Custom Formula Functions

From Documentation


Custom Formula Functions




Overview

Spreadsheet allows developers to implement their own custom formulas and use these formulas like built-in ones. You can just enter your custom formula like =MYFORMULA(A1) and it works like other formulas. To implement such a custom method is easy: just create a static method and declare it in a ZUL page with EL method or tag library.

Steps to add a custom formula:

  1. Implement a public static method
  2. Declare it in a ZUL page with Spreadsheet component
    You could use ZUML_Reference/ZUML/Processing_Instructions/xel-method or ZUML_Reference/ZUML/Processing_Instructions/taglib/Custom_Taglib

After completing above steps, you can use the custom formula in Spreadsheet.

Implement a Formula

Basically, to implement a formula is just like implementing a static Java method, but depending on your requirements there are several ways to do it. We will introduce them from easy to complicated one.

Basic - Simple Formula

If your formula accepts fixed number of arguments and each argument is a single value (or a reference to a single cell), you can use this way to implement your custom formula.

Assume that we are going to create a money exchange formula that accepts 2 double arguments and return exchange result. The first one is money, and the second one is exchange rate.

public class MyCustomFormulas {

	public static double exchange(double money, double exchangeRate) {
		return money * exchangeRate;
	}	
}

After declaring it in a ZUL page, you can use this formula like =EXCHANGE(10, 31.3) or =EXCHANGE(C3, D3). Spreadsheet will evaluate each argument and pass them to exchange() method. If you pass a reference to a range of cells in this formula, e.g. =EXCHANGE(C3:C4, D3), only the first cell will be evaluated.


Intermediate - Multiple Numeric Arguments Formula

If your formula needs to accept a range of cells with numeric value or variable number of numeric arguments, you should follow the steps below:

  1. Create a class MyNumericFunction inherited from MultiOperandNumericFunction and override its evaluate(double[]).
    MultiOperandNumericFunction can evaluate various arguments to double including a range of cells, string, and boolean etc. You can benefit from this behavior instead of handling various ValueEval by yourself.
  2. Create a public static method with the signature:
    public static ValueEval yourFormulaName(ValueEval[] , int , int )
    You should not change this signature because Spreadsheet recognize your method by the signature.
  3. In your static method (yourFormulaName()), invoke MyNumericFunction.evaluate(ValueEval[] , int , int) to calculate.

Assume that we are going to create a custom formula that accepts variable number of numeric arguments and sums them all.

public class MyCustomFormulas {

	private static Function MY_SUBTOTAL = 
			new MultiOperandNumericFunction(false, false) {
		
		@Override
		protected double evaluate(double[] values) throws EvaluationException {
			double sum = 0;
			for (int i = 0 ; i < values.length ; i++){
				sum += values[i];
			}
			return sum;
		}
	}; 
	
	public static ValueEval mySubtotal(ValueEval[] args, int srcCellRow, int srcCellCol){
		return MY_SUBTOTAL.evaluate(args, srcCellRow, srcCellCol); 
	}
}
  • Line 4: MultiOperandNumericFunction's constructor has 2 arguments. The first parameter determines whether to evaluate boolean value. If it's true, evaluator will evaluate boolean value to number. TRUE to 1 and FALSE to 0. If it's false, boolean value is just ignored. The second parameter determines whether to evaluate blank value. Blank value will be evaluate to 0.
  • Line 7: When another overloading evaluate() is invoked (line 17), MultiOperandNumericFunction can evaluate all arguments to double and pass them to your overridden method, evaluate(). It can save your effort to evaluate each argument. If you encounter a situation that you don't expect, please throw EvaluationException. Because Spreadsheet can handle the exception gracefully.
  • Line 17: Delegate method calling to our subclass of MultiOperandNumericFunction.

Advanced - Manually-Handled Arguments Formula

public class MyCustomFormulas {


	public static ValueEval chain(ValueEval[] args, int srcCellRow, int srcCellCol){
		
		List<StringEval> stringList = new LinkedList<StringEval>();
		for (int i = 0 ; i < args.length ; i++){
			//process an argument like A1:B2
			if (args[i] instanceof TwoDEval) {
				TwoDEval twoDEval = (TwoDEval) args[i];
				int width = twoDEval.getWidth();
				int height = twoDEval.getHeight();
				for (int rowIndex=0; rowIndex<height; rowIndex++) {
					for (int columnIndex=0; columnIndex<width; columnIndex++) {
						ValueEval ve = twoDEval.getValue(rowIndex, columnIndex);
	                   if (ve instanceof StringEval){
	                	   stringList.add((StringEval)ve);
	                   }
					}
				}
				continue;
			}
			//process an argument like C18
			if (args[i] instanceof RefEval){
				ValueEval valueEval = ((RefEval)args[i]).getInnerValueEval();
				if (valueEval instanceof StringEval){
					stringList.add((StringEval)valueEval);
				}
				continue;
			}
			if (args[i] instanceof StringEval){
				stringList.add((StringEval)args[i]);
				continue;
			}
			
		}
		//chain all string value
		StringBuffer result = new StringBuffer();
		for (StringEval s: stringList){
			result.append(s.getStringValue());
		}
		
		return new StringEval(result.toString());
	}
	
}

Declare Custom Formula on a ZUL Page

Using EL Method

Using Tag Library