forked from p30928647/excelize
#65 fn: IMSIN, IMSINH, IMSQRT, IMSUB, IMSUM, IMTAN
This commit is contained in:
parent
f8f699a172
commit
3345e89b96
116
calc.go
116
calc.go
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@ -302,6 +302,12 @@ var tokenPriority = map[string]int{
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// IMEXP
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// IMEXP
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// IMLN
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// IMLN
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// IMLOG10
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// IMLOG10
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// IMSIN
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// IMSINH
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// IMSQRT
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// IMSUB
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// IMSUM
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// IMTAN
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// INT
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// INT
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// ISBLANK
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// ISBLANK
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// ISERR
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// ISERR
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@ -1490,7 +1496,7 @@ func (fn *formulaFuncs) COMPLEX(argsList *list.List) formulaArg {
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// cmplx2str replace complex number string characters.
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// cmplx2str replace complex number string characters.
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func cmplx2str(c, suffix string) string {
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func cmplx2str(c, suffix string) string {
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if c == "(0+0i)" || c == "(0-0i)" {
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if c == "(0+0i)" || c == "(-0+0i)" || c == "(0-0i)" || c == "(-0-0i)" {
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return "0"
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return "0"
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}
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}
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c = strings.TrimPrefix(c, "(")
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c = strings.TrimPrefix(c, "(")
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@ -1504,7 +1510,7 @@ func cmplx2str(c, suffix string) string {
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c = strings.TrimPrefix(c, "0+")
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c = strings.TrimPrefix(c, "0+")
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c = strings.TrimSuffix(c, "+0i")
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c = strings.TrimSuffix(c, "+0i")
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c = strings.TrimSuffix(c, "-0i")
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c = strings.TrimSuffix(c, "-0i")
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c = strings.NewReplacer("+1i", "i", "-1i", "-i").Replace(c)
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c = strings.NewReplacer("+1i", "+i", "-1i", "-i").Replace(c)
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c = strings.Replace(c, "i", suffix, -1)
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c = strings.Replace(c, "i", suffix, -1)
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return c
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return c
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}
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}
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@ -1851,6 +1857,112 @@ func (fn *formulaFuncs) IMLOG10(argsList *list.List) formulaArg {
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return newStringFormulaArg(cmplx2str(fmt.Sprint(num), "i"))
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return newStringFormulaArg(cmplx2str(fmt.Sprint(num), "i"))
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}
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}
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// IMSIN function returns the Sine of a supplied complex number. The syntax of
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// the function is:
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//
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// IMSIN(inumber)
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//
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func (fn *formulaFuncs) IMSIN(argsList *list.List) formulaArg {
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if argsList.Len() != 1 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMSIN requires 1 argument")
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}
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inumber, err := strconv.ParseComplex(str2cmplx(argsList.Front().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(cmplx.Sin(inumber)), "i"))
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}
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// IMSINH function returns the hyperbolic sine of a supplied complex number.
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// The syntax of the function is:
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//
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// IMSINH(inumber)
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//
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func (fn *formulaFuncs) IMSINH(argsList *list.List) formulaArg {
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if argsList.Len() != 1 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMSINH requires 1 argument")
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}
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inumber, err := strconv.ParseComplex(str2cmplx(argsList.Front().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(cmplx.Sinh(inumber)), "i"))
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}
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// IMSQRT function returns the square root of a supplied complex number. The
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// syntax of the function is:
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//
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// IMSQRT(inumber)
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//
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func (fn *formulaFuncs) IMSQRT(argsList *list.List) formulaArg {
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if argsList.Len() != 1 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMSQRT requires 1 argument")
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}
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inumber, err := strconv.ParseComplex(str2cmplx(argsList.Front().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(cmplx.Sqrt(inumber)), "i"))
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}
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// IMSUB function calculates the difference between two complex numbers
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// (i.e. subtracts one complex number from another). The syntax of the
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// function is:
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//
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// IMSUB(inumber1,inumber2)
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//
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func (fn *formulaFuncs) IMSUB(argsList *list.List) formulaArg {
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if argsList.Len() != 2 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMSUB requires 2 arguments")
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}
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i1, err := strconv.ParseComplex(str2cmplx(argsList.Front().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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i2, err := strconv.ParseComplex(str2cmplx(argsList.Back().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(i1-i2), "i"))
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}
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// IMSUM function calculates the sum of two or more complex numbers. The
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// syntax of the function is:
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//
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// IMSUM(inumber1,inumber2,...)
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//
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func (fn *formulaFuncs) IMSUM(argsList *list.List) formulaArg {
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if argsList.Len() < 1 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMSUM requires at least 1 argument")
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}
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var result complex128
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for arg := argsList.Front(); arg != nil; arg = arg.Next() {
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token := arg.Value.(formulaArg)
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num, err := strconv.ParseComplex(str2cmplx(token.Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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result += num
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(result), "i"))
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}
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// IMTAN function returns the tangent of a supplied complex number. The syntax
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// of the function is:
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//
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// IMTAN(inumber)
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//
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func (fn *formulaFuncs) IMTAN(argsList *list.List) formulaArg {
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if argsList.Len() != 1 {
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return newErrorFormulaArg(formulaErrorVALUE, "IMTAN requires 1 argument")
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}
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inumber, err := strconv.ParseComplex(str2cmplx(argsList.Front().Value.(formulaArg).Value()), 128)
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if err != nil {
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return newErrorFormulaArg(formulaErrorNUM, err.Error())
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}
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return newStringFormulaArg(cmplx2str(fmt.Sprint(cmplx.Tan(inumber)), "i"))
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}
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// OCT2BIN function converts an Octal (Base 8) number into a Binary (Base 2)
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// OCT2BIN function converts an Octal (Base 8) number into a Binary (Base 2)
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// number. The syntax of the function is:
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// number. The syntax of the function is:
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//
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//
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49
calc_test.go
49
calc_test.go
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@ -167,6 +167,36 @@ func TestCalcCellValue(t *testing.T) {
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"=IMLOG10(\"3+0.5i\")": "0.48307086636951624+0.07172315929479262i",
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"=IMLOG10(\"3+0.5i\")": "0.48307086636951624+0.07172315929479262i",
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"=IMLOG10(\"2-i\")": "0.34948500216800943-0.20135959813668655i",
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"=IMLOG10(\"2-i\")": "0.34948500216800943-0.20135959813668655i",
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"=IMLOG10(COMPLEX(1,-1))": "0.1505149978319906-0.3410940884604603i",
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"=IMLOG10(COMPLEX(1,-1))": "0.1505149978319906-0.3410940884604603i",
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// IMSIN
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"=IMSIN(0.5)": "0.479425538604203",
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"=IMSIN(\"3+0.5i\")": "0.15913058529843999-0.5158804424525267i",
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"=IMSIN(\"2-i\")": "1.4031192506220405+0.4890562590412937i",
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"=IMSIN(COMPLEX(1,-1))": "1.2984575814159773-0.6349639147847361i",
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// IMSINH
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"=IMSINH(-0)": "0",
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"=IMSINH(0.5)": "0.521095305493747",
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"=IMSINH(\"3+0.5i\")": "8.791512343493714+4.82669427481082i",
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"=IMSINH(\"2-i\")": "1.9596010414216063-3.165778513216168i",
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"=IMSINH(COMPLEX(1,-1))": "0.6349639147847361-1.2984575814159773i",
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// IMSQRT
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"=IMSQRT(\"i\")": "0.7071067811865476+0.7071067811865476i",
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"=IMSQRT(\"2-i\")": "1.455346690225355-0.34356074972251244i",
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"=IMSQRT(\"5+2i\")": "2.27872385417085+0.4388421169022545i",
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"=IMSQRT(6)": "2.449489742783178",
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"=IMSQRT(\"-2-4i\")": "1.1117859405028423-1.7989074399478673i",
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// IMSUB
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"=IMSUB(\"5+i\",\"1+4i\")": "4-3i",
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"=IMSUB(\"9+2i\",6)": "3+2i",
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"=IMSUB(COMPLEX(5,2),COMPLEX(0,1))": "5+i",
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// IMSUM
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"=IMSUM(\"1-i\",\"5+10i\",2)": "8+9i",
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"=IMSUM(COMPLEX(5,2),COMPLEX(0,1))": "5+3i",
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// IMTAN
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"=IMTAN(-0)": "0",
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"=IMTAN(0.5)": "0.546302489843791",
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"=IMTAN(\"3+0.5i\")": "-0.11162105077158344+0.46946999342588536i",
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"=IMTAN(\"2-i\")": "-0.24345820118572523-1.16673625724092i",
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"=IMTAN(COMPLEX(1,-1))": "0.2717525853195117-1.0839233273386948i",
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// OCT2BIN
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// OCT2BIN
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"=OCT2BIN(\"5\")": "101",
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"=OCT2BIN(\"5\")": "101",
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"=OCT2BIN(\"0000000001\")": "1",
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"=OCT2BIN(\"0000000001\")": "1",
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@ -1206,6 +1236,25 @@ func TestCalcCellValue(t *testing.T) {
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"=IMLOG10()": "IMLOG10 requires 1 argument",
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"=IMLOG10()": "IMLOG10 requires 1 argument",
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"=IMLOG10(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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"=IMLOG10(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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"=IMLOG10(0)": "#NUM!",
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"=IMLOG10(0)": "#NUM!",
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// IMSIN
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"=IMSIN()": "IMSIN requires 1 argument",
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"=IMSIN(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// IMSINH
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"=IMSINH()": "IMSINH requires 1 argument",
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"=IMSINH(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// IMSQRT
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"=IMSQRT()": "IMSQRT requires 1 argument",
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"=IMSQRT(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// IMSUB
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"=IMSUB()": "IMSUB requires 2 arguments",
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"=IMSUB(0,\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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"=IMSUB(\"\",0)": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// IMSUM
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"=IMSUM()": "IMSUM requires at least 1 argument",
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"=IMSUM(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// IMTAN
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"=IMTAN()": "IMTAN requires 1 argument",
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"=IMTAN(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax",
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// OCT2BIN
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// OCT2BIN
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"=OCT2BIN()": "OCT2BIN requires at least 1 argument",
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"=OCT2BIN()": "OCT2BIN requires at least 1 argument",
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"=OCT2BIN(1,1,1)": "OCT2BIN allows at most 2 arguments",
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"=OCT2BIN(1,1,1)": "OCT2BIN allows at most 2 arguments",
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