ref #65, new formula function: EUROCONVERT
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parent
852f211970
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61c71caf4f
83
calc.go
83
calc.go
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@ -442,6 +442,7 @@ type formulaFuncs struct {
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// ERFC
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// ERFC.PRECISE
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// ERROR.TYPE
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// EUROCONVERT
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// EVEN
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// EXACT
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// EXP
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@ -16080,6 +16081,88 @@ func (fn *formulaFuncs) EFFECT(argsList *list.List) formulaArg {
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return newNumberFormulaArg(math.Pow(1+rate.Number/npery.Number, npery.Number) - 1)
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}
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// EUROCONVERT function convert a number to euro or from euro to a
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// participating currency. You can also use it to convert a number from one
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// participating currency to another by using the euro as an intermediary
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// (triangulation). The syntax of the function is:
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//
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// EUROCONVERT(number,sourcecurrency,targetcurrency[,fullprecision,triangulationprecision])
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//
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func (fn *formulaFuncs) EUROCONVERT(argsList *list.List) formulaArg {
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if argsList.Len() < 3 {
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return newErrorFormulaArg(formulaErrorVALUE, "EUROCONVERT requires at least 3 arguments")
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}
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if argsList.Len() > 5 {
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return newErrorFormulaArg(formulaErrorVALUE, "EUROCONVERT allows at most 5 arguments")
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}
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number := argsList.Front().Value.(formulaArg).ToNumber()
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if number.Type != ArgNumber {
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return number
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}
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sourceCurrency := argsList.Front().Next().Value.(formulaArg).Value()
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targetCurrency := argsList.Front().Next().Next().Value.(formulaArg).Value()
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fullPrec, triangulationPrec := newBoolFormulaArg(false), newNumberFormulaArg(0)
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if argsList.Len() >= 4 {
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if fullPrec = argsList.Front().Next().Next().Next().Value.(formulaArg).ToBool(); fullPrec.Type != ArgNumber {
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return fullPrec
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}
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}
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if argsList.Len() == 5 {
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if triangulationPrec = argsList.Back().Value.(formulaArg).ToNumber(); triangulationPrec.Type != ArgNumber {
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return triangulationPrec
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}
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}
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convertTable := map[string][]float64{
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"EUR": {1.0, 2},
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"ATS": {13.7603, 2},
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"BEF": {40.3399, 0},
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"DEM": {1.95583, 2},
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"ESP": {166.386, 0},
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"FIM": {5.94573, 2},
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"FRF": {6.55957, 2},
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"IEP": {0.787564, 2},
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"ITL": {1936.27, 0},
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"LUF": {40.3399, 0},
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"NLG": {2.20371, 2},
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"PTE": {200.482, 2},
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"GRD": {340.750, 2},
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"SIT": {239.640, 2},
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"MTL": {0.429300, 2},
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"CYP": {0.585274, 2},
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"SKK": {30.1260, 2},
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"EEK": {15.6466, 2},
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"LVL": {0.702804, 2},
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"LTL": {3.45280, 2},
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}
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source, ok := convertTable[sourceCurrency]
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if !ok {
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return newErrorFormulaArg(formulaErrorVALUE, formulaErrorVALUE)
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}
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target, ok := convertTable[targetCurrency]
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if !ok {
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return newErrorFormulaArg(formulaErrorVALUE, formulaErrorVALUE)
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}
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if sourceCurrency == targetCurrency {
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return number
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}
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var res float64
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if sourceCurrency == "EUR" {
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res = number.Number * target[0]
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} else {
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intermediate := number.Number / source[0]
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if triangulationPrec.Number != 0 {
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ratio := math.Pow(10, triangulationPrec.Number)
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intermediate = math.Round(intermediate*ratio) / ratio
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}
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res = intermediate * target[0]
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}
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if fullPrec.Number != 1 {
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ratio := math.Pow(10, target[1])
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res = math.Round(res*ratio) / ratio
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}
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return newNumberFormulaArg(res)
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}
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// FV function calculates the Future Value of an investment with periodic
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// constant payments and a constant interest rate. The syntax of the function
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// is:
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15
calc_test.go
15
calc_test.go
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@ -1922,6 +1922,13 @@ func TestCalcCellValue(t *testing.T) {
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// EFFECT
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"=EFFECT(0.1,4)": "0.103812890625",
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"=EFFECT(0.025,2)": "0.02515625",
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// EUROCONVERT
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"=EUROCONVERT(1.47,\"EUR\",\"EUR\")": "1.47",
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"=EUROCONVERT(1.47,\"EUR\",\"DEM\")": "2.88",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\")": "0.44",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",FALSE)": "0.44",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",FALSE,3)": "0.44",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,3)": "0.43810592",
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// FV
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"=FV(0.05/12,60,-1000)": "68006.0828408434",
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"=FV(0.1/4,16,-2000,0,1)": "39729.4608941662",
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@ -3958,6 +3965,14 @@ func TestCalcCellValue(t *testing.T) {
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"=EFFECT(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax",
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"=EFFECT(0,0)": "#NUM!",
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"=EFFECT(1,0)": "#NUM!",
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// EUROCONVERT
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"=EUROCONVERT()": "EUROCONVERT requires at least 3 arguments",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,3,1)": "EUROCONVERT allows at most 5 arguments",
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"=EUROCONVERT(\"\",\"FRF\",\"DEM\",TRUE,3)": "strconv.ParseFloat: parsing \"\": invalid syntax",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",\"\",3)": "strconv.ParseBool: parsing \"\": invalid syntax",
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"=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax",
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"=EUROCONVERT(1.47,\"\",\"DEM\")": "#VALUE!",
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"=EUROCONVERT(1.47,\"FRF\",\"\",TRUE,3)": "#VALUE!",
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// FV
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"=FV()": "FV requires at least 3 arguments",
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"=FV(0,0,0,0,0,0,0)": "FV allows at most 5 arguments",
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