int a,
==>		int b)
	Inconvertible type: net.imagej.DefaultDataset => int
24. 	(long result) =
	net.imagej.ops.math.PrimitiveMath$LongMultiply(
		long a,
==>		long b)
	Inconvertible type: net.imagej.DefaultDataset => long
25. 	(float result) =
	net.imagej.ops.math.PrimitiveMath$FloatMultiply(
		float a,
==>		float b)
	Inconvertible type: net.imagej.DefaultDataset => float
26. 	(double result) =
	net.imagej.ops.math.PrimitiveMath$DoubleMultiply(
		double a,
==>		double b)
	Inconvertible type: net.imagej.DefaultDataset => double
27. 	(RealType out) =
	net.imagej.ops.math.BinaryRealTypeMath$Multiply(
		RealType out,
		RealType in1,
		RealType in2)
	Not enough arguments: 2 < 3
28. 	(IterableInterval out?) =
	net.imagej.ops.math.ConstantToIIOutputII$Multiply(
		IterableInterval out?,
==>		IterableInterval in,
		NumericType value)
	Inconvertible type: java.lang.Double => net.imglib2.IterableInterval<capture of ? extends net.imglib2.type.numeric.NumericType<capture of ?>>
29. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyByte(
==>		PlanarImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.ByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
30. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyDouble(
==>		PlanarImg arg,
		double value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.real.DoubleType, net.imglib2.img.basictypeaccess.array.DoubleArray>
31. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyFloat(
==>		PlanarImg arg,
		float value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.real.FloatType, net.imglib2.img.basictypeaccess.array.FloatArray>
32. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyInt(
==>		PlanarImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.IntType, net.imglib2.img.basictypeaccess.array.IntArray>
33. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyLong(
==>		PlanarImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.LongType, net.imglib2.img.basictypeaccess.array.LongArray>
34. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyShort(
==>		PlanarImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.ShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
35. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyUnsignedByte(
==>		PlanarImg arg,
		byte value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.UnsignedByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
36. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyUnsignedInt(
==>		PlanarImg arg,
		int value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.UnsignedIntType, net.imglib2.img.basictypeaccess.array.IntArray>
37. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyUnsignedLong(
==>		PlanarImg arg,
		long value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.UnsignedLongType, net.imglib2.img.basictypeaccess.array.LongArray>
38. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$MultiplyUnsignedShort(
==>		PlanarImg arg,
		short value)
	Inconvertible type: java.lang.Double => net.imglib2.img.planar.PlanarImg<net.imglib2.type.numeric.integer.UnsignedShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
39. 	(IterableInterval out?) =
	net.imagej.ops.math.IIToRAIOutputII$Multiply(
		IterableInterval out?,
==>		IterableInterval in1,
		RandomAccessibleInterval in2)
	Inconvertible type: java.lang.Double => net.imglib2.IterableInterval<capture of ? extends net.imglib2.type.numeric.NumericType<capture of ?>>
40. 	(RandomAccessibleInterval out) =
	net.imagej.ops.math.ConstantToIIOutputRAI$Multiply(
		RandomAccessibleInterval out,
		IterableInterval in,
		NumericType value)
	Not enough arguments: 2 < 3

	at net.imagej.ops.DefaultOpMatchingService.singleMatch(DefaultOpMatchingService.java:432)
	at net.imagej.ops.DefaultOpMatchingService.findMatch(DefaultOpMatchingService.java:97)
	at net.imagej.ops.DefaultOpMatchingService.findMatch(DefaultOpMatchingService.java:83)
	at net.imagej.ops.OpEnvironment.module(OpEnvironment.java:253)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:136)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:147)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:135)
	at net.imagej.ops.eval.OpEvaluator.mul(OpEvaluator.java:257)
	at org.scijava.parse.eval.AbstractStandardStackEvaluator.execute(AbstractStandardStackEvaluator.java:214)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:405)
	at org.scijava.parse.eval.AbstractStackEvaluator.evaluate(AbstractStackEvaluator.java:70)
	at org.scijava.parse.eval.AbstractEvaluator.evaluate(AbstractEvaluator.java:87)
	at net.imagej.ops.eval.DefaultEval.calculate(DefaultEval.java:69)
	at net.imagej.ops.eval.DefaultEval.calculate(DefaultEval.java:51)
	at net.imagej.ops.special.function.UnaryFunctionOp.run(UnaryFunctionOp.java:74)
	at net.imagej.ops.special.function.AbstractUnaryFunctionOp.run(AbstractUnaryFunctionOp.java:58)
	at org.scijava.command.CommandModule.run(CommandModule.java:199)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:950)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:157)
	at net.imagej.ops.OpEnvironment.eval(OpEnvironment.java:335)
	at net.imagej.ops.OpEnvironment$eval.call(Unknown Source)
	at org.codehaus.groovy.runtime.callsite.CallSiteArray.defaultCall(CallSiteArray.java:48)
	at org.codehaus.groovy.runtime.callsite.AbstractCallSite.call(AbstractCallSite.java:113)
	at org.codehaus.groovy.runtime.callsite.AbstractCallSite.call(AbstractCallSite.java:133)
	at Script1.run(Script1.groovy:12)
	at org.scijava.plugins.scripting.groovy.GroovyScriptEngine.eval(GroovyScriptEngine.java:303)
	at org.scijava.plugins.scripting.groovy.GroovyScriptEngine.eval(GroovyScriptEngine.java:122)
	at javax.script.AbstractScriptEngine.eval(AbstractScriptEngine.java:264)
	at org.scijava.script.ScriptModule.run(ScriptModule.java:160)
	at org.scijava.module.ModuleRunner.run(ModuleRunner.java:168)
	at org.scijava.module.ModuleRunner.call(ModuleRunner.java:127)
	at org.scijava.module.ModuleRunner.call(ModuleRunner.java:66)
	at org.scijava.thread.DefaultThreadService$3.call(DefaultThreadService.java:238)
	at java.util.concurrent.FutureTask.run(FutureTask.java:266)
	at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
	at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
	at java.lang.Thread.run(Thread.java:748)

Switching the order of the arguments of * instead yields:

java.lang.IllegalArgumentException: No matching 'math.add' op

Request:
-	math.add(
		PlanarImg,
		PlanarImg)

Full details of the error

Candidates:
1. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
2. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddDouble(
==>		ArrayImg arg,
		double value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.DoubleType, net.imglib2.img.basictypeaccess.array.DoubleArray>
3. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddFloat(
==>		ArrayImg arg,
		float value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.FloatType, net.imglib2.img.basictypeaccess.array.FloatArray>
4. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.IntType, net.imglib2.img.basictypeaccess.array.IntArray>
5. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.LongType, net.imglib2.img.basictypeaccess.array.LongArray>
6. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
7. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddUnsignedByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
8. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddUnsignedInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedIntType, net.imglib2.img.basictypeaccess.array.IntArray>
9. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddUnsignedLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedLongType, net.imglib2.img.basictypeaccess.array.LongArray>
10. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImageP$AddUnsignedShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
11. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
12. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddDouble(
==>		ArrayImg arg,
		double value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.DoubleType, net.imglib2.img.basictypeaccess.array.DoubleArray>
13. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddFloat(
==>		ArrayImg arg,
		float value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.real.FloatType, net.imglib2.img.basictypeaccess.array.FloatArray>
14. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.IntType, net.imglib2.img.basictypeaccess.array.IntArray>
15. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.LongType, net.imglib2.img.basictypeaccess.array.LongArray>
16. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.ShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
17. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddUnsignedByte(
==>		ArrayImg arg,
		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedByteType, net.imglib2.img.basictypeaccess.array.ByteArray>
18. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddUnsignedInt(
==>		ArrayImg arg,
		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedIntType, net.imglib2.img.basictypeaccess.array.IntArray>
19. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddUnsignedLong(
==>		ArrayImg arg,
		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedLongType, net.imglib2.img.basictypeaccess.array.LongArray>
20. 	(ArrayImg arg) =
	net.imagej.ops.math.ConstantToArrayImage$AddUnsignedShort(
==>		ArrayImg arg,
		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => net.imglib2.img.array.ArrayImg<net.imglib2.type.numeric.integer.UnsignedShortType, net.imglib2.img.basictypeaccess.array.ShortArray>
21. 	(IterableInterval out?) =
	net.imagej.ops.math.IIToIIOutputII$Add(
		IterableInterval out?,
		IterableInterval in1,
		IterableInterval in2)
	Inputs do not conform to op rules
		out = null
		in1 = PlanarImg [512x512]
		in2 = PlanarImg [720x576]
22. 	(NumericType out?) =
	net.imagej.ops.math.NumericTypeBinaryMath$Add(
		NumericType out?,
==>		NumericType in1,
		NumericType in2)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => capture of ?
23. 	(int result) =
	net.imagej.ops.math.PrimitiveMath$IntegerAdd(
==>		int a,
		int b)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => int
24. 	(long result) =
	net.imagej.ops.math.PrimitiveMath$LongAdd(
==>		long a,
		long b)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => long
25. 	(float result) =
	net.imagej.ops.math.PrimitiveMath$FloatAdd(
==>		float a,
		float b)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => float
26. 	(double result) =
	net.imagej.ops.math.PrimitiveMath$DoubleAdd(
==>		double a,
		double b)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => double
27. 	(RealType out) =
	net.imagej.ops.math.BinaryRealTypeMath$Add(
		RealType out,
		RealType in1,
		RealType in2)
	Not enough arguments: 2 < 3
28. 	(IterableInterval out?) =
	net.imagej.ops.math.ConstantToIIOutputII$Add(
		IterableInterval out?,
		IterableInterval in,
==>		NumericType value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => capture of ?
29. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddByte(
		PlanarImg arg,
==>		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => byte
30. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddDouble(
		PlanarImg arg,
==>		double value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => double
31. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddFloat(
		PlanarImg arg,
==>		float value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => float
32. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddInt(
		PlanarImg arg,
==>		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => int
33. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddLong(
		PlanarImg arg,
==>		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => long
34. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddShort(
		PlanarImg arg,
==>		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => short
35. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddUnsignedByte(
		PlanarImg arg,
==>		byte value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => byte
36. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddUnsignedInt(
		PlanarImg arg,
==>		int value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => int
37. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddUnsignedLong(
		PlanarImg arg,
==>		long value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => long
38. 	(PlanarImg arg) =
	net.imagej.ops.math.ConstantToPlanarImage$AddUnsignedShort(
		PlanarImg arg,
==>		short value)
	Inconvertible type: net.imglib2.img.planar.PlanarImg => short
39. 	(IterableInterval out?) =
	net.imagej.ops.math.IIToRAIOutputII$Add(
		IterableInterval out?,
		IterableInterval in1,
		RandomAccessibleInterval in2)
	Inputs do not conform to op rules
		out = null
		in1 = PlanarImg [512x512]
		in2 = PlanarImg [720x576]
40. 	(RandomAccessibleInterval out) =
	net.imagej.ops.math.ConstantToIIOutputRAI$Add(
		RandomAccessibleInterval out,
		IterableInterval in,
		NumericType value)
	Not enough arguments: 2 < 3

	at net.imagej.ops.DefaultOpMatchingService.singleMatch(DefaultOpMatchingService.java:432)
	at net.imagej.ops.DefaultOpMatchingService.findMatch(DefaultOpMatchingService.java:97)
	at net.imagej.ops.DefaultOpMatchingService.findMatch(DefaultOpMatchingService.java:83)
	at net.imagej.ops.OpEnvironment.module(OpEnvironment.java:253)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:136)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:147)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:135)
	at net.imagej.ops.eval.OpEvaluator.add(OpEvaluator.java:294)
	at org.scijava.parse.eval.AbstractStandardStackEvaluator.execute(AbstractStandardStackEvaluator.java:221)
	at net.imagej.ops.eval.OpEvaluator.execute(OpEvaluator.java:405)
	at org.scijava.parse.eval.AbstractStackEvaluator.evaluate(AbstractStackEvaluator.java:70)
	at org.scijava.parse.eval.AbstractEvaluator.evaluate(AbstractEvaluator.java:87)
	at net.imagej.ops.eval.DefaultEval.calculate(DefaultEval.java:69)
	at net.imagej.ops.eval.DefaultEval.calculate(DefaultEval.java:51)
	at net.imagej.ops.special.function.UnaryFunctionOp.run(UnaryFunctionOp.java:74)
	at net.imagej.ops.special.function.AbstractUnaryFunctionOp.run(AbstractUnaryFunctionOp.java:58)
	at org.scijava.command.CommandModule.run(CommandModule.java:199)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:950)
	at net.imagej.ops.OpEnvironment.run(OpEnvironment.java:157)
	at net.imagej.ops.OpEnvironment.eval(OpEnvironment.java:335)
	at net.imagej.ops.OpEnvironment$eval.call(Unknown Source)
	at org.codehaus.groovy.runtime.callsite.CallSiteArray.defaultCall(CallSiteArray.java:48)
	at org.codehaus.groovy.runtime.callsite.AbstractCallSite.call(AbstractCallSite.java:113)
	at org.codehaus.groovy.runtime.callsite.AbstractCallSite.call(AbstractCallSite.java:133)
	at Script2.run(Script2.groovy:12)
	at org.scijava.plugins.scripting.groovy.GroovyScriptEngine.eval(GroovyScriptEngine.java:303)
	at org.scijava.plugins.scripting.groovy.GroovyScriptEngine.eval(GroovyScriptEngine.java:122)
	at javax.script.AbstractScriptEngine.eval(AbstractScriptEngine.java:264)
	at org.scijava.script.ScriptModule.run(ScriptModule.java:160)
	at org.scijava.module.ModuleRunner.run(ModuleRunner.java:168)
	at org.scijava.module.ModuleRunner.call(ModuleRunner.java:127)
	at org.scijava.module.ModuleRunner.call(ModuleRunner.java:66)
	at org.scijava.thread.DefaultThreadService$3.call(DefaultThreadService.java:238)
	at java.util.concurrent.FutureTask.run(FutureTask.java:266)
	at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
	at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
	at java.lang.Thread.run(Thread.java:748)